github-pages-deploy-action/node_modules/prettier/doc.js

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(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(global = global || self, factory(global.doc = {}));
}(this, (function (exports) { 'use strict';
/**
* @param {Doc[]} parts
* @returns Doc
*/
function concat(parts) {
// access the internals of a document directly.
// if(parts.length === 1) {
// // If it's a single document, no need to concat it.
// return parts[0];
// }
return {
type: "concat",
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parts
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};
}
/**
* @param {Doc} contents
* @returns Doc
*/
function indent(contents) {
return {
type: "indent",
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contents
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};
}
/**
* @param {number} n
* @param {Doc} contents
* @returns Doc
*/
function align(n, contents) {
return {
type: "align",
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contents,
n
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};
}
/**
* @param {Doc} contents
* @param {object} [opts] - TBD ???
* @returns Doc
*/
function group(contents, opts) {
opts = opts || {};
return {
type: "group",
id: opts.id,
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contents,
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break: !!opts.shouldBreak,
expandedStates: opts.expandedStates
};
}
/**
* @param {Doc} contents
* @returns Doc
*/
function dedentToRoot(contents) {
return align(-Infinity, contents);
}
/**
* @param {Doc} contents
* @returns Doc
*/
function markAsRoot(contents) {
// @ts-ignore - TBD ???:
return align({
type: "root"
}, contents);
}
/**
* @param {Doc} contents
* @returns Doc
*/
function dedent(contents) {
return align(-1, contents);
}
/**
* @param {Doc[]} states
* @param {object} [opts] - TBD ???
* @returns Doc
*/
function conditionalGroup(states, opts) {
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return group(states[0], Object.assign({}, opts, {
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expandedStates: states
}));
}
/**
* @param {Doc[]} parts
* @returns Doc
*/
function fill(parts) {
return {
type: "fill",
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parts
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};
}
/**
* @param {Doc} [breakContents]
* @param {Doc} [flatContents]
* @param {object} [opts] - TBD ???
* @returns Doc
*/
function ifBreak(breakContents, flatContents, opts) {
opts = opts || {};
return {
type: "if-break",
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breakContents,
flatContents,
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groupId: opts.groupId
};
}
/**
* @param {Doc} contents
* @returns Doc
*/
function lineSuffix(contents) {
return {
type: "line-suffix",
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contents
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};
}
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const lineSuffixBoundary = {
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type: "line-suffix-boundary"
};
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const breakParent = {
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type: "break-parent"
};
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const trim = {
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type: "trim"
};
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const line = {
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type: "line"
};
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const softline = {
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type: "line",
soft: true
};
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const hardline = concat([{
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type: "line",
hard: true
}, breakParent]);
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const literalline = concat([{
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type: "line",
hard: true,
literal: true
}, breakParent]);
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const cursor = {
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type: "cursor",
placeholder: Symbol("cursor")
};
/**
* @param {Doc} sep
* @param {Doc[]} arr
* @returns Doc
*/
function join(sep, arr) {
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const res = [];
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for (let i = 0; i < arr.length; i++) {
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if (i !== 0) {
res.push(sep);
}
res.push(arr[i]);
}
return concat(res);
}
/**
* @param {Doc} doc
* @param {number} size
* @param {number} tabWidth
*/
function addAlignmentToDoc(doc, size, tabWidth) {
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let aligned = doc;
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if (size > 0) {
// Use indent to add tabs for all the levels of tabs we need
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for (let i = 0; i < Math.floor(size / tabWidth); ++i) {
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aligned = indent(aligned);
} // Use align for all the spaces that are needed
aligned = align(size % tabWidth, aligned); // size is absolute from 0 and not relative to the current
// indentation, so we use -Infinity to reset the indentation to 0
aligned = align(-Infinity, aligned);
}
return aligned;
}
var docBuilders = {
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concat,
join,
line,
softline,
hardline,
literalline,
group,
