"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = _default;
var _core = require("@babel/core");
var _helperReplaceSupers = require("@babel/helper-replace-supers");
var _helperSkipTransparentExpressionWrappers = require("@babel/helper-skip-transparent-expression-wrappers");
var _fields = require("./fields.js");
var _misc = require("./misc.js");
function incrementId(id, idx = id.length - 1) {
if (idx === -1) {
id.unshift(65);
return;
}
const current = id[idx];
if (current === 90) {
id[idx] = 97;
} else if (current === 122) {
id[idx] = 65;
incrementId(id, idx - 1);
} else {
id[idx] = current + 1;
}
}
function createPrivateUidGeneratorForClass(classPath) {
const currentPrivateId = [];
const privateNames = new Set();
classPath.traverse({
PrivateName(path) {
privateNames.add(path.node.id.name);
}
});
return () => {
let reifiedId;
do {
incrementId(currentPrivateId);
reifiedId = String.fromCharCode(...currentPrivateId);
} while (privateNames.has(reifiedId));
return _core.types.privateName(_core.types.identifier(reifiedId));
};
}
function createLazyPrivateUidGeneratorForClass(classPath) {
let generator;
return () => {
if (!generator) {
generator = createPrivateUidGeneratorForClass(classPath);
}
return generator();
};
}
function replaceClassWithVar(path, className) {
const id = path.node.id;
const scope = path.scope;
if (path.type === "ClassDeclaration") {
const className = id.name;
const varId = scope.generateUidIdentifierBasedOnNode(id);
const classId = _core.types.identifier(className);
scope.rename(className, varId.name);
path.get("id").replaceWith(classId);
return {
id: _core.types.cloneNode(varId),
path
};
} else {
let varId;
if (id) {
className = id.name;
varId = generateLetUidIdentifier(scope.parent, className);
scope.rename(className, varId.name);
} else {
varId = generateLetUidIdentifier(scope.parent, typeof className === "string" ? className : "decorated_class");
}
const newClassExpr = _core.types.classExpression(typeof className === "string" ? _core.types.identifier(className) : null, path.node.superClass, path.node.body);
const [newPath] = path.replaceWith(_core.types.sequenceExpression([newClassExpr, varId]));
return {
id: _core.types.cloneNode(varId),
path: newPath.get("expressions.0")
};
}
}
function generateClassProperty(key, value, isStatic) {
if (key.type === "PrivateName") {
return _core.types.classPrivateProperty(key, value, undefined, isStatic);
} else {
return _core.types.classProperty(key, value, undefined, undefined, isStatic);
}
}
function assignIdForAnonymousClass(path, className) {
if (!path.node.id) {
path.node.id = typeof className === "string" ? _core.types.identifier(className) : path.scope.generateUidIdentifier("Class");
}
}
function addProxyAccessorsFor(className, element, getterKey, setterKey, targetKey, isComputed, isStatic, version) {
const thisArg = (version === "2023-11" || version === "2023-05") && isStatic ? className : _core.types.thisExpression();
const getterBody = _core.types.blockStatement([_core.types.returnStatement(_core.types.memberExpression(_core.types.cloneNode(thisArg), _core.types.cloneNode(targetKey)))]);
const setterBody = _core.types.blockStatement([_core.types.expressionStatement(_core.types.assignmentExpression("=", _core.types.memberExpression(_core.types.cloneNode(thisArg), _core.types.cloneNode(targetKey)), _core.types.identifier("v")))]);
let getter, setter;
if (getterKey.type === "PrivateName") {
getter = _core.types.classPrivateMethod("get", getterKey, [], getterBody, isStatic);
setter = _core.types.classPrivateMethod("set", setterKey, [_core.types.identifier("v")], setterBody, isStatic);
} else {
getter = _core.types.classMethod("get", getterKey, [], getterBody, isComputed, isStatic);
setter = _core.types.classMethod("set", setterKey, [_core.types.identifier("v")], setterBody, isComputed, isStatic);
}
element.insertAfter(setter);
element.insertAfter(getter);
}
function extractProxyAccessorsFor(targetKey, version) {
if (version !== "2023-11" && version !== "2023-05" && version !== "2023-01") {
return [_core.template.expression.ast`
function () {
return this.${_core.types.cloneNode(targetKey)};
}
`, _core.template.expression.ast`
function (value) {
this.${_core.types.cloneNode(targetKey)} = value;
}
`];
}
return [_core.template.expression.ast`
o => o.${_core.types.cloneNode(targetKey)}
`, _core.template.expression.ast`
(o, v) => o.${_core.types.cloneNode(targetKey)} = v
`];
}
function getComputedKeyLastElement(path) {
path = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path);
if (path.isSequenceExpression()) {
const expressions = path.get("expressions");
return getComputedKeyLastElement(expressions[expressions.length - 1]);
}
return path;
}
function getComputedKeyMemoiser(path) {
const element = getComputedKeyLastElement(path);
if (element.isConstantExpression()) {
return _core.types.cloneNode(path.node);
} else if (element.isIdentifier() && path.scope.hasUid(element.node.name)) {
return _core.types.cloneNode(path.node);
} else if (element.isAssignmentExpression() && element.get("left").isIdentifier()) {
return _core.types.cloneNode(element.node.left);
} else {
throw new Error(`Internal Error: the computed key ${path.toString()} has not yet been memoised.`);
}
}
function prependExpressionsToComputedKey(expressions, fieldPath) {
const key = fieldPath.get("key");
if (key.isSequenceExpression()) {
expressions.push(...key.node.expressions);
} else {
expressions.push(key.node);
}
key.replaceWith(maybeSequenceExpression(expressions));
}
function appendExpressionsToComputedKey(expressions, fieldPath) {
const key = fieldPath.get("key");
const completion = getComputedKeyLastElement(key);
if (completion.isConstantExpression()) {
prependExpressionsToComputedKey(expressions, fieldPath);
} else {
const scopeParent = key.scope.parent;
const maybeAssignment = (0, _misc.memoiseComputedKey)(completion.node, scopeParent, scopeParent.generateUid("computedKey"));
if (!maybeAssignment) {
prependExpressionsToComputedKey(expressions, fieldPath);
} else {
const expressionSequence = [...expressions, _core.types.cloneNode(maybeAssignment.left)];
