Tangent Wantwight
1c04d8dece
Avoid counting a successful capture as an error at the current locaiton.
204 lines
7 KiB
JavaScript
204 lines
7 KiB
JavaScript
/**
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* A Pattern is a function that matches against a string starting at a given index.
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*
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* If it matches successfully, it returns some captured value, and the index following the match.
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*
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* On success or failure, it returns the furthest point the pattern could make sense of, and a description of what was expected next at that point.
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*
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* For simple patterns, the "furthest point" may just be the following index; however, some more complex patterns might succeed,
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* but consume less input than they would have been able to if some other expected symbol was found. Reporting
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* the furthest a pattern could hypothetically have gotten can help generate better error messages if no valid parse tree is found.
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*
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* @template T
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* @callback Peg.PatternCall
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* @param {string} source - the string being parsed
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* @param {number} index - the index in the string to begin matching from
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* @returns {[[T, number] | null, number, string]} - [successValue, furthest symbol attempted, expected pattern]
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*/
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/**
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* @template T
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* @typedef {object} Peg.PatternExt
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* @property {<U>(map: (value: T) => U) => Peg.Pattern<U>} map Creates a pattern that wraps another pattern, transforming the returned value on a match
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* @property {string} expectLabel A human-readable annotation describing the pattern for error messages
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* @property {(label: string) => Peg.Pattern<T>} expects Adds a human-readable annotation describing the pattern
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*/
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/**
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* @template T
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* @typedef {Peg.PatternCall<T> & Peg.PatternExt<T>} Peg.Pattern
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*/
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var Peg = window.Peg ?? {};
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/**
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* Makes a pattern from a function, adding helper methods.
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*
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* @template T
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* @param {(source: string, index: number) => ([[T, number] | null, number, string])} matchFunc
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* @returns {Peg.Pattern<T>}
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*/
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Peg.WrapPattern = function (matchFunc) {
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const pattern = /** @type {Peg.Pattern<T>} */ (matchFunc);
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pattern.map = function (map) {
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return Peg.WrapPattern(function (source, index) {
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const [value, furthest, expected] = pattern(source, index);
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return [value ? [map(value[0]), value[1]] : null, furthest, expected];
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}).expects(pattern.expectLabel);
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};
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pattern.expectLabel = pattern.name;
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pattern.expects = (label) => {
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pattern.expectLabel = label;
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return pattern;
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};
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return pattern;
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};
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/**
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* Proxies to a pattern retrieved from an accessor function.
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*
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* Allows using a pattern recursively in its own definition, by returning the value of the const assigned to.
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*
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* @template T
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* @param {() => Peg.Pattern<T>} getPattern
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* @returns {Peg.Pattern<T>}
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*/
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Peg.Use = function (getPattern) {
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return Peg.WrapPattern(function (source, index) {
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return getPattern()(source, index);
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}).expects(String(getPattern));
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};
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/**
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* Creates a pattern matching a regex & returning any captures. The regex needs to be sticky (using the //y modifier)
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* @param {RegExp} regex
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* @return {Peg.Pattern<RegExpExecArray>}
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*/
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Peg.Regex = function (regex) {
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/** @type {Peg.Pattern<RegExpExecArray>} */
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const pattern = Peg.WrapPattern(function (source, index) {
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regex.lastIndex = index;
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const matches = regex.exec(source);
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return matches
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? [[matches, regex.lastIndex], -1, pattern.expectLabel]
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: [null, index, pattern.expectLabel];
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}).expects(regex.source);
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return pattern;
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};
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/**
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* Creates a pattern that tries the given patterns, in order, until it finds one that matches at the current index.
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* @template T
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* @param {...Peg.Pattern<T>} patterns
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* @return {Peg.Pattern<T>}
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*/
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Peg.Choose = function (...patterns) {
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const genericExpected = patterns
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.map((pattern) => pattern.expectLabel)
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.join(" | ");
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return Peg.WrapPattern(function (source, index) {
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let furthestFound = index;
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let furthestExpected = genericExpected;
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for (const pattern of patterns) {
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const [value, furthest, expected] = pattern(source, index);
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if (value) {
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return [value, furthest, expected];
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} else if (furthest > furthestFound) {
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furthestFound = furthest;
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furthestExpected = expected;
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} else if (furthest == furthestFound) {
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furthestExpected = furthestExpected + " | " + expected;
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}
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}
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return [null, furthestFound, furthestExpected];
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}).expects(genericExpected);
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};
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/**
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* Creates a pattern that concatenates the given patterns, returning a tuple of their captured values.
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*
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* For example, if A matches "a" and captures 1, while B matches "b" and captures null,
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* then `Sequence(A,B)` will match "ab" and capture [1, null]
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* @template {unknown[]} T
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* @param {{[K in keyof T]: Peg.Pattern<T[K]>}} patterns
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* @return {Peg.Pattern<T>}
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*/
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Peg.Sequence = function (...patterns) {
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const genericExpected = patterns[0]?.expectLabel ?? "(nothing)";
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return Peg.WrapPattern(function (source, index) {
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const values = /** @type {T} */ (/** @type {unknown} */ ([]));
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let furthestFound = index;
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let furthestExpected = genericExpected;
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for (const pattern of patterns) {
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const [value, furthest, expected] = pattern(source, index);
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if (furthest > furthestFound) {
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furthestFound = furthest;
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furthestExpected = expected;
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} else if (furthest == furthestFound) {
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furthestExpected = furthestExpected + " | " + expected;
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}
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if (value == null) {
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return [null, furthestFound, furthestExpected];
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}
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values.push(value[0]);
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index = value[1];
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}
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return [[values, index], furthestFound, furthestExpected];
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}).expects(genericExpected);
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};
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/**
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* Creates a pattern that matches consecutive runs of the given pattern, returning an array of all captures.
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*
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* The match only succeeds if the run is at least {@link min} instances long.
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*
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* If the given pattern does not consume input, the matching will be terminated to prevent an eternal loop.
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*
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* Note that if the minimum run is zero, this pattern will always succeed, but might not consume any input.
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* @template {unknown} T
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* @param {number} min
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* @param {Peg.Pattern<T>} pattern
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* @return {Peg.Pattern<T[]>}
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*/
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Peg.AtLeast = function (min, pattern) {
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return Peg.WrapPattern(function (source, index) {
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const values = /** @type {T[]} */ ([]);
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let furthestFound = index;
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let furthestExpected = pattern.expectLabel;
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do {
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const [value, furthest, expected] = pattern(source, index);
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if (furthest > furthestFound) {
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furthestFound = furthest;
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furthestExpected = expected;
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}
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if (value == null) {
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break;
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}
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values.push(value[0]);
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if (index == value[1]) {
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break;
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}
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index = value[1];
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} while (true);
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if (values.length >= min) {
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return [[values, index], furthestFound, furthestExpected];
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} else {
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return [null, furthestFound, furthestExpected];
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}
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}).expects(pattern.expectLabel);
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};
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/**
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* Creates a pattern that matches the end of input
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* @return {Peg.Pattern<true>}
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*/
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Peg.End = () => {
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/** @type {Peg.Pattern<true>} */
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const end = Peg.WrapPattern(function End(source, index) {
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return [
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source.length == index ? [/** @type {true} */ (true), index] : null,
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index,
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end.expectLabel,
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];
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}).expects("<eof>");
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return end;
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};
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