import { PatchFlags } from '@vue/shared'; export { generateCodeFrame } from '@vue/shared'; import { Node as Node$1, Identifier, Function, BlockStatement as BlockStatement$1, Program, ObjectProperty } from '@babel/types'; import { ParserPlugin } from '@babel/parser'; export declare const FRAGMENT: unique symbol; export declare const TELEPORT: unique symbol; export declare const SUSPENSE: unique symbol; export declare const KEEP_ALIVE: unique symbol; export declare const BASE_TRANSITION: unique symbol; export declare const OPEN_BLOCK: unique symbol; export declare const CREATE_BLOCK: unique symbol; export declare const CREATE_ELEMENT_BLOCK: unique symbol; export declare const CREATE_VNODE: unique symbol; export declare const CREATE_ELEMENT_VNODE: unique symbol; export declare const CREATE_COMMENT: unique symbol; export declare const CREATE_TEXT: unique symbol; export declare const CREATE_STATIC: unique symbol; export declare const RESOLVE_COMPONENT: unique symbol; export declare const RESOLVE_DYNAMIC_COMPONENT: unique symbol; export declare const RESOLVE_DIRECTIVE: unique symbol; export declare const RESOLVE_FILTER: unique symbol; export declare const WITH_DIRECTIVES: unique symbol; export declare const RENDER_LIST: unique symbol; export declare const RENDER_SLOT: unique symbol; export declare const CREATE_SLOTS: unique symbol; export declare const TO_DISPLAY_STRING: unique symbol; export declare const MERGE_PROPS: unique symbol; export declare const NORMALIZE_CLASS: unique symbol; export declare const NORMALIZE_STYLE: unique symbol; export declare const NORMALIZE_PROPS: unique symbol; export declare const GUARD_REACTIVE_PROPS: unique symbol; export declare const TO_HANDLERS: unique symbol; export declare const CAMELIZE: unique symbol; export declare const CAPITALIZE: unique symbol; export declare const TO_HANDLER_KEY: unique symbol; export declare const SET_BLOCK_TRACKING: unique symbol; /** * @deprecated no longer needed in 3.5+ because we no longer hoist element nodes * but kept for backwards compat */ export declare const PUSH_SCOPE_ID: unique symbol; /** * @deprecated kept for backwards compat */ export declare const POP_SCOPE_ID: unique symbol; export declare const WITH_CTX: unique symbol; export declare const UNREF: unique symbol; export declare const IS_REF: unique symbol; export declare const WITH_MEMO: unique symbol; export declare const IS_MEMO_SAME: unique symbol; export declare const helperNameMap: Record; export declare function registerRuntimeHelpers(helpers: Record): void; type OptionalOptions = 'decodeEntities' | 'whitespace' | 'isNativeTag' | 'isBuiltInComponent' | 'expressionPlugins' | keyof CompilerCompatOptions; type MergedParserOptions = Omit, OptionalOptions> & Pick; export declare function baseParse(input: string, options?: ParserOptions): RootNode; type CompilerCompatConfig = Partial> & { MODE?: 2 | 3; }; interface CompilerCompatOptions { compatConfig?: CompilerCompatConfig; } export declare enum CompilerDeprecationTypes { COMPILER_IS_ON_ELEMENT = "COMPILER_IS_ON_ELEMENT", COMPILER_V_BIND_SYNC = "COMPILER_V_BIND_SYNC", COMPILER_V_BIND_OBJECT_ORDER = "COMPILER_V_BIND_OBJECT_ORDER", COMPILER_V_ON_NATIVE = "COMPILER_V_ON_NATIVE", COMPILER_V_IF_V_FOR_PRECEDENCE = "COMPILER_V_IF_V_FOR_PRECEDENCE", COMPILER_NATIVE_TEMPLATE = "COMPILER_NATIVE_TEMPLATE", COMPILER_INLINE_TEMPLATE = "COMPILER_INLINE_TEMPLATE", COMPILER_FILTERS = "COMPILER_FILTERS" } export declare function checkCompatEnabled(key: CompilerDeprecationTypes, context: MergedParserOptions | TransformContext, loc: SourceLocation | null, ...args: any[]): boolean; export declare function warnDeprecation(key: CompilerDeprecationTypes, context: MergedParserOptions | TransformContext, loc: SourceLocation | null, ...args: any[]): void; export type NodeTransform = (node: RootNode | TemplateChildNode, context: TransformContext) => void | (() => void) | (() => void)[]; export type DirectiveTransform = (dir: DirectiveNode, node: ElementNode, context: TransformContext, augmentor?: (ret: DirectiveTransformResult) => DirectiveTransformResult) => DirectiveTransformResult; interface DirectiveTransformResult { props: Property[]; needRuntime?: boolean | symbol; ssrTagParts?: TemplateLiteral['elements']; } export type StructuralDirectiveTransform = (node: ElementNode, dir: DirectiveNode, context: TransformContext) => void | (() => void); interface ImportItem { exp: string | ExpressionNode; path: string; } export interface TransformContext extends Required>, CompilerCompatOptions { selfName: string | null; root: RootNode; helpers: Map; components: Set; directives: Set; hoists: (JSChildNode | null)[]; imports: ImportItem[]; temps: number; cached: (CacheExpression | null)[]; identifiers: { [name: string]: number | undefined; }; scopes: { vFor: number; vSlot: number; vPre: number; vOnce: number; }; parent: ParentNode | null; grandParent: ParentNode | null; childIndex: number; currentNode: RootNode | TemplateChildNode | null; inVOnce: boolean; helper(name: T): T; removeHelper(name: T): void; helperString(name: symbol): string; replaceNode(node: TemplateChildNode): void; removeNode(node?: TemplateChildNode): void; onNodeRemoved(): void; addIdentifiers(exp: ExpressionNode | string): void; removeIdentifiers(exp: ExpressionNode | string): void; hoist(exp: string | JSChildNode | ArrayExpression): SimpleExpressionNode; cache(exp: JSChildNode, isVNode?: boolean): CacheExpression; constantCache: WeakMap; filters?: Set; } export declare function createTransformContext(root: RootNode, { filename, prefixIdentifiers, hoistStatic, hmr, cacheHandlers, nodeTransforms, directiveTransforms, transformHoist, isBuiltInComponent, isCustomElement, expressionPlugins, scopeId, slotted, ssr, inSSR, ssrCssVars, bindingMetadata, inline, isTS, onError, onWarn, compatConfig, }: TransformOptions): TransformContext; export declare function transform(root: RootNode, options: TransformOptions): void; export declare function traverseNode(node: RootNode | TemplateChildNode, context: TransformContext): void; export declare function createStructuralDirectiveTransform(name: string | RegExp, fn: StructuralDirectiveTransform): NodeTransform; export declare const transformElement: NodeTransform; export declare function resolveComponentType(node: ComponentNode, context: TransformContext, ssr?: boolean): string | symbol | CallExpression; export type PropsExpression = ObjectExpression | CallExpression | ExpressionNode; export declare function buildProps(node: ElementNode, context: TransformContext, props: ElementNode['props'] | undefined, isComponent: boolean, isDynamicComponent: boolean, ssr?: boolean): { props: PropsExpression | undefined; directives: DirectiveNode[]; patchFlag: number; dynamicPropNames: string[]; shouldUseBlock: boolean; }; export declare function buildDirectiveArgs(dir: DirectiveNode, context: TransformContext): ArrayExpression; export type Namespace = number; export declare enum Namespaces { HTML = 0, SVG = 1, MATH_ML = 2 } export declare enum NodeTypes { ROOT = 0, ELEMENT = 1, TEXT = 2, COMMENT = 3, SIMPLE_EXPRESSION = 4, INTERPOLATION = 5, ATTRIBUTE = 6, DIRECTIVE = 7, COMPOUND_EXPRESSION = 8, IF = 