/* MIT License http://www.opensource.org/licenses/mit-license.php Author Tobias Koppers @sokra */ "use strict"; const { equals } = require("./util/ArrayHelpers"); const SortableSet = require("./util/SortableSet"); const makeSerializable = require("./util/makeSerializable"); const { forEachRuntime } = require("./util/runtime"); /** @typedef {import("./Dependency").RuntimeSpec} RuntimeSpec */ /** @typedef {import("./Module")} Module */ /** @typedef {import("./ModuleGraph")} ModuleGraph */ /** @typedef {import("./ModuleGraphConnection")} ModuleGraphConnection */ /** @typedef {import("./util/Hash")} Hash */ /** @typedef {typeof UsageState.OnlyPropertiesUsed | typeof UsageState.NoInfo | typeof UsageState.Unknown | typeof UsageState.Used} RuntimeUsageStateType */ /** @typedef {typeof UsageState.Unused | RuntimeUsageStateType} UsageStateType */ const UsageState = Object.freeze({ Unused: /** @type {0} */ (0), OnlyPropertiesUsed: /** @type {1} */ (1), NoInfo: /** @type {2} */ (2), Unknown: /** @type {3} */ (3), Used: /** @type {4} */ (4) }); const RETURNS_TRUE = () => true; const CIRCULAR = Symbol("circular target"); class RestoreProvidedData { constructor( exports, otherProvided, otherCanMangleProvide, otherTerminalBinding ) { this.exports = exports; this.otherProvided = otherProvided; this.otherCanMangleProvide = otherCanMangleProvide; this.otherTerminalBinding = otherTerminalBinding; } serialize({ write }) { write(this.exports); write(this.otherProvided); write(this.otherCanMangleProvide); write(this.otherTerminalBinding); } static deserialize({ read }) { return new RestoreProvidedData(read(), read(), read(), read()); } } makeSerializable( RestoreProvidedData, "webpack/lib/ModuleGraph", "RestoreProvidedData" ); class ExportsInfo { constructor() { /** @type {Map} */ this._exports = new Map(); this._otherExportsInfo = new ExportInfo(null); this._sideEffectsOnlyInfo = new ExportInfo("*side effects only*"); this._exportsAreOrdered = false; /** @type {ExportsInfo=} */ this._redirectTo = undefined; } /** * @returns {Iterable} all owned exports in any order */ get ownedExports() { return this._exports.values(); } /** * @returns {Iterable} all owned exports in order */ get orderedOwnedExports() { if (!this._exportsAreOrdered) { this._sortExports(); } return this._exports.values(); } /** * @returns {Iterable} all exports in any order */ get exports() { if (this._redirectTo !== undefined) { const map = new Map(this._redirectTo._exports); for (const [key, value] of this._exports) { map.set(key, value); } return map.values(); } return this._exports.values(); } /** * @returns {Iterable} all exports in order */ get orderedExports() { if (!this._exportsAreOrdered) { this._sortExports(); } if (this._redirectTo !== undefined) { const map = new Map( Array.from(this._redirectTo.orderedExports, item => [item.name, item]) ); for (const [key, value] of this._exports) { map.set(key, value); } // sorting should be pretty fast as map contains // a lot of presorted items this._sortExportsMap(map); return map.values(); } return this._exports.values(); } /** * @returns {ExportInfo} the export info of unlisted exports */ get otherExportsInfo() { if (this._redirectTo !== undefined) return this._redirectTo.otherExportsInfo; return this._otherExportsInfo; } _sortExportsMap(exports) { if (exports.size > 1) { const namesInOrder = []; for (const entry of exports.values()) { namesInOrder.push(entry.name); } namesInOrder.sort(); let i = 0; for (const entry of exports.values()) { const name = namesInOrder[i]; if (entry.name !== name) break; i++; } for (; i < namesInOrder.length; i++) { const name = namesInOrder[i]; const correctEntry = exports.get(name); exports.delete(name); exports.set(name, correctEntry); } } } _sortExports() { this._sortExportsMap(this._exports); this._exportsAreOrdered = true; } setRedirectNamedTo(exportsInfo) { if (this._redirectTo === exportsInfo) return false; this._redirectTo = exportsInfo; return true; } setHasProvideInfo() { for (const exportInfo of this._exports.values()) { if (exportInfo.provided === undefined) { exportInfo.provided = false; } if (exportInfo.canMangleProvide === undefined) { exportInfo.canMangleProvide = true; } } if (this._redirectTo !== undefined) { this._redirectTo.setHasProvideInfo(); } else { if (this._otherExportsInfo.provided === undefined) { this._otherExportsInfo.provided = false; } if (this._otherExportsInfo.canMangleProvide === undefined) { this._otherExportsInfo.canMangleProvide = true; } } } setHasUseInfo() { for (const exportInfo of this._exports.values()) { exportInfo.setHasUseInfo(); } this._sideEffectsOnlyInfo.setHasUseInfo(); if (this._redirectTo !== undefined) { this._redirectTo.setHasUseInfo(); } else { this._otherExportsInfo.setHasUseInfo(); if (this._otherExportsInfo.canMangleUse === undefined) { this._otherExportsInfo.canMangleUse = true; } } } /** * @param {string} name export name * @returns {ExportInfo} export info for this name */ getOwnExportInfo(name) { const info = this._exports.get(name); if (info !