"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.default = void 0; var _renamer = require("./lib/renamer.js"); var _index = require("../index.js"); var _binding = require("./binding.js"); var _globals = require("globals"); var _t = require("@babel/types"); var t = _t; var _cache = require("../cache.js"); var _visitors = require("../visitors.js"); const { NOT_LOCAL_BINDING, assignmentExpression, callExpression, cloneNode, getBindingIdentifiers, identifier, isArrayExpression, isBinary, isCallExpression, isClass, isClassBody, isClassDeclaration, isExportAllDeclaration, isExportDefaultDeclaration, isExportNamedDeclaration, isFunctionDeclaration, isIdentifier, isImportDeclaration, isLiteral, isMemberExpression, isMethod, isModuleSpecifier, isNullLiteral, isObjectExpression, isProperty, isPureish, isRegExpLiteral, isSuper, isTaggedTemplateExpression, isTemplateLiteral, isThisExpression, isUnaryExpression, isVariableDeclaration, expressionStatement, matchesPattern, memberExpression, numericLiteral, toIdentifier, variableDeclaration, variableDeclarator, isRecordExpression, isTupleExpression, isObjectProperty, isTopicReference, isMetaProperty, isPrivateName, isExportDeclaration, buildUndefinedNode, sequenceExpression } = _t; function gatherNodeParts(node, parts) { switch (node == null ? void 0 : node.type) { default: if (isImportDeclaration(node) || isExportDeclaration(node)) { var _node$specifiers; if ((isExportAllDeclaration(node) || isExportNamedDeclaration(node) || isImportDeclaration(node)) && node.source) { gatherNodeParts(node.source, parts); } else if ((isExportNamedDeclaration(node) || isImportDeclaration(node)) && (_node$specifiers = node.specifiers) != null && _node$specifiers.length) { for (const e of node.specifiers) gatherNodeParts(e, parts); } else if ((isExportDefaultDeclaration(node) || isExportNamedDeclaration(node)) && node.declaration) { gatherNodeParts(node.declaration, parts); } } else if (isModuleSpecifier(node)) { gatherNodeParts(node.local, parts); } else if (isLiteral(node) && !isNullLiteral(node) && !isRegExpLiteral(node) && !isTemplateLiteral(node)) { parts.push(node.value); } break; case "MemberExpression": case "OptionalMemberExpression": case "JSXMemberExpression": gatherNodeParts(node.object, parts); gatherNodeParts(node.property, parts); break; case "Identifier": case "JSXIdentifier": parts.push(node.name); break; case "CallExpression": case "OptionalCallExpression": case "NewExpression": gatherNodeParts(node.callee, parts); break; case "ObjectExpression": case "ObjectPattern": for (const e of node.properties) { gatherNodeParts(e, parts); } break; case "SpreadElement": case "RestElement": gatherNodeParts(node.argument, parts); break; case "ObjectProperty": case "ObjectMethod": case "ClassProperty": case "ClassMethod": case "ClassPrivateProperty": case "ClassPrivateMethod": gatherNodeParts(node.key, parts); break; case "ThisExpression": parts.push("this"); break; case "Super": parts.push("super"); break; case "Import": parts.push("import"); break; case "DoExpression": parts.push("do"); break; case "YieldExpression": parts.push("yield"); gatherNodeParts(node.argument, parts); break; case "AwaitExpression": parts.push("await"); gatherNodeParts(node.argument, parts); break; case "AssignmentExpression": gatherNodeParts(node.left, parts); break; case "VariableDeclarator": gatherNodeParts(node.id, parts); break; case "FunctionExpression": case "FunctionDeclaration": case "ClassExpression": case "ClassDeclaration": gatherNodeParts(node.id, parts); break; case "PrivateName": gatherNodeParts(node.id, parts); break; case "ParenthesizedExpression": gatherNodeParts(node.expression, parts); break; case "UnaryExpression": case "UpdateExpression": gatherNodeParts(node.argument, parts); break; case "MetaProperty": gatherNodeParts(node.meta, parts); gatherNodeParts(node.property, parts); break; case "JSXElement": gatherNodeParts(node.openingElement, parts); break; case "JSXOpeningElement": gatherNodeParts(node.name, parts); break; case "JSXFragment": gatherNodeParts(node.openingFragment, parts); break; case "JSXOpeningFragment": parts.push("Fragment"); break; case "JSXNamespacedName": gatherNodeParts(node.namespace, parts); gatherNodeParts(node.name, parts); break; } } const collectorVisitor = { ForStatement(path) { const declar = path.get("init"); if (declar.isVar()) { const { scope } = path; const parentScope = scope.getFunctionParent() || scope.getProgramParent(); parentScope.registerBinding("var", declar); } }, Declaration(path) { if (path.isBlockScoped()) return; if (path.isImportDeclaration()) return; if (path.isExportDeclaration()) return; const parent = path.scope.getFunctionParent() || path.scope.getProgramParent(); parent.registerDeclaration(path); }, ImportDeclaration(path) { const parent = path.scope.getBlockParent(); parent.registerDeclaration(path); }, ReferencedIdentifier(path, state) { state.references.push(path); }, ForXStatement(path, state) { const left = path.get("left"); if (left.isPattern() || left.isIdentifier()) { state.constantViolations.push(path); } else if (left.isVar()) { const { scope } = path; const parentScope = scope.getFunctionParent() || scope.getProgramParent(); parentScope.registerBinding("var", left); } }, ExportDeclaration: { exit(path) { const { node, scope } = path; if (isExportAllDeclaration(node)) return; const declar = node.declaration; if (isClassDeclaration(declar) || isFunctionDeclaration(declar)) { const id = declar.id; if (!id) return; const binding = scope.getBinding(id.name); binding == null || binding.reference(path); } else if (isVariableDeclaration(declar)) { for (const decl of declar.declarations) { for (const name of Object.keys(getBindingIdentifiers(decl))) { const binding = scope.getBinding(name); binding == null || binding.reference(path); } } } } }, LabeledStatement(path) { path.scope.getBlockParent().registerDeclaration(path); }, AssignmentExpression(path, state) { state.assignments.push(path); }, UpdateExpression(path, state) { state.constantViolations.push(path); }, UnaryExpression(path, state) { if (path.node.operator === "delete") { state.constantViolations.push(path); } }, BlockScoped(path) { let scope = path.scope; if (scope.path === path) scope = scope.parent; const parent = scope.getBlockParent(); parent.registerDeclaration(path); if (path.isClassDeclaration() && path.node.id) { const id = path.node.id; const name = id.name; path.scope.bindings[name] = path.scope.parent.getBinding(name); } }, CatchClause(path) { path.scope.registerBinding("let", path); }, Function(path) { const params = path.get("params"); for (const param of params) { path.scope.registerBinding("param", param); } if (path.isFunctionExpression() && path.has("id") && !path.get("id").node[NOT_LOCAL_BINDING]) { path.scope.registerBinding("local", path.get("id"), path); } }, ClassExpression(path) { if (path.has("id") && !path.get("id").node[NOT_LOCAL_BINDING]) { path.scope.registerBinding("local", path.get("id"), path); } }, TSTypeAnnotation(path) { path.skip(); } }; let uid = 0; class Scope { constructor(path) { this.uid = void 0; this.path = void 0; this.block = void 0; this.labels = void 0; this.inited = void 0; this.bindings = void 0; this.references = void 0; this.globals = void 0; this.uids = void 0; this.data = void 0; this.crawling = void 0; const { node } = path; const cached = _cache.scope.get(node); if ((cached == null ? void 0 : cached.path) === path) { return cached; } _cache.scope.set(node, this); this.uid = uid++; this.block = node; this.path = path; this.labels = new Map(); this.inited = false; } get parent() { var _parent; let parent, path = this.path; do { var _path; const shouldSkip = path.key === "key" || path.listKey === "decorators"; path = path.parentPath; if (shouldSkip && path.isMethod()) path = path.parentPath; if ((_path = path) != null && _path.isScope()) parent = path; } while (path && !parent); return (_parent = parent) == null ? void 0 : _parent.scope; } get parentBlock() { return this.path.parent; } get hub() { return this.path.hub; } traverse(node, opts, state) { (0, _index.default)(node, opts, this, state, this.path); } generateDeclaredUidIdentifier(name) { const id = this.generateUidIdentifier(name); this.push({ id }); return cloneNode(id); } generateUidIdentifier(name) { return identifier(this.generateUid(name)); } generateUid(name = "temp") { name = toIdentifier(name).replace(/^_+/, "").replace(/\d+$/g, ""); let uid; let i = 1; do { uid = this._generateUid(name, i); i++; } while (this.hasLabel(uid) || this.hasBinding(uid) || this.hasGlobal(uid) || this.hasReference(uid)); const program = this.getProgramParent(); program.references[uid] = true; program.uids[uid] = true; return uid; } _generateUid(name, i) { let id = name; if (i > 1) id += i; return `_${id}`; } generateUidBasedOnNode(node, defaultName) { const parts = []; gatherNodeParts(node, parts); let id = parts.join("$"); id = id.replace(/^_/, "") || defaultName || "ref"; return this.generateUid(id.slice(0, 20)); } generateUidIdentifierBasedOnNode(node, defaultName) { return identifier(this.generateUidBasedOnNode(node, defaultName)); } isStatic(node) { if (isThisExpression(node) || isSuper(node) || isTopicReference(node)) { return true; } if (isIdentifier(node)) { const binding = this.getBinding(node.name); if (binding) { return binding.constant; } else { return this.hasBinding(node.name); } } return false; } maybeGenerateMemoised(node, dontPush) { if (this.isStatic(node)) { return null; } else { const id = this.generateUidIdentifierBasedOnNode(node); if (!dontPush) { this.push({ id }); return cloneNode(id); } return id; } } checkBlockScopedCollisions(local, kind, name, id) { if (kind === "param") return; if (local.kind === "local") return; const duplicate = kind === "let" || local.kind === "let" || local.kind === "const" || local.kind === "module" || local.kind === "param" && kind === "const"; if (duplicate) { throw this.hub.buildError(id, `Duplicate declaration "${name}"`, TypeError); } } rename(oldName, newName) { const binding = this.getBinding(oldName); if (binding) { newName || (newName = this.generateUidIdentifier(oldName).name); const renamer = new _renamer.default(binding, oldName, newName); { renamer.rename(arguments[2]); } } } _renameFromMap(map, oldName, newName, value) { if (map[oldName]) { map[newName] = value; map[oldName] = null; } } dump() { const sep = "-".repeat(60); console.log(sep); let scope = this; do { console.log("#", scope.block.type); for (const name of Object.keys(scope.bindings)) { const binding = scope.bindings[name]; console.log(" -", name, { constant: binding.constant, references: binding.references, violations: binding.constantViolations.length, kind: binding.kind }); } } while (scope = scope.parent); console.log(sep); } toArray(node, i, arrayLikeIsIterable) { if (isIdentifier(node)) { const binding = this.getBinding(node.name); if (binding != null && binding.constant && binding.path.isGenericType("Array")) { return node; } } if (isArrayExpression(node)) { return node; } if (isIdentifier(node, { name: "arguments" })) { return callExpression(memberExpression(memberExpression(memberExpression(identifier("Array"), identifier("prototype")), identifier("slice")), identifier("call")), [node]); } let helperName; const args = [node]; if (i === true) { helperName = "toConsumableArray"; } else if (typeof i === "number") { args.push(numericLiteral(i)); helperName = "slicedToArray"; } else { helperName = "toArray"; } if (arrayLikeIsIterable) { args.unshift(this.hub.addHelper(helperName)); helperName = "maybeArrayLike"; } return callExpression(this.hub.addHelper(helperName), args); } hasLabel(name) { return !!this.getLabel(name); } getLabel(name) { return this.labels.get(name); } registerLabel(path) { this.labels.set(path.node.label.name, path); } registerDeclaration(path) { if (path.isLabeledStatement()) { this.registerLabel(path); } else if (path.isFunctionDeclaration()) { this.registerBinding("hoisted", path.get("id"), path); } else if (path.isVariableDeclaration()) { const declarations = path.get("declarations"); const { kind } = path.node; for (const declar of declarations) { this.registerBinding(kind === "using" || kind === "await using" ? "const" : kind, declar); } } else if (path.isClassDeclaration()) { if (path.node.declare) return; this.registerBinding("let", path); } else if (path.isImportDeclaration()) { const isTypeDeclaration = path.node.importKind === "type" || path.node.importKind === "typeof"; const specifiers = path.get("specifiers"); for (const specifier of specifiers) { const isTypeSpecifier = isTypeDeclaration || specifier.isImportSpecifier() && (specifier.node.importKind === "type" || specifier.node.importKind === "typeof"); this.registerBinding(isTypeSpecifier ? "unknown" : "module", specifier); } } else if (path.isExportDeclaration()) { const declar = path.get("declaration"); if (declar.isClassDeclaration() || declar.isFunctionDeclaration() || declar.isVariableDeclaration()) { this.registerDeclaration(declar); } } else { this.registerBinding("unknown", path); } } buildUndefinedNode() { return buildUndefinedNode(); } registerConstantViolation(path) { const ids = path.getAssignmentIdentifiers(); for (const name of Object.keys(ids)) { var _this$getBinding; (_this$getBinding = this.getBinding(name)) == null || _this$getBinding.reassign(path); } } registerBinding(kind, path, bindingPath = path) { if (!kind) throw new ReferenceError("no `kind`"); if (path.isVariableDeclaration()) { const declarators = path.get("declarations"); for (const declar of declarators) { this.registerBinding(kind, declar); } return; } const parent = this.getProgramParent(); const ids = path.getOuterBindingIdentifiers(true); for (const name of Object.keys(ids)) { parent.references[name] = true; for (const id of ids[name]) { const local = this.getOwnBinding(name); if (local) { if (local.identifier === id) continue; this.checkBlockScopedCollisions(local, kind, name, id); } if (local) { local.reassign(bindingPath); } else { this.bindings[name] = new _binding.default({ identifier: id, scope: this, path: bindingPath, kind: kind }); } } } } addGlobal(node) { this.globals[node.name] = node; } hasUid(name) { let scope = this; do { if (scope.uids[name]) return true; } while (scope = scope.parent); return false; } hasGlobal(name) { let scope = this; do { if (scope.globals[name]) return true; } while (scope = scope.parent); return false; } hasReference(name) { return !!this.getProgramParent().references[name]; } isPure(node, constantsOnly) { if (isIdentifier(node)) { const binding = this.getBinding(node.name); if (!binding) return false; if (constantsOnly) return binding.constant; return true; } else if (isThisExpression(node) || isMetaProperty(node) || isTopicReference(node) || isPrivateName(node)) { return true; } else if (isClass(node)) { var _node$decorators; if (node.superClass && !this.isPure(node.superClass, constantsOnly)) { return false; } if (((_node$decorators = node.decorators) == null ? void 0 : _node$decorators.length) > 0) { return false; } return this.isPure(node.body, constantsOnly); } else if (isClassBody(node)) { for (const method of node.body) { if (!this.isPure(method, constantsOnly)) return false; } return true; } else if (isBinary(node)) { return this.isPure(node.left, constantsOnly) && this.isPure(node.right, constantsOnly); } else if (isArrayExpression(node) || isTupleExpression(node)) { for (const elem of node.elements) { if (elem !== null && !this.isPure(elem, constantsOnly)) return false; } return true; } else if (isObjectExpression(node) || isRecordExpression(node)) { for (const prop of node.properties) { if (!this.isPure(prop, constantsOnly)) return false; } return true; } else if (isMethod(node)) { var _node$decorators2; if (node.computed && !this.isPure(node.key, constantsOnly)) return false; if (((_node$decorators2 = node.decorators) == null ? void 0 : _node$decorators2.length) > 0) { return false; } return true; } else if (isProperty(node)) { var _node$decorators3; if (node.computed && !this.isPure(node.key, constantsOnly)) return false; if (((_node$decorators3 = node.decorators) == null ? void 0 : _node$decorators3.length) > 0) { return false; } if (isObjectProperty(node) || node.static) { if (node.value !== null && !this.isPure(node.value, constantsOnly)) { return false; } } return true; } else if (isUnaryExpression(node)) { return this.isPure(node.argument, constantsOnly); } else if (isTemplateLiteral(node)) { for (const expression of node.expressions) { if (!this.isPure(expression, constantsOnly)) return false; } return true; } else if (isTaggedTemplateExpression(node)) { return matchesPattern(node.tag, "String.raw") && !this.hasBinding("String", { noGlobals: true }) && this.isPure(node.quasi, constantsOnly); } else if (isMemberExpression(node)) { return !node.computed && isIdentifier(node.object) && node.object.name === "Symbol" && isIdentifier(node.property) && node.property.name !