const completionParent = completion.parentPath;
if (completionParent.isSequenceExpression()) {
completionParent.pushContainer("expressions", expressionSequence);
} else {
completion.replaceWith(maybeSequenceExpression([_core.types.cloneNode(maybeAssignment), ...expressionSequence]));
}
}
}
}
function prependExpressionsToFieldInitializer(expressions, fieldPath) {
const initializer = fieldPath.get("value");
if (initializer.node) {
expressions.push(initializer.node);
} else if (expressions.length > 0) {
expressions[expressions.length - 1] = _core.types.unaryExpression("void", expressions[expressions.length - 1]);
}
initializer.replaceWith(maybeSequenceExpression(expressions));
}
function prependExpressionsToStaticBlock(expressions, blockPath) {
blockPath.unshiftContainer("body", _core.types.expressionStatement(maybeSequenceExpression(expressions)));
}
function prependExpressionsToConstructor(expressions, constructorPath) {
constructorPath.node.body.body.unshift(_core.types.expressionStatement(maybeSequenceExpression(expressions)));
}
function isProtoInitCallExpression(expression, protoInitCall) {
return _core.types.isCallExpression(expression) && _core.types.isIdentifier(expression.callee, {
name: protoInitCall.name
});
}
function optimizeSuperCallAndExpressions(expressions, protoInitLocal) {
if (protoInitLocal) {
if (expressions.length >= 2 && isProtoInitCallExpression(expressions[1], protoInitLocal)) {
const mergedSuperCall = _core.types.callExpression(_core.types.cloneNode(protoInitLocal), [expressions[0]]);
expressions.splice(0, 2, mergedSuperCall);
}
if (expressions.length >= 2 && _core.types.isThisExpression(expressions[expressions.length - 1]) && isProtoInitCallExpression(expressions[expressions.length - 2], protoInitLocal)) {
expressions.splice(expressions.length - 1, 1);
}
}
return maybeSequenceExpression(expressions);
}
function insertExpressionsAfterSuperCallAndOptimize(expressions, constructorPath, protoInitLocal) {
constructorPath.traverse({
CallExpression: {
exit(path) {
if (!path.get("callee").isSuper()) return;
const newNodes = [path.node, ...expressions.map(expr => _core.types.cloneNode(expr))];
if (path.isCompletionRecord()) {
newNodes.push(_core.types.thisExpression());
}
path.replaceWith(optimizeSuperCallAndExpressions(newNodes, protoInitLocal));
path.skip();
}
},
ClassMethod(path) {
if (path.node.kind === "constructor") {
path.skip();
}
}
});
}
function createConstructorFromExpressions(expressions, isDerivedClass) {
const body = [_core.types.expressionStatement(maybeSequenceExpression(expressions))];
if (isDerivedClass) {
body.unshift(_core.types.expressionStatement(_core.types.callExpression(_core.types.super(), [_core.types.spreadElement(_core.types.identifier("args"))])));
}
return _core.types.classMethod("constructor", _core.types.identifier("constructor"), isDerivedClass ? [_core.types.restElement(_core.types.identifier("args"))] : [], _core.types.blockStatement(body));
}
function createStaticBlockFromExpressions(expressions) {
return _core.types.staticBlock([_core.types.expressionStatement(maybeSequenceExpression(expressions))]);
}
const FIELD = 0;
const ACCESSOR = 1;
const METHOD = 2;
const GETTER = 3;
const SETTER = 4;
const STATIC_OLD_VERSION = 5;
const STATIC = 8;
const DECORATORS_HAVE_THIS = 16;
function getElementKind(element) {
switch (element.node.type) {
case "ClassProperty":
case "ClassPrivateProperty":
return FIELD;
case "ClassAccessorProperty":
return ACCESSOR;
case "ClassMethod":
case "ClassPrivateMethod":
if (element.node.kind === "get") {
return GETTER;
} else if (element.node.kind === "set") {
return SETTER;
} else {
return METHOD;
}
}
}
function toSortedDecoratorInfo(info) {
return [...info.filter(el => el.isStatic && el.kind >= ACCESSOR && el.kind <= SETTER), ...info.filter(el => !el.isStatic && el.kind >= ACCESSOR && el.kind <= SETTER), ...info.filter(el => el.isStatic && el.kind === FIELD), ...info.filter(el => !el.isStatic && el.kind === FIELD)];
}
function generateDecorationList(decorators, decoratorsThis, version) {
const decsCount = decorators.length;
const haveOneThis = decoratorsThis.some(Boolean);
const decs = [];
for (let i = 0; i < decsCount; i++) {
if ((version === "2023-11" || version === "2023-05") && haveOneThis) {
decs.push(decoratorsThis[i] || _core.types.unaryExpression("void", _core.types.numericLiteral(0)));
}
decs.push(decorators[i].expression);
}
return {
haveThis: haveOneThis,
decs
};
}
function generateDecorationExprs(decorationInfo, version) {
return _core.types.arrayExpression(decorationInfo.map(el => {
let flag = el.kind;
if (el.isStatic) {
flag += version === "2023-11" || version === "2023-05" ? STATIC : STATIC_OLD_VERSION;
}
if (el.decoratorsHaveThis) flag += DECORATORS_HAVE_THIS;
return _core.types.arrayExpression([el.decoratorsArray, _core.types.numericLiteral(flag), el.name, ...(el.privateMethods || [])]);
}));
}
function extractElementLocalAssignments(decorationInfo) {
const localIds = [];
for (const el of decorationInfo) {
const {
locals
} = el;
if (Array.isArray(locals)) {
localIds.push(...locals);
} else if (locals !== undefined) {
localIds.push(locals);
}
}
return localIds;
}
function addCallAccessorsFor(version, element, key, getId, setId, isStatic) {
element.insertAfter(_core.types.classPrivateMethod("get", _core.types.cloneNode(key), [], _core.types.blockStatement([_core.types.returnStatement(_core.types.callExpression(_core.types.cloneNode(getId), version === "2023-11" && isStatic ? [] : [_core.types.thisExpression()]))]), isStatic));
element.insertAfter(_core.types.classPrivateMethod("set", _core.types.cloneNode(key), [_core.types.identifier("v")], _core.types.blockStatement([_core.types.expressionStatement(_core.types.callExpression(_core.types.cloneNode(setId), version === "2023-11" && isStatic ? [_core.types.identifier("v")] : [_core.types.thisExpression(), _core.types.identifier("v")]))]), isStatic));
}
function movePrivateAccessor(element, key, methodLocalVar, isStatic) {
let params;
let block;
if (element.node.kind === "set") {
params = [_core.types.identifier("v")];