== undefined) return info; const newInfo = new ExportInfo(name, this._otherExportsInfo); this._exports.set(name, newInfo); this._exportsAreOrdered = false; return newInfo; } /** * @param {string} name export name * @returns {ExportInfo} export info for this name */ getExportInfo(name) { const info = this._exports.get(name); if (info !== undefined) return info; if (this._redirectTo !== undefined) return this._redirectTo.getExportInfo(name); const newInfo = new ExportInfo(name, this._otherExportsInfo); this._exports.set(name, newInfo); this._exportsAreOrdered = false; return newInfo; } /** * @param {string} name export name * @returns {ExportInfo} export info for this name */ getReadOnlyExportInfo(name) { const info = this._exports.get(name); if (info !== undefined) return info; if (this._redirectTo !== undefined) return this._redirectTo.getReadOnlyExportInfo(name); return this._otherExportsInfo; } /** * @param {string[]} name export name * @returns {ExportInfo | undefined} export info for this name */ getReadOnlyExportInfoRecursive(name) { const exportInfo = this.getReadOnlyExportInfo(name[0]); if (name.length === 1) return exportInfo; if (!exportInfo.exportsInfo) return undefined; return exportInfo.exportsInfo.getReadOnlyExportInfoRecursive(name.slice(1)); } /** * @param {string[]=} name the export name * @returns {ExportsInfo | undefined} the nested exports info */ getNestedExportsInfo(name) { if (Array.isArray(name) && name.length > 0) { const info = this.getReadOnlyExportInfo(name[0]); if (!info.exportsInfo) return undefined; return info.exportsInfo.getNestedExportsInfo(name.slice(1)); } return this; } /** * @param {boolean=} canMangle true, if exports can still be mangled (defaults to false) * @param {Set=} excludeExports list of unaffected exports * @param {any=} targetKey use this as key for the target * @param {ModuleGraphConnection=} targetModule set this module as target * @param {number=} priority priority * @returns {boolean} true, if this call changed something */ setUnknownExportsProvided( canMangle, excludeExports, targetKey, targetModule, priority ) { let changed = false; if (excludeExports) { for (const name of excludeExports) { // Make sure these entries exist, so they can get different info this.getExportInfo(name); } } for (const exportInfo of this._exports.values()) { if (!canMangle && exportInfo.canMangleProvide !== false) { exportInfo.canMangleProvide = false; changed = true; } if (excludeExports && excludeExports.has(exportInfo.name)) continue; if (exportInfo.provided !== true && exportInfo.provided !== null) { exportInfo.provided = null; changed = true; } if (targetKey) { exportInfo.setTarget(targetKey, targetModule, [exportInfo.name], -1); } } if (this._redirectTo !== undefined) { if ( this._redirectTo.setUnknownExportsProvided( canMangle, excludeExports, targetKey, targetModule, priority ) ) { changed = true; } } else { if ( this._otherExportsInfo.provided !== true && this._otherExportsInfo.provided !== null ) { this._otherExportsInfo.provided = null; changed = true; } if (!canMangle && this._otherExportsInfo.canMangleProvide !== false) { this._otherExportsInfo.canMangleProvide = false; changed = true; } if (targetKey) { this._otherExportsInfo.setTarget( targetKey, targetModule, undefined, priority ); } } return changed; } /** * @param {RuntimeSpec} runtime the runtime * @returns {boolean} true, when something changed */ setUsedInUnknownWay(runtime) { let changed = false; for (const exportInfo of this._exports.values()) { if (exportInfo.setUsedInUnknownWay(runtime)) { changed = true; } } if (this._redirectTo !== undefined) { if (this._redirectTo.setUsedInUnknownWay(runtime)) { changed = true; } } else { if ( this._otherExportsInfo.setUsedConditionally( used => used < UsageState.Unknown, UsageState.Unknown, runtime ) ) { changed = true; } if (this._otherExportsInfo.canMangleUse !== false) { this._otherExportsInfo.canMangleUse = false; changed = true; } } return changed; } /** * @param {RuntimeSpec} runtime the runtime * @returns {boolean} true, when something changed */ setUsedWithoutInfo(runtime) { let changed = false; for (const exportInfo of this._exports.values()) { if (exportInfo.setUsedWithoutInfo(runtime)) { changed = true; } } if (this._redirectTo !== undefined) { if (this._redirectTo.setUsedWithoutInfo(runtime)) { changed = true; } } else { if (this._otherExportsInfo.setUsed(UsageState.NoInfo, runtime)) { changed = true; } if (this._otherExportsInfo.canMangleUse !== false) { this._otherExportsInfo.canMangleUse = false; changed = true; } } return changed; } /** * @param {RuntimeSpec} runtime the runtime * @returns {boolean} true, when something changed */ setAllKnownExportsUsed(runtime) { let changed = false; for (const exportInfo of this._exports.values()) { if (!exportInfo.provided) continue; if (exportInfo.setUsed(UsageState.Used, runtime)) { changed = true; } } return changed; } /** * @param {RuntimeSpec} runtime the runtime * @returns {boolean} true, when something changed */ setUsedForSideEffectsOnly(runtime) { return this._sideEffectsOnlyInfo.setUsedConditionally( used => used === UsageState.Unused, UsageState.Used, runtime ); } /** * @param {RuntimeSpec} runtime the runtime * @returns {boolean} true, when the module exports are used in any way */ isUsed(runtime) { if (this._redirectTo !