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QuickJSRaw;\n"]}                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                     {"version":3,"file":"index.js","sources":["../src/util/location.ts","../src/parse-error/module-errors.ts","../src/parse-error/to-node-description.ts","../src/parse-error/standard-errors.ts","../src/parse-error/strict-mode-errors.ts","../src/parse-error/pipeline-operator-errors.ts","../src/parse-error.ts","../src/plugins/estree.ts","../src/tokenizer/context.ts","../src/tokenizer/types.ts","../../babel-helper-validator-identifier/src/identifier.ts","../../babel-helper-validator-identifier/src/keyword.ts","../src/util/identifier.ts","../src/util/scope.ts","../src/plugins/flow/scope.ts","../src/parser/base.ts","../src/parser/comments.ts","../src/util/whitespace.ts","../src/tokenizer/state.ts","../../babel-helper-string-parser/src/index.ts","../src/tokenizer/index.ts","../src/util/class-scope.ts","../src/util/expression-scope.ts","../src/util/production-parameter.ts","../src/parser/util.ts","../src/parser/node.ts","../src/plugins/flow/index.ts","../src/plugins/jsx/xhtml.ts","../src/plugins/jsx/index.ts","../src/plugins/typescript/scope.ts","../src/parser/lval.ts","../src/plugins/typescript/index.ts","../src/plugins/placeholders.ts","../src/plugins/v8intrinsic.ts","../src/plugin-utils.ts","../src/options.ts","../src/parser/expression.ts","../src/parser/statement.ts","../src/parser/index.ts","../src/index.ts"],"sourcesContent":["export type Pos = {\n  start: number;\n};\n\n// These are used when `options.locations` is on, for the\n// `startLoc` and `endLoc` properties.\n\nexport class Position {\n  line: number;\n  column: number;\n  index: number;\n\n  constructor(line: number, col: number, index: number) {\n    this.line = line;\n    this.column = col;\n    this.index = index;\n  }\n}\n\nexport class SourceLocation {\n  start: Position;\n  end: Position;\n  filename: string;\n  identifierName: string | undefined | null;\n\n  constructor(start: Position, end?: Position) {\n    this.start = start;\n    // (may start as null, but initialized later)\n    this.end = end;\n  }\n}\n\n/**\n * creates a new position with a non-zero column offset from the given position.\n * This function should be only be used when we create AST node out of the token\n * boundaries, such as TemplateElement ends before tt.templateNonTail. This\n * function does not skip whitespaces.\n */\nexport function createPositionWithColumnOffset(\n  position: Position,\n  columnOffset: number,\n) {\n  const { line, column, index } = position;\n  return new Position(line, column + columnOffset, index + columnOffset);\n}\n","import type { ParseErrorTemplates } from \"../parse-error.ts\";\n\nconst code = \"BABEL_PARSER_SOURCETYPE_MODULE_REQUIRED\";\n\nexport default {\n  ImportMetaOutsideModule: {\n    message: `import.meta may appear only with 'sourceType: \"module\"'`,\n    code,\n  },\n  ImportOutsideModule: {\n    message: `'import' and 'export' may appear only with 'sourceType: \"module\"'`,\n    code,\n  },\n} satisfies ParseErrorTemplates;\n","const NodeDescriptions = {\n  ArrayPattern: \"array destructuring pattern\",\n  AssignmentExpression: \"assignment expression\",\n  AssignmentPattern: \"assignment expression\",\n  ArrowFunctionExpression: \"arrow function expression\",\n  ConditionalExpression: \"conditional expression\",\n  CatchClause: \"catch clause\",\n  ForOfStatement: \"for-of statement\",\n  ForInStatement: \"for-in statement\",\n  ForStatement: \"for-loop\",\n  FormalParameters: \"function parameter list\",\n  Identifier: \"identifier\",\n  ImportSpecifier: \"import specifier\",\n  ImportDefaultSpecifier: \"import default specifier\",\n  ImportNamespaceSpecifier: \"import namespace specifier\",\n  ObjectPattern: \"object destructuring pattern\",\n  ParenthesizedExpression: \"parenthesized expression\",\n  RestElement: \"rest element\",\n  UpdateExpression: {\n    true: \"prefix operation\",\n    false: \"postfix operation\",\n  },\n  VariableDeclarator: \"variable declaration\",\n  YieldExpression: \"yield expression\",\n};\n\ntype NodeTypesWithDescriptions = keyof Omit<\n  typeof NodeDescriptions,\n  \"UpdateExpression\"\n>;\n\ntype NodeWithDescription =\n  | {\n      type: \"UpdateExpression\";\n      prefix: boolean;\n    }\n  | {\n      type: NodeTypesWithDescriptions;\n    };\n\nconst toNodeDescription = (node: NodeWithDescription) =>\n  node.type === \"UpdateExpression\"\n    ? NodeDescriptions.UpdateExpression[`${node.prefix}`]\n    : NodeDescriptions[node.type];\n\nexport default toNodeDescription;\n","import type { ParseErrorTemplates } from \"../parse-error.ts\";\nimport toNodeDescription from \"./to-node-description.ts\";\n\nexport type LValAncestor =\n  | { type: \"UpdateExpression\"; prefix: boolean }\n  | {\n      type:\n        | \"ArrayPattern\"\n        | \"AssignmentExpression\"\n        | \"CatchClause\"\n        | \"ForOfStatement\"\n        | \"FormalParameters\"\n        | \"ForInStatement\"\n        | \"ForStatement\"\n        | \"ImportSpecifier\"\n        | \"ImportNamespaceSpecifier\"\n        | \"ImportDefaultSpecifier\"\n        | \"ParenthesizedExpression\"\n        | \"ObjectPattern\"\n        | \"RestElement\"\n        | \"VariableDeclarator\";\n    };\n\nexport default {\n  AccessorIsGenerator: ({ kind }: { kind: \"get\" | \"set\" }) =>\n    `A ${kind}ter cannot be a generator.`,\n  ArgumentsInClass:\n    \"'arguments' is only allowed in functions and class methods.\",\n  AsyncFunctionInSingleStatementContext:\n    \"Async functions can only be declared at the top level or inside a block.\",\n  AwaitBindingIdentifier:\n    \"Can not use 'await' as identifier inside an async function.\",\n  AwaitBindingIdentifierInStaticBlock:\n    \"Can not use 'await' as identifier inside a static block.\",\n  AwaitExpressionFormalParameter:\n    \"'await' is not allowed in async function parameters.\",\n  AwaitUsingNotInAsyncContext:\n    \"'await using' is only allowed within async functions and at the top levels of modules.\",\n  AwaitNotInAsyncContext:\n    \"'await' is only allowed within async functions and at the top levels of modules.\",\n  AwaitNotInAsyncFunction: \"'await' is only allowed within async functions.\",\n  BadGetterArity: \"A 'get' accessor must not have any formal parameters.\",\n  BadSetterArity: \"A 'set' accessor must have exactly one formal parameter.\",\n  BadSetterRestParameter:\n    \"A 'set' accessor function argument must not be a rest parameter.\",\n  ConstructorClassField: \"Classes may not have a field named 'constructor'.\",\n  ConstructorClassPrivateField:\n    \"Classes may not have a private field named '#constructor'.\",\n  ConstructorIsAccessor: \"Class constructor may not be an accessor.\",\n  ConstructorIsAsync: \"Constructor can't be an async function.\",\n  ConstructorIsGenerator: \"Constructor can't be a generator.\",\n  DeclarationMissingInitializer: ({\n    kind,\n  }: {\n    kind: \"await using\" | \"const\" | \"destructuring\" | \"using\";\n  }) => `Missing initializer in ${kind} declaration.`,\n  DecoratorArgumentsOutsideParentheses:\n    \"Decorator arguments must be moved inside parentheses: use '@(decorator(args))' instead of '@(decorator)(args)'.\",\n  DecoratorBeforeExport:\n    \"Decorators must be placed *before* the 'export' keyword. Remove the 'decoratorsBeforeExport: true' option to use the 'export @decorator class {}' syntax.\",\n  DecoratorsBeforeAfterExport:\n    \"Decorators can be placed *either* before or after the 'export' keyword, but not in both locations at the same time.\",\n  DecoratorConstructor:\n    \"Decorators can't be used with a constructor. Did you mean '@dec class { ... }'?\",\n  DecoratorExportClass:\n    \"Decorators must be placed *after* the 'export' keyword. Remove the 'decoratorsBeforeExport: false' option to use the '@decorator export class {}' syntax.\",\n  DecoratorSemicolon: \"Decorators must not be followed by a semicolon.\",\n  DecoratorStaticBlock: \"Decorators can't be used with a static block.\",\n  DeferImportRequiresNamespace:\n    'Only `import defer * as x from \"./module\"` is valid.',\n  DeletePrivateField: \"Deleting a private field is not allowed.\",\n  DestructureNamedImport:\n    \"ES2015 named imports do not destructure. Use another statement for destructuring after the import.\",\n  DuplicateConstructor: \"Duplicate constructor in the same class.\",\n  DuplicateDefaultExport: \"Only one default export allowed per module.\",\n  DuplicateExport: ({ exportName }: { exportName: string }) =>\n    `\\`${exportName}\\` has already been exported. Exported identifiers must be unique.`,\n  DuplicateProto: \"Redefinition of __proto__ property.\",\n  DuplicateRegExpFlags: \"Duplicate regular expression flag.\",\n  DynamicImportPhaseRequiresImportExpressions: ({ phase }: { phase: string }) =>\n    `'import.${phase}(...)' can only be parsed when using the 'createImportExpressions' option.`,\n  ElementAfterRest: \"Rest element must be last element.\",\n  EscapedCharNotAnIdentifier: \"Invalid Unicode escape.\",\n  ExportBindingIsString: ({\n    localName,\n    exportName,\n  }: {\n    localName: string;\n    exportName: string;\n  }) =>\n    `A string literal cannot be used as an exported binding without \\`from\\`.\\n- Did you mean \\`export { '${localName}' as '${exportName}' } from 'some-module'\\`?`,\n  ExportDefaultFromAsIdentifier:\n    \"'from' is not allowed as an identifier after 'export default'.\",\n\n  ForInOfLoopInitializer: ({\n    type,\n  }: {\n    type: \"ForInStatement\" | \"ForOfStatement\";\n  }) =>\n    `'${\n      type === \"ForInStatement\" ? \"for-in\" : \"for-of\"\n    }' loop variable declaration may not have an initializer.`,\n  ForInUsing: \"For-in loop may not start with 'using' declaration.\",\n\n  ForOfAsync: \"The left-hand side of a for-of loop may not be 'async'.\",\n  ForOfLet: \"The left-hand side of a for-of loop may not start with 'let'.\",\n  GeneratorInSingleStatementContext:\n    \"Generators can only be declared at the top level or inside a block.\",\n\n  IllegalBreakContinue: ({\n    type,\n  }: {\n    type: \"BreakStatement\" | \"ContinueStatement\";\n  }) => `Unsyntactic ${type === \"BreakStatement\" ? \"break\" : \"continue\"}.`,\n\n  IllegalLanguageModeDirective:\n    \"Illegal 'use strict' directive in function with non-simple parameter list.\",\n  IllegalReturn: \"'return' outside of function.\",\n  ImportAttributesUseAssert:\n    \"The `assert` keyword in import attributes is deprecated and it has been replaced by the `with` keyword. You can enable the `deprecatedImportAssert` parser plugin to suppress this error.\",\n  ImportBindingIsString: ({ importName }: { importName: string }) =>\n    `A string literal cannot be used as an imported binding.\\n- Did you mean \\`import { \"${importName}\" as foo }\\`?`,\n  ImportCallArity: `\\`import()\\` requires exactly one or two arguments.`,\n  ImportCallNotNewExpression: \"Cannot use new with import(...).\",\n  ImportCallSpreadArgument: \"`...` is not allowed in `import()`.\",\n  ImportJSONBindingNotDefault:\n    \"A JSON module can only be imported with `default`.\",\n  ImportReflectionHasAssertion: \"`import module x` cannot have assertions.\",\n  ImportReflectionNotBinding:\n    'Only `import module x from \"./module\"` is valid.',\n  IncompatibleRegExpUVFlags:\n    \"The 'u' and 'v' regular expression flags cannot be enabled at the same time.\",\n  InvalidBigIntLiteral: \"Invalid BigIntLiteral.\",\n  InvalidCodePoint: \"Code point out of bounds.\",\n  InvalidCoverInitializedName: \"Invalid shorthand property initializer.\",\n  InvalidDecimal: \"Invalid decimal.\",\n  InvalidDigit: ({ radix }: { radix: number }) =>\n    `Expected number in radix ${radix}.`,\n  InvalidEscapeSequence: \"Bad character escape sequence.\",\n  InvalidEscapeSequenceTemplate: \"Invalid escape sequence in template.\",\n  InvalidEscapedReservedWord: ({ reservedWord }: { reservedWord: string }) =>\n    `Escape sequence in keyword ${reservedWord}.`,\n  InvalidIdentifier: ({ identifierName }: { identifierName: string }) =>\n    `Invalid identifier ${identifierName}.`,\n  InvalidLhs: ({ ancestor }: { ancestor: LValAncestor }) =>\n    `Invalid left-hand side in ${toNodeDescription(ancestor)}.`,\n  InvalidLhsBinding: ({ ancestor }: { ancestor: LValAncestor }) =>\n    `Binding invalid left-hand side in ${toNodeDescription(ancestor)}.`,\n  InvalidLhsOptionalChaining: ({ ancestor }: { ancestor: LValAncestor }) =>\n    `Invalid optional chaining in the left-hand side of ${toNodeDescription(\n      ancestor,\n    )}.`,\n  InvalidNumber: \"Invalid number.\",\n  InvalidOrMissingExponent:\n    \"Floating-point numbers require a valid exponent after the 'e'.\",\n  InvalidOrUnexpectedToken: ({ unexpected }: { unexpected: string }) =>\n    `Unexpected character '${unexpected}'.`,\n  InvalidParenthesizedAssignment: \"Invalid parenthesized assignment pattern.\",\n  InvalidPrivateFieldResolution: ({\n    identifierName,\n  }: {\n    identifierName: string;\n  }) => `Private name #${identifierName} is not defined.`,\n  InvalidPropertyBindingPattern: \"Binding member expression.\",\n  InvalidRecordProperty:\n    \"Only properties and spread elements are allowed in record definitions.\",\n  InvalidRestAssignmentPattern: \"Invalid rest operator's argument.\",\n  LabelRedeclaration: ({ labelName }: { labelName: string }) =>\n    `Label '${labelName}' is already declared.`,\n  LetInLexicalBinding: \"'let' is disallowed as a lexically bound name.\",\n  LineTerminatorBeforeArrow: \"No line break is allowed before '=>'.\",\n  MalformedRegExpFlags: \"Invalid regular expression flag.\",\n  MissingClassName: \"A class name is required.\",\n  MissingEqInAssignment:\n    \"Only '=' operator can be used for specifying default value.\",\n  MissingSemicolon: \"Missing semicolon.\",\n  MissingPlugin: ({ missingPlugin }: { missingPlugin: [string] }) =>\n    `This experimental syntax requires enabling the parser plugin: ${missingPlugin\n      .map(name => JSON.stringify(name))\n      .join(\", \")}.`,\n  // FIXME: Would be nice to make this \"missingPlugins\" instead.\n  // Also, seems like we can drop the \"(s)\" from the message and just make it \"s\".\n  MissingOneOfPlugins: ({ missingPlugin }: { missingPlugin: string[] }) =>\n    `This experimental syntax requires enabling one of the following parser plugin(s): ${missingPlugin\n      .map(name => JSON.stringify(name))\n      .join(\", \")}.`,\n  MissingUnicodeEscape: \"Expecting Unicode escape sequence \\\\uXXXX.\",\n  MixingCoalesceWithLogical:\n    \"Nullish coalescing operator(??) requires parens when mixing with logical operators.\",\n  ModuleAttributeDifferentFromType:\n    \"The only accepted module attribute is `type`.\",\n  ModuleAttributeInvalidValue:\n    \"Only string literals are allowed as module attribute values.\",\n  ModuleAttributesWithDuplicateKeys: ({ key }: { key: string }) =>\n    `Duplicate key \"${key}\" is not allowed in module attributes.`,\n  ModuleExportNameHasLoneSurrogate: ({\n    surrogateCharCode,\n  }: {\n    surrogateCharCode: number;\n  }) =>\n    `An export name cannot include a lone surrogate, found '\\\\u${surrogateCharCode.toString(\n      16,\n    )}'.`,\n  ModuleExportUndefined: ({ localName }: { localName: string }) =>\n    `Export '${localName}' is not defined.`,\n  MultipleDefaultsInSwitch: \"Multiple default clauses.\",\n  NewlineAfterThrow: \"Illegal newline after throw.\",\n  NoCatchOrFinally: \"Missing catch or finally clause.\",\n  NumberIdentifier: \"Identifier directly after number.\",\n  NumericSeparatorInEscapeSequence:\n    \"Numeric separators are not allowed inside unicode escape sequences or hex escape sequences.\",\n  ObsoleteAwaitStar:\n    \"'await*' has been removed from the async functions proposal. Use Promise.all() instead.\",\n  OptionalChainingNoNew:\n    \"Constructors in/after an Optional Chain are not allowed.\",\n  OptionalChainingNoTemplate:\n    \"Tagged Template Literals are not allowed in optionalChain.\",\n  OverrideOnConstructor:\n    \"'override' modifier cannot appear on a constructor declaration.\",\n  ParamDupe: \"Argument name clash.\",\n  PatternHasAccessor: \"Object pattern can't contain getter or setter.\",\n  PatternHasMethod: \"Object pattern can't contain methods.\",\n  PrivateInExpectedIn: ({ identifierName }: { identifierName: string }) =>\n    `Private names are only allowed in property accesses (\\`obj.#${identifierName}\\`) or in \\`in\\` expressions (\\`#${identifierName} in obj\\`).`,\n  PrivateNameRedeclaration: ({ identifierName }: { identifierName: string }) =>\n    `Duplicate private name #${identifierName}.`,\n  RecordExpressionBarIncorrectEndSyntaxType:\n    \"Record expressions ending with '|}' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.\",\n  RecordExpressionBarIncorrectStartSyntaxType:\n    \"Record expressions starting with '{|' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.\",\n  RecordExpressionHashIncorrectStartSyntaxType:\n    \"Record expressions starting with '#{' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'hash'.\",\n  RecordNoProto: \"'__proto__' is not allowed in Record expressions.\",\n  RestTrailingComma: \"Unexpected trailing comma after rest element.\",\n  SloppyFunction:\n    \"In non-strict mode code, functions can only be declared at top level or inside a block.\",\n  SloppyFunctionAnnexB:\n    \"In non-strict mode code, functions can only be declared at top level, inside a block, or as the body of an if statement.\",\n  SourcePhaseImportRequiresDefault:\n    'Only `import source x from \"./module\"` is valid.',\n  StaticPrototype: \"Classes may not have static property named prototype.\",\n  SuperNotAllowed:\n    \"`super()` is only valid inside a class constructor of a subclass. Maybe a typo in the method name ('constructor') or not extending another class?\",\n  SuperPrivateField: \"Private fields can't be accessed on super.\",\n  TrailingDecorator: \"Decorators must be attached to a class element.\",\n  TupleExpressionBarIncorrectEndSyntaxType:\n    \"Tuple expressions ending with '|]' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.\",\n  TupleExpressionBarIncorrectStartSyntaxType:\n    \"Tuple expressions starting with '[|' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.\",\n  TupleExpressionHashIncorrectStartSyntaxType:\n    \"Tuple expressions starting with '#[' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'hash'.\",\n  UnexpectedArgumentPlaceholder: \"Unexpected argument placeholder.\",\n  UnexpectedAwaitAfterPipelineBody:\n    'Unexpected \"await\" after pipeline body; await must have parentheses in minimal proposal.',\n  UnexpectedDigitAfterHash: \"Unexpected digit after hash token.\",\n  UnexpectedImportExport:\n    \"'import' and 'export' may only appear at the top level.\",\n  UnexpectedKeyword: ({ keyword }: { keyword: string }) =>\n    `Unexpected keyword '${keyword}'.`,\n  UnexpectedLeadingDecorator:\n    \"Leading decorators must be attached to a class declaration.\",\n  UnexpectedLexicalDeclaration:\n    \"Lexical declaration cannot appear in a single-statement context.\",\n  UnexpectedNewTarget:\n    \"`new.target` can only be used in functions or class properties.\",\n  UnexpectedNumericSeparator:\n    \"A numeric separator is only allowed between two digits.\",\n  UnexpectedPrivateField: \"Unexpected private name.\",\n  UnexpectedReservedWord: ({ reservedWord }: { reservedWord: string }) =>\n    `Unexpected reserved word '${reservedWord}'.`,\n  UnexpectedSuper: \"'super' is only allowed in object methods and classes.\",\n  UnexpectedToken: ({\n    expected,\n    unexpected,\n  }: {\n    expected?: string | null;\n    unexpected?: string | null;\n  }) =>\n    `Unexpected token${unexpected ? ` '${unexpected}'.` : \"\"}${\n      expected ? `, expected \"${expected}\"` : \"\"\n    }`,\n  UnexpectedTokenUnaryExponentiation:\n    \"Illegal expression. Wrap left hand side or entire exponentiation in parentheses.\",\n  UnexpectedUsingDeclaration:\n    \"Using declaration cannot appear in the top level when source type is `script`.\",\n  UnsupportedBind: \"Binding should be performed on object property.\",\n  UnsupportedDecoratorExport:\n    \"A decorated export must export a class declaration.\",\n  UnsupportedDefaultExport:\n    \"Only expressions, functions or classes are allowed as the `default` export.\",\n  UnsupportedImport:\n    \"`import` can only be used in `import()` or `import.meta`.\",\n  UnsupportedMetaProperty: ({\n    target,\n    onlyValidPropertyName,\n  }: {\n    target: string;\n    onlyValidPropertyName: string;\n  }) =>\n    `The only valid meta property for ${target} is ${target}.${onlyValidPropertyName}.`,\n  UnsupportedParameterDecorator:\n    \"Decorators cannot be used to decorate parameters.\",\n  UnsupportedPropertyDecorator:\n    \"Decorators cannot be used to decorate object literal properties.\",\n  UnsupportedSuper:\n    \"'super' can only be used with function calls (i.e. super()) or in property accesses (i.e. super.prop or super[prop]).\",\n  UnterminatedComment: \"Unterminated comment.\",\n  UnterminatedRegExp: \"Unterminated regular expression.\",\n  UnterminatedString: \"Unterminated string constant.\",\n  UnterminatedTemplate: \"Unterminated template.\",\n  UsingDeclarationExport: \"Using declaration cannot be exported.\",\n  UsingDeclarationHasBindingPattern:\n    \"Using declaration cannot have destructuring patterns.\",\n  VarRedeclaration: ({ identifierName }: { identifierName: string }) =>\n    `Identifier '${identifierName}' has already been declared.`,\n  YieldBindingIdentifier:\n    \"Can not use 'yield' as identifier inside a generator.\",\n  YieldInParameter: \"Yield expression is not allowed in formal parameters.\",\n  ZeroDigitNumericSeparator:\n    \"Numeric separator can not be used after leading 0.\",\n} satisfies ParseErrorTemplates;\n","import type { ParseErrorTemplates } from \"../parse-error\";\n\nexport default {\n  StrictDelete: \"Deleting local variable in strict mode.\",\n\n  // `referenceName` is the StringValue[1] of an IdentifierReference[2], which\n  // is represented as just an `Identifier`[3] in the Babel AST.\n  // 1. https://tc39.es/ecma262/#sec-static-semantics-stringvalue\n  // 2. https://tc39.es/ecma262/#prod-IdentifierReference\n  // 3. https://github.com/babel/babel/blob/main/packages/babel-parser/ast/spec.md#identifier\n  StrictEvalArguments: ({ referenceName }: { referenceName: string }) =>\n    `Assigning to '${referenceName}' in strict mode.`,\n\n  // `bindingName` is the StringValue[1] of a BindingIdentifier[2], which is\n  // represented as just an `Identifier`[3] in the Babel AST.\n  // 1. https://tc39.es/ecma262/#sec-static-semantics-stringvalue\n  // 2. https://tc39.es/ecma262/#prod-BindingIdentifier\n  // 3. https://github.com/babel/babel/blob/main/packages/babel-parser/ast/spec.md#identifier\n  StrictEvalArgumentsBinding: ({ bindingName }: { bindingName: string }) =>\n    `Binding '${bindingName}' in strict mode.`,\n\n  StrictFunction:\n    \"In strict mode code, functions can only be declared at top level or inside a block.\",\n\n  StrictNumericEscape: \"The only valid numeric escape in strict mode is '\\\\0'.\",\n\n  StrictOctalLiteral: \"Legacy octal literals are not allowed in strict mode.\",\n\n  StrictWith: \"'with' in strict mode.\",\n} satisfies ParseErrorTemplates;\n","import type { ParseErrorTemplates } from \"../parse-error.ts\";\nimport toNodeDescription from \"./to-node-description.ts\";\n\nexport const UnparenthesizedPipeBodyDescriptions = new Set([\n  \"ArrowFunctionExpression\",\n  \"AssignmentExpression\",\n  \"ConditionalExpression\",\n  \"YieldExpression\",\n] as const);\n\ntype GetSetMemberType<T extends Set<any>> =\n  T extends Set<infer M> ? M : unknown;\n\nexport type UnparenthesizedPipeBodyTypes = GetSetMemberType<\n  typeof UnparenthesizedPipeBodyDescriptions\n>;\n\nexport default {\n  // This error is only used by the smart-mix proposal\n  PipeBodyIsTighter:\n    \"Unexpected yield after pipeline body; any yield expression acting as Hack-style pipe body must be parenthesized due to its loose operator precedence.\",\n  PipeTopicRequiresHackPipes:\n    'Topic reference is used, but the pipelineOperator plugin was not passed a \"proposal\": \"hack\" or \"smart\" option.',\n  PipeTopicUnbound:\n    \"Topic reference is unbound; it must be inside a pipe body.\",\n  PipeTopicUnconfiguredToken: ({ token }: { token: string }) =>\n    `Invalid topic token ${token}. In order to use ${token} as a topic reference, the pipelineOperator plugin must be configured with { \"proposal\": \"hack\", \"topicToken\": \"${token}\" }.`,\n  PipeTopicUnused:\n    \"Hack-style pipe body does not contain a topic reference; Hack-style pipes must use topic at least once.\",\n  PipeUnparenthesizedBody: ({ type }: { type: UnparenthesizedPipeBodyTypes }) =>\n    `Hack-style pipe body cannot be an unparenthesized ${toNodeDescription({\n      type,\n    })}; please wrap it in parentheses.`,\n\n  // Messages whose codes start with “Pipeline” or “PrimaryTopic”\n  // are retained for backwards compatibility\n  // with the deprecated smart-mix pipe operator proposal plugin.\n  // They are subject to removal in a future major version.\n  PipelineBodyNoArrow:\n    'Unexpected arrow \"=>\" after pipeline body; arrow function in pipeline body must be parenthesized.',\n  PipelineBodySequenceExpression:\n    \"Pipeline body may not be a comma-separated sequence expression.\",\n  PipelineHeadSequenceExpression:\n    \"Pipeline head should not be a comma-separated sequence expression.\",\n  PipelineTopicUnused:\n    \"Pipeline is in topic style but does not use topic reference.\",\n  PrimaryTopicNotAllowed:\n    \"Topic reference was used in a lexical context without topic binding.\",\n  PrimaryTopicRequiresSmartPipeline:\n    'Topic reference is used, but the pipelineOperator plugin was not passed a \"proposal\": \"hack\" or \"smart\" option.',\n} satisfies ParseErrorTemplates;\n","import { Position } from \"./util/location.ts\";\n\ntype SyntaxPlugin =\n  | \"flow\"\n  | \"typescript\"\n  | \"jsx\"\n  | \"pipelineOperator\"\n  | \"placeholders\";\n\ntype ParseErrorCode =\n  | \"BABEL_PARSER_SYNTAX_ERROR\"\n  | \"BABEL_PARSER_SOURCETYPE_MODULE_REQUIRED\";\n\n// Babel uses \"normal\" SyntaxErrors for it's errors, but adds some extra\n// functionality. This functionality is defined in the\n// `ParseErrorSpecification` interface below. We may choose to change to someday\n// give our errors their own full-blown class, but until then this allow us to\n// keep all the desirable properties of SyntaxErrors (like their name in stack\n// traces, etc.), and also allows us to punt on any publicly facing\n// class-hierarchy decisions until Babel 8.\ninterface ParseErrorSpecification<ErrorDetails> {\n  // Look, these *could* be readonly, but then Flow complains when we initially\n  // set them. We could do a whole dance and make a special interface that's not\n  // readonly for when we create the error, then cast it to the readonly\n  // interface for public use, but the previous implementation didn't have them\n  // as readonly, so let's just not worry about it for now.\n  code: ParseErrorCode;\n  reasonCode: string;\n  syntaxPlugin?: SyntaxPlugin;\n  missingPlugin?: string | string[];\n  loc: Position;\n  details: ErrorDetails;\n\n  // We should consider removing this as it now just contains the same\n  // information as `loc.index`.\n  pos: number;\n}\n\nexport type ParseError<ErrorDetails> = SyntaxError &\n  ParseErrorSpecification<ErrorDetails>;\n\n// By `ParseErrorConstructor`, we mean something like the new-less style\n// `ErrorConstructor`[1], since `ParseError`'s are not themselves actually\n// separate classes from `SyntaxError`'s.\n//\n// 1. https://github.com/microsoft/TypeScript/blob/v4.5.5/lib/lib.es5.d.ts#L1027\nexport type ParseErrorConstructor<ErrorDetails> = (\n  loc: Position,\n  details: ErrorDetails,\n) => ParseError<ErrorDetails>;\n\ntype ToMessage<ErrorDetails> = (self: ErrorDetails) => string;\n\ntype ParseErrorCredentials<ErrorDetails> = {\n  code: string;\n  reasonCode: string;\n  syntaxPlugin?: SyntaxPlugin;\n  toMessage: ToMessage<ErrorDetails>;\n};\n\nfunction defineHidden(obj: object, key: string, value: unknown) {\n  Object.defineProperty(obj, key, {\n    enumerable: false,\n    configurable: true,\n    value,\n  });\n}\n\nfunction toParseErrorConstructor<ErrorDetails extends object>({\n  toMessage,\n  code,\n  reasonCode,\n  syntaxPlugin,\n}: ParseErrorCredentials<ErrorDetails>): ParseErrorConstructor<ErrorDetails> {\n  const hasMissingPlugin =\n    reasonCode === \"MissingPlugin\" || reasonCode === \"MissingOneOfPlugins\";\n\n  if (!process.env.BABEL_8_BREAKING) {\n    const oldReasonCodes: Record<string, string> = {\n      AccessorCannotDeclareThisParameter: \"AccesorCannotDeclareThisParameter\",\n      AccessorCannotHaveTypeParameters: \"AccesorCannotHaveTypeParameters\",\n      ConstInitializerMustBeStringOrNumericLiteralOrLiteralEnumReference:\n        \"ConstInitiailizerMustBeStringOrNumericLiteralOrLiteralEnumReference\",\n      SetAccessorCannotHaveOptionalParameter:\n        \"SetAccesorCannotHaveOptionalParameter\",\n      SetAccessorCannotHaveRestParameter: \"SetAccesorCannotHaveRestParameter\",\n      SetAccessorCannotHaveReturnType: \"SetAccesorCannotHaveReturnType\",\n    };\n    if (oldReasonCodes[reasonCode]) {\n      reasonCode = oldReasonCodes[reasonCode];\n    }\n  }\n\n  return function constructor(loc: Position, details: ErrorDetails) {\n    const error: ParseError<ErrorDetails> = new SyntaxError() as any;\n\n    error.code = code as ParseErrorCode;\n    error.reasonCode = reasonCode;\n    error.loc = loc;\n    error.pos = loc.index;\n\n    error.syntaxPlugin = syntaxPlugin;\n    if (hasMissingPlugin) {\n      error.missingPlugin = (details as any).missingPlugin;\n    }\n\n    type Overrides = {\n      loc?: Position;\n      details?: ErrorDetails;\n    };\n    defineHidden(error, \"clone\", function clone(overrides: Overrides = {}) {\n      const { line, column, index } = overrides.loc ?? loc;\n      return constructor(new Position(line, column, index), {\n        ...details,\n        ...overrides.details,\n      });\n    });\n\n    defineHidden(error, \"details\", details);\n\n    Object.defineProperty(error, \"message\", {\n      configurable: true,\n      get(this: ParseError<ErrorDetails>): string {\n        const message = `${toMessage(details)} (${loc.line}:${loc.column})`;\n        this.message = message;\n        return message;\n      },\n      set(value: string) {\n        Object.defineProperty(this, \"message\", { value, writable: true });\n      },\n    });\n\n    return error;\n  };\n}\n\ntype ParseErrorTemplate =\n  | string\n  | ToMessage<any>\n  | { message: string | ToMessage<any>; code?: ParseErrorCode };\n\nexport type ParseErrorTemplates = { [reasonCode: string]: ParseErrorTemplate };\n\n// This is the templated form of `ParseErrorEnum`.\n//\n// Note: We could factor out the return type calculation into something like\n// `ParseErrorConstructor<T extends ParseErrorTemplates>`, and then we could\n// reuse it in the non-templated form of `ParseErrorEnum`, but TypeScript\n// doesn't seem to drill down that far when showing you the computed type of\n// an object in an editor, so we'll leave it inlined for now.\nexport function ParseErrorEnum(a: TemplateStringsArray): <\n  T extends ParseErrorTemplates,\n>(\n  parseErrorTemplates: T,\n) => {\n  [K in keyof T]: ParseErrorConstructor<\n    T[K] extends { message: string | ToMessage<any> }\n      ? T[K][\"message\"] extends ToMessage<any>\n        ? Parameters<T[K][\"message\"]>[0]\n        : object\n      : T[K] extends ToMessage<any>\n        ? Parameters<T[K]>[0]\n        : object\n  >;\n};\n\nexport function ParseErrorEnum<T extends ParseErrorTemplates>(\n  parseErrorTemplates: T,\n  syntaxPlugin?: SyntaxPlugin,\n): {\n  [K in keyof T]: ParseErrorConstructor<\n    T[K] extends { message: string | ToMessage<any> }\n      ? T[K][\"message\"] extends ToMessage<any>\n        ? Parameters<T[K][\"message\"]>[0]\n        : object\n      : T[K] extends ToMessage<any>\n        ? Parameters<T[K]>[0]\n        : object\n  >;\n};\n\n// You call `ParseErrorEnum` with a mapping from `ReasonCode`'s to either:\n//\n// 1. a static error message,\n// 2. `toMessage` functions that define additional necessary `details` needed by\n//    the `ParseError`, or\n// 3. Objects that contain a `message` of one of the above and overridden `code`\n//    and/or `reasonCode`:\n//\n// ParseErrorEnum `optionalSyntaxPlugin` ({\n//   ErrorWithStaticMessage: \"message\",\n//   ErrorWithDynamicMessage: ({ type } : { type: string }) => `${type}`),\n//   ErrorWithOverriddenCodeAndOrReasonCode: {\n//     message: ({ type }: { type: string }) => `${type}`),\n//     code: \"AN_ERROR_CODE\",\n//     ...(BABEL_8_BREAKING ? { } : { reasonCode: \"CustomErrorReasonCode\" })\n//   }\n// });\n//\nexport function ParseErrorEnum(\n  argument: TemplateStringsArray | ParseErrorTemplates,\n  syntaxPlugin?: SyntaxPlugin,\n) {\n  // If the first parameter is an array, that means we were called with a tagged\n  // template literal. Extract the syntaxPlugin from this, and call again in\n  // the \"normalized\" form.\n  if (Array.isArray(argument)) {\n    return (parseErrorTemplates: ParseErrorTemplates) =>\n      ParseErrorEnum(parseErrorTemplates, argument[0]);\n  }\n\n  const ParseErrorConstructors = {} as Record<\n    string,\n    ParseErrorConstructor<unknown>\n  >;\n\n  for (const reasonCode of Object.keys(argument)) {\n    const template = (argument as ParseErrorTemplates)[reasonCode];\n    const { message, ...rest } =\n      typeof template === \"string\"\n        ? { message: () => template }\n        : typeof template === \"function\"\n          ? { message: template }\n          : template;\n    const toMessage = typeof message === \"string\" ? () => message : message;\n\n    ParseErrorConstructors[reasonCode] = toParseErrorConstructor({\n      code: \"BABEL_PARSER_SYNTAX_ERROR\",\n      reasonCode,\n      toMessage,\n      ...(syntaxPlugin ? { syntaxPlugin } : {}),\n      ...rest,\n    });\n  }\n\n  return ParseErrorConstructors;\n}\n\nimport ModuleErrors from \"./parse-error/module-errors.ts\";\nimport StandardErrors from \"./parse-error/standard-errors.ts\";\nimport StrictModeErrors from \"./parse-error/strict-mode-errors.ts\";\nimport PipelineOperatorErrors from \"./parse-error/pipeline-operator-errors.ts\";\n\nexport const Errors = {\n  ...ParseErrorEnum(ModuleErrors),\n  ...ParseErrorEnum(StandardErrors),\n  ...ParseErrorEnum(StrictModeErrors),\n  ...ParseErrorEnum`pipelineOperator`(PipelineOperatorErrors),\n};\n\nexport type { LValAncestor } from \"./parse-error/standard-errors.ts\";\n","import type { TokenType } from \"../tokenizer/types.ts\";\nimport type Parser from \"../parser/index.ts\";\nimport type { ExpressionErrors } from \"../parser/util.ts\";\nimport type * as N from \"../types.ts\";\nimport type { Node as NodeType, NodeBase, File } from \"../types.ts\";\nimport type { Position } from \"../util/location.ts\";\nimport { Errors } from \"../parse-error.ts\";\nimport type { Undone } from \"../parser/node.ts\";\nimport type { BindingFlag } from \"../util/scopeflags.ts\";\n\nconst { defineProperty } = Object;\nconst toUnenumerable = (object: any, key: string) => {\n  if (object) {\n    defineProperty(object, key, { enumerable: false, value: object[key] });\n  }\n};\n\nfunction toESTreeLocation(node: any) {\n  toUnenumerable(node.loc.start, \"index\");\n  toUnenumerable(node.loc.end, \"index\");\n\n  return node;\n}\n\nexport default (superClass: typeof Parser) =>\n  class ESTreeParserMixin extends superClass implements Parser {\n    parse(): File {\n      const file = toESTreeLocation(super.parse());\n\n      if (this.options.tokens) {\n        file.tokens = file.tokens.map(toESTreeLocation);\n      }\n\n      return file;\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    parseRegExpLiteral({ pattern, flags }): N.EstreeRegExpLiteral {\n      let regex: RegExp | null = null;\n      try {\n        regex = new RegExp(pattern, flags);\n      } catch (_) {\n        // In environments that don't support these flags value will\n        // be null as the regex can't be represented natively.\n      }\n      const node = this.estreeParseLiteral<N.EstreeRegExpLiteral>(regex);\n      node.regex = { pattern, flags };\n\n      return node;\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    parseBigIntLiteral(value: any): N.Node {\n      // https://github.com/estree/estree/blob/master/es2020.md#bigintliteral\n      let bigInt: bigint | null;\n      try {\n        bigInt = BigInt(value);\n      } catch {\n        bigInt = null;\n      }\n      const node = this.estreeParseLiteral<N.EstreeBigIntLiteral>(bigInt);\n      node.bigint = String(node.value || value);\n\n      return node;\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    parseDecimalLiteral(value: any): N.Node {\n      // https://github.com/estree/estree/blob/master/experimental/decimal.md\n      // todo: use BigDecimal when node supports it.\n      const decimal: null = null;\n      const node = this.estreeParseLiteral(decimal);\n      node.decimal = String(node.value || value);\n\n      return node;\n    }\n\n    estreeParseLiteral<T extends N.EstreeLiteral>(value: any) {\n      // @ts-expect-error ESTree plugin changes node types\n      return this.parseLiteral<T>(value, \"Literal\");\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    parseStringLiteral(value: any): N.Node {\n      return this.estreeParseLiteral(value);\n    }\n\n    parseNumericLiteral(value: any): any {\n      return this.estreeParseLiteral(value);\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    parseNullLiteral(): N.Node {\n      return this.estreeParseLiteral(null);\n    }\n\n    parseBooleanLiteral(value: boolean): N.BooleanLiteral {\n      // @ts-expect-error ESTree plugin changes node types\n      return this.estreeParseLiteral(value);\n    }\n\n    // Cast a Directive to an ExpressionStatement. Mutates the input Directive.\n    directiveToStmt(directive: N.Directive): N.ExpressionStatement {\n      const expression = directive.value as any as N.EstreeLiteral;\n      delete directive.value;\n\n      expression.type = \"Literal\";\n      // @ts-expect-error N.EstreeLiteral.raw is not defined.\n      expression.raw = expression.extra.raw;\n      expression.value = expression.extra.expressionValue;\n\n      const stmt = directive as any as N.ExpressionStatement;\n      stmt.type = \"ExpressionStatement\";\n      stmt.expression = expression;\n      // @ts-expect-error N.ExpressionStatement.directive is not defined\n      stmt.directive = expression.extra.rawValue;\n\n      delete expression.extra;\n\n      return stmt;\n    }\n\n    // ==================================\n    // Overrides\n    // ==================================\n\n    initFunction(node: N.BodilessFunctionOrMethodBase, isAsync: boolean): void {\n      super.initFunction(node, isAsync);\n      node.expression = false;\n    }\n\n    checkDeclaration(node: N.Pattern | N.ObjectProperty): void {\n      if (node != null && this.isObjectProperty(node)) {\n        // @ts-expect-error plugin typings\n        this.checkDeclaration((node as unknown as N.EstreeProperty).value);\n      } else {\n        super.checkDeclaration(node);\n      }\n    }\n\n    getObjectOrClassMethodParams(method: N.ObjectMethod | N.ClassMethod) {\n      return (method as unknown as N.EstreeMethodDefinition).value.params;\n    }\n\n    isValidDirective(stmt: N.Statement): boolean {\n      return (\n        stmt.type === \"ExpressionStatement\" &&\n        stmt.expression.type === \"Literal\" &&\n        typeof stmt.expression.value === \"string\" &&\n        !stmt.expression.extra?.parenthesized\n      );\n    }\n\n    parseBlockBody(\n      node: N.BlockStatementLike,\n      allowDirectives: boolean | undefined | null,\n      topLevel: boolean,\n      end: TokenType,\n      afterBlockParse?: (hasStrictModeDirective: boolean) => void,\n    ): void {\n      super.parseBlockBody(\n        node,\n        allowDirectives,\n        topLevel,\n        end,\n        afterBlockParse,\n      );\n\n      const directiveStatements = node.directives.map(d =>\n        this.directiveToStmt(d),\n      );\n      // @ts-expect-error estree plugin typings\n      node.body = directiveStatements.concat(node.body);\n      delete node.directives;\n    }\n\n    pushClassMethod(\n      classBody: N.ClassBody,\n      method: N.ClassMethod,\n      isGenerator: boolean,\n      isAsync: boolean,\n      isConstructor: boolean,\n      allowsDirectSuper: boolean,\n    ): void {\n      this.parseMethod(\n        method,\n        isGenerator,\n        isAsync,\n        isConstructor,\n        allowsDirectSuper,\n        \"ClassMethod\",\n        true,\n      );\n      if (method.typeParameters) {\n        // @ts-expect-error mutate AST types\n        method.value.typeParameters = method.typeParameters;\n        delete method.typeParameters;\n      }\n      classBody.body.push(method);\n    }\n\n    parsePrivateName(): any {\n      const node = super.parsePrivateName();\n      if (!process.env.BABEL_8_BREAKING) {\n        if (!this.getPluginOption(\"estree\", \"classFeatures\")) {\n          return node;\n        }\n      }\n      return this.convertPrivateNameToPrivateIdentifier(node);\n    }\n\n    convertPrivateNameToPrivateIdentifier(\n      node: N.PrivateName,\n    ): N.EstreePrivateIdentifier {\n      const name = super.getPrivateNameSV(node);\n      node = node as any;\n      delete node.id;\n      // @ts-expect-error mutate AST types\n      node.name = name;\n      // @ts-expect-error mutate AST types\n      node.type = \"PrivateIdentifier\";\n      return node as unknown as N.EstreePrivateIdentifier;\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    isPrivateName(node: N.Node): node is N.EstreePrivateIdentifier {\n      if (!process.env.BABEL_8_BREAKING) {\n        if (!this.getPluginOption(\"estree\", \"classFeatures\")) {\n          return super.isPrivateName(node);\n        }\n      }\n      return node.type === \"PrivateIdentifier\";\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    getPrivateNameSV(node: N.EstreePrivateIdentifier): string {\n      if (!process.env.BABEL_8_BREAKING) {\n        if (!this.getPluginOption(\"estree\", \"classFeatures\")) {\n          return super.getPrivateNameSV(node as unknown as N.PrivateName);\n        }\n      }\n      return node.name;\n    }\n\n    // @ts-expect-error plugin may override interfaces\n    parseLiteral<T extends N.Literal>(value: any, type: T[\"type\"]): T {\n      const node = super.parseLiteral<T>(value, type);\n      // @ts-expect-error mutating AST types\n      node.raw = node.extra.raw;\n      delete node.extra;\n\n      return node;\n    }\n\n    parseFunctionBody(\n      node: N.Function,\n      allowExpression?: boolean | null,\n      isMethod: boolean = false,\n    ): void {\n      super.parseFunctionBody(node, allowExpression, isMethod);\n      node.expression = node.body.type !== \"BlockStatement\";\n    }\n\n    // @ts-expect-error plugin may override interfaces\n    parseMethod<\n      T extends N.ClassPrivateMethod | N.ObjectMethod | N.ClassMethod,\n    >(\n      node: Undone<T>,\n      isGenerator: boolean,\n      isAsync: boolean,\n      isConstructor: boolean,\n      allowDirectSuper: boolean,\n      type: T[\"type\"],\n      inClassScope: boolean = false,\n    ): N.EstreeMethodDefinition {\n      let funcNode = this.startNode<N.MethodLike>();\n      funcNode.kind = node.kind; // provide kind, so super method correctly sets state\n      funcNode = super.parseMethod(\n        // @ts-expect-error todo(flow->ts)\n        funcNode,\n        isGenerator,\n        isAsync,\n        isConstructor,\n        allowDirectSuper,\n        type,\n        inClassScope,\n      );\n      // @ts-expect-error mutate AST types\n      funcNode.type = \"FunctionExpression\";\n      delete funcNode.kind;\n      // @ts-expect-error mutate AST types\n      node.value = funcNode;\n      if (type === \"ClassPrivateMethod\") {\n        node.computed = false;\n      }\n      return this.finishNode(\n        // @ts-expect-error cast methods to estree types\n        node as Undone<N.EstreeMethodDefinition>,\n        \"MethodDefinition\",\n      );\n    }\n\n    nameIsConstructor(key: N.Expression | N.PrivateName): boolean {\n      if (key.type === \"Literal\") return key.value === \"constructor\";\n      return super.nameIsConstructor(key);\n    }\n\n    parseClassProperty(...args: [N.ClassProperty]): any {\n      const propertyNode = super.parseClassProperty(...args) as any;\n      if (!process.env.BABEL_8_BREAKING) {\n        if (!this.getPluginOption(\"estree\", \"classFeatures\")) {\n          return propertyNode as N.EstreePropertyDefinition;\n        }\n      }\n      propertyNode.type = \"PropertyDefinition\";\n      return propertyNode as N.EstreePropertyDefinition;\n    }\n\n    parseClassPrivateProperty(...args: [N.ClassPrivateProperty]): any {\n      const propertyNode = super.parseClassPrivateProperty(...args) as any;\n      if (!process.env.BABEL_8_BREAKING) {\n        if (!this.getPluginOption(\"estree\", \"classFeatures\")) {\n          return propertyNode as N.EstreePropertyDefinition;\n        }\n      }\n      propertyNode.type = \"PropertyDefinition\";\n      propertyNode.computed = false;\n      return propertyNode as N.EstreePropertyDefinition;\n    }\n\n    parseObjectMethod(\n      prop: N.ObjectMethod,\n      isGenerator: boolean,\n      isAsync: boolean,\n      isPattern: boolean,\n      isAccessor: boolean,\n    ): N.ObjectMethod | undefined | null {\n      const node: N.EstreeProperty = super.parseObjectMethod(\n        prop,\n        isGenerator,\n        isAsync,\n        isPattern,\n        isAccessor,\n      ) as any;\n\n      if (node) {\n        node.type = \"Property\";\n        if ((node as any as N.ClassMethod).kind === \"method\") {\n          node.kind = \"init\";\n        }\n        node.shorthand = false;\n      }\n\n      return node as any;\n    }\n\n    parseObjectProperty(\n      prop: N.ObjectProperty,\n      startLoc: Position | undefined | null,\n      isPattern: boolean,\n      refExpressionErrors?: ExpressionErrors | null,\n    ): N.ObjectProperty | undefined | null {\n      const node: N.EstreeProperty = super.parseObjectProperty(\n        prop,\n        startLoc,\n        isPattern,\n        refExpressionErrors,\n      ) as any;\n\n      if (node) {\n        node.kind = \"init\";\n        node.type = \"Property\";\n      }\n\n      return node as any;\n    }\n\n    isValidLVal(\n      type: string,\n      isUnparenthesizedInAssign: boolean,\n      binding: BindingFlag,\n    ) {\n      return type === \"Property\"\n        ? \"value\"\n        : super.isValidLVal(type, isUnparenthesizedInAssign, binding);\n    }\n\n    isAssignable(node: N.Node, isBinding?: boolean): boolean {\n      if (node != null && this.isObjectProperty(node)) {\n        return this.isAssignable(node.value, isBinding);\n      }\n      return super.isAssignable(node, isBinding);\n    }\n\n    toAssignable(node: N.Node, isLHS: boolean = false): void {\n      if (node != null && this.isObjectProperty(node)) {\n        const { key, value } = node;\n        if (this.isPrivateName(key)) {\n          this.classScope.usePrivateName(\n            this.getPrivateNameSV(key),\n            key.loc.start,\n          );\n        }\n        this.toAssignable(value, isLHS);\n      } else {\n        super.toAssignable(node, isLHS);\n      }\n    }\n\n    toAssignableObjectExpressionProp(\n      prop: N.Node,\n      isLast: boolean,\n      isLHS: boolean,\n    ) {\n      if (\n        prop.type === \"Property\" &&\n        (prop.kind === \"get\" || prop.kind === \"set\")\n      ) {\n        this.raise(Errors.PatternHasAccessor, prop.key);\n      } else if (prop.type === \"Property\" && prop.method) {\n        this.raise(Errors.PatternHasMethod, prop.key);\n      } else {\n        super.toAssignableObjectExpressionProp(prop, isLast, isLHS);\n      }\n    }\n\n    finishCallExpression<T extends N.CallExpression | N.OptionalCallExpression>(\n      unfinished: Undone<T>,\n      optional: boolean,\n    ): T {\n      const node = super.finishCallExpression(unfinished, optional);\n\n      if (node.callee.type === \"Import\") {\n        (node as N.Node as N.EstreeImportExpression).type = \"ImportExpression\";\n        (node as N.Node as N.EstreeImportExpression).source = node\n          .arguments[0] as N.Expression;\n        (node as N.Node as N.EstreeImportExpression).options =\n          (node.arguments[1] as N.Expression) ?? null;\n        // compatibility with previous ESTree AST\n        // TODO(Babel 8): Remove this\n        (node as N.Node as N.EstreeImportExpression).attributes =\n          (node.arguments[1] as N.Expression) ?? null;\n        // arguments isn't optional in the type definition\n        delete node.arguments;\n        // callee isn't optional in the type definition\n        delete node.callee;\n      }\n\n      return node;\n    }\n\n    toReferencedArguments(\n      node:\n        | N.CallExpression\n        | N.OptionalCallExpression\n        | N.EstreeImportExpression,\n      /* isParenthesizedExpr?: boolean, */\n    ) {\n      // ImportExpressions do not have an arguments array.