9, IF_BRANCH = 10, FOR = 11, TEXT_CALL = 12, VNODE_CALL = 13, JS_CALL_EXPRESSION = 14, JS_OBJECT_EXPRESSION = 15, JS_PROPERTY = 16, JS_ARRAY_EXPRESSION = 17, JS_FUNCTION_EXPRESSION = 18, JS_CONDITIONAL_EXPRESSION = 19, JS_CACHE_EXPRESSION = 20, JS_BLOCK_STATEMENT = 21, JS_TEMPLATE_LITERAL = 22, JS_IF_STATEMENT = 23, JS_ASSIGNMENT_EXPRESSION = 24, JS_SEQUENCE_EXPRESSION = 25, JS_RETURN_STATEMENT = 26 } export declare enum ElementTypes { ELEMENT = 0, COMPONENT = 1, SLOT = 2, TEMPLATE = 3 } export interface Node { type: NodeTypes; loc: SourceLocation; } export interface SourceLocation { start: Position; end: Position; source: string; } export interface Position { offset: number; line: number; column: number; } export type ParentNode = RootNode | ElementNode | IfBranchNode | ForNode; export type ExpressionNode = SimpleExpressionNode | CompoundExpressionNode; export type TemplateChildNode = ElementNode | InterpolationNode | CompoundExpressionNode | TextNode | CommentNode | IfNode | IfBranchNode | ForNode | TextCallNode; export interface RootNode extends Node { type: NodeTypes.ROOT; source: string; children: TemplateChildNode[]; helpers: Set; components: string[]; directives: string[]; hoists: (JSChildNode | null)[]; imports: ImportItem[]; cached: (CacheExpression | null)[]; temps: number; ssrHelpers?: symbol[]; codegenNode?: TemplateChildNode | JSChildNode | BlockStatement; transformed?: boolean; filters?: string[]; } export type ElementNode = PlainElementNode | ComponentNode | SlotOutletNode | TemplateNode; export interface BaseElementNode extends Node { type: NodeTypes.ELEMENT; ns: Namespace; tag: string; tagType: ElementTypes; props: Array; children: TemplateChildNode[]; isSelfClosing?: boolean; innerLoc?: SourceLocation; } export interface PlainElementNode extends BaseElementNode { tagType: ElementTypes.ELEMENT; codegenNode: VNodeCall | SimpleExpressionNode | CacheExpression | MemoExpression | undefined; ssrCodegenNode?: TemplateLiteral; } export interface ComponentNode extends BaseElementNode { tagType: ElementTypes.COMPONENT; codegenNode: VNodeCall | CacheExpression | MemoExpression | undefined; ssrCodegenNode?: CallExpression; } export interface SlotOutletNode extends BaseElementNode { tagType: ElementTypes.SLOT; codegenNode: RenderSlotCall | CacheExpression | undefined; ssrCodegenNode?: CallExpression; } export interface TemplateNode extends BaseElementNode { tagType: ElementTypes.TEMPLATE; codegenNode: undefined; } export interface TextNode extends Node { type: NodeTypes.TEXT; content: string; } export interface CommentNode extends Node { type: NodeTypes.COMMENT; content: string; } export interface AttributeNode extends Node { type: NodeTypes.ATTRIBUTE; name: string; nameLoc: SourceLocation; value: TextNode | undefined; } export interface DirectiveNode extends Node { type: NodeTypes.DIRECTIVE; /** * the normalized name without prefix or shorthands, e.g. "bind", "on" */ name: string; /** * the raw attribute name, preserving shorthand, and including arg & modifiers * this is only used during parse. */ rawName?: string; exp: ExpressionNode | undefined; arg: ExpressionNode | undefined; modifiers: SimpleExpressionNode[]; /** * optional property to cache the expression parse result for v-for */ forParseResult?: ForParseResult; } /** * Static types have several levels. * Higher levels implies lower levels. e.g. a node that can be stringified * can always be hoisted and skipped for patch. */ export declare enum ConstantTypes { NOT_CONSTANT = 0, CAN_SKIP_PATCH = 1, CAN_CACHE = 2, CAN_STRINGIFY = 3 } export interface SimpleExpressionNode