block = [_core.types.expressionStatement(_core.types.callExpression(methodLocalVar, [_core.types.thisExpression(), _core.types.identifier("v")]))];
} else {
params = [];
block = [_core.types.returnStatement(_core.types.callExpression(methodLocalVar, [_core.types.thisExpression()]))];
}
element.replaceWith(_core.types.classPrivateMethod(element.node.kind, _core.types.cloneNode(key), params, _core.types.blockStatement(block), isStatic));
}
function isClassDecoratableElementPath(path) {
const {
type
} = path;
return type !== "TSDeclareMethod" && type !== "TSIndexSignature" && type !== "StaticBlock";
}
function staticBlockToIIFE(block) {
return _core.types.callExpression(_core.types.arrowFunctionExpression([], _core.types.blockStatement(block.body)), []);
}
function staticBlockToFunctionClosure(block) {
return _core.types.functionExpression(null, [], _core.types.blockStatement(block.body));
}
function fieldInitializerToClosure(value) {
return _core.types.functionExpression(null, [], _core.types.blockStatement([_core.types.returnStatement(value)]));
}
function maybeSequenceExpression(exprs) {
if (exprs.length === 0) return _core.types.unaryExpression("void", _core.types.numericLiteral(0));
if (exprs.length === 1) return exprs[0];
return _core.types.sequenceExpression(exprs);
}
function createFunctionExpressionFromPrivateMethod(node) {
const {
params,
body,
generator: isGenerator,
async: isAsync
} = node;
return _core.types.functionExpression(undefined, params, body, isGenerator, isAsync);
}
function createSetFunctionNameCall(state, className) {
return _core.types.callExpression(state.addHelper("setFunctionName"), [_core.types.thisExpression(), className]);
}
function createToPropertyKeyCall(state, propertyKey) {
return _core.types.callExpression(state.addHelper("toPropertyKey"), [propertyKey]);
}
function createPrivateBrandCheckClosure(brandName) {
return _core.types.arrowFunctionExpression([_core.types.identifier("_")], _core.types.binaryExpression("in", _core.types.cloneNode(brandName), _core.types.identifier("_")));
}
function usesPrivateField(expression) {
try {
_core.types.traverseFast(expression, node => {
if (_core.types.isPrivateName(node)) {
throw null;
}
});
return false;
} catch (_unused) {
return true;
}
}
function convertToComputedKey(path) {
const {
node
} = path;
node.computed = true;
if (_core.types.isIdentifier(node.key)) {
node.key = _core.types.stringLiteral(node.key.name);
}
}
function hasInstancePrivateAccess(path, privateNames) {
let containsInstancePrivateAccess = false;
if (privateNames.length > 0) {
const privateNameVisitor = (0, _fields.privateNameVisitorFactory)({
PrivateName(path, state) {
if (state.privateNamesMap.has(path.node.id.name)) {
containsInstancePrivateAccess = true;
path.stop();
}
}
});
const privateNamesMap = new Map();
for (const name of privateNames) {
privateNamesMap.set(name, null);
}
path.traverse(privateNameVisitor, {
privateNamesMap: privateNamesMap
});
}
return containsInstancePrivateAccess;
}
function checkPrivateMethodUpdateError(path, decoratedPrivateMethods) {
const privateNameVisitor = (0, _fields.privateNameVisitorFactory)({
PrivateName(path, state) {
if (!state.privateNamesMap.has(path.node.id.name)) return;
const parentPath = path.parentPath;
const parentParentPath = parentPath.parentPath;
if (parentParentPath.node.type === "AssignmentExpression" && parentParentPath.node.left === parentPath.node || parentParentPath.node.type === "UpdateExpression" || parentParentPath.node.type === "RestElement" || parentParentPath.node.type === "ArrayPattern" || parentParentPath.node.type === "ObjectProperty" && parentParentPath.node.value === parentPath.node && parentParentPath.parentPath.type === "ObjectPattern" || parentParentPath.node.type === "ForOfStatement" && parentParentPath.node.left === parentPath.node) {
throw path.buildCodeFrameError(`Decorated private methods are read-only, but "#${path.node.id.name}" is updated via this expression.`);
}
}
});
const privateNamesMap = new Map();
for (const name of decoratedPrivateMethods) {
privateNamesMap.set(name, null);
}
path.traverse(privateNameVisitor, {
privateNamesMap: privateNamesMap
});
}
function transformClass(path, state, constantSuper, ignoreFunctionLength, className, propertyVisitor, version) {
var _path$node$id, _classDecorationsId;
const body = path.get("body.body");
const classDecorators = path.node.decorators;
let hasElementDecorators = false;
let hasComputedKeysSideEffects = false;
let elemDecsUseFnContext = false;
const generateClassPrivateUid = createLazyPrivateUidGeneratorForClass(path);
const classAssignments = [];
const scopeParent = path.scope.parent;
const memoiseExpression = (expression, hint, assignments) => {
const localEvaluatedId = generateLetUidIdentifier(scopeParent, hint);
assignments.push(_core.types.assignmentExpression("=", localEvaluatedId, expression));
return _core.types.cloneNode(localEvaluatedId);
};
let protoInitLocal;
let staticInitLocal;
const classIdName = (_path$node$id = path.node.id) == null ? void 0 : _path$node$id.name;
const setClassName = typeof className === "object" ? className : undefined;
const usesFunctionContextOrYieldAwait = decorator => {
try {
_core.types.traverseFast(decorator, node => {
if (_core.types.isThisExpression(node) || _core.types.isSuper(node) || _core.types.isYieldExpression(node) || _core.types.isAwaitExpression(node) || _core.types.isIdentifier(node, {
name: "arguments"
}) || classIdName && _core.types.isIdentifier(node, {
name: classIdName
}) || _core.types.isMetaProperty(node) && node.meta.name !== "import") {
throw null;
}
});
return false;
} catch (_unused2) {
return true;
}
};
const instancePrivateNames = [];
for (const element of body) {
if (!isClassDecoratableElementPath(element)) {
continue;
}
const elementNode = element.node;
if (!elementNode.static && _core.types.isPrivateName(elementNode.key)) {
instancePrivateNames.push(elementNode.key.id.name);
}
if (isDecorated(elementNode)) {
switch (elementNode.type) {
case "ClassProperty":
propertyVisitor.ClassProperty(element, state);
break;
case "ClassPrivateProperty":