== undefined) { if (this._redirectTo.isUsed(runtime)) { return true; } } else { if (this._otherExportsInfo.getUsed(runtime) !== UsageState.Unused) { return true; } } for (const exportInfo of this._exports.values()) { if (exportInfo.getUsed(runtime) !== UsageState.Unused) { return true; } } return false; } /** * @param {RuntimeSpec} runtime the runtime * @returns {boolean} true, when the module is used in any way */ isModuleUsed(runtime) { if (this.isUsed(runtime)) return true; if (this._sideEffectsOnlyInfo.getUsed(runtime) !== UsageState.Unused) return true; return false; } /** * @param {RuntimeSpec} runtime the runtime * @returns {SortableSet | boolean | null} set of used exports, or true (when namespace object is used), or false (when unused), or null (when unknown) */ getUsedExports(runtime) { if (!this._redirectTo !== undefined) { switch (this._otherExportsInfo.getUsed(runtime)) { case UsageState.NoInfo: return null; case UsageState.Unknown: case UsageState.OnlyPropertiesUsed: case UsageState.Used: return true; } } const array = []; if (!this._exportsAreOrdered) this._sortExports(); for (const exportInfo of this._exports.values()) { switch (exportInfo.getUsed(runtime)) { case UsageState.NoInfo: return null; case UsageState.Unknown: return true; case UsageState.OnlyPropertiesUsed: case UsageState.Used: array.push(exportInfo.name); } } if (this._redirectTo !== undefined) { const inner = this._redirectTo.getUsedExports(runtime); if (inner === null) return null; if (inner === true) return true; if (inner !== false) { for (const item of inner) { array.push(item); } } } if (array.length === 0) { switch (this._sideEffectsOnlyInfo.getUsed(runtime)) { case UsageState.NoInfo: return null; case UsageState.Unused: return false; } } return new SortableSet(array); } /** * @returns {null | true | string[]} list of exports when known */ getProvidedExports() { if (!this._redirectTo !== undefined) { switch (this._otherExportsInfo.provided) { case undefined: return null; case null: return true; case true: return true; } } const array = []; if (!this._exportsAreOrdered) this._sortExports(); for (const exportInfo of this._exports.values()) { switch (exportInfo.provided) { case undefined: return null; case null: return true; case true: array.push(exportInfo.name); } } if (this._redirectTo !== undefined) { const inner = this._redirectTo.getProvidedExports(); if (inner === null) return null; if (inner === true) return true; for (const item of inner) { if (!array.includes(item)) { array.push(item); } } } return array; } /** * @param {RuntimeSpec} runtime the runtime * @returns {ExportInfo[]} exports that are relevant (not unused and potential provided) */ getRelevantExports(runtime) { const list = []; for (const exportInfo of this._exports.values()) { const used = exportInfo.getUsed(runtime); if (used === UsageState.Unused) continue; if (exportInfo.provided === false) continue; list.push(exportInfo); } if (this._redirectTo !== undefined) { for (const exportInfo of this._redirectTo.getRelevantExports(runtime)) { if (!this._exports.has(exportInfo.name)) list.push(exportInfo); } } if ( this._otherExportsInfo.provided !== false && this._otherExportsInfo.getUsed(runtime) !== UsageState.Unused ) { list.push(this._otherExportsInfo); } return list; } /** * @param {string | string[]} name the name of the export * @returns {boolean | undefined | null} if the export is provided */ isExportProvided(name) { if (Array.isArray(name)) { const info = this.getReadOnlyExportInfo(name[0]); if (info.exportsInfo && name.length > 1) { return info.exportsInfo.isExportProvided(name.slice(1)); } return info.provided ? name.length === 1 || undefined : info.provided; } const info = this.getReadOnlyExportInfo(name); return info.provided; } /** * @param {RuntimeSpec} runtime runtime * @returns {string} key representing the usage */ getUsageKey(runtime) { const key = []; if (this._redirectTo !== undefined) { key.push(this._redirectTo.getUsageKey(runtime)); } else { key.push(this._otherExportsInfo.getUsed(runtime)); } key.push(this._sideEffectsOnlyInfo.getUsed(runtime)); for (const exportInfo of this.orderedOwnedExports) { key.push(exportInfo.getUsed(runtime)); } return key.join("|"); } /** * @param {RuntimeSpec} runtimeA first runtime * @param {RuntimeSpec} runtimeB second runtime * @returns {boolean} true, when equally used */ isEquallyUsed(runtimeA, runtimeB) { if (this._redirectTo !== undefined) { if (!this._redirectTo.isEquallyUsed(runtimeA, runtimeB)) return false; } else { if ( this._otherExportsInfo.getUsed(runtimeA) !