"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const quote_1 = require("./quote");
/**
* Used in function stringification.
*/
/* istanbul ignore next */
const METHOD_NAMES_ARE_QUOTED = {
" "() {
/* Empty. */
}
}[" "]
.toString()
.charAt(0) === '"';
const FUNCTION_PREFIXES = {
Function: "function ",
GeneratorFunction: "function* ",
AsyncFunction: "async function ",
AsyncGeneratorFunction: "async function* "
};
const METHOD_PREFIXES = {
Function: "",
GeneratorFunction: "*",
AsyncFunction: "async ",
AsyncGeneratorFunction: "async *"
};
const TOKENS_PRECEDING_REGEXPS = new Set(("case delete else in instanceof new return throw typeof void " +
", ; : + - ! ~ & | ^ * / % < > ? =").split(" "));
/**
* Track function parser usage.
*/
exports.USED_METHOD_KEY = new WeakSet();
/**
* Stringify a function.
*/
exports.functionToString = (fn, space, next, key) => {
const name = typeof key === "string" ? key : undefined;
// Track in function parser for object stringify to avoid duplicate output.
if (name !== undefined)
exports.USED_METHOD_KEY.add(fn);
return new FunctionParser(fn, space, next, name).stringify();
};
/**
* Rewrite a stringified function to remove initial indentation.
*/
function dedentFunction(fnString) {
let found;
for (const line of fnString.split("\n").slice(1)) {
const m = /^[\s\t]+/.exec(line);
if (!m)
return fnString; // Early exit without indent.
const [str] = m;
if (found === undefined)
found = str;
else if (str.length < found.length)
found = str;
}
return found ? fnString.split(`\n${found}`).join("\n") : fnString;
}
exports.dedentFunction = dedentFunction;
/**
* Function parser and stringify.
*/
class FunctionParser {
constructor(fn, indent, next, key) {
this.fn = fn;
this.indent = indent;
this.next = next;
this.key = key;
this.pos = 0;
this.hadKeyword = false;
this.fnString = Function.prototype.toString.call(fn);
this.fnType = fn.constructor.name;
this.keyQuote = key === undefined ? "" : quote_1.quoteKey(key, next);
this.keyPrefix =
key === undefined ? "" : `${this.keyQuote}:${indent ? " " : ""}`;
this.isMethodCandidate =
key === undefined ? false : this.fn.name === "" || this.fn.name === key;
}
stringify() {
const value = this.tryParse();
// If we can't stringify this function, return a void expression; for
// bonus help with debugging, include the function as a string literal.
if (!value) {
return `${this.keyPrefix}void ${this.next(this.fnString)}`;
}
return dedentFunction(value);
}
getPrefix() {
if (this.isMethodCandidate && !this.hadKeyword) {
return METHOD_PREFIXES[this.fnType] + this.keyQuote;
}
return this.keyPrefix + FUNCTION_PREFIXES[this.fnType];
}
tryParse() {
if (this.fnString[this.fnString.length - 1] !== "}") {
// Must be an arrow function.
return this.keyPrefix + this.fnString;
}
// Attempt to remove function prefix.
if (this.fn.name) {
const result = this.tryStrippingName();
if (result)
return result;
}
// Support class expressions.
const prevPos = this.pos;
if (this.consumeSyntax() === "class")
return this.fnString;
this.pos = prevPos;
if (this.tryParsePrefixTokens()) {
const result = this.tryStrippingName();
if (result)
return result;
let offset = this.pos;
switch (this.consumeSyntax("WORD_LIKE")) {
case "WORD_LIKE":
if (this.isMethodCandidate && !this.hadKeyword) {
offset = this.pos;
}
// tslint:disable-next-line no-switch-case-fall-through
case "()":
if (this.fnString.substr(this.pos, 2) === "=>") {
return this.keyPrefix + this.fnString;
}
this.pos = offset;
// tslint:disable-next-line no-switch-case-fall-through
case '"':
case "'":
case "[]":
return this.getPrefix() + this.fnString.substr(this.pos);
}
}
}
/**
* Attempt to parse the function from the current position by first stripping
* the function's name from the front. This is not a fool-proof method on all
* JavaScript engines, but yields good results on Node.js 4 (and slightly
* less good results on Node.js 6 and 8).