\n      if (node.type === \"ImportExpression\") {\n        return;\n      }\n\n      super.toReferencedArguments(node);\n    }\n\n    parseExport(\n      unfinished: Undone<N.AnyExport>,\n      decorators: N.Decorator[] | null,\n    ) {\n      const exportStartLoc = this.state.lastTokStartLoc;\n      const node = super.parseExport(unfinished, decorators);\n\n      switch (node.type) {\n        case \"ExportAllDeclaration\":\n          // @ts-expect-error mutating AST types\n          node.exported = null;\n          break;\n\n        case \"ExportNamedDeclaration\":\n          if (\n            node.specifiers.length === 1 &&\n            node.specifiers[0].type === \"ExportNamespaceSpecifier\"\n          ) {\n            // @ts-expect-error mutating AST types\n            node.type = \"ExportAllDeclaration\";\n            // @ts-expect-error mutating AST types\n            node.exported = node.specifiers[0].exported;\n            delete node.specifiers;\n          }\n\n        // fallthrough\n        case \"ExportDefaultDeclaration\":\n          {\n            const { declaration } = node;\n            if (\n              declaration?.type === \"ClassDeclaration\" &&\n              declaration.decorators?.length > 0 &&\n              // decorator comes before export\n              declaration.start === node.start\n            ) {\n              this.resetStartLocation(\n                node,\n                // For compatibility with ESLint's keyword-spacing rule, which assumes that an\n                // export declaration must start with export.\n                // https://github.com/babel/babel/issues/15085\n                // Here we reset export declaration's start to be the start of the export token\n                exportStartLoc,\n              );\n            }\n          }\n\n          break;\n      }\n\n      return node;\n    }\n\n    parseSubscript(\n      base: N.Expression,\n      startLoc: Position,\n      noCalls: boolean | undefined | null,\n      state: N.ParseSubscriptState,\n    ): N.Expression {\n      const node = super.parseSubscript(base, startLoc, noCalls, state);\n\n      if (state.optionalChainMember) {\n        // https://github.com/estree/estree/blob/master/es2020.md#chainexpression\n        if (\n          node.type === \"OptionalMemberExpression\" ||\n          node.type === \"OptionalCallExpression\"\n        ) {\n          // strip Optional prefix\n          (node as unknown as N.CallExpression | N.MemberExpression).type =\n            node.type.substring(8) as \"CallExpression\" | \"MemberExpression\";\n        }\n        if (state.stop) {\n          const chain = this.startNodeAtNode<N.EstreeChainExpression>(node);\n          chain.expression = node;\n          return this.finishNode(chain, \"ChainExpression\");\n        }\n      } else if (\n        node.type === \"MemberExpression\" ||\n        node.type === \"CallExpression\"\n      ) {\n        // @ts-expect-error not in the type definitions\n        node.optional = false;\n      }\n\n      return node;\n    }\n\n    isOptionalMemberExpression(node: N.Node) {\n      if (node.type === \"ChainExpression\") {\n        return node.expression.type === \"MemberExpression\";\n      }\n      return super.isOptionalMemberExpression(node);\n    }\n\n    hasPropertyAsPrivateName(node: N.Node): boolean {\n      if (node.type === \"ChainExpression\") {\n        node = node.expression;\n      }\n      return super.hasPropertyAsPrivateName(node);\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    isObjectProperty(node: N.Node): node is N.EstreeProperty {\n      return node.type === \"Property\" && node.kind === \"init\" && !node.method;\n    }\n\n    // @ts-expect-error ESTree plugin changes node types\n    isObjectMethod(node: N.Node): node is N.EstreeProperty {\n      return (\n        node.type === \"Property\" &&\n        (node.method || node.kind === \"get\" || node.kind === \"set\")\n      );\n    }\n\n    finishNodeAt<T extends NodeType>(\n      node: Undone<T>,\n      type: T[\"type\"],\n      endLoc: Position,\n    ): T {\n      return toESTreeLocation(super.finishNodeAt(node, type, endLoc));\n    }\n\n    resetStartLocation(node: N.Node, startLoc: Position) {\n      super.resetStartLocation(node, startLoc);\n      toESTreeLocation(node);\n    }\n\n    resetEndLocation(\n      node: NodeBase,\n      endLoc: Position = this.state.lastTokEndLoc,\n    ): void {\n      super.resetEndLocation(node, endLoc);\n      toESTreeLocation(node);\n    }\n  };\n","// The token context is used in JSX plugin to track\n// jsx tag / jsx text / normal JavaScript expression\n\nexport class TokContext {\n  constructor(token: string, preserveSpace?: boolean) {\n    this.token = token;\n    this.preserveSpace = !!preserveSpace;\n  }\n\n  token: string;\n  preserveSpace: boolean;\n}\n\nconst types: {\n  [key: string]: TokContext;\n} = {\n  brace: new TokContext(\"{\"), // normal JavaScript expression\n  j_oTag: new TokContext(\"<tag\"), // JSX opening tag\n  j_cTag: new TokContext(\"</tag\"), // JSX closing tag\n  j_expr: new TokContext(\"<tag>...</tag>\", true), // JSX expressions\n};\n\nif (!process.env.BABEL_8_BREAKING) {\n  types.template = new TokContext(\"`\", true);\n}\n\nexport { types };\n","import { types as tc, type TokContext } from \"./context.ts\";\n// ## Token types\n\n// The assignment of fine-grained, information-carrying type objects\n// allows the tokenizer to store the information it has about a\n// token in a way that is very cheap for the parser to look up.\n\n// All token type variables start with an underscore, to make them\n// easy to recognize.\n\n// The `beforeExpr` property is used to disambiguate between 1) binary\n// expression (<) and JSX Tag start (<name>); 2) object literal and JSX\n// texts. It is set on the `updateContext` function in the JSX plugin.\n\n// The `startsExpr` property is used to determine whether an expression\n// may be the “argument” subexpression of a `yield` expression or\n// `yield` statement. It is set on all token types that may be at the\n// start of a subexpression.\n\n// `isLoop` marks a keyword as starting a loop, which is important\n// to know when parsing a label, in order to allow or disallow\n// continue jumps to that label.\n\nconst beforeExpr = true;\nconst startsExpr = true;\nconst isLoop = true;\nconst isAssign = true;\nconst prefix = true;\nconst postfix = true;\n\ntype TokenOptions = {\n  keyword?: string;\n  beforeExpr?: boolean;\n  startsExpr?: boolean;\n  rightAssociative?: boolean;\n  isLoop?: boolean;\n  isAssign?: boolean;\n  prefix?: boolean;\n  postfix?: boolean;\n  binop?: number | null;\n};\n\n// Internally the tokenizer stores token as a number\nexport type TokenType = number;\n\n// The `ExportedTokenType` is exported via `tokTypes` and accessible\n// when `tokens: true` is enabled. Unlike internal token type, it provides\n// metadata of the tokens.\nexport class ExportedTokenType {\n  label: string;\n  keyword: string | undefined | null;\n  beforeExpr: boolean;\n  startsExpr: boolean;\n  rightAssociative: boolean;\n  isLoop: boolean;\n  isAssign: boolean;\n  prefix: boolean;\n  postfix: boolean;\n  binop: number | undefined | null;\n  // todo(Babel 8): remove updateContext from exposed token layout\n  declare updateContext:\n    | ((context: Array<TokContext>) => void)\n    | undefined\n    | null;\n\n  constructor(label: string, conf: TokenOptions = {}) {\n    this.label = label;\n    this.keyword = conf.keyword;\n    this.beforeExpr = !!conf.beforeExpr;\n    this.startsExpr = !!conf.startsExpr;\n    this.rightAssociative = !!conf.rightAssociative;\n    this.isLoop = !!conf.isLoop;\n    this.isAssign = !!conf.isAssign;\n    this.prefix = !!conf.prefix;\n    this.postfix = !!conf.postfix;\n    this.binop = conf.binop != null ? conf.binop : null;\n    if (!process.env.BABEL_8_BREAKING) {\n      this.updateContext = null;\n    }\n  }\n}\n\n// A map from keyword/keyword-like string value to the token type\nexport const keywords = new Map<string, TokenType>();\n\nfunction createKeyword(name: string, options: TokenOptions = {}): TokenType {\n  options.keyword = name;\n  const token = createToken(name, options);\n  keywords.set(name, token);\n  return token;\n}\n\nfunction createBinop(name: string, binop: number) {\n  return createToken(name, { beforeExpr, binop });\n}\n\nlet tokenTypeCounter = -1;\nexport const tokenTypes: ExportedTokenType[] = [];\nconst tokenLabels: string[] = [];\nconst tokenBinops: number[] = [];\nconst tokenBeforeExprs: boolean[] = [];\nconst tokenStartsExprs: boolean[] = [];\nconst tokenPrefixes: boolean[] = [];\n\nfunction createToken(name: string, options: TokenOptions = {}): TokenType {\n  ++tokenTypeCounter;\n  tokenLabels.push(name);\n  tokenBinops.push(options.binop ?? -1);\n  tokenBeforeExprs.push(options.beforeExpr ?? false);\n  tokenStartsExprs.push(options.startsExpr ?? false);\n  tokenPrefixes.push(options.prefix ?? false);\n  tokenTypes.push(new ExportedTokenType(name, options));\n\n  return tokenTypeCounter;\n}\n\nfunction createKeywordLike(\n  name: string,\n  options: TokenOptions = {},\n): TokenType {\n  ++tokenTypeCounter;\n  keywords.set(name, tokenTypeCounter);\n  tokenLabels.push(name);\n  tokenBinops.push(options.binop ?? -1);\n  tokenBeforeExprs.push(options.beforeExpr ?? false);\n  tokenStartsExprs.push(options.startsExpr ?? false);\n  tokenPrefixes.push(options.prefix ?? false);\n  // In the exported token type, we set the label as \"name\" for backward compatibility with Babel 7\n  tokenTypes.push(new ExportedTokenType(\"name\", options));\n\n  return tokenTypeCounter;\n}\n\n// For performance the token type helpers depend on the following declarations order.\n// When adding new token types, please also check if the token helpers need update.\n\nexport type InternalTokenTypes = typeof tt;\n\nexport const tt = {\n  // Punctuation token types.\n  bracketL: createToken(\"[\", { beforeExpr, startsExpr }),\n  bracketHashL: createToken(\"#[\", { beforeExpr, startsExpr }),\n  bracketBarL: createToken(\"[|\", { beforeExpr, startsExpr }),\n  bracketR: createToken(\"]\"),\n  bracketBarR: createToken(\"|]\"),\n  braceL: createToken(\"{\", { beforeExpr, startsExpr }),\n  braceBarL: createToken(\"{|\", { beforeExpr, startsExpr }),\n  braceHashL: createToken(\"#{\", { beforeExpr, startsExpr }),\n  braceR: createToken(\"}\"),\n  braceBarR: createToken(\"|}\"),\n  parenL: createToken(\"(\", { beforeExpr, startsExpr }),\n  parenR: createToken(\")\"),\n  comma: createToken(\",\", { beforeExpr }),\n  semi: createToken(\";\", { beforeExpr }),\n  colon: createToken(\":\", { beforeExpr }),\n  doubleColon: createToken(\"::\", { beforeExpr }),\n  dot: createToken(\".\"),\n  question: createToken(\"?\", { beforeExpr }),\n  questionDot: createToken(\"?.\"),\n  arrow: createToken(\"=>\", { beforeExpr }),\n  template: createToken(\"template\"),\n  ellipsis: createToken(\"...\", { beforeExpr }),\n  backQuote: createToken(\"`\", { startsExpr }),\n  dollarBraceL: createToken(\"${\", { beforeExpr, startsExpr }),\n  // start: isTemplate\n  templateTail: createToken(\"...`\", { startsExpr }),\n  templateNonTail: createToken(\"...${\", { beforeExpr, startsExpr }),\n  // end: isTemplate\n  at: createToken(\"@\"),\n  hash: createToken(\"#\", { startsExpr }),\n\n  // Special hashbang token.\n  interpreterDirective: createToken(\"#!...\"),\n\n  // Operators. These carry several kinds of properties to help the\n  // parser use them properly (the presence of these properties is\n  // what categorizes them as operators).\n  //\n  // `binop`, when present, specifies that this operator is a binary\n  // operator, and will refer to its precedence.\n  //\n  // `prefix` and `postfix` mark the operator as a prefix or postfix\n  // unary operator.\n  //\n  // `isAssign` marks all of `=`, `+=`, `-=` etcetera, which act as\n  // binary operators with a very low precedence, that should result\n  // in AssignmentExpression nodes.\n\n  // start: isAssign\n  eq: createToken(\"=\", { beforeExpr, isAssign }),\n  assign: createToken(\"_=\", { beforeExpr, isAssign }),\n  slashAssign: createToken(\"_=\", { beforeExpr, isAssign }),\n  // These are only needed to support % and ^ as a Hack-pipe topic token.\n  // When the proposal settles on a token, the others can be merged with\n  // tt.assign.\n  xorAssign: createToken(\"_=\", { beforeExpr, isAssign }),\n  moduloAssign: createToken(\"_=\", { beforeExpr, isAssign }),\n  // end: isAssign\n\n  incDec: createToken(\"++/--\", { prefix, postfix, startsExpr }),\n  bang: createToken(\"!\", { beforeExpr, prefix, startsExpr }),\n  tilde: createToken(\"~\", { beforeExpr, prefix, startsExpr }),\n\n  // More possible topic tokens.\n  // When the proposal settles on a token, at least one of these may be removed.\n  doubleCaret: createToken(\"^^\", { startsExpr }),\n  doubleAt: createToken(\"@@\", { startsExpr }),\n\n  // start: isBinop\n  pipeline: createBinop(\"|>\", 0),\n  nullishCoalescing: createBinop(\"??\", 1),\n  logicalOR: createBinop(\"||\", 1),\n  logicalAND: createBinop(\"&&\", 2),\n  bitwiseOR: createBinop(\"|\", 3),\n  bitwiseXOR: createBinop(\"^\", 4),\n  bitwiseAND: createBinop(\"&\", 5),\n  equality: createBinop(\"==/!=/===/!==\", 6),\n  lt: createBinop(\"</>/<=/>=\", 7),\n  gt: createBinop(\"</>/<=/>=\", 7),\n  relational: createBinop(\"</>/<=/>=\", 7),\n  bitShift: createBinop(\"<</>>/>>>\", 8),\n  bitShiftL: createBinop(\"<</>>/>>>\", 8),\n  bitShiftR: createBinop(\"<</>>/>>>\", 8),\n  plusMin: createToken(\"+/-\", { beforeExpr, binop: 9, prefix, startsExpr }),\n  // startsExpr: required by v8intrinsic plugin\n  modulo: createToken(\"%\", { binop: 10, startsExpr }),\n  // unset `beforeExpr` as it can be `function *`\n  star: createToken(\"*\", { binop: 10 }),\n  slash: createBinop(\"/\", 10),\n  exponent: createToken(\"**\", {\n    beforeExpr,\n    binop: 11,\n    rightAssociative: true,\n  }),\n\n  // Keywords\n  // Don't forget to update packages/babel-helper-validator-identifier/src/keyword.js\n  // when new keywords are added\n  // start: isLiteralPropertyName\n  // start: isKeyword\n  _in: createKeyword(\"in\", { beforeExpr, binop: 7 }),\n  _instanceof: createKeyword(\"instanceof\", { beforeExpr, binop: 7 }),\n  // end: isBinop\n  _break: createKeyword(\"break\"),\n  _case: createKeyword(\"case\", { beforeExpr }),\n  _catch: createKeyword(\"catch\"),\n  _continue: createKeyword(\"continue\"),\n  _debugger: createKeyword(\"debugger\"),\n  _default: createKeyword(\"default\", { beforeExpr }),\n  _else: createKeyword(\"else\", { beforeExpr }),\n  _finally: createKeyword(\"finally\"),\n  _function: createKeyword(\"function\", { startsExpr }),\n  _if: createKeyword(\"if\"),\n  _return: createKeyword(\"return\", { beforeExpr }),\n  _switch: createKeyword(\"switch\"),\n  _throw: createKeyword(\"throw\", { beforeExpr, prefix, startsExpr }),\n  _try: createKeyword(\"try\"),\n  _var: createKeyword(\"var\"),\n  _const: createKeyword(\"const\"),\n  _with: createKeyword(\"with\"),\n  _new: createKeyword(\"new\", { beforeExpr, startsExpr }),\n  _this: createKeyword(\"this\", { startsExpr }),\n  _super: createKeyword(\"super\", { startsExpr }),\n  _class: createKeyword(\"class\", { startsExpr }),\n  _extends: createKeyword(\"extends\", { beforeExpr }),\n  _export: createKeyword(\"export\"),\n  _import: createKeyword(\"import\", { startsExpr }),\n  _null: createKeyword(\"null\", { startsExpr }),\n  _true: createKeyword(\"true\", { startsExpr }),\n  _false: createKeyword(\"false\", { startsExpr }),\n  _typeof: createKeyword(\"typeof\", { beforeExpr, prefix, startsExpr }),\n  _void: createKeyword(\"void\", { beforeExpr, prefix, startsExpr }),\n  _delete: createKeyword(\"delete\", { beforeExpr, prefix, startsExpr }),\n  // start: isLoop\n  _do: createKeyword(\"do\", { isLoop, beforeExpr }),\n  _for: createKeyword(\"for\", { isLoop }),\n  _while: createKeyword(\"while\", { isLoop }),\n  // end: isLoop\n  // end: isKeyword\n\n  // Primary literals\n  // start: isIdentifier\n  _as: createKeywordLike(\"as\", { startsExpr }),\n  _assert: createKeywordLike(\"assert\", { startsExpr }),\n  _async: createKeywordLike(\"async\", { startsExpr }),\n  _await: createKeywordLike(\"await\", { startsExpr }),\n  _defer: createKeywordLike(\"defer\", { startsExpr }),\n  _from: createKeywordLike(\"from\", { startsExpr }),\n  _get: createKeywordLike(\"get\", { startsExpr }),\n  _let: createKeywordLike(\"let\", { startsExpr }),\n  _meta: createKeywordLike(\"meta\", { startsExpr }),\n  _of: createKeywordLike(\"of\", { startsExpr }),\n  _sent: createKeywordLike(\"sent\", { startsExpr }),\n  _set: createKeywordLike(\"set\", { startsExpr }),\n  _source: createKeywordLike(\"source\", { startsExpr }),\n  _static: createKeywordLike(\"static\", { startsExpr }),\n  _using: createKeywordLike(\"using\", { startsExpr }),\n  _yield: createKeywordLike(\"yield\", { startsExpr }),\n\n  // Flow and TypeScript Keywordlike\n  _asserts: createKeywordLike(\"asserts\", { startsExpr }),\n  _checks: createKeywordLike(\"checks\", { startsExpr }),\n  _exports: createKeywordLike(\"exports\", { startsExpr }),\n  _global: createKeywordLike(\"global\", { startsExpr }),\n  _implements: createKeywordLike(\"implements\", { startsExpr }),\n  _intrinsic: createKeywordLike(\"intrinsic\", { startsExpr }),\n  _infer: createKeywordLike(\"infer\", { startsExpr }),\n  _is: createKeywordLike(\"is\", { startsExpr }),\n  _mixins: createKeywordLike(\"mixins\", { startsExpr }),\n  _proto: createKeywordLike(\"proto\", { startsExpr }),\n  _require: createKeywordLike(\"require\", { startsExpr }),\n  _satisfies: createKeywordLike(\"satisfies\", { startsExpr }),\n  // start: isTSTypeOperator\n  _keyof: createKeywordLike(\"keyof\", { startsExpr }),\n  _readonly: createKeywordLike(\"readonly\", { startsExpr }),\n  _unique: createKeywordLike(\"unique\", { startsExpr }),\n  // end: isTSTypeOperator\n  // start: isTSDeclarationStart\n  _abstract: createKeywordLike(\"abstract\", { startsExpr }),\n  _declare: createKeywordLike(\"declare\", { startsExpr }),\n  _enum: createKeywordLike(\"enum\", { startsExpr }),\n  _module: createKeywordLike(\"module\", { startsExpr }),\n  _namespace: createKeywordLike(\"namespace\", { startsExpr }),\n  // start: isFlowInterfaceOrTypeOrOpaque\n  _interface: createKeywordLike(\"interface\", { startsExpr }),\n  _type: createKeywordLike(\"type\", { startsExpr }),\n  // end: isTSDeclarationStart\n  _opaque: createKeywordLike(\"opaque\", { startsExpr }),\n  // end: isFlowInterfaceOrTypeOrOpaque\n  name: createToken(\"name\", { startsExpr }),\n  // end: isIdentifier\n\n  string: createToken(\"string\", { startsExpr }),\n  num: createToken(\"num\", { startsExpr }),\n  bigint: createToken(\"bigint\", { startsExpr }),\n  // TODO: Remove this in Babel 8\n  decimal: createToken(\"decimal\", { startsExpr }),\n  // end: isLiteralPropertyName\n  regexp: createToken(\"regexp\", { startsExpr }),\n  privateName: createToken(\"#name\", { startsExpr }),\n  eof: createToken(\"eof\"),\n\n  // jsx plugin\n  jsxName: createToken(\"jsxName\"),\n  jsxText: createToken(\"jsxText\", { beforeExpr: true }),\n  jsxTagStart: createToken(\"jsxTagStart\", { startsExpr: true }),\n  jsxTagEnd: createToken(\"jsxTagEnd\"),\n\n  // placeholder plugin\n  placeholder: createToken(\"%%\", { startsExpr: true }),\n} as const;\n\nexport function tokenIsIdentifier(token: TokenType): boolean {\n  return token >= tt._as && token <= tt.name;\n}\n\nexport function tokenKeywordOrIdentifierIsKeyword(token: TokenType): boolean {\n  // we can remove the token >= tt._in check when we\n  // know a token is either keyword or identifier\n  return token <= tt._while;\n}\n\nexport function tokenIsKeywordOrIdentifier(token: TokenType): boolean {\n  return token >= tt._in && token <= tt.name;\n}\n\nexport function tokenIsLiteralPropertyName(token: TokenType): boolean {\n  return token >= tt._in && token <= tt.decimal;\n}\n\nexport function tokenComesBeforeExpression(token: TokenType): boolean {\n  return tokenBeforeExprs[token];\n}\n\nexport function tokenCanStartExpression(token: TokenType): boolean {\n  return tokenStartsExprs[token];\n}\n\nexport function tokenIsAssignment(token: TokenType): boolean {\n  return token >= tt.eq && token <= tt.moduloAssign;\n}\n\nexport function tokenIsFlowInterfaceOrTypeOrOpaque(token: TokenType): boolean {\n  return token >= tt._interface && token <= tt._opaque;\n}\n\nexport function tokenIsLoop(token: TokenType): boolean {\n  return token >= tt._do && token <= tt._while;\n}\n\nexport function tokenIsKeyword(token: TokenType): boolean {\n  return token >= tt._in && token <= tt._while;\n}\n\nexport function tokenIsOperator(token: TokenType): boolean {\n  return token >= tt.pipeline && token <= tt._instanceof;\n}\n\nexport function tokenIsPostfix(token: TokenType): boolean {\n  return token === tt.incDec;\n}\n\nexport function tokenIsPrefix(token: TokenType): boolean {\n  return tokenPrefixes[token];\n}\n\nexport function tokenIsTSTypeOperator(token: TokenType): boolean {\n  return token >= tt._keyof && token <= tt._unique;\n}\n\nexport function tokenIsTSDeclarationStart(token: TokenType): boolean {\n  return token >= tt._abstract && token <= tt._type;\n}\n\nexport function tokenLabelName(token: TokenType): string {\n  return tokenLabels[token];\n}\n\nexport function tokenOperatorPrecedence(token: TokenType): number {\n  return tokenBinops[token];\n}\n\nexport function tokenIsBinaryOperator(token: TokenType): boolean {\n  return tokenBinops[token] !== -1;\n}\n\nexport function tokenIsRightAssociative(token: TokenType): boolean {\n  return token === tt.exponent;\n}\n\nexport function tokenIsTemplate(token: TokenType): boolean {\n  return token >= tt.templateTail && token <= tt.templateNonTail;\n}\n\nexport function getExportedToken(token: TokenType): ExportedTokenType {\n  return tokenTypes[token];\n}\n\nexport function isTokenType(obj: any): boolean {\n  return typeof obj === \"number\";\n}\n\nif (!process.env.BABEL_8_BREAKING) {\n  tokenTypes[tt.braceR].updateContext = context => {\n    context.pop();\n  };\n\n  tokenTypes[tt.braceL].updateContext =\n    tokenTypes[tt.braceHashL].updateContext =\n    tokenTypes[tt.dollarBraceL].updateContext =\n      context => {\n        context.push(tc.brace);\n      };\n\n  tokenTypes[tt.backQuote].updateContext = context => {\n    if (context[context.length - 1] === tc.template) {\n      context.pop();\n    } else {\n      context.push(tc.template);\n    }\n  };\n\n  tokenTypes[tt.jsxTagStart].updateContext = context => {\n    context.push(tc.j_expr, tc.j_oTag);\n  };\n}\n","// We inline this package\n// eslint-disable-next-line import/no-extraneous-dependencies\nimport * as charCodes from \"charcodes\";\n\n// ## Character categories\n\n// Big ugly regular expressions that match characters in the\n// whitespace, identifier, and identifier-start categories. These\n// are only applied when a character is found to actually have a\n// code point between 0x80 and 0xffff.\n// Generated by `scripts/generate-identifier-regex.cjs`.\n\n/* prettier-ignore */\nlet nonASCIIidentifierStartChars = \"\\xaa\\xb5\\xba\\xc0-\\xd6\\xd8-\\xf6\\xf8-\\u02c1\\u02c6-\\u02d1\\u02e0-\\u02e4\\u02ec\\u02ee\\u0370-\\u0374\\u0376\\u0377\\u037a-\\u037d\\u037f\\u0386\\u0388-\\u038a\\u038c\\u038e-\\u03a1\\u03a3-\\u03f5\\u03f7-\\u0481\\u048a-\\u052f\\u0531-\\u0556\\u0559\\u0560-\\u0588\\u05d0-\\u05ea\\u05ef-\\u05f2\\u0620-\\u064a\\u066e\\u066f\\u0671-\\u06d3\\u06d5\\u06e5\\u06e6\\u06ee\\u06ef\\u06fa-\\u06fc\\u06ff\\u0710\\u0712-\\u072f\\u074d-\\u07a5\\u07b1\\u07ca-\\u07ea\\u07f4\\u07f5\\u07fa\\u0800-\\u0815\\u081a\\u0824\\u0828\\u0840-\\u0858\\u0860-\\u086a\\u0870-\\u0887\\u0889-\\u088e\\u08a0-\\u08c9\\u0904-\\u0939\\u093d\\u0950\\u0958-\\u0961\\u0971-\\u0980\\u0985-\\u098c\\u098f\\u0990\\u0993-\\u09a8\\u09aa-\\u09b0\\u09b2\\u09b6-\\u09b9\\u09bd\\u09ce\\u09dc\\u09dd\\u09df-\\u09e1\\u09f0\\u09f1\\u09fc\\u0a05-\\u0a0a\\u0a0f\\u0a10\\u0a13-\\u0a28\\u0a2a-\\u0a30\\u0a32\\u0a33\\u0a35\\u0a36\\u0a38\\u0a39\\u0a59-\\u0a5c\\u0a5e\\u0a72-\\u0a74\\u0a85-\\u0a8d\\u0a8f-\\u0a91\\u0a93-\\u0aa8\\u0aaa-\\u0ab0\\u0ab2\\u0ab3\\u0ab5-\\u0ab9\\u0abd\\u0ad0\\u0ae0\\u0ae1\\u0af9\\u0b05-\\u0b0c\\u0b0f\\u0b10\\u0b13-\\u0b28\\u0b2a-\\u0b30\\u0b32\\u0b33\\u0b35-\\u0b39\\u0b3d\\u0b5c\\u0b5d\\u0b5f-\\u0b61\\u0b71\\u0b83\\u0b85-\\u0b8a\\u0b8e-\\u0b90\\u0b92-\\u0b95\\u0b99\\u0b9a\\u0b9c\\u0b9e\\u0b9f\\u0ba3\\u0ba4\\u0ba8-\\u0baa\\u0bae-\\u0bb9\\u0bd0\\u0c05-\\u0c0c\\u0c0e-\\u0c10\\u0c12-\\u0c28\\u0c2a-\\u0c39\\u0c3d\\u0c58-\\u0c5a\\u0c5d\\u0c60\\u0c61\\u0c80\\u0c85-\\u0c8c\\u0c8e-\\u0c90\\u0c92-\\u0ca8\\u0caa-\\u0cb3\\u0cb5-\\u0cb9\\u0cbd\\u0cdd\\u0cde\\u0ce0\\u0ce1\\u0cf1\\u0cf2\\u0d04-\\u0d0c\\u0d0e-\\u0d10\\u0d12-\\u0d3a\\u0d3d\\u0d4e\\u0d54-\\u0d56\\u0d5f-\\u0d61\\u0d7a-\\u0d7f\\u0d85-\\u0d96\\u0d9a-\\u0db1\\u0db3-\\u0dbb\\u0dbd\\u0dc0-\\u0dc6\\u0e01-\\u0e30\\u0e32\\u0e33\\u0e40-\\u0e46\\u0e81\\u0e82\\u0e84\\u0e86-\\u0e8a\\u0e8c-\\u0ea3\\u0ea5\\u0ea7-\\u0eb0\\u0eb2\\u0eb3\\u0ebd\\u0ec0-\\u0ec4\\u0ec6\\u0edc-\\u0edf\\u0f00\\u0f40-\\u0f47\\u0f49-\\u0f6c\\u0f88-\\u0f8c\\u1000-\\u102a\\u103f\\u1050-\\u1055\\u105a-\\u105d\\u1061\\u1065\\u1066\\u106e-\\u1070\\u1075-\\u1081\\u108e\\u10a0-\\u10c5\\u10c7\\u10cd\\u10d0-\\u10fa\\u10fc-\\u1248\\u124a-\\u124d\\u1250-\\u1256\\u1258\\u125a-\\u125d\\u1260-\\u1288\\u128a-\\u128d\\u1290-\\u12b0\\u12b2-\\u12b5\\u12b8-\\u12be\\u12c0\\u12c2-\\u12c5\\u12c8-\\u12d6\\u12d8-\\u1310\\u1312-\\u1315\\u1318-\\u135a\\u1380-\\u138f\\u13a0-\\u13f5\\u13f8-\\u13fd\\u1401-\\u166c\\u166f-\\u167f\\u1681-\\u169a\\u16a0-\\u16ea\\u16ee-\\u16f8\\u1700-\\u1711\\u171f-\\u1731\\u1740-\\u1751\\u1760-\\u176c\\u176e-\\u1770\\u1780-\\u17b3\\u17d7\\u17dc\\u1820-\\u1878\\u1880-\\u18a8\\u18aa\\u18b0-\\u18f5\\u1900-\\u191e\\u1950-\\u196d\\u1970-\\u1974\\u1980-\\u19ab\\u19b0-\\u19c9\\u1a00-\\u1a16\\u1a20-\\u1a54\\u1aa7\\u1b05-\\u1b33\\u1b45-\\u1b4c\\u1b83-\\u1ba0\\u1bae\\u1baf\\u1bba-\\u1be5\\u1c00-\\u1c23\\u1c4d-\\u1c4f\\u1c5a-\\u1c7d\\u1c80-\\u1c8a\\u1c90-\\u1cba\\u1cbd-\\u1cbf\\u1ce9-\\u1cec\\u1cee-\\u1cf3\\u1cf5\\u1cf6\\u1cfa\\u1d00-\\u1dbf\\u1e00-\\u1f15\\u1f18-\\u1f1d\\u1f20-\\u1f45\\u1f48-\\u1f4d\\u1f50-\\u1f57\\u1f59\\u1f5b\\u1f5d\\u1f5f-\\u1f7d\\u1f80-\\u1fb4\\u1fb6-\\u1fbc\\u1fbe\\u1fc2-\\u1fc4\\u1fc6-\\u1fcc\\u1fd0-\\u1fd3\\u1fd6-\\u1fdb\\u1fe0-\\u1fec\\u1ff2-\\u1ff4\\u1ff6-\\u1ffc\\u2071\\u207f\\u2090-\\u209c\\u2102\\u2107\\u210a-\\u2113\\u2115\\u2118-\\u211d\\u2124\\u2126\\u2128\\u212a-\\u2139\\u213c-\\u213f\\u2145-\\u2149\\u214e\\u2160-\\u2188\\u2c00-\\u2ce4\\u2ceb-\\u2cee\\u2cf2\\u2cf3\\u2d00-\\u2d25\\u2d27\\u2d2d\\u2d30-\\u2d67\\u2d6f\\u2d80-\\u2d96\\u2da0-\\u2da6\\u2da8-\\u2dae\\u2db0-\\u2db6\\u2db8-\\u2dbe\\u2dc0-\\u2dc6\\u2dc8-\\u2dce\\u2dd0-\\u2dd6\\u2dd8-\\u2dde\\u3005-\\u3007\\u3021-\\u3029\\u3031-\\u3035\\u3038-\\u303c\\u3041-\\u3096\\u309b-\\u309f\\u30a1-\\u30fa\\u30fc-\\u30ff\\u3105-\\u312f\\u3131-\\u318e\\u31a0-\\u31bf\\u31f0-\\u31ff\\u3400-\\u4dbf\\u4e00-\\ua48c\\ua4d0-\\ua4fd\\ua500-\\ua60c\\ua610-\\ua61f\\ua62a\\ua62b\\ua640-\\ua66e\\ua67f-\\ua69d\\ua6a0-\\ua6ef\\ua717-\\ua71f\\ua722-\\ua788\\ua78b-\\ua7cd\\ua7d0\\ua7d1\\ua7d3\\ua7d5-\\ua7dc\\ua7f2-\\ua801\\ua803-\\ua805\\ua807-\\ua80a\\ua80c-\\ua822\\ua840-\\ua873\\ua882-\\ua8b3\\ua8f2-\\ua8f7\\ua8fb\\ua8fd\\ua8fe\\ua90a-\\ua925\\ua930-\\ua946\\ua960-\\ua97c\\ua984-\\ua9b2\\ua9cf\\ua9e0-\\ua9e4\\ua9e6-\\ua9ef\\ua9fa-\\ua9fe\\uaa00-\\uaa28\\uaa40-\\uaa42\\uaa44-\\uaa4b\\uaa60-\\uaa76\\uaa7a\\uaa7e-\\uaaaf\\uaab1\\uaab5\\uaab6\\uaab9-\\uaabd\\uaac0\\uaac2\\uaadb-\\uaadd\\uaae0-\\uaaea\\uaaf2-\\uaaf4\\uab01-\\uab06\\uab09-\\uab0e\\uab11-\\uab16\\uab20-\\uab26\\uab28-\\uab2e\\uab30-\\uab5a\\uab5c-\\uab69\\uab70-\\uabe2\\uac00-\\ud7a3\\ud7b0-\\ud7c6\\ud7cb-\\ud7fb\\uf900-\\ufa6d\\ufa70-\\ufad9\\ufb00-\\ufb06\\ufb13-\\ufb17\\ufb1d\\ufb1f-\\ufb28\\ufb2a-\\ufb36\\ufb38-\\ufb3c\\ufb3e\\ufb40\\ufb41\\ufb43\\ufb44\\ufb46-\\ufbb1\\ufbd3-\\ufd3d\\ufd50-\\ufd8f\\ufd92-\\ufdc7\\ufdf0-\\ufdfb\\ufe70-\\ufe74\\ufe76-\\ufefc\\uff21-\\uff3a\\uff41-\\uff5a\\uff66-\\uffbe\\uffc2-\\uffc7\\uffca-\\uffcf\\uffd2-\\uffd7\\uffda-\\uffdc\";\n/* prettier-ignore */\nlet nonASCIIidentifierChars = \"\\xb7\\u0300-\\u036f\\u0387\\u0483-\\u0487\\u0591-\\u05bd\\u05bf\\u05c1\\u05c2\\u05c4\\u05c5\\u05c7\\u0610-\\u061a\\u064b-\\u0669\\u0670\\u06d6-\\u06dc\\u06df-\\u06e4\\u06e7\\u06e8\\u06ea-\\u06ed\\u06f0-\\u06f9\\u0711\\u0730-\\u074a\\u07a6-\\u07b0\\u07c0-\\u07c9\\u07eb-\\u07f3\\u07fd\\u0816-\\u0819\\u081b-\\u0823\\u0825-\\u0827\\u0829-\\u082d\\u0859-\\u085b\\u0897-\\u089f\\u08ca-\\u08e1\\u08e3-\\u0903\\u093a-\\u093c\\u093e-\\u094f\\u0951-\\u0957\\u0962\\u0963\\u0966-\\u096f\\u0981-\\u0983\\u09bc\\u09be-\\u09c4\\u09c7\\u09c8\\u09cb-\\u09cd\\u09d7\\u09e2\\u09e3\\u09e6-\\u09ef\\u09fe\\u0a01-\\u0a03\\u0a3c\\u0a3e-\\u0a42\\u0a47\\u0a48\\u0a4b-\\u0a4d\\u0a51\\u0a66-\\u0a71\\u0a75\\u0a81-\\u0a83\\u0abc\\u0abe-\\u0ac5\\u0ac7-\\u0ac9\\u0acb-\\u0acd\\u0ae2\\u0ae3\\u0ae6-\\u0aef\\u0afa-\\u0aff\\u0b01-\\u0b03\\u0b3c\\u0b3e-\\u0b44\\u0b47\\u0b48\\u0b4b-\\u0b4d\\u0b55-\\u0b57\\u0b62\\u0b63\\u0b66-\\u0b6f\\u0b82\\u0bbe-\\u0bc2\\u0bc6-\\u0bc8\\u0bca-\\u0bcd\\u0bd7\\u0be6-\\u0bef\\u0c00-\\u0c04\\u0c3c\\u0c3e-\\u0c44\\u0c46-\\u0c48\\u0c4a-\\u0c4d\\u0c55\\u0c56\\u0c62\\u0c63\\u0c66-\\u0c6f\\u0c81-\\u0c83\\u0cbc\\u0cbe-\\u0cc4\\u0cc6-\\u0cc8\\u0cca-\\u0ccd\\u0cd5\\u0cd6\\u0ce2\\u0ce3\\u0ce6-\\u0cef\\u0cf3\\u0d00-\\u0d03\\u0d3b\\u0d3c\\u0d3e-\\u0d44\\u0d46-\\u0d48\\u0d4a-\\u0d4d\\u0d57\\u0d62\\u0d63\\u0d66-\\u0d6f\\u0d81-\\u0d83\\u0dca\\u0dcf-\\u0dd4\\u0dd6\\u0dd8-\\u0ddf\\u0de6-\\u0def\\u0df2\\u0df3\\u0e31\\u0e34-\\u0e3a\\u0e47-\\u0e4e\\u0e50-\\u0e59\\u0eb1\\u0eb4-\\u0ebc\\u0ec8-\\u0ece\\u0ed0-\\u0ed9\\u0f18\\u0f19\\u0f20-\\u0f29\\u0f35\\u0f37\\u0f39\\u0f3e\\u0f3f\\u0f71-\\u0f84\\u0f86\\u0f87\\u0f8d-\\u0f97\\u0f99-\\u0fbc\\u0fc6\\u102b-\\u103e\\u1040-\\u1049\\u1056-\\u1059\\u105e-\\u1060\\u1062-\\u1064\\u1067-\\u106d\\u1071-\\u1074\\u1082-\\u108d\\u108f-\\u109d\\u135d-\\u135f\\u1369-\\u1371\\u1712-\\u1715\\u1732-\\u1734\\u1752\\u1753\\u1772\\u1773\\u17b4-\\u17d3\\u17dd\\u17e0-\\u17e9\\u180b-\\u180d\\u180f-\\u1819\\u18a9\\u1920-\\u192b\\u1930-\\u193b\\u1946-\\u194f\\u19d0-\\u19da\\u1a17-\\u1a1b\\u1a55-\\u1a5e\\u1a60-\\u1a7c\\u1a7f-\\u1a89\\u1a90-\\u1a99\\u1ab0-\\u1abd\\u1abf-\\u1ace\\u1b00-\\u1b04\\u1b34-\\u1b44\\u1b50-\\u1b59\\u1b6b-\\u1b73\\u1b80-\\u1b82\\u1ba1-\\u1bad\\u1bb0-\\u1bb9\\u1be6-\\u1bf3\\u1c24-\\u1c37\\u1c40-\\u1c49\\u1c50-\\u1c59\\u1cd0-\\u1cd2\\u1cd4-\\u1ce8\\u1ced\\u1cf4\\u1cf7-\\u1cf9\\u1dc0-\\u1dff\\u200c\\u200d\\u203f\\u2040\\u2054\\u20d0-\\u20dc\\u20e1\\u20e5-\\u20f0\\u2cef-\\u2cf1\\u2d7f\\u2de0-\\u2dff\\u302a-\\u302f\\u3099\\u309a\\u30fb\\ua620-\\ua629\\ua66f\\ua674-\\ua67d\\ua69e\\ua69f\\ua6f0\\ua6f1\\ua802\\ua806\\ua80b\\ua823-\\ua827\\ua82c\\ua880\\ua881\\ua8b4-\\ua8c5\\ua8d0-\\ua8d9\\ua8e0-\\ua8f1\\ua8ff-\\ua909\\ua926-\\ua92d\\ua947-\\ua953\\ua980-\\ua983\\ua9b3-\\ua9c0\\ua9d0-\\ua9d9\\ua9e5\\ua9f0-\\ua9f9\\uaa29-\\uaa36\\uaa43\\uaa4c\\uaa4d\\uaa50-\\uaa59\\uaa7b-\\uaa7d\\uaab0\\uaab2-\\uaab4\\uaab7\\uaab8\\uaabe\\uaabf\\uaac1\\uaaeb-\\uaaef\\uaaf5\\uaaf6\\uabe3-\\uabea\\uabec\\uabed\\uabf0-\\uabf9\\ufb1e\\ufe00-\\ufe0f\\ufe20-\\ufe2f\\ufe33\\ufe34\\ufe4d-\\ufe4f\\uff10-\\uff19\\uff3f\\uff65\";\n\nconst nonASCIIidentifierStart = new RegExp(\n  \"[\" + nonASCIIidentifierStartChars + \"]\",\n);\nconst nonASCIIidentifier = new RegExp(\n  \"[\" + nonASCIIidentifierStartChars + nonASCIIidentifierChars + \"]\",\n);\n\nnonASCIIidentifierStartChars = nonASCIIidentifierChars = null;\n\n// These are a run-length and offset-encoded representation of the\n// >0xffff code points that are a valid part of identifiers. The\n// offset starts at 0x10000, and each pair of numbers represents an\n// offset to the next range, and then a size of the range. They were\n// generated by `scripts/generate-identifier-regex.cjs`.\n/* prettier-ignore */\nconst astralIdentifierStartCodes = [0,11,2,25,2,18,2,1,2,14,3,13,35,122,70,52,268,28,4,48,48,31,14,29,6,37,11,29,3,35,5,7,2,4,43,157,19,35,5,35,5,39,9,51,13,10,2,14,2,6,2,1,2,10,2,14,2,6,2,1,4,51,13,310,10,21,11,7,25,5,2,41,2,8,70,5,3,0,2,43,2,1,4,0,3,22,11,22,10,30,66,18,2,1,11,21,11,25,71,55,7,1,65,0,16,3,2,2,2,28,43,28,4,28,36,7,2,27,28,53,11,21,11,18,14,17,111,72,56,50,14,50,14,35,39,27,10,22,251,41,7,1,17,2,60,28,11,0,9,21,43,17,47,20,28,22,13,52,58,1,3,0,14,44,33,24,27,35,30,0,3,0,9,34,4,0,13,47,15,3,22,0,2,0,36,17,2,24,20,1,64,6,2,0,2,3,2,14,2,9,8,46,39,7,3,1,3,21,2,6,2,1,2,4,4,0,19,0,13,4,31,9,2,0,3,0,2,37,2,0,26,0,2,0,45,52,19,3,21,2,31,47,21,1,2,0,185,46,42,3,37,47,21,0,60,42,14,0,72,26,38,6,186,43,117,63,32,7,3,0,3,7,2,1,2,23,16,0,2,0,95,7,3,38,17,0,2,0,29,0,11,39,8,0,22,0,12,45,20,0,19,72,200,32,32,8,2,36,18,0,50,29,113,6,2,1,2,37,22,0,26,5,2,1,2,31,15,0,328,18,16,0,2,12,2,33,125,0,80,921,103,110,18,195,2637,96,16,1071,18,5,26,3994,6,582,6842,29,1763,568,8,30,18,78,18,29,19,47,17,3,32,20,6,18,433,44,212,63,129,74,6,0,67,12,65,1,2,0,29,6135,9,1237,42,9,8936,3,2,6,2,1,2,290,16,0,30,2,3,0,15,3,9,395,2309,106,6,12,4,8,8,9,5991,84,2,70,2,1,3,0,3,1,3,3,2,11,2,0,2,6,2,64,2,3,3,7,2,6,2,27,2,3,2,4,2,0,4,6,2,339,3,24,2,24,2,30,2,24,2,30,2,24,2,30,2,24,2,30,2,24,2,7,1845,30,7,5,262,61,147,44,11,6,17,0,322,29,19,43,485,27,229,29,3,0,496,6,2,3,2,1,2,14,2,196,60,67,8,0,1205,3,2,26,2,1,2,0,3,0,2,9,2,3,2,0,2,0,7,0,5,0,2,0,2,0,2,2,2,1,2,0,3,0,2,0,2,0,2,0,2,0,2,1,2,0,3,3,2,6,2,3,2,3,2,0,2,9,2,16,6,2,2,4,2,16,4421,42719,33,4153,7,221,3,5761,15,7472,16,621,2467,541,1507,4938,6,4191];\n/* prettier-ignore */\nconst astralIdentifierCodes = [509,0,227,0,150,4,294,9,1368,2,2,1,6,3,41,2,5,0,166,1,574,3,9,9,7,9,32,4,318,1,80,3,71,10,50,3,123,2,54,14,32,10,3,1,11,3,46,10,8,0,46,9,7,2,37,13,2,9,6,1,45,0,13,2,49,13,9,3,2,11,83,11,7,0,3,0,158,11,6,9,7,3,56,1,2,6,3,1,3,2,10,0,11,1,3,6,4,4,68,8,2,0,3,0,2,3,2,4,2,0,15,1,83,17,10,9,5,0,82,19,13,9,214,6,3,8,28,1,83,16,16,9,82,12,9,9,7,19,58,14,5,9,243,14,166,9,71,5,2,1,3,3,2,0,2,1,13,9,120,6,3,6,4,0,29,9,41,6,2,3,9,0,10,10,47,15,343,9,54,7,2,7,17,9,57,21,2,13,123,5,4,0,2,1,2,6,2,0,9,9,49,4,2,1,2,4,9,9,330,3,10,1,2,0,49,6,4,4,14,10,5350,0,7,14,11465,27,2343,9,87,9,39,4,60,6,26,9,535,9,470,0,2,54,8,3,82,0,12,1,19628,1,4178,9,519,45,3,22,543,4,4,5,9,7,3,6,31,3,149,2,1418,49,513,54,5,49,9,0,15,0,23,4,2,14,1361,6,2,16,3,6,2,1,2,4,101,0,161,6,10,9,357,0,62,13,499,13,245,1,2,9,726,6,110,6,6,9,4759,9,787719,239];\n\n// This has a complexity linear to the value of the code. The\n// assumption is that looking up astral identifier characters is\n// rare.\nfunction isInAstralSet(code: number, set: readonly number[]): boolean {\n  let pos = 0x10000;\n  for (let i = 0, length = set.length; i < length; i += 2) {\n    pos += set[i];\n    if (pos > code) return false;\n\n    pos += set[i + 1];\n    if (pos >= code) return true;\n  }\n  return false;\n}\n\n// Test whether a given character code starts an identifier.\n\nexport function isIdentifierStart(code: number): boolean {\n  if (code < charCodes.uppercaseA) return code === charCodes.dollarSign;\n  if (code <= charCodes.uppercaseZ) return true;\n  if (code < charCodes.lowercaseA) return code === charCodes.underscore;\n  if (code <= charCodes.lowercaseZ) return true;\n  if (code <= 0xffff) {\n    return (\n      code >= 0xaa && nonASCIIidentifierStart.test(String.fromCharCode(code))\n    );\n  }\n  return isInAstralSet(code, astralIdentifierStartCodes);\n}\n\n// Test whether a given character is part of an identifier.\n\nexport function isIdentifierChar(code: number): boolean {\n  if (code < charCodes.digit0) return code === charCodes.dollarSign;\n  if (code < charCodes.colon) return true;\n  if (code < charCodes.uppercaseA) return false;\n  if (code <= charCodes.uppercaseZ) return true;\n  if (code < charCodes.lowercaseA) return code === charCodes.underscore;\n  if (code <= charCodes.lowercaseZ) return true;\n  if (code <= 0xffff) {\n    return code >= 0xaa && nonASCIIidentifier.test(String.fromCharCode(code));\n  }\n  return (\n    isInAstralSet(code, astralIdentifierStartCodes) ||\n    isInAstralSet(code, astralIdentifierCodes)\n  );\n}\n\n// Test whether a given string is a valid identifier name\n\nexport function isIdentifierName(name: string): boolean {\n  let isFirst = true;\n  for (let i = 0; i < name.length; i++) {\n    // The implementation is based on\n    // https://source.chromium.org/chromium/chromium/src/+/master:v8/src/builtins/builtins-string-gen.cc;l=1455;drc=221e331b49dfefadbc6fa40b0c68e6f97606d0b3;bpv=0;bpt=1\n    // We reimplement `codePointAt` because `codePointAt` is a V8 builtin which is not inlined by TurboFan (as of M91)\n    // since `name` is mostly ASCII, an inlined `charCodeAt` wins here\n    let cp = name.charCodeAt(i);\n    if ((cp & 0xfc00) === 0xd800 && i + 1 < name.length) {\n      const trail = name.charCodeAt(++i);\n      if ((trail & 0xfc00) === 0xdc00) {\n        cp = 0x10000 + ((cp & 0x3ff) << 10) + (trail & 0x3ff);\n      }\n    }\n    if (isFirst) {\n      isFirst = false;\n      if (!isIdentifierStart(cp)) {\n        return false;\n      }\n    } else if (!isIdentifierChar(cp)) {\n      return false;\n    }\n  }\n  return !isFirst;\n}\n","const reservedWords = {\n  keyword: [\n    \"break\",\n    \"case\",\n    \"catch\",\n    \"continue\",\n    \"debugger\",\n    \"default\",\n    \"do\",\n    \"else\",\n    \"finally\",\n    \"for\",\n    \"function\",\n    \"if\",\n    \"return\",\n    \"switch\",\n    \"throw\",\n    \"try\",\n    \"var\",\n    \"const\",\n    \"while\",\n    \"with\",\n    \"new\",\n    \"this\",\n    \"super\",\n    \"class\",\n    \"extends\",\n    \"export\",\n    \"import\",\n    \"null\",\n    \"true\",\n    \"false\",\n    \"in\",\n    \"instanceof\",\n    \"typeof\",\n    \"void\",\n    \"delete\",\n  ],\n  strict: [\n    \"implements\",\n    \"interface\",\n    \"let\",\n    \"package\",\n    \"private\",\n    \"protected\",\n    \"public\",\n    \"static\",\n    \"yield\",\n  ],\n  strictBind: [\"eval\", \"arguments\"],\n};\nconst keywords = new Set(reservedWords.keyword);\nconst reservedWordsStrictSet = new Set(reservedWords.strict);\nconst reservedWordsStrictBindSet = new Set(reservedWords.strictBind);\n\n/**\n * Checks if word is a reserved word in non-strict mode\n */\nexport function isReservedWord(word: string, inModule: boolean): boolean {\n  return (inModule && word === \"await\") || word === \"enum\";\n}\n\n/**\n * Checks if word is a reserved word in non-binding strict mode\n *\n * Includes non-strict reserved words\n */\nexport function isStrictReservedWord(word: string, inModule: boolean): boolean {\n  return isReservedWord(word, inModule) || reservedWordsStrictSet.has(word);\n}\n\n/**\n * Checks if word is a reserved word in binding strict mode, but it is allowed as\n * a normal identifier.\n */\nexport function isStrictBindOnlyReservedWord(word: string): boolean {\n  return reservedWordsStrictBindSet.has(word);\n}\n\n/**\n * Checks if word is a reserved word in binding strict mode\n *\n * Includes non-strict reserved words and non-binding strict reserved words\n */\nexport function isStrictBindReservedWord(\n  word: string,\n  inModule: boolean,\n): boolean {\n  return (\n    isStrictReservedWord(word, inModule) || isStrictBindOnlyReservedWord(word)\n  );\n}\n\nexport function isKeyword(word: string): boolean {\n  return keywords.has(word);\n}\n","import * as charCodes from \"charcodes\";\nimport { isIdentifierStart } from \"@babel/helper-validator-identifier\";\n\nexport {\n  isIdentifierStart,\n  isIdentifierChar,\n  isReservedWord,\n  isStrictBindOnlyReservedWord,\n  isStrictBindReservedWord,\n  isStrictReservedWord,\n  isKeyword,\n} from \"@babel/helper-validator-identifier\";\n\nexport const keywordRelationalOperator = /^in(stanceof)?$/;\n\n// Test whether a current state character code and next character code is @\n\nexport function isIteratorStart(\n  current: number,\n  next: number,\n  next2: number,\n): boolean {\n  return (\n    current === charCodes.atSign &&\n    next === charCodes.atSign &&\n    isIdentifierStart(next2)\n  );\n}\n\n// This is the comprehensive set of JavaScript reserved words\n// If a word is in this set, it could be a reserved word,\n// depending on sourceType/strictMode/binding info. In other words\n// if a word is not in this set, it is not a reserved word under\n// any circumstance.\nconst reservedWordLikeSet = new Set([\n  \"break\",\n  \"case\",\n  \"catch\",\n  \"continue\",\n  \"debugger\",\n  \"default\",\n  \"do\",\n  \"else\",\n  \"finally\",\n  \"for\",\n  \"function\",\n  \"if\",\n  \"return\",\n  \"switch\",\n  \"throw\",\n  \"try\",\n  \"var\",\n  \"const\",\n  \"while\",\n  \"with\",\n  \"new\",\n  \"this\",\n  \"super\",\n  \"class\",\n  \"extends\",\n  \"export\",\n  \"import\",\n  \"null\",\n  \"true\",\n  \"false\",\n  \"in\",\n  \"instanceof\",\n  \"typeof\",\n  \"void\",\n  \"delete\",\n  // strict\n  \"implements\",\n  \"interface\",\n  \"let\",\n  \"package\",\n  \"private\",\n  \"protected\",\n  \"public\",\n  \"static\",\n  \"yield\",\n  // strictBind\n  \"eval\",\n  \"arguments\",\n  // reservedWorkLike\n  \"enum\",\n  \"await\",\n]);\n\nexport function canBeReservedWord(word: string): boolean {\n  return reservedWordLikeSet.has(word);\n}\n","import { ScopeFlag, BindingFlag } from \"./scopeflags.ts\";\nimport type { Position } from \"./location.ts\";\nimport type * as N from \"../types.ts\";\nimport { Errors } from \"../parse-error.ts\";\nimport type Tokenizer from \"../tokenizer/index.ts\";\n\nexport const enum NameType {\n  // var-declared names in the current lexical scope\n  Var = 1 << 0,\n  // lexically-declared names in the current lexical scope\n  Lexical = 1 << 1,\n  // lexically-declared FunctionDeclaration names in the current lexical scope\n  Function = 1 << 2,\n}\n\n// Start an AST node, attaching a start offset.\nexport class Scope {\n  flags: ScopeFlag = 0;\n  names: Map<string, NameType> = new Map();\n  firstLexicalName = \"\";\n\n  constructor(flags: ScopeFlag) {\n    this.flags = flags;\n  }\n}\n\n// The functions in this module keep track of declared variables in the\n// current scope in order to detect duplicate variable names.\nexport default class ScopeHandler<IScope extends Scope = Scope> {\n  parser: Tokenizer;\n  scopeStack: Array<IScope> = [];\n  inModule: boolean;\n  undefinedExports: Map<string, Position> = new Map();\n\n  constructor(parser: Tokenizer, inModule: boolean) {\n    this.parser = parser;\n    this.inModule = inModule;\n  }\n\n  get inTopLevel() {\n    return (this.currentScope().flags & ScopeFlag.PROGRAM) > 0;\n  }\n  get inFunction() {\n    return (this.currentVarScopeFlags() & ScopeFlag.FUNCTION) > 0;\n  }\n  get allowSuper() {\n    return (this.currentThisScopeFlags() & ScopeFlag.SUPER) > 0;\n  }\n  get allowDirectSuper() {\n    return (this.currentThisScopeFlags() & ScopeFlag.DIRECT_SUPER) > 0;\n  }\n  get inClass() {\n    return (this.currentThisScopeFlags() & ScopeFlag.CLASS) > 0;\n  }\n  get inClassAndNotInNonArrowFunction() {\n    const flags = this.currentThisScopeFlags();\n    return (flags & ScopeFlag.CLASS) > 0 && (flags & ScopeFlag.FUNCTION) === 0;\n  }\n  get inStaticBlock() {\n    for (let i = this.scopeStack.length - 1; ; i--) {\n      const { flags } = this.scopeStack[i];\n      if (flags & ScopeFlag.STATIC_BLOCK) {\n        return true;\n      }\n      if (flags & (ScopeFlag.VAR | ScopeFlag.CLASS)) {\n        // function body, module body, class property initializers\n        return false;\n      }\n    }\n  }\n  get inNonArrowFunction() {\n    return (this.currentThisScopeFlags() & ScopeFlag.FUNCTION) > 0;\n  }\n  get treatFunctionsAsVar() {\n    return this.treatFunctionsAsVarInScope(this.currentScope());\n  }\n\n  createScope(flags: ScopeFlag): Scope {\n    return new Scope(flags);\n  }\n\n  enter(flags: ScopeFlag) {\n    /*:: +createScope: (flags:ScopeFlag) => IScope; */\n    // @ts-expect-error This method will be overwritten by subclasses\n    this.scopeStack.push(this.createScope(flags));\n  }\n\n  exit(): ScopeFlag {\n    const scope = this.scopeStack.pop();\n    return scope.flags;\n  }\n\n  // The spec says:\n  // > At the top level of a function, or script, function declarations are\n  // > treated like var declarations rather than like lexical declarations.\n  treatFunctionsAsVarInScope(scope: IScope): boolean {\n    return !!(\n      scope.flags & (ScopeFlag.FUNCTION | ScopeFlag.STATIC_BLOCK) ||\n      (!this.parser.inModule && scope.flags & ScopeFlag.PROGRAM)\n    );\n  }\n\n  declareName(name: string, bindingType: BindingFlag, loc: Position) {\n    let scope = this.currentScope();\n    if (\n      bindingType & BindingFlag.SCOPE_LEXICAL ||\n      bindingType & BindingFlag.SCOPE_FUNCTION\n    ) {\n      this.checkRedeclarationInScope(scope, name, bindingType, loc);\n\n      let type = scope.names.get(name) || 0;\n\n      if (bindingType & BindingFlag.SCOPE_FUNCTION) {\n        type = type | NameType.Function;\n      } else {\n        if (!scope.firstLexicalName) {\n          scope.firstLexicalName = name;\n        }\n        type = type | NameType.Lexical;\n      }\n\n      scope.names.set(name, type);\n\n      if (bindingType & BindingFlag.SCOPE_LEXICAL) {\n        this.maybeExportDefined(scope, name);\n      }\n    } else if (bindingType & BindingFlag.SCOPE_VAR) {\n      for (let i = this.scopeStack.length - 1; i >= 0; --i) {\n        scope = this.scopeStack[i];\n        this.checkRedeclarationInScope(scope, name, bindingType, loc);\n        scope.names.set(name, (scope.names.get(name) || 0) | NameType.Var);\n        this.maybeExportDefined(scope, name);\n\n        if (scope.flags & ScopeFlag.VAR) break;\n      }\n    }\n    if (this.parser.inModule && scope.flags & ScopeFlag.PROGRAM) {\n      this.undefinedExports.delete(name);\n    }\n  }\n\n  maybeExportDefined(scope: IScope, name: string) {\n    if (this.parser.inModule && scope.flags & ScopeFlag.PROGRAM) {\n      this.undefinedExports.delete(name);\n    }\n  }\n\n  checkRedeclarationInScope(\n    scope: IScope,\n    name: string,\n    bindingType: BindingFlag,\n    loc: Position,\n  ) {\n    if (this.isRedeclaredInScope(scope, name, bindingType)) {\n      this.parser.raise(Errors.VarRedeclaration, loc, {\n        identifierName: name,\n      });\n    }\n  }\n\n  isRedeclaredInScope(\n    scope: IScope,\n    name: string,\n    bindingType: BindingFlag,\n  ): boolean {\n    if (!