propertyVisitor.ClassPrivateProperty(element, state);
break;
case "ClassAccessorProperty":
propertyVisitor.ClassAccessorProperty(element, state);
if (version === "2023-11") {
break;
}
default:
if (elementNode.static) {
var _staticInitLocal;
(_staticInitLocal = staticInitLocal) != null ? _staticInitLocal : staticInitLocal = generateLetUidIdentifier(scopeParent, "initStatic");
} else {
var _protoInitLocal;
(_protoInitLocal = protoInitLocal) != null ? _protoInitLocal : protoInitLocal = generateLetUidIdentifier(scopeParent, "initProto");
}
break;
}
hasElementDecorators = true;
elemDecsUseFnContext || (elemDecsUseFnContext = elementNode.decorators.some(usesFunctionContextOrYieldAwait));
} else if (elementNode.type === "ClassAccessorProperty") {
propertyVisitor.ClassAccessorProperty(element, state);
const {
key,
value,
static: isStatic,
computed
} = elementNode;
const newId = generateClassPrivateUid();
const newField = generateClassProperty(newId, value, isStatic);
const keyPath = element.get("key");
const [newPath] = element.replaceWith(newField);
let getterKey, setterKey;
if (computed && !keyPath.isConstantExpression()) {
getterKey = (0, _misc.memoiseComputedKey)(createToPropertyKeyCall(state, key), scopeParent, scopeParent.generateUid("computedKey"));
setterKey = _core.types.cloneNode(getterKey.left);
} else {
getterKey = _core.types.cloneNode(key);
setterKey = _core.types.cloneNode(key);
}
assignIdForAnonymousClass(path, className);
addProxyAccessorsFor(path.node.id, newPath, getterKey, setterKey, newId, computed, isStatic, version);
}
if ("computed" in element.node && element.node.computed) {
hasComputedKeysSideEffects || (hasComputedKeysSideEffects = !scopeParent.isStatic(element.node.key));
}
}
if (!classDecorators && !hasElementDecorators) {
if (!path.node.id && typeof className === "string") {
path.node.id = _core.types.identifier(className);
}
if (setClassName) {
path.node.body.body.unshift(createStaticBlockFromExpressions([createSetFunctionNameCall(state, setClassName)]));
}
return;
}
const elementDecoratorInfo = [];
let constructorPath;
const decoratedPrivateMethods = new Set();
let classInitLocal, classIdLocal;
let decoratorReceiverId = null;
function handleDecorators(decorators) {
let hasSideEffects = false;
let usesFnContext = false;
const decoratorsThis = [];
for (const decorator of decorators) {
const {
expression
} = decorator;
let object;
if ((version === "2023-11" || version === "2023-05") && _core.types.isMemberExpression(expression)) {
if (_core.types.isSuper(expression.object)) {
object = _core.types.thisExpression();
} else if (scopeParent.isStatic(expression.object)) {
object = _core.types.cloneNode(expression.object);
} else {
var _decoratorReceiverId;
(_decoratorReceiverId = decoratorReceiverId) != null ? _decoratorReceiverId : decoratorReceiverId = generateLetUidIdentifier(scopeParent, "obj");
object = _core.types.assignmentExpression("=", _core.types.cloneNode(decoratorReceiverId), expression.object);
expression.object = _core.types.cloneNode(decoratorReceiverId);
}
}
decoratorsThis.push(object);
hasSideEffects || (hasSideEffects = !scopeParent.isStatic(expression));
usesFnContext || (usesFnContext = usesFunctionContextOrYieldAwait(decorator));
}
return {
hasSideEffects,
usesFnContext,
decoratorsThis
};
}
const willExtractSomeElemDecs = hasComputedKeysSideEffects || elemDecsUseFnContext || version !== "2023-11";
let needsDeclaraionForClassBinding = false;
let classDecorationsFlag = 0;
let classDecorations = [];
let classDecorationsId;
let computedKeyAssignments = [];
if (classDecorators) {
classInitLocal = generateLetUidIdentifier(scopeParent, "initClass");
needsDeclaraionForClassBinding = path.isClassDeclaration();
({
id: classIdLocal,
path
} = replaceClassWithVar(path, className));
path.node.decorators = null;
const classDecsUsePrivateName = classDecorators.some(usesPrivateField);
const {
hasSideEffects,
usesFnContext,
decoratorsThis
} = handleDecorators(classDecorators);
const {
haveThis,
decs
} = generateDecorationList(classDecorators, decoratorsThis, version);
classDecorationsFlag = haveThis ? 1 : 0;
classDecorations = decs;
if (usesFnContext || hasSideEffects && willExtractSomeElemDecs || classDecsUsePrivateName) {
classDecorationsId = memoiseExpression(_core.types.arrayExpression(classDecorations), "classDecs", classAssignments);
}
if (!hasElementDecorators) {
for (const element of path.get("body.body")) {
const {
node
} = element;
const isComputed = "computed" in node && node.computed;
if (isComputed) {
if (element.isClassProperty({
static: true
})) {
if (!element.get("key").isConstantExpression()) {
const key = node.key;
const maybeAssignment = (0, _misc.memoiseComputedKey)(key, scopeParent, scopeParent.generateUid("computedKey"));
if (maybeAssignment != null) {
node.key = _core.types.cloneNode(maybeAssignment.left);
computedKeyAssignments.push(maybeAssignment);
}
}
} else if (computedKeyAssignments.length > 0) {
prependExpressionsToComputedKey(computedKeyAssignments, element);
computedKeyAssignments = [];
}
}
}
}
} else {
assignIdForAnonymousClass(path, className);
classIdLocal = _core.types.cloneNode(path.node.id);
}
let lastInstancePrivateName;
let needsInstancePrivateBrandCheck = false;
let fieldInitializerExpressions = [];
let staticFieldInitializerExpressions = [];
if (hasElementDecorators) {
if (protoInitLocal) {
const protoInitCall = _core.types.callExpression(_core.types.cloneNode(protoInitLocal), [_core.types.thisExpression()]);
fieldInitializerExpressions.push(protoInitCall);
}
for (const element of body) {
if (!isClassDecoratableElementPath(element)) {
if (staticFieldInitializerExpressions.length > 0 && element.isStaticBlock()) {
prependExpressionsToStaticBlock(staticFieldInitializerExpressions, element);
staticFieldInitializerExpressions = [];
}
continue;
}
const {
node
} = element;
const decorators = node.decorators;
const hasDecorators = !!(decorators != null && decorators.length);
const isComputed = "computed" in node && node.computed;
let name = "computedKey";
if (node.key.type === "PrivateName") {
name = node.key.id.name;