== this._otherExportsInfo.getUsed(runtimeB) ) { return false; } } if ( this._sideEffectsOnlyInfo.getUsed(runtimeA) !== this._sideEffectsOnlyInfo.getUsed(runtimeB) ) { return false; } for (const exportInfo of this.ownedExports) { if (exportInfo.getUsed(runtimeA) !== exportInfo.getUsed(runtimeB)) return false; } return true; } /** * @param {string | string[]} name export name * @param {RuntimeSpec} runtime check usage for this runtime only * @returns {UsageStateType} usage status */ getUsed(name, runtime) { if (Array.isArray(name)) { if (name.length === 0) return this.otherExportsInfo.getUsed(runtime); let info = this.getReadOnlyExportInfo(name[0]); if (info.exportsInfo && name.length > 1) { return info.exportsInfo.getUsed(name.slice(1), runtime); } return info.getUsed(runtime); } let info = this.getReadOnlyExportInfo(name); return info.getUsed(runtime); } /** * @param {string | string[]} name the export name * @param {RuntimeSpec} runtime check usage for this runtime only * @returns {string | string[] | false} the used name */ getUsedName(name, runtime) { if (Array.isArray(name)) { // TODO improve this if (name.length === 0) { if (!this.isUsed(runtime)) return false; return name; } let info = this.getReadOnlyExportInfo(name[0]); const x = info.getUsedName(name[0], runtime); if (x === false) return false; const arr = x === name[0] && name.length === 1 ? name : [x]; if (name.length === 1) { return arr; } if ( info.exportsInfo && info.getUsed(runtime) === UsageState.OnlyPropertiesUsed ) { const nested = info.exportsInfo.getUsedName(name.slice(1), runtime); if (!nested) return false; return arr.concat(nested); } else { return arr.concat(name.slice(1)); } } else { let info = this.getReadOnlyExportInfo(name); const usedName = info.getUsedName(name, runtime); return usedName; } } /** * @param {Hash} hash the hash * @param {RuntimeSpec} runtime the runtime * @returns {void} */ updateHash(hash, runtime) { this._updateHash(hash, runtime, new Set()); } /** * @param {Hash} hash the hash * @param {RuntimeSpec} runtime the runtime * @param {Set} alreadyVisitedExportsInfo for circular references * @returns {void} */ _updateHash(hash, runtime, alreadyVisitedExportsInfo) { const set = new Set(alreadyVisitedExportsInfo); set.add(this); for (const exportInfo of this.orderedExports) { if (exportInfo.hasInfo(this._otherExportsInfo, runtime)) { exportInfo._updateHash(hash, runtime, set); } } this._sideEffectsOnlyInfo._updateHash(hash, runtime, set); this._otherExportsInfo._updateHash(hash, runtime, set); if (this._redirectTo !== undefined) { this._redirectTo._updateHash(hash, runtime, set); } } getRestoreProvidedData() { const otherProvided = this._otherExportsInfo.provided; const otherCanMangleProvide = this._otherExportsInfo.canMangleProvide; const otherTerminalBinding = this._otherExportsInfo.terminalBinding; const exports = []; for (const exportInfo of this.orderedExports) { if ( exportInfo.provided !== otherProvided || exportInfo.canMangleProvide !== otherCanMangleProvide || exportInfo.terminalBinding !== otherTerminalBinding || exportInfo.exportsInfoOwned ) { exports.push({ name: exportInfo.name, provided: exportInfo.provided, canMangleProvide: exportInfo.canMangleProvide, terminalBinding: exportInfo.terminalBinding, exportsInfo: exportInfo.exportsInfoOwned ? exportInfo.exportsInfo.getRestoreProvidedData() : undefined }); } } return new RestoreProvidedData( exports, otherProvided, otherCanMangleProvide, otherTerminalBinding ); } restoreProvided({ otherProvided, otherCanMangleProvide, otherTerminalBinding, exports }) { let wasEmpty = true; for (const exportInfo of this._exports.values()) { wasEmpty = false; exportInfo.provided = otherProvided; exportInfo.canMangleProvide = otherCanMangleProvide; exportInfo.terminalBinding = otherTerminalBinding; } this._otherExportsInfo.provided = otherProvided; this._otherExportsInfo.canMangleProvide = otherCanMangleProvide; this._otherExportsInfo.terminalBinding = otherTerminalBinding; for (const exp of exports) { const exportInfo = this.getExportInfo(exp.name); exportInfo.provided = exp.provided; exportInfo.canMangleProvide = exp.canMangleProvide; exportInfo.terminalBinding = exp.terminalBinding; if (exp.exportsInfo) { const exportsInfo = exportInfo.createNestedExportsInfo(); exportsInfo.restoreProvided(exp.exportsInfo); } } if (wasEmpty) this._exportsAreOrdered = true; } } class ExportInfo { /** * @param {string} name the original name of the export * @param {ExportInfo=} initFrom init values from this ExportInfo */ constructor(name, initFrom) { /** @type {string} */ this.name = name; /** @private @type {string | null} */ this._usedName = initFrom ? initFrom._usedName : null; /** @private @type {UsageStateType} */ this._globalUsed = initFrom ? initFrom._globalUsed : undefined; /** @private @type {Map} */ this._usedInRuntime = initFrom && initFrom._usedInRuntime ? new Map(initFrom._usedInRuntime) : undefined; /** @private @type {boolean} */ this._hasUseInRuntimeInfo = initFrom ? initFrom._hasUseInRuntimeInfo : false; /** * true: it is provided * false: it is not provided * null: only the runtime knows if it is provided * undefined: it was not determined if it is provided * @type {boolean | null | undefined} */ this.provided = initFrom ? initFrom.provided : undefined; /** * is the export a terminal binding that should be checked for export star conflicts * @type {boolean} */ this.terminalBinding = initFrom ? initFrom.terminalBinding : false; /** * true: it can be mangled * false: is can not be mangled * undefined: it was not determined if it can be mangled * @type {boolean | undefined} */ this.canMangleProvide = initFrom ? initFrom.canMangleProvide : undefined; /** * true: it can be mangled * false: is can not be mangled * undefined: it was not determined if it can be mangled * @type {boolean | undefined} */ this.canMangleUse = initFrom ? initFrom.canMangleUse : undefined; /** @type {boolean} */ this.exportsInfoOwned = false; /** @type {ExportsInfo=} */ this.exportsInfo = undefined; /** @type {Map=} */ this._target = undefined; if (initFrom && initFrom._target) { this._target = new Map(); for (const [key, value] of initFrom._target) { this._target.set(key, { connection: value.connection, export: value.export || [name], priority: value.priority }); } } /** @type {Map=} */ this._maxTarget = undefined; } // TODO webpack 5 remove /** @private */ get used() { throw new Error("REMOVED"); } /** @private */ get usedName() { throw new Error("REMOVED"); } /** * @private * @param {*} v v */ set used(v) { throw new Error("REMOVED"); } /** * @private * @param {*} v v */ set usedName(v) { throw new Error("REMOVED"); } get canMangle() { switch (this.canMangleProvide) { case undefined: return this.canMangleUse === false ? false : undefined; case false: return false; case true: switch (this.canMangleUse) { case undefined: return undefined; case false: return false; case true: return true; } } throw new Error( `Unexpected flags for canMangle ${this.canMangleProvide} ${this.canMangleUse}` ); } /** * @param {RuntimeSpec} runtime only apply to this runtime * @returns {boolean} true, when something changed */ setUsedInUnknownWay(runtime) { let changed = false; if ( this.setUsedConditionally( used => used < UsageState.Unknown, UsageState.Unknown, runtime ) ) { changed = true; } if (this.canMangleUse !== false) { this.canMangleUse = false; changed = true; } return changed; } /** * @param {RuntimeSpec} runtime only apply to this runtime * @returns {boolean} true, when something changed */ setUsedWithoutInfo(runtime) { let changed = false; if (this.setUsed(UsageState.NoInfo, runtime)) { changed = true; } if (this.canMangleUse !== false) { this.canMangleUse = false; changed = true; } return changed; } setHasUseInfo() { if (!this._hasUseInRuntimeInfo) { this._hasUseInRuntimeInfo = true; } if (this.canMangleUse === undefined) { this.canMangleUse = true; } if (this.exportsInfoOwned) { this.exportsInfo.setHasUseInfo(); } } /** * @param {function(UsageStateType): boolean} condition compare with old value * @param {UsageStateType} newValue set when condition is true * @param {RuntimeSpec} runtime only apply to this runtime * @returns {boolean} true when something has changed */ setUsedConditionally(condition, newValue, runtime) { if (runtime === undefined) { if (this._globalUsed === undefined) { this._globalUsed = newValue; return true; } else { if (this._globalUsed !== newValue && condition(this._globalUsed)) { this._globalUsed = newValue; return true; } } } else if (this._usedInRuntime === undefined) { if (newValue !== UsageState.Unused && condition(UsageState.Unused)) { this._usedInRuntime = new Map(); forEachRuntime(runtime, runtime => this._usedInRuntime.set(runtime, newValue) ); return true; } } else { let changed = false; forEachRuntime(runtime, runtime => { /** @type {UsageStateType} */ let oldValue = this._usedInRuntime.get(runtime); if (oldValue === undefined) oldValue = UsageState.Unused; if (newValue !== oldValue && condition(oldValue)) { if (newValue === UsageState.Unused) { this._usedInRuntime.delete(runtime); } else { this._usedInRuntime.set(runtime, newValue); } changed = true; } }); if (changed) { if (this._usedInRuntime.size === 0) this._usedInRuntime = undefined; return true; } } return false; } /** * @param {UsageStateType} newValue new value of the used state * @param {RuntimeSpec} runtime only apply to this runtime * @returns {boolean} true when something has changed */ setUsed(newValue, runtime) { if (runtime === undefined) { if (this._globalUsed !== newValue) { this._globalUsed = newValue; return true; } } else if (this._usedInRuntime === undefined) { if (newValue !== UsageState.Unused) { this._usedInRuntime = new Map(); forEachRuntime(runtime, runtime => this._usedInRuntime.set(runtime, newValue) ); return true; } } else { let changed = false; forEachRuntime(runtime, runtime => { /** @type {UsageStateType} */ let oldValue = this._usedInRuntime.get(runtime); if (oldValue === undefined) oldValue = UsageState.Unused; if (newValue !