conditionalGroup,
fill,
lineSuffix,
lineSuffixBoundary,
cursor,
breakParent,
ifBreak,
trim,
indent,
align,
addAlignmentToDoc,
markAsRoot,
dedentToRoot,
dedent
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};
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var ansiRegex = ({
onlyFirst = false
} = {}) => {
const pattern = ['[\\u001B\\u009B][[\\]()#;?]*(?:(?:(?:[a-zA-Z\\d]*(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]*)*)?\\u0007)', '(?:(?:\\d{1,4}(?:;\\d{0,4})*)?[\\dA-PR-TZcf-ntqry=><~]))'].join('|');
return new RegExp(pattern, onlyFirst ? undefined : 'g');
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};
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var stripAnsi = string => typeof string === 'string' ? string.replace(ansiRegex(), '') : string;
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/* eslint-disable yoda */
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const isFullwidthCodePoint = codePoint => {
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if (Number.isNaN(codePoint)) {
return false;
} // Code points are derived from:
// http://www.unix.org/Public/UNIDATA/EastAsianWidth.txt
if (codePoint >= 0x1100 && (codePoint <= 0x115F || // Hangul Jamo
codePoint === 0x2329 || // LEFT-POINTING ANGLE BRACKET
codePoint === 0x232A || // RIGHT-POINTING ANGLE BRACKET
// CJK Radicals Supplement .. Enclosed CJK Letters and Months
0x2E80 <= codePoint && codePoint <= 0x3247 && codePoint !== 0x303F || // Enclosed CJK Letters and Months .. CJK Unified Ideographs Extension A
0x3250 <= codePoint && codePoint <= 0x4DBF || // CJK Unified Ideographs .. Yi Radicals
0x4E00 <= codePoint && codePoint <= 0xA4C6 || // Hangul Jamo Extended-A
0xA960 <= codePoint && codePoint <= 0xA97C || // Hangul Syllables
0xAC00 <= codePoint && codePoint <= 0xD7A3 || // CJK Compatibility Ideographs
0xF900 <= codePoint && codePoint <= 0xFAFF || // Vertical Forms
0xFE10 <= codePoint && codePoint <= 0xFE19 || // CJK Compatibility Forms .. Small Form Variants
0xFE30 <= codePoint && codePoint <= 0xFE6B || // Halfwidth and Fullwidth Forms
0xFF01 <= codePoint && codePoint <= 0xFF60 || 0xFFE0 <= codePoint && codePoint <= 0xFFE6 || // Kana Supplement
0x1B000 <= codePoint && codePoint <= 0x1B001 || // Enclosed Ideographic Supplement
0x1F200 <= codePoint && codePoint <= 0x1F251 || // CJK Unified Ideographs Extension B .. Tertiary Ideographic Plane
0x20000 <= codePoint && codePoint <= 0x3FFFD)) {
return true;
}
return false;
};
var isFullwidthCodePoint_1 = isFullwidthCodePoint;
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var default_1 = isFullwidthCodePoint;
isFullwidthCodePoint_1.default = default_1;
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var emojiRegex = function emojiRegex() {
// https://mths.be/emoji
return /\uD83C\uDFF4\uDB40\uDC67\uDB40\uDC62(?:\uDB40\uDC65\uDB40\uDC6E\uDB40\uDC67|\uDB40\uDC73\uDB40\uDC63\uDB40\uDC74|\uDB40\uDC77\uDB40\uDC6C\uDB40\uDC73)\uDB40\uDC7F|\uD83D\uDC68(?:\uD83C\uDFFC\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68\uD83C\uDFFB|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFF\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB-\uDFFE])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFE\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB-\uDFFD])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFD\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB\uDFFC])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\u200D(?:\u2764\uFE0F\u200D(?:\uD83D\uDC8B\u200D)?\uD83D\uDC68|(?:\uD83D[\uDC68\uDC69])\u200D(?:\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67]))|\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67])|(?:\uD83D[\uDC68\uDC69])\u200D(?:\uD83D[\uDC66\uDC67])|[\u2695\u2696\u2708]\uFE0F|\uD83D[\uDC66\uDC67]|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|(?:\uD83C\uDFFB\u200D[\u2695\u2696\u2708]|\uD83C\uDFFF\u200D[\u2695\u2696\u2708]|\uD83C\uDFFE\u200D[\u2695\u2696\u2708]|\uD83C\uDFFD\u200D[\u2695\u2696\u2708]|\uD83C\uDFFC\u200D[\u2695\u2696\u2708])\uFE0F|\uD83C\uDFFB\u200D(?:\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C[\uDFFB-\uDFFF])|(?:\uD83E\uDDD1\uD83C\uDFFB\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFC\u200D\uD83E\uDD1D\u200D\uD83D\uDC69)\uD83C\uDFFB|\uD83E\uDDD1(?:\uD83C\uDFFF\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1(?:\uD83C[\uDFFB-\uDFFF])|\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1)|(?:\uD83E\uDDD1\uD83C\uDFFE\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFF\u200D\uD83E\uDD1D\u200D(?:\uD83D[\uDC68\uDC69]))(?:\uD83C[\uDFFB-\uDFFE])|(?:\uD83E\uDDD1\uD83C\uDFFC\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFD\u200D\uD83E\uDD1D\u200D\uD83D\uDC69)(?:\uD83C[\uDFFB\uDFFC])|\uD83D\uDC69(?:\uD83C\uDFFE\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB-\uDFFD\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFC\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB\uDFFD-\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFB\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFC-\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFD\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB\uDFFC\uDFFE\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\u200D(?:\u2764\uFE0F\u200D(?:\uD83D\uDC8B\u200D(?:\uD83D[\uDC68\uDC69])|\uD83D[\uDC68\uDC69])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFF\u200D(?:\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD]))|\uD83D\uDC69\u200D\uD83D\uDC69\u200D(?:\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67]))|(?:\uD83E\uDDD1\uD83C\uDFFD\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFE\u200D\uD83E\uDD1D\u200D\uD83D\uDC69)(?:\uD83C[\uDFFB-\uDFFD])|\uD83D\uDC69\u200D\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC69\u200D\uD83D\uDC69\u200D(?:\uD83D[\uDC66\uDC67])|(?:\uD83D\uDC41\uFE0F\u200
