lix-website/themes/lix/assets/bootstrap/node_modules/regexp-tree/index.d.ts

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2024-04-27 03:39:10 +00:00
declare module 'regexp-tree/ast' {
export interface AstClassMap {
'RegExp': AstRegExp;
'Disjunction': Disjunction;
'Alternative': Alternative;
'Assertion': Assertion;
'Char': Char;
'CharacterClass': CharacterClass;
'ClassRange': ClassRange;
'Backreference': Backreference;
'Group': Group;
'Repetition': Repetition;
'Quantifier': Quantifier;
}
export type AstClass = keyof AstClassMap;
export type AstNode = AstClassMap[AstClass];
export type AstNodeLocation = {
line: number;
column: number;
offset: number;
};
export interface Base<T extends AstClass> {
type: T;
loc?: {
source: string;
start: AstNodeLocation;
end: AstNodeLocation;
};
}
export interface SimpleChar extends Base<'Char'> {
value: string;
kind: 'simple';
escaped?: true;
codePoint: number;
}
export interface SpecialChar extends Base<'Char'> {
value: string;
kind: 'meta' | 'control' | 'hex' | 'decimal' | 'oct' | 'unicode';
codePoint: number;
}
export type Char =
| SimpleChar
| SpecialChar;
export interface ClassRange extends Base<'ClassRange'> {
from: Char;
to: Char;
}
export interface CharacterClass extends Base<'CharacterClass'> {
negative?: true;
expressions: (Char | ClassRange)[];
}
export interface Alternative extends Base<'Alternative'> {
expressions: Expression[];
}
export interface Disjunction extends Base<'Disjunction'> {
left: Expression | null;
right: Expression | null;
}
export interface CapturingGroup extends Base<'Group'> {
capturing: true;
number: number;
name?: string;
nameRaw?: string;
expression: Expression | null;
}
export interface NoncapturingGroup extends Base<'Group'> {
capturing: false;
expression: Expression | null;
}
export type Group =
| CapturingGroup
| NoncapturingGroup;
export interface NumericBackreference extends Base<'Backreference'> {
kind: 'number';
number: number;
reference: number;
}
export interface NamedBackreference extends Base<'Backreference'> {
kind: 'name';
number: number;
reference: string;
referenceRaw: string;
}
export type Backreference =
| NumericBackreference
| NamedBackreference;
export interface Repetition extends Base<'Repetition'> {
expression: Expression;
quantifier: Quantifier;
}
export interface SimpleQuantifier extends Base<'Quantifier'> {
kind: '+' | '*' | '?';
greedy: boolean;
}
export interface RangeQuantifier extends Base<'Quantifier'> {
kind: 'Range';
from: number;
to?: number;
greedy: boolean;
}
export type Quantifier =
| SimpleQuantifier
| RangeQuantifier;
export interface SimpleAssertion extends Base<'Assertion'> {
kind: '^' | '$' | '\\b' | '\\B';
}
export interface LookaroundAssertion extends Base<'Assertion'> {
kind: 'Lookahead' | 'Lookbehind';
negative?: true;
assertion: Expression | null;
}
export type Assertion =
| SimpleAssertion
| LookaroundAssertion;
export type Expression =
| Char
| CharacterClass
| Alternative
| Disjunction
| Group
| Backreference
| Repetition
| Assertion;
export interface AstRegExp extends Base<'RegExp'> {
body: Expression | null;
flags: string;
}
}
declare module 'regexp-tree' {
import {
AstRegExp,
AstNode,
AstClass,
AstClassMap
} from 'regexp-tree/ast'
export interface ParserOptions {
captureLocations?: boolean;
allowGroupNameDuplicates?: boolean;
}
/**
* Parses a regexp string, producing an AST.
*
* @param regexp a regular expression in different formats: string, AST, RegExp.
* @param options parsing options for this parse call.
*/
export function parse(regexp: string | RegExp, options?: ParserOptions): AstRegExp;
/**
* Generates a RegExp string from an AST.
*/
export function generate(ast: AstNode | null | undefined): string;
/**
* Creates a RegExp object from a regexp string.