extends Node { type: NodeTypes.SIMPLE_EXPRESSION; content: string; isStatic: boolean; constType: ConstantTypes; /** * - `null` means the expression is a simple identifier that doesn't need * parsing * - `false` means there was a parsing error */ ast?: Node$1 | null | false; /** * Indicates this is an identifier for a hoist vnode call and points to the * hoisted node. */ hoisted?: JSChildNode; /** * an expression parsed as the params of a function will track * the identifiers declared inside the function body. */ identifiers?: string[]; isHandlerKey?: boolean; } export interface InterpolationNode extends Node { type: NodeTypes.INTERPOLATION; content: ExpressionNode; } export interface CompoundExpressionNode extends Node { type: NodeTypes.COMPOUND_EXPRESSION; /** * - `null` means the expression is a simple identifier that doesn't need * parsing * - `false` means there was a parsing error */ ast?: Node$1 | null | false; children: (SimpleExpressionNode | CompoundExpressionNode | InterpolationNode | TextNode | string | symbol)[]; /** * an expression parsed as the params of a function will track * the identifiers declared inside the function body. */ identifiers?: string[]; isHandlerKey?: boolean; } export interface IfNode extends Node { type: NodeTypes.IF; branches: IfBranchNode[]; codegenNode?: IfConditionalExpression | CacheExpression; } export interface IfBranchNode extends Node { type: NodeTypes.IF_BRANCH; condition: ExpressionNode | undefined; children: TemplateChildNode[]; userKey?: AttributeNode | DirectiveNode; isTemplateIf?: boolean; } export interface ForNode extends Node { type: NodeTypes.FOR; source: ExpressionNode; valueAlias: ExpressionNode | undefined; keyAlias: ExpressionNode | undefined; objectIndexAlias: ExpressionNode | undefined; parseResult: ForParseResult; children: TemplateChildNode[]; codegenNode?: ForCodegenNode; } export interface ForParseResult { source: ExpressionNode; value: ExpressionNode | undefined; key: ExpressionNode | undefined; index: ExpressionNode | undefined; finalized: boolean; } export interface TextCallNode extends Node { type: NodeTypes.TEXT_CALL; content: TextNode | InterpolationNode | CompoundExpressionNode; codegenNode: CallExpression | SimpleExpressionNode; } export type TemplateTextChildNode = TextNode | InterpolationNode | CompoundExpressionNode; export interface VNodeCall extends Node { type: NodeTypes.VNODE_CALL; tag: string | symbol | CallExpression; props: PropsExpression | undefined; children: TemplateChildNode[] | TemplateTextChildNode | SlotsExpression | ForRenderListExpression | SimpleExpressionNode | CacheExpression | undefined; patchFlag: PatchFlags | undefined; dynamicProps: string | SimpleExpressionNode | undefined; directives: DirectiveArguments | undefined; isBlock: boolean; disableTracking: boolean; isComponent: boolean; } export type JSChildNode = VNodeCall | CallExpression | ObjectExpression | ArrayExpression | ExpressionNode | FunctionExpression | ConditionalExpression | CacheExpression | AssignmentExpression | SequenceExpression; export interface CallExpression extends Node { type: NodeTypes.JS_CALL_EXPRESSION; callee: string | symbol; arguments: (string | symbol | JSChildNode | SSRCodegenNode | TemplateChildNode | TemplateChildNode[])[]; } export interface ObjectExpression extends Node { type: NodeTypes.JS_OBJECT_EXPRESSION; properties: Array; } export interface Property extends Node { type: NodeTypes.JS_PROPERTY; key: ExpressionNode; value: JSChildNode; } export interface ArrayExpression extends Node { type: NodeTypes.JS_ARRAY_EXPRESSION; elements: Array; } export interface FunctionExpression extends Node { type: NodeTypes.JS_FUNCTION_EXPRESSION; params: ExpressionNode | string | (ExpressionNode | string)[] | undefined; returns?: TemplateChildNode | TemplateChildNode[] | JSChildNode; body?: BlockStatement | IfStatement; newline: boolean; /** * This flag is for codegen to determine whether it needs to generate the * withScopeId() wrapper */ isSlot: boolean; /** * __COMPAT__ only, indicates a slot function that should be excluded from * the legacy $scopedSlots instance property. */ isNonScopedSlot?: boolean; } export interface ConditionalExpression extends Node { type: NodeTypes.JS_CONDITIONAL_EXPRESSION; test: JSChildNode; consequent: JSChildNode; alternate: JSChildNode; newline: boolean; } export interface CacheExpression extends Node { type: NodeTypes.JS_CACHE_EXPRESSION; index: number; value: JSChildNode; needPauseTracking: boolean; needArraySpread: boolean; } export interface MemoExpression extends CallExpression { callee: typeof WITH_MEMO; arguments: [ExpressionNode, MemoFactory, string, string]; } interface MemoFactory extends FunctionExpression { returns: BlockCodegenNode; } export type SSRCodegenNode = BlockStatement | TemplateLiteral | IfStatement | AssignmentExpression | ReturnStatement | SequenceExpression; export interface BlockStatement extends Node { type: NodeTypes.JS_BLOCK_STATEMENT; body: (JSChildNode | IfStatement)[]; } export interface TemplateLiteral extends Node { type: NodeTypes.JS_TEMPLATE_LITERAL; elements: (string | JSChildNode)[]; } export interface IfStatement extends Node { type: NodeTypes.JS_IF_STATEMENT; test: ExpressionNode; consequent: BlockStatement; alternate: IfStatement | BlockStatement | ReturnStatement | undefined; } export interface AssignmentExpression extends Node { type: NodeTypes.JS_ASSIGNMENT_EXPRESSION; left: SimpleExpressionNode; right: JSChildNode; } export interface SequenceExpression extends Node { type: NodeTypes.JS_SEQUENCE_EXPRESSION; expressions: JSChildNode[]; } export interface ReturnStatement extends Node { type: NodeTypes.JS_RETURN_STATEMENT; returns: TemplateChildNode | TemplateChildNode[] | JSChildNode; } export interface DirectiveArguments extends ArrayExpression { elements: DirectiveArgumentNode[]; } export interface DirectiveArgumentNode extends ArrayExpression { elements: [string] | [string, ExpressionNode] | [string, ExpressionNode, ExpressionNode] | [string, ExpressionNode, ExpressionNode, ObjectExpression]; } export interface RenderSlotCall extends CallExpression { callee: typeof RENDER_SLOT; arguments: [string, string | ExpressionNode] | [string, string | ExpressionNode, PropsExpression] | [ string, string | ExpressionNode, PropsExpression | '{}', TemplateChildNode[] ]; } export type SlotsExpression = SlotsObjectExpression | DynamicSlotsExpression; export interface SlotsObjectExpression extends ObjectExpression { properties: SlotsObjectProperty[]; } export interface SlotsObjectProperty extends Property { value: SlotFunctionExpression; } export interface SlotFunctionExpression extends FunctionExpression { returns: TemplateChildNode[] | CacheExpression; } export interface DynamicSlotsExpression extends CallExpression { callee: typeof CREATE_SLOTS; arguments: [SlotsObjectExpression, DynamicSlotEntries]; } export interface DynamicSlotEntries extends ArrayExpression { elements: (ConditionalDynamicSlotNode | ListDynamicSlotNode)[]; } export interface ConditionalDynamicSlotNode extends ConditionalExpression { consequent: DynamicSlotNode; alternate: DynamicSlotNode | SimpleExpressionNode; } export interface