};
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const stringWidth = string => {
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string = string.replace(emojiRegex(), ' ');
if (typeof string !== 'string' || string.length === 0) {
return 0;
}
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string = stripAnsi(string);
let width = 0;
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for (let i = 0; i < string.length; i++) {
const code = string.codePointAt(i); // Ignore control characters
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if (code <= 0x1F || code >= 0x7F && code <= 0x9F) {
continue;
} // Ignore combining characters
if (code >= 0x300 && code <= 0x36F) {
continue;
} // Surrogates
if (code > 0xFFFF) {
i++;
}
width += isFullwidthCodePoint_1(code) ? 2 : 1;
}
return width;
};
var stringWidth_1 = stringWidth; // TODO: remove this in the next major version
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var default_1$1 = stringWidth;
stringWidth_1.default = default_1$1;
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const matchOperatorsRegex = /[|\\{}()[\]^$+*?.-]/g;
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var escapeStringRegexp = string => {
if (typeof string !== 'string') {
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throw new TypeError('Expected a string');
}
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return string.replace(matchOperatorsRegex, '\\$&');
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};
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var getLast = arr => arr[arr.length - 1];
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const notAsciiRegex = /[^\x20-\x7F]/;
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function getPenultimate(arr) {
if (arr.length > 1) {
return arr[arr.length - 2];
}
return null;
}
/**
* @typedef {{backwards?: boolean}} SkipOptions
*/
/**
* @param {string | RegExp} chars
* @returns {(text: string, index: number | false, opts?: SkipOptions) => number | false}
*/
function skip(chars) {
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return (text, index, opts) => {
const backwards = opts && opts.backwards; // Allow `skip` functions to be threaded together without having
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// to check for failures (did someone say monads?).
if (index === false) {
return false;
}
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const {
length
} = text;
let cursor = index;
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while (cursor >= 0 && cursor < length) {
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const c = text.charAt(cursor);
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if (chars instanceof RegExp) {
if (!chars.test(c)) {
return cursor;
}
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} else if (!chars.includes(c)) {
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return cursor;
}
backwards ? cursor-- : cursor++;
}
if (cursor === -1 || cursor === length) {
// If we reached the beginning or end of the file, return the
// out-of-bounds cursor. It's up to the caller to handle this
// correctly. We don't want to indicate `false` though if it
// actually skipped valid characters.
return cursor;
}
return false;
};
}
/**
* @type {(text: string, index: number | false, opts?: SkipOptions) => number | false}
*/
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const skipWhitespace = skip(/\s/);
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/**
* @type {(text: string, index: number | false, opts?: SkipOptions) => number | false}
*/
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const skipSpaces = skip(" \t");
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/**
* @type {(text: string, index: number | false, opts?: SkipOptions) => number | false}
*/
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const skipToLineEnd = skip(",; \t");
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/**
* @type {(text: string, index: number | false, opts?: SkipOptions) => number | false}
*/
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const skipEverythingButNewLine = skip(/[^\r\n]/);
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/**
* @param {string} text
* @param {number | false} index
* @returns {number | false}
*/
function skipInlineComment(text, index) {
if (index === false) {
return false;
}
if (text.charAt(index) === "/" && text.charAt(index + 1) === "*") {
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for (let i = index + 2; i < text.length; ++i) {
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if (text.charAt(i) === "*" && text.charAt(i + 1) === "/") {
return i + 2;
}
}
}
return index;
}
/**
* @param {string} text
* @param {number | false} index
* @returns {number | false}
*/
function skipTrailingComment(text, index) {
if (index === false) {
return false;
}
if (text.charAt(index) === "/" && text.charAt(index + 1) === "/") {
return skipEverythingButNewLine(text, index);
}
return index;
} // This one doesn't use the above helper function because it wants to
// test \r\n in order and `skip` doesn't support ordering and we only
// want to skip one newline. It's simple to implement.