*/
export function toRegExp(regexp: string): RegExp;
export interface NodePath<T extends AstNode = AstNode> {
node: T;
parent: AstNode | null;
parentPath: NodePath | null;
property: string | null;
index: number | null;
getParent(): NodePath | null;
getChild(n?: number): NodePath | null;
getPreviousSibling(): NodePath | null;
getNextSibling(): NodePath | null;
setChild<T extends AstNode>(node: T | null, index?: number | null, property?: string | null): NodePath<T> | null;
appendChild<T extends AstNode>(node: T | null, property?: string | null): NodePath<T> | null;
insertChildAt<T extends AstNode>(node: T | null, index: number, property?: string | null): void;
replace<T extends AstNode>(node: T): NodePath<T> | null;
update(nodeProps: Partial<T>): void;
remove(): void;
isRemoved(): boolean;
hasEqualSource(path: NodePath<T>): boolean;
jsonEncode(options?: { format?: string | number, useLoc?: boolean }): string;
}
export type NodeTraversalCallback<T extends AstNode = AstNode> = (node: T, parent: NodePath | null, property?: string, index?: number) => void | boolean;
export interface NodeTraversalCallbacks<T extends AstNode = AstNode> {
pre?: NodeTraversalCallback<T>;
post?: NodeTraversalCallback<T>;
}
export type SpecificNodeTraversalHandlers = {
[P in AstClass]?: NodeTraversalCallback<AstClassMap[P]> | NodeTraversalCallbacks<AstClassMap[P]>;
};
export interface NodeTraversalHandlers<T extends AstNode = AstNode> extends SpecificNodeTraversalHandlers {
'*'?: NodeTraversalCallback;
shouldRun?(ast: T): boolean;
init?(ast: T): void;
}
export type TraversalCallback<T extends AstNode = AstNode> = (path: NodePath<T>) => void | boolean;
export interface TraversalCallbacks<T extends AstNode = AstNode> {
pre?: TraversalCallback<T>;
post?: TraversalCallback<T>;
}
export type SpecificTraversalHandlers = {
[P in AstClass]?: TraversalCallback<AstClassMap[P]> | TraversalCallbacks<AstClassMap[P]>;
};
export interface TraversalHandlers<T extends AstNode = AstNode> extends SpecificTraversalHandlers {
'*'?: TraversalCallback;
shouldRun?(ast: T): boolean;
init?(ast: T): void;
}
/**
* Traverses a RegExp AST.
*
* @param handlers Each `handler` is an object containing handler function for needed
* node types. The value for a node type may also be an object with functions pre and post.
* This enables more context-aware analyses, e.g. measuring star height.
*
* @example
* regexpTree.traverse(ast, {
* onChar(node) {
* ...
* },
* });
*/
export function traverse<T extends AstNode>(ast: T, handlers: NodeTraversalHandlers<T> | ReadonlyArray<NodeTraversalHandlers<T>>, options: { asNodes: true }): void;
export function traverse<T extends AstNode>(ast: T, handlers: TraversalHandlers<T> | ReadonlyArray<TraversalHandlers<T>>, options?: { asNodes?: false }): void;
export type TransformHandlers<T extends AstNode = AstNode> = TraversalHandlers<T>;
export class TransformResult<T extends AstNode, E = unknown> {
private _ast;
private _source;
private _string;
private _regexp;
private _extra;
constructor(ast: T, extra?: E);
getAST(): T;
setExtra(extra: E): void;
getExtra(): E;
toRegExp(): RegExp;
getSource(): string;
getFlags(): string;
toString(): string;
}
/**
* Transforms a regular expression.
*
* A regexp can be passed in different formats (string, regexp or AST),
* applying a set of transformations. It is a convenient wrapper
* on top of "parse-traverse-generate" tool chain.
*/
export function transform<T extends AstNode>(ast: T, handlers: TraversalHandlers<T> | ReadonlyArray<TraversalHandlers<T>>): TransformResult<T>;
export function transform(regexp: string | RegExp, handlers: TransformHandlers<AstRegExp> | ReadonlyArray<TransformHandlers<AstRegExp>>): TransformResult<AstRegExp>;
/**
* Optimizes a regular expression by replacing some
* sub-expressions with their idiomatic patterns.
*/
export function optimize<T extends AstNode>(ast: T, whitelist?: string[]): TransformResult<T>;
export function optimize(regexp: string | RegExp, whitelist?: string[]): TransformResult<AstRegExp>;
/**
* Translates a regular expression in new syntax or in new format
* into equivalent expressions in old syntax.
*/
export function compatTranspile<T extends AstNode>(ast: T, whitelist?: string[]): TransformResult<T>;
export function compatTranspile(regexp: string | RegExp, whitelist?: string[]): TransformResult<AstRegExp>;
/**
* Executes a regular expression on a string.
*/
export function exec(re: string | RegExp, string: string): RegExpExecArray;
}