} else if (!isComputed && node.key.type === "Identifier") {
name = node.key.name;
}
let decoratorsArray;
let decoratorsHaveThis;
if (hasDecorators) {
const {
hasSideEffects,
usesFnContext,
decoratorsThis
} = handleDecorators(decorators);
const {
decs,
haveThis
} = generateDecorationList(decorators, decoratorsThis, version);
decoratorsHaveThis = haveThis;
decoratorsArray = decs.length === 1 ? decs[0] : _core.types.arrayExpression(decs);
if (usesFnContext || hasSideEffects && willExtractSomeElemDecs) {
decoratorsArray = memoiseExpression(decoratorsArray, name + "Decs", computedKeyAssignments);
}
}
if (isComputed) {
if (!element.get("key").isConstantExpression()) {
const key = node.key;
const maybeAssignment = (0, _misc.memoiseComputedKey)(hasDecorators ? createToPropertyKeyCall(state, key) : key, scopeParent, scopeParent.generateUid("computedKey"));
if (maybeAssignment != null) {
if (classDecorators && element.isClassProperty({
static: true
})) {
node.key = _core.types.cloneNode(maybeAssignment.left);
computedKeyAssignments.push(maybeAssignment);
} else {
node.key = maybeAssignment;
}
}
}
}
const {
key,
static: isStatic
} = node;
const isPrivate = key.type === "PrivateName";
const kind = getElementKind(element);
if (isPrivate && !isStatic) {
if (hasDecorators) {
needsInstancePrivateBrandCheck = true;
}
if (_core.types.isClassPrivateProperty(node) || !lastInstancePrivateName) {
lastInstancePrivateName = key;
}
}
if (element.isClassMethod({
kind: "constructor"
})) {
constructorPath = element;
}
let locals;
if (hasDecorators) {
let privateMethods;
let nameExpr;
if (isComputed) {
nameExpr = getComputedKeyMemoiser(element.get("key"));
} else if (key.type === "PrivateName") {
nameExpr = _core.types.stringLiteral(key.id.name);
} else if (key.type === "Identifier") {
nameExpr = _core.types.stringLiteral(key.name);
} else {
nameExpr = _core.types.cloneNode(key);
}
if (kind === ACCESSOR) {
const {
value
} = element.node;
const params = version === "2023-11" && isStatic ? [] : [_core.types.thisExpression()];
if (value) {
params.push(_core.types.cloneNode(value));
}
const newId = generateClassPrivateUid();
const newFieldInitId = generateLetUidIdentifier(scopeParent, `init_${name}`);
const newValue = _core.types.callExpression(_core.types.cloneNode(newFieldInitId), params);
const newField = generateClassProperty(newId, newValue, isStatic);
const [newPath] = element.replaceWith(newField);
if (isPrivate) {
privateMethods = extractProxyAccessorsFor(newId, version);
const getId = generateLetUidIdentifier(scopeParent, `get_${name}`);
const setId = generateLetUidIdentifier(scopeParent, `set_${name}`);
addCallAccessorsFor(version, newPath, key, getId, setId, isStatic);
locals = [newFieldInitId, getId, setId];
} else {
assignIdForAnonymousClass(path, className);
addProxyAccessorsFor(path.node.id, newPath, _core.types.cloneNode(key), _core.types.isAssignmentExpression(key) ? _core.types.cloneNode(key.left) : _core.types.cloneNode(key), newId, isComputed, isStatic, version);
locals = [newFieldInitId];
}
} else if (kind === FIELD) {
const initId = generateLetUidIdentifier(scopeParent, `init_${name}`);
const valuePath = element.get("value");
const args = version === "2023-11" && isStatic ? [] : [_core.types.thisExpression()];
if (valuePath.node) args.push(valuePath.node);
valuePath.replaceWith(_core.types.callExpression(_core.types.cloneNode(initId), args));
locals = [initId];
if (isPrivate) {
privateMethods = extractProxyAccessorsFor(key, version);
}
} else if (isPrivate) {
const callId = generateLetUidIdentifier(scopeParent, `call_${name}`);
locals = [callId];
const replaceSupers = new _helperReplaceSupers.default({
constantSuper,
methodPath: element,
objectRef: classIdLocal,
superRef: path.node.superClass,
file: state.file,
refToPreserve: classIdLocal
});
replaceSupers.replace();
privateMethods = [createFunctionExpressionFromPrivateMethod(element.node)];
if (kind === GETTER || kind === SETTER) {
movePrivateAccessor(element, _core.types.cloneNode(key), _core.types.cloneNode(callId), isStatic);
} else {
const node = element.node;
path.node.body.body.unshift(_core.types.classPrivateProperty(key, _core.types.cloneNode(callId), [], node.static));
decoratedPrivateMethods.add(key.id.name);
element.remove();
}
}
elementDecoratorInfo.push({
kind,
decoratorsArray,
decoratorsHaveThis,
name: nameExpr,
isStatic,
privateMethods,
locals
});
if (element.node) {
element.node.decorators = null;
}
}
if (isComputed && computedKeyAssignments.length > 0) {
if (classDecorators && element.isClassProperty({
static: true
})) {} else {
prependExpressionsToComputedKey(computedKeyAssignments, kind === ACCESSOR ? element.getNextSibling() : element);
computedKeyAssignments = [];
}
}
if (fieldInitializerExpressions.length > 0 && !isStatic && (kind === FIELD || kind === ACCESSOR)) {
prependExpressionsToFieldInitializer(fieldInitializerExpressions, element);
fieldInitializerExpressions = [];
}
if (staticFieldInitializerExpressions.length > 0 && isStatic && (kind === FIELD || kind === ACCESSOR)) {
prependExpressionsToFieldInitializer(staticFieldInitializerExpressions, element);
staticFieldInitializerExpressions = [];
}
if (hasDecorators && version === "2023-11") {
if (kind === FIELD || kind === ACCESSOR) {
const initExtraId = generateLetUidIdentifier(scopeParent, `init_extra_${name}`);
locals.push(initExtraId);
const initExtraCall = _core.types.callExpression(_core.types.cloneNode(initExtraId), isStatic ? [] : [_core.types.thisExpression()]);
if (!isStatic) {
fieldInitializerExpressions.push(initExtraCall);
} else {
staticFieldInitializerExpressions.push(initExtraCall);
}
}
}
}
}
if (computedKeyAssignments.length > 0) {
const elements = path.get("body.body");
let lastComputedElement;
for (let i = elements.length - 1; i >= 0; i--) {
const path = elements[i];
const node = path.node;
if (node.computed) {
if (classDecorators && _core.types.isClassProperty(node, {
static: true
})) {
continue;
}
lastComputedElement = path;
break;
}
}
if (lastComputedElement != null) {
appendExpressionsToComputedKey(computedKeyAssignments, lastComputedElement);