(bindingType & BindingFlag.KIND_VALUE)) return false;\n\n    if (bindingType & BindingFlag.SCOPE_LEXICAL) {\n      return scope.names.has(name);\n    }\n\n    const type = scope.names.get(name);\n\n    if (bindingType & BindingFlag.SCOPE_FUNCTION) {\n      return (\n        (type & NameType.Lexical) > 0 ||\n        (!this.treatFunctionsAsVarInScope(scope) && (type & NameType.Var) > 0)\n      );\n    }\n\n    return (\n      ((type & NameType.Lexical) > 0 &&\n        // Annex B.3.4\n        // https://tc39.es/ecma262/#sec-variablestatements-in-catch-blocks\n        !(\n          scope.flags & ScopeFlag.SIMPLE_CATCH &&\n          scope.firstLexicalName === name\n        )) ||\n      (!this.treatFunctionsAsVarInScope(scope) &&\n        (type & NameType.Function) > 0)\n    );\n  }\n\n  checkLocalExport(id: N.Identifier) {\n    const { name } = id;\n    const topLevelScope = this.scopeStack[0];\n    if (!topLevelScope.names.has(name)) {\n      this.undefinedExports.set(name, id.loc.start);\n    }\n  }\n\n  currentScope(): IScope {\n    return this.scopeStack[this.scopeStack.length - 1];\n  }\n\n  currentVarScopeFlags(): ScopeFlag {\n    for (let i = this.scopeStack.length - 1; ; i--) {\n      const { flags } = this.scopeStack[i];\n      if (flags & ScopeFlag.VAR) {\n        return flags;\n      }\n    }\n  }\n\n  // Could be useful for `arguments`, `this`, `new.target`, `super()`, `super.property`, and `super[property]`.\n  currentThisScopeFlags(): ScopeFlag {\n    for (let i = this.scopeStack.length - 1; ; i--) {\n      const { flags } = this.scopeStack[i];\n      if (\n        flags & (ScopeFlag.VAR | ScopeFlag.CLASS) &&\n        !(flags & ScopeFlag.ARROW)\n      ) {\n        return flags;\n      }\n    }\n  }\n}\n","import type { Position } from \"../../util/location.ts\";\nimport ScopeHandler, { NameType, Scope } from \"../../util/scope.ts\";\nimport { BindingFlag, type ScopeFlag } from \"../../util/scopeflags.ts\";\nimport type * as N from \"../../types.ts\";\n\n// Reference implementation: https://github.com/facebook/flow/blob/23aeb2a2ef6eb4241ce178fde5d8f17c5f747fb5/src/typing/env.ml#L536-L584\nclass FlowScope extends Scope {\n  // declare function foo(): type;\n  declareFunctions: Set<string> = new Set();\n}\n\nexport default class FlowScopeHandler extends ScopeHandler<FlowScope> {\n  createScope(flags: ScopeFlag): FlowScope {\n    return new FlowScope(flags);\n  }\n\n  declareName(name: string, bindingType: BindingFlag, loc: Position) {\n    const scope = this.currentScope();\n    if (bindingType & BindingFlag.FLAG_FLOW_DECLARE_FN) {\n      this.checkRedeclarationInScope(scope, name, bindingType, loc);\n      this.maybeExportDefined(scope, name);\n      scope.declareFunctions.add(name);\n      return;\n    }\n\n    super.declareName(name, bindingType, loc);\n  }\n\n  isRedeclaredInScope(\n    scope: FlowScope,\n    name: string,\n    bindingType: BindingFlag,\n  ): boolean {\n    if (super.isRedeclaredInScope(scope, name, bindingType)) return true;\n\n    if (\n      bindingType & BindingFlag.FLAG_FLOW_DECLARE_FN &&\n      !scope.declareFunctions.has(name)\n    ) {\n      const type = scope.names.get(name);\n      return (type & NameType.Function) > 0 || (type & NameType.Lexical) > 0;\n    }\n\n    return false;\n  }\n\n  checkLocalExport(id: N.Identifier) {\n    if (!this.scopeStack[0].declareFunctions.has(id.name)) {\n      super.checkLocalExport(id);\n    }\n  }\n}\n","import type { Options } from \"../options.ts\";\nimport type State from \"../tokenizer/state.ts\";\nimport type { PluginsMap } from \"./index.ts\";\nimport type ScopeHandler from \"../util/scope.ts\";\nimport type ExpressionScopeHandler from \"../util/expression-scope.ts\";\nimport type ClassScopeHandler from \"../util/class-scope.ts\";\nimport type ProductionParameterHandler from \"../util/production-parameter.ts\";\nimport type {\n  ParserPluginWithOptions,\n  PluginConfig,\n  PluginOptions,\n} from \"../typings.ts\";\nimport type * as N from \"../types.ts\";\n\nexport default class BaseParser {\n  // Properties set by constructor in index.js\n  declare options: Options;\n  declare inModule: boolean;\n  declare scope: ScopeHandler<any>;\n  declare classScope: ClassScopeHandler;\n  declare prodParam: ProductionParameterHandler;\n  declare expressionScope: ExpressionScopeHandler;\n  declare plugins: PluginsMap;\n  declare filename: string | undefined | null;\n  declare startIndex: number;\n  // Names of exports store. `default` is stored as a name for both\n  // `export default foo;` and `export { foo as default };`.\n  declare exportedIdentifiers: Set<string>;\n  sawUnambiguousESM: boolean = false;\n  ambiguousScriptDifferentAst: boolean = false;\n\n  // Initialized by Tokenizer\n  declare state: State;\n  // input and length are not in state as they are constant and we do\n  // not want to ever copy them, which happens if state gets cloned\n  declare input: string;\n  declare length: number;\n  // Comment store for Program.comments\n  declare comments: Array<N.Comment>;\n\n  sourceToOffsetPos(sourcePos: number) {\n    return sourcePos + this.startIndex;\n  }\n\n  offsetToSourcePos(offsetPos: number) {\n    return offsetPos - this.startIndex;\n  }\n\n  // This method accepts either a string (plugin name) or an array pair\n  // (plugin name and options object). If an options object is given,\n  // then each value is non-recursively checked for identity with that\n  // plugin’s actual option value.\n  hasPlugin(pluginConfig: PluginConfig): boolean {\n    if (typeof pluginConfig === \"string\") {\n      return this.plugins.has(pluginConfig);\n    } else {\n      const [pluginName, pluginOptions] = pluginConfig;\n      if (!this.hasPlugin(pluginName)) {\n        return false;\n      }\n      const actualOptions = this.plugins.get(pluginName);\n      for (const key of Object.keys(\n        pluginOptions,\n      ) as (keyof typeof pluginOptions)[]) {\n        if (actualOptions?.[key] !== pluginOptions[key]) {\n          return false;\n        }\n      }\n      return true;\n    }\n  }\n\n  getPluginOption<\n    PluginName extends ParserPluginWithOptions[0],\n    OptionName extends keyof PluginOptions<PluginName>,\n  >(plugin: PluginName, name: OptionName) {\n    return (this.plugins.get(plugin) as null | PluginOptions<PluginName>)?.[\n      name\n    ];\n  }\n}\n","/*:: declare var invariant; */\n\nimport BaseParser from \"./base.ts\";\nimport type { Comment, Node, Identifier } from \"../types.ts\";\nimport * as charCodes from \"charcodes\";\nimport type { Undone } from \"./node.ts\";\n\n/**\n * A whitespace token containing comments\n */\nexport type CommentWhitespace = {\n  /**\n   * the start of the whitespace token.\n   */\n  start: number;\n  /**\n   * the end of the whitespace token.\n   */\n  end: number;\n  /**\n   * the containing comments\n   */\n  comments: Array<Comment>;\n  /**\n   * the immediately preceding AST node of the whitespace token\n   */\n  leadingNode: Node | null;\n  /**\n   * the immediately following AST node of the whitespace token\n   */\n  trailingNode: Node | null;\n  /**\n   * the innermost AST node containing the whitespace with minimal size (|end - start|)\n   */\n  containingNode: Node | null;\n};\n\n/**\n * Merge comments with node's trailingComments or assign comments to be\n * trailingComments. New comments will be placed before old comments\n * because the commentStack is enumerated reversely.\n */\nfunction setTrailingComments(node: Undone<Node>, comments: Array<Comment>) {\n  if (node.trailingComments === undefined) {\n    node.trailingComments = comments;\n  } else {\n    node.trailingComments.unshift(...comments);\n  }\n}\n\n/**\n * Merge comments with node's leadingComments or assign comments to be\n * leadingComments. New comments will be placed before old comments\n * because the commentStack is enumerated reversely.\n */\nfunction setLeadingComments(node: Undone<Node>, comments: Array<Comment>) {\n  if (node.leadingComments === undefined) {\n    node.leadingComments = comments;\n  } else {\n    node.leadingComments.unshift(...comments);\n  }\n}\n\n/**\n * Merge comments with node's innerComments or assign comments to be\n * innerComments. New comments will be placed before old comments\n * because the commentStack is enumerated reversely.\n */\nexport function setInnerComments(\n  node: Undone<Node>,\n  comments?: Array<Comment>,\n) {\n  if (node.innerComments === undefined) {\n    node.innerComments = comments;\n  } else {\n    node.innerComments.unshift(...comments);\n  }\n}\n\n/**\n * Given node and elements array, if elements has non-null element,\n * merge comments to its trailingComments, otherwise merge comments\n * to node's innerComments\n */\nfunction adjustInnerComments(\n  node: Undone<Node>,\n  elements: Array<Node>,\n  commentWS: CommentWhitespace,\n) {\n  let lastElement = null;\n  let i = elements.length;\n  while (lastElement === null && i > 0) {\n    lastElement = elements[--i];\n  }\n  if (lastElement === null || lastElement.start > commentWS.start) {\n    setInnerComments(node, commentWS.comments);\n  } else {\n    setTrailingComments(lastElement, commentWS.comments);\n  }\n}\n\nexport default class CommentsParser extends BaseParser {\n  addComment(comment: Comment): void {\n    if (this.filename) comment.loc.filename = this.filename;\n    const { commentsLen } = this.state;\n    if (this.comments.length !== commentsLen) {\n      this.comments.length = commentsLen;\n    }\n    this.comments.push(comment);\n    this.state.commentsLen++;\n  }\n\n  /**\n   * Given a newly created AST node _n_, attach _n_ to a comment whitespace _w_ if applicable\n   * {@see {@link CommentWhitespace}}\n   */\n  processComment(node: Node): void {\n    const { commentStack } = this.state;\n    const commentStackLength = commentStack.length;\n    if (commentStackLength === 0) return;\n    let i = commentStackLength - 1;\n    const lastCommentWS = commentStack[i];\n\n    if (lastCommentWS.start === node.end) {\n      lastCommentWS.leadingNode = node;\n      i--;\n    }\n\n    const { start: nodeStart } = node;\n    // invariant: for all 0 <= j <= i, let c = commentStack[j], c must satisfy c.end < node.end\n    for (; i >= 0; i--) {\n      const commentWS = commentStack[i];\n      const commentEnd = commentWS.end;\n      if (commentEnd > nodeStart) {\n        // by definition of commentWhiteSpace, this implies commentWS.start > nodeStart\n        // so node can be a containingNode candidate. At this time we can finalize the comment\n        // whitespace, because\n        // 1) its leadingNode or trailingNode, if exists, will not change\n        // 2) its containingNode have been assigned and will not change because it is the\n        //    innermost minimal-sized AST node\n        commentWS.containingNode = node;\n        this.finalizeComment(commentWS);\n        commentStack.splice(i, 1);\n      } else {\n        if (commentEnd === nodeStart) {\n          commentWS.trailingNode = node;\n        }\n        // stop the loop when commentEnd <= nodeStart\n        break;\n      }\n    }\n  }\n\n  /**\n   * Assign the comments of comment whitespaces to related AST nodes.\n   * Also adjust innerComments following trailing comma.\n   */\n  finalizeComment(commentWS: CommentWhitespace) {\n    const { comments } = commentWS;\n    if (commentWS.leadingNode !== null || commentWS.trailingNode !== null) {\n      if (commentWS.leadingNode !== null) {\n        setTrailingComments(commentWS.leadingNode, comments);\n      }\n      if (commentWS.trailingNode !== null) {\n        setLeadingComments(commentWS.trailingNode, comments);\n      }\n    } else {\n      /*:: invariant(commentWS.containingNode !== null) */\n      const { containingNode: node, start: commentStart } = commentWS;\n      if (\n        this.input.charCodeAt(this.offsetToSourcePos(commentStart) - 1) ===\n        charCodes.comma\n      ) {\n        // If a commentWhitespace follows a comma and the containingNode allows\n        // list structures with trailing comma, merge it to the trailingComment\n        // of the last non-null list element\n        switch (node.type) {\n          case \"ObjectExpression\":\n          case \"ObjectPattern\":\n          case \"RecordExpression\":\n            adjustInnerComments(node, node.properties, commentWS);\n            break;\n          case \"CallExpression\":\n          case \"OptionalCallExpression\":\n            adjustInnerComments(node, node.arguments, commentWS);\n            break;\n          case \"FunctionDeclaration\":\n          case \"FunctionExpression\":\n          case \"ArrowFunctionExpression\":\n          case \"ObjectMethod\":\n          case \"ClassMethod\":\n          case \"ClassPrivateMethod\":\n            adjustInnerComments(node, node.params, commentWS);\n            break;\n          case \"ArrayExpression\":\n          case \"ArrayPattern\":\n          case \"TupleExpression\":\n            adjustInnerComments(node, node.elements, commentWS);\n            break;\n          case \"ExportNamedDeclaration\":\n          case \"ImportDeclaration\":\n            adjustInnerComments(node, node.specifiers, commentWS);\n            break;\n          default: {\n            setInnerComments(node, comments);\n          }\n        }\n      } else {\n        setInnerComments(node, comments);\n      }\n    }\n  }\n\n  /**\n   * Drains remaining commentStack and applies finalizeComment\n   * to each comment whitespace. Used only in parseExpression\n   * where the top level AST node is _not_ Program\n   * {@see {@link CommentsParser#finalizeComment}}\n   */\n  finalizeRemainingComments() {\n    const { commentStack } = this.state;\n    for (let i = commentStack.length - 1; i >= 0; i--) {\n      this.finalizeComment(commentStack[i]);\n    }\n    this.state.commentStack = [];\n  }\n\n  /* eslint-disable no-irregular-whitespace */\n  /**\n   * Reset previous node trailing comments. Used in object / class\n   * property parsing. We parse `async`, `static`, `set` and `get`\n   * as an identifier but may reinterpret it into an async/static/accessor\n   * method later. In this case the identifier is not part of the AST and we\n   * should sync the knowledge to commentStacks\n   *\n   * For example, when parsing\n   * ```\n   * async /* 1 *​/ function f() {}\n   * ```\n   * the comment whitespace `/* 1 *​/` has leading node Identifier(async). When\n   * we see the function token, we create a Function node and mark `/* 1 *​/` as\n   * inner comments. So `/* 1 *​/` should be detached from the Identifier node.\n   *\n   * @param node the last finished AST node _before_ current token\n   */\n  /* eslint-enable no-irregular-whitespace */\n  resetPreviousNodeTrailingComments(node: Node) {\n    const { commentStack } = this.state;\n    const { length } = commentStack;\n    if (length === 0) return;\n    const commentWS = commentStack[length - 1];\n    if (commentWS.leadingNode === node) {\n      commentWS.leadingNode = null;\n    }\n  }\n\n  /* eslint-disable no-irregular-whitespace */\n  /**\n   * Reset previous node leading comments, assuming that `node` is a\n   * single-token node. Used in import phase modifiers parsing. We parse\n   * `module` in `import module foo from ...` as an identifier but may\n   * reinterpret it into a phase modifier later. In this case the identifier is\n   * not part of the AST and we should sync the knowledge to commentStacks\n   *\n   * For example, when parsing\n   * ```\n   * import /* 1 *​/ module a from \"a\";\n   * ```\n   * the comment whitespace `/* 1 *​/` has trailing node Identifier(module). When\n   * we see that `module` is not a default import binding, we mark `/* 1 *​/` as\n   * inner comments of the ImportDeclaration. So `/* 1 *​/` should be detached from\n   * the Identifier node.\n   *\n   * @param node the last finished AST node _before_ current token\n   */\n  /* eslint-enable no-irregular-whitespace */\n  resetPreviousIdentifierLeadingComments(node: Identifier) {\n    const { commentStack } = this.state;\n    const { length } = commentStack;\n    if (length === 0) return;\n\n    if (commentStack[length - 1].trailingNode === node) {\n      commentStack[length - 1].trailingNode = null;\n    } else if (length >= 2 && commentStack[length - 2].trailingNode === node) {\n      commentStack[length - 2].trailingNode = null;\n    }\n  }\n\n  /**\n   * Attach a node to the comment whitespaces right before/after\n   * the given range.\n   *\n   * This is used to properly attach comments around parenthesized\n   * expressions as leading/trailing comments of the inner expression.\n   */\n  takeSurroundingComments(node: Node, start: number, end: number) {\n    const { commentStack } = this.state;\n    const commentStackLength = commentStack.length;\n    if (commentStackLength === 0) return;\n    let i = commentStackLength - 1;\n\n    for (; i >= 0; i--) {\n      const commentWS = commentStack[i];\n      const commentEnd = commentWS.end;\n      const commentStart = commentWS.start;\n\n      if (commentStart === end) {\n        commentWS.leadingNode = node;\n      } else if (commentEnd === start) {\n        commentWS.trailingNode = node;\n      } else if (commentEnd < start) {\n        break;\n      }\n    }\n  }\n}\n","import * as charCodes from \"charcodes\";\n\n// Matches a whole line break (where CRLF is considered a single\n// line break). Used to count lines.\nexport const lineBreak = /\\r\\n|[\\r\\n\\u2028\\u2029]/;\nexport const lineBreakG = new RegExp(lineBreak.source, \"g\");\n\n// https://tc39.github.io/ecma262/#sec-line-terminators\nexport function isNewLine(code: number): boolean {\n  switch (code) {\n    case charCodes.lineFeed:\n    case charCodes.carriageReturn:\n    case charCodes.lineSeparator:\n    case charCodes.paragraphSeparator:\n      return true;\n\n    default:\n      return false;\n  }\n}\n\nexport function hasNewLine(input: string, start: number, end: number): boolean {\n  for (let i = start; i < end; i++) {\n    if (isNewLine(input.charCodeAt(i))) {\n      return true;\n    }\n  }\n  return false;\n}\n\nexport const skipWhiteSpace = /(?:\\s|\\/\\/.*|\\/\\*[^]*?\\*\\/)*/g;\n\nexport const skipWhiteSpaceInLine =\n  /(?:[^\\S\\n\\r\\u2028\\u2029]|\\/\\/.*|\\/\\*.*?\\*\\/)*/g;\n\n// https://tc39.github.io/ecma262/#sec-white-space\nexport function isWhitespace(code: number): boolean {\n  switch (code) {\n    case 0x0009: // CHARACTER TABULATION\n    case 0x000b: // LINE TABULATION\n    case 0x000c: // FORM FEED\n    case charCodes.space:\n    case charCodes.nonBreakingSpace:\n    case charCodes.oghamSpaceMark:\n    case 0x2000: // EN QUAD\n    case 0x2001: // EM QUAD\n    case 0x2002: // EN SPACE\n    case 0x2003: // EM SPACE\n    case 0x2004: // THREE-PER-EM SPACE\n    case 0x2005: // FOUR-PER-EM SPACE\n    case 0x2006: // SIX-PER-EM SPACE\n    case 0x2007: // FIGURE SPACE\n    case 0x2008: // PUNCTUATION SPACE\n    case 0x2009: // THIN SPACE\n    case 0x200a: // HAIR SPACE\n    case 0x202f: // NARROW NO-BREAK SPACE\n    case 0x205f: // MEDIUM MATHEMATICAL SPACE\n    case 0x3000: // IDEOGRAPHIC SPACE\n    case 0xfeff: // ZERO WIDTH NO-BREAK SPACE\n      return true;\n\n    default:\n      return false;\n  }\n}\n","import type { Options } from \"../options.ts\";\nimport type { CommentWhitespace } from \"../parser/comments\";\nimport { Position } from \"../util/location.ts\";\n\nimport { types as ct, type TokContext } from \"./context.ts\";\nimport { tt, type TokenType } from \"./types.ts\";\nimport type { Errors } from \"../parse-error.ts\";\nimport type { ParseError } from \"../parse-error.ts\";\n\nexport type DeferredStrictError =\n  | typeof Errors.StrictNumericEscape\n  | typeof Errors.StrictOctalLiteral;\n\ntype TopicContextState = {\n  // When a topic binding has been currently established,\n  // then this is 1. Otherwise, it is 0. This is forwards compatible\n  // with a future plugin for multiple lexical topics.\n  maxNumOfResolvableTopics: number;\n  // When a topic binding has been currently established, and if that binding\n  // has been used as a topic reference `#`, then this is 0. Otherwise, it is\n  // `null`. This is forwards compatible with a future plugin for multiple\n  // lexical topics.\n  maxTopicIndex: null | 0;\n};\n\nexport const enum LoopLabelKind {\n  Loop = 1,\n  Switch = 2,\n}\n\ndeclare const bit: import(\"../../../../scripts/babel-plugin-bit-decorator/types.d.ts\").BitDecorator<State>;\n\nexport default class State {\n  @bit.storage flags: number;\n\n  @bit accessor strict = false;\n\n  startIndex: number;\n  curLine: number;\n  lineStart: number;\n\n  // And, if locations are used, the {line, column} object\n  // corresponding to those offsets\n  startLoc: Position;\n  endLoc: Position;\n\n  init({\n    strictMode,\n    sourceType,\n    startIndex,\n    startLine,\n    startColumn,\n  }: Options): void {\n    this.strict =\n      strictMode === false\n        ? false\n        : strictMode === true\n          ? true\n          : sourceType === \"module\";\n\n    this.startIndex = startIndex;\n    this.curLine = startLine;\n    this.lineStart = -startColumn;\n    this.startLoc = this.endLoc = new Position(\n      startLine,\n      startColumn,\n      startIndex,\n    );\n  }\n\n  errors: ParseError<any>[] = [];\n\n  // Used to signify the start of a potential arrow function\n  potentialArrowAt: number = -1;\n\n  // Used to signify the start of an expression which looks like a\n  // typed arrow function, but it isn't\n  // e.g. a ? (b) : c => d\n  //          ^\n  noArrowAt: number[] = [];\n\n  // Used to signify the start of an expression whose params, if it looks like\n  // an arrow function, shouldn't be converted to assignable nodes.\n  // This is used to defer the validation of typed arrow functions inside\n  // conditional expressions.\n  // e.g. a ? (b) : c => d\n  //          ^\n  noArrowParamsConversionAt: number[] = [];\n\n  // Flags to track\n  @bit accessor maybeInArrowParameters = false;\n  @bit accessor inType = false;\n  @bit accessor noAnonFunctionType = false;\n  @bit accessor hasFlowComment = false;\n  @bit accessor isAmbientContext = false;\n  @bit accessor inAbstractClass = false;\n  @bit accessor inDisallowConditionalTypesContext = false;\n\n  // For the Hack-style pipelines plugin\n  topicContext: TopicContextState = {\n    maxNumOfResolvableTopics: 0,\n    maxTopicIndex: null,\n  };\n\n  // For the F#-style pipelines plugin\n  @bit accessor soloAwait = false;\n  @bit accessor inFSharpPipelineDirectBody = false;\n\n  // Labels in scope.\n  labels: Array<{\n    kind: LoopLabelKind;\n    name?: string | null;\n    statementStart?: number;\n  }> = [];\n\n  commentsLen = 0;\n  // Comment attachment store\n  commentStack: Array<CommentWhitespace> = [];\n\n  // The current position of the tokenizer in the input.\n  pos: number = 0;\n\n  // Properties of the current token:\n  // Its type\n  type: TokenType = tt.eof;\n\n  // For tokens that include more information than their type, the value\n  value: any = null;\n\n  // Its start and end offset\n  start: number = 0;\n  end: number = 0;\n\n  // Position information for the previous token\n  // this is initialized when generating the second token.\n  lastTokEndLoc: Position = null;\n  // this is initialized when generating the second token.\n  lastTokStartLoc: Position = null;\n\n  // The context stack is used to track whether the apostrophe \"`\" starts\n  // or ends a string template\n  context: Array<TokContext> = [ct.brace];\n\n  // Used to track whether a JSX element is allowed to form\n  @bit accessor canStartJSXElement = true;\n\n  // Used to signal to callers of `readWord1` whether the word\n  // contained any escape sequences. This is needed because words with\n  // escape sequences must not be interpreted as keywords.\n  @bit accessor containsEsc = false;\n\n  // Used to track invalid escape sequences in template literals,\n  // that must be reported if the template is not tagged.\n  firstInvalidTemplateEscapePos: null | Position = null;\n\n  @bit accessor hasTopLevelAwait = false;\n\n  // This property is used to track the following errors\n  // - StrictNumericEscape\n  // - StrictOctalLiteral\n  //\n  // in a literal that occurs prior to/immediately after a \"use strict\" directive.\n\n  // todo(JLHwung): set strictErrors to null and avoid recording string errors\n  // after a non-directive is parsed\n  strictErrors: Map<number, [DeferredStrictError, Position]> = new Map();\n\n  // Tokens length in token store\n  tokensLength: number = 0;\n\n  /**\n   * When we add a new property, we must manually update the `clone` method\n   * @see State#clone\n   */\n\n  curPosition(): Position {\n    const index = this.startIndex + this.pos;\n    return new Position(this.curLine, index - this.lineStart, index);\n  }\n\n  clone(): State {\n    const state = new State();\n    state.flags = this.flags;\n    state.startIndex = this.startIndex;\n    state.curLine = this.curLine;\n    state.lineStart = this.lineStart;\n    state.startLoc = this.startLoc;\n    state.endLoc = this.endLoc;\n    state.errors = this.errors.slice();\n    state.potentialArrowAt = this.potentialArrowAt;\n    state.noArrowAt = this.noArrowAt.slice();\n    state.noArrowParamsConversionAt = this.noArrowParamsConversionAt.slice();\n    state.topicContext = this.topicContext;\n    state.labels = this.labels.slice();\n    state.commentsLen = this.commentsLen;\n    state.commentStack = this.commentStack.slice();\n    state.pos = this.pos;\n    state.type = this.type;\n    state.value = this.value;\n    state.start = this.start;\n    state.end = this.end;\n    state.lastTokEndLoc = this.lastTokEndLoc;\n    state.lastTokStartLoc = this.lastTokStartLoc;\n    state.context = this.context.slice();\n    state.firstInvalidTemplateEscapePos = this.firstInvalidTemplateEscapePos;\n    state.strictErrors = this.strictErrors;\n    state.tokensLength = this.tokensLength;\n\n    return state;\n  }\n}\n\nexport type LookaheadState = {\n  pos: number;\n  value: any;\n  type: TokenType;\n  start: number;\n  end: number;\n  context: TokContext[];\n  startLoc: Position;\n  lastTokEndLoc: Position;\n  curLine: number;\n  lineStart: number;\n  curPosition: State[\"curPosition\"];\n  /* Used only in readToken_mult_modulo */\n  inType: boolean;\n  // These boolean properties are not initialized in createLookaheadState()\n  // instead they will only be set by the tokenizer\n  containsEsc?: boolean;\n};\n","// We inline this package\n// eslint-disable-next-line import/no-extraneous-dependencies\nimport * as charCodes from \"charcodes\";\n\n// The following character codes are forbidden from being\n// an immediate sibling of NumericLiteralSeparator _\nconst forbiddenNumericSeparatorSiblings = {\n  decBinOct: new Set<number>([\n    charCodes.dot,\n    charCodes.uppercaseB,\n    charCodes.uppercaseE,\n    charCodes.uppercaseO,\n    charCodes.underscore, // multiple separators are not allowed\n    charCodes.lowercaseB,\n    charCodes.lowercaseE,\n    charCodes.lowercaseO,\n  ]),\n  hex: new Set<number>([\n    charCodes.dot,\n    charCodes.uppercaseX,\n    charCodes.underscore, // multiple separators are not allowed\n    charCodes.lowercaseX,\n  ]),\n};\n\nconst isAllowedNumericSeparatorSibling = {\n  // 0 - 1\n  bin: (ch: number) => ch === charCodes.digit0 || ch === charCodes.digit1,\n\n  // 0 - 7\n  oct: (ch: number) => ch >= charCodes.digit0 && ch <= charCodes.digit7,\n\n  // 0 - 9\n  dec: (ch: number) => ch >= charCodes.digit0 && ch <= charCodes.digit9,\n\n  // 0 - 9, A - F, a - f,\n  hex: (ch: number) =>\n    (ch >= charCodes.digit0 && ch <= charCodes.digit9) ||\n    (ch >= charCodes.uppercaseA && ch <= charCodes.uppercaseF) ||\n    (ch >= charCodes.lowercaseA && ch <= charCodes.lowercaseF),\n};\n\nexport type StringContentsErrorHandlers = EscapedCharErrorHandlers & {\n  unterminated(\n    initialPos: number,\n    initialLineStart: number,\n    initialCurLine: number,\n  ): void;\n};\n\nexport function readStringContents(\n  type: \"single\" | \"double\" | \"template\",\n  input: string,\n  pos: number,\n  lineStart: number,\n  curLine: number,\n  errors: StringContentsErrorHandlers,\n) {\n  const initialPos = pos;\n  const initialLineStart = lineStart;\n  const initialCurLine = curLine;\n\n  let out = \"\";\n  let firstInvalidLoc = null;\n  let chunkStart = pos;\n  const { length } = input;\n  for (;;) {\n    if (pos >= length) {\n      errors.unterminated(initialPos, initialLineStart, initialCurLine);\n      out += input.slice(chunkStart, pos);\n      break;\n    }\n    const ch = input.charCodeAt(pos);\n    if (isStringEnd(type, ch, input, pos)) {\n      out += input.slice(chunkStart, pos);\n      break;\n    }\n    if (ch === charCodes.backslash) {\n      out += input.slice(chunkStart, pos);\n      const res = readEscapedChar(\n        input,\n        pos,\n        lineStart,\n        curLine,\n        type === \"template\",\n        errors,\n      );\n      if (res.ch === null && !firstInvalidLoc) {\n        firstInvalidLoc = { pos, lineStart, curLine };\n      } else {\n        out += res.ch;\n      }\n      ({ pos, lineStart, curLine } = res);\n      chunkStart = pos;\n    } else if (\n      ch === charCodes.lineSeparator ||\n      ch === charCodes.paragraphSeparator\n    ) {\n      ++pos;\n      ++curLine;\n      lineStart = pos;\n    } else if (ch === charCodes.lineFeed || ch === charCodes.carriageReturn) {\n      if (type === \"template\") {\n        out += input.slice(chunkStart, pos) + \"\\n\";\n        ++pos;\n        if (\n          ch === charCodes.carriageReturn &&\n          input.charCodeAt(pos) === charCodes.lineFeed\n        ) {\n          ++pos;\n        }\n        ++curLine;\n        chunkStart = lineStart = pos;\n      } else {\n        errors.unterminated(initialPos, initialLineStart, initialCurLine);\n      }\n    } else {\n      ++pos;\n    }\n  }\n  return process.env.BABEL_8_BREAKING\n    ? { pos, str: out, firstInvalidLoc, lineStart, curLine }\n    : {\n        pos,\n        str: out,\n        firstInvalidLoc,\n        lineStart,\n        curLine,\n        containsInvalid: !!firstInvalidLoc,\n      };\n}\n\nfunction isStringEnd(\n  type: \"single\" | \"double\" | \"template\",\n  ch: number,\n  input: string,\n  pos: number,\n) {\n  if (type === \"template\") {\n    return (\n      ch === charCodes.graveAccent ||\n      (ch === charCodes.dollarSign &&\n        input.charCodeAt(pos + 1) === charCodes.leftCurlyBrace)\n    );\n  }\n  return (\n    ch === (type === \"double\" ? charCodes.quotationMark : charCodes.apostrophe)\n  );\n}\n\ntype EscapedCharErrorHandlers = HexCharErrorHandlers &\n  CodePointErrorHandlers & {\n    strictNumericEscape(pos: number, lineStart: number, curLine: number): void;\n  };\n\nfunction readEscapedChar(\n  input: string,\n  pos: number,\n  lineStart: number,\n  curLine: number,\n  inTemplate: boolean,\n  errors: EscapedCharErrorHandlers,\n) {\n  const throwOnInvalid = !inTemplate;\n  pos++; // skip '\\'\n\n  const res = (ch: string | null) => ({ pos, ch, lineStart, curLine });\n\n  const ch = input.charCodeAt(pos++);\n  switch (ch) {\n    case charCodes.lowercaseN:\n      return res(\"\\n\");\n    case charCodes.lowercaseR:\n      return res(\"\\r\");\n    case charCodes.lowercaseX: {\n      let code;\n      ({ code, pos } = readHexChar(\n        input,\n        pos,\n        lineStart,\n        curLine,\n        2,\n        false,\n        throwOnInvalid,\n        errors,\n      ));\n      return res(code === null ? null : String.fromCharCode(code));\n    }\n    case charCodes.lowercaseU: {\n      let code;\n      ({ code, pos } = readCodePoint(\n        input,\n        pos,\n        lineStart,\n        curLine,\n        throwOnInvalid,\n        errors,\n      ));\n      return res(code === null ? null : String.fromCodePoint(code));\n    }\n    case charCodes.lowercaseT:\n      return res(\"\\t\");\n    case charCodes.lowercaseB:\n      return res(\"\\b\");\n    case charCodes.lowercaseV:\n      return res(\"\\u000b\");\n    case charCodes.lowercaseF:\n      return res(\"\\f\");\n    case charCodes.carriageReturn:\n      if (input.charCodeAt(pos) === charCodes.lineFeed) {\n        ++pos;\n      }\n    // fall through\n    case charCodes.lineFeed:\n      lineStart = pos;\n      ++curLine;\n    // fall through\n    case charCodes.lineSeparator:\n    case charCodes.paragraphSeparator:\n      return res(\"\");\n    case charCodes.digit8:\n    case charCodes.digit9:\n      if (inTemplate) {\n        return res(null);\n      } else {\n        errors.strictNumericEscape(pos - 1, lineStart, curLine);\n      }\n    // fall through\n    default:\n      if (ch >= charCodes.digit0 && ch <= charCodes.digit7) {\n        const startPos = pos - 1;\n        const match = /^[0-7]+/.exec(input.slice(startPos, pos + 2));\n\n        let octalStr = match[0];\n\n        let octal = parseInt(octalStr, 8);\n        if (octal > 255) {\n          octalStr = octalStr.slice(0, -1);\n          octal = parseInt(octalStr, 8);\n        }\n        pos += octalStr.length - 1;\n        const next = input.charCodeAt(pos);\n        if (\n          octalStr !== \"0\" ||\n          next === charCodes.digit8 ||\n          next === charCodes.digit9\n        ) {\n          if (inTemplate) {\n            return res(null);\n          } else {\n            errors.strictNumericEscape(startPos, lineStart, curLine);\n          }\n        }\n\n        return res(String.fromCharCode(octal));\n      }\n\n      return res(String.fromCharCode(ch));\n  }\n}\n\ntype HexCharErrorHandlers = IntErrorHandlers & {\n  invalidEscapeSequence(pos: number, lineStart: number, curLine: number): void;\n};\n\n// Used to read character escape sequences ('\\x', '\\u').\nfunction readHexChar(\n  input: string,\n  pos: number,\n  lineStart: number,\n  curLine: number,\n  len: number,\n  forceLen: boolean,\n  throwOnInvalid: boolean,\n  errors: HexCharErrorHandlers,\n) {\n  const initialPos = pos;\n  let n;\n  ({ n, pos } = readInt(\n    input,\n    pos,\n    lineStart,\n    curLine,\n    16,\n    len,\n    forceLen,\n    false,\n    errors,\n    /* bailOnError */ !throwOnInvalid,\n  ));\n  if (n === null) {\n    if (throwOnInvalid) {\n      errors.invalidEscapeSequence(initialPos, lineStart, curLine);\n    } else {\n      pos = initialPos - 1;\n    }\n  }\n  return { code: n, pos };\n}\n\nexport type IntErrorHandlers = {\n  numericSeparatorInEscapeSequence(\n    pos: number,\n    lineStart: number,\n    curLine: number,\n  ): void;\n  unexpectedNumericSeparator(\n    pos: number,\n    lineStart: number,\n    curLine: number,\n  ): void;\n  // It can return \"true\" to indicate that the error was handled\n  // and the int parsing should continue.\n  invalidDigit(\n    pos: number,\n    lineStart: number,\n    curLine: number,\n    radix: number,\n  ): boolean;\n};\n\nexport function readInt(\n  input: string,\n  pos: number,\n  lineStart: number,\n  curLine: number,\n  radix: number,\n  len: number | undefined,\n  forceLen: boolean,\n  allowNumSeparator: boolean | \"bail\",\n  errors: IntErrorHandlers,\n  bailOnError: boolean,\n) {\n  const start = pos;\n  const forbiddenSiblings =\n    radix === 16\n      ? forbiddenNumericSeparatorSiblings.hex\n      : forbiddenNumericSeparatorSiblings.decBinOct;\n  const isAllowedSibling =\n    radix === 16\n      ? isAllowedNumericSeparatorSibling.hex\n      : radix === 10\n        ? isAllowedNumericSeparatorSibling.dec\n        : radix === 8\n          ? isAllowedNumericSeparatorSibling.oct\n          : isAllowedNumericSeparatorSibling.bin;\n\n  let invalid = false;\n  let total = 0;\n\n  for (let i = 0, e = len == null ? Infinity : len; i < e; ++i) {\n    const code = input.charCodeAt(pos);\n    let val;\n\n    if (code === charCodes.underscore && allowNumSeparator !== \"bail\") {\n      const prev = input.charCodeAt(pos - 1);\n      const next = input.charCodeAt(pos + 1);\n\n      if (!allowNumSeparator) {\n        if (bailOnError) return { n: null, pos };\n        errors.numericSeparatorInEscapeSequence(pos, lineStart, curLine);\n      } else if (\n        Number.isNaN(next) ||\n        !isAllowedSibling(next) ||\n        forbiddenSiblings.has(prev) ||\n        forbiddenSiblings.has(next)\n      ) {\n        if (bailOnError) return { n: null, pos };\n        errors.unexpectedNumericSeparator(pos, lineStart, curLine);\n      }\n\n      // Ignore this _ character\n      ++pos;\n      continue;\n    }\n\n    if (code >= charCodes.lowercaseA) {\n      val = code - charCodes.lowercaseA + charCodes.lineFeed;\n    } else if (code >= charCodes.uppercaseA) {\n      val = code - charCodes.uppercaseA + charCodes.lineFeed;\n    } else if (charCodes.isDigit(code)) {\n      val = code - charCodes.digit0; // 0-9\n    } else {\n      val = Infinity;\n    }\n    if (val >= radix) {\n      // If we found a digit which is too big, errors.invalidDigit can return true to avoid\n      // breaking the loop (this is used for error recovery).\n      if (val <= 9 && bailOnError) {\n        return { n: null, pos };\n      } else if (\n        val <= 9 &&\n        errors.invalidDigit(pos, lineStart, curLine, radix)\n      ) {\n        val = 0;\n      } else if (forceLen) {\n        val = 0;\n        invalid = true;\n      } else {\n        break;\n      }\n    }\n    ++pos;\n    total = total * radix + val;\n  }\n  if (pos === start || (len != null && pos - start !== len) || invalid) {\n    return { n: null, pos };\n  }\n\n  return { n: total, pos };\n}\n\nexport type CodePointErrorHandlers = HexCharErrorHandlers & {\n  invalidCodePoint(pos: number, lineStart: number, curLine: number): void;\n};\n\nexport function readCodePoint(\n  input: string,\n  pos: number,\n  lineStart: number,\n  curLine: number,\n  throwOnInvalid: boolean,\n  errors: CodePointErrorHandlers,\n) {\n  const ch = input.charCodeAt(pos);\n  let code;\n\n  if (ch === charCodes.leftCurlyBrace) {\n    ++pos;\n    ({ code, pos } = readHexChar(\n      input,\n      pos,\n      lineStart,\n      curLine,\n      input.indexOf(\"}\", pos) - pos,\n      true,\n      throwOnInvalid,\n      errors,\n    ));\n    ++pos;\n    if (code !== null && code > 0x10ffff) {\n      if (throwOnInvalid) {\n        errors.invalidCodePoint(pos, lineStart, curLine);\n      } else {\n        return { code: null, pos };\n      }\n    }\n  } else {\n    ({ code, pos } = readHexChar(\n      input,\n      pos,\n      lineStart,\n      curLine,\n      4,\n      false,\n      throwOnInvalid,\n      errors,\n    ));\n  }\n  return { code, pos };\n}\n","/*:: declare var invariant; */\n\nimport type { Options } from \"../options.ts\";\nimport {\n  Position,\n  SourceLocation,\n  createPositionWithColumnOffset,\n} from \"../util/location.ts\";\nimport CommentsParser, { type CommentWhitespace } from \"../parser/comments.ts\";\nimport type * as N from \"../types.ts\";\nimport * as charCodes from \"charcodes\";\nimport { isIdentifierStart, isIdentifierChar } from \"../util/identifier.ts\";\nimport {\n  tokenIsKeyword,\n  tokenLabelName,\n  tt,\n  keywords as keywordTypes,\n  type TokenType,\n} from \"./types.ts\";\nimport type { TokContext } from \"./context.ts\";\nimport {\n  Errors,\n  type ParseError,\n  type ParseErrorConstructor,\n} from \"../parse-error.ts\";\nimport {\n  lineBreakG,\n  isNewLine,\n  isWhitespace,\n  skipWhiteSpace,\n  skipWhiteSpaceInLine,\n} from \"../util/whitespace.ts\";\nimport State from \"./state.ts\";\nimport type { LookaheadState, DeferredStrictError } from \"./state.ts\";\nimport type { Undone } from \"../parser/node.ts\";\nimport type { Node } from \"../types.ts\";\n\nimport {\n  readInt,\n  readCodePoint,\n  readStringContents,\n  type IntErrorHandlers,\n  type CodePointErrorHandlers,\n  type StringContentsErrorHandlers,\n} from \"@babel/helper-string-parser\";\n\nimport type { Plugin } from \"../typings.ts\";\n\nfunction buildPosition(pos: number, lineStart: number, curLine: number) {\n  return new Position(curLine, pos - lineStart, pos);\n}\n\nconst VALID_REGEX_FLAGS = new Set([\n  charCodes.lowercaseG,\n  charCodes.lowercaseM,\n  charCodes.lowercaseS,\n  charCodes.lowercaseI,\n  charCodes.lowercaseY,\n  charCodes.lowercaseU,\n  charCodes.lowercaseD,\n  charCodes.lowercaseV,\n]);\n\n// Object type used to represent tokens. Note that normally, tokens\n// simply exist as properties on the parser object. This is only\n// used for the onToken callback and the external tokenizer.\n\nexport class Token {\n  constructor(state: State) {\n    this.type = state.type;\n    this.value = state.value;\n    this.start = state.start;\n    this.end = state.end;\n    this.loc = new SourceLocation(state.startLoc, state.endLoc);\n  }\n\n  declare type: TokenType;\n  declare value: any;\n  declare start: number;\n  declare end: number;\n  declare loc: SourceLocation;\n}\n\n// ## Tokenizer\n\nexport default abstract class Tokenizer extends CommentsParser {\n  isLookahead: boolean;\n\n  // Token store.\n  tokens: Array<Token | N.Comment> = [];\n\n  constructor(options: Options, input: string) {\n    super();\n    this.state = new State();\n    this.state.init(options);\n    this.input = input;\n    this.length = input.length;\n    this.comments = [];\n    this.isLookahead = false;\n  }\n\n  pushToken(token: Token | N.Comment) {\n    // Pop out invalid tokens trapped by try-catch parsing.\n    // Those parsing branches are mainly created by typescript and flow plugins.\n    this.tokens.length = this.state.tokensLength;\n    this.tokens.push(token);\n    ++this.state.tokensLength;\n  }\n\n  // Move to the next token\n\n  next(): void {\n    this.checkKeywordEscapes();\n    if (this.options.tokens) {\n      this.pushToken(new Token(this.state));\n    }\n\n    this.state.lastTokEndLoc = this.state.endLoc;\n    this.state.lastTokStartLoc = this.state.startLoc;\n    this.nextToken();\n  }\n\n  eat(type: TokenType): boolean {\n    if (this.match(type)) {\n      this.next();\n      return true;\n    } else {\n      return false;\n    }\n  }\n\n  /**\n   * Whether current token matches given type\n   */\n  match(type: TokenType): boolean {\n    return this.state.type === type;\n  }\n\n  /**\n   * Create a LookaheadState from current parser state\n   */\n  createLookaheadState(state: State): LookaheadState {\n    return {\n      pos: state.pos,\n      value: null,\n      type: state.type,\n      start: state.start,\n      end: state.end,\n      context: [this.curContext()],\n      inType: state.inType,\n      startLoc: state.startLoc,\n      lastTokEndLoc: state.lastTokEndLoc,\n      curLine: state.curLine,\n      lineStart: state.lineStart,\n      curPosition: state.curPosition,\n    };\n  }\n\n  /**\n   * lookahead peeks the next token, skipping changes to token context and\n   * comment stack. For performance it returns a limited LookaheadState\n   * instead of full parser state.\n   *\n   * The { column, line } Loc info is not included in lookahead since such usage\n   * is rare. Although it may return other location properties e.g. `curLine` and\n   * `lineStart`, these properties are not listed in the LookaheadState interface\n   * and thus the returned value is _NOT_ reliable.\n   *\n   * The tokenizer should make best efforts to avoid using any parser state\n   * other than those defined in LookaheadState\n   */\n  lookahead(): LookaheadState {\n    const old = this.state;\n    // @ts-expect-error For performance we use a simplified tokenizer state structure\n    this.state = this.createLookaheadState(old);\n\n    this.isLookahead = true;\n    this.nextToken();\n    this.isLookahead = false;\n\n    const curr = this.state;\n    this.state = old;\n    return curr;\n  }\n\n  nextTokenStart(): number {\n    return this.nextTokenStartSince(this.state.pos);\n  }\n\n  nextTokenStartSince(pos: number): number {\n    skipWhiteSpace.lastIndex = pos;\n    return skipWhiteSpace.test(this.input) ? skipWhiteSpace.lastIndex : pos;\n  }\n\n  lookaheadCharCode(): number {\n    return this.input.charCodeAt(this.nextTokenStart());\n  }\n\n  /**\n   * Similar to nextToken, but it will stop at line break when it is seen before the next token\n   *\n   * @returns {number} position of the next token start or line break, whichever is seen first.\n   * @memberof Tokenizer\n   */\n  nextTokenInLineStart(): number {\n    return this.nextTokenInLineStartSince(this.state.pos);\n  }\n\n  nextTokenInLineStartSince(pos: number): number {\n    skipWhiteSpaceInLine.lastIndex = pos;\n    return skipWhiteSpaceInLine.test(this.input)\n      ? skipWhiteSpaceInLine.lastIndex\n      : pos;\n  }\n\n  /**\n   * Similar to lookaheadCharCode, but it will return the char code of line break if it is\n   * seen before the next token\n   *\n   * @returns {number} char code of the next token start or line break, whichever is seen first.\n   * @memberof Tokenizer\n   */\n  lookaheadInLineCharCode(): number {\n    return this.input.charCodeAt(this.nextTokenInLineStart());\n  }\n\n  codePointAtPos(pos: number): number {\n    // The implementation is based on\n    // https://source.chromium.org/chromium/chromium/src/+/master:v8/src/builtins/builtins-string-gen.cc;l=1455;drc=221e331b49dfefadbc6fa40b0c68e6f97606d0b3;bpv=0;bpt=1\n    // We reimplement `codePointAt` because `codePointAt` is a V8 builtin which is not inlined by TurboFan (as of M91)\n    // since `input` is mostly ASCII, an inlined `charCodeAt` wins here\n    let cp = this.input.charCodeAt(pos);\n    if ((cp & 0xfc00) === 0xd800 && ++pos < this.input.length) {\n      const trail = this.input.charCodeAt(pos);\n      if ((trail & 0xfc00) === 0xdc00) {\n        cp = 0x10000 + ((cp & 0x3ff) << 10) + (trail & 0x3ff);\n      }\n    }\n    return cp;\n  }\n\n  // Toggle strict mode. Re-reads the next number or string to please\n  // pedantic tests (`\"use strict\"; 010;` should fail).\n\n  setStrict(strict: boolean): void {\n    this.state.strict = strict;\n    if (strict) {\n      // Throw an error for any string decimal escape found before/immediately\n      // after a \"use strict\" directive. Strict mode will be set at parse\n      // time for any literals that occur after the next node of the strict\n      // directive.\n      this.state.strictErrors.forEach(([toParseError, at]) =>\n        this.raise(toParseError, at),\n      );\n      this.state.strictErrors.clear();\n    }\n  }\n\n  curContext(): TokContext {\n    return this.state.context[this.state.context.length - 1];\n  }\n\n  // Read a single token, updating the parser object's token-related properties.\n  nextToken(): void {\n    this.skipSpace();\n    this.state.start = this.state.pos;\n    if (!this.isLookahead) this.state.startLoc = this.state.curPosition();\n    if (this.state.pos >= this.length) {\n      this.finishToken(tt.eof);\n      return;\n    }\n\n    this.getTokenFromCode(this.codePointAtPos(this.state.pos));\n  }\n\n  // Skips a block comment, whose end is marked by commentEnd.\n  // *-/ is used by the Flow plugin, when parsing block comments nested\n  // inside Flow comments.\n  skipBlockComment(commentEnd: \"*/\" | \"*-/\"): N.CommentBlock | undefined {\n    let startLoc;\n    if (!this.isLookahead) startLoc = this.state.curPosition();\n    const start = this.state.pos;\n    const end = this.input.indexOf(commentEnd, start + 2);\n    if (end === -1) {\n      // We have to call this again here because startLoc may not be set...\n      // This seems to be for performance reasons:\n      // https://github.com/babel/babel/commit/acf2a10899f696a8aaf34df78bf9725b5ea7f2da\n      throw this.raise(Errors.UnterminatedComment, this.state.curPosition());\n    }\n\n    this.state.pos = end + commentEnd.length;\n    lineBreakG.lastIndex = start + 2;\n    while (lineBreakG.test(this.input) && lineBreakG.lastIndex <= end) {\n      ++this.state.curLine;\n      this.state.lineStart = lineBreakG.lastIndex;\n    }\n\n    // If we are doing a lookahead right now we need to advance the position (above code)\n    // but we do not want to push the comment to the state.