"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.default = transformClass; var _helperFunctionName = require("@babel/helper-function-name"); var _helperReplaceSupers = require("@babel/helper-replace-supers"); var _helperEnvironmentVisitor = require("@babel/helper-environment-visitor"); var _core = require("@babel/core"); var _helperAnnotateAsPure = require("@babel/helper-annotate-as-pure"); var _inlineCallSuperHelpers = require("./inline-callSuper-helpers.js"); function buildConstructor(classRef, constructorBody, node) { const func = _core.types.functionDeclaration(_core.types.cloneNode(classRef), [], constructorBody); _core.types.inherits(func, node); return func; } function transformClass(path, file, builtinClasses, isLoose, assumptions, supportUnicodeId) { const classState = { parent: undefined, scope: undefined, node: undefined, path: undefined, file: undefined, classId: undefined, classRef: undefined, superName: null, superReturns: [], isDerived: false, extendsNative: false, construct: undefined, constructorBody: undefined, userConstructor: undefined, userConstructorPath: undefined, hasConstructor: false, body: [], superThises: [], pushedConstructor: false, pushedInherits: false, pushedCreateClass: false, protoAlias: null, isLoose: false, dynamicKeys: new Map(), methods: { instance: { hasComputed: false, list: [], map: new Map() }, static: { hasComputed: false, list: [], map: new Map() } } }; const setState = newState => { Object.assign(classState, newState); }; const findThisesVisitor = _core.traverse.visitors.merge([_helperEnvironmentVisitor.default, { ThisExpression(path) { classState.superThises.push(path); } }]); function createClassHelper(args) { return _core.types.callExpression(classState.file.addHelper("createClass"), args); } function maybeCreateConstructor() { const classBodyPath = classState.path.get("body"); for (const path of classBodyPath.get("body")) { if (path.isClassMethod({ kind: "constructor" })) return; } let params, body; if (classState.isDerived) { const constructor = _core.template.expression.ast` (function () { super(...arguments); }) `; params = constructor.params; body = constructor.body; } else { params = []; body = _core.types.blockStatement([]); } classBodyPath.unshiftContainer("body", _core.types.classMethod("constructor", _core.types.identifier("constructor"), params, body)); } function buildBody() { maybeCreateConstructor(); pushBody(); verifyConstructor(); if (classState.userConstructor) { const { constructorBody, userConstructor, construct } = classState; constructorBody.body.push(...userConstructor.body.body); _core.types.inherits(construct, userConstructor); _core.types.inherits(constructorBody, userConstructor.body); } pushDescriptors(); } function pushBody() { const classBodyPaths = classState.path.get("body.body"); for (const path of classBodyPaths) { const node = path.node; if (path.isClassProperty() || path.isClassPrivateProperty()) { throw path.buildCodeFrameError("Missing class properties transform."); } if (node.decorators) { throw path.buildCodeFrameError("Method has decorators, put the decorator plugin before the classes one."); } if (_core.types.isClassMethod(node)) { const isConstructor = node.kind === "constructor"; const replaceSupers = new _helperReplaceSupers.default({ methodPath: path, objectRef: classState.classRef, superRef: classState.superName, constantSuper: assumptions.constantSuper, file: classState.file, refToPreserve: classState.classRef }); replaceSupers.replace(); const superReturns = []; path.traverse(_core.traverse.visitors.merge([_helperEnvironmentVisitor.default, { ReturnStatement(path) { if (!path.getFunctionParent().isArrowFunctionExpression()) { superReturns.push(path); } } }])); if (isConstructor) { pushConstructor(superReturns, node, path); } else { pushMethod(node, path); } } } } function pushDescriptors() { pushInheritsToBody(); const { body } = classState; const props = { instance: null, static: null }; for (const placement of ["static", "instance"]) { if (classState.methods[placement].list.length) { props[placement] = classState.methods[placement].list.map(desc => { const obj = _core.types.objectExpression([_core.types.objectProperty(_core.types.identifier("key"), desc.key)]); for (const kind of ["get", "set", "value"]) { if (desc[kind] != null) { obj.properties.push(_core.types.objectProperty(_core.types.identifier(kind), desc[kind])); } } return obj; }); } } if (props.instance || props.static) { let args = [_core.types.cloneNode(classState.classRef), props.instance ? _core.types.arrayExpression(props.instance) : _core.types.nullLiteral(), props.static ? _core.types.arrayExpression(props.static) : _core.types.nullLiteral()]; let lastNonNullIndex = 0; for (let i = 0; i < args.length; i++) { if (!_core.types.isNullLiteral(args[i])) lastNonNullIndex = i; } args = args.slice(0, lastNonNullIndex + 1); body.push(_core.types.expressionStatement(createClassHelper(args))); classState.pushedCreateClass = true; } } function wrapSuperCall(bareSuper, superRef, thisRef, body) { const bareSuperNode = bareSuper.node; let call; if (assumptions.superIsCallableConstructor) { bareSuperNode.arguments.unshift(_core.types.thisExpression()); if (bareSuperNode.arguments.length === 2 && _core.types.isSpreadElement(bareSuperNode.arguments[1]) && _core.types.isIdentifier(bareSuperNode.arguments[1].argument, { name: "arguments" })) { bareSuperNode.arguments[1] = bareSuperNode.arguments[1].argument; bareSuperNode.callee = _core.types.memberExpression(_core.types.cloneNode(superRef), _core.types.identifier("apply")); } else { bareSuperNode.callee = _core.types.memberExpression(_core.types.cloneNode(superRef), _core.types.identifier("call")); } call = _core.types.logicalExpression("||", bareSuperNode, _core.types.thisExpression()); } else { var _bareSuperNode$argume; const args = [_core.types.thisExpression(), _core.types.cloneNode(classState.classRef)]; if ((_bareSuperNode$argume = bareSuperNode.arguments) != null && _bareSuperNode$argume.length) { const bareSuperNodeArguments = bareSuperNode.arguments; if (bareSuperNodeArguments.length === 1 && _core.types.isSpreadElement(bareSuperNodeArguments[0]) && _core.types.isIdentifier(bareSuperNodeArguments[0].argument, { name: "arguments" })) { args.push(bareSuperNodeArguments[0].argument); } else { args.push(_core.types.arrayExpression(bareSuperNodeArguments)); } } call = _core.types.callExpression((0, _inlineCallSuperHelpers.default)(classState.file), args); } if (bareSuper.parentPath.isExpressionStatement() && bareSuper.parentPath.container === body.node.body && body.node.body.length - 1 === bareSuper.parentPath.key) { if (classState.superThises.length) { call = _core.types.assignmentExpression("=", thisRef(), call); } bareSuper.parentPath.replaceWith(_core.types.returnStatement(call)); } else { bareSuper.replaceWith(_core.types.assignmentExpression("=", thisRef(), call)); } } function verifyConstructor() { if (!classState.isDerived) return; const path = classState.userConstructorPath; const body = path.get("body"); path.traverse(findThisesVisitor); let thisRef = function () { const ref = path.scope.generateDeclaredUidIdentifier("this"); thisRef = () => _core.types.cloneNode(ref); return ref; }; for (const thisPath of classState.superThises) { const { node, parentPath } = thisPath; if (parentPath.isMemberExpression({ object: node })) { thisPath.replaceWith(thisRef()); continue; } thisPath.replaceWith(_core.types.callExpression(classState.file.addHelper("assertThisInitialized"), [thisRef()])); } const bareSupers = []; path.traverse(_core.traverse.visitors.merge([_helperEnvironmentVisitor.default, { Super(path) { const { node, parentPath } = path; if (parentPath.isCallExpression({ callee: node })) { bareSupers.unshift(parentPath); } } }])); let guaranteedSuperBeforeFinish = !!bareSupers.length; for (const bareSuper of bareSupers) { wrapSuperCall(bareSuper, classState.superName, thisRef, body); if (guaranteedSuperBeforeFinish) { bareSuper.find(function (parentPath) { if (parentPath === path) { return true; } if (parentPath.isLoop() || parentPath.isConditional() || parentPath.isArrowFunctionExpression()) { guaranteedSuperBeforeFinish = false; return true; } }); } } let wrapReturn; if (classState.isLoose) { wrapReturn = returnArg => { const thisExpr = _core.types.callExpression(classState.file.addHelper("assertThisInitialized"), [thisRef()]); return returnArg ? _core.types.logicalExpression("||", returnArg, thisExpr) : thisExpr; }; } else { wrapReturn = returnArg => { const returnParams = [thisRef()]; if (returnArg != null) { returnParams.push(returnArg); } return _core.types.callExpression(classState.file.addHelper("possibleConstructorReturn"), returnParams); }; } const bodyPaths = body.get("body"); if (!bodyPaths.length || !bodyPaths.pop().isReturnStatement()) { body.pushContainer("body", _core.types.returnStatement(guaranteedSuperBeforeFinish ? thisRef() : wrapReturn())); } for (const returnPath of classState.superReturns) { returnPath.get("argument").replaceWith(wrapReturn(returnPath.node.argument)); } } function pushMethod(node, path) { const scope = path ? path.scope : classState.scope; if (node.kind === "method") { if (processMethod(node, scope)) return; } const placement = node.static ? "static" : "instance"; const methods = classState.methods[placement]; const descKey = node.kind === "method" ? "value" : node.kind; const key = _core.types.isNumericLiteral(node.key) || _core.types.isBigIntLiteral(node.key) ? _core.types.stringLiteral(String(node.key.value)) : _core.types.toComputedKey(node); let fn = _core.types.toExpression(node); if (_core.types.isStringLiteral(key)) { if (node.kind === "method") { var _nameFunction; fn = (_nameFunction = (0, _helperFunctionName.default)({ id: key, node: node, scope }, undefined, supportUnicodeId)) != null ? _nameFunction : fn; } } else { methods.hasComputed = true; } let descriptor; if (!methods.hasComputed && methods.map.has(key.value)) { descriptor = methods.map.get(key.value); descriptor[descKey] = fn; if (descKey === "value") { descriptor.get = null; descriptor.set = null; } else { descriptor.value = null; } } else { descriptor = { key: key, [descKey]: fn }; methods.list.push(descriptor); if (!methods.hasComputed) { methods.map.set(key.value, descriptor); } } } function processMethod(node, scope) { if (assumptions.setClassMethods && !node.decorators) { let { classRef } = classState; if (!node.static) { insertProtoAliasOnce(); classRef = classState.protoAlias; } const methodName = _core.types.memberExpression(_core.types.cloneNode(classRef), node.key, node.computed || _core.types.isLiteral(node.key)); let func = _core.types.functionExpression(null, node.params, node.body, node.generator, node.async); _core.types.inherits(func, node); const key = _core.types.toComputedKey(node, node.key); if (_core.types.isStringLiteral(key)) { var _nameFunction2; func = (_nameFunction2 = (0, _helperFunctionName.default)({ node: func, id: key, scope }, undefined, supportUnicodeId)) != null ? _nameFunction2 : func; } const expr = _core.types.expressionStatement(_core.types.assignmentExpression("=", methodName, func)); _core.types.inheritsComments(expr, node); classState.body.push(expr); return true; } return false; } function insertProtoAliasOnce() { if (classState.protoAlias === null) { setState({ protoAlias: classState.scope.generateUidIdentifier("proto") }); const classProto = _core.types.memberExpression(classState.classRef, _core.types.identifier("prototype")); const protoDeclaration = _core.types.variableDeclaration("var", [_core.types.variableDeclarator(classState.protoAlias, classProto)]); classState.body.push(protoDeclaration); } } function pushConstructor(superReturns, method, path) { setState({ userConstructorPath: path, userConstructor: method, hasConstructor: true, superReturns }); const { construct } = classState; _core.types.inheritsComments(construct, method); construct.params = method.params; _core.types.inherits(construct.body, method.body); construct.body.directives = method.body.directives; pushConstructorToBody(); } function pushConstructorToBody() { if (classState.pushedConstructor) return; classState.pushedConstructor = true; if (classState.hasInstanceDescriptors || classState.hasStaticDescriptors) { pushDescriptors(); } classState.body.push(classState.construct); pushInheritsToBody(); } function pushInheritsToBody() { if (!classState.isDerived || classState.pushedInherits) return; classState.pushedInherits = true; classState.body.unshift(_core.types.expressionStatement(_core.types.callExpression(classState.file.addHelper(classState.isLoose ? "inheritsLoose" : "inherits"), [_core.types.cloneNode(classState.classRef), _core.types.cloneNode(classState.superName)]))); } function extractDynamicKeys() { const { dynamicKeys, node, scope } = classState; for (const elem of node.body.body) { if (!_core.types.isClassMethod(elem) || !elem.computed) continue; if (scope.isPure(elem.key, true)) continue; const id = scope.generateUidIdentifierBasedOnNode(elem.key); dynamicKeys.set(id.name, elem.key); elem.key = id; } } function setupClosureParamsArgs() { const { superName, dynamicKeys } = classState; const closureParams = []; const closureArgs = []; if (classState.isDerived) { let arg = _core.types.cloneNode(superName); if (classState.extendsNative) { arg = _core.types.callExpression(classState.file.addHelper("wrapNativeSuper"), [arg]); (0, _helperAnnotateAsPure.default)(arg); } const param = classState.scope.generateUidIdentifierBasedOnNode(superName); closureParams.push(param); closureArgs.push(arg); setState({ superName: _core.types.cloneNode(param) }); } for (const [name, value] of dynamicKeys) { closureParams.push(_core.types.identifier(name)); closureArgs.push(value); } return { closureParams, closureArgs }; } function classTransformer(path, file, builtinClasses, isLoose) { setState({ parent: path.parent, scope: path.scope, node: path.node, path, file, isLoose }); setState({ classId: classState.node.id, classRef: classState.node.id ? _core.types.identifier(classState.node.id.name) : classState.scope.generateUidIdentifier("class"), superName: classState.node.superClass, isDerived: !!classState.node.superClass, constructorBody: _core.types.blockStatement([]) }); setState({ extendsNative: _core.types.isIdentifier(classState.superName) && builtinClasses.has(classState.superName.name) && !classState.scope.hasBinding(classState.superName.name, true) }); const { classRef, node, constructorBody } = classState; setState({ construct: buildConstructor(classRef, constructorBody, node) }); extractDynamicKeys(); const { body } = classState; const { closureParams, closureArgs } = setupClosureParamsArgs(); buildBody(); if (!assumptions.noClassCalls) { constructorBody.body.unshift(_core.types.expressionStatement(_core.types.callExpression(classState.file.addHelper("classCallCheck"), [_core.types.thisExpression(), _core.types.cloneNode(classState.classRef)]))); } const isStrict = path.isInStrictMode(); let constructorOnly = classState.classId && body.length === 1; if (constructorOnly && !isStrict) { for (const param of classState.construct.params) { if (!_core.types.isIdentifier(param)) { constructorOnly = false; break; } } } const directives = constructorOnly ? body[0].body.directives : []; if (!isStrict) { directives.push(_core.types.directive(_core.types.directiveLiteral("use strict"))); } if (constructorOnly) { const expr = _core.types.toExpression(body[0]); return classState.isLoose ? expr : createClassHelper([expr]); } let returnArg = _core.types.cloneNode(classState.classRef); if (!classState.pushedCreateClass && !classState.isLoose) { returnArg = createClassHelper([returnArg]); } body.push(_core.types.returnStatement(returnArg)); const container = _core.types.arrowFunctionExpression(closureParams, _core.types.blockStatement(body, directives)); return _core.types.callExpression(container, closureArgs); } return classTransformer(path, file, builtinClasses, isLoose); } //# sourceMappingURL=transformClass.js.map