== "for" && !this.hasBinding("Symbol", { noGlobals: true }); } else if (isCallExpression(node)) { return matchesPattern(node.callee, "Symbol.for") && !this.hasBinding("Symbol", { noGlobals: true }) && node.arguments.length === 1 && t.isStringLiteral(node.arguments[0]); } else { return isPureish(node); } } setData(key, val) { return this.data[key] = val; } getData(key) { let scope = this; do { const data = scope.data[key]; if (data != null) return data; } while (scope = scope.parent); } removeData(key) { let scope = this; do { const data = scope.data[key]; if (data != null) scope.data[key] = null; } while (scope = scope.parent); } init() { if (!this.inited) { this.inited = true; this.crawl(); } } crawl() { const path = this.path; this.references = Object.create(null); this.bindings = Object.create(null); this.globals = Object.create(null); this.uids = Object.create(null); this.data = Object.create(null); const programParent = this.getProgramParent(); if (programParent.crawling) return; const state = { references: [], constantViolations: [], assignments: [] }; this.crawling = true; if (path.type !== "Program" && (0, _visitors.isExplodedVisitor)(collectorVisitor)) { for (const visit of collectorVisitor.enter) { visit.call(state, path, state); } const typeVisitors = collectorVisitor[path.type]; if (typeVisitors) { for (const visit of typeVisitors.enter) { visit.call(state, path, state); } } } path.traverse(collectorVisitor, state); this.crawling = false; for (const path of state.assignments) { const ids = path.getAssignmentIdentifiers(); for (const name of Object.keys(ids)) { if (path.scope.getBinding(name)) continue; programParent.addGlobal(ids[name]); } path.scope.registerConstantViolation(path); } for (const ref of state.references) { const binding = ref.scope.getBinding(ref.node.name); if (binding) { binding.reference(ref); } else { programParent.addGlobal(ref.node); } } for (const path of state.constantViolations) { path.scope.registerConstantViolation(path); } } push(opts) { let path = this.path; if (path.isPattern()) { path = this.getPatternParent().path; } else if (!path.isBlockStatement() && !path.isProgram()) { path = this.getBlockParent().path; } if (path.isSwitchStatement()) { path = (this.getFunctionParent() || this.getProgramParent()).path; } const { init, unique, kind = "var", id } = opts; if (!init && !unique && (kind === "var" || kind === "let") && path.isFunction() && !path.node.name && isCallExpression(path.parent, { callee: path.node }) && path.parent.arguments.length <= path.node.params.length && isIdentifier(id)) { path.pushContainer("params", id); path.scope.registerBinding("param", path.get("params")[path.node.params.length - 1]); return; } if (path.isLoop() || path.isCatchClause() || path.isFunction()) { path.ensureBlock(); path = path.get("body"); } const blockHoist = opts._blockHoist == null ? 2 : opts._blockHoist; const dataKey = `declaration:${kind}:${blockHoist}`; let declarPath = !unique && path.getData(dataKey); if (!declarPath) { const declar = variableDeclaration(kind, []); declar._blockHoist = blockHoist; [declarPath] = path.unshiftContainer("body", [declar]); if (!unique) path.setData(dataKey, declarPath); } const declarator = variableDeclarator(id, init); const len = declarPath.node.declarations.push(declarator); path.scope.registerBinding(kind, declarPath.get("declarations")[len - 1]); } getProgramParent() { let scope = this; do { if (scope.path.isProgram()) { return scope; } } while (scope = scope.parent); throw new Error("Couldn't find a Program"); } getFunctionParent() { let scope = this; do { if (scope.path.isFunctionParent()) { return scope; } } while (scope = scope.parent); return null; } getBlockParent() { let scope = this; do { if (scope.path.isBlockParent()) { return scope; } } while (scope = scope.parent); throw new Error("We couldn't find a BlockStatement, For, Switch, Function, Loop or Program..."); } getPatternParent() { let