ListDynamicSlotNode extends CallExpression { callee: typeof RENDER_LIST; arguments: [ExpressionNode, ListDynamicSlotIterator]; } export interface ListDynamicSlotIterator extends FunctionExpression { returns: DynamicSlotNode; } export interface DynamicSlotNode extends ObjectExpression { properties: [Property, DynamicSlotFnProperty]; } export interface DynamicSlotFnProperty extends Property { value: SlotFunctionExpression; } export type BlockCodegenNode = VNodeCall | RenderSlotCall; export interface IfConditionalExpression extends ConditionalExpression { consequent: BlockCodegenNode | MemoExpression; alternate: BlockCodegenNode | IfConditionalExpression | MemoExpression; } export interface ForCodegenNode extends VNodeCall { isBlock: true; tag: typeof FRAGMENT; props: undefined; children: ForRenderListExpression; patchFlag: PatchFlags; disableTracking: boolean; } export interface ForRenderListExpression extends CallExpression { callee: typeof RENDER_LIST; arguments: [ExpressionNode, ForIteratorExpression]; } export interface ForIteratorExpression extends FunctionExpression { returns?: BlockCodegenNode; } export declare const locStub: SourceLocation; export declare function createRoot(children: TemplateChildNode[], source?: string): RootNode; export declare function createVNodeCall(context: TransformContext | null, tag: VNodeCall['tag'], props?: VNodeCall['props'], children?: VNodeCall['children'], patchFlag?: VNodeCall['patchFlag'], dynamicProps?: VNodeCall['dynamicProps'], directives?: VNodeCall['directives'], isBlock?: VNodeCall['isBlock'], disableTracking?: VNodeCall['disableTracking'], isComponent?: VNodeCall['isComponent'], loc?: SourceLocation): VNodeCall; export declare function createArrayExpression(elements: ArrayExpression['elements'], loc?: SourceLocation): ArrayExpression; export declare function createObjectExpression(properties: ObjectExpression['properties'], loc?: SourceLocation): ObjectExpression; export declare function createObjectProperty(key: Property['key'] | string, value: Property['value']): Property; export declare function createSimpleExpression(content: SimpleExpressionNode['content'], isStatic?: SimpleExpressionNode['isStatic'], loc?: SourceLocation, constType?: ConstantTypes): SimpleExpressionNode; export declare function createInterpolation(content: InterpolationNode['content'] | string, loc: SourceLocation): InterpolationNode; export declare function createCompoundExpression(children: CompoundExpressionNode['children'], loc?: SourceLocation): CompoundExpressionNode; type InferCodegenNodeType = T extends typeof RENDER_SLOT ? RenderSlotCall : CallExpression; export declare function createCallExpression(callee: T, args?: CallExpression['arguments'], loc?: SourceLocation): InferCodegenNodeType; export declare function createFunctionExpression(params: FunctionExpression['params'], returns?: FunctionExpression['returns'], newline?: boolean, isSlot?: boolean, loc?: SourceLocation): FunctionExpression; export declare function createConditionalExpression(test: ConditionalExpression['test'], consequent: ConditionalExpression['consequent'], alternate: ConditionalExpression['alternate'], newline?: boolean): ConditionalExpression; export declare function createCacheExpression(index: number, value: JSChildNode, needPauseTracking?: boolean): CacheExpression; export declare function createBlockStatement(body: BlockStatement['body']): BlockStatement; export declare function createTemplateLiteral(elements: TemplateLiteral['elements']): TemplateLiteral; export declare function createIfStatement(test: IfStatement['test'], consequent: IfStatement['consequent'], alternate?: IfStatement['alternate']): IfStatement; export declare function createAssignmentExpression(left: AssignmentExpression['left'], right: AssignmentExpression['right']): AssignmentExpression; export declare function createSequenceExpression(expressions: SequenceExpression['expressions']): SequenceExpression; export declare function createReturnStatement(returns: ReturnStatement['returns']): ReturnStatement; export declare function getVNodeHelper(ssr: boolean, isComponent: boolean): typeof CREATE_VNODE | typeof CREATE_ELEMENT_VNODE; export declare function getVNodeBlockHelper(ssr: boolean, isComponent: boolean): typeof CREATE_BLOCK | typeof CREATE_ELEMENT_BLOCK; export declare function convertToBlock(node: VNodeCall, { helper, removeHelper, inSSR }: TransformContext): void; export interface CompilerError extends SyntaxError { code: number | string; loc?: SourceLocation; } export interface CoreCompilerError extends CompilerError { code: ErrorCodes; } type InferCompilerError = T extends ErrorCodes ? CoreCompilerError : CompilerError; export declare function createCompilerError(code: T, loc?: SourceLocation, messages?: { [code: number]: string; }, additionalMessage?: string): InferCompilerError; export declare enum ErrorCodes { ABRUPT_CLOSING_OF_EMPTY_COMMENT = 0, CDATA_IN_HTML_CONTENT = 1, DUPLICATE_ATTRIBUTE = 2, END_TAG_WITH_ATTRIBUTES = 3, END_TAG_WITH_TRAILING_SOLIDUS = 4, EOF_BEFORE_TAG_NAME = 5, EOF_IN_CDATA = 6, EOF_IN_COMMENT = 7, EOF_IN_SCRIPT_HTML_COMMENT_LIKE_TEXT = 8, EOF_IN_TAG = 9, INCORRECTLY_CLOSED_COMMENT = 10, INCORRECTLY_OPENED_COMMENT = 11, INVALID_FIRST_CHARACTER_OF_TAG_NAME = 12, MISSING_ATTRIBUTE_VALUE = 13, MISSING_END_TAG_NAME = 14, MISSING_WHITESPACE_BETWEEN_ATTRIBUTES = 15, NESTED_COMMENT = 16, UNEXPECTED_CHARACTER_IN_ATTRIBUTE_NAME = 17, UNEXPECTED_CHARACTER_IN_UNQUOTED_ATTRIBUTE_VALUE = 18, UNEXPECTED_EQUALS_SIGN_BEFORE_ATTRIBUTE_NAME = 19, UNEXPECTED_NULL_CHARACTER = 20, UNEXPECTED_QUESTION_MARK_INSTEAD_OF_TAG_NAME = 21, UNEXPECTED_SOLIDUS_IN_TAG = 22, X_INVALID_END_TAG = 23, X_MISSING_END_TAG = 24, X_MISSING_INTERPOLATION_END = 25, X_MISSING_DIRECTIVE_NAME = 26, X_MISSING_DYNAMIC_DIRECTIVE_ARGUMENT_END = 27, X_V_IF_NO_EXPRESSION = 28, X_V_IF_SAME_KEY = 29, X_V_ELSE_NO_ADJACENT_IF = 30, X_V_FOR_NO_EXPRESSION = 31, X_V_FOR_MALFORMED_EXPRESSION = 32, X_V_FOR_TEMPLATE_KEY_PLACEMENT = 33, X_V_BIND_NO_EXPRESSION = 34, X_V_ON_NO_EXPRESSION = 35, X_V_SLOT_UNEXPECTED_DIRECTIVE_ON_SLOT_OUTLET = 36, X_V_SLOT_MIXED_SLOT_USAGE = 37, X_V_SLOT_DUPLICATE_SLOT_NAMES = 38, X_V_SLOT_EXTRANEOUS_DEFAULT_SLOT_CHILDREN = 39, X_V_SLOT_MISPLACED = 40, X_V_MODEL_NO_EXPRESSION = 41, X_V_MODEL_MALFORMED_EXPRESSION = 42, X_V_MODEL_ON_SCOPE_VARIABLE = 43, X_V_MODEL_ON_PROPS = 44, X_INVALID_EXPRESSION = 45, X_KEEP_ALIVE_INVALID_CHILDREN = 46, X_PREFIX_ID_NOT_SUPPORTED = 47, X_MODULE_MODE_NOT_SUPPORTED = 48, X_CACHE_HANDLER_NOT_SUPPORTED = 49, X_SCOPE_ID_NOT_SUPPORTED = 50, X_VNODE_HOOKS = 51, X_V_BIND_INVALID_SAME_NAME_ARGUMENT = 52, __EXTEND_POINT__ = 53 } export declare const errorMessages: Record; interface ErrorHandlingOptions { onWarn?: (warning: CompilerError) => void; onError?: (error: CompilerError) => void; } export interface ParserOptions extends ErrorHandlingOptions, CompilerCompatOptions { /** * Base mode is platform agnostic and only parses HTML-like template syntax, * treating all tags the same way. Specific tag parsing behavior can be * configured by higher-level compilers. * * HTML mode adds additional logic for handling special parsing behavior in * `