"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.default = void 0; var _helperMemberExpressionToFunctions = require("@babel/helper-member-expression-to-functions"); var _helperOptimiseCallExpression = require("@babel/helper-optimise-call-expression"); var _core = require("@babel/core"); var _traverse = require("@babel/traverse"); const { assignmentExpression, callExpression, cloneNode, identifier, memberExpression, sequenceExpression, stringLiteral, thisExpression } = _core.types; { exports.environmentVisitor = _traverse.visitors.environmentVisitor({}); exports.skipAllButComputedKey = function skipAllButComputedKey(path) { path.skip(); if (path.node.computed) { path.context.maybeQueue(path.get("key")); } }; } const visitor = _traverse.visitors.environmentVisitor({ Super(path, state) { const { node, parentPath } = path; if (!parentPath.isMemberExpression({ object: node })) return; state.handle(parentPath); } }); const unshadowSuperBindingVisitor = _traverse.visitors.environmentVisitor({ Scopable(path, { refName }) { const binding = path.scope.getOwnBinding(refName); if (binding && binding.identifier.name === refName) { path.scope.rename(refName); } } }); const specHandlers = { memoise(superMember, count) { const { scope, node } = superMember; const { computed, property } = node; if (!computed) { return; } const memo = scope.maybeGenerateMemoised(property); if (!memo) { return; } this.memoiser.set(property, memo, count); }, prop(superMember) { const { computed, property } = superMember.node; if (this.memoiser.has(property)) { return cloneNode(this.memoiser.get(property)); } if (computed) { return cloneNode(property); } return stringLiteral(property.name); }, _getPrototypeOfExpression() { const objectRef = cloneNode(this.getObjectRef()); const targetRef = this.isStatic || this.isPrivateMethod ? objectRef : memberExpression(objectRef, identifier("prototype")); return callExpression(this.file.addHelper("getPrototypeOf"), [targetRef]); }, get(superMember) { const objectRef = cloneNode(this.getObjectRef()); return callExpression(this.file.addHelper("superPropGet"), [this.isDerivedConstructor ? sequenceExpression([thisExpression(), objectRef]) : objectRef, this.prop(superMember), thisExpression(), ...(this.isStatic || this.isPrivateMethod ? [] : [_core.types.numericLiteral(1)])]); }, _call(superMember, args, optional) { const objectRef = cloneNode(this.getObjectRef()); let argsNode; if (args.length === 1 && _core.types.isSpreadElement(args[0]) && (_core.types.isIdentifier(args[0].argument) || _core.types.isArrayExpression(args[0].argument))) { argsNode = args[0].argument; } else { argsNode = _core.types.arrayExpression(args); } const call = _core.types.callExpression(this.file.addHelper("superPropGet"), [this.isDerivedConstructor ? sequenceExpression([thisExpression(), objectRef]) : objectRef, this.prop(superMember), thisExpression(), _core.types.numericLiteral(2 | (this.isStatic || this.isPrivateMethod ? 0 : 1))]); if (optional) { return _core.types.optionalCallExpression(call, [argsNode], true); } return callExpression(call, [argsNode]); }, set(superMember, value) { const objectRef = cloneNode(this.getObjectRef()); return callExpression(this.file.addHelper("superPropSet"), [this.isDerivedConstructor ? sequenceExpression([thisExpression(), objectRef]) : objectRef, this.prop(superMember), value, thisExpression(), _core.types.numericLiteral(superMember.isInStrictMode() ? 1 : 0), ...(this.isStatic || this.isPrivateMethod ? [] : [_core.types.numericLiteral(1)])]); }, destructureSet(superMember) { throw superMember.buildCodeFrameError(`Destructuring to a super field is not supported yet.`); }, call(superMember, args) { return this._call(superMember, args, false); }, optionalCall(superMember, args) { return this._call(superMember, args, true); }, delete(superMember) { if (superMember.node.computed) { return sequenceExpression([callExpression(this.file.addHelper("toPropertyKey"), [cloneNode(superMember.node.property)]), _core.template.expression.ast` function () { throw new ReferenceError("'delete super[expr]' is invalid"); }() `]); } else { return _core.template.expression.ast` function () { throw new ReferenceError("'delete super.prop' is invalid"); }() `; } } }; const specHandlers_old = { memoise(superMember, count) { const { scope, node } = superMember; const { computed, property } = node; if (!computed) { return; } const memo = scope.maybeGenerateMemoised(property); if (!memo) { return; } this.memoiser.set(property, memo, count); }, prop(superMember) { const { computed, property } = superMember.node; if (this.memoiser.has(property)) { return cloneNode(this.memoiser.get(property)); } if (computed) { return cloneNode(property); } return stringLiteral(property.name); }, _getPrototypeOfExpression() { const