\n    if (this.isLookahead) return;\n    /*:: invariant(startLoc) */\n\n    const comment: N.CommentBlock = {\n      type: \"CommentBlock\",\n      value: this.input.slice(start + 2, end),\n      start,\n      end: end + commentEnd.length,\n      loc: new SourceLocation(startLoc, this.state.curPosition()),\n    };\n    if (this.options.tokens) this.pushToken(comment);\n    return comment;\n  }\n\n  skipLineComment(startSkip: number): N.CommentLine | undefined {\n    const start = this.state.pos;\n    let startLoc;\n    if (!this.isLookahead) startLoc = this.state.curPosition();\n    let ch = this.input.charCodeAt((this.state.pos += startSkip));\n    if (this.state.pos < this.length) {\n      while (!isNewLine(ch) && ++this.state.pos < this.length) {\n        ch = this.input.charCodeAt(this.state.pos);\n      }\n    }\n\n    // If we are doing a lookahead right now we need to advance the position (above code)\n    // but we do not want to push the comment to the state.\n    if (this.isLookahead) return;\n\n    const end = this.state.pos;\n    const value = this.input.slice(start + startSkip, end);\n\n    const comment: N.CommentLine = {\n      type: \"CommentLine\",\n      value,\n      start,\n      end,\n      loc: new SourceLocation(startLoc, this.state.curPosition()),\n    };\n    if (this.options.tokens) this.pushToken(comment);\n    return comment;\n  }\n\n  // Called at the start of the parse and after every token. Skips\n  // whitespace and comments, and.\n\n  skipSpace(): void {\n    const spaceStart = this.state.pos;\n    const comments = [];\n    loop: while (this.state.pos < this.length) {\n      const ch = this.input.charCodeAt(this.state.pos);\n      switch (ch) {\n        case charCodes.space:\n        case charCodes.nonBreakingSpace:\n        case charCodes.tab:\n          ++this.state.pos;\n          break;\n        case charCodes.carriageReturn:\n          if (\n            this.input.charCodeAt(this.state.pos + 1) === charCodes.lineFeed\n          ) {\n            ++this.state.pos;\n          }\n        // fall through\n        case charCodes.lineFeed:\n        case charCodes.lineSeparator:\n        case charCodes.paragraphSeparator:\n          ++this.state.pos;\n          ++this.state.curLine;\n          this.state.lineStart = this.state.pos;\n          break;\n\n        case charCodes.slash:\n          switch (this.input.charCodeAt(this.state.pos + 1)) {\n            case charCodes.asterisk: {\n              const comment = this.skipBlockComment(\"*/\");\n              if (comment !== undefined) {\n                this.addComment(comment);\n                if (this.options.attachComment) comments.push(comment);\n              }\n              break;\n            }\n\n            case charCodes.slash: {\n              const comment = this.skipLineComment(2);\n              if (comment !== undefined) {\n                this.addComment(comment);\n                if (this.options.attachComment) comments.push(comment);\n              }\n              break;\n            }\n\n            default:\n              break loop;\n          }\n          break;\n\n        default:\n          if (isWhitespace(ch)) {\n            ++this.state.pos;\n          } else if (\n            ch === charCodes.dash &&\n            !this.inModule &&\n            this.options.annexB\n          ) {\n            const pos = this.state.pos;\n            if (\n              this.input.charCodeAt(pos + 1) === charCodes.dash &&\n              this.input.charCodeAt(pos + 2) === charCodes.greaterThan &&\n              (spaceStart === 0 || this.state.lineStart > spaceStart)\n            ) {\n              // A `-->` line comment\n              const comment = this.skipLineComment(3);\n              if (comment !== undefined) {\n                this.addComment(comment);\n                if (this.options.attachComment) comments.push(comment);\n              }\n            } else {\n              break loop;\n            }\n          } else if (\n            ch === charCodes.lessThan &&\n            !this.inModule &&\n            this.options.annexB\n          ) {\n            const pos = this.state.pos;\n            if (\n              this.input.charCodeAt(pos + 1) === charCodes.exclamationMark &&\n              this.input.charCodeAt(pos + 2) === charCodes.dash &&\n              this.input.charCodeAt(pos + 3) === charCodes.dash\n            ) {\n              // `<!--`, an XML-style comment that should be interpreted as a line comment\n              const comment = this.skipLineComment(4);\n              if (comment !== undefined) {\n                this.addComment(comment);\n                if (this.options.attachComment) comments.push(comment);\n              }\n            } else {\n              break loop;\n            }\n          } else {\n            break loop;\n          }\n      }\n    }\n\n    if (comments.length > 0) {\n      const end = this.state.pos;\n      const commentWhitespace: CommentWhitespace = {\n        start: this.sourceToOffsetPos(spaceStart),\n        end: this.sourceToOffsetPos(end),\n        comments,\n        leadingNode: null,\n        trailingNode: null,\n        containingNode: null,\n      };\n      this.state.commentStack.push(commentWhitespace);\n    }\n  }\n\n  // Called at the end of every token. Sets `end`, `val`, and\n  // maintains `context` and `canStartJSXElement`, and skips the space after\n  // the token, so that the next one's `start` will point at the\n  // right position.\n\n  finishToken(type: TokenType, val?: any): void {\n    this.state.end = this.state.pos;\n    this.state.endLoc = this.state.curPosition();\n    const prevType = this.state.type;\n    this.state.type = type;\n    this.state.value = val;\n\n    if (!this.isLookahead) {\n      this.updateContext(prevType);\n    }\n  }\n\n  replaceToken(type: TokenType): void {\n    this.state.type = type;\n    // @ts-expect-error the prevType of updateContext is required\n    // only when the new type is tt.slash/tt.jsxTagEnd\n    this.updateContext();\n  }\n\n  // ### Token reading\n\n  // This is the function that is called to fetch the next token. It\n  // is somewhat obscure, because it works in character codes rather\n  // than characters, and because operator parsing has been inlined\n  // into it.\n  //\n  // All in the name of speed.\n\n  // number sign is \"#\"\n  readToken_numberSign(): void {\n    if (this.state.pos === 0 && this.readToken_interpreter()) {\n      return;\n    }\n\n    const nextPos = this.state.pos + 1;\n    const next = this.codePointAtPos(nextPos);\n    if (next >= charCodes.digit0 && next <= charCodes.digit9) {\n      throw this.raise(\n        Errors.UnexpectedDigitAfterHash,\n        this.state.curPosition(),\n      );\n    }\n\n    if (\n      next === charCodes.leftCurlyBrace ||\n      (next === charCodes.leftSquareBracket && this.hasPlugin(\"recordAndTuple\"))\n    ) {\n      // When we see `#{`, it is likely to be a hash record.\n      // However we don't yell at `#[` since users may intend to use \"computed private fields\",\n      // which is not allowed in the spec. Throwing expecting recordAndTuple is\n      // misleading\n      this.expectPlugin(\"recordAndTuple\");\n      if (\n        !process.env.BABEL_8_BREAKING &&\n        this.getPluginOption(\"recordAndTuple\", \"syntaxType\") === \"bar\"\n      ) {\n        throw this.raise(\n          next === charCodes.leftCurlyBrace\n            ? Errors.RecordExpressionHashIncorrectStartSyntaxType\n            : Errors.TupleExpressionHashIncorrectStartSyntaxType,\n          this.state.curPosition(),\n        );\n      }\n\n      this.state.pos += 2;\n      if (next === charCodes.leftCurlyBrace) {\n        // #{\n        this.finishToken(tt.braceHashL);\n      } else {\n        // #[\n        this.finishToken(tt.bracketHashL);\n      }\n    } else if (isIdentifierStart(next)) {\n      ++this.state.pos;\n      this.finishToken(tt.privateName, this.readWord1(next));\n    } else if (next === charCodes.backslash) {\n      ++this.state.pos;\n      this.finishToken(tt.privateName, this.readWord1());\n    } else {\n      this.finishOp(tt.hash, 1);\n    }\n  }\n\n  readToken_dot(): void {\n    const next = this.input.charCodeAt(this.state.pos + 1);\n    if (next >= charCodes.digit0 && next <= charCodes.digit9) {\n      this.readNumber(true);\n      return;\n    }\n\n    if (\n      next === charCodes.dot &&\n      this.input.charCodeAt(this.state.pos + 2) === charCodes.dot\n    ) {\n      this.state.pos += 3;\n      this.finishToken(tt.ellipsis);\n    } else {\n      ++this.state.pos;\n      this.finishToken(tt.dot);\n    }\n  }\n\n  readToken_slash(): void {\n    const next = this.input.charCodeAt(this.state.pos + 1);\n    if (next === charCodes.equalsTo) {\n      this.finishOp(tt.slashAssign, 2);\n    } else {\n      this.finishOp(tt.slash, 1);\n    }\n  }\n\n  readToken_interpreter(): boolean {\n    if (this.state.pos !== 0 || this.length < 2) return false;\n\n    let ch = this.input.charCodeAt(this.state.pos + 1);\n    if (ch !== charCodes.exclamationMark) return false;\n\n    const start = this.state.pos;\n    this.state.pos += 1;\n\n    while (!isNewLine(ch) && ++this.state.pos < this.length) {\n      ch = this.input.charCodeAt(this.state.pos);\n    }\n\n    const value = this.input.slice(start + 2, this.state.pos);\n\n    this.finishToken(tt.interpreterDirective, value);\n\n    return true;\n  }\n\n  readToken_mult_modulo(code: number): void {\n    // '%' or '*'\n    let type = code === charCodes.asterisk ? tt.star : tt.modulo;\n    let width = 1;\n    let next = this.input.charCodeAt(this.state.pos + 1);\n\n    // Exponentiation operator '**'\n    if (code === charCodes.asterisk && next === charCodes.asterisk) {\n      width++;\n      next = this.input.charCodeAt(this.state.pos + 2);\n      type = tt.exponent;\n    }\n\n    // '%=' or '*='\n    if (next === charCodes.equalsTo && !this.state.inType) {\n      width++;\n      // `tt.moduloAssign` is only needed to support % as a Hack-pipe topic token.\n      // If the proposal ends up choosing a different token,\n      // it can be merged with tt.assign.\n      type = code === charCodes.percentSign ? tt.moduloAssign : tt.assign;\n    }\n\n    this.finishOp(type, width);\n  }\n\n  readToken_pipe_amp(code: number): void {\n    // '||' '&&' '||=' '&&='\n    const next = this.input.charCodeAt(this.state.pos + 1);\n\n    if (next === code) {\n      if (this.input.charCodeAt(this.state.pos + 2) === charCodes.equalsTo) {\n        this.finishOp(tt.assign, 3);\n      } else {\n        this.finishOp(\n          code === charCodes.verticalBar ? tt.logicalOR : tt.logicalAND,\n          2,\n        );\n      }\n      return;\n    }\n\n    if (code === charCodes.verticalBar) {\n      // '|>'\n      if (next === charCodes.greaterThan) {\n        this.finishOp(tt.pipeline, 2);\n        return;\n      }\n      // '|}'\n      if (\n        !process.env.BABEL_8_BREAKING &&\n        this.hasPlugin(\"recordAndTuple\") &&\n        next === charCodes.rightCurlyBrace\n      ) {\n        if (this.getPluginOption(\"recordAndTuple\", \"syntaxType\") !== \"bar\") {\n          throw this.raise(\n            Errors.RecordExpressionBarIncorrectEndSyntaxType,\n            this.state.curPosition(),\n          );\n        }\n        this.state.pos += 2;\n        this.finishToken(tt.braceBarR);\n        return;\n      }\n\n      // '|]'\n      if (\n        !process.env.BABEL_8_BREAKING &&\n        this.hasPlugin(\"recordAndTuple\") &&\n        next === charCodes.rightSquareBracket\n      ) {\n        if (this.getPluginOption(\"recordAndTuple\", \"syntaxType\") !== \"bar\") {\n          throw this.raise(\n            Errors.TupleExpressionBarIncorrectEndSyntaxType,\n            this.state.curPosition(),\n          );\n        }\n        this.state.pos += 2;\n        this.finishToken(tt.bracketBarR);\n        return;\n      }\n    }\n\n    if (next === charCodes.equalsTo) {\n      this.finishOp(tt.assign, 2);\n      return;\n    }\n\n    this.finishOp(\n      code === charCodes.verticalBar ? tt.bitwiseOR : tt.bitwiseAND,\n      1,\n    );\n  }\n\n  readToken_caret(): void {\n    const next = this.input.charCodeAt(this.state.pos + 1);\n\n    // '^='\n    if (next === charCodes.equalsTo && !this.state.inType) {\n      // `tt.xorAssign` is only needed to support ^ as a Hack-pipe topic token.\n      // If the proposal ends up choosing a different token,\n      // it can be merged with tt.assign.\n      this.finishOp(tt.xorAssign, 2);\n    }\n    // '^^'\n    else if (\n      next === charCodes.caret &&\n      // If the ^^ token is not enabled, we don't throw but parse two single ^s\n      // because it could be a ^ hack token followed by a ^ binary operator.\n      this.hasPlugin([\n        \"pipelineOperator\",\n        { proposal: \"hack\", topicToken: \"^^\" },\n      ])\n    ) {\n      this.finishOp(tt.doubleCaret, 2);\n\n      // `^^^` is forbidden and must be separated by a space.\n      const lookaheadCh = this.input.codePointAt(this.state.pos);\n      if (lookaheadCh === charCodes.caret) {\n        this.unexpected();\n      }\n    }\n    // '^'\n    else {\n      this.finishOp(tt.bitwiseXOR, 1);\n    }\n  }\n\n  readToken_atSign(): void {\n    const next = this.input.charCodeAt(this.state.pos + 1);\n\n    // '@@'\n    if (\n      next === charCodes.atSign &&\n      this.hasPlugin([\n        \"pipelineOperator\",\n        { proposal: \"hack\", topicToken: \"@@\" },\n      ])\n    ) {\n      this.finishOp(tt.doubleAt, 2);\n    }\n    // '@'\n    else {\n      this.finishOp(tt.at, 1);\n    }\n  }\n\n  readToken_plus_min(code: number): void {\n    // '+-'\n    const next = this.input.charCodeAt(this.state.pos + 1);\n\n    if (next === code) {\n      this.finishOp(tt.incDec, 2);\n      return;\n    }\n\n    if (next === charCodes.equalsTo) {\n      this.finishOp(tt.assign, 2);\n    } else {\n      this.finishOp(tt.plusMin, 1);\n    }\n  }\n\n  readToken_lt(): void {\n    // '<'\n    const { pos } = this.state;\n    const next = this.input.charCodeAt(pos + 1);\n\n    if (next === charCodes.lessThan) {\n      if (this.input.charCodeAt(pos + 2) === charCodes.equalsTo) {\n        this.finishOp(tt.assign, 3);\n        return;\n      }\n      this.finishOp(tt.bitShiftL, 2);\n      return;\n    }\n\n    if (next === charCodes.equalsTo) {\n      // <=\n      this.finishOp(tt.relational, 2);\n      return;\n    }\n\n    this.finishOp(tt.lt, 1);\n  }\n\n  readToken_gt(): void {\n    // '>'\n    const { pos } = this.state;\n    const next = this.input.charCodeAt(pos + 1);\n\n    if (next === charCodes.greaterThan) {\n      const size =\n        this.input.charCodeAt(pos + 2) === charCodes.greaterThan ? 3 : 2;\n      if (this.input.charCodeAt(pos + size) === charCodes.equalsTo) {\n        this.finishOp(tt.assign, size + 1);\n        return;\n      }\n      this.finishOp(tt.bitShiftR, size);\n      return;\n    }\n\n    if (next === charCodes.equalsTo) {\n      // <= | >=\n      this.finishOp(tt.relational, 2);\n      return;\n    }\n\n    this.finishOp(tt.gt, 1);\n  }\n\n  readToken_eq_excl(code: number): void {\n    // '=!'\n    const next = this.input.charCodeAt(this.state.pos + 1);\n    if (next === charCodes.equalsTo) {\n      this.finishOp(\n        tt.equality,\n        this.input.charCodeAt(this.state.pos + 2) === charCodes.equalsTo\n          ? 3\n          : 2,\n      );\n      return;\n    }\n    if (code === charCodes.equalsTo && next === charCodes.greaterThan) {\n      // '=>'\n      this.state.pos += 2;\n      this.finishToken(tt.arrow);\n      return;\n    }\n    this.finishOp(code === charCodes.equalsTo ? tt.eq : tt.bang, 1);\n  }\n\n  readToken_question(): void {\n    // '?'\n    const next = this.input.charCodeAt(this.state.pos + 1);\n    const next2 = this.input.charCodeAt(this.state.pos + 2);\n    if (next === charCodes.questionMark) {\n      if (next2 === charCodes.equalsTo) {\n        // '??='\n        this.finishOp(tt.assign, 3);\n      } else {\n        // '??'\n        this.finishOp(tt.nullishCoalescing, 2);\n      }\n    } else if (\n      next === charCodes.dot &&\n      !(next2 >= charCodes.digit0 && next2 <= charCodes.digit9)\n    ) {\n      // '.' not followed by a number\n      this.state.pos += 2;\n      this.finishToken(tt.questionDot);\n    } else {\n      ++this.state.pos;\n      this.finishToken(tt.question);\n    }\n  }\n\n  getTokenFromCode(code: number): void {\n    switch (code) {\n      // The interpretation of a dot depends on whether it is followed\n      // by a digit or another two dots.\n\n      case charCodes.dot:\n        this.readToken_dot();\n        return;\n      // Punctuation tokens.\n      case charCodes.leftParenthesis:\n        ++this.state.pos;\n        this.finishToken(tt.parenL);\n        return;\n      case charCodes.rightParenthesis:\n        ++this.state.pos;\n        this.finishToken(tt.parenR);\n        return;\n      case charCodes.semicolon:\n        ++this.state.pos;\n        this.finishToken(tt.semi);\n        return;\n      case charCodes.comma:\n        ++this.state.pos;\n        this.finishToken(tt.comma);\n        return;\n      case charCodes.leftSquareBracket:\n        if (\n          !process.env.BABEL_8_BREAKING &&\n          this.hasPlugin(\"recordAndTuple\") &&\n          this.input.charCodeAt(this.state.pos + 1) === charCodes.verticalBar\n        ) {\n          if (this.getPluginOption(\"recordAndTuple\", \"syntaxType\") !== \"bar\") {\n            throw this.raise(\n              Errors.TupleExpressionBarIncorrectStartSyntaxType,\n              this.state.curPosition(),\n            );\n          }\n\n          // [|\n          this.state.pos += 2;\n          this.finishToken(tt.bracketBarL);\n        } else {\n          ++this.state.pos;\n          this.finishToken(tt.bracketL);\n        }\n        return;\n      case charCodes.rightSquareBracket:\n        ++this.state.pos;\n        this.finishToken(tt.bracketR);\n        return;\n      case charCodes.leftCurlyBrace:\n        if (\n          !process.env.BABEL_8_BREAKING &&\n          this.hasPlugin(\"recordAndTuple\") &&\n          this.input.charCodeAt(this.state.pos + 1) === charCodes.verticalBar\n        ) {\n          if (this.getPluginOption(\"recordAndTuple\", \"syntaxType\") !== \"bar\") {\n            throw this.raise(\n              Errors.RecordExpressionBarIncorrectStartSyntaxType,\n              this.state.curPosition(),\n            );\n          }\n\n          // {|\n          this.state.pos += 2;\n          this.finishToken(tt.braceBarL);\n        } else {\n          ++this.state.pos;\n          this.finishToken(tt.braceL);\n        }\n        return;\n      case charCodes.rightCurlyBrace:\n        ++this.state.pos;\n        this.finishToken(tt.braceR);\n        return;\n\n      case charCodes.colon:\n        if (\n          this.hasPlugin(\"functionBind\") &&\n          this.input.charCodeAt(this.state.pos + 1) === charCodes.colon\n        ) {\n          this.finishOp(tt.doubleColon, 2);\n        } else {\n          ++this.state.pos;\n          this.finishToken(tt.colon);\n        }\n        return;\n\n      case charCodes.questionMark:\n        this.readToken_question();\n        return;\n\n      case charCodes.graveAccent:\n        this.readTemplateToken();\n        return;\n\n      case charCodes.digit0: {\n        const next = this.input.charCodeAt(this.state.pos + 1);\n        // '0x', '0X' - hex number\n        if (next === charCodes.lowercaseX || next === charCodes.uppercaseX) {\n          this.readRadixNumber(16);\n          return;\n        }\n        // '0o', '0O' - octal number\n        if (next === charCodes.lowercaseO || next === charCodes.uppercaseO) {\n          this.readRadixNumber(8);\n          return;\n        }\n        // '0b', '0B' - binary number\n        if (next === charCodes.lowercaseB || next === charCodes.uppercaseB) {\n          this.readRadixNumber(2);\n          return;\n        }\n      }\n      // Anything else beginning with a digit is an integer, octal\n      // number, or float. (fall through)\n      case charCodes.digit1:\n      case charCodes.digit2:\n      case charCodes.digit3:\n      case charCodes.digit4:\n      case charCodes.digit5:\n      case charCodes.digit6:\n      case charCodes.digit7:\n      case charCodes.digit8:\n      case charCodes.digit9:\n        this.readNumber(false);\n        return;\n\n      // Quotes produce strings.\n      case charCodes.quotationMark:\n      case charCodes.apostrophe:\n        this.readString(code);\n        return;\n\n      // Operators are parsed inline in tiny state machines. '=' (charCodes.equalsTo) is\n      // often referred to. `finishOp` simply skips the amount of\n      // characters it is given as second argument, and returns a token\n      // of the type given by its first argument.\n\n      case charCodes.slash:\n        this.readToken_slash();\n        return;\n\n      case charCodes.percentSign:\n      case charCodes.asterisk:\n        this.readToken_mult_modulo(code);\n        return;\n\n      case charCodes.verticalBar:\n      case charCodes.ampersand:\n        this.readToken_pipe_amp(code);\n        return;\n\n      case charCodes.caret:\n        this.readToken_caret();\n        return;\n\n      case charCodes.plusSign:\n      case charCodes.dash:\n        this.readToken_plus_min(code);\n        return;\n\n      case charCodes.lessThan:\n        this.readToken_lt();\n        return;\n\n      case charCodes.greaterThan:\n        this.readToken_gt();\n        return;\n\n      case charCodes.equalsTo:\n      case charCodes.exclamationMark:\n        this.readToken_eq_excl(code);\n        return;\n\n      case charCodes.tilde:\n        this.finishOp(tt.tilde, 1);\n        return;\n\n      case charCodes.atSign:\n        this.readToken_atSign();\n        return;\n\n      case charCodes.numberSign:\n        this.readToken_numberSign();\n        return;\n\n      case charCodes.backslash:\n        this.readWord();\n        return;\n\n      default:\n        if (isIdentifierStart(code)) {\n          this.readWord(code);\n          return;\n        }\n    }\n\n    throw this.raise(\n      Errors.InvalidOrUnexpectedToken,\n      this.state.curPosition(),\n      {\n        unexpected: String.fromCodePoint(code),\n      },\n    );\n  }\n\n  finishOp(type: TokenType, size: number): void {\n    const str = this.input.slice(this.state.pos, this.state.pos + size);\n    this.state.pos += size;\n    this.finishToken(type, str);\n  }\n\n  readRegexp(): void {\n    const startLoc = this.state.startLoc;\n    const start = this.state.start + 1;\n    let escaped, inClass;\n    let { pos } = this.state;\n    for (; ; ++pos) {\n      if (pos >= this.length) {\n        // FIXME: explain\n        throw this.raise(\n          Errors.UnterminatedRegExp,\n          createPositionWithColumnOffset(startLoc, 1),\n        );\n      }\n      const ch = this.input.charCodeAt(pos);\n      if (isNewLine(ch)) {\n        throw this.raise(\n          Errors.UnterminatedRegExp,\n          createPositionWithColumnOffset(startLoc, 1),\n        );\n      }\n      if (escaped) {\n        escaped = false;\n      } else {\n        if (ch === charCodes.leftSquareBracket) {\n          inClass = true;\n        } else if (ch === charCodes.rightSquareBracket && inClass) {\n          inClass = false;\n        } else if (ch === charCodes.slash && !inClass) {\n          break;\n        }\n        escaped = ch === charCodes.backslash;\n      }\n    }\n    const content = this.input.slice(start, pos);\n    ++pos;\n\n    let mods = \"\";\n\n    const nextPos = () =>\n      // (pos + 1) + 1 - start\n      createPositionWithColumnOffset(startLoc, pos + 2 - start);\n\n    while (pos < this.length) {\n      const cp = this.codePointAtPos(pos);\n      // It doesn't matter if cp > 0xffff, the loop will either throw or break because we check on cp\n      const char = String.fromCharCode(cp);\n\n      // @ts-expect-error VALID_REGEX_FLAGS.has should accept expanded type: number\n      if (VALID_REGEX_FLAGS.has(cp)) {\n        if (cp === charCodes.lowercaseV) {\n          if (mods.includes(\"u\")) {\n            this.raise(Errors.IncompatibleRegExpUVFlags, nextPos());\n          }\n        } else if (cp === charCodes.lowercaseU) {\n          if (mods.includes(\"v\")) {\n            this.raise(Errors.IncompatibleRegExpUVFlags, nextPos());\n          }\n        }\n        if (mods.includes(char)) {\n          this.raise(Errors.DuplicateRegExpFlags, nextPos());\n        }\n      } else if (isIdentifierChar(cp) || cp === charCodes.backslash) {\n        this.raise(Errors.MalformedRegExpFlags, nextPos());\n      } else {\n        break;\n      }\n\n      ++pos;\n      mods += char;\n    }\n    this.state.pos = pos;\n\n    this.finishToken(tt.regexp, {\n      pattern: content,\n      flags: mods,\n    });\n  }\n\n  // Read an integer in the given radix. Return null if zero digits\n  // were read, the integer value otherwise. When `len` is given, this\n  // will return `null` unless the integer has exactly `len` digits.\n  // When `forceLen` is `true`, it means that we already know that in case\n  // of a malformed number we have to skip `len` characters anyway, instead\n  // of bailing out early. For example, in \"\\u{123Z}\" we want to read up to }\n  // anyway, while in \"\\u00Z\" we will stop at Z instead of consuming four\n  // characters (and thus the closing quote).\n\n  readInt(\n    radix: number,\n    len?: number,\n    forceLen: boolean = false,\n    allowNumSeparator: boolean | \"bail\" = true,\n  ): number | null {\n    const { n, pos } = readInt(\n      this.input,\n      this.state.pos,\n      this.state.lineStart,\n      this.state.curLine,\n      radix,\n      len,\n      forceLen,\n      allowNumSeparator,\n      this.errorHandlers_readInt,\n      /* bailOnError */ false,\n    );\n    this.state.pos = pos;\n    return n;\n  }\n\n  readRadixNumber(radix: number): void {\n    const start = this.state.pos;\n    const startLoc = this.state.curPosition();\n    let isBigInt = false;\n\n    this.state.pos += 2; // 0x\n    const val = this.readInt(radix);\n    if (val == null) {\n      this.raise(\n        Errors.InvalidDigit,\n        // Numeric literals can't have newlines, so this is safe to do.\n        createPositionWithColumnOffset(startLoc, 2),\n        {\n          radix,\n        },\n      );\n    }\n    const next = this.input.charCodeAt(this.state.pos);\n\n    if (next === charCodes.lowercaseN) {\n      ++this.state.pos;\n      isBigInt = true;\n    } else if (next === charCodes.lowercaseM) {\n      throw this.raise(Errors.InvalidDecimal, startLoc);\n    }\n\n    if (isIdentifierStart(this.codePointAtPos(this.state.pos))) {\n      throw this.raise(Errors.NumberIdentifier, this.state.curPosition());\n    }\n\n    if (isBigInt) {\n      const str = this.input.slice(start, this.state.pos).replace(/[_n]/g, \"\");\n      this.finishToken(tt.bigint, str);\n      return;\n    }\n\n    this.finishToken(tt.num, val);\n  }\n\n  // Read an integer, octal integer, or floating-point number.\n\n  readNumber(startsWithDot: boolean): void {\n    const start = this.state.pos;\n    const startLoc = this.state.curPosition();\n    let isFloat = false;\n    let isBigInt = false;\n    let hasExponent = false;\n    let isOctal = false;\n\n    if (!startsWithDot && this.readInt(10) === null) {\n      this.raise(Errors.InvalidNumber, this.state.curPosition());\n    }\n    const hasLeadingZero =\n      this.state.pos - start >= 2 &&\n      this.input.charCodeAt(start) === charCodes.digit0;\n\n    if (hasLeadingZero) {\n      const integer = this.input.slice(start, this.state.pos);\n      this.recordStrictModeErrors(Errors.StrictOctalLiteral, startLoc);\n      if (!this.state.strict) {\n        // disallow numeric separators in non octal decimals and legacy octal likes\n        const underscorePos = integer.indexOf(\"_\");\n        if (underscorePos > 0) {\n          // Numeric literals can't have newlines, so this is safe to do.\n          this.raise(\n            Errors.ZeroDigitNumericSeparator,\n            createPositionWithColumnOffset(startLoc, underscorePos),\n          );\n        }\n      }\n      isOctal = hasLeadingZero && !/[89]/.test(integer);\n    }\n\n    let next = this.input.charCodeAt(this.state.pos);\n    if (next === charCodes.dot && !isOctal) {\n      ++this.state.pos;\n      this.readInt(10);\n      isFloat = true;\n      next = this.input.charCodeAt(this.state.pos);\n    }\n\n    if (\n      (next === charCodes.uppercaseE || next === charCodes.lowercaseE) &&\n      !isOctal\n    ) {\n      next = this.input.charCodeAt(++this.state.pos);\n      if (next === charCodes.plusSign || next === charCodes.dash) {\n        ++this.state.pos;\n      }\n      if (this.readInt(10) === null) {\n        this.raise(Errors.InvalidOrMissingExponent, startLoc);\n      }\n      isFloat = true;\n      hasExponent = true;\n      next = this.input.charCodeAt(this.state.pos);\n    }\n\n    if (next === charCodes.lowercaseN) {\n      // disallow floats, legacy octal syntax and non octal decimals\n      // new style octal (\"0o\") is handled in this.readRadixNumber\n      if (isFloat || hasLeadingZero) {\n        this.raise(Errors.InvalidBigIntLiteral, startLoc);\n      }\n      ++this.state.pos;\n      isBigInt = true;\n    }\n\n    if (!process.env.BABEL_8_BREAKING && next === charCodes.lowercaseM) {\n      this.expectPlugin(\"decimal\", this.state.curPosition());\n      if (hasExponent || hasLeadingZero) {\n        this.raise(Errors.InvalidDecimal, startLoc);\n      }\n      ++this.state.pos;\n      // eslint-disable-next-line no-var\n      var isDecimal = true;\n    }\n\n    if (isIdentifierStart(this.codePointAtPos(this.state.pos))) {\n      throw this.raise(Errors.NumberIdentifier, this.state.curPosition());\n    }\n\n    // remove \"_\" for numeric literal separator, and trailing `m` or `n`\n    const str = this.input.slice(start, this.state.pos).replace(/[_mn]/g, \"\");\n\n    if (isBigInt) {\n      this.finishToken(tt.bigint, str);\n      return;\n    }\n\n    if (!process.env.BABEL_8_BREAKING && isDecimal) {\n      this.finishToken(tt.decimal, str);\n      return;\n    }\n\n    const val = isOctal ? parseInt(str, 8) : parseFloat(str);\n    this.finishToken(tt.num, val);\n  }\n\n  // Read a string value, interpreting backslash-escapes.\n\n  readCodePoint(throwOnInvalid: boolean): number | null {\n    const { code, pos } = readCodePoint(\n      this.input,\n      this.state.pos,\n      this.state.lineStart,\n      this.state.curLine,\n      throwOnInvalid,\n      this.errorHandlers_readCodePoint,\n    );\n    this.state.pos = pos;\n    return code;\n  }\n\n  readString(quote: number): void {\n    const { str, pos, curLine, lineStart } = readStringContents(\n      quote === charCodes.quotationMark ? \"double\" : \"single\",\n      this.input,\n      this.state.pos + 1, // skip the quote\n      this.state.lineStart,\n      this.state.curLine,\n      this.errorHandlers_readStringContents_string,\n    );\n    this.state.pos = pos + 1; // skip the quote\n    this.state.lineStart = lineStart;\n    this.state.curLine = curLine;\n    this.finishToken(tt.string, str);\n  }\n\n  // Reads template continuation `}...`\n  readTemplateContinuation(): void {\n    if (!this.match(tt.braceR)) {\n      this.unexpected(null, tt.braceR);\n    }\n    // rewind pos to `}`\n    this.state.pos--;\n    this.readTemplateToken();\n  }\n\n  // Reads template string tokens.\n  readTemplateToken(): void {\n    const opening = this.input[this.state.pos];\n    const { str, firstInvalidLoc, pos, curLine, lineStart } =\n      readStringContents(\n        \"template\",\n        this.input,\n        this.state.pos + 1, // skip '`' or `}`\n        this.state.lineStart,\n        this.state.curLine,\n        this.errorHandlers_readStringContents_template,\n      );\n    this.state.pos = pos + 1; // skip '`' or `$`\n    this.state.lineStart = lineStart;\n    this.state.curLine = curLine;\n\n    if (firstInvalidLoc) {\n      this.state.firstInvalidTemplateEscapePos = new Position(\n        firstInvalidLoc.curLine,\n        firstInvalidLoc.pos - firstInvalidLoc.lineStart,\n        firstInvalidLoc.pos,\n      );\n    }\n\n    if (this.input.codePointAt(pos) === charCodes.graveAccent) {\n      this.finishToken(\n        tt.templateTail,\n        firstInvalidLoc ? null : opening + str + \"`\",\n      );\n    } else {\n      this.state.pos++; // skip '{'\n      this.finishToken(\n        tt.templateNonTail,\n        firstInvalidLoc ? null : opening + str + \"${\",\n      );\n    }\n  }\n\n  recordStrictModeErrors(toParseError: DeferredStrictError, at: Position) {\n    const index = at.index;\n\n    if (this.state.strict && !this.state.strictErrors.has(index)) {\n      this.raise(toParseError, at);\n    } else {\n      this.state.strictErrors.set(index, [toParseError, at]);\n    }\n  }\n\n  // Read an identifier, and return it as a string. Sets `this.state.containsEsc`\n  // to whether the word contained a '\\u' escape.\n  //\n  // Incrementally adds only escaped chars, adding other chunks as-is\n  // as a micro-optimization.\n  //\n  // When `firstCode` is given, it assumes it is always an identifier start and\n  // will skip reading start position again\n\n  readWord1(firstCode?: number): string {\n    this.state.containsEsc = false;\n    let word = \"\";\n    const start = this.state.pos;\n    let chunkStart = this.state.pos;\n    if (firstCode !== undefined) {\n      this.state.pos += firstCode <= 0xffff ? 1 : 2;\n    }\n\n    while (this.state.pos < this.length) {\n      const ch = this.codePointAtPos(this.state.pos);\n      if (isIdentifierChar(ch)) {\n        this.state.pos += ch <= 0xffff ? 1 : 2;\n      } else if (ch === charCodes.backslash) {\n        this.state.containsEsc = true;\n\n        word += this.input.slice(chunkStart, this.state.pos);\n        const escStart = this.state.curPosition();\n        const identifierCheck =\n          this.state.pos === start ? isIdentifierStart : isIdentifierChar;\n\n        if (this.input.charCodeAt(++this.state.pos) !== charCodes.lowercaseU) {\n          this.raise(Errors.MissingUnicodeEscape, this.state.curPosition());\n          chunkStart = this.state.pos - 1;\n          continue;\n        }\n\n        ++this.state.pos;\n        const esc = this.readCodePoint(true);\n        if (esc !== null) {\n          if (!identifierCheck(esc)) {\n            this.raise(Errors.EscapedCharNotAnIdentifier, escStart);\n          }\n\n          word += String.fromCodePoint(esc);\n        }\n        chunkStart = this.state.pos;\n      } else {\n        break;\n      }\n    }\n    return word + this.input.slice(chunkStart, this.state.pos);\n  }\n\n  // Read an identifier or keyword token. Will check for reserved\n  // words when necessary.\n\n  readWord(firstCode?: number): void {\n    const word = this.readWord1(firstCode);\n    const type = keywordTypes.get(word);\n    if (type !== undefined) {\n      // We don't use word as state.value here because word is a dynamic string\n      // while token label is a shared constant string\n      this.finishToken(type, tokenLabelName(type));\n    } else {\n      this.finishToken(tt.name, word);\n    }\n  }\n\n  checkKeywordEscapes(): void {\n    const { type } = this.state;\n    if (tokenIsKeyword(type) && this.state.containsEsc) {\n      this.raise(Errors.InvalidEscapedReservedWord, this.state.startLoc, {\n        reservedWord: tokenLabelName(type),\n      });\n    }\n  }\n\n  /**\n   * Raise a `ParseError` given the appropriate properties. If passed a\n   * `Position` for the `at` property, raises the `ParseError` at that location.\n   * Otherwise, if passed a `Node`, raises the `ParseError` at the start\n   * location of that `Node`.\n   *\n   * If `errorRecovery` is `true`, the error is pushed to the errors array and\n   * returned. If `errorRecovery` is `false`, the error is instead thrown.\n   *\n   * The return type is marked as `never` for simplicity, as error recovery\n   * will create types in an invalid AST shape.\n   */\n  raise<ErrorDetails = object>(\n    toParseError: ParseErrorConstructor<ErrorDetails>,\n    at: Position | Undone<Node>,\n    details: ErrorDetails = {} as ErrorDetails,\n  ): ParseError<ErrorDetails> {\n    const loc = at instanceof Position ? at : at.loc.start;\n    const error = toParseError(loc, details);\n\n    if (!this.options.errorRecovery) throw error;\n    if (!this.isLookahead) this.state.errors.push(error);\n\n    return error;\n  }\n\n  /**\n   * If `errorRecovery` is `false`, this method behaves identically to `raise`.\n   * If `errorRecovery` is `true`, this method will first see if there is\n   * already an error stored at the same `Position`, and replaces it with the\n   * one generated here.\n   */\n  raiseOverwrite<ErrorDetails>(\n    toParseError: ParseErrorConstructor<ErrorDetails>,\n    at: Position | Undone<Node>,\n    details: ErrorDetails = {} as ErrorDetails,\n  ): ParseError<ErrorDetails> | never {\n    const loc = at instanceof Position ? at : at.loc.start;\n    const pos = loc.index;\n    const errors = this.state.errors;\n\n    for (let i = errors.length - 1; i >= 0; i--) {\n      const error = errors[i];\n      if (error.loc.index === pos) {\n        return (errors[i] = toParseError(loc, details));\n      }\n      if (error.loc.index < pos) break;\n    }\n\n    return this.raise(toParseError, at, details);\n  }\n\n  // updateContext is used by the jsx plugin\n  // eslint-disable-next-line @typescript-eslint/no-unused-vars\n  updateContext(prevType: TokenType): void {}\n\n  // Raise an unexpected token error. Can take the expected token type.\n  unexpected(loc?: Position | null, type?: TokenType): void {\n    throw this.raise(\n      Errors.UnexpectedToken,\n      loc != null ? loc : this.state.startLoc,\n      {\n        expected: type ? tokenLabelName(type) : null,\n      },\n    );\n  }\n\n  expectPlugin(pluginName: Plugin, loc?: Position): true {\n    if (this.hasPlugin(pluginName)) {\n      return true;\n    }\n\n    throw this.raise(\n      Errors.MissingPlugin,\n      loc != null ? loc : this.state.startLoc,\n      {\n        missingPlugin: [pluginName],\n      },\n    );\n  }\n\n  expectOnePlugin(pluginNames: Plugin[]): void {\n    if (!pluginNames.some(name => this.hasPlugin(name))) {\n      throw this.raise(Errors.MissingOneOfPlugins, this.state.startLoc, {\n        missingPlugin: pluginNames,\n      });\n    }\n  }\n\n  errorBuilder(error: ParseErrorConstructor<object>) {\n    return (pos: number, lineStart: number, curLine: number) => {\n      this.raise(error, buildPosition(pos, lineStart, curLine));\n    };\n  }\n\n  errorHandlers_readInt: IntErrorHandlers = {\n    invalidDigit: (pos, lineStart, curLine, radix) => {\n      if (!this.options.errorRecovery) return false;\n\n      this.raise(Errors.InvalidDigit, buildPosition(pos, lineStart, curLine), {\n        radix,\n      });\n      // Continue parsing the number as if there was no invalid digit.\n      return true;\n    },\n    numericSeparatorInEscapeSequence: this.errorBuilder(\n      Errors.NumericSeparatorInEscapeSequence,\n    ),\n    unexpectedNumericSeparator: this.errorBuilder(\n      Errors.UnexpectedNumericSeparator,\n    ),\n  };\n\n  errorHandlers_readCodePoint: CodePointErrorHandlers = {\n    ...this.errorHandlers_readInt,\n    invalidEscapeSequence: this.errorBuilder(Errors.InvalidEscapeSequence),\n    invalidCodePoint: this.errorBuilder(Errors.InvalidCodePoint),\n  };\n\n  errorHandlers_readStringContents_string: StringContentsErrorHandlers = {\n    ...this.errorHandlers_readCodePoint,\n    strictNumericEscape: (pos, lineStart, curLine) => {\n      this.recordStrictModeErrors(\n        Errors.StrictNumericEscape,\n        buildPosition(pos, lineStart, curLine),\n      );\n    },\n    unterminated: (pos, lineStart, curLine) => {\n      throw this.raise(\n        Errors.UnterminatedString, // Report the error at the string quote\n        buildPosition(pos - 1, lineStart, curLine),\n      );\n    },\n  };\n\n  errorHandlers_readStringContents_template: StringContentsErrorHandlers = {\n    ...this.errorHandlers_readCodePoint,\n    strictNumericEscape: this.errorBuilder(Errors.StrictNumericEscape),\n    unterminated: (pos, lineStart, curLine) => {\n      throw this.raise(\n        Errors.UnterminatedTemplate,\n        buildPosition(pos, lineStart, curLine),\n      );\n    },\n  };\n}\n","import { ClassElementType } from \"./scopeflags.ts\";\nimport type { Position } from \"./location.ts\";\nimport { Errors } from \"../parse-error.ts\";\nimport type Tokenizer from \"../tokenizer/index.ts\";\n\nexport class ClassScope {\n  // A list of private named declared in the current class\n  privateNames: Set<string> = new Set();\n\n  // A list of private getters of setters without their counterpart\n  loneAccessors: Map<string, ClassElementType> = new Map();\n\n  // A list of private names used before being defined, mapping to\n  // their position.\n  undefinedPrivateNames: Map<string, Position> = new Map();\n}\n\nexport default class ClassScopeHandler {\n  parser: Tokenizer;\n  stack: Array<ClassScope> = [];\n  undefinedPrivateNames: Map<string, Position> = new Map();\n\n  constructor(parser: Tokenizer) {\n    this.parser = parser;\n  }\n\n  current(): ClassScope {\n    return this.stack[this.stack.length - 1];\n  }\n\n  enter() {\n    this.stack.push(new ClassScope());\n  }\n\n  exit() {\n    const oldClassScope = this.stack.pop();\n\n    // Migrate the usage of not yet defined private names to the outer\n    // class scope, or raise an error if we reached the top-level scope.\n\n    const current = this.current();\n\n    // Array.from is needed because this is compiled to an array-like for loop\n    for (const [name, loc] of Array.from(oldClassScope.undefinedPrivateNames)) {\n      if (current) {\n        if (!current.undefinedPrivateNames.has(name)) {\n          current.undefinedPrivateNames.set(name, loc);\n        }\n      } else {\n        this.parser.raise(Errors.InvalidPrivateFieldResolution, loc, {\n          identifierName: name,\n        });\n      }\n    }\n  }\n\n  declarePrivateName(\n    name: string,\n    elementType: ClassElementType,\n    loc: Position,\n  ) {\n    const { privateNames, loneAccessors, undefinedPrivateNames } =\n      this.current();\n    let redefined = privateNames.has(name);\n\n    if (elementType & ClassElementType.KIND_ACCESSOR) {\n      const accessor = redefined && loneAccessors.get(name);\n      if (accessor) {\n        const oldStatic = accessor & ClassElementType.FLAG_STATIC;\n        const newStatic = elementType & ClassElementType.FLAG_STATIC;\n\n        const oldKind = accessor & ClassElementType.KIND_ACCESSOR;\n        const newKind = elementType & ClassElementType.KIND_ACCESSOR;\n\n        // The private name can be duplicated only if it is used by\n        // two accessors with different kind (get and set), and if\n        // they have the same placement (static or not).\n        redefined = oldKind === newKind || oldStatic !== newStatic;\n\n        if (!redefined) loneAccessors.delete(name);\n      } else if (!redefined) {\n        loneAccessors.set(name, elementType);\n      }\n    }\n\n    if (redefined) {\n      this.parser.raise(Errors.PrivateNameRedeclaration, loc, {\n        identifierName: name,\n      });\n    }\n\n    privateNames.add(name);\n    undefinedPrivateNames.delete(name);\n  }\n\n  usePrivateName(name: string, loc: Position) {\n    let classScope;\n    for (classScope of this.stack) {\n      if (classScope.privateNames.has(name)) return;\n    }\n\n    if (classScope) {\n      classScope.undefinedPrivateNames.set(name, loc);\n    } else {\n      // top-level\n      this.parser.raise(Errors.InvalidPrivateFieldResolution, loc, {\n        identifierName: name,\n      });\n    }\n  }\n}\n","import { Errors, type ParseErrorConstructor } from \"../parse-error.ts\";\nimport type { Position } from \"./location.ts\";\nimport type { Node } from \"../types.ts\";\nimport type Tokenizer from \"../tokenizer/index.ts\";\n\n/**\n * @module util/expression-scope\n\nExpressionScope is used to track declaration errors in these ambiguous patterns:\n\n- CoverParenthesizedExpressionAndArrowParameterList\n  e.g. we don't know if `({ x })` is an parenthesized expression or an\n  arrow function parameters until we see an `=>` after `)`.\n\n- CoverCallExpressionAndAsyncArrowHead\n  e.g. we don't know if `async({ x })` is a call expression or an async arrow\n  function parameters until we see an `=>` after `)`\n\nThe following declaration errors (@see parser-errors/standard) will be recorded in\nsome expression scopes and thrown later when we know what the ambiguous pattern is\n\n- AwaitBindingIdentifier\n- AwaitExpressionFormalParameter\n- YieldInParameter\n- InvalidParenthesizedAssignment when parenthesized is an identifier\n\nThere are four different expression scope\n- Expression\n  A general scope that represents program / function body / static block. No errors\n  will be recorded nor thrown in this scope.\n\n- MaybeArrowParameterDeclaration\n  A scope that represents ambiguous arrow head e.g. `(x)`. Errors will be recorded\n  alongside parent scopes and thrown when `ExpressionScopeHandler#validateAsPattern`\n  is called.\n\n- MaybeAsyncArrowParameterDeclaration\n  A scope that represents ambiguous async arrow head e.g. `async(x)`. Errors will\n  be recorded alongside parent scopes and thrown when\n  `ExpressionScopeHandler#validateAsPattern` is called.\n\n- ParameterDeclaration\n  A scope that represents unambiguous function parameters `function(x)`. Errors\n  recorded in this scope will be thrown immediately. No errors will be recorded in\n  this scope.\n\n// @see {@link https://docs.google.com/document/d/1FAvEp9EUK-G8kHfDIEo_385Hs2SUBCYbJ5H-NnLvq8M|V8 Expression Scope design docs}\n */\n\nconst enum ExpressionScopeType {\n  kExpression = 0,\n  kMaybeArrowParameterDeclaration = 1,\n  kMaybeAsyncArrowParameterDeclaration = 2,\n  kParameterDeclaration = 3,\n}\n\nclass ExpressionScope {\n  declare type: ExpressionScopeType;\n\n  constructor(type: ExpressionScopeType = ExpressionScopeType.kExpression) {\n    this.type = type;\n  }\n\n  canBeArrowParameterDeclaration(): this is ArrowHeadParsingScope {\n    return (\n      this.type === ExpressionScopeType.kMaybeAsyncArrowParameterDeclaration ||\n      this.type === ExpressionScopeType.kMaybeArrowParameterDeclaration\n    );\n  }\n\n  isCertainlyParameterDeclaration() {\n    return this.type === ExpressionScopeType.kParameterDeclaration;\n  }\n}\n\ntype ArrowHeadParsingParameterInitializerError =\n  | typeof Errors.AwaitExpressionFormalParameter\n  | typeof Errors.YieldInParameter;\ntype ArrowHeadParsingDeclarationError =\n  | ArrowHeadParsingParameterInitializerError\n  | typeof Errors.InvalidParenthesizedAssignment\n  | typeof Errors.AwaitBindingIdentifier;\n\nclass ArrowHeadParsingScope extends ExpressionScope {\n  declarationErrors: Map<number, [ParseErrorConstructor<object>, Position]> =\n    new Map();\n  constructor(\n    type:\n      | ExpressionScopeType.kMaybeArrowParameterDeclaration\n      | ExpressionScopeType.kMaybeAsyncArrowParameterDeclaration,\n  ) {\n    super(type);\n  }\n  recordDeclarationError(\n    ParsingErrorClass: ParseErrorConstructor<object>,\n    at: Position,\n  ) {\n    const index = at.index;\n\n    this.declarationErrors.set(index, [ParsingErrorClass, at]);\n  }\n  clearDeclarationError(index: number) {\n    this.declarationErrors.delete(index);\n  }\n  iterateErrors(\n    iterator: (a: [ArrowHeadParsingDeclarationError, Position]) => void,\n  ) {\n    this.declarationErrors.forEach(iterator);\n  }\n}\n\nexport default class ExpressionScopeHandler {\n  parser: Tokenizer;\n  stack: Array<ExpressionScope> = [new ExpressionScope()];\n\n  constructor(parser: Tokenizer) {\n    this.parser = parser;\n  }\n  enter(scope: ExpressionScope) {\n    this.stack.push(scope);\n  }\n\n  exit() {\n    this.stack.pop();\n  }\n\n  /**\n   * Record likely parameter initializer errors\n   *\n   * When current scope is a ParameterDeclaration, the error will be thrown immediately,\n   * otherwise it will be recorded to any ancestry MaybeArrowParameterDeclaration and\n   * MaybeAsyncArrowParameterDeclaration scope until an Expression scope is seen.