scope = this; do { if (!scope.path.isPattern()) { return scope.getBlockParent(); } } while (scope = scope.parent.parent); throw new Error("We couldn't find a BlockStatement, For, Switch, Function, Loop or Program..."); } getAllBindings() { const ids = Object.create(null); let scope = this; do { for (const key of Object.keys(scope.bindings)) { if (key in ids === false) { ids[key] = scope.bindings[key]; } } scope = scope.parent; } while (scope); return ids; } getAllBindingsOfKind(...kinds) { const ids = Object.create(null); for (const kind of kinds) { let scope = this; do { for (const name of Object.keys(scope.bindings)) { const binding = scope.bindings[name]; if (binding.kind === kind) ids[name] = binding; } scope = scope.parent; } while (scope); } return ids; } bindingIdentifierEquals(name, node) { return this.getBindingIdentifier(name) === node; } getBinding(name) { let scope = this; let previousPath; do { const binding = scope.getOwnBinding(name); if (binding) { var _previousPath; if ((_previousPath = previousPath) != null && _previousPath.isPattern() && binding.kind !== "param" && binding.kind !== "local") {} else { return binding; } } else if (!binding && name === "arguments" && scope.path.isFunction() && !scope.path.isArrowFunctionExpression()) { break; } previousPath = scope.path; } while (scope = scope.parent); } getOwnBinding(name) { return this.bindings[name]; } getBindingIdentifier(name) { var _this$getBinding2; return (_this$getBinding2 = this.getBinding(name)) == null ? void 0 : _this$getBinding2.identifier; } getOwnBindingIdentifier(name) { const binding = this.bindings[name]; return binding == null ? void 0 : binding.identifier; } hasOwnBinding(name) { return !!this.getOwnBinding(name); } hasBinding(name, opts) { if (!name) return false; let scope = this; do { if (scope.hasOwnBinding(name)) { return true; } } while (scope = scope.parent); let noGlobals; let noUids; if (typeof opts === "object") { noGlobals = opts.noGlobals; noUids = opts.noUids; } else if (typeof opts === "boolean") { noGlobals = opts; } if (!noUids && this.hasUid(name)) return true; if (!noGlobals && Scope.globals.includes(name)) return true; if (!noGlobals && Scope.contextVariables.includes(name)) return true; return false; } parentHasBinding(name, opts) { var _this$parent; return (_this$parent = this.parent) == null ? void 0 : _this$parent.hasBinding(name, opts); } moveBindingTo(name, scope) { const info = this.getBinding(name); if (info) { info.scope.removeOwnBinding(name); info.scope = scope; scope.bindings[name] = info; } } removeOwnBinding(name) { delete this.bindings[name]; } removeBinding(name) { var _this$getBinding3; (_this$getBinding3 = this.getBinding(name)) == null || _this$getBinding3.scope.removeOwnBinding(name); let scope = this; do { if (scope.uids[name]) { scope.uids[name] = false; } } while (scope = scope.parent); } hoistVariables(emit = id => this.push({ id })) { this.crawl(); const seen = new Set(); for (const name of Object.keys(this.bindings)) { const binding = this.bindings[name]; if (!binding) continue; const { path } = binding; if (!path.isVariableDeclarator()) continue; const { parent, parentPath } = path; if (parent.kind !== "var" || seen.has(parent)) continue; seen.add(path.parent); let firstId; const init = []; for (const decl of parent.declarations) { var _firstId; (_firstId = firstId) != null ? _firstId : firstId = decl.id; if (decl.init) { init.push(assignmentExpression("=", decl.id, decl.init)); } const ids = Object.keys(getBindingIdentifiers(decl, false, true, true)); for (const name of ids) { emit(identifier(name), decl.init != null); } } if (parentPath.parentPath.isFor({ left: parent })) { parentPath.replaceWith(firstId); } else if (init.length === 0) { parentPath.remove(); } else { const expr = init.length === 1 ? init[0] : sequenceExpression(init); if (parentPath.parentPath.isForStatement({ init: parent })) { parentPath.replaceWith(expr); } else { parentPath.replaceWith(expressionStatement(expr)); } } } } } exports.default = Scope; Scope.globals = Object.keys(_globals.builtin); Scope.contextVariables = ["arguments", "undefined", "Infinity", "NaN"]; //# sourceMappingURL=index.js.map