*/
tryStrippingName() {
if (METHOD_NAMES_ARE_QUOTED) {
// ... then this approach is unnecessary and yields false positives.
return;
}
let start = this.pos;
const prefix = this.fnString.substr(this.pos, this.fn.name.length);
if (prefix === this.fn.name) {
this.pos += prefix.length;
if (this.consumeSyntax() === "()" &&
this.consumeSyntax() === "{}" &&
this.pos === this.fnString.length) {
// Don't include the function's name if it will be included in the
// prefix, or if it's invalid as a name in a function expression.
if (this.isMethodCandidate || !quote_1.isValidVariableName(prefix)) {
start += prefix.length;
}
return this.getPrefix() + this.fnString.substr(start);
}
}
this.pos = start;
}
/**
* Attempt to advance the parser past the keywords expected to be at the
* start of this function's definition. This method sets `this.hadKeyword`
* based on whether or not a `function` keyword is consumed.
*
* @return {boolean}
*/
tryParsePrefixTokens() {
let posPrev = this.pos;
this.hadKeyword = false;
switch (this.fnType) {
case "AsyncFunction":
if (this.consumeSyntax() !== "async")
return false;
posPrev = this.pos;
// tslint:disable-next-line no-switch-case-fall-through
case "Function":
if (this.consumeSyntax() === "function") {
this.hadKeyword = true;
}
else {
this.pos = posPrev;
}
return true;
case "AsyncGeneratorFunction":
if (this.consumeSyntax() !== "async")
return false;
// tslint:disable-next-line no-switch-case-fall-through
case "GeneratorFunction":
let token = this.consumeSyntax();
if (token === "function") {
token = this.consumeSyntax();
this.hadKeyword = true;
}
return token === "*";
}
}
/**
* Advance the parser past one element of JavaScript syntax. This could be a
* matched pair of delimiters, like braces or parentheses, or an atomic unit
* like a keyword, variable, or operator. Return a normalized string
* representation of the element parsed--for example, returns '{}' for a
* matched pair of braces. Comments and whitespace are skipped.
*
* (This isn't a full parser, so the token scanning logic used here is as
* simple as it can be. As a consequence, some things that are one token in
* JavaScript, like decimal number literals or most multicharacter operators
* like '&&', are split into more than one token here. However, awareness of
* some multicharacter sequences like '=>' is necessary, so we match the few
* of them that we care about.)
*/
consumeSyntax(wordLikeToken) {
const m = this.consumeMatch(/^(?:([A-Za-z_0-9$\xA0-\uFFFF]+)|=>|\+\+|\-\-|.)/);
if (!m)
return;
const [token, match] = m;
this.consumeWhitespace();
if (match)
return wordLikeToken || match;
switch (token) {
case "(":
return this.consumeSyntaxUntil("(", ")");
case "[":
return this.consumeSyntaxUntil("[", "]");
case "{":
return this.consumeSyntaxUntil("{", "}");
case "`":
return this.consumeTemplate();
case '"':
return this.consumeRegExp(/^(?:[^\\"]|\\.)*"/, '"');
case "'":
return this.consumeRegExp(/^(?:[^\\']|\\.)*'/, "'");
}
return token;
}
consumeSyntaxUntil(startToken, endToken) {
let isRegExpAllowed = true;
for (;;) {
const token = this.consumeSyntax();
if (token === endToken)
return startToken + endToken;
if (!token || token === ")" || token === "]" || token === "}")
return;
if (token === "/" &&
isRegExpAllowed &&
this.consumeMatch(/^(?:\\.|[^\\\/\n[]|\[(?:\\.|[^\]])*\])+\/[a-z]*/)) {
isRegExpAllowed = false;
this.consumeWhitespace();
}
else {
isRegExpAllowed = TOKENS_PRECEDING_REGEXPS.has(token);
}
}
}
consumeMatch(re) {
const m = re.exec(this.fnString.substr(this.pos));
if (m)
this.pos += m[0].length;
return m;
}
/**
* Advance the parser past an arbitrary regular expression. Return `token`,
* or the match object of the regexp.
*/
consumeRegExp(re, token) {
const m = re.exec(this.fnString.substr(this.pos));
if (!m)
return;
this.pos += m[0].length;
this.consumeWhitespace();
return token;
}
/**
* Advance the parser past a template string.
*/
consumeTemplate() {
for (;;) {
this.consumeMatch(/^(?:[^`$\\]|\\.|\$(?!{))*/);
if (this.fnString[this.pos] === "`") {
this.pos++;
this.consumeWhitespace();
return "`";
}
if (this.fnString.substr(this.pos, 2) === "${") {
this.pos += 2;
this.consumeWhitespace();
if (this.consumeSyntaxUntil("{", "}"))
continue;
}
return;
}
}
/**
* Advance the parser past any whitespace or comments.
*/
consumeWhitespace() {
this.consumeMatch(/^(?:\s|\/\/.*|\/\*[^]*?\*\/)*/);
}
}
exports.FunctionParser = FunctionParser;
//# sourceMappingURL=function.js.map