\n   */\n  recordParameterInitializerError(\n    toParseError: ArrowHeadParsingParameterInitializerError,\n    node: Node,\n  ): void {\n    const origin = node.loc.start;\n    const { stack } = this;\n    let i = stack.length - 1;\n    let scope: ExpressionScope = stack[i];\n    while (!scope.isCertainlyParameterDeclaration()) {\n      if (scope.canBeArrowParameterDeclaration()) {\n        scope.recordDeclarationError(toParseError, origin);\n      } else {\n        /*:: invariant(scope.type == ExpressionScopeType.kExpression) */\n        // Type-Expression is the boundary where initializer error can populate to\n        return;\n      }\n      scope = stack[--i];\n    }\n    this.parser.raise(toParseError, origin);\n  }\n\n  /**\n   * Record errors that must be thrown if the current pattern ends up being an arrow\n   * function parameter. This is used to record parenthesized identifiers, and to record\n   * \"a as T\" and \"<T> a\" type assertions when parsing typescript.\n   *\n   * A parenthesized identifier (or type assertion) in LHS can be ambiguous because the assignment\n   * can be transformed to an assignable later, but not vice versa:\n   * For example, in `([(a) = []] = []) => {}`, we think `(a) = []` is an LHS in `[(a) = []]`,\n   * an LHS within `[(a) = []] = []`. However the LHS chain is then transformed by toAssignable,\n   * and we should throw assignment `(a)`, which is only valid in LHS. Hence we record the\n   * location of parenthesized `(a)` to current scope if it is one of MaybeArrowParameterDeclaration\n   * and MaybeAsyncArrowParameterDeclaration\n   *\n   * Unlike `recordParameterInitializerError`, we don't record to ancestry scope because we\n   * validate arrow head parsing scope before exit, and then the LHS will be unambiguous:\n   * For example, in `( x = ( [(a) = []] = [] ) ) => {}`, we should not record `(a)` in `( x = ... ) =>`\n   * arrow scope because when we finish parsing `( [(a) = []] = [] )`, it is an unambiguous assignment\n   * expression and can not be cast to pattern\n   */\n  recordArrowParameterBindingError(\n    error: ParseErrorConstructor<object>,\n    node: Node,\n  ): void {\n    const { stack } = this;\n    const scope: ExpressionScope = stack[stack.length - 1];\n    const origin = node.loc.start;\n    if (scope.isCertainlyParameterDeclaration()) {\n      this.parser.raise(error, origin);\n    } else if (scope.canBeArrowParameterDeclaration()) {\n      scope.recordDeclarationError(error, origin);\n    } else {\n      return;\n    }\n  }\n\n  /**\n   * Record likely async arrow parameter errors\n   *\n   * Errors will be recorded to any ancestry MaybeAsyncArrowParameterDeclaration\n   * scope until an Expression scope is seen.\n   */\n  recordAsyncArrowParametersError(at: Position): void {\n    const { stack } = this;\n    let i = stack.length - 1;\n    let scope: ExpressionScope = stack[i];\n    while (scope.canBeArrowParameterDeclaration()) {\n      if (\n        scope.type === ExpressionScopeType.kMaybeAsyncArrowParameterDeclaration\n      ) {\n        scope.recordDeclarationError(Errors.AwaitBindingIdentifier, at);\n      }\n      scope = stack[--i];\n    }\n  }\n\n  validateAsPattern(): void {\n    const { stack } = this;\n    const currentScope = stack[stack.length - 1];\n    if (!currentScope.canBeArrowParameterDeclaration()) return;\n    currentScope.iterateErrors(([toParseError, loc]) => {\n      this.parser.raise(toParseError, loc);\n      // iterate from parent scope\n      let i = stack.length - 2;\n      let scope = stack[i];\n      while (scope.canBeArrowParameterDeclaration()) {\n        scope.clearDeclarationError(loc.index);\n        scope = stack[--i];\n      }\n    });\n  }\n}\n\nexport function newParameterDeclarationScope() {\n  return new ExpressionScope(ExpressionScopeType.kParameterDeclaration);\n}\n\nexport function newArrowHeadScope() {\n  return new ArrowHeadParsingScope(\n    ExpressionScopeType.kMaybeArrowParameterDeclaration,\n  );\n}\n\nexport function newAsyncArrowScope() {\n  return new ArrowHeadParsingScope(\n    ExpressionScopeType.kMaybeAsyncArrowParameterDeclaration,\n  );\n}\n\nexport function newExpressionScope() {\n  return new ExpressionScope();\n}\n","// ProductionParameterHandler is a stack fashioned production parameter tracker\n// https://tc39.es/ecma262/#sec-grammar-notation\n// The tracked parameters are defined above.\n//\n// Whenever [+Await]/[+Yield] appears in the right-hand sides of a production,\n// we must enter a new tracking stack. For example when parsing\n//\n// AsyncFunctionDeclaration [Yield, Await]:\n//   async [no LineTerminator here] function BindingIdentifier[?Yield, ?Await]\n//     ( FormalParameters[~Yield, +Await] ) { AsyncFunctionBody }\n//\n// we must follow such process:\n//\n// 1. parse async keyword\n// 2. parse function keyword\n// 3. parse bindingIdentifier <= inherit current parameters: [?Await]\n// 4. enter new stack with (PARAM_AWAIT)\n// 5. parse formal parameters <= must have [Await] parameter [+Await]\n// 6. parse function body\n// 7. exit current stack\n\nexport const enum ParamKind {\n  // Initial Parameter flags\n  PARAM = 0b0000,\n  // track [Yield] production parameter\n  PARAM_YIELD = 0b0001,\n  // track [Await] production parameter\n  PARAM_AWAIT = 0b0010,\n  // track [Return] production parameter\n  PARAM_RETURN = 0b0100,\n  // track [In] production parameter\n  PARAM_IN = 0b1000,\n}\n\n// todo(flow->ts) - check if more granular type can be used,\n//  type below is not good because things like PARAM_AWAIT|PARAM_YIELD are not included\n// export type ParamKind =\n//   | typeof PARAM\n//   | typeof PARAM_AWAIT\n//   | typeof PARAM_IN\n//   | typeof PARAM_RETURN\n//   | typeof PARAM_YIELD;\n\nexport default class ProductionParameterHandler {\n  stacks: Array<ParamKind> = [];\n  enter(flags: ParamKind) {\n    this.stacks.push(flags);\n  }\n\n  exit() {\n    this.stacks.pop();\n  }\n\n  currentFlags(): ParamKind {\n    return this.stacks[this.stacks.length - 1];\n  }\n\n  get hasAwait(): boolean {\n    return (this.currentFlags() & ParamKind.PARAM_AWAIT) > 0;\n  }\n\n  get hasYield(): boolean {\n    return (this.currentFlags() & ParamKind.PARAM_YIELD) > 0;\n  }\n\n  get hasReturn(): boolean {\n    return (this.currentFlags() & ParamKind.PARAM_RETURN) > 0;\n  }\n\n  get hasIn(): boolean {\n    return (this.currentFlags() & ParamKind.PARAM_IN) > 0;\n  }\n}\n\nexport function functionFlags(\n  isAsync: boolean,\n  isGenerator: boolean,\n): ParamKind {\n  return (\n    (isAsync ? ParamKind.PARAM_AWAIT : 0) |\n    (isGenerator ? ParamKind.PARAM_YIELD : 0)\n  );\n}\n","import type { Position } from \"../util/location.ts\";\nimport {\n  tokenIsLiteralPropertyName,\n  tt,\n  type TokenType,\n} from \"../tokenizer/types.ts\";\nimport Tokenizer from \"../tokenizer/index.ts\";\nimport type State from \"../tokenizer/state.ts\";\nimport type {\n  EstreePropertyDefinition,\n  Node,\n  ObjectMethod,\n  ObjectProperty,\n  PrivateName,\n} from \"../types.d.ts\";\nimport { hasNewLine } from \"../util/whitespace.ts\";\nimport { isIdentifierChar } from \"../util/identifier.ts\";\nimport ClassScopeHandler from \"../util/class-scope.ts\";\nimport ExpressionScopeHandler from \"../util/expression-scope.ts\";\nimport { ScopeFlag } from \"../util/scopeflags.ts\";\nimport ProductionParameterHandler, {\n  ParamKind,\n} from \"../util/production-parameter.ts\";\nimport {\n  Errors,\n  type ParseError,\n  type ParseErrorConstructor,\n} from \"../parse-error.ts\";\nimport type Parser from \"./index.ts\";\n\nimport type ScopeHandler from \"../util/scope.ts\";\n\ntype TryParse<Node, Error, Thrown, Aborted, FailState> = {\n  node: Node;\n  error: Error;\n  thrown: Thrown;\n  aborted: Aborted;\n  failState: FailState;\n};\n\n// ## Parser utilities\n\nexport default abstract class UtilParser extends Tokenizer {\n  // Forward-declaration: defined in parser/index.js\n  abstract getScopeHandler(): new (...args: any) => ScopeHandler;\n\n  addExtra(\n    node: Partial<Node>,\n    key: string,\n    value: any,\n    enumerable: boolean = true,\n  ): void {\n    if (!node) return;\n\n    let { extra } = node;\n    if (extra == null) {\n      extra = {};\n      node.extra = extra;\n    }\n\n    if (enumerable) {\n      extra[key] = value;\n    } else {\n      Object.defineProperty(extra, key, { enumerable, value });\n    }\n  }\n\n  // Tests whether parsed token is a contextual keyword.\n\n  isContextual(token: TokenType): boolean {\n    return this.state.type === token && !this.state.containsEsc;\n  }\n\n  isUnparsedContextual(nameStart: number, name: string): boolean {\n    const nameEnd = nameStart + name.length;\n    if (this.input.slice(nameStart, nameEnd) === name) {\n      const nextCh = this.input.charCodeAt(nameEnd);\n      return !(\n        isIdentifierChar(nextCh) ||\n        // check if `nextCh is between 0xd800 - 0xdbff,\n        // if `nextCh` is NaN, `NaN & 0xfc00` is 0, the function\n        // returns true\n        (nextCh & 0xfc00) === 0xd800\n      );\n    }\n    return false;\n  }\n\n  isLookaheadContextual(name: string): boolean {\n    const next = this.nextTokenStart();\n    return this.isUnparsedContextual(next, name);\n  }\n\n  // Consumes contextual keyword if possible.\n\n  eatContextual(token: TokenType): boolean {\n    if (this.isContextual(token)) {\n      this.next();\n      return true;\n    }\n    return false;\n  }\n\n  // Asserts that following token is given contextual keyword.\n\n  expectContextual(\n    token: TokenType,\n    toParseError?: ParseErrorConstructor<any>,\n  ): void {\n    if (!this.eatContextual(token)) {\n      if (toParseError != null) {\n        throw this.raise(toParseError, this.state.startLoc);\n      }\n      this.unexpected(null, token);\n    }\n  }\n\n  // Test whether a semicolon can be inserted at the current position.\n\n  canInsertSemicolon(): boolean {\n    return (\n      this.match(tt.eof) ||\n      this.match(tt.braceR) ||\n      this.hasPrecedingLineBreak()\n    );\n  }\n\n  hasPrecedingLineBreak(): boolean {\n    return hasNewLine(\n      this.input,\n      this.offsetToSourcePos(this.state.lastTokEndLoc.index),\n      this.state.start,\n    );\n  }\n\n  hasFollowingLineBreak(): boolean {\n    return hasNewLine(this.input, this.state.end, this.nextTokenStart());\n  }\n\n  isLineTerminator(): boolean {\n    return this.eat(tt.semi) || this.canInsertSemicolon();\n  }\n\n  // Consume a semicolon, or, failing that, see if we are allowed to\n  // pretend that there is a semicolon at this position.\n\n  semicolon(allowAsi: boolean = true): void {\n    if (allowAsi ? this.isLineTerminator() : this.eat(tt.semi)) return;\n    this.raise(Errors.MissingSemicolon, this.state.lastTokEndLoc);\n  }\n\n  // Expect a token of a given type. If found, consume it, otherwise,\n  // raise an unexpected token error at given pos.\n\n  expect(type: TokenType, loc?: Position | null): void {\n    if (!this.eat(type)) {\n      this.unexpected(loc, type);\n    }\n  }\n\n  // tryParse will clone parser state.\n  // It is expensive and should be used with cautions\n  tryParse<T extends Node | ReadonlyArray<Node>>(\n    fn: (abort: (node?: T) => never) => T,\n    oldState: State = this.state.clone(),\n  ):\n    | TryParse<T, null, false, false, null>\n    | TryParse<T | null, ParseError<any>, boolean, false, State>\n    | TryParse<T | null, null, false, true, State> {\n    const abortSignal: {\n      node: T | null;\n    } = { node: null };\n    try {\n      const node = fn((node = null) => {\n        abortSignal.node = node;\n        // eslint-disable-next-line @typescript-eslint/only-throw-error\n        throw abortSignal;\n      });\n      if (this.state.errors.length > oldState.errors.length) {\n        const failState = this.state;\n        this.state = oldState;\n        // tokensLength should be preserved during error recovery mode\n        // since the parser does not halt and will instead parse the\n        // remaining tokens\n        this.state.tokensLength = failState.tokensLength;\n        return {\n          node,\n          error: failState.errors[oldState.errors.length],\n          thrown: false,\n          aborted: false,\n          failState,\n        };\n      }\n\n      return {\n        node,\n        error: null,\n        thrown: false,\n        aborted: false,\n        failState: null,\n      };\n    } catch (error) {\n      const failState = this.state;\n      this.state = oldState;\n      if (error instanceof SyntaxError) {\n        // @ts-expect-error casting general syntax error to parse error\n        return { node: null, error, thrown: true, aborted: false, failState };\n      }\n      if (error === abortSignal) {\n        return {\n          node: abortSignal.node,\n          error: null,\n          thrown: false,\n          aborted: true,\n          failState,\n        };\n      }\n\n      throw error;\n    }\n  }\n\n  checkExpressionErrors(\n    refExpressionErrors: ExpressionErrors | undefined | null,\n    andThrow: boolean,\n  ) {\n    if (!refExpressionErrors) return false;\n    const {\n      shorthandAssignLoc,\n      doubleProtoLoc,\n      privateKeyLoc,\n      optionalParametersLoc,\n    } = refExpressionErrors;\n\n    const hasErrors =\n      !!shorthandAssignLoc ||\n      !!doubleProtoLoc ||\n      !!optionalParametersLoc ||\n      !!privateKeyLoc;\n\n    if (!andThrow) {\n      return hasErrors;\n    }\n\n    if (shorthandAssignLoc != null) {\n      this.raise(Errors.InvalidCoverInitializedName, shorthandAssignLoc);\n    }\n\n    if (doubleProtoLoc != null) {\n      this.raise(Errors.DuplicateProto, doubleProtoLoc);\n    }\n\n    if (privateKeyLoc != null) {\n      this.raise(Errors.UnexpectedPrivateField, privateKeyLoc);\n    }\n\n    if (optionalParametersLoc != null) {\n      this.unexpected(optionalParametersLoc);\n    }\n  }\n\n  /**\n   * Test if current token is a literal property name\n   * https://tc39.es/ecma262/#prod-LiteralPropertyName\n   * LiteralPropertyName:\n   *   IdentifierName\n   *   StringLiteral\n   *   NumericLiteral\n   *   BigIntLiteral\n   */\n  isLiteralPropertyName(): boolean {\n    return tokenIsLiteralPropertyName(this.state.type);\n  }\n\n  /**\n   * Test if given node is a PrivateName\n   * will be overridden in ESTree plugin\n   */\n  isPrivateName(node: Node): node is PrivateName {\n    return node.type === \"PrivateName\";\n  }\n\n  /**\n   * Return the string value of a given private name\n   * WITHOUT `#`\n   * @see {@link https://tc39.es/ecma262/#sec-static-semantics-stringvalue}\n   */\n  getPrivateNameSV(node: PrivateName): string {\n    return node.id.name;\n  }\n\n  /**\n   * Return whether the given node is a member/optional chain that\n   * contains a private name as its property\n   * It is overridden in ESTree plugin\n   */\n  hasPropertyAsPrivateName(node: Node): boolean {\n    return (\n      (node.type === \"MemberExpression\" ||\n        node.type === \"OptionalMemberExpression\") &&\n      this.isPrivateName(node.property)\n    );\n  }\n\n  isObjectProperty(\n    node: Node,\n  ): node is ObjectProperty | EstreePropertyDefinition {\n    return node.type === \"ObjectProperty\";\n  }\n\n  isObjectMethod(node: Node): node is ObjectMethod {\n    return node.type === \"ObjectMethod\";\n  }\n\n  initializeScopes(\n    this: Parser,\n    inModule: boolean = this.options.sourceType === \"module\",\n  ): () => void {\n    // Initialize state\n    const oldLabels = this.state.labels;\n    this.state.labels = [];\n\n    const oldExportedIdentifiers = this.exportedIdentifiers;\n    this.exportedIdentifiers = new Set();\n\n    // initialize scopes\n    const oldInModule = this.inModule;\n    this.inModule = inModule;\n\n    const oldScope = this.scope;\n    const ScopeHandler = this.getScopeHandler();\n    this.scope = new ScopeHandler(this, inModule);\n\n    const oldProdParam = this.prodParam;\n    this.prodParam = new ProductionParameterHandler();\n\n    const oldClassScope = this.classScope;\n    this.classScope = new ClassScopeHandler(this);\n\n    const oldExpressionScope = this.expressionScope;\n    this.expressionScope = new ExpressionScopeHandler(this);\n\n    return () => {\n      // Revert state\n      this.state.labels = oldLabels;\n      this.exportedIdentifiers = oldExportedIdentifiers;\n\n      // Revert scopes\n      this.inModule = oldInModule;\n      this.scope = oldScope;\n      this.prodParam = oldProdParam;\n      this.classScope = oldClassScope;\n      this.expressionScope = oldExpressionScope;\n    };\n  }\n\n  enterInitialScopes() {\n    let paramFlags = ParamKind.PARAM;\n    if (this.inModule) {\n      paramFlags |= ParamKind.PARAM_AWAIT;\n    }\n    this.scope.enter(ScopeFlag.PROGRAM);\n    this.prodParam.enter(paramFlags);\n  }\n\n  checkDestructuringPrivate(refExpressionErrors: ExpressionErrors) {\n    const { privateKeyLoc } = refExpressionErrors;\n    if (privateKeyLoc !== null) {\n      this.expectPlugin(\"destructuringPrivate\", privateKeyLoc);\n    }\n  }\n}\n\n/**\n * The ExpressionErrors is a context struct used to track ambiguous patterns\n * When we are sure the parsed pattern is a RHS, which means it is not a pattern,\n * we will throw on this position on invalid assign syntax, otherwise it will be reset to -1\n *\n * Types of ExpressionErrors:\n *\n * - **shorthandAssignLoc**: track initializer `=` position\n * - **doubleProtoLoc**: track the duplicate `__proto__` key position\n * - **privateKey**: track private key `#p` position\n * - **optionalParametersLoc**: track the optional parameter (`?`).\n * It's only used by typescript and flow plugins\n */\nexport class ExpressionErrors {\n  shorthandAssignLoc: Position | undefined | null = null;\n  doubleProtoLoc: Position | undefined | null = null;\n  privateKeyLoc: Position | undefined | null = null;\n  optionalParametersLoc: Position | undefined | null = null;\n}\n","import UtilParser from \"./util.ts\";\nimport { SourceLocation, type Position } from \"../util/location.ts\";\nimport type { Comment, Node as NodeType, NodeBase } from \"../types.ts\";\n\n// Start an AST node, attaching a start offset.\n\nclass Node implements NodeBase {\n  constructor(parser: UtilParser, pos: number, loc: Position) {\n    this.start = pos;\n    this.end = 0;\n    this.loc = new SourceLocation(loc);\n    if (parser?.options.ranges) this.range = [pos, 0];\n    if (parser?.filename) this.loc.filename = parser.filename;\n  }\n\n  type: string = \"\";\n  declare start: number;\n  declare end: number;\n  declare loc: SourceLocation;\n  declare range: [number, number];\n  declare leadingComments: Array<Comment>;\n  declare trailingComments: Array<Comment>;\n  declare innerComments: Array<Comment>;\n  declare extra: {\n    [key: string]: any;\n  };\n}\nconst NodePrototype = Node.prototype;\n\nif (!process.env.BABEL_8_BREAKING) {\n  // @ts-expect-error __clone is not defined in Node prototype\n  NodePrototype.__clone = function (): Node {\n    const newNode = new Node(undefined, this.start, this.loc.start);\n    const keys = Object.keys(this) as (keyof Node)[];\n    for (let i = 0, length = keys.length; i < length; i++) {\n      const key = keys[i];\n      // Do not clone comments that are already attached to the node\n      if (\n        key !== \"leadingComments\" &&\n        key !== \"trailingComments\" &&\n        key !== \"innerComments\"\n      ) {\n        // @ts-expect-error cloning this to newNode\n        newNode[key] = this[key];\n      }\n    }\n\n    return newNode;\n  };\n}\n\nfunction clonePlaceholder(node: any): any {\n  return cloneIdentifier(node);\n}\n\nexport function cloneIdentifier(node: any): any {\n  // We don't need to clone `typeAnnotations` and `optional`: because\n  // cloneIdentifier is only used in object shorthand and named import/export.\n  // Neither of them allow type annotations after the identifier or optional identifier\n  const { type, start, end, loc, range, extra, name } = node;\n  const cloned = Object.create(NodePrototype);\n  cloned.type = type;\n  cloned.start = start;\n  cloned.end = end;\n  cloned.loc = loc;\n  cloned.range = range;\n  cloned.extra = extra;\n  cloned.name = name;\n  if (type === \"Placeholder\") {\n    cloned.expectedNode = node.expectedNode;\n  }\n  return cloned;\n}\n\nexport function cloneStringLiteral(node: any): any {\n  const { type, start, end, loc, range, extra } = node;\n  if (type === \"Placeholder\") {\n    return clonePlaceholder(node);\n  }\n  const cloned = Object.create(NodePrototype);\n  cloned.type = type;\n  cloned.start = start;\n  cloned.end = end;\n  cloned.loc = loc;\n  cloned.range = range;\n  if (node.raw !== undefined) {\n    // estree set node.raw instead of node.extra\n    cloned.raw = node.raw;\n  } else {\n    cloned.extra = extra;\n  }\n  cloned.value = node.value;\n  return cloned;\n}\n\nexport type Undone<T extends NodeType> = Omit<T, \"type\">;\n\nexport abstract class NodeUtils extends UtilParser {\n  startNode<T extends NodeType = never>(): Undone<T> {\n    const loc = this.state.startLoc;\n    return new Node(this, loc.index, loc) as unknown as Undone<T>;\n  }\n\n  startNodeAt<T extends NodeType = never>(loc: Position): Undone<T> {\n    return new Node(this, loc.index, loc) as unknown as Undone<T>;\n  }\n\n  /** Start a new node with a previous node's location. */\n  startNodeAtNode<T extends NodeType = never>(\n    type: Undone<NodeType>,\n  ): Undone<T> {\n    return this.startNodeAt(type.loc.start);\n  }\n\n  // Finish an AST node, adding `type` and `end` properties.\n\n  finishNode<T extends NodeType>(node: Undone<T>, type: T[\"type\"]): T {\n    return this.finishNodeAt(node, type, this.state.lastTokEndLoc);\n  }\n\n  // Finish node at given position\n\n  finishNodeAt<T extends NodeType>(\n    node: Omit<T, \"type\">,\n    type: T[\"type\"],\n    endLoc: Position,\n  ): T {\n    if (process.env.NODE_ENV !== \"production\" && node.end > 0) {\n      throw new Error(\n        \"Do not call finishNode*() twice on the same node.\" +\n          \" Instead use resetEndLocation() or change type directly.\",\n      );\n    }\n    (node as T).type = type;\n    node.end = endLoc.index;\n    node.loc.end = endLoc;\n    if (this.options.ranges) node.range[1] = endLoc.index;\n    if (this.options.attachComment) this.processComment(node as T);\n    return node as T;\n  }\n\n  resetStartLocation(node: NodeBase, startLoc: Position): void {\n    node.start = startLoc.index;\n    node.loc.start = startLoc;\n    if (this.options.ranges) node.range[0] = startLoc.index;\n  }\n\n  resetEndLocation(\n    node: NodeBase,\n    endLoc: Position = this.state.lastTokEndLoc,\n  ): void {\n    node.end = endLoc.index;\n    node.loc.end = endLoc;\n    if (this.options.ranges) node.range[1] = endLoc.index;\n  }\n\n  /**\n   * Reset the start location of node to the start location of locationNode\n   */\n  resetStartLocationFromNode(node: NodeBase, locationNode: NodeBase): void {\n    this.resetStartLocation(node, locationNode.loc.start);\n  }\n}\n","/*:: declare var invariant; */\n\nimport type Parser from \"../../parser/index.ts\";\nimport {\n  tokenIsIdentifier,\n  tokenIsKeyword,\n  tokenIsKeywordOrIdentifier,\n  tokenIsLiteralPropertyName,\n  tokenLabelName,\n  tt,\n  type TokenType,\n  tokenIsFlowInterfaceOrTypeOrOpaque,\n} from \"../../tokenizer/types.ts\";\nimport type * as N from \"../../types.ts\";\nimport type { Position } from \"../../util/location.ts\";\nimport { types as tc } from \"../../tokenizer/context.ts\";\nimport * as charCodes from \"charcodes\";\nimport { isIteratorStart } from \"../../util/identifier.ts\";\nimport FlowScopeHandler from \"./scope.ts\";\nimport { BindingFlag, ScopeFlag } from \"../../util/scopeflags.ts\";\nimport type { ExpressionErrors } from \"../../parser/util.ts\";\nimport type { ParseStatementFlag } from \"../../parser/statement.ts\";\nimport { Errors, ParseErrorEnum } from \"../../parse-error.ts\";\nimport { cloneIdentifier, type Undone } from \"../../parser/node.ts\";\n\nconst reservedTypes = new Set([\n  \"_\",\n  \"any\",\n  \"bool\",\n  \"boolean\",\n  \"empty\",\n  \"extends\",\n  \"false\",\n  \"interface\",\n  \"mixed\",\n  \"null\",\n  \"number\",\n  \"static\",\n  \"string\",\n  \"true\",\n  \"typeof\",\n  \"void\",\n]);\n\n/* eslint sort-keys: \"error\" */\n// The Errors key follows https://github.com/facebook/flow/blob/master/src/parser/parse_error.ml unless it does not exist\nconst FlowErrors = ParseErrorEnum`flow`({\n  AmbiguousConditionalArrow:\n    \"Ambiguous expression: wrap the arrow functions in parentheses to disambiguate.\",\n  AmbiguousDeclareModuleKind:\n    \"Found both `declare module.exports` and `declare export` in the same module. Modules can only have 1 since they are either an ES module or they are a CommonJS module.\",\n  // TODO: When we get proper string enums in typescript make this ReservedType.\n  // Not really worth it to do the whole $Values dance with reservedTypes set.\n  AssignReservedType: ({ reservedType }: { reservedType: string }) =>\n    `Cannot overwrite reserved type ${reservedType}.`,\n  DeclareClassElement:\n    \"The `declare` modifier can only appear on class fields.\",\n  DeclareClassFieldInitializer:\n    \"Initializers are not allowed in fields with the `declare` modifier.\",\n  DuplicateDeclareModuleExports:\n    \"Duplicate `declare module.exports` statement.\",\n  EnumBooleanMemberNotInitialized: ({\n    memberName,\n    enumName,\n  }: {\n    memberName: string;\n    enumName: string;\n  }) =>\n    `Boolean enum members need to be initialized. Use either \\`${memberName} = true,\\` or \\`${memberName} = false,\\` in enum \\`${enumName}\\`.`,\n  EnumDuplicateMemberName: ({\n    memberName,\n    enumName,\n  }: {\n    memberName: string;\n    enumName: string;\n  }) =>\n    `Enum member names need to be unique, but the name \\`${memberName}\\` has already been used before in enum \\`${enumName}\\`.`,\n  EnumInconsistentMemberValues: ({ enumName }: { enumName: string }) =>\n    `Enum \\`${enumName}\\` has inconsistent member initializers. Either use no initializers, or consistently use literals (either booleans, numbers, or strings) for all member initializers.`,\n  EnumInvalidExplicitType: ({\n    invalidEnumType,\n    enumName,\n  }: {\n    invalidEnumType: string;\n    enumName: string;\n  }) =>\n    `Enum type \\`${invalidEnumType}\\` is not valid. Use one of \\`boolean\\`, \\`number\\`, \\`string\\`, or \\`symbol\\` in enum \\`${enumName}\\`.`,\n  EnumInvalidExplicitTypeUnknownSupplied: ({\n    enumName,\n  }: {\n    enumName: string;\n  }) =>\n    `Supplied enum type is not valid. Use one of \\`boolean\\`, \\`number\\`, \\`string\\`, or \\`symbol\\` in enum \\`${enumName}\\`.`,\n\n  // TODO: When moving to typescript, we should either have each of the\n  // following errors only accept the specific strings they want:\n  //\n  // ...PrimaryType: explicitType: \"string\" | \"number\" | \"boolean\"\n  // ...SymbolType: explicitType: \"symbol\"\n  // ...UnknownType: explicitType: null\n  //\n  // Or, alternatively, merge these three errors together into one\n  // `EnumInvalidMemberInitializer` error that can accept `EnumExplicitType`\n  // without alteration, and then just have its message change based on the\n  // explicitType.\n  EnumInvalidMemberInitializerPrimaryType: ({\n    enumName,\n    memberName,\n    explicitType,\n  }: {\n    enumName: string;\n    memberName: string;\n    explicitType: EnumExplicitType;\n  }) =>\n    `Enum \\`${enumName}\\` has type \\`${explicitType}\\`, so the initializer of \\`${memberName}\\` needs to be a ${explicitType} literal.`,\n  EnumInvalidMemberInitializerSymbolType: ({\n    enumName,\n    memberName,\n  }: {\n    enumName: string;\n    memberName: string;\n    explicitType: EnumExplicitType;\n  }) =>\n    `Symbol enum members cannot be initialized. Use \\`${memberName},\\` in enum \\`${enumName}\\`.`,\n  EnumInvalidMemberInitializerUnknownType: ({\n    enumName,\n    memberName,\n  }: {\n    enumName: string;\n    memberName: string;\n    explicitType: EnumExplicitType;\n  }) =>\n    `The enum member initializer for \\`${memberName}\\` needs to be a literal (either a boolean, number, or string) in enum \\`${enumName}\\`.`,\n  EnumInvalidMemberName: ({\n    enumName,\n    memberName,\n    suggestion,\n  }: {\n    enumName: string;\n    memberName: string;\n    suggestion: string;\n  }) =>\n    `Enum member names cannot start with lowercase 'a' through 'z'. Instead of using \\`${memberName}\\`, consider using \\`${suggestion}\\`, in enum \\`${enumName}\\`.`,\n  EnumNumberMemberNotInitialized: ({\n    enumName,\n    memberName,\n  }: {\n    enumName: string;\n    memberName: string;\n  }) =>\n    `Number enum members need to be initialized, e.g. \\`${memberName} = 1\\` in enum \\`${enumName}\\`.`,\n  EnumStringMemberInconsistentlyInitialized: ({\n    enumName,\n  }: {\n    enumName: string;\n  }) =>\n    `String enum members need to consistently either all use initializers, or use no initializers, in enum \\`${enumName}\\`.`,\n  GetterMayNotHaveThisParam: \"A getter cannot have a `this` parameter.\",\n  ImportReflectionHasImportType:\n    \"An `import module` declaration can not use `type` or `typeof` keyword.\",\n  ImportTypeShorthandOnlyInPureImport:\n    \"The `type` and `typeof` keywords on named imports can only be used on regular `import` statements. It cannot be used with `import type` or `import typeof` statements.\",\n  InexactInsideExact:\n    \"Explicit inexact syntax cannot appear inside an explicit exact object type.\",\n  InexactInsideNonObject:\n    \"Explicit inexact syntax cannot appear in class or interface definitions.\",\n  InexactVariance: \"Explicit inexact syntax cannot have variance.\",\n  InvalidNonTypeImportInDeclareModule:\n    \"Imports within a `declare module` body must always be `import type` or `import typeof`.\",\n  MissingTypeParamDefault:\n    \"Type parameter declaration needs a default, since a preceding type parameter declaration has a default.\",\n  NestedDeclareModule:\n    \"`declare module` cannot be used inside another `declare module`.\",\n  NestedFlowComment: \"Cannot have a flow comment inside another flow comment.\",\n  PatternIsOptional: {\n    message:\n      \"A binding pattern parameter cannot be optional in an implementation signature.\",\n    // For consistency in TypeScript and Flow error codes\n    ...(!process.env.BABEL_8_BREAKING\n      ? { reasonCode: \"OptionalBindingPattern\" }\n      : {}),\n  },\n  SetterMayNotHaveThisParam: \"A setter cannot have a `this` parameter.\",\n  SpreadVariance: \"Spread properties cannot have variance.\",\n  ThisParamAnnotationRequired:\n    \"A type annotation is required for the `this` parameter.\",\n  ThisParamBannedInConstructor:\n    \"Constructors cannot have a `this` parameter; constructors don't bind `this` like other functions.\",\n  ThisParamMayNotBeOptional: \"The `this` parameter cannot be optional.\",\n  ThisParamMustBeFirst:\n    \"The `this` parameter must be the first function parameter.\",\n  ThisParamNoDefault: \"The `this` parameter may not have a default value.\",\n  TypeBeforeInitializer:\n    \"Type annotations must come before default assignments, e.g. instead of `age = 25: number` use `age: number = 25`.\",\n  TypeCastInPattern:\n    \"The type cast expression is expected to be wrapped with parenthesis.\",\n  UnexpectedExplicitInexactInObject:\n    \"Explicit inexact syntax must appear at the end of an inexact object.\",\n  UnexpectedReservedType: ({ reservedType }: { reservedType: string }) =>\n    `Unexpected reserved type ${reservedType}.`,\n  UnexpectedReservedUnderscore:\n    \"`_` is only allowed as a type argument to call or new.\",\n  UnexpectedSpaceBetweenModuloChecks:\n    \"Spaces between `%` and `checks` are not allowed here.\",\n  UnexpectedSpreadType:\n    \"Spread operator cannot appear in class or interface definitions.\",\n  UnexpectedSubtractionOperand:\n    'Unexpected token, expected \"number\" or \"bigint\".',\n  UnexpectedTokenAfterTypeParameter:\n    \"Expected an arrow function after this type parameter declaration.\",\n  UnexpectedTypeParameterBeforeAsyncArrowFunction:\n    \"Type parameters must come after the async keyword, e.g. instead of `<T> async () => {}`, use `async <T>() => {}`.\",\n  UnsupportedDeclareExportKind: ({\n    unsupportedExportKind,\n    suggestion,\n  }: {\n    unsupportedExportKind: string;\n    suggestion: string;\n  }) =>\n    `\\`declare export ${unsupportedExportKind}\\` is not supported. Use \\`${suggestion}\\` instead.`,\n  UnsupportedStatementInDeclareModule:\n    \"Only declares and type imports are allowed inside declare module.\",\n  UnterminatedFlowComment: \"Unterminated flow-comment.\",\n});\n/* eslint-disable sort-keys */\n\nfunction isEsModuleType(bodyElement: N.Node): boolean {\n  return (\n    bodyElement.type === \"DeclareExportAllDeclaration\" ||\n    (bodyElement.type === \"DeclareExportDeclaration\" &&\n      (!bodyElement.declaration ||\n        (bodyElement.declaration.type !== \"TypeAlias\" &&\n          bodyElement.declaration.type !== \"InterfaceDeclaration\")))\n  );\n}\n\nfunction hasTypeImportKind(\n  node: Undone<N.ImportSpecifier | N.ImportDeclaration>,\n): boolean {\n  return node.importKind === \"type\" || node.importKind === \"typeof\";\n}\n\nconst exportSuggestions = {\n  const: \"declare export var\",\n  let: \"declare export var\",\n  type: \"export type\",\n  interface: \"export interface\",\n};\n\n// Like Array#filter, but returns a tuple [ acceptedElements, discardedElements ]\nfunction partition<T>(\n  list: T[],\n  test: (c: T, b: number, a: T[]) => boolean | undefined | null,\n): [T[], T[]] {\n  const list1: T[] = [];\n  const list2: T[] = [];\n  for (let i = 0; i < list.length; i++) {\n    (test(list[i], i, list) ? list1 : list2).push(list[i]);\n  }\n  return [list1, list2];\n}\n\nconst FLOW_PRAGMA_REGEX = /\\*?\\s*@((?:no)?flow)\\b/;\n\n// Flow enums types\ntype EnumExplicitType = null | \"boolean\" | \"number\" | \"string\" | \"symbol\";\n\ntype EnumContext = {\n  enumName: string;\n  explicitType: EnumExplicitType;\n  memberName: string;\n};\n\ntype EnumMemberInit =\n  | {\n      type: \"number\";\n      loc: Position;\n      value: N.Node;\n    }\n  | {\n      type: \"string\";\n      loc: Position;\n      value: N.Node;\n    }\n  | {\n      type: \"boolean\";\n      loc: Position;\n      value: N.Node;\n    }\n  | {\n      type: \"invalid\";\n      loc: Position;\n    }\n  | {\n      type: \"none\";\n      loc: Position;\n    };\n\nexport default (superClass: typeof Parser) =>\n  class FlowParserMixin extends superClass implements Parser {\n    // The value of the @flow/@noflow pragma. Initially undefined, transitions\n    // to \"@flow\" or \"@noflow\" if we see a pragma. Transitions to null if we are\n    // past the initial comment.\n    flowPragma: void | null | \"flow\" | \"noflow\" = undefined;\n\n    getScopeHandler(): new (...args: any) => FlowScopeHandler {\n      return FlowScopeHandler;\n    }\n\n    shouldParseTypes(): boolean {\n      return this.getPluginOption(\"flow\", \"all\") || this.flowPragma === \"flow\";\n    }\n\n    finishToken(type: TokenType, val: any): void {\n      if (\n        type !== tt.string &&\n        type !== tt.semi &&\n        type !== tt.interpreterDirective\n      ) {\n        if (this.flowPragma === undefined) {\n          this.flowPragma = null;\n        }\n      }\n      super.finishToken(type, val);\n    }\n\n    addComment(comment: N.Comment): void {\n      if (this.flowPragma === undefined) {\n        // Try to parse a flow pragma.\n        const matches = FLOW_PRAGMA_REGEX.exec(comment.value);\n        if (!matches) {\n          // do nothing\n        } else if (matches[1] === \"flow\") {\n          this.flowPragma = \"flow\";\n        } else if (matches[1] === \"noflow\") {\n          this.flowPragma = \"noflow\";\n        } else {\n          throw new Error(\"Unexpected flow pragma\");\n        }\n      }\n      super.addComment(comment);\n    }\n\n    flowParseTypeInitialiser(tok?: TokenType): N.FlowType {\n      const oldInType = this.state.inType;\n      this.state.inType = true;\n      this.expect(tok || tt.colon);\n\n      const type = this.flowParseType();\n      this.state.inType = oldInType;\n      return type;\n    }\n\n    flowParsePredicate(): N.FlowPredicate {\n      const node = this.startNode<N.FlowPredicate>();\n      const moduloLoc = this.state.startLoc;\n      this.next(); // eat `%`\n      this.expectContextual(tt._checks);\n      // Force '%' and 'checks' to be adjacent\n      if (this.state.lastTokStartLoc.index > moduloLoc.index + 1) {\n        this.raise(FlowErrors.UnexpectedSpaceBetweenModuloChecks, moduloLoc);\n      }\n      if (this.eat(tt.parenL)) {\n        node.value = super.parseExpression();\n        this.expect(tt.parenR);\n        return this.finishNode(node, \"DeclaredPredicate\");\n      } else {\n        return this.finishNode(node, \"InferredPredicate\");\n      }\n    }\n\n    flowParseTypeAndPredicateInitialiser(): [\n      N.FlowType | undefined | null,\n      N.FlowPredicate | undefined | null,\n    ] {\n      const oldInType = this.state.inType;\n      this.state.inType = true;\n      this.expect(tt.colon);\n      let type = null;\n      let predicate = null;\n      if (this.match(tt.modulo)) {\n        this.state.inType = oldInType;\n        predicate = this.flowParsePredicate();\n      } else {\n        type = this.flowParseType();\n        this.state.inType = oldInType;\n        if (this.match(tt.modulo)) {\n          predicate = this.flowParsePredicate();\n        }\n      }\n      return [type, predicate];\n    }\n\n    flowParseDeclareClass(\n      node: Undone<N.FlowDeclareClass>,\n    ): N.FlowDeclareClass {\n      this.next();\n      this.flowParseInterfaceish(node, /*isClass*/ true);\n      return this.finishNode(node, \"DeclareClass\");\n    }\n\n    flowParseDeclareFunction(\n      node: Undone<N.FlowDeclareFunction>,\n    ): N.FlowDeclareFunction {\n      this.next();\n\n      const id = (node.id = this.parseIdentifier());\n\n      const typeNode = this.startNode<N.FlowFunctionTypeAnnotation>();\n      const typeContainer = this.startNode<N.TypeAnnotation>();\n\n      if (this.match(tt.lt)) {\n        typeNode.typeParameters = this.flowParseTypeParameterDeclaration();\n      } else {\n        typeNode.typeParameters = null;\n      }\n\n      this.expect(tt.parenL);\n      const tmp = this.flowParseFunctionTypeParams();\n      typeNode.params = tmp.params;\n      typeNode.rest = tmp.rest;\n      typeNode.this = tmp._this;\n      this.expect(tt.parenR);\n\n      [typeNode.returnType, node.predicate] =\n        this.flowParseTypeAndPredicateInitialiser();\n\n      typeContainer.typeAnnotation = this.finishNode(\n        typeNode,\n        \"FunctionTypeAnnotation\",\n      );\n\n      id.typeAnnotation = this.finishNode(typeContainer, \"TypeAnnotation\");\n\n      this.resetEndLocation(id);\n      this.semicolon();\n\n      this.scope.declareName(\n        node.id.name,\n        BindingFlag.TYPE_FLOW_DECLARE_FN,\n        node.id.loc.start,\n      );\n\n      return this.finishNode(node, \"DeclareFunction\");\n    }\n\n    flowParseDeclare(\n      node: Undone<N.FlowDeclare>,\n      insideModule?: boolean,\n    ): N.FlowDeclare {\n      if (this.match(tt._class)) {\n        return this.flowParseDeclareClass(node);\n      } else if (this.match(tt._function)) {\n        return this.flowParseDeclareFunction(node);\n      } else if (this.match(tt._var)) {\n        return this.flowParseDeclareVariable(node);\n      } else if (this.eatContextual(tt._module)) {\n        if (this.match(tt.dot)) {\n          return this.flowParseDeclareModuleExports(node);\n        } else {\n          if (insideModule) {\n            this.raise(\n              FlowErrors.NestedDeclareModule,\n              this.state.lastTokStartLoc,\n            );\n          }\n          return this.flowParseDeclareModule(node);\n        }\n      } else if (this.isContextual(tt._type)) {\n        return this.flowParseDeclareTypeAlias(node);\n      } else if (this.isContextual(tt._opaque)) {\n        return this.flowParseDeclareOpaqueType(node);\n      } else if (this.isContextual(tt._interface)) {\n        return this.flowParseDeclareInterface(node);\n      } else if (this.match(tt._export)) {\n        return this.flowParseDeclareExportDeclaration(node, insideModule);\n      } else {\n        this.unexpected();\n      }\n    }\n\n    flowParseDeclareVariable(\n      node: Undone<N.FlowDeclareVariable>,\n    ): N.FlowDeclareVariable {\n      this.next();\n      node.id = this.flowParseTypeAnnotatableIdentifier(\n        /*allowPrimitiveOverride*/ true,\n      );\n      this.scope.declareName(\n        node.id.name,\n        BindingFlag.TYPE_VAR,\n        node.id.loc.start,\n      );\n      this.semicolon();\n      return this.finishNode(node, \"DeclareVariable\");\n    }\n\n    flowParseDeclareModule(\n      node: Undone<N.FlowDeclareModule>,\n    ): N.FlowDeclareModule {\n      this.scope.enter(ScopeFlag.OTHER);\n\n      if (this.match(tt.string)) {\n        node.id = super.parseExprAtom();\n      } else {\n        node.id = this.parseIdentifier();\n      }\n\n      const bodyNode = (node.body = this.startNode<N.BlockStatement>());\n      // @ts-expect-error refine typings\n      const body = (bodyNode.body = []);\n      this.expect(tt.braceL);\n      while (!this.match(tt.braceR)) {\n        let bodyNode = this.startNode<N.ImportDeclaration>();\n\n        if (this.match(tt._import)) {\n          this.next();\n          if (!this.isContextual(tt._type) && !this.match(tt._typeof)) {\n            this.raise(\n              FlowErrors.InvalidNonTypeImportInDeclareModule,\n              this.state.lastTokStartLoc,\n            );\n          }\n          super.parseImport(bodyNode);\n        } else {\n          this.expectContextual(\n            tt._declare,\n            FlowErrors.UnsupportedStatementInDeclareModule,\n          );\n          // @ts-expect-error refine typings\n          bodyNode = this.flowParseDeclare(bodyNode, true);\n        }\n\n        body.push(bodyNode);\n      }\n\n      this.scope.exit();\n\n      this.expect(tt.braceR);\n\n      this.finishNode(bodyNode, \"BlockStatement\");\n\n      let kind: \"CommonJS\" | \"ES\" | null = null;\n      let hasModuleExport = false;\n      body.forEach(bodyElement => {\n        if (isEsModuleType(bodyElement)) {\n          if (kind === \"CommonJS\") {\n            this.raise(FlowErrors.AmbiguousDeclareModuleKind, bodyElement);\n          }\n          kind = \"ES\";\n        } else if (bodyElement.type === \"DeclareModuleExports\") {\n          if (hasModuleExport) {\n            this.raise(FlowErrors.DuplicateDeclareModuleExports, bodyElement);\n          }\n          if (kind === \"ES\") {\n            this.raise(FlowErrors.AmbiguousDeclareModuleKind, bodyElement);\n          }\n          kind = \"CommonJS\";\n          hasModuleExport = true;\n        }\n      });\n\n      node.kind = kind || \"CommonJS\";\n      return this.finishNode(node, \"DeclareModule\");\n    }\n\n    flowParseDeclareExportDeclaration(\n      node: Undone<N.FlowDeclareExportDeclaration>,\n      insideModule?: boolean | null,\n    ): N.FlowDeclareExportDeclaration {\n      this.expect(tt._export);\n\n      if (this.eat(tt._default)) {\n        if (this.match(tt._function) || this.match(tt._class)) {\n          // declare export default class ...\n          // declare export default function ...\n          node.declaration = this.flowParseDeclare(this.startNode());\n        } else {\n          // declare export default [type];\n          node.declaration = this.flowParseType();\n          this.semicolon();\n        }\n        node.default = true;\n\n        return this.finishNode(node, \"DeclareExportDeclaration\");\n      } else {\n        if (\n          this.match(tt._const) ||\n          this.isLet() ||\n          ((this.isContextual(tt._type) || this.isContextual(tt._interface)) &&\n            !insideModule)\n        ) {\n          const label = this.state.value as\n            | \"const\"\n            | \"let\"\n            | \"type\"\n            | \"interface\";\n          throw this.raise(\n            FlowErrors.UnsupportedDeclareExportKind,\n            this.state.startLoc,\n            {\n              unsupportedExportKind: label,\n              suggestion: exportSuggestions[label],\n            },\n          );\n        }\n\n        if (\n          this.match(tt._var) || // declare export var ...\n          this.match(tt._function) || // declare export function ...\n          this.match(tt._class) || // declare export class ...\n          this.isContextual(tt._opaque) // declare export opaque ..\n        ) {\n          node.declaration = this.flowParseDeclare(this.startNode());\n          node.default = false;\n\n          return this.finishNode(node, \"DeclareExportDeclaration\");\n        } else if (\n          this.match(tt.star) || // declare export * from ''\n          this.match(tt.braceL) || // declare export {} ...\n          this.isContextual(tt._interface) || // declare export interface ...\n          this.isContextual(tt._type) || // declare export type ...\n          this.isContextual(tt._opaque) // declare export opaque type ...