objectRef = cloneNode(this.getObjectRef()); const targetRef = this.isStatic || this.isPrivateMethod ? objectRef : memberExpression(objectRef, identifier("prototype")); return callExpression(this.file.addHelper("getPrototypeOf"), [targetRef]); }, get(superMember) { return this._get(superMember); }, _get(superMember) { const proto = this._getPrototypeOfExpression(); return callExpression(this.file.addHelper("get"), [this.isDerivedConstructor ? sequenceExpression([thisExpression(), proto]) : proto, this.prop(superMember), thisExpression()]); }, set(superMember, value) { const proto = this._getPrototypeOfExpression(); return callExpression(this.file.addHelper("set"), [this.isDerivedConstructor ? sequenceExpression([thisExpression(), proto]) : proto, this.prop(superMember), value, thisExpression(), _core.types.booleanLiteral(superMember.isInStrictMode())]); }, destructureSet(superMember) { throw superMember.buildCodeFrameError(`Destructuring to a super field is not supported yet.`); }, call(superMember, args) { return (0, _helperOptimiseCallExpression.default)(this._get(superMember), thisExpression(), args, false); }, optionalCall(superMember, args) { return (0, _helperOptimiseCallExpression.default)(this._get(superMember), cloneNode(thisExpression()), args, true); }, delete(superMember) { if (superMember.node.computed) { return sequenceExpression([callExpression(this.file.addHelper("toPropertyKey"), [cloneNode(superMember.node.property)]), _core.template.expression.ast` function () { throw new ReferenceError("'delete super[expr]' is invalid"); }() `]); } else { return _core.template.expression.ast` function () { throw new ReferenceError("'delete super.prop' is invalid"); }() `; } } }; const looseHandlers = Object.assign({}, specHandlers, { prop(superMember) { const { property } = superMember.node; if (this.memoiser.has(property)) { return cloneNode(this.memoiser.get(property)); } return cloneNode(property); }, get(superMember) { const { isStatic, getSuperRef } = this; const { computed } = superMember.node; const prop = this.prop(superMember); let object; if (isStatic) { var _getSuperRef; object = (_getSuperRef = getSuperRef()) != null ? _getSuperRef : memberExpression(identifier("Function"), identifier("prototype")); } else { var _getSuperRef2; object = memberExpression((_getSuperRef2 = getSuperRef()) != null ? _getSuperRef2 : identifier("Object"), identifier("prototype")); } return memberExpression(object, prop, computed); }, set(superMember, value) { const { computed } = superMember.node; const prop = this.prop(superMember); return assignmentExpression("=", memberExpression(thisExpression(), prop, computed), value); }, destructureSet(superMember) { const { computed } = superMember.node; const prop = this.prop(superMember); return memberExpression(thisExpression(), prop, computed); }, call(superMember, args) { return (0, _helperOptimiseCallExpression.default)(this.get(superMember), thisExpression(), args, false); }, optionalCall(superMember, args) { return (0, _helperOptimiseCallExpression.default)(this.get(superMember), thisExpression(), args, true); } }); class ReplaceSupers { constructor(opts) { var _opts$constantSuper; const path = opts.methodPath; this.methodPath = path; this.isDerivedConstructor = path.isClassMethod({ kind: "constructor" }) && !!opts.superRef; this.isStatic = path.isObjectMethod() || path.node.static || (path.isStaticBlock == null ? void 0 : path.isStaticBlock()); this.isPrivateMethod = path.isPrivate() && path.isMethod(); this.file = opts.file; this.constantSuper = (_opts$constantSuper = opts.constantSuper) != null ? _opts$constantSuper : opts.isLoose; this.opts = opts; } getObjectRef() { return cloneNode(this.opts.objectRef || this.opts.getObjectRef()); } getSuperRef() { if (this.opts.superRef) return cloneNode(this.opts.superRef); if (this.opts.getSuperRef) { return cloneNode(this.opts.getSuperRef()); } } replace() { const { methodPath } = this; if (this.opts.refToPreserve) { methodPath.traverse(unshadowSuperBindingVisitor, { refName: this.opts.refToPreserve.name }); } const handler = this.constantSuper ? looseHandlers : this.file.availableHelper("superPropSet") ? specHandlers : specHandlers_old; visitor.shouldSkip = path => { if (path.parentPath === methodPath) { if (path.parentKey === "decorators" || path.parentKey === "key") { return true; } } }; (0, _helperMemberExpressionToFunctions.default)(methodPath, visitor, Object.assign({ file: this.file, scope: this.methodPath.scope, isDerivedConstructor: this.isDerivedConstructor, isStatic: this.isStatic, isPrivateMethod: this.isPrivateMethod, getObjectRef: this.getObjectRef.bind(this), getSuperRef: this.getSuperRef.bind(this), boundGet: handler.get }, handler)); } } exports.default = ReplaceSupers; //# sourceMappingURL=index.js.map