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// Generated by dts-bundle v0.7.3
declare module 'regexpp' {
import * as AST from "regexpp/ast";
import { RegExpParser } from "regexpp/parser";
import { RegExpValidator } from "regexpp/validator";
import { RegExpVisitor } from "regexpp/visitor";
export { AST, RegExpParser, RegExpValidator };
export function parseRegExpLiteral(source: string | RegExp, options?: RegExpParser.Options): AST.RegExpLiteral;
export function validateRegExpLiteral(source: string, options?: RegExpValidator.Options): void;
export function visitRegExpAST(node: AST.Node, handlers: RegExpVisitor.Handlers): void;
}
declare module 'regexpp/ast' {
export type Node = BranchNode | LeafNode;
export type BranchNode = RegExpLiteral | Pattern | Alternative | Group | CapturingGroup | Quantifier | CharacterClass | LookaroundAssertion | CharacterClassRange;
export type LeafNode = BoundaryAssertion | CharacterSet | Character | Backreference | Flags;
export type Element = Assertion | Quantifier | QuantifiableElement;
export type QuantifiableElement = Group | CapturingGroup | CharacterClass | CharacterSet | Character | Backreference | LookaheadAssertion;
export type CharacterClassElement = EscapeCharacterSet | UnicodePropertyCharacterSet | Character | CharacterClassRange;
export interface NodeBase {
type: Node["type"];
parent: Node["parent"];
start: number;
end: number;
raw: string;
}
export interface RegExpLiteral extends NodeBase {
type: "RegExpLiteral";
parent: null;
pattern: Pattern;
flags: Flags;
}
export interface Pattern extends NodeBase {
type: "Pattern";
parent: RegExpLiteral | null;
alternatives: Alternative[];
}
export interface Alternative extends NodeBase {
type: "Alternative";
parent: Pattern | Group | CapturingGroup | LookaroundAssertion;
elements: Element[];
}
export interface Group extends NodeBase {
type: "Group";
parent: Alternative | Quantifier;
alternatives: Alternative[];
}
export interface CapturingGroup extends NodeBase {
type: "CapturingGroup";
parent: Alternative | Quantifier;
name: string | null;
alternatives: Alternative[];
references: Backreference[];
}
export type LookaroundAssertion = LookaheadAssertion | LookbehindAssertion;
export interface LookaheadAssertion extends NodeBase {
type: "Assertion";
parent: Alternative | Quantifier;
kind: "lookahead";
negate: boolean;
alternatives: Alternative[];
}
export interface LookbehindAssertion extends NodeBase {
type: "Assertion";
parent: Alternative;
kind: "lookbehind";
negate: boolean;
alternatives: Alternative[];
}
export interface Quantifier extends NodeBase {
type: "Quantifier";
parent: Alternative;
min: number;
max: number;
greedy: boolean;
element: QuantifiableElement;
}
export interface CharacterClass extends NodeBase {
type: "CharacterClass";
parent: Alternative | Quantifier;
negate: boolean;
elements: CharacterClassElement[];
}
export interface CharacterClassRange extends NodeBase {
type: "CharacterClassRange";
parent: CharacterClass;
min: Character;
max: Character;
}
export type Assertion = BoundaryAssertion | LookaroundAssertion;
export type BoundaryAssertion = EdgeAssertion | WordBoundaryAssertion;
export interface EdgeAssertion extends NodeBase {
type: "Assertion";
parent: Alternative | Quantifier;
kind: "start" | "end";
}
export interface WordBoundaryAssertion extends NodeBase {
type: "Assertion";
parent: Alternative | Quantifier;
kind: "word";
negate: boolean;
}
export type CharacterSet = AnyCharacterSet | EscapeCharacterSet | UnicodePropertyCharacterSet;
export interface AnyCharacterSet extends NodeBase {
type: "CharacterSet";
parent: Alternative | Quantifier;
kind: "any";
}
export interface EscapeCharacterSet extends NodeBase {
type: "CharacterSet";
parent: Alternative | Quantifier | CharacterClass;
kind: "digit" | "space" | "word";
negate: boolean;
}
export interface UnicodePropertyCharacterSet extends NodeBase {
type: "CharacterSet";
parent: Alternative | Quantifier | CharacterClass;
kind: "property";
key: string;
value: string | null;
negate: boolean;
}
export interface Character extends NodeBase {
type: "Character";
parent: Alternative | Quantifier | CharacterClass | CharacterClassRange;
value: number;
}
export interface Backreference extends NodeBase {
type: "Backreference";
parent: Alternative | Quantifier;
ref: number | string;
resolved: CapturingGroup;
}
export interface Flags extends NodeBase {
type: "Flags";
parent: RegExpLiteral | null;
dotAll: boolean;
global: boolean;
ignoreCase: boolean;
multiline: boolean;
sticky: boolean;
unicode: boolean;
}
}