\n        ) {\n          node = this.parseExport(\n            node as Undone<N.ExportNamedDeclaration | N.ExportAllDeclaration>,\n            /* decorators */ null,\n          );\n          if (node.type === \"ExportNamedDeclaration\") {\n            node.type = \"ExportDeclaration\";\n            node.default = false;\n            delete node.exportKind;\n          }\n\n          node.type = \"Declare\" + node.type;\n\n          return node as N.FlowDeclareExportDeclaration;\n        }\n      }\n\n      this.unexpected();\n    }\n\n    flowParseDeclareModuleExports(\n      node: Undone<N.FlowDeclareModuleExports>,\n    ): N.FlowDeclareModuleExports {\n      this.next();\n      this.expectContextual(tt._exports);\n      node.typeAnnotation = this.flowParseTypeAnnotation();\n      this.semicolon();\n\n      return this.finishNode(node, \"DeclareModuleExports\");\n    }\n\n    flowParseDeclareTypeAlias(\n      node: Undone<N.FlowDeclareTypeAlias>,\n    ): N.FlowDeclareTypeAlias {\n      this.next();\n      const finished = this.flowParseTypeAlias(\n        node,\n      ) as unknown as N.FlowDeclareTypeAlias;\n      // Don't do finishNode as we don't want to process comments twice\n      finished.type = \"DeclareTypeAlias\";\n      return finished;\n    }\n\n    flowParseDeclareOpaqueType(\n      node: Undone<N.FlowDeclareOpaqueType>,\n    ): N.FlowDeclareOpaqueType {\n      this.next();\n      const finished = this.flowParseOpaqueType(\n        node,\n        true,\n      ) as unknown as N.FlowDeclareOpaqueType;\n      // Don't do finishNode as we don't want to process comments twice\n      finished.type = \"DeclareOpaqueType\";\n      return finished;\n    }\n\n    flowParseDeclareInterface(\n      node: Undone<N.FlowDeclareInterface>,\n    ): N.FlowDeclareInterface {\n      this.next();\n      this.flowParseInterfaceish(node, /* isClass */ false);\n      return this.finishNode(node, \"DeclareInterface\");\n    }\n\n    // Interfaces\n\n    flowParseInterfaceish(node: Undone<N.FlowDeclare>, isClass: boolean): void {\n      node.id = this.flowParseRestrictedIdentifier(\n        /* liberal */ !isClass,\n        /* declaration */ true,\n      );\n\n      this.scope.declareName(\n        node.id.name,\n        isClass ? BindingFlag.TYPE_FUNCTION : BindingFlag.TYPE_LEXICAL,\n        node.id.loc.start,\n      );\n\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterDeclaration();\n      } else {\n        node.typeParameters = null;\n      }\n\n      node.extends = [];\n\n      if (this.eat(tt._extends)) {\n        do {\n          node.extends.push(this.flowParseInterfaceExtends());\n        } while (!isClass && this.eat(tt.comma));\n      }\n\n      if (isClass) {\n        node.implements = [];\n        node.mixins = [];\n\n        if (this.eatContextual(tt._mixins)) {\n          do {\n            node.mixins.push(this.flowParseInterfaceExtends());\n          } while (this.eat(tt.comma));\n        }\n\n        if (this.eatContextual(tt._implements)) {\n          do {\n            node.implements.push(this.flowParseInterfaceExtends());\n          } while (this.eat(tt.comma));\n        }\n      }\n\n      node.body = this.flowParseObjectType({\n        allowStatic: isClass,\n        allowExact: false,\n        allowSpread: false,\n        allowProto: isClass,\n        allowInexact: false,\n      });\n    }\n\n    flowParseInterfaceExtends(): N.FlowInterfaceExtends {\n      const node = this.startNode<N.FlowInterfaceExtends>();\n\n      node.id = this.flowParseQualifiedTypeIdentifier();\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterInstantiation();\n      } else {\n        node.typeParameters = null;\n      }\n\n      return this.finishNode(node, \"InterfaceExtends\");\n    }\n\n    flowParseInterface(node: Undone<N.FlowInterface>): N.FlowInterface {\n      this.flowParseInterfaceish(node, /* isClass */ false);\n      return this.finishNode(node, \"InterfaceDeclaration\");\n    }\n\n    checkNotUnderscore(word: string) {\n      if (word === \"_\") {\n        this.raise(\n          FlowErrors.UnexpectedReservedUnderscore,\n          this.state.startLoc,\n        );\n      }\n    }\n\n    checkReservedType(word: string, startLoc: Position, declaration?: boolean) {\n      if (!reservedTypes.has(word)) return;\n\n      this.raise(\n        declaration\n          ? FlowErrors.AssignReservedType\n          : FlowErrors.UnexpectedReservedType,\n        startLoc,\n        {\n          reservedType: word,\n        },\n      );\n    }\n\n    flowParseRestrictedIdentifier(\n      liberal?: boolean,\n      declaration?: boolean,\n    ): N.Identifier {\n      this.checkReservedType(\n        this.state.value,\n        this.state.startLoc,\n        declaration,\n      );\n      return this.parseIdentifier(liberal);\n    }\n\n    // Type aliases\n\n    flowParseTypeAlias(node: Undone<N.FlowTypeAlias>): N.FlowTypeAlias {\n      node.id = this.flowParseRestrictedIdentifier(\n        /* liberal */ false,\n        /* declaration */ true,\n      );\n      this.scope.declareName(\n        node.id.name,\n        BindingFlag.TYPE_LEXICAL,\n        node.id.loc.start,\n      );\n\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterDeclaration();\n      } else {\n        node.typeParameters = null;\n      }\n\n      node.right = this.flowParseTypeInitialiser(tt.eq);\n      this.semicolon();\n\n      return this.finishNode(node, \"TypeAlias\");\n    }\n\n    flowParseOpaqueType(\n      node: Undone<N.FlowOpaqueType>,\n      declare: boolean,\n    ): N.FlowOpaqueType {\n      this.expectContextual(tt._type);\n      node.id = this.flowParseRestrictedIdentifier(\n        /* liberal */ true,\n        /* declaration */ true,\n      );\n      this.scope.declareName(\n        node.id.name,\n        BindingFlag.TYPE_LEXICAL,\n        node.id.loc.start,\n      );\n\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterDeclaration();\n      } else {\n        node.typeParameters = null;\n      }\n\n      // Parse the supertype\n      node.supertype = null;\n      if (this.match(tt.colon)) {\n        node.supertype = this.flowParseTypeInitialiser(tt.colon);\n      }\n\n      node.impltype = null;\n      if (!declare) {\n        node.impltype = this.flowParseTypeInitialiser(tt.eq);\n      }\n      this.semicolon();\n\n      return this.finishNode(node, \"OpaqueType\");\n    }\n\n    // Type annotations\n\n    flowParseTypeParameter(requireDefault: boolean = false): N.TypeParameter {\n      const nodeStartLoc = this.state.startLoc;\n\n      const node = this.startNode<N.TypeParameter>();\n\n      const variance = this.flowParseVariance();\n\n      const ident = this.flowParseTypeAnnotatableIdentifier();\n      node.name = ident.name;\n      // @ts-expect-error migrate to Babel types\n      node.variance = variance;\n      // @ts-expect-error migrate to Babel types\n      node.bound = ident.typeAnnotation;\n\n      if (this.match(tt.eq)) {\n        this.eat(tt.eq);\n        // @ts-expect-error migrate to Babel types\n        node.default = this.flowParseType();\n      } else {\n        if (requireDefault) {\n          this.raise(FlowErrors.MissingTypeParamDefault, nodeStartLoc);\n        }\n      }\n\n      return this.finishNode(node, \"TypeParameter\");\n    }\n\n    flowParseTypeParameterDeclaration(): N.TypeParameterDeclaration {\n      const oldInType = this.state.inType;\n      const node = this.startNode<N.TypeParameterDeclaration>();\n      node.params = [];\n\n      this.state.inType = true;\n\n      // istanbul ignore else: this condition is already checked at all call sites\n      if (this.match(tt.lt) || this.match(tt.jsxTagStart)) {\n        this.next();\n      } else {\n        this.unexpected();\n      }\n\n      let defaultRequired = false;\n\n      do {\n        const typeParameter = this.flowParseTypeParameter(defaultRequired);\n\n        node.params.push(typeParameter);\n\n        if (typeParameter.default) {\n          defaultRequired = true;\n        }\n\n        if (!this.match(tt.gt)) {\n          this.expect(tt.comma);\n        }\n      } while (!this.match(tt.gt));\n      this.expect(tt.gt);\n\n      this.state.inType = oldInType;\n\n      return this.finishNode(node, \"TypeParameterDeclaration\");\n    }\n\n    flowParseTypeParameterInstantiation(): N.TypeParameterInstantiation {\n      const node = this.startNode<N.TypeParameterInstantiation>();\n      const oldInType = this.state.inType;\n      node.params = [];\n\n      this.state.inType = true;\n\n      this.expect(tt.lt);\n      const oldNoAnonFunctionType = this.state.noAnonFunctionType;\n      this.state.noAnonFunctionType = false;\n      while (!this.match(tt.gt)) {\n        node.params.push(this.flowParseType());\n        if (!this.match(tt.gt)) {\n          this.expect(tt.comma);\n        }\n      }\n      this.state.noAnonFunctionType = oldNoAnonFunctionType;\n      this.expect(tt.gt);\n\n      this.state.inType = oldInType;\n\n      return this.finishNode(node, \"TypeParameterInstantiation\");\n    }\n\n    flowParseTypeParameterInstantiationCallOrNew(): N.TypeParameterInstantiation {\n      const node = this.startNode<N.TypeParameterInstantiation>();\n      const oldInType = this.state.inType;\n      node.params = [];\n\n      this.state.inType = true;\n\n      this.expect(tt.lt);\n      while (!this.match(tt.gt)) {\n        node.params.push(this.flowParseTypeOrImplicitInstantiation());\n        if (!this.match(tt.gt)) {\n          this.expect(tt.comma);\n        }\n      }\n      this.expect(tt.gt);\n\n      this.state.inType = oldInType;\n\n      return this.finishNode(node, \"TypeParameterInstantiation\");\n    }\n\n    flowParseInterfaceType(): N.FlowInterfaceType {\n      const node = this.startNode<N.FlowInterfaceType>();\n      this.expectContextual(tt._interface);\n\n      node.extends = [];\n      if (this.eat(tt._extends)) {\n        do {\n          node.extends.push(this.flowParseInterfaceExtends());\n        } while (this.eat(tt.comma));\n      }\n\n      node.body = this.flowParseObjectType({\n        allowStatic: false,\n        allowExact: false,\n        allowSpread: false,\n        allowProto: false,\n        allowInexact: false,\n      });\n\n      return this.finishNode(node, \"InterfaceTypeAnnotation\");\n    }\n\n    flowParseObjectPropertyKey(): N.Expression {\n      return this.match(tt.num) || this.match(tt.string)\n        ? super.parseExprAtom()\n        : this.parseIdentifier(true);\n    }\n\n    flowParseObjectTypeIndexer(\n      node: Undone<N.FlowObjectTypeIndexer>,\n      isStatic: boolean,\n      variance?: N.FlowVariance | null,\n    ): N.FlowObjectTypeIndexer {\n      node.static = isStatic;\n\n      // Note: bracketL has already been consumed\n      if (this.lookahead().type === tt.colon) {\n        node.id = this.flowParseObjectPropertyKey();\n        node.key = this.flowParseTypeInitialiser();\n      } else {\n        node.id = null;\n        node.key = this.flowParseType();\n      }\n      this.expect(tt.bracketR);\n      node.value = this.flowParseTypeInitialiser();\n      node.variance = variance;\n\n      return this.finishNode(node, \"ObjectTypeIndexer\");\n    }\n\n    flowParseObjectTypeInternalSlot(\n      node: Undone<N.FlowObjectTypeInternalSlot>,\n      isStatic: boolean,\n    ): N.FlowObjectTypeInternalSlot {\n      node.static = isStatic;\n      // Note: both bracketL have already been consumed\n      node.id = this.flowParseObjectPropertyKey();\n      this.expect(tt.bracketR);\n      this.expect(tt.bracketR);\n      if (this.match(tt.lt) || this.match(tt.parenL)) {\n        node.method = true;\n        node.optional = false;\n        node.value = this.flowParseObjectTypeMethodish(\n          this.startNodeAt(node.loc.start),\n        );\n      } else {\n        node.method = false;\n        if (this.eat(tt.question)) {\n          node.optional = true;\n        }\n        node.value = this.flowParseTypeInitialiser();\n      }\n      return this.finishNode(node, \"ObjectTypeInternalSlot\");\n    }\n\n    flowParseObjectTypeMethodish(\n      node: Undone<N.FlowFunctionTypeAnnotation>,\n    ): N.FlowFunctionTypeAnnotation {\n      node.params = [];\n      node.rest = null;\n      node.typeParameters = null;\n      node.this = null;\n\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterDeclaration();\n      }\n\n      this.expect(tt.parenL);\n      if (this.match(tt._this)) {\n        node.this = this.flowParseFunctionTypeParam(/* first */ true);\n        // match Flow parser behavior\n        node.this.name = null;\n        if (!this.match(tt.parenR)) {\n          this.expect(tt.comma);\n        }\n      }\n      while (!this.match(tt.parenR) && !this.match(tt.ellipsis)) {\n        node.params.push(this.flowParseFunctionTypeParam(false));\n        if (!this.match(tt.parenR)) {\n          this.expect(tt.comma);\n        }\n      }\n\n      if (this.eat(tt.ellipsis)) {\n        node.rest = this.flowParseFunctionTypeParam(false);\n      }\n      this.expect(tt.parenR);\n      node.returnType = this.flowParseTypeInitialiser();\n\n      return this.finishNode(node, \"FunctionTypeAnnotation\");\n    }\n\n    flowParseObjectTypeCallProperty(\n      node: Undone<N.FlowObjectTypeCallProperty>,\n      isStatic: boolean,\n    ): N.FlowObjectTypeCallProperty {\n      const valueNode = this.startNode();\n      node.static = isStatic;\n      node.value = this.flowParseObjectTypeMethodish(valueNode);\n      return this.finishNode(node, \"ObjectTypeCallProperty\");\n    }\n\n    flowParseObjectType({\n      allowStatic,\n      allowExact,\n      allowSpread,\n      allowProto,\n      allowInexact,\n    }: {\n      allowStatic: boolean;\n      allowExact: boolean;\n      allowSpread: boolean;\n      allowProto: boolean;\n      allowInexact: boolean;\n    }): N.FlowObjectTypeAnnotation {\n      const oldInType = this.state.inType;\n      this.state.inType = true;\n\n      const nodeStart = this.startNode<N.FlowObjectTypeAnnotation>();\n\n      nodeStart.callProperties = [];\n      nodeStart.properties = [];\n      nodeStart.indexers = [];\n      nodeStart.internalSlots = [];\n\n      let endDelim;\n      let exact;\n      let inexact = false;\n      if (allowExact && this.match(tt.braceBarL)) {\n        this.expect(tt.braceBarL);\n        endDelim = tt.braceBarR;\n        exact = true;\n      } else {\n        this.expect(tt.braceL);\n        endDelim = tt.braceR;\n        exact = false;\n      }\n\n      nodeStart.exact = exact;\n\n      while (!this.match(endDelim)) {\n        let isStatic = false;\n        let protoStartLoc: Position | undefined | null = null;\n        let inexactStartLoc: Position | undefined | null = null;\n        const node = this.startNode();\n\n        if (allowProto && this.isContextual(tt._proto)) {\n          const lookahead = this.lookahead();\n\n          if (lookahead.type !== tt.colon && lookahead.type !== tt.question) {\n            this.next();\n            protoStartLoc = this.state.startLoc;\n            allowStatic = false;\n          }\n        }\n\n        if (allowStatic && this.isContextual(tt._static)) {\n          const lookahead = this.lookahead();\n\n          // static is a valid identifier name\n          if (lookahead.type !== tt.colon && lookahead.type !== tt.question) {\n            this.next();\n            isStatic = true;\n          }\n        }\n\n        const variance = this.flowParseVariance();\n\n        if (this.eat(tt.bracketL)) {\n          if (protoStartLoc != null) {\n            this.unexpected(protoStartLoc);\n          }\n          if (this.eat(tt.bracketL)) {\n            if (variance) {\n              this.unexpected(variance.loc.start);\n            }\n            nodeStart.internalSlots.push(\n              this.flowParseObjectTypeInternalSlot(node, isStatic),\n            );\n          } else {\n            nodeStart.indexers.push(\n              this.flowParseObjectTypeIndexer(node, isStatic, variance),\n            );\n          }\n        } else if (this.match(tt.parenL) || this.match(tt.lt)) {\n          if (protoStartLoc != null) {\n            this.unexpected(protoStartLoc);\n          }\n          if (variance) {\n            this.unexpected(variance.loc.start);\n          }\n          nodeStart.callProperties.push(\n            this.flowParseObjectTypeCallProperty(node, isStatic),\n          );\n        } else {\n          let kind = \"init\";\n\n          if (this.isContextual(tt._get) || this.isContextual(tt._set)) {\n            const lookahead = this.lookahead();\n            if (tokenIsLiteralPropertyName(lookahead.type)) {\n              kind = this.state.value;\n              this.next();\n            }\n          }\n\n          const propOrInexact = this.flowParseObjectTypeProperty(\n            node,\n            isStatic,\n            protoStartLoc,\n            variance,\n            kind,\n            allowSpread,\n            allowInexact ?? !exact,\n          );\n\n          if (propOrInexact === null) {\n            inexact = true;\n            inexactStartLoc = this.state.lastTokStartLoc;\n          } else {\n            nodeStart.properties.push(propOrInexact);\n          }\n        }\n\n        this.flowObjectTypeSemicolon();\n\n        if (\n          inexactStartLoc &&\n          !this.match(tt.braceR) &&\n          !this.match(tt.braceBarR)\n        ) {\n          this.raise(\n            FlowErrors.UnexpectedExplicitInexactInObject,\n            inexactStartLoc,\n          );\n        }\n      }\n\n      this.expect(endDelim);\n\n      /* The inexact flag should only be added on ObjectTypeAnnotations that\n       * are not the body of an interface, declare interface, or declare class.\n       * Since spreads are only allowed in object types, checking that is\n       * sufficient here.\n       */\n      if (allowSpread) {\n        nodeStart.inexact = inexact;\n      }\n\n      const out = this.finishNode(nodeStart, \"ObjectTypeAnnotation\");\n\n      this.state.inType = oldInType;\n\n      return out;\n    }\n\n    flowParseObjectTypeProperty(\n      node: Undone<N.FlowObjectTypeProperty | N.FlowObjectTypeSpreadProperty>,\n      isStatic: boolean,\n      protoStartLoc: Position | undefined | null,\n      variance: N.FlowVariance | undefined | null,\n      kind: string,\n      allowSpread: boolean,\n      allowInexact: boolean,\n    ): N.FlowObjectTypeProperty | N.FlowObjectTypeSpreadProperty | null {\n      if (this.eat(tt.ellipsis)) {\n        const isInexactToken =\n          this.match(tt.comma) ||\n          this.match(tt.semi) ||\n          this.match(tt.braceR) ||\n          this.match(tt.braceBarR);\n\n        if (isInexactToken) {\n          if (!allowSpread) {\n            this.raise(\n              FlowErrors.InexactInsideNonObject,\n              this.state.lastTokStartLoc,\n            );\n          } else if (!allowInexact) {\n            this.raise(\n              FlowErrors.InexactInsideExact,\n              this.state.lastTokStartLoc,\n            );\n          }\n          if (variance) {\n            this.raise(FlowErrors.InexactVariance, variance);\n          }\n\n          return null;\n        }\n\n        if (!allowSpread) {\n          this.raise(\n            FlowErrors.UnexpectedSpreadType,\n            this.state.lastTokStartLoc,\n          );\n        }\n        if (protoStartLoc != null) {\n          this.unexpected(protoStartLoc);\n        }\n        if (variance) {\n          this.raise(FlowErrors.SpreadVariance, variance);\n        }\n\n        node.argument = this.flowParseType();\n        return this.finishNode(node, \"ObjectTypeSpreadProperty\");\n      } else {\n        node.key = this.flowParseObjectPropertyKey();\n        node.static = isStatic;\n        node.proto = protoStartLoc != null;\n        node.kind = kind;\n\n        let optional = false;\n        if (this.match(tt.lt) || this.match(tt.parenL)) {\n          // This is a method property\n          node.method = true;\n\n          if (protoStartLoc != null) {\n            this.unexpected(protoStartLoc);\n          }\n          if (variance) {\n            this.unexpected(variance.loc.start);\n          }\n\n          node.value = this.flowParseObjectTypeMethodish(\n            this.startNodeAt(node.loc.start),\n          );\n          if (kind === \"get\" || kind === \"set\") {\n            this.flowCheckGetterSetterParams(node);\n          }\n          /** Declared classes/interfaces do not allow spread */\n          if (\n            !allowSpread &&\n            node.key.name === \"constructor\" &&\n            node.value.this\n          ) {\n            this.raise(\n              FlowErrors.ThisParamBannedInConstructor,\n              node.value.this,\n            );\n          }\n        } else {\n          if (kind !== \"init\") this.unexpected();\n\n          node.method = false;\n\n          if (this.eat(tt.question)) {\n            optional = true;\n          }\n          node.value = this.flowParseTypeInitialiser();\n          node.variance = variance;\n        }\n\n        node.optional = optional;\n\n        return this.finishNode(node, \"ObjectTypeProperty\");\n      }\n    }\n\n    // This is similar to checkGetterSetterParams, but as\n    // @babel/parser uses non estree properties we cannot reuse it here\n    flowCheckGetterSetterParams(\n      property: Undone<\n        N.FlowObjectTypeProperty | N.FlowObjectTypeSpreadProperty\n      >,\n    ): void {\n      const paramCount = property.kind === \"get\" ? 0 : 1;\n      const length =\n        property.value.params.length + (property.value.rest ? 1 : 0);\n\n      if (property.value.this) {\n        this.raise(\n          property.kind === \"get\"\n            ? FlowErrors.GetterMayNotHaveThisParam\n            : FlowErrors.SetterMayNotHaveThisParam,\n          property.value.this,\n        );\n      }\n\n      if (length !== paramCount) {\n        this.raise(\n          property.kind === \"get\"\n            ? Errors.BadGetterArity\n            : Errors.BadSetterArity,\n          property,\n        );\n      }\n\n      if (property.kind === \"set\" && property.value.rest) {\n        this.raise(Errors.BadSetterRestParameter, property);\n      }\n    }\n\n    flowObjectTypeSemicolon(): void {\n      if (\n        !this.eat(tt.semi) &&\n        !this.eat(tt.comma) &&\n        !this.match(tt.braceR) &&\n        !this.match(tt.braceBarR)\n      ) {\n        this.unexpected();\n      }\n    }\n\n    flowParseQualifiedTypeIdentifier(\n      startLoc?: Position,\n      id?: N.Identifier,\n    ): N.FlowQualifiedTypeIdentifier | N.Identifier {\n      startLoc ??= this.state.startLoc;\n      let node: N.Identifier | N.FlowQualifiedTypeIdentifier =\n        id || this.flowParseRestrictedIdentifier(true);\n\n      while (this.eat(tt.dot)) {\n        const node2 = this.startNodeAt<N.FlowQualifiedTypeIdentifier>(startLoc);\n        node2.qualification = node;\n        node2.id = this.flowParseRestrictedIdentifier(true);\n        node = this.finishNode(node2, \"QualifiedTypeIdentifier\");\n      }\n\n      return node;\n    }\n\n    flowParseGenericType(\n      startLoc: Position,\n      id: N.Identifier,\n    ): N.FlowGenericTypeAnnotation {\n      const node = this.startNodeAt<N.FlowGenericTypeAnnotation>(startLoc);\n\n      node.typeParameters = null;\n      node.id = this.flowParseQualifiedTypeIdentifier(startLoc, id);\n\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterInstantiation();\n      }\n\n      return this.finishNode(node, \"GenericTypeAnnotation\");\n    }\n\n    flowParseTypeofType(): N.FlowTypeofTypeAnnotation {\n      const node = this.startNode<N.FlowTypeofTypeAnnotation>();\n      this.expect(tt._typeof);\n      node.argument = this.flowParsePrimaryType();\n      return this.finishNode(node, \"TypeofTypeAnnotation\");\n    }\n\n    flowParseTupleType(): N.FlowTupleTypeAnnotation {\n      const node = this.startNode<N.FlowTupleTypeAnnotation>();\n      node.types = [];\n      this.expect(tt.bracketL);\n      // We allow trailing commas\n      while (this.state.pos < this.length && !this.match(tt.bracketR)) {\n        node.types.push(this.flowParseType());\n        if (this.match(tt.bracketR)) break;\n        this.expect(tt.comma);\n      }\n      this.expect(tt.bracketR);\n      return this.finishNode(node, \"TupleTypeAnnotation\");\n    }\n\n    flowParseFunctionTypeParam(first: boolean): N.FlowFunctionTypeParam {\n      let name = null;\n      let optional = false;\n      let typeAnnotation = null;\n      const node = this.startNode<N.FlowFunctionTypeParam>();\n      const lh = this.lookahead();\n      const isThis = this.state.type === tt._this;\n\n      if (lh.type === tt.colon || lh.type === tt.question) {\n        if (isThis && !first) {\n          this.raise(FlowErrors.ThisParamMustBeFirst, node);\n        }\n        name = this.parseIdentifier(isThis);\n        if (this.eat(tt.question)) {\n          optional = true;\n          if (isThis) {\n            this.raise(FlowErrors.ThisParamMayNotBeOptional, node);\n          }\n        }\n        typeAnnotation = this.flowParseTypeInitialiser();\n      } else {\n        typeAnnotation = this.flowParseType();\n      }\n      node.name = name;\n      node.optional = optional;\n      node.typeAnnotation = typeAnnotation;\n      return this.finishNode(node, \"FunctionTypeParam\");\n    }\n\n    reinterpretTypeAsFunctionTypeParam(\n      type: N.FlowType,\n    ): N.FlowFunctionTypeParam {\n      const node = this.startNodeAt<N.FlowFunctionTypeParam>(type.loc.start);\n      node.name = null;\n      node.optional = false;\n      node.typeAnnotation = type;\n      return this.finishNode(node, \"FunctionTypeParam\");\n    }\n\n    flowParseFunctionTypeParams(params: N.FlowFunctionTypeParam[] = []): {\n      params: N.FlowFunctionTypeParam[];\n      rest: N.FlowFunctionTypeParam | undefined | null;\n      _this: N.FlowFunctionTypeParam | undefined | null;\n    } {\n      let rest: N.FlowFunctionTypeParam | undefined | null = null;\n      let _this: N.FlowFunctionTypeParam | undefined | null = null;\n      if (this.match(tt._this)) {\n        _this = this.flowParseFunctionTypeParam(/* first */ true);\n        // match Flow parser behavior\n        _this.name = null;\n        if (!this.match(tt.parenR)) {\n          this.expect(tt.comma);\n        }\n      }\n      while (!this.match(tt.parenR) && !this.match(tt.ellipsis)) {\n        params.push(this.flowParseFunctionTypeParam(false));\n        if (!this.match(tt.parenR)) {\n          this.expect(tt.comma);\n        }\n      }\n      if (this.eat(tt.ellipsis)) {\n        rest = this.flowParseFunctionTypeParam(false);\n      }\n      return { params, rest, _this };\n    }\n\n    flowIdentToTypeAnnotation(\n      startLoc: Position,\n      node: Undone<N.FlowType>,\n      id: N.Identifier,\n    ): N.FlowType {\n      switch (id.name) {\n        case \"any\":\n          return this.finishNode(node, \"AnyTypeAnnotation\");\n\n        case \"bool\":\n        case \"boolean\":\n          return this.finishNode(node, \"BooleanTypeAnnotation\");\n\n        case \"mixed\":\n          return this.finishNode(node, \"MixedTypeAnnotation\");\n\n        case \"empty\":\n          return this.finishNode(node, \"EmptyTypeAnnotation\");\n\n        case \"number\":\n          return this.finishNode(node, \"NumberTypeAnnotation\");\n\n        case \"string\":\n          return this.finishNode(node, \"StringTypeAnnotation\");\n\n        case \"symbol\":\n          return this.finishNode(node, \"SymbolTypeAnnotation\");\n\n        default:\n          this.checkNotUnderscore(id.name);\n          return this.flowParseGenericType(startLoc, id);\n      }\n    }\n\n    // The parsing of types roughly parallels the parsing of expressions, and\n    // primary types are kind of like primary expressions...they're the\n    // primitives with which other types are constructed.\n    flowParsePrimaryType(): N.FlowType {\n      const startLoc = this.state.startLoc;\n      const node = this.startNode<N.FlowOtherTypeAnnotation>();\n      let tmp;\n      let type;\n      let isGroupedType = false;\n      const oldNoAnonFunctionType = this.state.noAnonFunctionType;\n\n      switch (this.state.type) {\n        case tt.braceL:\n          return this.flowParseObjectType({\n            allowStatic: false,\n            allowExact: false,\n            allowSpread: true,\n            allowProto: false,\n            allowInexact: true,\n          });\n\n        case tt.braceBarL:\n          return this.flowParseObjectType({\n            allowStatic: false,\n            allowExact: true,\n            allowSpread: true,\n            allowProto: false,\n            allowInexact: false,\n          });\n\n        case tt.bracketL:\n          this.state.noAnonFunctionType = false;\n          type = this.flowParseTupleType();\n          this.state.noAnonFunctionType = oldNoAnonFunctionType;\n          return type;\n\n        case tt.lt: {\n          const node = this.startNode<N.FlowFunctionTypeAnnotation>();\n          node.typeParameters = this.flowParseTypeParameterDeclaration();\n          this.expect(tt.parenL);\n          tmp = this.flowParseFunctionTypeParams();\n          node.params = tmp.params;\n          node.rest = tmp.rest;\n          node.this = tmp._this;\n          this.expect(tt.parenR);\n\n          this.expect(tt.arrow);\n\n          node.returnType = this.flowParseType();\n\n          return this.finishNode(node, \"FunctionTypeAnnotation\");\n        }\n\n        case tt.parenL: {\n          const node = this.startNode<N.FlowFunctionTypeAnnotation>();\n          this.next();\n\n          // Check to see if this is actually a grouped type\n          if (!this.match(tt.parenR) && !this.match(tt.ellipsis)) {\n            if (tokenIsIdentifier(this.state.type) || this.match(tt._this)) {\n              const token = this.lookahead().type;\n              isGroupedType = token !== tt.question && token !== tt.colon;\n            } else {\n              isGroupedType = true;\n            }\n          }\n\n          if (isGroupedType) {\n            this.state.noAnonFunctionType = false;\n            type = this.flowParseType();\n            this.state.noAnonFunctionType = oldNoAnonFunctionType;\n\n            // A `,` or a `) =>` means this is an anonymous function type\n            if (\n              this.state.noAnonFunctionType ||\n              !(\n                this.match(tt.comma) ||\n                (this.match(tt.parenR) && this.lookahead().type === tt.arrow)\n              )\n            ) {\n              this.expect(tt.parenR);\n              return type;\n            } else {\n              // Eat a comma if there is one\n              this.eat(tt.comma);\n            }\n          }\n\n          if (type) {\n            tmp = this.flowParseFunctionTypeParams([\n              this.reinterpretTypeAsFunctionTypeParam(type),\n            ]);\n          } else {\n            tmp = this.flowParseFunctionTypeParams();\n          }\n\n          node.params = tmp.params;\n          node.rest = tmp.rest;\n          node.this = tmp._this;\n\n          this.expect(tt.parenR);\n\n          this.expect(tt.arrow);\n\n          node.returnType = this.flowParseType();\n\n          node.typeParameters = null;\n\n          return this.finishNode(node, \"FunctionTypeAnnotation\");\n        }\n\n        case tt.string:\n          return this.parseLiteral<N.StringLiteralTypeAnnotation>(\n            this.state.value,\n            \"StringLiteralTypeAnnotation\",\n          );\n\n        case tt._true:\n        case tt._false:\n          node.value = this.match(tt._true);\n          this.next();\n          return this.finishNode(\n            node as Undone<N.BooleanLiteralTypeAnnotation>,\n            \"BooleanLiteralTypeAnnotation\",\n          );\n\n        case tt.plusMin:\n          if (this.state.value === \"-\") {\n            this.next();\n            if (this.match(tt.num)) {\n              return this.parseLiteralAtNode<N.NumberLiteralTypeAnnotation>(\n                -this.state.value,\n                \"NumberLiteralTypeAnnotation\",\n                node,\n              );\n            }\n\n            if (this.match(tt.bigint)) {\n              return this.parseLiteralAtNode<N.BigIntLiteralTypeAnnotation>(\n                -this.state.value,\n                \"BigIntLiteralTypeAnnotation\",\n                node,\n              );\n            }\n\n            throw this.raise(\n              FlowErrors.UnexpectedSubtractionOperand,\n              this.state.startLoc,\n            );\n          }\n          this.unexpected();\n          return;\n        case tt.num:\n          return this.parseLiteral(\n            this.state.value,\n            \"NumberLiteralTypeAnnotation\",\n          );\n\n        case tt.bigint:\n          return this.parseLiteral(\n            this.state.value,\n            \"BigIntLiteralTypeAnnotation\",\n          );\n\n        case tt._void:\n          this.next();\n          return this.finishNode(node, \"VoidTypeAnnotation\");\n\n        case tt._null:\n          this.next();\n          return this.finishNode(node, \"NullLiteralTypeAnnotation\");\n\n        case tt._this:\n          this.next();\n          return this.finishNode(node, \"ThisTypeAnnotation\");\n\n        case tt.star:\n          this.next();\n          return this.finishNode(node, \"ExistsTypeAnnotation\");\n\n        case tt._typeof:\n          return this.flowParseTypeofType();\n\n        default:\n          if (tokenIsKeyword(this.state.type)) {\n            const label = tokenLabelName(this.state.type);\n            this.next();\n            return super.createIdentifier(node as Undone<N.Identifier>, label);\n          } else if (tokenIsIdentifier(this.state.type)) {\n            if (this.isContextual(tt._interface)) {\n              return this.flowParseInterfaceType();\n            }\n\n            return this.flowIdentToTypeAnnotation(\n              startLoc,\n              node,\n              this.parseIdentifier(),\n            );\n          }\n      }\n\n      this.unexpected();\n    }\n\n    flowParsePostfixType(): N.FlowType {\n      const startLoc = this.state.startLoc;\n      let type = this.flowParsePrimaryType();\n      let seenOptionalIndexedAccess = false;\n      while (\n        (this.match(tt.bracketL) || this.match(tt.questionDot)) &&\n        !this.canInsertSemicolon()\n      ) {\n        const node = this.startNodeAt<N.FlowOtherTypeAnnotation>(startLoc);\n        const optional = this.eat(tt.questionDot);\n        seenOptionalIndexedAccess = seenOptionalIndexedAccess || optional;\n        this.expect(tt.bracketL);\n        if (!optional && this.match(tt.bracketR)) {\n          node.elementType = type;\n          this.next(); // eat `]`\n          type = this.finishNode(node, \"ArrayTypeAnnotation\");\n        } else {\n          node.objectType = type;\n          node.indexType = this.flowParseType();\n          this.expect(tt.bracketR);\n          if (seenOptionalIndexedAccess) {\n            node.optional = optional;\n            type = this.finishNode<N.FlowOptionalIndexedAccessType>(\n              // @ts-expect-error todo(flow->ts)\n              node,\n              \"OptionalIndexedAccessType\",\n            );\n          } else {\n            type = this.finishNode<N.FlowIndexedAccessType>(\n              // @ts-expect-error todo(flow->ts)\n              node,\n              \"IndexedAccessType\",\n            );\n          }\n        }\n      }\n      return type;\n    }\n\n    flowParsePrefixType(): N.FlowType {\n      const node = this.startNode<N.FlowOtherTypeAnnotation>();\n      if (this.eat(tt.question)) {\n        node.typeAnnotation = this.flowParsePrefixType();\n        return this.finishNode(node, \"NullableTypeAnnotation\");\n      } else {\n        return this.flowParsePostfixType();\n      }\n    }\n\n    flowParseAnonFunctionWithoutParens(): N.FlowType {\n      const param = this.flowParsePrefixType();\n      if (!this.state.noAnonFunctionType && this.eat(tt.arrow)) {\n        // TODO: This should be a type error. Passing in a SourceLocation, and it expects a Position.\n        const node = this.startNodeAt<N.FlowFunctionTypeAnnotation>(\n          param.loc.start,\n        );\n        node.params = [this.reinterpretTypeAsFunctionTypeParam(param)];\n        node.rest = null;\n        node.this = null;\n        node.returnType = this.flowParseType();\n        node.typeParameters = null;\n        return this.finishNode(node, \"FunctionTypeAnnotation\");\n      }\n      return param;\n    }\n\n    flowParseIntersectionType(): N.FlowType {\n      const node = this.startNode<N.FlowOtherTypeAnnotation>();\n      this.eat(tt.bitwiseAND);\n      const type = this.flowParseAnonFunctionWithoutParens();\n      node.types = [type];\n      while (this.eat(tt.bitwiseAND)) {\n        node.types.push(this.flowParseAnonFunctionWithoutParens());\n      }\n      return node.types.length === 1\n        ? type\n        : this.finishNode(node, \"IntersectionTypeAnnotation\");\n    }\n\n    flowParseUnionType(): N.FlowType {\n      const node = this.startNode<N.FlowOtherTypeAnnotation>();\n      this.eat(tt.bitwiseOR);\n      const type = this.flowParseIntersectionType();\n      node.types = [type];\n      while (this.eat(tt.bitwiseOR)) {\n        node.types.push(this.flowParseIntersectionType());\n      }\n      return node.types.length === 1\n        ? type\n        : this.finishNode(node, \"UnionTypeAnnotation\");\n    }\n\n    flowParseType(): N.FlowType {\n      const oldInType = this.state.inType;\n      this.state.inType = true;\n      const type = this.flowParseUnionType();\n      this.state.inType = oldInType;\n      return type;\n    }\n\n    flowParseTypeOrImplicitInstantiation(): N.FlowType {\n      if (this.state.type === tt.name && this.state.value === \"_\") {\n        const startLoc = this.state.startLoc;\n        const node = this.parseIdentifier();\n        return this.flowParseGenericType(startLoc, node);\n      } else {\n        return this.flowParseType();\n      }\n    }\n\n    flowParseTypeAnnotation(): N.TypeAnnotation {\n      const node = this.startNode<N.TypeAnnotation>();\n      node.typeAnnotation = this.flowParseTypeInitialiser();\n      return this.finishNode(node, \"TypeAnnotation\");\n    }\n\n    flowParseTypeAnnotatableIdentifier(\n      allowPrimitiveOverride?: boolean,\n    ): N.Identifier {\n      const ident = allowPrimitiveOverride\n        ? this.parseIdentifier()\n        : this.flowParseRestrictedIdentifier();\n      if (this.match(tt.colon)) {\n        ident.typeAnnotation = this.flowParseTypeAnnotation();\n        this.resetEndLocation(ident);\n      }\n      return ident;\n    }\n\n    typeCastToParameter(node: N.TypeCastExpression): N.Expression {\n      (node.expression as N.Identifier).typeAnnotation = node.typeAnnotation;\n\n      this.resetEndLocation(node.expression, node.typeAnnotation.loc.end);\n\n      return node.expression;\n    }\n\n    flowParseVariance(): N.FlowVariance | undefined | null {\n      let variance = null;\n      if (this.match(tt.plusMin)) {\n        variance = this.startNode<N.FlowVariance>();\n        if (this.state.value === \"+\") {\n          variance.kind = \"plus\";\n        } else {\n          variance.kind = \"minus\";\n        }\n        this.next();\n        return this.finishNode(variance, \"Variance\");\n      }\n      return variance;\n    }\n\n    // ==================================\n    // Overrides\n    // ==================================\n\n    parseFunctionBody(\n      node: N.Function,\n      allowExpressionBody?: boolean | null,\n      isMethod: boolean = false,\n    ): void {\n      if (allowExpressionBody) {\n        this.forwardNoArrowParamsConversionAt(node, () =>\n          super.parseFunctionBody(node, true, isMethod),\n        );\n        return;\n      }\n\n      super.parseFunctionBody(node, false, isMethod);\n    }\n\n    parseFunctionBodyAndFinish<\n      T extends\n        | N.Function\n        | N.TSDeclareMethod\n        | N.TSDeclareFunction\n        | N.ClassPrivateMethod,\n    >(node: Undone<T>, type: T[\"type\"], isMethod: boolean = false): T {\n      if (this.match(tt.colon)) {\n        const typeNode = this.startNode<N.TypeAnnotation>();\n\n        [\n          typeNode.typeAnnotation,\n          // @ts-expect-error predicate may not exist\n          node.predicate,\n        ] = this.flowParseTypeAndPredicateInitialiser();\n\n        node.returnType = typeNode.typeAnnotation\n          ? this.finishNode(typeNode, \"TypeAnnotation\")\n          : null;\n      }\n\n      return super.parseFunctionBodyAndFinish(node, type, isMethod);\n    }\n\n    // interfaces and enums\n    parseStatementLike(flags: ParseStatementFlag): N.Statement {\n      // strict mode handling of `interface` since it's a reserved word\n      if (this.state.strict && this.isContextual(tt._interface)) {\n        const lookahead = this.lookahead();\n        if (tokenIsKeywordOrIdentifier(lookahead.type)) {\n          const node = this.startNode<N.FlowInterface>();\n          this.next();\n          return this.flowParseInterface(node);\n        }\n      } else if (this.isContextual(tt._enum)) {\n        const node = this.startNode();\n        this.next();\n        return this.flowParseEnumDeclaration(node);\n      }\n      const stmt = super.parseStatementLike(flags);\n      // We will parse a flow pragma in any comment before the first statement.\n      if (this.flowPragma === undefined && !this.isValidDirective(stmt)) {\n        this.flowPragma = null;\n      }\n      return stmt;\n    }\n\n    // declares, interfaces and type aliases\n    parseExpressionStatement(\n      node: N.ExpressionStatement,\n      expr: N.Expression,\n      decorators: N.Decorator[] | null,\n    ): N.ExpressionStatement {\n      if (expr.type === \"Identifier\") {\n        if (expr.name === \"declare\") {\n          if (\n            this.match(tt._class) ||\n            tokenIsIdentifier(this.state.type) ||\n            this.match(tt._function) ||\n            this.match(tt._var) ||\n            this.match(tt._export)\n          ) {\n            // @ts-expect-error: refine typings\n            return this.flowParseDeclare(node);\n          }\n        } else if (tokenIsIdentifier(this.state.type)) {\n          if (expr.name === \"interface\") {\n            // @ts-expect-error: refine typings\n            return this.flowParseInterface(node);\n          } else if (expr.name === \"type\") {\n            // @ts-expect-error: refine typings\n            return this.flowParseTypeAlias(node);\n          } else if (expr.name === \"opaque\") {\n            // @ts-expect-error: refine typings\n            return this.flowParseOpaqueType(node, false);\n          }\n        }\n      }\n\n      return super.parseExpressionStatement(node, expr, decorators);\n    }\n\n    // export type\n    shouldParseExportDeclaration(): boolean {\n      const { type } = this.state;\n      if (type === tt._enum || tokenIsFlowInterfaceOrTypeOrOpaque(type)) {\n        return !this.state.containsEsc;\n      }\n      return super.shouldParseExportDeclaration();\n    }\n\n    isExportDefaultSpecifier(): boolean {\n      const { type } = this.state;\n      if (type === tt._enum || tokenIsFlowInterfaceOrTypeOrOpaque(type)) {\n        return this.state.containsEsc;\n      }\n\n      return super.isExportDefaultSpecifier();\n    }\n\n    parseExportDefaultExpression() {\n      if (this.isContextual(tt._enum)) {\n        const node = this.startNode();\n        this.next();\n        return this.flowParseEnumDeclaration(node);\n      }\n      return super.parseExportDefaultExpression();\n    }\n\n    parseConditional(\n      expr: N.Expression,\n\n      startLoc: Position,\n      refExpressionErrors?: ExpressionErrors | null,\n    ): N.Expression {\n      if (!this.match(tt.question)) return expr;\n\n      if (this.state.maybeInArrowParameters) {\n        const nextCh = this.lookaheadCharCode();\n        // These tokens cannot start an expression, so if one of them follows\n        // ? then we are probably in an arrow function parameters list and we\n        // don't parse the conditional expression.\n        if (\n          nextCh === charCodes.comma || // (a?, b) => c\n          nextCh === charCodes.equalsTo || // (a? = b) => c\n          nextCh === charCodes.colon || // (a?: b) => c\n          nextCh === charCodes.rightParenthesis // (a?) => c\n        ) {\n          /*:: invariant(refExpressionErrors != null) */\n          this.setOptionalParametersError(refExpressionErrors);\n          return expr;\n        }\n      }\n\n      this.expect(tt.question);\n      const state = this.state.clone();\n      const originalNoArrowAt = this.state.noArrowAt;\n      const node = this.startNodeAt<N.ConditionalExpression>(startLoc);\n      let { consequent, failed } = this.tryParseConditionalConsequent();\n      let [valid, invalid] = this.getArrowLikeExpressions(consequent);\n\n      if (failed || invalid.length > 0) {\n        const noArrowAt = [...originalNoArrowAt];\n\n        if (invalid.length > 0) {\n          this.state = state;\n          this.state.noArrowAt = noArrowAt;\n\n          for (let i = 0; i < invalid.length; i++) {\n            noArrowAt.push(invalid[i].start);\n          }\n\n          ({ consequent, failed } = this.tryParseConditionalConsequent());\n          [valid, invalid] = this.getArrowLikeExpressions(consequent);\n        }\n\n        if (failed && valid.length > 1) {\n          // if there are two or more possible correct ways of parsing, throw an\n          // error.\n          // e.g.   Source: a ? (b): c => (d): e => f\n          //      Result 1: a ? b : (c => ((d): e => f))\n          //      Result 2: a ? ((b): c => d) : (e => f)\n          this.raise(FlowErrors.AmbiguousConditionalArrow, state.startLoc);\n        }\n\n        if (failed && valid.length === 1) {\n          this.state = state;\n          noArrowAt.push(valid[0].start);\n          this.state.noArrowAt = noArrowAt;\n          ({ consequent, failed } = this.tryParseConditionalConsequent());\n        }\n      }\n\n      this.getArrowLikeExpressions(consequent, true);\n\n      this.state.noArrowAt = originalNoArrowAt;\n      this.expect(tt.colon);\n\n      node.test = expr;\n      node.consequent = consequent;\n      node.alternate = this.forwardNoArrowParamsConversionAt(node, () =>\n        this.parseMaybeAssign(undefined, undefined),\n      );\n\n      return this.finishNode(node, \"ConditionalExpression\");\n    }\n\n    tryParseConditionalConsequent(): {\n      consequent: N.Expression;\n      failed: boolean;\n    } {\n      this.state.noArrowParamsConversionAt.push(this.state.start);\n\n      const consequent = this.parseMaybeAssignAllowIn();\n      const failed = !this.match(tt.colon);\n\n      this.state.noArrowParamsConversionAt.pop();\n\n      return { consequent, failed };\n    }\n\n    // Given an expression, walks through out its arrow functions whose body is\n    // an expression and through out conditional expressions. It returns every\n    // function which has been parsed with a return type but could have been\n    // parenthesized expressions.\n    // These functions are separated into two arrays: one containing the ones\n    // whose parameters can be converted to assignable lists, one containing the\n    // others.\n    getArrowLikeExpressions(\n      node: N.Expression,\n      disallowInvalid?: boolean,\n    ): [N.ArrowFunctionExpression[], N.ArrowFunctionExpression[]] {\n      const stack = [node];\n      const arrows: N.ArrowFunctionExpression[] = [];\n\n      while (stack.length !== 0) {\n        const node = stack.pop();\n        if (\n          node.type === \"ArrowFunctionExpression\" &&\n          node.body.type !== \"BlockStatement\"\n        ) {\n          if (node.typeParameters || !node.returnType) {\n            // This is an arrow expression without ambiguity, so check its parameters\n            this.finishArrowValidation(node);\n          } else {\n            arrows.push(node);\n          }\n          stack.push(node.body);\n        } else if (node.type === \"ConditionalExpression\") {\n          stack.push(node.consequent);\n          stack.push(node.alternate);\n        }\n      }\n\n      if (disallowInvalid) {\n        arrows.forEach(node => this.finishArrowValidation(node));\n        return [arrows, []];\n      }\n\n      return partition(arrows, node =>\n        node.params.every(param => this.isAssignable(param, true)),\n      );\n    }\n\n    finishArrowValidation(node: N.ArrowFunctionExpression) {\n      this.toAssignableList(\n        // node.params is Expression[] instead of $ReadOnlyArray<Pattern> because it\n        // has not been converted yet.\n        node.params as any as N.Expression[],\n        node.extra?.trailingCommaLoc,\n        /* isLHS */ false,\n      );\n      // Enter scope, as checkParams defines bindings\n      this.scope.enter(ScopeFlag.FUNCTION | ScopeFlag.ARROW);\n      // Use super's method to force the parameters to be checked\n      super.checkParams(node, false, true);\n      this.scope.exit();\n    }\n\n    forwardNoArrowParamsConversionAt<T>(\n      node: Undone<N.Node>,\n      parse: () => T,\n    ): T {\n      let result: T;\n      if (\n        this.state.noArrowParamsConversionAt.includes(\n          this.offsetToSourcePos(node.start),\n        )\n      ) {\n        this.state.noArrowParamsConversionAt.push(this.state.start);\n        result = parse();\n        this.state.noArrowParamsConversionAt.pop();\n      } else {\n        result = parse();\n      }\n\n      return result;\n    }\n\n    parseParenItem<T extends N.Expression | N.RestElement | N.SpreadElement>(\n      node: T,\n      startLoc: Position,\n    ): T | N.TypeCastExpression | N.TsTypeCastExpression {\n      const newNode = super.parseParenItem(node, startLoc);\n      if (this.eat(tt.question)) {\n        (newNode as N.Identifier).optional = true;\n        // Include questionmark in location of node\n        // Don't use this.finishNode() as otherwise we might process comments twice and\n        // include already consumed parens\n        this.resetEndLocation(node);\n      }\n\n      if (this.match(tt.colon)) {\n        const typeCastNode = this.startNodeAt<N.TypeCastExpression>(startLoc);\n        typeCastNode.expression = newNode as N.Expression;\n        typeCastNode.typeAnnotation = this.flowParseTypeAnnotation();\n\n        return this.finishNode(typeCastNode, \"TypeCastExpression\");\n      }\n\n      return newNode;\n    }\n\n    assertModuleNodeAllowed(node: N.Node) {\n      if (\n        (node.type === \"ImportDeclaration\" &&\n          (node.importKind === \"type\" || node.importKind === \"typeof\")) ||\n        (node.type === \"ExportNamedDeclaration\" &&\n          node.exportKind === \"type\") ||\n        (node.type === \"ExportAllDeclaration\" && node.exportKind === \"type\")\n      ) {\n        // Allow Flowtype imports and exports in all conditions because\n        // Flow itself does not care about 'sourceType'.