== oldValue) { if (newValue === UsageState.Unused) { this._usedInRuntime.delete(runtime); } else { this._usedInRuntime.set(runtime, newValue); } changed = true; } }); if (changed) { if (this._usedInRuntime.size === 0) this._usedInRuntime = undefined; return true; } } return false; } /** * @param {any} key the key * @returns {boolean} true, if something has changed */ unsetTarget(key) { if (!this._target) return false; if (this._target.delete(key)) { this._maxTarget = undefined; return true; } return false; } /** * @param {any} key the key * @param {ModuleGraphConnection} connection the target module if a single one * @param {string[]=} exportName the exported name * @param {number=} priority priority * @returns {boolean} true, if something has changed */ setTarget(key, connection, exportName, priority = 0) { if (exportName) exportName = [...exportName]; if (!this._target) { this._target = new Map(); this._target.set(key, { connection, export: exportName, priority }); return true; } const oldTarget = this._target.get(key); if (!oldTarget) { if (oldTarget === null && !connection) return false; this._target.set(key, { connection, export: exportName, priority }); this._maxTarget = undefined; return true; } if ( oldTarget.connection !== connection || oldTarget.priority !== priority || (exportName ? !oldTarget.export || !equals(oldTarget.export, exportName) : oldTarget.export) ) { oldTarget.connection = connection; oldTarget.export = exportName; oldTarget.priority = priority; this._maxTarget = undefined; return true; } return false; } /** * @param {RuntimeSpec} runtime for this runtime * @returns {UsageStateType} usage state */ getUsed(runtime) { if (!this._hasUseInRuntimeInfo) return UsageState.NoInfo; if (this._globalUsed !== undefined) return this._globalUsed; if (this._usedInRuntime === undefined) { return UsageState.Unused; } else if (typeof runtime === "string") { const value = this._usedInRuntime.get(runtime); return value === undefined ? UsageState.Unused : value; } else if (runtime === undefined) { /** @type {UsageStateType} */ let max = UsageState.Unused; for (const value of this._usedInRuntime.values()) { if (value === UsageState.Used) { return UsageState.Used; } if (max < value) max = value; } return max; } else { /** @type {UsageStateType} */ let max = UsageState.Unused; for (const item of runtime) { const value = this._usedInRuntime.get(item); if (value !== undefined) { if (value === UsageState.Used) { return UsageState.Used; } if (max < value) max = value; } } return max; } } /** * get used name * @param {string | undefined} fallbackName fallback name for used exports with no name * @param {RuntimeSpec} runtime check usage for this runtime only * @returns {string | false} used name */ getUsedName(fallbackName, runtime) { if (this._hasUseInRuntimeInfo) { if (this._globalUsed !== undefined) { if (this._globalUsed === UsageState.Unused) return false; } else { if (this._usedInRuntime === undefined) return false; if (typeof runtime === "string") { if (!this._usedInRuntime.has(runtime)) { return false; } } else if (runtime !== undefined) { if ( Array.from(runtime).every( runtime => !this._usedInRuntime.has(runtime) ) ) { return false; } } } } if (this._usedName !== null) return this._usedName; return this.name || fallbackName; } /** * @returns {boolean} true, when a mangled name of this export is set */ hasUsedName() { return this._usedName !== null; } /** * Sets the mangled name of this export * @param {string} name the new name * @returns {void} */ setUsedName(name) { this._usedName = name; } /** * @param {ModuleGraph} moduleGraph the module graph * @param {function({ module: Module, export: string[] | undefined }): boolean} resolveTargetFilter filter function to further resolve target * @returns {ExportInfo | ExportsInfo | undefined} the terminal binding export(s) info if known */ getTerminalBinding(moduleGraph, resolveTargetFilter = RETURNS_TRUE) { if (this.terminalBinding) return this; const target = this.getTarget(moduleGraph, resolveTargetFilter); if (!target) return undefined; const exportsInfo = moduleGraph.getExportsInfo(target.module); if (!target.export) return exportsInfo; return exportsInfo.getReadOnlyExportInfoRecursive(target.export); } isReexport() { return !this.terminalBinding && this._target && this._target.size > 0; } _getMaxTarget() { if (this._maxTarget !