declare module 'regexpp/parser' {
import { Flags, RegExpLiteral, Pattern } from "regexpp/ast";
export namespace RegExpParser {
interface Options {
strict?: boolean;
ecmaVersion?: 5 | 2015 | 2016 | 2017 | 2018;
}
}
export class RegExpParser {
constructor(options?: RegExpParser.Options);
parseLiteral(source: string, start?: number, end?: number): RegExpLiteral;
parseFlags(source: string, start?: number, end?: number): Flags;
parsePattern(source: string, start?: number, end?: number, uFlag?: boolean): Pattern;
}
}
declare module 'regexpp/validator' {
export namespace RegExpValidator {
interface Options {
strict?: boolean;
ecmaVersion?: 5 | 2015 | 2016 | 2017 | 2018;
onLiteralEnter?(start: number): void;
onLiteralLeave?(start: number, end: number): void;
onFlags?(start: number, end: number, global: boolean, ignoreCase: boolean, multiline: boolean, unicode: boolean, sticky: boolean, dotAll: boolean): void;
onPatternEnter?(start: number): void;
onPatternLeave?(start: number, end: number): void;
onDisjunctionEnter?(start: number): void;
onDisjunctionLeave?(start: number, end: number): void;
onAlternativeEnter?(start: number, index: number): void;
onAlternativeLeave?(start: number, end: number, index: number): void;
onGroupEnter?(start: number): void;
onGroupLeave?(start: number, end: number): void;
onCapturingGroupEnter?(start: number, name: string | null): void;
onCapturingGroupLeave?(start: number, end: number, name: string | null): void;
onQuantifier?(start: number, end: number, min: number, max: number, greedy: boolean): void;
onLookaroundAssertionEnter?(start: number, kind: "lookahead" | "lookbehind", negate: boolean): void;
onLookaroundAssertionLeave?(start: number, end: number, kind: "lookahead" | "lookbehind", negate: boolean): void;
onEdgeAssertion?(start: number, end: number, kind: "start" | "end"): void;
onWordBoundaryAssertion?(start: number, end: number, kind: "word", negate: boolean): void;
onAnyCharacterSet?(start: number, end: number, kind: "any"): void;
onEscapeCharacterSet?(start: number, end: number, kind: "digit" | "space" | "word", negate: boolean): void;
onUnicodePropertyCharacterSet?(start: number, end: number, kind: "property", key: string, value: string | null, negate: boolean): void;
onCharacter?(start: number, end: number, value: number): void;
onBackreference?(start: number, end: number, ref: number | string): void;
onCharacterClassEnter?(start: number, negate: boolean): void;
onCharacterClassLeave?(start: number, end: number, negate: boolean): void;
onCharacterClassRange?(start: number, end: number, min: number, max: number): void;
}
}
export class RegExpValidator {
constructor(options?: RegExpValidator.Options);
validateLiteral(source: string, start?: number, end?: number): void;
validateFlags(source: string, start?: number, end?: number): void;
validatePattern(source: string, start?: number, end?: number, uFlag?: boolean): void;
}
}
declare module 'regexpp/visitor' {
import { Alternative, Assertion, Backreference, CapturingGroup, Character, CharacterClass, CharacterClassRange, CharacterSet, Flags, Group, Node, Pattern, Quantifier, RegExpLiteral } from "regexpp/ast";
export class RegExpVisitor {
constructor(handlers: RegExpVisitor.Handlers);
visit(node: Node): void;
}
export namespace RegExpVisitor {
interface Handlers {
onAlternativeEnter?(node: Alternative): void;
onAlternativeLeave?(node: Alternative): void;
onAssertionEnter?(node: Assertion): void;
onAssertionLeave?(node: Assertion): void;
onBackreferenceEnter?(node: Backreference): void;
onBackreferenceLeave?(node: Backreference): void;
onCapturingGroupEnter?(node: CapturingGroup): void;
onCapturingGroupLeave?(node: CapturingGroup): void;
onCharacterEnter?(node: Character): void;
onCharacterLeave?(node: Character): void;
onCharacterClassEnter?(node: CharacterClass): void;
onCharacterClassLeave?(node: CharacterClass): void;
onCharacterClassRangeEnter?(node: CharacterClassRange): void;
onCharacterClassRangeLeave?(node: CharacterClassRange): void;
onCharacterSetEnter?(node: CharacterSet): void;
onCharacterSetLeave?(node: CharacterSet): void;
onFlagsEnter?(node: Flags): void;
onFlagsLeave?(node: Flags): void;
onGroupEnter?(node: Group): void;
onGroupLeave?(node: Group): void;
onPatternEnter?(node: Pattern): void;
onPatternLeave?(node: Pattern): void;
onQuantifierEnter?(node: Quantifier): void;
onQuantifierLeave?(node: Quantifier): void;
onRegExpLiteralEnter?(node: RegExpLiteral): void;
onRegExpLiteralLeave?(node: RegExpLiteral): void;
}
}
}
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