computedKeyAssignments = [];
} else {}
}
if (fieldInitializerExpressions.length > 0) {
const isDerivedClass = !!path.node.superClass;
if (constructorPath) {
if (isDerivedClass) {
insertExpressionsAfterSuperCallAndOptimize(fieldInitializerExpressions, constructorPath, protoInitLocal);
} else {
prependExpressionsToConstructor(fieldInitializerExpressions, constructorPath);
}
} else {
path.node.body.body.unshift(createConstructorFromExpressions(fieldInitializerExpressions, isDerivedClass));
}
fieldInitializerExpressions = [];
}
if (staticFieldInitializerExpressions.length > 0) {
path.node.body.body.push(createStaticBlockFromExpressions(staticFieldInitializerExpressions));
staticFieldInitializerExpressions = [];
}
const sortedElementDecoratorInfo = toSortedDecoratorInfo(elementDecoratorInfo);
const elementDecorations = generateDecorationExprs(version === "2023-11" ? elementDecoratorInfo : sortedElementDecoratorInfo, version);
const elementLocals = extractElementLocalAssignments(sortedElementDecoratorInfo);
if (protoInitLocal) {
elementLocals.push(protoInitLocal);
}
if (staticInitLocal) {
elementLocals.push(staticInitLocal);
}
const classLocals = [];
let classInitInjected = false;
const classInitCall = classInitLocal && _core.types.callExpression(_core.types.cloneNode(classInitLocal), []);
let originalClassPath = path;
const originalClass = path.node;
const staticClosures = [];
if (classDecorators) {
classLocals.push(classIdLocal, classInitLocal);
const statics = [];
path.get("body.body").forEach(element => {
if (element.isStaticBlock()) {
if (hasInstancePrivateAccess(element, instancePrivateNames)) {
const staticBlockClosureId = memoiseExpression(staticBlockToFunctionClosure(element.node), "staticBlock", staticClosures);
staticFieldInitializerExpressions.push(_core.types.callExpression(_core.types.memberExpression(staticBlockClosureId, _core.types.identifier("call")), [_core.types.thisExpression()]));
} else {
staticFieldInitializerExpressions.push(staticBlockToIIFE(element.node));
}
element.remove();
return;
}
if ((element.isClassProperty() || element.isClassPrivateProperty()) && element.node.static) {
const valuePath = element.get("value");
if (hasInstancePrivateAccess(valuePath, instancePrivateNames)) {
const fieldValueClosureId = memoiseExpression(fieldInitializerToClosure(valuePath.node), "fieldValue", staticClosures);
valuePath.replaceWith(_core.types.callExpression(_core.types.memberExpression(fieldValueClosureId, _core.types.identifier("call")), [_core.types.thisExpression()]));
}
if (staticFieldInitializerExpressions.length > 0) {
prependExpressionsToFieldInitializer(staticFieldInitializerExpressions, element);
staticFieldInitializerExpressions = [];
}
element.node.static = false;
statics.push(element.node);
element.remove();
} else if (element.isClassPrivateMethod({
static: true
})) {
if (hasInstancePrivateAccess(element, instancePrivateNames)) {
const replaceSupers = new _helperReplaceSupers.default({
constantSuper,
methodPath: element,
objectRef: classIdLocal,
superRef: path.node.superClass,
file: state.file,
refToPreserve: classIdLocal
});
replaceSupers.replace();
const privateMethodDelegateId = memoiseExpression(createFunctionExpressionFromPrivateMethod(element.node), element.get("key.id").node.name, staticClosures);
if (ignoreFunctionLength) {
element.node.params = [_core.types.restElement(_core.types.identifier("arg"))];
element.node.body = _core.types.blockStatement([_core.types.returnStatement(_core.types.callExpression(_core.types.memberExpression(privateMethodDelegateId, _core.types.identifier("apply")), [_core.types.thisExpression(), _core.types.identifier("arg")]))]);
} else {
element.node.params = element.node.params.map((p, i) => {
if (_core.types.isRestElement(p)) {
return _core.types.restElement(_core.types.identifier("arg"));
} else {
return _core.types.identifier("_" + i);
}
});
element.node.body = _core.types.blockStatement([_core.types.returnStatement(_core.types.callExpression(_core.types.memberExpression(privateMethodDelegateId, _core.types.identifier("apply")), [_core.types.thisExpression(), _core.types.identifier("arguments")]))]);
}
}
element.node.static = false;
statics.push(element.node);
element.remove();
}
});
if (statics.length > 0 || staticFieldInitializerExpressions.length > 0) {
const staticsClass = _core.template.expression.ast`
class extends ${state.addHelper("identity")} {}
`;
staticsClass.body.body = [_core.types.classProperty(_core.types.toExpression(originalClass), undefined, undefined, undefined, true, true), ...statics];
const constructorBody = [];
const newExpr = _core.types.newExpression(staticsClass, []);
if (staticFieldInitializerExpressions.length > 0) {
constructorBody.push(...staticFieldInitializerExpressions);
}
if (classInitCall) {
classInitInjected = true;
constructorBody.push(classInitCall);
}
if (constructorBody.length > 0) {
constructorBody.unshift(_core.types.callExpression(_core.types.super(), [_core.types.cloneNode(classIdLocal)]));
staticsClass.body.body.push(createConstructorFromExpressions(constructorBody, false));
} else {
newExpr.arguments.push(_core.types.cloneNode(classIdLocal));
}
const [newPath] = path.replaceWith(newExpr);
originalClassPath = newPath.get("callee").get("body").get("body.0.key");
}
}
if (!classInitInjected && classInitCall) {
path.node.body.body.push(_core.types.staticBlock([_core.types.expressionStatement(classInitCall)]));
}
let {
superClass
} = originalClass;
if (superClass && (version === "2023-11" || version === "2023-05")) {
const id = path.scope.maybeGenerateMemoised(superClass);
if (id) {
originalClass.superClass = _core.types.assignmentExpression("=", id, superClass);
superClass = id;
}
}
const applyDecoratorWrapper = _core.types.staticBlock([]);
originalClass.body.body.unshift(applyDecoratorWrapper);
const applyDecsBody = applyDecoratorWrapper.body;
if (computedKeyAssignments.length > 0) {
const elements = originalClassPath.get("body.body");
let firstPublicElement;
for (const path of elements) {
if ((path.isClassProperty() || path.isClassMethod()) && path.node.kind !== "constructor") {