\n        return;\n      }\n\n      super.assertModuleNodeAllowed(node);\n    }\n\n    parseExportDeclaration(\n      node: N.ExportNamedDeclaration,\n    ): N.Declaration | undefined | null {\n      if (this.isContextual(tt._type)) {\n        node.exportKind = \"type\";\n\n        const declarationNode = this.startNode();\n        this.next();\n\n        if (this.match(tt.braceL)) {\n          // export type { foo, bar };\n          node.specifiers = this.parseExportSpecifiers(\n            /* isInTypeExport */ true,\n          );\n          super.parseExportFrom(node);\n          return null;\n        } else {\n          // export type Foo = Bar;\n          // @ts-expect-error: refine typings\n          return this.flowParseTypeAlias(declarationNode);\n        }\n      } else if (this.isContextual(tt._opaque)) {\n        node.exportKind = \"type\";\n\n        const declarationNode = this.startNode();\n        this.next();\n        // export opaque type Foo = Bar;\n        // @ts-expect-error: refine typings\n        return this.flowParseOpaqueType(declarationNode, false);\n      } else if (this.isContextual(tt._interface)) {\n        node.exportKind = \"type\";\n        const declarationNode = this.startNode();\n        this.next();\n        // @ts-expect-error: refine typings\n        return this.flowParseInterface(declarationNode);\n      } else if (this.isContextual(tt._enum)) {\n        node.exportKind = \"value\";\n        const declarationNode = this.startNode();\n        this.next();\n        // @ts-expect-error: refine typings\n        return this.flowParseEnumDeclaration(declarationNode);\n      } else {\n        return super.parseExportDeclaration(node);\n      }\n    }\n\n    eatExportStar(\n      node: Undone<N.Node>,\n    ): node is Undone<N.ExportNamedDeclaration | N.ExportAllDeclaration> {\n      if (super.eatExportStar(node)) return true;\n\n      if (this.isContextual(tt._type) && this.lookahead().type === tt.star) {\n        (\n          node as Undone<N.ExportNamedDeclaration | N.ExportAllDeclaration>\n        ).exportKind = \"type\";\n        this.next();\n        this.next();\n        return true;\n      }\n\n      return false;\n    }\n\n    maybeParseExportNamespaceSpecifier(\n      node: Undone<N.ExportNamedDeclaration | N.ExportAllDeclaration>,\n    ): node is Undone<N.ExportNamedDeclaration> {\n      const { startLoc } = this.state;\n      const hasNamespace = super.maybeParseExportNamespaceSpecifier(node);\n      if (hasNamespace && node.exportKind === \"type\") {\n        this.unexpected(startLoc);\n      }\n      return hasNamespace;\n    }\n\n    parseClassId(\n      node: N.Class,\n      isStatement: boolean,\n      optionalId?: boolean | null,\n    ) {\n      super.parseClassId(node, isStatement, optionalId);\n      if (this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterDeclaration();\n      }\n    }\n\n    parseClassMember(\n      classBody: N.ClassBody,\n      member: any,\n      state: N.ParseClassMemberState,\n    ): void {\n      const { startLoc } = this.state;\n      if (this.isContextual(tt._declare)) {\n        if (super.parseClassMemberFromModifier(classBody, member)) {\n          // 'declare' is a class element name\n          return;\n        }\n\n        member.declare = true;\n      }\n\n      super.parseClassMember(classBody, member, state);\n\n      if (member.declare) {\n        if (\n          member.type !== \"ClassProperty\" &&\n          member.type !== \"ClassPrivateProperty\" &&\n          member.type !== \"PropertyDefinition\" // Used by estree plugin\n        ) {\n          this.raise(FlowErrors.DeclareClassElement, startLoc);\n        } else if (member.value) {\n          this.raise(FlowErrors.DeclareClassFieldInitializer, member.value);\n        }\n      }\n    }\n\n    isIterator(word: string): boolean {\n      return word === \"iterator\" || word === \"asyncIterator\";\n    }\n\n    readIterator(): void {\n      const word = super.readWord1();\n      const fullWord = \"@@\" + word;\n\n      // Allow @@iterator and @@asyncIterator as a identifier only inside type\n      if (!this.isIterator(word) || !this.state.inType) {\n        this.raise(Errors.InvalidIdentifier, this.state.curPosition(), {\n          identifierName: fullWord,\n        });\n      }\n\n      this.finishToken(tt.name, fullWord);\n    }\n\n    // ensure that inside flow types, we bypass the jsx parser plugin\n    getTokenFromCode(code: number): void {\n      const next = this.input.charCodeAt(this.state.pos + 1);\n      if (code === charCodes.leftCurlyBrace && next === charCodes.verticalBar) {\n        this.finishOp(tt.braceBarL, 2);\n      } else if (\n        this.state.inType &&\n        (code === charCodes.greaterThan || code === charCodes.lessThan)\n      ) {\n        this.finishOp(code === charCodes.greaterThan ? tt.gt : tt.lt, 1);\n      } else if (this.state.inType && code === charCodes.questionMark) {\n        if (next === charCodes.dot) {\n          this.finishOp(tt.questionDot, 2);\n        } else {\n          // allow double nullable types in Flow: ??string\n          this.finishOp(tt.question, 1);\n        }\n      } else if (\n        isIteratorStart(code, next, this.input.charCodeAt(this.state.pos + 2))\n      ) {\n        this.state.pos += 2; // eat \"@@\"\n        this.readIterator();\n      } else {\n        super.getTokenFromCode(code);\n      }\n    }\n\n    isAssignable(node: N.Node, isBinding?: boolean): boolean {\n      if (node.type === \"TypeCastExpression\") {\n        return this.isAssignable(node.expression, isBinding);\n      } else {\n        return super.isAssignable(node, isBinding);\n      }\n    }\n\n    toAssignable(node: N.Node, isLHS: boolean = false): void {\n      if (\n        !isLHS &&\n        node.type === \"AssignmentExpression\" &&\n        node.left.type === \"TypeCastExpression\"\n      ) {\n        node.left = this.typeCastToParameter(node.left) as N.Assignable;\n      }\n      super.toAssignable(node, isLHS);\n    }\n\n    // turn type casts that we found in function parameter head into type annotated params\n    toAssignableList(\n      exprList: N.Expression[],\n      trailingCommaLoc: Position | undefined | null,\n      isLHS: boolean,\n    ): void {\n      for (let i = 0; i < exprList.length; i++) {\n        const expr = exprList[i];\n        if (expr?.type === \"TypeCastExpression\") {\n          exprList[i] = this.typeCastToParameter(expr);\n        }\n      }\n      super.toAssignableList(exprList, trailingCommaLoc, isLHS);\n    }\n\n    // this is a list of nodes, from something like a call expression, we need to filter the\n    // type casts that we've found that are illegal in this context\n    toReferencedList(\n      exprList:\n        | ReadonlyArray<N.Expression | N.SpreadElement>\n        | ReadonlyArray<N.Expression | N.RestElement>,\n      isParenthesizedExpr?: boolean,\n    ):\n      | ReadonlyArray<N.Expression | N.SpreadElement>\n      | ReadonlyArray<N.Expression | N.RestElement> {\n      for (let i = 0; i < exprList.length; i++) {\n        const expr = exprList[i];\n        if (\n          expr &&\n          expr.type === \"TypeCastExpression\" &&\n          !expr.extra?.parenthesized &&\n          (exprList.length > 1 || !isParenthesizedExpr)\n        ) {\n          this.raise(FlowErrors.TypeCastInPattern, expr.typeAnnotation);\n        }\n      }\n\n      return exprList;\n    }\n\n    parseArrayLike(\n      close: TokenType,\n      canBePattern: boolean,\n      isTuple: boolean,\n      refExpressionErrors?: ExpressionErrors | null,\n    ): N.ArrayExpression | N.TupleExpression {\n      const node = super.parseArrayLike(\n        close,\n        canBePattern,\n        isTuple,\n        refExpressionErrors,\n      );\n\n      // This could be an array pattern:\n      //   ([a: string, b: string]) => {}\n      // In this case, we don't have to call toReferencedList. We will\n      // call it, if needed, when we are sure that it is a parenthesized\n      // expression by calling toReferencedListDeep.\n      if (canBePattern && !this.state.maybeInArrowParameters) {\n        this.toReferencedList(node.elements);\n      }\n\n      return node;\n    }\n\n    isValidLVal(type: string, isParenthesized: boolean, binding: BindingFlag) {\n      return (\n        type === \"TypeCastExpression\" ||\n        super.isValidLVal(type, isParenthesized, binding)\n      );\n    }\n\n    // parse class property type annotations\n    parseClassProperty(node: N.ClassProperty): N.ClassProperty {\n      if (this.match(tt.colon)) {\n        node.typeAnnotation = this.flowParseTypeAnnotation();\n      }\n      return super.parseClassProperty(node);\n    }\n\n    parseClassPrivateProperty(\n      node: N.ClassPrivateProperty,\n    ): N.ClassPrivateProperty {\n      if (this.match(tt.colon)) {\n        node.typeAnnotation = this.flowParseTypeAnnotation();\n      }\n      return super.parseClassPrivateProperty(node);\n    }\n\n    // determine whether or not we're currently in the position where a class method would appear\n    isClassMethod(): boolean {\n      return this.match(tt.lt) || super.isClassMethod();\n    }\n\n    // determine whether or not we're currently in the position where a class property would appear\n    isClassProperty(): boolean {\n      return this.match(tt.colon) || super.isClassProperty();\n    }\n\n    isNonstaticConstructor(method: N.ClassMethod | N.ClassProperty): boolean {\n      return !this.match(tt.colon) && super.isNonstaticConstructor(method);\n    }\n\n    // parse type parameters for class methods\n    pushClassMethod(\n      classBody: N.ClassBody,\n      method: N.ClassMethod,\n      isGenerator: boolean,\n      isAsync: boolean,\n      isConstructor: boolean,\n      allowsDirectSuper: boolean,\n    ): void {\n      if ((method as any).variance) {\n        this.unexpected((method as any).variance.loc.start);\n      }\n      delete (method as any).variance;\n      if (this.match(tt.lt)) {\n        method.typeParameters = this.flowParseTypeParameterDeclaration();\n      }\n\n      super.pushClassMethod(\n        classBody,\n        method,\n        isGenerator,\n        isAsync,\n        isConstructor,\n        allowsDirectSuper,\n      );\n\n      if (method.params && isConstructor) {\n        const params = method.params;\n        if (params.length > 0 && this.isThisParam(params[0])) {\n          this.raise(FlowErrors.ThisParamBannedInConstructor, method);\n        }\n        // estree support\n      } else if (\n        // @ts-expect-error TS does not know about the face that estree can replace ClassMethod with MethodDefinition\n        method.type === \"MethodDefinition\" &&\n        isConstructor &&\n        // @ts-expect-error estree\n        method.value.params\n      ) {\n        // @ts-expect-error estree\n        const params = method.value.params;\n        if (params.length > 0 && this.isThisParam(params[0])) {\n          this.raise(FlowErrors.ThisParamBannedInConstructor, method);\n        }\n      }\n    }\n\n    pushClassPrivateMethod(\n      classBody: N.ClassBody,\n      method: N.ClassPrivateMethod,\n      isGenerator: boolean,\n      isAsync: boolean,\n    ): void {\n      if ((method as any).variance) {\n        this.unexpected((method as any).variance.loc.start);\n      }\n      delete (method as any).variance;\n      if (this.match(tt.lt)) {\n        method.typeParameters = this.flowParseTypeParameterDeclaration();\n      }\n\n      super.pushClassPrivateMethod(classBody, method, isGenerator, isAsync);\n    }\n\n    // parse a the super class type parameters and implements\n    parseClassSuper(node: N.Class): void {\n      super.parseClassSuper(node);\n      if (node.superClass && this.match(tt.lt)) {\n        node.superTypeParameters = this.flowParseTypeParameterInstantiation();\n      }\n      if (this.isContextual(tt._implements)) {\n        this.next();\n        const implemented: N.FlowClassImplements[] = (node.implements = []);\n        do {\n          const node = this.startNode<N.FlowClassImplements>();\n          node.id = this.flowParseRestrictedIdentifier(/*liberal*/ true);\n          if (this.match(tt.lt)) {\n            node.typeParameters = this.flowParseTypeParameterInstantiation();\n          } else {\n            node.typeParameters = null;\n          }\n          implemented.push(this.finishNode(node, \"ClassImplements\"));\n        } while (this.eat(tt.comma));\n      }\n    }\n\n    checkGetterSetterParams(method: N.ObjectMethod | N.ClassMethod): void {\n      super.checkGetterSetterParams(method);\n      const params = this.getObjectOrClassMethodParams(method);\n      if (params.length > 0) {\n        const param = params[0];\n        if (this.isThisParam(param) && method.kind === \"get\") {\n          this.raise(FlowErrors.GetterMayNotHaveThisParam, param);\n        } else if (this.isThisParam(param)) {\n          this.raise(FlowErrors.SetterMayNotHaveThisParam, param);\n        }\n      }\n    }\n\n    parsePropertyNamePrefixOperator(\n      node: N.ObjectOrClassMember | N.ClassMember,\n    ): void {\n      node.variance = this.flowParseVariance();\n    }\n\n    // parse type parameters for object method shorthand\n    parseObjPropValue<T extends N.ObjectMember>(\n      prop: Undone<T>,\n      startLoc: Position | undefined | null,\n      isGenerator: boolean,\n      isAsync: boolean,\n      isPattern: boolean,\n      isAccessor: boolean,\n      refExpressionErrors?: ExpressionErrors | null,\n    ): T {\n      if ((prop as any).variance) {\n        this.unexpected((prop as any).variance.loc.start);\n      }\n      delete (prop as any).variance;\n\n      let typeParameters;\n\n      // method shorthand\n      if (this.match(tt.lt) && !isAccessor) {\n        typeParameters = this.flowParseTypeParameterDeclaration();\n        if (!this.match(tt.parenL)) this.unexpected();\n      }\n\n      const result = super.parseObjPropValue(\n        prop,\n        startLoc,\n        isGenerator,\n        isAsync,\n        isPattern,\n        isAccessor,\n        refExpressionErrors,\n      );\n\n      // add typeParameters if we found them\n      if (typeParameters) {\n        // @ts-expect-error: refine typings\n        (result.value || result).typeParameters = typeParameters;\n      }\n      return result;\n    }\n\n    parseFunctionParamType(param: N.Pattern): N.Pattern {\n      if (this.eat(tt.question)) {\n        if (param.type !== \"Identifier\") {\n          this.raise(FlowErrors.PatternIsOptional, param);\n        }\n        if (this.isThisParam(param)) {\n          this.raise(FlowErrors.ThisParamMayNotBeOptional, param);\n        }\n\n        (param as any as N.Identifier).optional = true;\n      }\n      if (this.match(tt.colon)) {\n        param.typeAnnotation = this.flowParseTypeAnnotation();\n      } else if (this.isThisParam(param)) {\n        this.raise(FlowErrors.ThisParamAnnotationRequired, param);\n      }\n\n      if (this.match(tt.eq) && this.isThisParam(param)) {\n        this.raise(FlowErrors.ThisParamNoDefault, param);\n      }\n\n      this.resetEndLocation(param);\n      return param;\n    }\n\n    parseMaybeDefault(\n      startLoc?: Position | null,\n      left?: N.Pattern | null,\n    ): N.Pattern {\n      const node = super.parseMaybeDefault(startLoc, left);\n\n      if (\n        node.type === \"AssignmentPattern\" &&\n        node.typeAnnotation &&\n        node.right.start < node.typeAnnotation.start\n      ) {\n        this.raise(FlowErrors.TypeBeforeInitializer, node.typeAnnotation);\n      }\n\n      return node;\n    }\n\n    checkImportReflection(node: Undone<N.ImportDeclaration>) {\n      super.checkImportReflection(node);\n      if (node.module && node.importKind !== \"value\") {\n        this.raise(\n          FlowErrors.ImportReflectionHasImportType,\n          node.specifiers[0].loc.start,\n        );\n      }\n    }\n\n    parseImportSpecifierLocal<\n      T extends\n        | N.ImportSpecifier\n        | N.ImportDefaultSpecifier\n        | N.ImportNamespaceSpecifier,\n    >(node: N.ImportDeclaration, specifier: Undone<T>, type: T[\"type\"]): void {\n      specifier.local = hasTypeImportKind(node)\n        ? this.flowParseRestrictedIdentifier(\n            /* liberal */ true,\n            /* declaration */ true,\n          )\n        : this.parseIdentifier();\n\n      node.specifiers.push(this.finishImportSpecifier(specifier, type));\n    }\n\n    isPotentialImportPhase(isExport: boolean): boolean {\n      if (super.isPotentialImportPhase(isExport)) return true;\n      if (this.isContextual(tt._type)) {\n        if (!isExport) return true;\n        const ch = this.lookaheadCharCode();\n        return ch === charCodes.leftCurlyBrace || ch === charCodes.asterisk;\n      }\n      return !isExport && this.isContextual(tt._typeof);\n    }\n\n    applyImportPhase(\n      node: Undone<N.ImportDeclaration | N.ExportNamedDeclaration>,\n      isExport: boolean,\n      phase: string | null,\n      loc?: Position,\n    ): void {\n      super.applyImportPhase(node, isExport, phase, loc);\n      if (isExport) {\n        if (!phase && this.match(tt._default)) {\n          // TODO: Align with our TS AST and always add .exportKind\n          return;\n        }\n        (node as N.ExportNamedDeclaration).exportKind =\n          phase === \"type\" ? phase : \"value\";\n      } else {\n        if (phase === \"type\" && this.match(tt.star)) this.unexpected();\n        (node as N.ImportDeclaration).importKind =\n          phase === \"type\" || phase === \"typeof\" ? phase : \"value\";\n      }\n    }\n\n    // parse import-type/typeof shorthand\n    parseImportSpecifier(\n      specifier: any,\n      importedIsString: boolean,\n      isInTypeOnlyImport: boolean,\n      // eslint-disable-next-line @typescript-eslint/no-unused-vars\n      isMaybeTypeOnly: boolean,\n      // eslint-disable-next-line @typescript-eslint/no-unused-vars\n      bindingType: BindingFlag | undefined,\n    ): N.ImportSpecifier {\n      const firstIdent = specifier.imported;\n\n      let specifierTypeKind = null;\n      if (firstIdent.type === \"Identifier\") {\n        if (firstIdent.name === \"type\") {\n          specifierTypeKind = \"type\";\n        } else if (firstIdent.name === \"typeof\") {\n          specifierTypeKind = \"typeof\";\n        }\n      }\n\n      let isBinding = false;\n      if (this.isContextual(tt._as) && !this.isLookaheadContextual(\"as\")) {\n        const as_ident = this.parseIdentifier(true);\n        if (\n          specifierTypeKind !== null &&\n          !tokenIsKeywordOrIdentifier(this.state.type)\n        ) {\n          // `import {type as ,` or `import {type as }`\n          specifier.imported = as_ident;\n          specifier.importKind = specifierTypeKind;\n          specifier.local = cloneIdentifier(as_ident);\n        } else {\n          // `import {type as foo`\n          specifier.imported = firstIdent;\n          specifier.importKind = null;\n          specifier.local = this.parseIdentifier();\n        }\n      } else {\n        if (\n          specifierTypeKind !== null &&\n          tokenIsKeywordOrIdentifier(this.state.type)\n        ) {\n          // `import {type foo`\n          specifier.imported = this.parseIdentifier(true);\n          specifier.importKind = specifierTypeKind;\n        } else {\n          if (importedIsString) {\n            /*:: invariant(firstIdent instanceof N.StringLiteral) */\n            throw this.raise(Errors.ImportBindingIsString, specifier, {\n              importName: firstIdent.value,\n            });\n          }\n          /*:: invariant(firstIdent instanceof N.Node) */\n          specifier.imported = firstIdent;\n          specifier.importKind = null;\n        }\n\n        if (this.eatContextual(tt._as)) {\n          specifier.local = this.parseIdentifier();\n        } else {\n          isBinding = true;\n          specifier.local = cloneIdentifier(specifier.imported);\n        }\n      }\n\n      const specifierIsTypeImport = hasTypeImportKind(specifier);\n\n      if (isInTypeOnlyImport && specifierIsTypeImport) {\n        this.raise(FlowErrors.ImportTypeShorthandOnlyInPureImport, specifier);\n      }\n\n      if (isInTypeOnlyImport || specifierIsTypeImport) {\n        this.checkReservedType(\n          specifier.local.name,\n          specifier.local.loc.start,\n          /* declaration */ true,\n        );\n      }\n\n      if (isBinding && !isInTypeOnlyImport && !specifierIsTypeImport) {\n        this.checkReservedWord(\n          specifier.local.name,\n          specifier.loc.start,\n          true,\n          true,\n        );\n      }\n\n      return this.finishImportSpecifier(specifier, \"ImportSpecifier\");\n    }\n\n    parseBindingAtom(): N.Pattern {\n      switch (this.state.type) {\n        case tt._this:\n          // \"this\" may be the name of a parameter, so allow it.\n          return this.parseIdentifier(/* liberal */ true);\n        default:\n          return super.parseBindingAtom();\n      }\n    }\n\n    // parse function type parameters - function foo<T>() {}\n    parseFunctionParams(\n      node: Undone<N.Function>,\n      isConstructor: boolean,\n    ): void {\n      // @ts-expect-error kind may not index node\n      const kind = node.kind;\n      if (kind !== \"get\" && kind !== \"set\" && this.match(tt.lt)) {\n        node.typeParameters = this.flowParseTypeParameterDeclaration();\n      }\n      super.parseFunctionParams(node, isConstructor);\n    }\n\n    // parse flow type annotations on variable declarator heads - let foo: string = bar\n    parseVarId(\n      decl: N.VariableDeclarator,\n      kind: \"var\" | \"let\" | \"const\",\n    ): void {\n      super.parseVarId(decl, kind);\n      if (this.match(tt.colon)) {\n        decl.id.typeAnnotation = this.flowParseTypeAnnotation();\n        this.resetEndLocation(decl.id); // set end position to end of type\n      }\n    }\n\n    // parse the return type of an async arrow function - let foo = (async (): number => {});\n    parseAsyncArrowFromCallExpression(\n      node: N.ArrowFunctionExpression,\n      call: N.CallExpression,\n    ): N.ArrowFunctionExpression {\n      if (this.match(tt.colon)) {\n        const oldNoAnonFunctionType = this.state.noAnonFunctionType;\n        this.state.noAnonFunctionType = true;\n        node.returnType = this.flowParseTypeAnnotation();\n        this.state.noAnonFunctionType = oldNoAnonFunctionType;\n      }\n\n      return super.parseAsyncArrowFromCallExpression(node, call);\n    }\n\n    // todo description\n    shouldParseAsyncArrow(): boolean {\n      return this.match(tt.colon) || super.shouldParseAsyncArrow();\n    }\n\n    // We need to support type parameter declarations for arrow functions. This\n    // is tricky. There are three situations we need to handle\n    //\n    // 1. This is either JSX or an arrow function. We'll try JSX first. If that\n    //    fails, we'll try an arrow function. If that fails, we'll throw the JSX\n    //    error.\n    // 2. This is an arrow function. We'll parse the type parameter declaration,\n    //    parse the rest, make sure the rest is an arrow function, and go from\n    //    there\n    // 3. This is neither. Just call the super method\n    parseMaybeAssign(\n      refExpressionErrors?: ExpressionErrors | null,\n      afterLeftParse?: Function,\n    ): N.Expression {\n      let state = null;\n\n      let jsx;\n\n      if (\n        this.hasPlugin(\"jsx\") &&\n        (this.match(tt.jsxTagStart) || this.match(tt.lt))\n      ) {\n        state = this.state.clone();\n\n        jsx = this.tryParse(\n          () => super.parseMaybeAssign(refExpressionErrors, afterLeftParse),\n          state,\n        );\n\n        /*:: invariant(!jsx.aborted) */\n        /*:: invariant(jsx.node != null) */\n        if (!jsx.error) return jsx.node;\n\n        // Remove `tc.j_expr` and `tc.j_oTag` from context added\n        // by parsing `jsxTagStart` to stop the JSX plugin from\n        // messing with the tokens\n        const { context } = this.state;\n        const currentContext = context[context.length - 1];\n        if (currentContext === tc.j_oTag || currentContext === tc.j_expr) {\n          context.pop();\n        }\n      }\n\n      if (jsx?.error || this.match(tt.lt)) {\n        state = state || this.state.clone();\n\n        let typeParameters: N.TypeParameterDeclaration;\n\n        const arrow = this.tryParse((abort: () => never) => {\n          typeParameters = this.flowParseTypeParameterDeclaration();\n\n          const arrowExpression = this.forwardNoArrowParamsConversionAt(\n            typeParameters,\n            () => {\n              const result = super.parseMaybeAssign(\n                refExpressionErrors,\n                afterLeftParse,\n              );\n\n              this.resetStartLocationFromNode(result, typeParameters);\n\n              return result;\n            },\n          );\n\n          // <T>(() => {});\n          // <T>(() => {}: any);\n          if (arrowExpression.extra?.parenthesized) abort();\n\n          // The above can return a TypeCastExpression when the arrow\n          // expression is not wrapped in parens. See also `this.parseParenItem`.\n          // (<T>() => {}: any);\n          const expr = this.maybeUnwrapTypeCastExpression(arrowExpression);\n\n          if (expr.type !== \"ArrowFunctionExpression\") abort();\n\n          expr.typeParameters = typeParameters;\n          this.resetStartLocationFromNode(expr, typeParameters);\n\n          return arrowExpression;\n        }, state);\n\n        let arrowExpression:\n          | N.ArrowFunctionExpression\n          | N.TypeCastExpression\n          | undefined\n          | null = null;\n\n        if (\n          arrow.node &&\n          this.maybeUnwrapTypeCastExpression(arrow.node).type ===\n            \"ArrowFunctionExpression\"\n        ) {\n          if (!arrow.error && !arrow.aborted) {\n            // <T> async () => {}\n            // @ts-expect-error: refine tryParse typings\n            if (arrow.node.async) {\n              /*:: invariant(typeParameters) */\n              this.raise(\n                FlowErrors.UnexpectedTypeParameterBeforeAsyncArrowFunction,\n                typeParameters,\n              );\n            }\n            return arrow.node;\n          }\n\n          // @ts-expect-error: refine typings\n          arrowExpression = arrow.node;\n        }\n\n        // If we are here, both JSX and Flow parsing attempts failed.\n        // Give the precedence to the JSX error, except if JSX had an\n        // unrecoverable error while Flow didn't.\n        // If the error is recoverable, we can only re-report it if there is\n        // a node we can return.\n\n        if (jsx?.node) {\n          /*:: invariant(jsx.failState) */\n          this.state = jsx.failState;\n          return jsx.node;\n        }\n\n        if (arrowExpression) {\n          /*:: invariant(arrow.failState) */\n          this.state = arrow.failState;\n          return arrowExpression;\n        }\n\n        if (jsx?.thrown) throw jsx.error;\n        if (arrow.thrown) throw arrow.error;\n\n        /*:: invariant(typeParameters) */\n        throw this.raise(\n          FlowErrors.UnexpectedTokenAfterTypeParameter,\n          typeParameters,\n        );\n      }\n\n      return super.parseMaybeAssign(refExpressionErrors, afterLeftParse);\n    }\n\n    // handle return types for arrow functions\n    parseArrow(\n      node: Undone<N.ArrowFunctionExpression>,\n    ): Undone<N.ArrowFunctionExpression> | undefined | null {\n      if (this.match(tt.colon)) {\n        // @ts-expect-error todo(flow->ts)\n        const result = this.tryParse<N.TypeAnnotation>(() => {\n          const oldNoAnonFunctionType = this.state.noAnonFunctionType;\n          this.state.noAnonFunctionType = true;\n\n          const typeNode = this.startNode<N.TypeAnnotation>();\n\n          [\n            typeNode.typeAnnotation,\n            // @ts-expect-error (destructuring not supported yet)\n            node.predicate,\n          ] = this.flowParseTypeAndPredicateInitialiser();\n\n          this.state.noAnonFunctionType = oldNoAnonFunctionType;\n\n          if (this.canInsertSemicolon()) this.unexpected();\n          if (!this.match(tt.arrow)) this.unexpected();\n\n          return typeNode;\n        });\n\n        if (result.thrown) return null;\n        /*:: invariant(result.node) */\n\n        if (result.error) this.state = result.failState;\n\n        // assign after it is clear it is an arrow\n        // @ts-expect-error todo(flow->ts)\n        node.returnType = result.node.typeAnnotation\n          ? this.finishNode(result.node, \"TypeAnnotation\")\n          : null;\n      }\n\n      return super.parseArrow(node);\n    }\n\n    shouldParseArrow(params: Array<N.Node>): boolean {\n      return this.match(tt.colon) || super.shouldParseArrow(params);\n    }\n\n    setArrowFunctionParameters(\n      node: Undone<N.ArrowFunctionExpression>,\n      params:\n        | Array<N.Expression | N.SpreadElement>\n        | Array<N.Expression | N.RestElement>,\n    ): void {\n      if (\n        this.state.noArrowParamsConversionAt.includes(\n          this.offsetToSourcePos(node.start),\n        )\n      ) {\n        node.params = params as N.ArrowFunctionExpression[\"params\"];\n      } else {\n        super.setArrowFunctionParameters(node, params);\n      }\n    }\n\n    checkParams(\n      node: N.Function,\n      allowDuplicates: boolean,\n      isArrowFunction?: boolean | null,\n      strictModeChanged: boolean = true,\n    ): void {\n      if (\n        isArrowFunction &&\n        this.state.noArrowParamsConversionAt.includes(\n          this.offsetToSourcePos(node.start),\n        )\n      ) {\n        return;\n      }\n\n      // ensure the `this` param is first, if it exists\n      for (let i = 0; i < node.params.length; i++) {\n        if (this.isThisParam(node.params[i]) && i > 0) {\n          this.raise(FlowErrors.ThisParamMustBeFirst, node.params[i]);\n        }\n      }\n\n      super.checkParams(\n        node,\n        allowDuplicates,\n        isArrowFunction,\n        strictModeChanged,\n      );\n    }\n\n    parseParenAndDistinguishExpression(canBeArrow: boolean): N.Expression {\n      return super.parseParenAndDistinguishExpression(\n        canBeArrow &&\n          !this.state.noArrowAt.includes(\n            this.sourceToOffsetPos(this.state.start),\n          ),\n      );\n    }\n\n    parseSubscripts(\n      base: N.Expression,\n\n      startLoc: Position,\n      noCalls?: boolean | null,\n    ): N.Expression {\n      if (\n        base.type === \"Identifier\" &&\n        base.name === \"async\" &&\n        this.state.noArrowAt.includes(startLoc.index)\n      ) {\n        this.next();\n\n        const node = this.startNodeAt<N.CallExpression>(startLoc);\n        node.callee = base;\n        node.arguments = super.parseCallExpressionArguments(tt.parenR);\n        base = this.finishNode(node, \"CallExpression\");\n      } else if (\n        base.type === \"Identifier\" &&\n        base.name === \"async\" &&\n        this.match(tt.lt)\n      ) {\n        const state = this.state.clone();\n        const arrow = this.tryParse(\n          abort => this.parseAsyncArrowWithTypeParameters(startLoc) || abort(),\n          state,\n        );\n\n        /*:: invariant(arrow.node != null) */\n        // @ts-expect-error: refine tryParse typings\n        if (!arrow.error && !arrow.aborted) return arrow.node;\n\n        const result = this.tryParse(\n          () => super.parseSubscripts(base, startLoc, noCalls),\n          state,\n        );\n\n        if (result.node && !result.error) return result.node;\n\n        if (arrow.node) {\n          this.state = arrow.failState;\n          // @ts-expect-error: refine tryParse typings\n          return arrow.node;\n        }\n\n        if (result.node) {\n          this.state = result.failState;\n          return result.node;\n        }\n\n        throw arrow.error || result.error;\n      }\n\n      return super.parseSubscripts(base, startLoc, noCalls);\n    }\n\n    parseSubscript(\n      base: N.Expression,\n\n      startLoc: Position,\n      noCalls: boolean | undefined | null,\n      subscriptState: N.ParseSubscriptState,\n    ): N.Expression {\n      if (this.match(tt.questionDot) && this.isLookaheadToken_lt()) {\n        subscriptState.optionalChainMember = true;\n        if (noCalls) {\n          subscriptState.stop = true;\n          return base;\n        }\n        this.next();\n        const node = this.startNodeAt<N.OptionalCallExpression>(startLoc);\n        node.callee = base;\n        node.typeArguments = this.flowParseTypeParameterInstantiation();\n        this.expect(tt.parenL);\n        node.arguments = this.parseCallExpressionArguments(tt.parenR);\n        node.optional = true;\n        return this.finishCallExpression(node, /* optional */ true);\n      } else if (!noCalls && this.shouldParseTypes() && this.match(tt.lt)) {\n        const node = this.startNodeAt<\n          N.OptionalCallExpression | N.CallExpression\n        >(startLoc);\n        node.callee = base;\n\n        const result = this.tryParse(() => {\n          node.typeArguments =\n            this.flowParseTypeParameterInstantiationCallOrNew();\n          this.expect(tt.parenL);\n          node.arguments = super.parseCallExpressionArguments(tt.parenR);\n          if (subscriptState.optionalChainMember) {\n            (node as Undone<N.OptionalCallExpression>).optional = false;\n          }\n          return this.finishCallExpression(\n            node,\n            subscriptState.optionalChainMember,\n          );\n        });\n\n        if (result.node) {\n          if (result.error) this.state = result.failState;\n          return result.node;\n        }\n      }\n\n      return super.parseSubscript(\n        base,\n\n        startLoc,\n        noCalls,\n        subscriptState,\n      );\n    }\n\n    parseNewCallee(node: N.NewExpression): void {\n      super.parseNewCallee(node);\n\n      let targs = null;\n      if (this.shouldParseTypes() && this.match(tt.lt)) {\n        targs = this.tryParse(() =>\n          this.flowParseTypeParameterInstantiationCallOrNew(),\n        ).node;\n      }\n      node.typeArguments = targs;\n    }\n\n    parseAsyncArrowWithTypeParameters(\n      startLoc: Position,\n    ): N.ArrowFunctionExpression | undefined | null {\n      const node = this.startNodeAt<N.ArrowFunctionExpression>(startLoc);\n      this.parseFunctionParams(node, false);\n      if (!this.parseArrow(node)) return;\n      return super.parseArrowExpression(\n        node,\n        /* params */ undefined,\n        /* isAsync */ true,\n      );\n    }\n\n    readToken_mult_modulo(code: number): void {\n      const next = this.input.charCodeAt(this.state.pos + 1);\n      if (\n        code === charCodes.asterisk &&\n        next === charCodes.slash &&\n        this.state.hasFlowComment\n      ) {\n        this.state.hasFlowComment = false;\n        this.state.pos += 2;\n        this.nextToken();\n        return;\n      }\n\n      super.readToken_mult_modulo(code);\n    }\n\n    readToken_pipe_amp(code: number): void {\n      const next = this.input.charCodeAt(this.state.pos + 1);\n      if (\n        code === charCodes.verticalBar &&\n        next === charCodes.rightCurlyBrace\n      ) {\n        // '|}'\n        this.finishOp(tt.braceBarR, 2);\n        return;\n      }\n\n      super.readToken_pipe_amp(code);\n    }\n\n    parseTopLevel(file: N.File, program: N.Program): N.File {\n      const fileNode = super.parseTopLevel(file, program);\n      if (this.state.hasFlowComment) {\n        this.raise(\n          FlowErrors.UnterminatedFlowComment,\n          this.state.curPosition(),\n        );\n      }\n      return fileNode;\n    }\n\n    skipBlockComment(): N.CommentBlock | undefined {\n      if (this.hasPlugin(\"flowComments\") && this.skipFlowComment()) {\n        if (this.state.hasFlowComment) {\n          throw this.raise(FlowErrors.NestedFlowComment, this.state.startLoc);\n        }\n        this.hasFlowCommentCompletion();\n        const commentSkip = this.skipFlowComment();\n        if (commentSkip) {\n          this.state.pos += commentSkip;\n          this.state.hasFlowComment = true;\n        }\n        return;\n      }\n\n      return super.skipBlockComment(this.state.hasFlowComment ? \"*-/\" : \"*/\");\n    }\n\n    skipFlowComment(): number | false {\n      const { pos } = this.state;\n      let shiftToFirstNonWhiteSpace = 2;\n      while (\n        [charCodes.space, charCodes.tab].includes(\n          // @ts-expect-error testing whether a number is included\n          this.input.charCodeAt(pos + shiftToFirstNonWhiteSpace),\n        )\n      ) {\n        shiftToFirstNonWhiteSpace++;\n      }\n\n      const ch2 = this.input.charCodeAt(shiftToFirstNonWhiteSpace + pos);\n      const ch3 = this.input.charCodeAt(shiftToFirstNonWhiteSpace + pos + 1);\n\n      if (ch2 === charCodes.colon && ch3 === charCodes.colon) {\n        return shiftToFirstNonWhiteSpace + 2; // check for /*::\n      }\n      if (\n        this.input.slice(\n          shiftToFirstNonWhiteSpace + pos,\n          shiftToFirstNonWhiteSpace + pos + 12,\n        ) === \"flow-include\"\n      ) {\n        return shiftToFirstNonWhiteSpace + 12; // check for /*flow-include\n      }\n      if (ch2 === charCodes.colon && ch3 !== charCodes.colon) {\n        return shiftToFirstNonWhiteSpace; // check for /*:, advance up to :\n      }\n      return false;\n    }\n\n    hasFlowCommentCompletion(): void {\n      const end = this.input.indexOf(\"*/\", this.state.pos);\n      if (end === -1) {\n        throw this.raise(Errors.UnterminatedComment, this.state.curPosition());\n      }\n    }\n\n    // Flow enum parsing\n\n    flowEnumErrorBooleanMemberNotInitialized(\n      loc: Position,\n      {\n        enumName,\n        memberName,\n      }: {\n        enumName: string;\n        memberName: string;\n      },\n    ): void {\n      this.raise(FlowErrors.EnumBooleanMemberNotInitialized, loc, {\n        memberName,\n        enumName,\n      });\n    }\n\n    flowEnumErrorInvalidMemberInitializer(\n      loc: Position,\n      enumContext: EnumContext,\n    ) {\n      return this.raise(\n        !enumContext.explicitType\n          ? FlowErrors.EnumInvalidMemberInitializerUnknownType\n          : enumContext.explicitType === \"symbol\"\n            ? FlowErrors.EnumInvalidMemberInitializerSymbolType\n            : FlowErrors.EnumInvalidMemberInitializerPrimaryType,\n        loc,\n        enumContext,\n      );\n    }\n\n    flowEnumErrorNumberMemberNotInitialized(\n      loc: Position,\n      details: {\n        enumName: string;\n        memberName: string;\n      },\n    ): void {\n      this.raise(FlowErrors.EnumNumberMemberNotInitialized, loc, details);\n    }\n\n    flowEnumErrorStringMemberInconsistentlyInitialized(\n      node: N.Node,\n      details: {\n        enumName: string;\n      },\n    ): void {\n      this.raise(\n        FlowErrors.EnumStringMemberInconsistentlyInitialized,\n        node,\n        details,\n      );\n    }\n\n    flowEnumMemberInit(): EnumMemberInit {\n      const startLoc = this.state.startLoc;\n      const endOfInit = () => this.match(tt.comma) || this.match(tt.braceR);\n      switch (this.state.type) {\n        case tt.num: {\n          const literal = this.parseNumericLiteral(this.state.value);\n          if (endOfInit()) {\n            return { type: \"number\", loc: literal.loc.start, value: literal };\n          }\n          return { type: \"invalid\", loc: startLoc };\n        }\n        case tt.string: {\n          const literal = this.parseStringLiteral(this.state.value);\n          if (endOfInit()) {\n            return { type: \"string\", loc: literal.loc.start, value: literal };\n          }\n          return { type: \"invalid\", loc: startLoc };\n        }\n        case tt._true:\n        case tt._false: {\n          const literal = this.parseBooleanLiteral(this.match(tt._true));\n          if (endOfInit()) {\n            return {\n              type: \"boolean\",\n              loc: literal.loc.start,\n              value: literal,\n            };\n          }\n          return { type: \"invalid\", loc: startLoc };\n        }\n        default:\n          return { type: \"invalid\", loc: startLoc };\n      }\n    }\n\n    flowEnumMemberRaw(): {\n      id: N.Identifier;\n      init: EnumMemberInit;\n    } {\n      const loc = this.state.startLoc;\n      const id = this.parseIdentifier(true);\n      const init = this.eat(tt.eq)\n        ? this.flowEnumMemberInit()\n        : { type: \"none\" as const, loc };\n      return { id, init };\n    }\n\n    flowEnumCheckExplicitTypeMismatch(\n      loc: Position,\n      context: EnumContext,\n      expectedType: EnumExplicitType,\n    ): void {\n      const { explicitType } = context;\n      if (explicitType === null) {\n        return;\n      }\n      if (explicitType !== expectedType) {\n        this.flowEnumErrorInvalidMemberInitializer(loc, context);\n      }\n    }\n\n    flowEnumMembers({\n      enumName,\n      explicitType,\n    }: {\n      enumName: string;\n      explicitType: EnumExplicitType;\n    }): {\n      members: {\n        booleanMembers: Extract<\n          N.FlowEnumMember,\n          { type: \"EnumBooleanMember\" }\n        >[];\n        numberMembers: Extract<\n          N.FlowEnumMember,\n          { type: \"EnumNumberMember\" }\n        >[];\n        stringMembers: Extract<\n          N.FlowEnumMember,\n          { type: \"EnumStringMember\" }\n        >[];\n        defaultedMembers: Extract<\n          N.FlowEnumMember,\n          { type: \"EnumDefaultedMember\" }\n        >[];\n      };\n      hasUnknownMembers: boolean;\n    } {\n      const seenNames = new Set();\n      const members = {\n        // @ts-expect-error: migrate to Babel types\n        booleanMembers: [],\n        // @ts-expect-error: migrate to Babel types\n        numberMembers: [],\n        // @ts-expect-error: migrate to Babel types\n        stringMembers: [],\n        // @ts-expect-error: migrate to Babel types\n        defaultedMembers: [],\n      };\n      let hasUnknownMembers = false;\n      while (!this.match(tt.braceR)) {\n        if (this.eat(tt.ellipsis)) {\n          hasUnknownMembers = true;\n          break;\n        }\n        const memberNode = this.startNode<N.FlowEnumMember>();\n        const { id, init } = this.flowEnumMemberRaw();\n        const memberName = id.name;\n        if (memberName === \"\") {\n          continue;\n        }\n        if (/^[a-z]/.test(memberName)) {\n          this.raise(FlowErrors.EnumInvalidMemberName, id, {\n            memberName,\n            suggestion: memberName[0].toUpperCase() + memberName.slice(1),\n            enumName,\n          });\n        }\n        if (seenNames.has(memberName)) {\n          this.raise(FlowErrors.EnumDuplicateMemberName, id, {\n            memberName,\n            enumName,\n          });\n        }\n        seenNames.add(memberName);\n        const context = { enumName, explicitType, memberName };\n        memberNode.id = id;\n        switch (init.type) {\n          case \"boolean\": {\n            this.flowEnumCheckExplicitTypeMismatch(\n              init.loc,\n              context,\n              \"boolean\",\n            );\n            memberNode.init = init.value;\n            members.booleanMembers.push(\n              this.finishNode(memberNode, \"EnumBooleanMember\"),\n            );\n            break;\n          }\n          case \"number\": {\n            this.flowEnumCheckExplicitTypeMismatch(init.loc, context, \"number\");\n            memberNode.init = init.value;\n            members.numberMembers.push(\n              this.finishNode(memberNode, \"EnumNumberMember\"),\n            );\n            break;\n          }\n          case \"string\": {\n            this.flowEnumCheckExplicitTypeMismatch(init.loc, context, \"string\");\n            memberNode.init = init.value;\n            members.stringMembers.push(\n              this.finishNode(memberNode, \"EnumStringMember\"),\n            );\n            break;\n          }\n          case \"invalid\": {\n            throw this.flowEnumErrorInvalidMemberInitializer(init.loc, context);\n          }\n          case \"none\": {\n            switch (explicitType) {\n              case \"boolean\":\n                this.flowEnumErrorBooleanMemberNotInitialized(\n                  init.loc,\n                  context,\n                );\n                break;\n              case \"number\":\n                this.flowEnumErrorNumberMemberNotInitialized(init.loc, context);\n                break;\n              default:\n                members.defaultedMembers.push(\n                  this.finishNode(memberNode, \"EnumDefaultedMember\"),\n                );\n            }\n          }\n        }\n\n        if (!this.match(tt.braceR)) {\n          this.expect(tt.comma);\n        }\n      }\n      return { members, hasUnknownMembers };\n    }\n\n    flowEnumStringMembers(\n      initializedMembers: Array<N.Node>,\n      defaultedMembers: Array<N.Node>,\n      {\n        enumName,\n      }: {\n        enumName: string;\n      },\n    ): Array<N.Node> {\n      if (initializedMembers.length === 0) {\n        return defaultedMembers;\n      } else if (defaultedMembers.length === 0) {\n        return initializedMembers;\n      } else if (defaultedMembers.length > initializedMembers.length) {\n        for (const member of initializedMembers) {\n          this.flowEnumErrorStringMemberInconsistentlyInitialized(member, {\n            enumName,\n          });\n        }\n        return defaultedMembers;\n      } else {\n        for (const member of defaultedMembers) {\n          this.flowEnumErrorStringMemberInconsistentlyInitialized(member, {\n            enumName,\n          });\n        }\n        return initializedMembers;\n      }\n    }\n\n    flowEnumParseExplicitType({\n      enumName,\n    }: {\n      enumName: string;\n    }): EnumExplicitType {\n      if (!this.eatContextual(tt._of)) return null;\n\n      if (!tokenIsIdentifier(this.state.type)) {\n        throw this.raise(\n          FlowErrors.EnumInvalidExplicitTypeUnknownSupplied,\n          this.state.startLoc,\n          {\n            enumName,\n          },\n        );\n      }\n\n      const { value } = this.state;\n      this.next();\n\n      if (\n        value !== \"boolean\" &&\n        value !== \"number\" &&\n        value !== \"string\" &&\n        value !