== undefined) return this._maxTarget; if (this._target.size <= 1) return (this._maxTarget = this._target); let maxPriority = -Infinity; let minPriority = Infinity; for (const { priority } of this._target.values()) { if (maxPriority < priority) maxPriority = priority; if (minPriority > priority) minPriority = priority; } // This should be very common if (maxPriority === minPriority) return (this._maxTarget = this._target); // This is an edge case const map = new Map(); for (const [key, value] of this._target) { if (maxPriority === value.priority) { map.set(key, value); } } this._maxTarget = map; return map; } /** * @param {ModuleGraph} moduleGraph the module graph * @param {function(Module): boolean} validTargetModuleFilter a valid target module * @returns {{ module: Module, export: string[] | undefined } | undefined | false} the target, undefined when there is no target, false when no target is valid */ findTarget(moduleGraph, validTargetModuleFilter) { return this._findTarget(moduleGraph, validTargetModuleFilter, new Set()); } /** * @param {ModuleGraph} moduleGraph the module graph * @param {function(Module): boolean} validTargetModuleFilter a valid target module * @param {Set | undefined} alreadyVisited set of already visited export info to avoid circular references * @returns {{ module: Module, export: string[] | undefined } | undefined | false} the target, undefined when there is no target, false when no target is valid */ _findTarget(moduleGraph, validTargetModuleFilter, alreadyVisited) { if (!this._target || this._target.size === 0) return undefined; let rawTarget = this._getMaxTarget().values().next().value; if (!rawTarget) return undefined; /** @type {{ module: Module, export: string[] | undefined }} */ let target = { module: rawTarget.connection.module, export: rawTarget.export }; for (;;) { if (validTargetModuleFilter(target.module)) return target; const exportsInfo = moduleGraph.getExportsInfo(target.module); const exportInfo = exportsInfo.getExportInfo(target.export[0]); if (alreadyVisited.has(exportInfo)) return null; const newTarget = exportInfo._findTarget( moduleGraph, validTargetModuleFilter, alreadyVisited ); if (!newTarget) return false; if (target.export.length === 1) { target = newTarget; } else { target = { module: newTarget.module, export: newTarget.export ? newTarget.export.concat(target.export.slice(1)) : target.export.slice(1) }; } } } /** * @param {ModuleGraph} moduleGraph the module graph * @param {function({ module: Module, export: string[] | undefined }): boolean} resolveTargetFilter filter function to further resolve target * @returns {{ module: Module, export: string[] | undefined } | undefined} the target */ getTarget(moduleGraph, resolveTargetFilter = RETURNS_TRUE) { const result = this._getTarget(moduleGraph, resolveTargetFilter, undefined); if (result === CIRCULAR) return undefined; return result; } /** * @param {ModuleGraph} moduleGraph the module graph * @param {function({ module: Module, connection: ModuleGraphConnection, export: string[] | undefined }): boolean} resolveTargetFilter filter function to further resolve target * @param {Set | undefined} alreadyVisited set of already visited export info to avoid circular references * @returns {{ module: Module, connection: ModuleGraphConnection, export: string[] | undefined } | CIRCULAR | undefined} the target */ _getTarget(moduleGraph, resolveTargetFilter, alreadyVisited) { /** * @param {{ connection: ModuleGraphConnection, export: string[] | undefined } | null} inputTarget unresolved target * @param {Set} alreadyVisited set of already visited export info to avoid circular references * @returns {{ module: Module, connection: ModuleGraphConnection, export: string[] | undefined } | CIRCULAR | null} resolved target */ const resolveTarget = (inputTarget, alreadyVisited) => { if (!inputTarget) return null; if (!inputTarget.export) { return { module: inputTarget.connection.module, connection: inputTarget.connection, export: undefined }; } /** @type {{ module: Module, connection: ModuleGraphConnection, export: string[] | undefined }} */ let target = { module: inputTarget.connection.module, connection: inputTarget.connection, export: inputTarget.export }; if (!resolveTargetFilter(target)) return target; let alreadyVisitedOwned = false; for (;;) { const exportsInfo = moduleGraph.getExportsInfo(target.module); const exportInfo = exportsInfo.getExportInfo(target.export[0]); if (!exportInfo) return target; if (alreadyVisited.has(exportInfo)) return CIRCULAR; const newTarget = exportInfo._getTarget( moduleGraph, resolveTargetFilter, alreadyVisited ); if (newTarget === CIRCULAR) return CIRCULAR; if (!newTarget) return target; if (target.export.length === 1) { target = newTarget; if (!target.export) return target; } else { target = { module: newTarget.module, connection: newTarget.connection, export: newTarget.export ? newTarget.export.concat(target.export.slice(1)) : target.export.slice(1) }; } if (!resolveTargetFilter(target)) return target; if (!alreadyVisitedOwned) { alreadyVisited = new Set(alreadyVisited); alreadyVisitedOwned = true; } alreadyVisited.add(exportInfo); } }; if (!this._target || this._target.size === 0) return undefined; if (alreadyVisited && alreadyVisited.has(this)) return CIRCULAR; const newAlreadyVisited = new Set(alreadyVisited); newAlreadyVisited.add(this); const values = this._getMaxTarget().values(); const target = resolveTarget(values.next().value, newAlreadyVisited); if (target === CIRCULAR) return CIRCULAR; if (target === null) return undefined; let result = values.next(); while (!result.done) { const t = resolveTarget(result.value, newAlreadyVisited); if (t === CIRCULAR) return CIRCULAR; if (t === null) return undefined; if (t.module !