firstPublicElement = path;
break;
}
}
if (firstPublicElement != null) {
convertToComputedKey(firstPublicElement);
prependExpressionsToComputedKey(computedKeyAssignments, firstPublicElement);
} else {
originalClass.body.body.unshift(_core.types.classProperty(_core.types.sequenceExpression([...computedKeyAssignments, _core.types.stringLiteral("_")]), undefined, undefined, undefined, true, true));
applyDecsBody.push(_core.types.expressionStatement(_core.types.unaryExpression("delete", _core.types.memberExpression(_core.types.thisExpression(), _core.types.identifier("_")))));
}
computedKeyAssignments = [];
}
applyDecsBody.push(_core.types.expressionStatement(createLocalsAssignment(elementLocals, classLocals, elementDecorations, (_classDecorationsId = classDecorationsId) != null ? _classDecorationsId : _core.types.arrayExpression(classDecorations), _core.types.numericLiteral(classDecorationsFlag), needsInstancePrivateBrandCheck ? lastInstancePrivateName : null, setClassName, _core.types.cloneNode(superClass), state, version)));
if (staticInitLocal) {
applyDecsBody.push(_core.types.expressionStatement(_core.types.callExpression(_core.types.cloneNode(staticInitLocal), [_core.types.thisExpression()])));
}
if (staticClosures.length > 0) {
applyDecsBody.push(...staticClosures.map(expr => _core.types.expressionStatement(expr)));
}
path.insertBefore(classAssignments.map(expr => _core.types.expressionStatement(expr)));
if (needsDeclaraionForClassBinding) {
const classBindingInfo = scopeParent.getBinding(classIdLocal.name);
if (!classBindingInfo.constantViolations.length) {
path.insertBefore(_core.types.variableDeclaration("let", [_core.types.variableDeclarator(_core.types.cloneNode(classIdLocal))]));
} else {
const classOuterBindingDelegateLocal = scopeParent.generateUidIdentifier("t" + classIdLocal.name);
const classOuterBindingLocal = classIdLocal;
path.replaceWithMultiple([_core.types.variableDeclaration("let", [_core.types.variableDeclarator(_core.types.cloneNode(classOuterBindingLocal)), _core.types.variableDeclarator(classOuterBindingDelegateLocal)]), _core.types.blockStatement([_core.types.variableDeclaration("let", [_core.types.variableDeclarator(_core.types.cloneNode(classIdLocal))]), path.node, _core.types.expressionStatement(_core.types.assignmentExpression("=", _core.types.cloneNode(classOuterBindingDelegateLocal), _core.types.cloneNode(classIdLocal)))]), _core.types.expressionStatement(_core.types.assignmentExpression("=", _core.types.cloneNode(classOuterBindingLocal), _core.types.cloneNode(classOuterBindingDelegateLocal)))]);
}
}
if (decoratedPrivateMethods.size > 0) {
checkPrivateMethodUpdateError(path, decoratedPrivateMethods);
}
path.scope.crawl();
return path;
}
function createLocalsAssignment(elementLocals, classLocals, elementDecorations, classDecorations, classDecorationsFlag, maybePrivateBrandName, setClassName, superClass, state, version) {
let lhs, rhs;
const args = [setClassName ? createSetFunctionNameCall(state, setClassName) : _core.types.thisExpression(), classDecorations, elementDecorations];
{
if (version !== "2023-11") {
args.splice(1, 2, elementDecorations, classDecorations);
}
if (version === "2021-12" || version === "2022-03" && !state.availableHelper("applyDecs2203R")) {
lhs = _core.types.arrayPattern([...elementLocals, ...classLocals]);
rhs = _core.types.callExpression(state.addHelper(version === "2021-12" ? "applyDecs" : "applyDecs2203"), args);
return _core.types.assignmentExpression("=", lhs, rhs);
} else if (version === "2022-03") {
rhs = _core.types.callExpression(state.addHelper("applyDecs2203R"), args);
} else if (version === "2023-01") {
if (maybePrivateBrandName) {
args.push(createPrivateBrandCheckClosure(maybePrivateBrandName));
}
rhs = _core.types.callExpression(state.addHelper("applyDecs2301"), args);
} else if (version === "2023-05") {
if (maybePrivateBrandName || superClass || classDecorationsFlag.value !== 0) {
args.push(classDecorationsFlag);
}
if (maybePrivateBrandName) {
args.push(createPrivateBrandCheckClosure(maybePrivateBrandName));
} else if (superClass) {
args.push(_core.types.unaryExpression("void", _core.types.numericLiteral(0)));
}
if (superClass) args.push(superClass);
rhs = _core.types.callExpression(state.addHelper("applyDecs2305"), args);
}
}
if (version === "2023-11") {
if (maybePrivateBrandName || superClass || classDecorationsFlag.value !== 0) {
args.push(classDecorationsFlag);
}
if (maybePrivateBrandName) {
args.push(createPrivateBrandCheckClosure(maybePrivateBrandName));
} else if (superClass) {
args.push(_core.types.unaryExpression("void", _core.types.numericLiteral(0)));
}
if (superClass) args.push(superClass);
rhs = _core.types.callExpression(state.addHelper("applyDecs2311"), args);
}
if (elementLocals.length > 0) {
if (classLocals.length > 0) {
lhs = _core.types.objectPattern([_core.types.objectProperty(_core.types.identifier("e"), _core.types.arrayPattern(elementLocals)), _core.types.objectProperty(_core.types.identifier("c"), _core.types.arrayPattern(classLocals))]);
} else {
lhs = _core.types.arrayPattern(elementLocals);
rhs = _core.types.memberExpression(rhs, _core.types.identifier("e"), false, false);
}
} else {
lhs = _core.types.arrayPattern(classLocals);
rhs = _core.types.memberExpression(rhs, _core.types.identifier("c"), false, false);
}
return _core.types.assignmentExpression("=", lhs, rhs);
}
function isProtoKey(node) {
return node.type === "Identifier" ? node.name === "__proto__" : node.value === "__proto__";
}
function isDecorated(node) {
return node.decorators && node.decorators.length > 0;
}
function shouldTransformElement(node) {
switch (node.type) {
case "ClassAccessorProperty":
return true;
case "ClassMethod":
case "ClassProperty":
case "ClassPrivateMethod":
case "ClassPrivateProperty":
return isDecorated(node);
default:
return false;
}
}
function shouldTransformClass(node) {
return isDecorated(node) || node.body.body.some(shouldTransformElement);
}
function NamedEvaluationVisitoryFactory(isAnonymous, visitor) {
function handleComputedProperty(propertyPath, key, state) {
switch (key.type) {