== \"symbol\"\n      ) {\n        this.raise(FlowErrors.EnumInvalidExplicitType, this.state.startLoc, {\n          enumName,\n          invalidEnumType: value,\n        });\n      }\n\n      return value;\n    }\n\n    flowEnumBody(node: Undone<N.FlowEnumBody>, id: N.Identifier): N.Node {\n      const enumName = id.name;\n      const nameLoc = id.loc.start;\n      const explicitType = this.flowEnumParseExplicitType({ enumName });\n      this.expect(tt.braceL);\n      const { members, hasUnknownMembers } = this.flowEnumMembers({\n        enumName,\n        explicitType,\n      });\n      node.hasUnknownMembers = hasUnknownMembers;\n\n      switch (explicitType) {\n        case \"boolean\":\n          node.explicitType = true;\n          node.members = members.booleanMembers;\n          this.expect(tt.braceR);\n          return this.finishNode(node, \"EnumBooleanBody\");\n        case \"number\":\n          node.explicitType = true;\n          node.members = members.numberMembers;\n          this.expect(tt.braceR);\n          return this.finishNode(node, \"EnumNumberBody\");\n        case \"string\":\n          node.explicitType = true;\n          node.members = this.flowEnumStringMembers(\n            members.stringMembers,\n            members.defaultedMembers,\n            { enumName },\n          );\n          this.expect(tt.braceR);\n          return this.finishNode(node, \"EnumStringBody\");\n        case \"symbol\":\n          node.members = members.defaultedMembers;\n          this.expect(tt.braceR);\n          return this.finishNode(node, \"EnumSymbolBody\");\n        default: {\n          // `explicitType` is `null`\n          const empty = () => {\n            node.members = [];\n            this.expect(tt.braceR);\n            return this.finishNode(node, \"EnumStringBody\");\n          };\n          node.explicitType = false;\n\n          const boolsLen = members.booleanMembers.length;\n          const numsLen = members.numberMembers.length;\n          const strsLen = members.stringMembers.length;\n          const defaultedLen = members.defaultedMembers.length;\n\n          if (!boolsLen && !numsLen && !strsLen && !defaultedLen) {\n            return empty();\n          } else if (!boolsLen && !numsLen) {\n            node.members = this.flowEnumStringMembers(\n              members.stringMembers,\n              members.defaultedMembers,\n              { enumName },\n            );\n            this.expect(tt.braceR);\n            return this.finishNode(node, \"EnumStringBody\");\n          } else if (!numsLen && !strsLen && boolsLen >= defaultedLen) {\n            for (const member of members.defaultedMembers) {\n              this.flowEnumErrorBooleanMemberNotInitialized(member.loc.start, {\n                enumName,\n                memberName: member.id.name,\n              });\n            }\n            node.members = members.booleanMembers;\n            this.expect(tt.braceR);\n            return this.finishNode(node, \"EnumBooleanBody\");\n          } else if (!boolsLen && !strsLen && numsLen >= defaultedLen) {\n            for (const member of members.defaultedMembers) {\n              this.flowEnumErrorNumberMemberNotInitialized(member.loc.start, {\n                enumName,\n                memberName: member.id.name,\n              });\n            }\n            node.members = members.numberMembers;\n            this.expect(tt.braceR);\n            return this.finishNode(node, \"EnumNumberBody\");\n          } else {\n            this.raise(FlowErrors.EnumInconsistentMemberValues, nameLoc, {\n              enumName,\n            });\n            return empty();\n          }\n        }\n      }\n    }\n\n    flowParseEnumDeclaration(\n      node: Undone<N.FlowEnumDeclaration>,\n    ): N.FlowEnumDeclaration {\n      const id = this.parseIdentifier();\n      node.id = id;\n      node.body = this.flowEnumBody(this.startNode(), id);\n      return this.finishNode(node, \"EnumDeclaration\");\n    }\n\n    // check if the next token is a tt.lt\n    isLookaheadToken_lt(): boolean {\n      const next = this.nextTokenStart();\n      if (this.input.charCodeAt(next) === charCodes.lessThan) {\n        const afterNext = this.input.charCodeAt(next + 1);\n        return (\n          afterNext !== charCodes.lessThan && afterNext !== charCodes.equalsTo\n        );\n      }\n      return false;\n    }\n\n    maybeUnwrapTypeCastExpression(node: N.Node) {\n      return node.type === \"TypeCastExpression\" ? node.expression : node;\n    }\n  };\n","const entities: {\n  __proto__: null;\n  [name: string]: string;\n} = {\n  __proto__: null,\n  quot: \"\\u0022\",\n  amp: \"&\",\n  apos: \"\\u0027\",\n  lt: \"<\",\n  gt: \">\",\n  nbsp: \"\\u00A0\",\n  iexcl: \"\\u00A1\",\n  cent: \"\\u00A2\",\n  pound: \"\\u00A3\",\n  curren: \"\\u00A4\",\n  yen: \"\\u00A5\",\n  brvbar: \"\\u00A6\",\n  sect: \"\\u00A7\",\n  uml: \"\\u00A8\",\n  copy: \"\\u00A9\",\n  ordf: \"\\u00AA\",\n  laquo: \"\\u00AB\",\n  not: \"\\u00AC\",\n  shy: \"\\u00AD\",\n  reg: \"\\u00AE\",\n  macr: \"\\u00AF\",\n  deg: \"\\u00B0\",\n  plusmn: \"\\u00B1\",\n  sup2: \"\\u00B2\",\n  sup3: \"\\u00B3\",\n  acute: \"\\u00B4\",\n  micro: \"\\u00B5\",\n  para: \"\\u00B6\",\n  middot: \"\\u00B7\",\n  cedil: \"\\u00B8\",\n  sup1: \"\\u00B9\",\n  ordm: \"\\u00BA\",\n  raquo: \"\\u00BB\",\n  frac14: \"\\u00BC\",\n  frac12: \"\\u00BD\",\n  frac34: \"\\u00BE\",\n  iquest: \"\\u00BF\",\n  Agrave: \"\\u00C0\",\n  Aacute: \"\\u00C1\",\n  Acirc: \"\\u00C2\",\n  Atilde: \"\\u00C3\",\n  Auml: \"\\u00C4\",\n  Aring: \"\\u00C5\",\n  AElig: \"\\u00C6\",\n  Ccedil: \"\\u00C7\",\n  Egrave: \"\\u00C8\",\n  Eacute: \"\\u00C9\",\n  Ecirc: \"\\u00CA\",\n  Euml: \"\\u00CB\",\n  Igrave: \"\\u00CC\",\n  Iacute: \"\\u00CD\",\n  Icirc: \"\\u00CE\",\n  Iuml: \"\\u00CF\",\n  ETH: \"\\u00D0\",\n  Ntilde: \"\\u00D1\",\n  Ograve: \"\\u00D2\",\n  Oacute: \"\\u00D3\",\n  Ocirc: \"\\u00D4\",\n  Otilde: \"\\u00D5\",\n  Ouml: \"\\u00D6\",\n  times: \"\\u00D7\",\n  Oslash: \"\\u00D8\",\n  Ugrave: \"\\u00D9\",\n  Uacute: \"\\u00DA\",\n  Ucirc: \"\\u00DB\",\n  Uuml: \"\\u00DC\",\n  Yacute: \"\\u00DD\",\n  THORN: \"\\u00DE\",\n  szlig: \"\\u00DF\",\n  agrave: \"\\u00E0\",\n  aacute: \"\\u00E1\",\n  acirc: \"\\u00E2\",\n  atilde: \"\\u00E3\",\n  auml: \"\\u00E4\",\n  aring: \"\\u00E5\",\n  aelig: \"\\u00E6\",\n  ccedil: \"\\u00E7\",\n  egrave: \"\\u00E8\",\n  eacute: \"\\u00E9\",\n  ecirc: \"\\u00EA\",\n  euml: \"\\u00EB\",\n  igrave: \"\\u00EC\",\n  iacute: \"\\u00ED\",\n  icirc: \"\\u00EE\",\n  iuml: \"\\u00EF\",\n  eth: \"\\u00F0\",\n  ntilde: \"\\u00F1\",\n  ograve: \"\\u00F2\",\n  oacute: \"\\u00F3\",\n  ocirc: \"\\u00F4\",\n  otilde: \"\\u00F5\",\n  ouml: \"\\u00F6\",\n  divide: \"\\u00F7\",\n  oslash: \"\\u00F8\",\n  ugrave: \"\\u00F9\",\n  uacute: \"\\u00FA\",\n  ucirc: \"\\u00FB\",\n  uuml: \"\\u00FC\",\n  yacute: \"\\u00FD\",\n  thorn: \"\\u00FE\",\n  yuml: \"\\u00FF\",\n  OElig: \"\\u0152\",\n  oelig: \"\\u0153\",\n  Scaron: \"\\u0160\",\n  scaron: \"\\u0161\",\n  Yuml: \"\\u0178\",\n  fnof: \"\\u0192\",\n  circ: \"\\u02C6\",\n  tilde: \"\\u02DC\",\n  Alpha: \"\\u0391\",\n  Beta: \"\\u0392\",\n  Gamma: \"\\u0393\",\n  Delta: \"\\u0394\",\n  Epsilon: \"\\u0395\",\n  Zeta: \"\\u0396\",\n  Eta: \"\\u0397\",\n  Theta: \"\\u0398\",\n  Iota: \"\\u0399\",\n  Kappa: \"\\u039A\",\n  Lambda: \"\\u039B\",\n  Mu: \"\\u039C\",\n  Nu: \"\\u039D\",\n  Xi: \"\\u039E\",\n  Omicron: \"\\u039F\",\n  Pi: \"\\u03A0\",\n  Rho: \"\\u03A1\",\n  Sigma: \"\\u03A3\",\n  Tau: \"\\u03A4\",\n  Upsilon: \"\\u03A5\",\n  Phi: \"\\u03A6\",\n  Chi: \"\\u03A7\",\n  Psi: \"\\u03A8\",\n  Omega: \"\\u03A9\",\n  alpha: \"\\u03B1\",\n  beta: \"\\u03B2\",\n  gamma: \"\\u03B3\",\n  delta: \"\\u03B4\",\n  epsilon: \"\\u03B5\",\n  zeta: \"\\u03B6\",\n  eta: \"\\u03B7\",\n  theta: \"\\u03B8\",\n  iota: \"\\u03B9\",\n  kappa: \"\\u03BA\",\n  lambda: \"\\u03BB\",\n  mu: \"\\u03BC\",\n  nu: \"\\u03BD\",\n  xi: \"\\u03BE\",\n  omicron: \"\\u03BF\",\n  pi: \"\\u03C0\",\n  rho: \"\\u03C1\",\n  sigmaf: \"\\u03C2\",\n  sigma: \"\\u03C3\",\n  tau: \"\\u03C4\",\n  upsilon: \"\\u03C5\",\n  phi: \"\\u03C6\",\n  chi: \"\\u03C7\",\n  psi: \"\\u03C8\",\n  omega: \"\\u03C9\",\n  thetasym: \"\\u03D1\",\n  upsih: \"\\u03D2\",\n  piv: \"\\u03D6\",\n  ensp: \"\\u2002\",\n  emsp: \"\\u2003\",\n  thinsp: \"\\u2009\",\n  zwnj: \"\\u200C\",\n  zwj: \"\\u200D\",\n  lrm: \"\\u200E\",\n  rlm: \"\\u200F\",\n  ndash: \"\\u2013\",\n  mdash: \"\\u2014\",\n  lsquo: \"\\u2018\",\n  rsquo: \"\\u2019\",\n  sbquo: \"\\u201A\",\n  ldquo: \"\\u201C\",\n  rdquo: \"\\u201D\",\n  bdquo: \"\\u201E\",\n  dagger: \"\\u2020\",\n  Dagger: \"\\u2021\",\n  bull: \"\\u2022\",\n  hellip: \"\\u2026\",\n  permil: \"\\u2030\",\n  prime: \"\\u2032\",\n  Prime: \"\\u2033\",\n  lsaquo: \"\\u2039\",\n  rsaquo: \"\\u203A\",\n  oline: \"\\u203E\",\n  frasl: \"\\u2044\",\n  euro: \"\\u20AC\",\n  image: \"\\u2111\",\n  weierp: \"\\u2118\",\n  real: \"\\u211C\",\n  trade: \"\\u2122\",\n  alefsym: \"\\u2135\",\n  larr: \"\\u2190\",\n  uarr: \"\\u2191\",\n  rarr: \"\\u2192\",\n  darr: \"\\u2193\",\n  harr: \"\\u2194\",\n  crarr: \"\\u21B5\",\n  lArr: \"\\u21D0\",\n  uArr: \"\\u21D1\",\n  rArr: \"\\u21D2\",\n  dArr: \"\\u21D3\",\n  hArr: \"\\u21D4\",\n  forall: \"\\u2200\",\n  part: \"\\u2202\",\n  exist: \"\\u2203\",\n  empty: \"\\u2205\",\n  nabla: \"\\u2207\",\n  isin: \"\\u2208\",\n  notin: \"\\u2209\",\n  ni: \"\\u220B\",\n  prod: \"\\u220F\",\n  sum: \"\\u2211\",\n  minus: \"\\u2212\",\n  lowast: \"\\u2217\",\n  radic: \"\\u221A\",\n  prop: \"\\u221D\",\n  infin: \"\\u221E\",\n  ang: \"\\u2220\",\n  and: \"\\u2227\",\n  or: \"\\u2228\",\n  cap: \"\\u2229\",\n  cup: \"\\u222A\",\n  int: \"\\u222B\",\n  there4: \"\\u2234\",\n  sim: \"\\u223C\",\n  cong: \"\\u2245\",\n  asymp: \"\\u2248\",\n  ne: \"\\u2260\",\n  equiv: \"\\u2261\",\n  le: \"\\u2264\",\n  ge: \"\\u2265\",\n  sub: \"\\u2282\",\n  sup: \"\\u2283\",\n  nsub: \"\\u2284\",\n  sube: \"\\u2286\",\n  supe: \"\\u2287\",\n  oplus: \"\\u2295\",\n  otimes: \"\\u2297\",\n  perp: \"\\u22A5\",\n  sdot: \"\\u22C5\",\n  lceil: \"\\u2308\",\n  rceil: \"\\u2309\",\n  lfloor: \"\\u230A\",\n  rfloor: \"\\u230B\",\n  lang: \"\\u2329\",\n  rang: \"\\u232A\",\n  loz: \"\\u25CA\",\n  spades: \"\\u2660\",\n  clubs: \"\\u2663\",\n  hearts: \"\\u2665\",\n  diams: \"\\u2666\",\n} as const;\nexport default entities;\n","import * as charCodes from \"charcodes\";\n\nimport XHTMLEntities from \"./xhtml.ts\";\nimport type Parser from \"../../parser/index.ts\";\nimport type { ExpressionErrors } from \"../../parser/util.ts\";\nimport {\n  tokenComesBeforeExpression,\n  tokenIsKeyword,\n  tokenLabelName,\n  type TokenType,\n  tt,\n} from \"../../tokenizer/types.ts\";\nimport type { TokContext } from \"../../tokenizer/context.ts\";\nimport { types as tc } from \"../../tokenizer/context.ts\";\nimport type * as N from \"../../types.ts\";\nimport { isIdentifierChar, isIdentifierStart } from \"../../util/identifier.ts\";\nimport type { Position } from \"../../util/location.ts\";\nimport { isNewLine } from \"../../util/whitespace.ts\";\nimport { Errors, ParseErrorEnum } from \"../../parse-error.ts\";\nimport type { Undone } from \"../../parser/node.ts\";\n\n/* eslint sort-keys: \"error\" */\nconst JsxErrors = ParseErrorEnum`jsx`({\n  AttributeIsEmpty:\n    \"JSX attributes must only be assigned a non-empty expression.\",\n  MissingClosingTagElement: ({ openingTagName }: { openingTagName: string }) =>\n    `Expected corresponding JSX closing tag for <${openingTagName}>.`,\n  MissingClosingTagFragment: \"Expected corresponding JSX closing tag for <>.\",\n  UnexpectedSequenceExpression:\n    \"Sequence expressions cannot be directly nested inside JSX. Did you mean to wrap it in parentheses (...)?\",\n  // FIXME: Unify with Errors.UnexpectedToken\n  UnexpectedToken: ({\n    unexpected,\n    HTMLEntity,\n  }: {\n    unexpected: string;\n    HTMLEntity: string;\n  }) =>\n    `Unexpected token \\`${unexpected}\\`. Did you mean \\`${HTMLEntity}\\` or \\`{'${unexpected}'}\\`?`,\n  UnsupportedJsxValue:\n    \"JSX value should be either an expression or a quoted JSX text.\",\n  UnterminatedJsxContent: \"Unterminated JSX contents.\",\n  UnwrappedAdjacentJSXElements:\n    \"Adjacent JSX elements must be wrapped in an enclosing tag. Did you want a JSX fragment <>...</>?\",\n});\n\n/* eslint-disable sort-keys */\n\nfunction isFragment(object?: N.JSXTag | null): object is N.JSXFragmentTag {\n  return object\n    ? object.type === \"JSXOpeningFragment\" ||\n        object.type === \"JSXClosingFragment\"\n    : false;\n}\n\n// Transforms JSX element name to string.\n\nfunction getQualifiedJSXName(\n  object: N.JSXIdentifier | N.JSXNamespacedName | N.JSXMemberExpression,\n): string {\n  if (object.type === \"JSXIdentifier\") {\n    return object.name;\n  }\n\n  if (object.type === \"JSXNamespacedName\") {\n    return object.namespace.name + \":\" + object.name.name;\n  }\n\n  if (object.type === \"JSXMemberExpression\") {\n    return (\n      getQualifiedJSXName(object.object) +\n      \".\" +\n      getQualifiedJSXName(object.property)\n    );\n  }\n\n  // istanbul ignore next\n  // @ts-expect-error - object is 'never'\n  throw new Error(\"Node had unexpected type: \" + object.type);\n}\n\nexport interface IJSXParserMixin {\n  jsxParseOpeningElementAfterName(\n    node: N.JSXOpeningElement,\n  ): N.JSXOpeningElement;\n}\n\nexport default (superClass: typeof Parser) =>\n  class JSXParserMixin extends superClass implements Parser, IJSXParserMixin {\n    // Reads inline JSX contents token.\n\n    jsxReadToken(): void {\n      let out = \"\";\n      let chunkStart = this.state.pos;\n      for (;;) {\n        if (this.state.pos >= this.length) {\n          throw this.raise(\n            JsxErrors.UnterminatedJsxContent,\n            this.state.startLoc,\n          );\n        }\n\n        const ch = this.input.charCodeAt(this.state.pos);\n\n        switch (ch) {\n          case charCodes.lessThan:\n          case charCodes.leftCurlyBrace:\n            if (this.state.pos === this.state.start) {\n              if (ch === charCodes.lessThan && this.state.canStartJSXElement) {\n                ++this.state.pos;\n                this.finishToken(tt.jsxTagStart);\n              } else {\n                super.getTokenFromCode(ch);\n              }\n              return;\n            }\n            out += this.input.slice(chunkStart, this.state.pos);\n            this.finishToken(tt.jsxText, out);\n            return;\n\n          case charCodes.ampersand:\n            out += this.input.slice(chunkStart, this.state.pos);\n            out += this.jsxReadEntity();\n            chunkStart = this.state.pos;\n            break;\n\n          case charCodes.greaterThan:\n          case charCodes.rightCurlyBrace:\n            if (process.env.BABEL_8_BREAKING) {\n              this.raise(JsxErrors.UnexpectedToken, this.state.curPosition(), {\n                unexpected: this.input[this.state.pos],\n                HTMLEntity:\n                  ch === charCodes.rightCurlyBrace ? \"&rbrace;\" : \"&gt;\",\n              });\n            }\n          /* falls through */\n\n          default:\n            if (isNewLine(ch)) {\n              out += this.input.slice(chunkStart, this.state.pos);\n              out += this.jsxReadNewLine(true);\n              chunkStart = this.state.pos;\n            } else {\n              ++this.state.pos;\n            }\n        }\n      }\n    }\n\n    jsxReadNewLine(normalizeCRLF: boolean): string {\n      const ch = this.input.charCodeAt(this.state.pos);\n      let out;\n      ++this.state.pos;\n      if (\n        ch === charCodes.carriageReturn &&\n        this.input.charCodeAt(this.state.pos) === charCodes.lineFeed\n      ) {\n        ++this.state.pos;\n        out = normalizeCRLF ? \"\\n\" : \"\\r\\n\";\n      } else {\n        out = String.fromCharCode(ch);\n      }\n      ++this.state.curLine;\n      this.state.lineStart = this.state.pos;\n\n      return out;\n    }\n\n    jsxReadString(quote: number): void {\n      let out = \"\";\n      let chunkStart = ++this.state.pos;\n      for (;;) {\n        if (this.state.pos >= this.length) {\n          throw this.raise(Errors.UnterminatedString, this.state.startLoc);\n        }\n\n        const ch = this.input.charCodeAt(this.state.pos);\n        if (ch === quote) break;\n        if (ch === charCodes.ampersand) {\n          out += this.input.slice(chunkStart, this.state.pos);\n          out += this.jsxReadEntity();\n          chunkStart = this.state.pos;\n        } else if (isNewLine(ch)) {\n          out += this.input.slice(chunkStart, this.state.pos);\n          out += this.jsxReadNewLine(false);\n          chunkStart = this.state.pos;\n        } else {\n          ++this.state.pos;\n        }\n      }\n      out += this.input.slice(chunkStart, this.state.pos++);\n      this.finishToken(tt.string, out);\n    }\n\n    jsxReadEntity(): string {\n      const startPos = ++this.state.pos;\n      if (this.codePointAtPos(this.state.pos) === charCodes.numberSign) {\n        ++this.state.pos;\n\n        let radix = 10;\n        if (this.codePointAtPos(this.state.pos) === charCodes.lowercaseX) {\n          radix = 16;\n          ++this.state.pos;\n        }\n\n        const codePoint = this.readInt(\n          radix,\n          /* len */ undefined,\n          /* forceLen */ false,\n          /* allowNumSeparator */ \"bail\",\n        );\n        if (\n          codePoint !== null &&\n          this.codePointAtPos(this.state.pos) === charCodes.semicolon\n        ) {\n          ++this.state.pos;\n          return String.fromCodePoint(codePoint);\n        }\n      } else {\n        let count = 0;\n        let semi = false;\n        while (\n          count++ < 10 &&\n          this.state.pos < this.length &&\n          !(semi = this.codePointAtPos(this.state.pos) === charCodes.semicolon)\n        ) {\n          ++this.state.pos;\n        }\n\n        if (semi) {\n          const desc = this.input.slice(startPos, this.state.pos);\n          const entity = XHTMLEntities[desc];\n          ++this.state.pos;\n\n          if (entity) {\n            return entity;\n          }\n        }\n      }\n\n      // Not a valid entity\n      this.state.pos = startPos;\n      return \"&\";\n    }\n\n    // Read a JSX identifier (valid tag or attribute name).\n    //\n    // Optimized version since JSX identifiers can\"t contain\n    // escape characters and so can be read as single slice.\n    // Also assumes that first character was already checked\n    // by isIdentifierStart in readToken.\n\n    jsxReadWord(): void {\n      let ch;\n      const start = this.state.pos;\n      do {\n        ch = this.input.charCodeAt(++this.state.pos);\n      } while (isIdentifierChar(ch) || ch === charCodes.dash);\n      this.finishToken(tt.jsxName, this.input.slice(start, this.state.pos));\n    }\n\n    // Parse next token as JSX identifier\n\n    jsxParseIdentifier(): N.JSXIdentifier {\n      const node = this.startNode<N.JSXIdentifier>();\n      if (this.match(tt.jsxName)) {\n        node.name = this.state.value;\n      } else if (tokenIsKeyword(this.state.type)) {\n        node.name = tokenLabelName(this.state.type);\n      } else {\n        this.unexpected();\n      }\n      this.next();\n      return this.finishNode(node, \"JSXIdentifier\");\n    }\n\n    // Parse namespaced identifier.\n\n    jsxParseNamespacedName(): N.JSXNamespacedName | N.JSXIdentifier {\n      const startLoc = this.state.startLoc;\n      const name = this.jsxParseIdentifier();\n      if (!this.eat(tt.colon)) return name;\n\n      const node = this.startNodeAt<N.JSXNamespacedName>(startLoc);\n      node.namespace = name;\n      node.name = this.jsxParseIdentifier();\n      return this.finishNode(node, \"JSXNamespacedName\");\n    }\n\n    // Parses element name in any form - namespaced, member\n    // or single identifier.\n\n    jsxParseElementName():\n      | N.JSXIdentifier\n      | N.JSXNamespacedName\n      | N.JSXMemberExpression {\n      const startLoc = this.state.startLoc;\n      let node: N.JSXIdentifier | N.JSXNamespacedName | N.JSXMemberExpression =\n        this.jsxParseNamespacedName();\n      if (node.type === \"JSXNamespacedName\") {\n        return node;\n      }\n      while (this.eat(tt.dot)) {\n        const newNode = this.startNodeAt<N.JSXMemberExpression>(startLoc);\n        newNode.object = node;\n        newNode.property = this.jsxParseIdentifier();\n        node = this.finishNode(newNode, \"JSXMemberExpression\");\n      }\n      return node;\n    }\n\n    // Parses any type of JSX attribute value.\n\n    jsxParseAttributeValue():\n      | N.JSXExpressionContainer\n      | N.JSXElement\n      | N.StringLiteral {\n      let node;\n      switch (this.state.type) {\n        case tt.braceL:\n          node = this.startNode();\n          this.setContext(tc.brace);\n          this.next();\n          node = this.jsxParseExpressionContainer(node, tc.j_oTag);\n          if (node.expression.type === \"JSXEmptyExpression\") {\n            this.raise(JsxErrors.AttributeIsEmpty, node);\n          }\n          return node;\n\n        case tt.jsxTagStart:\n        case tt.string:\n          return this.parseExprAtom() as N.JSXElement | N.StringLiteral;\n\n        default:\n          throw this.raise(JsxErrors.UnsupportedJsxValue, this.state.startLoc);\n      }\n    }\n\n    // JSXEmptyExpression is unique type since it doesn't actually parse anything,\n    // and so it should start at the end of last read token (left brace) and finish\n    // at the beginning of the next one (right brace).\n\n    jsxParseEmptyExpression(): N.JSXEmptyExpression {\n      const node = this.startNodeAt(this.state.lastTokEndLoc);\n      return this.finishNodeAt(node, \"JSXEmptyExpression\", this.state.startLoc);\n    }\n\n    // Parse JSX spread child\n\n    jsxParseSpreadChild(node: Undone<N.JSXSpreadChild>): N.JSXSpreadChild {\n      this.next(); // ellipsis\n      node.expression = this.parseExpression();\n      this.setContext(tc.j_expr);\n      this.state.canStartJSXElement = true;\n      this.expect(tt.braceR);\n\n      return this.finishNode(node, \"JSXSpreadChild\");\n    }\n\n    // Parses JSX expression enclosed into curly brackets.\n\n    jsxParseExpressionContainer(\n      node: Undone<N.JSXExpressionContainer>,\n      previousContext: TokContext,\n    ): N.JSXExpressionContainer {\n      if (this.match(tt.braceR)) {\n        node.expression = this.jsxParseEmptyExpression();\n      } else {\n        const expression = this.parseExpression();\n\n        if (process.env.BABEL_8_BREAKING) {\n          if (\n            expression.type === \"SequenceExpression\" &&\n            !expression.extra?.parenthesized\n          ) {\n            this.raise(\n              JsxErrors.UnexpectedSequenceExpression,\n              expression.expressions[1],\n            );\n          }\n        }\n\n        node.expression = expression;\n      }\n      this.setContext(previousContext);\n      this.state.canStartJSXElement = true;\n      this.expect(tt.braceR);\n\n      return this.finishNode(node, \"JSXExpressionContainer\");\n    }\n\n    // Parses following JSX attribute name-value pair.\n\n    jsxParseAttribute(): N.JSXAttribute | N.JSXSpreadAttribute {\n      const node = this.startNode<N.JSXAttribute | N.JSXSpreadAttribute>();\n      if (this.match(tt.braceL)) {\n        this.setContext(tc.brace);\n        this.next();\n        this.expect(tt.ellipsis);\n        node.argument = this.parseMaybeAssignAllowIn();\n        this.setContext(tc.j_oTag);\n        this.state.canStartJSXElement = true;\n        this.expect(tt.braceR);\n        return this.finishNode(node, \"JSXSpreadAttribute\");\n      }\n      node.name = this.jsxParseNamespacedName();\n      node.value = this.eat(tt.eq) ? this.jsxParseAttributeValue() : null;\n      return this.finishNode(node, \"JSXAttribute\");\n    }\n\n    // Parses JSX opening tag starting after \"<\".\n\n    jsxParseOpeningElementAt(\n      startLoc: Position,\n    ): N.JSXOpeningElement | N.JSXOpeningFragment {\n      const node = this.startNodeAt<N.JSXOpeningElement | N.JSXOpeningFragment>(\n        startLoc,\n      );\n      if (this.eat(tt.jsxTagEnd)) {\n        return this.finishNode(node, \"JSXOpeningFragment\");\n      }\n      node.name = this.jsxParseElementName();\n      return this.jsxParseOpeningElementAfterName(\n        node as Undone<N.JSXOpeningElement>,\n      );\n    }\n\n    jsxParseOpeningElementAfterName(\n      node: Undone<N.JSXOpeningElement>,\n    ): N.JSXOpeningElement {\n      const attributes: (N.JSXAttribute | N.JSXSpreadAttribute)[] = [];\n      while (!this.match(tt.slash) && !this.match(tt.jsxTagEnd)) {\n        attributes.push(this.jsxParseAttribute());\n      }\n      node.attributes = attributes;\n      node.selfClosing = this.eat(tt.slash);\n      this.expect(tt.jsxTagEnd);\n      return this.finishNode(node, \"JSXOpeningElement\");\n    }\n\n    // Parses JSX closing tag starting after \"</\".\n\n    jsxParseClosingElementAt(\n      startLoc: Position,\n    ): N.JSXClosingElement | N.JSXClosingFragment {\n      const node = this.startNodeAt<N.JSXClosingFragment | N.JSXClosingElement>(\n        startLoc,\n      );\n      if (this.eat(tt.jsxTagEnd)) {\n        return this.finishNode(node, \"JSXClosingFragment\");\n      }\n      node.name = this.jsxParseElementName();\n      this.expect(tt.jsxTagEnd);\n      return this.finishNode(node, \"JSXClosingElement\");\n    }\n\n    // Parses entire JSX element, including it\"s opening tag\n    // (starting after \"<\"), attributes, contents and closing tag.\n\n    jsxParseElementAt(startLoc: Position): N.JSXElement | N.JSXFragment {\n      const node = this.startNodeAt<N.JSXElement | N.JSXFragment>(startLoc);\n      const children = [];\n      const openingElement = this.jsxParseOpeningElementAt(startLoc);\n      let closingElement = null;\n\n      if (!openingElement.selfClosing) {\n        contents: for (;;) {\n          switch (this.state.type) {\n            case tt.jsxTagStart:\n              startLoc = this.state.startLoc;\n              this.next();\n              if (this.eat(tt.slash)) {\n                closingElement = this.jsxParseClosingElementAt(startLoc);\n                break contents;\n              }\n              children.push(this.jsxParseElementAt(startLoc));\n              break;\n\n            case tt.jsxText:\n              children.push(this.parseLiteral(this.state.value, \"JSXText\"));\n              break;\n\n            case tt.braceL: {\n              const node = this.startNode<\n                N.JSXSpreadChild | N.JSXExpressionContainer\n              >();\n              this.setContext(tc.brace);\n              this.next();\n              if (this.match(tt.ellipsis)) {\n                children.push(this.jsxParseSpreadChild(node));\n              } else {\n                children.push(\n                  this.jsxParseExpressionContainer(node, tc.j_expr),\n                );\n              }\n\n              break;\n            }\n            // istanbul ignore next - should never happen\n            default:\n              this.unexpected();\n          }\n        }\n\n        if (\n          isFragment(openingElement) &&\n          !isFragment(closingElement) &&\n          closingElement !== null\n        ) {\n          this.raise(JsxErrors.MissingClosingTagFragment, closingElement);\n        } else if (!isFragment(openingElement) && isFragment(closingElement)) {\n          this.raise(JsxErrors.MissingClosingTagElement, closingElement, {\n            openingTagName: getQualifiedJSXName(openingElement.name),\n          });\n        } else if (!isFragment(openingElement) && !isFragment(closingElement)) {\n          if (\n            getQualifiedJSXName(closingElement.name) !==\n            getQualifiedJSXName(openingElement.name)\n          ) {\n            this.raise(JsxErrors.MissingClosingTagElement, closingElement, {\n              openingTagName: getQualifiedJSXName(openingElement.name),\n            });\n          }\n        }\n      }\n\n      if (isFragment(openingElement)) {\n        node.openingFragment = openingElement;\n        node.closingFragment = closingElement;\n      } else {\n        node.openingElement = openingElement;\n        node.closingElement = closingElement;\n      }\n      node.children = children;\n      if (this.match(tt.lt)) {\n        throw this.raise(\n          JsxErrors.UnwrappedAdjacentJSXElements,\n          this.state.startLoc,\n        );\n      }\n\n      return isFragment(openingElement)\n        ? this.finishNode(node, \"JSXFragment\")\n        : this.finishNode(node, \"JSXElement\");\n    }\n\n    // Parses entire JSX element from current position.\n\n    jsxParseElement(): N.JSXElement | N.JSXFragment {\n      const startLoc = this.state.startLoc;\n      this.next();\n      return this.jsxParseElementAt(startLoc);\n    }\n\n    setContext(newContext: TokContext) {\n      const { context } = this.state;\n      context[context.length - 1] = newContext;\n    }\n\n    // ==================================\n    // Overrides\n    // ==================================\n\n    parseExprAtom(refExpressionErrors?: ExpressionErrors | null): N.Expression {\n      if (this.match(tt.jsxTagStart)) {\n        return this.jsxParseElement();\n      } else if (\n        this.match(tt.lt) &&\n        this.input.charCodeAt(this.state.pos) !== charCodes.exclamationMark\n      ) {\n        // In case we encounter an lt token here it will always be the start of\n        // jsx as the lt sign is not allowed in places that expect an expression\n        this.replaceToken(tt.jsxTagStart);\n        return this.jsxParseElement();\n      } else {\n        return super.parseExprAtom(refExpressionErrors);\n      }\n    }\n\n    skipSpace() {\n      const curContext = this.curContext();\n      if (!curContext.preserveSpace) super.skipSpace();\n    }\n\n    getTokenFromCode(code: number): void {\n      const context = this.curContext();\n\n      if (context === tc.j_expr) {\n        this.jsxReadToken();\n        return;\n      }\n\n      if (context === tc.j_oTag || context === tc.j_cTag) {\n        if (isIdentifierStart(code)) {\n          this.jsxReadWord();\n          return;\n        }\n\n        if (code === charCodes.greaterThan) {\n          ++this.state.pos;\n          this.finishToken(tt.jsxTagEnd);\n          return;\n        }\n\n        if (\n          (code === charCodes.quotationMark || code === charCodes.apostrophe) &&\n          context === tc.j_oTag\n        ) {\n          this.jsxReadString(code);\n          return;\n        }\n      }\n\n      if (\n        code === charCodes.lessThan &&\n        this.state.canStartJSXElement &&\n        this.input.charCodeAt(this.state.pos + 1) !== charCodes.exclamationMark\n      ) {\n        ++this.state.pos;\n        this.finishToken(tt.jsxTagStart);\n        return;\n      }\n\n      super.getTokenFromCode(code);\n    }\n\n    updateContext(prevType: TokenType): void {\n      const { context, type } = this.state;\n      if (type === tt.slash && prevType === tt.jsxTagStart) {\n        // do not consider JSX expr -> JSX open tag -> ... anymore\n        // reconsider as closing tag context\n        context.splice(-2, 2, tc.j_cTag);\n        this.state.canStartJSXElement = false;\n      } else if (type === tt.jsxTagStart) {\n        // start opening tag context\n        context.push(tc.j_oTag);\n      } else if (type === tt.jsxTagEnd) {\n        const out = context[context.length - 1];\n        if ((out === tc.j_oTag && prevType === tt.slash) || out === tc.j_cTag) {\n          context.pop();\n          this.state.canStartJSXElement =\n            context[context.length - 1] === tc.j_expr;\n        } else {\n          this.setContext(tc.j_expr);\n          this.state.canStartJSXElement = true;\n        }\n      } else {\n        this.state.canStartJSXElement = tokenComesBeforeExpression(type);\n      }\n    }\n  };\n","import type { Position } from \"../../util/location.ts\";\nimport ScopeHandler, { NameType, Scope } from \"../../util/scope.ts\";\nimport { BindingFlag, ScopeFlag } from \"../../util/scopeflags.ts\";\nimport type * as N from \"../../types.ts\";\nimport { Errors } from \"../../parse-error.ts\";\n\nconst enum TsNameType {\n  Types = 1 << 0,\n  // enums (which are also in .types)\n  Enums = 1 << 1,\n  // const enums (which are also in .enums and .types)\n  ConstEnums = 1 << 2,\n  // classes (which are also in .lexical) and interface (which are also in .types)\n  Classes = 1 << 3,\n  // namespaces and ambient functions (or classes) are too difficult to track,\n  // especially without type analysis.\n  // We need to track them anyway, to avoid \"X is not defined\" errors\n  // when exporting them.\n  ExportOnlyBindings = 1 << 4,\n}\n\nclass TypeScriptScope extends Scope {\n  tsNames: Map<string, TsNameType> = new Map();\n}\n\n// See https://github.com/babel/babel/pull/9766#discussion_r268920730 for an\n// explanation of how typescript handles scope.\n\nexport default class TypeScriptScopeHandler extends ScopeHandler<TypeScriptScope> {\n  importsStack: Set<string>[] = [];\n\n  createScope(flags: ScopeFlag): TypeScriptScope {\n    this.importsStack.push(new Set()); // Always keep the top-level scope for export checks.\n\n    return new TypeScriptScope(flags);\n  }\n\n  enter(flags: ScopeFlag): void {\n    if (flags === ScopeFlag.TS_MODULE) {\n      this.importsStack.push(new Set());\n    }\n\n    super.enter(flags);\n  }\n\n  exit() {\n    const flags = super.exit();\n\n    if (flags === ScopeFlag.TS_MODULE) {\n      this.importsStack.pop();\n    }\n\n    return flags;\n  }\n\n  hasImport(name: string, allowShadow?: boolean) {\n    const len = this.importsStack.length;\n    if (this.importsStack[len - 1].has(name)) {\n      return true;\n    }\n    if (!allowShadow && len > 1) {\n      for (let i = 0; i < len - 1; i++) {\n        if (this.importsStack[i].has(name)) return true;\n      }\n    }\n    return false;\n  }\n\n  declareName(name: string, bindingType: BindingFlag, loc: Position) {\n    if (bindingType & BindingFlag.FLAG_TS_IMPORT) {\n      if (this.hasImport(name, true)) {\n        this.parser.raise(Errors.VarRedeclaration, loc, {\n          identifierName: name,\n        });\n      }\n      this.importsStack[this.importsStack.length - 1].add(name);\n      return;\n    }\n\n    const scope = this.currentScope();\n    let type = scope.tsNames.get(name) || 0;\n\n    if (bindingType & BindingFlag.FLAG_TS_EXPORT_ONLY) {\n      this.maybeExportDefined(scope, name);\n      scope.tsNames.set(name, type | TsNameType.ExportOnlyBindings);\n      return;\n    }\n\n    super.declareName(name, bindingType, loc);\n\n    if (bindingType & BindingFlag.KIND_TYPE) {\n      if (!(bindingType & BindingFlag.KIND_VALUE)) {\n        // \"Value\" bindings have already been registered by the superclass.\n        this.checkRedeclarationInScope(scope, name, bindingType, loc);\n        this.maybeExportDefined(scope, name);\n      }\n      type = type | TsNameType.Types;\n    }\n    if (bindingType & BindingFlag.FLAG_TS_ENUM) {\n      type = type | TsNameType.Enums;\n    }\n    if (bindingType & BindingFlag.FLAG_TS_CONST_ENUM) {\n      type = type | TsNameType.ConstEnums;\n    }\n    if (bindingType & BindingFlag.FLAG_CLASS) {\n      type = type | TsNameType.Classes;\n    }\n    if (type) scope.tsNames.set(name, type);\n  }\n\n  isRedeclaredInScope(\n    scope: TypeScriptScope,\n    name: string,\n    bindingType: BindingFlag,\n  ): boolean {\n    const type = scope.tsNames.get(name);\n    if ((type & TsNameType.Enums) > 0) {\n      if (bindingType & BindingFlag.FLAG_TS_ENUM) {\n        // Enums can be merged with other enums if they are both\n        //  const or both non-const.\n        const isConst = !!(bindingType & BindingFlag.FLAG_TS_CONST_ENUM);\n        const wasConst = (type & TsNameType.ConstEnums) > 0;\n        return isConst !== wasConst;\n      }\n      return true;\n    }\n    if (\n      bindingType & BindingFlag.FLAG_CLASS &&\n      (type & TsNameType.Classes) > 0\n    ) {\n      if (scope.names.get(name) & NameType.Lexical) {\n        // Classes can be merged with interfaces\n        return !!(bindingType & BindingFlag.KIND_VALUE);\n      } else {\n        // Interface can be merged with other classes or interfaces\n        return false;\n      }\n    }\n    if (bindingType & BindingFlag.KIND_TYPE && (type & TsNameType.Types) > 0) {\n      return true;\n    }\n\n    return super.isRedeclaredInScope(scope, name, bindingType);\n  }\n\n  checkLocalExport(id: N.Identifier) {\n    const { name } = id;\n\n    if (this.hasImport(name)) return;\n\n    const len = this.scopeStack.length;\n    for (let i = len - 1; i >= 0; i--) {\n      const scope = this.scopeStack[i];\n      const type = scope.tsNames.get(name);\n      if (\n        (type & TsNameType.Types) > 0 ||\n        (type & TsNameType.ExportOnlyBindings) > 0\n      ) {\n        return;\n      }\n    }\n\n    super.checkLocalExport(id);\n  }\n}\n","import * as charCodes from \"charcodes\";\nimport { tt, type TokenType } from \"../tokenizer/types.ts\";\nimport type {\n  AssignmentPattern,\n  TSParameterProperty,\n  Decorator,\n  Expression,\n  Identifier,\n  Node,\n  Pattern,\n  RestElement,\n  SpreadElement,\n  ObjectOrClassMember,\n  ClassMember,\n  ObjectMember,\n  TsNamedTypeElementBase,\n  PrivateName,\n  ObjectExpression,\n  ObjectPattern,\n  ArrayPattern,\n  AssignmentProperty,\n  Assignable,\n} from \"../types.ts\";\nimport type { Pos, Position } from \"../util/location.ts\";\nimport {\n  isStrictBindOnlyReservedWord,\n  isStrictBindReservedWord,\n} from \"../util/identifier.ts\";\nimport { NodeUtils, type Undone } from \"./node.ts\";\nimport { BindingFlag } from \"../util/scopeflags.ts\";\nimport type { ExpressionErrors } from \"./util.ts\";\nimport { Errors, type LValAncestor } from \"../parse-error.ts\";\nimport type Parser from \"./index.ts\";\n\nconst unwrapParenthesizedExpression = (node: Node): Node => {\n  return node.type === \"ParenthesizedExpression\"\n    ? unwrapParenthesizedExpression(node.expression)\n    : node;\n};\n\nexport const enum ParseBindingListFlags {\n  ALLOW_EMPTY = 1 << 0,\n  IS_FUNCTION_PARAMS = 1 << 1,\n  IS_CONSTRUCTOR_PARAMS = 1 << 2,\n}\n\nexport default abstract class LValParser extends NodeUtils {\n  // Forward-declaration: defined in expression.js\n  abstract parseIdentifier(liberal?: boolean): Identifier;\n  abstract parseMaybeAssign(\n    refExpressionErrors?: ExpressionErrors | null,\n    afterLeftParse?: Function,\n    refNeedsArrowPos?: Pos | null,\n  ): Expression;\n\n  abstract parseMaybeAssignAllowIn(\n    refExpressionErrors?: ExpressionErrors | null,\n    afterLeftParse?: Function,\n    refNeedsArrowPos?: Pos | null,\n  ): Expression;\n\n  abstract parseObjectLike<T extends ObjectPattern | ObjectExpression>(\n    close: TokenType,\n    isPattern: boolean,\n    isRecord?: boolean,\n    refExpressionErrors?: ExpressionErrors,\n  ): T;\n  abstract parseObjPropValue(\n    prop: any,\n    startLoc: Position | null,\n    isGenerator: boolean,\n    isAsync: boolean,\n    isPattern: boolean,\n    isAccessor: boolean,\n    refExpressionErrors?: ExpressionErrors | null,\n  ): void;\n  abstract parsePropertyName(\n    prop: ObjectOrClassMember | ClassMember | TsNamedTypeElementBase,\n  ): void;\n  abstract parsePrivateName(): PrivateName;\n  // Forward-declaration: defined in statement.js\n  abstract parseDecorator(): Decorator;\n\n  /**\n   * Convert existing expression atom to assignable pattern\n   * if possible. Also checks invalid destructuring targets:\n   *\n   * - Parenthesized Destructuring patterns\n   * - RestElement is not the last element\n   * - Missing `=` in assignment pattern\n   *\n   * NOTE: There is a corresponding \"isAssignable\" method.\n   * When this one is updated, please check if also that one needs to be updated.\n   *\n   * @param node The expression atom\n   * @param isLHS Whether we are parsing a LeftHandSideExpression.\n   *              If isLHS is `true`, the following cases are allowed: `[(a)] = [0]`, `[(a.b)] = [0]`\n   *              If isLHS is `false`, we are in an arrow function parameters list.\n   */\n  toAssignable(node: Node, isLHS: boolean = false): asserts node is Assignable {\n    let parenthesized = undefined;\n    if (node.type === \"ParenthesizedExpression\" || node.extra?.parenthesized) {\n      parenthesized = unwrapParenthesizedExpression(node);\n      if (isLHS) {\n        // an LHS can be reinterpreted to a binding pattern but not vice versa.\n        // therefore a parenthesized identifier is ambiguous until we are sure it is an assignment expression\n        // i.e. `([(a) = []] = []) => {}`\n        // see also `recordArrowParameterBindingError` signature in packages/babel-parser/src/util/expression-scope.js\n        if (parenthesized.type === \"Identifier\") {\n          this.expressionScope.recordArrowParameterBindingError(\n            Errors.InvalidParenthesizedAssignment,\n            node,\n          );\n        } else if (\n          parenthesized.type !== \"MemberExpression\" &&\n          !this.isOptionalMemberExpression(parenthesized)\n        ) {\n          // A parenthesized member expression can be in LHS but not in pattern.\n          // If the LHS is later interpreted as a pattern, `checkLVal` will throw for member expression binding\n          // i.e. `([(a.b) = []] = []) => {}`\n          this.raise(Errors.InvalidParenthesizedAssignment, node);\n        }\n      } else {\n        this.raise(Errors.InvalidParenthesizedAssignment, node);\n      }\n    }\n\n    switch (node.type) {\n      case \"Identifier\":\n      case \"ObjectPattern\":\n      case \"ArrayPattern\":\n      case \"AssignmentPattern\":\n      case \"RestElement\":\n        break;\n\n      case \"ObjectExpression\":\n        (node as Node).type = \"ObjectPattern\";\n        for (\n          let i = 0, length = node.properties.length, last = length - 1;\n          i < length;\n          i++\n        ) {\n          const prop = node.properties[i];\n          const isLast = i === last;\n          this.toAssignableObjectExpressionProp(prop, isLast, isLHS);\n\n          if (\n            isLast &&\n            (prop as Node).type === \"RestElement\" &&\n            node.extra?.trailingCommaLoc\n          ) {\n            this.raise(Errors.RestTrailingComma, node.extra.trailingCommaLoc);\n          }\n        }\n        break;\n\n      case \"ObjectProperty\": {\n        const { key, value } = node;\n        if (this.isPrivateName(key)) {\n          this.classScope.usePrivateName(\n            this.getPrivateNameSV(key),\n            key.loc.start,\n          );\n        }\n        this.toAssignable(value, isLHS);\n        break;\n      }\n\n      case \"SpreadElement\": {\n        throw new Error(\n          \"Internal @babel/parser error (this is a bug, please report it).\" +\n            \" SpreadElement should be converted by .toAssignable's caller.\",\n        );\n      }\n\n      case \"ArrayExpression\":\n        (node as Node).type = \"ArrayPattern\";\n        this.toAssignableList(\n          node.elements,\n          node.extra?.trailingCommaLoc,\n          isLHS,\n        );\n        break;\n\n      case \"AssignmentExpression\":\n        if (node.operator !== \"=\") {\n          this.raise(Errors.MissingEqInAssignment, node.left.loc.end);\n        }\n\n        (node as Node).type = \"AssignmentPattern\";\n        delete node.operator;\n        this.toAssignable(node.left, isLHS);\n        break;\n\n      case \"ParenthesizedExpression\":\n        /*::invariant (parenthesized !== undefined) */\n        this.toAssignable(parenthesized, isLHS);\n        break;\n\n      default:\n      // We don't know how to deal with this node. It will\n      // be reported by a later call to checkLVal\n    }\n  }\n\n  toAssignableObjectExpressionProp(\n    prop: Node,\n    isLast: boolean,\n    isLHS: boolean,\n  ) {\n    if (prop.type === \"ObjectMethod\") {\n      this.raise(\n        prop.kind === \"get\" || prop.kind === \"set\"\n          ? Errors.PatternHasAccessor\n          : Errors.PatternHasMethod,\n        prop.key,\n      );\n    } else if (prop.type === \"SpreadElement\") {\n      (prop as Node).type = \"RestElement\";\n      const arg = prop.argument;\n      this.checkToRestConversion(arg, /* allowPattern */ false);\n      this.toAssignable(arg, isLHS);\n\n      if (!isLast) {\n        this.raise(Errors.RestTrailingComma, prop);\n      }\n    } else {\n      this.toAssignable(prop, isLHS);\n    }\n  }\n\n  // Convert list of expression atoms to binding list.\n\n  toAssignableList(\n    exprList: (Expression | SpreadElement | RestElement)[],\n    trailingCommaLoc: Position | undefined | null,\n    isLHS: boolean,\n  ): void {\n    const end = exprList.length - 1;\n\n    for (let i = 0; i <= end; i++) {\n      const elt = exprList[i];\n      if (!elt) continue;\n\n      if (elt.type === \"SpreadElement\") {\n        (elt as unknown as RestElement).type = \"RestElement\";\n        const arg = elt.argument;\n        this.checkToRestConversion(arg, /* allowPattern */ true);\n        this.toAssignable(arg, isLHS);\n      } else {\n        this.toAssignable(elt, isLHS);\n      }\n\n      if (elt.type === \"RestElement\") {\n        if (i < end) {\n          this.raise(Errors.RestTrailingComma, elt);\n        } else if (trailingCommaLoc) {\n          this.raise(Errors.RestTrailingComma, trailingCommaLoc);\n        }\n      }\n    }\n  }\n\n  isAssignable(node: Node, isBinding?: boolean): boolean {\n    switch (node.type) {\n      case \"Identifier\":\n      case \"ObjectPattern\":\n      case \"ArrayPattern\":\n      case \"AssignmentPattern\":\n      case \"RestElement\":\n        return true;\n\n      case \"ObjectExpression\": {\n        const last = node.properties.length - 1;\n        return node.properties.every((prop, i) => {\n          return (\n            prop.type !== \"ObjectMethod\" &&\n            (i === last || prop.type !== \"SpreadElement\") &&\n            this.isAssignable(prop)\n          );\n        });\n      }\n\n      case \"ObjectProperty\":\n        return this.isAssignable(node.value);\n\n      case \"SpreadElement\":\n        return this.isAssignable(node.argument);\n\n      case \"ArrayExpression\":\n        return node.elements.every(\n          element => element === null || this.isAssignable(element),\n        );\n\n      case \"AssignmentExpression\":\n        return node.operator === \"=\";\n\n      case \"ParenthesizedExpression\":\n        return this.isAssignable(node.expression);\n\n      case \"MemberExpression\":\n      case \"OptionalMemberExpression\":\n        return !isBinding;\n\n      default:\n        return false;\n    }\n  }\n\n  // Convert list of expression atoms to a list of\n\n  toReferencedList(\n    exprList:\n      | ReadonlyArray<Expression | SpreadElement>\n      | ReadonlyArray<Expression | RestElement>,\n    // eslint-disable-next-line @typescript-eslint/no-unused-vars\n    isParenthesizedExpr?: boolean,\n  ):\n    | ReadonlyArray<Expression | SpreadElement>\n    | ReadonlyArray<Expression | RestElement> {\n    return exprList;\n  }\n\n  toReferencedListDeep(\n    exprList:\n      | ReadonlyArray<Expression | SpreadElement>\n      | ReadonlyArray<Expression | RestElement>,\n    isParenthesizedExpr?: boolean,\n  ): void {\n    this.toReferencedList(exprList, isParenthesizedExpr);\n\n    for (const expr of exprList) {\n      if (expr?.type === \"ArrayExpression\") {\n        this.toReferencedListDeep(expr.elements);\n      }\n    }\n  }\n\n  // Parses spread element.\n\n  parseSpread(\n    this: Parser,\n    refExpressionErrors?: ExpressionErrors | null,\n  ): SpreadElement {\n    const node = this.startNode<SpreadElement>();\n    this.next();\n    node.argument = this.parseMaybeAssignAllowIn(\n      refExpressionErrors,\n      undefined,\n    );\n    return this.finishNode(node, \"SpreadElement\");\n  }\n\n  // https://tc39.es/ecma262/#prod-BindingRestProperty\n  // https://tc39.es/ecma262/#prod-BindingRestElement\n  parseRestBinding(this: Parser): RestElement {\n    const node = this.startNode<RestElement>();\n    this.next(); // eat `...`\n    node.argument = this.parseBindingAtom();\n    return this.finishNode(node, \"RestElement\");\n  }\n\n  // Parses lvalue (assignable) atom.\n  parseBindingAtom(this: Parser): Pattern {\n    // https://tc39.es/ecma262/#prod-BindingPattern\n    switch (this.state.type) {\n      case tt.bracketL