== target.module) return undefined; if (!t.export !== !target.export) return undefined; if (target.export && !equals(t.export, target.export)) return undefined; result = values.next(); } return target; } /** * Move the target forward as long resolveTargetFilter is fulfilled * @param {ModuleGraph} moduleGraph the module graph * @param {function({ module: Module, export: string[] | undefined }): boolean} resolveTargetFilter filter function to further resolve target * @param {function({ module: Module, export: string[] | undefined }): ModuleGraphConnection=} updateOriginalConnection updates the original connection instead of using the target connection * @returns {{ module: Module, export: string[] | undefined } | undefined} the resolved target when moved */ moveTarget(moduleGraph, resolveTargetFilter, updateOriginalConnection) { const target = this._getTarget(moduleGraph, resolveTargetFilter, undefined); if (target === CIRCULAR) return undefined; if (!target) return undefined; const originalTarget = this._getMaxTarget().values().next().value; if ( originalTarget.connection === target.connection && originalTarget.export === target.export ) { return undefined; } this._target.clear(); this._target.set(undefined, { connection: updateOriginalConnection ? updateOriginalConnection(target) : target.connection, export: target.export, priority: 0 }); return target; } createNestedExportsInfo() { if (this.exportsInfoOwned) return this.exportsInfo; this.exportsInfoOwned = true; const oldExportsInfo = this.exportsInfo; this.exportsInfo = new ExportsInfo(); this.exportsInfo.setHasProvideInfo(); if (oldExportsInfo) { this.exportsInfo.setRedirectNamedTo(oldExportsInfo); } return this.exportsInfo; } getNestedExportsInfo() { return this.exportsInfo; } hasInfo(baseInfo, runtime) { return ( (this._usedName && this._usedName !== this.name) || this.provided || this.terminalBinding || this.getUsed(runtime) !== baseInfo.getUsed(runtime) ); } updateHash(hash, runtime) { this._updateHash(hash, runtime, new Set()); } _updateHash(hash, runtime, alreadyVisitedExportsInfo) { hash.update( `${this._usedName || this.name}${this.getUsed(runtime)}${this.provided}${ this.terminalBinding }` ); if (this.exportsInfo && !alreadyVisitedExportsInfo.has(this.exportsInfo)) { this.exportsInfo._updateHash(hash, runtime, alreadyVisitedExportsInfo); } } getUsedInfo() { if (this._globalUsed !== undefined) { switch (this._globalUsed) { case UsageState.Unused: return "unused"; case UsageState.NoInfo: return "no usage info"; case UsageState.Unknown: return "maybe used (runtime-defined)"; case UsageState.Used: return "used"; case UsageState.OnlyPropertiesUsed: return "only properties used"; } } else if (this._usedInRuntime !== undefined) { /** @type {Map} */ const map = new Map(); for (const [runtime, used] of this._usedInRuntime) { const list = map.get(used); if (list !== undefined) list.push(runtime); else map.set(used, [runtime]); } const specificInfo = Array.from(map, ([used, runtimes]) => { switch (used) { case UsageState.NoInfo: return `no usage info in ${runtimes.join(", ")}`; case UsageState.Unknown: return `maybe used in ${runtimes.join(", ")} (runtime-defined)`; case UsageState.Used: return `used in ${runtimes.join(", ")}`; case UsageState.OnlyPropertiesUsed: return `only properties used in ${runtimes.join(", ")}`; } }); if (specificInfo.length > 0) { return specificInfo.join("; "); } } return this._hasUseInRuntimeInfo ? "unused" : "no usage info"; } getProvidedInfo() { switch (this.provided) { case undefined: return "no provided info"; case null: return "maybe provided (runtime-defined)"; case true: return "provided"; case false: return "not provided"; } } getRenameInfo() { if (this._usedName !== null && this._usedName !== this.name) { return `renamed to ${JSON.stringify(this._usedName).slice(1, -1)}`; } switch (this.canMangleProvide) { case undefined: switch (this.canMangleUse) { case undefined: return "missing provision and use info prevents renaming"; case false: return "usage prevents renaming (no provision info)"; case true: return "missing provision info prevents renaming"; } break; case true: switch (this.canMangleUse) { case undefined: return "missing usage info prevents renaming"; case false: return "usage prevents renaming"; case true: return "could be renamed"; } break; case false: switch (this.canMangleUse) { case undefined: return "provision prevents renaming (no use info)"; case false: return "usage and provision prevents renaming"; case true: return "provision prevents renaming"; } break; } throw new Error( `Unexpected flags for getRenameInfo ${this.canMangleProvide} ${this.canMangleUse}` ); } } module.exports = ExportsInfo; module.exports.ExportInfo = ExportInfo; module.exports.UsageState = UsageState;