case "StringLiteral":
return _core.types.stringLiteral(key.value);
case "NumericLiteral":
case "BigIntLiteral":
{
const keyValue = key.value + "";
propertyPath.get("key").replaceWith(_core.types.stringLiteral(keyValue));
return _core.types.stringLiteral(keyValue);
}
default:
{
const ref = propertyPath.scope.maybeGenerateMemoised(key);
propertyPath.get("key").replaceWith(_core.types.assignmentExpression("=", ref, createToPropertyKeyCall(state, key)));
return _core.types.cloneNode(ref);
}
}
}
return {
VariableDeclarator(path, state) {
const id = path.node.id;
if (id.type === "Identifier") {
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path.get("init"));
if (isAnonymous(initializer)) {
const name = id.name;
visitor(initializer, state, name);
}
}
},
AssignmentExpression(path, state) {
const id = path.node.left;
if (id.type === "Identifier") {
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path.get("right"));
if (isAnonymous(initializer)) {
switch (path.node.operator) {
case "=":
case "&&=":
case "||=":
case "??=":
visitor(initializer, state, id.name);
}
}
}
},
AssignmentPattern(path, state) {
const id = path.node.left;
if (id.type === "Identifier") {
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path.get("right"));
if (isAnonymous(initializer)) {
const name = id.name;
visitor(initializer, state, name);
}
}
},
ObjectExpression(path, state) {
for (const propertyPath of path.get("properties")) {
if (!propertyPath.isObjectProperty()) continue;
const {
node
} = propertyPath;
const id = node.key;
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(propertyPath.get("value"));
if (isAnonymous(initializer)) {
if (!node.computed) {
if (!isProtoKey(id)) {
if (id.type === "Identifier") {
visitor(initializer, state, id.name);
} else {
const className = _core.types.stringLiteral(id.value + "");
visitor(initializer, state, className);
}
}
} else {
const ref = handleComputedProperty(propertyPath, id, state);
visitor(initializer, state, ref);
}
}
}
},
ClassPrivateProperty(path, state) {
const {
node
} = path;
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path.get("value"));
if (isAnonymous(initializer)) {
const className = _core.types.stringLiteral("#" + node.key.id.name);
visitor(initializer, state, className);
}
},
ClassAccessorProperty(path, state) {
const {
node
} = path;
const id = node.key;
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path.get("value"));
if (isAnonymous(initializer)) {
if (!node.computed) {
if (id.type === "Identifier") {
visitor(initializer, state, id.name);
} else if (id.type === "PrivateName") {
const className = _core.types.stringLiteral("#" + id.id.name);
visitor(initializer, state, className);
} else {
const className = _core.types.stringLiteral(id.value + "");
visitor(initializer, state, className);
}
} else {
const ref = handleComputedProperty(path, id, state);
visitor(initializer, state, ref);
}
}
},
ClassProperty(path, state) {
const {
node
} = path;
const id = node.key;
const initializer = (0, _helperSkipTransparentExpressionWrappers.skipTransparentExprWrappers)(path.get("value"));
if (isAnonymous(initializer)) {
if (!node.computed) {
if (id.type === "Identifier") {
visitor(initializer, state, id.name);
} else {
const className = _core.types.stringLiteral(id.value + "");
visitor(initializer, state, className);
}
} else {
const ref = handleComputedProperty(path, id, state);
visitor(initializer, state, ref);
}
}
}
};
}
function isDecoratedAnonymousClassExpression(path) {
return path.isClassExpression({
id: null
}) && shouldTransformClass(path.node);
}
function generateLetUidIdentifier(scope, name) {
const id = scope.generateUidIdentifier(name);
scope.push({
id,
kind: "let"
});
return _core.types.cloneNode(id);
}
function _default({
assertVersion,
assumption
}, {
loose
}, version, inherits) {
var _assumption, _assumption2;
{
if (version === "2023-11" || version === "2023-05" || version === "2023-01") {
assertVersion("^7.21.0");
} else if (version === "2021-12") {
assertVersion("^7.16.0");
} else {
assertVersion("^7.19.0");
}
}
const VISITED = new WeakSet();
const constantSuper = (_assumption = assumption("constantSuper")) != null ? _assumption : loose;
const ignoreFunctionLength = (_assumption2 = assumption("ignoreFunctionLength")) != null ? _assumption2 : loose;
const namedEvaluationVisitor = NamedEvaluationVisitoryFactory(isDecoratedAnonymousClassExpression, visitClass);
function visitClass(path, state, className) {
var _className, _node$id;
if (VISITED.has(path)) return;
const {
node
} = path;
(_className = className) != null ? _className : className = (_node$id = node.id) == null ? void 0 : _node$id.name;
const newPath = transformClass(path, state, constantSuper, ignoreFunctionLength, className, namedEvaluationVisitor, version);
if (newPath) {
VISITED.add(newPath);
return;
}
VISITED.add(path);
}
return {
name: "proposal-decorators",
inherits: inherits,
visitor: Object.assign({
ExportDefaultDeclaration(path, state) {
const {
declaration
} = path.node;
if ((declaration == null ? void 0 : declaration.type) === "ClassDeclaration" && isDecorated(declaration)) {
const isAnonymous = !declaration.id;
{
var _path$splitExportDecl;
(_path$splitExportDecl = path.splitExportDeclaration) != null ? _path$splitExportDecl : path.splitExportDeclaration = require("@babel/traverse").NodePath.prototype.splitExportDeclaration;
}
const updatedVarDeclarationPath = path.splitExportDeclaration();
if (isAnonymous) {
visitClass(updatedVarDeclarationPath, state, _core.types.stringLiteral("default"));
}
}
},
ExportNamedDeclaration(path) {
const {
declaration
} = path.node;
if ((declaration == null ? void 0 : declaration.type) === "ClassDeclaration" && isDecorated(declaration)) {
{
var _path$splitExportDecl2;
(_path$splitExportDecl2 = path.splitExportDeclaration) != null ? _path$splitExportDecl2 : path.splitExportDeclaration = require("@babel/traverse").NodePath.prototype.splitExportDeclaration;
}
path.splitExportDeclaration();
}
},
Class(path, state) {
visitClass(path, state, undefined);
}
}, namedEvaluationVisitor)
};
}
//# sourceMappingURL=decorators.js.map