/**
* @param {string} text
* @param {number | false} index
* @param {SkipOptions=} opts
* @returns {number | false}
*/
function skipNewline(text, index, opts) {
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const backwards = opts && opts.backwards;
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if (index === false) {
return false;
}
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const atIndex = text.charAt(index);
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if (backwards) {
if (text.charAt(index - 1) === "\r" && atIndex === "\n") {
return index - 2;
}
if (atIndex === "\n" || atIndex === "\r" || atIndex === "\u2028" || atIndex === "\u2029") {
return index - 1;
}
} else {
if (atIndex === "\r" && text.charAt(index + 1) === "\n") {
return index + 2;
}
if (atIndex === "\n" || atIndex === "\r" || atIndex === "\u2028" || atIndex === "\u2029") {
return index + 1;
}
}
return index;
}
/**
* @param {string} text
* @param {number} index
* @param {SkipOptions=} opts
* @returns {boolean}
*/
function hasNewline(text, index, opts) {
opts = opts || {};
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const idx = skipSpaces(text, opts.backwards ? index - 1 : index, opts);
const idx2 = skipNewline(text, idx, opts);
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return idx !== idx2;
}
/**
* @param {string} text
* @param {number} start
* @param {number} end
* @returns {boolean}
*/
function hasNewlineInRange(text, start, end) {
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for (let i = start; i < end; ++i) {
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if (text.charAt(i) === "\n") {
return true;
}
}
return false;
} // Note: this function doesn't ignore leading comments unlike isNextLineEmpty
/**
* @template N
* @param {string} text
* @param {N} node
* @param {(node: N) => number} locStart
*/
function isPreviousLineEmpty(text, node, locStart) {
/** @type {number | false} */
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let idx = locStart(node) - 1;
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idx = skipSpaces(text, idx, {
backwards: true
});
idx = skipNewline(text, idx, {
backwards: true
});
idx = skipSpaces(text, idx, {
backwards: true
});
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const idx2 = skipNewline(text, idx, {
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backwards: true
});
return idx !== idx2;
}
/**
* @param {string} text
* @param {number} index
* @returns {boolean}
*/
function isNextLineEmptyAfterIndex(text, index) {
/** @type {number | false} */
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let oldIdx = null;
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/** @type {number | false} */
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let idx = index;
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while (idx !== oldIdx) {
// We need to skip all the potential trailing inline comments
oldIdx = idx;
idx = skipToLineEnd(text, idx);
idx = skipInlineComment(text, idx);
idx = skipSpaces(text, idx);
}
idx = skipTrailingComment(text, idx);
idx = skipNewline(text, idx);
return idx !== false && hasNewline(text, idx);
}
/**
* @template N
* @param {string} text
* @param {N} node
* @param {(node: N) => number} locEnd
* @returns {boolean}
*/
function isNextLineEmpty(text, node, locEnd) {
return isNextLineEmptyAfterIndex(text, locEnd(node));
}
/**
* @param {string} text
* @param {number} idx
* @returns {number | false}
*/
function getNextNonSpaceNonCommentCharacterIndexWithStartIndex(text, idx) {
/** @type {number | false} */
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let oldIdx = null;
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/** @type {number | false} */
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let nextIdx = idx;
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while (nextIdx !== oldIdx) {
oldIdx = nextIdx;
nextIdx = skipSpaces(text, nextIdx);
nextIdx = skipInlineComment(text, nextIdx);
nextIdx = skipTrailingComment(text, nextIdx);
nextIdx = skipNewline(text, nextIdx);
}
return nextIdx;
}
/**
* @template N
* @param {string} text
* @param {N} node
* @param {(node: N) => number} locEnd
* @returns {number | false}
*/
function getNextNonSpaceNonCommentCharacterIndex(text, node, locEnd) {
return getNextNonSpaceNonCommentCharacterIndexWithStartIndex(text, locEnd(node));
}
/**
* @template N
* @param {string} text
* @param {N} node
* @param {(node: N) => number} locEnd
* @returns {string}
*/
function getNextNonSpaceNonCommentCharacter(text, node, locEnd) {
return text.charAt( // @ts-ignore => TBD: can return false, should we define a fallback?
getNextNonSpaceNonCommentCharacterIndex(text, node, locEnd));
}
/**
* @param {string} text
* @param {number} index
* @param {SkipOptions=} opts
* @returns {boolean}
*/
function hasSpaces(text, index, opts) {
opts = opts || {};
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const idx = skipSpaces(text, opts.backwards ? index - 1 : index, opts);
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return idx !== index;
}
/**
* @param {{range?: [number, number], start?: number}} node
* @param {number} index
*/
function setLocStart(node, index) {
if (node.range) {
node.range[0] = index;
} else {
node.start = index;
}
}
/**
* @param {{range?: [number, number], end?: number}} node
* @param {number} index
*/
function setLocEnd(node, index) {
if (node.range) {
node.range[1] = index;
} else {
node.end = index;
}
}
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const PRECEDENCE = {};
[["|>"], ["??"], ["||"], ["&&"], ["|"], ["^"], ["&"], ["==", "===", "!=", "!=="], ["<", ">", "<=", ">=", "in", "instanceof"], [">>", "<<", ">>>"], ["+", "-"], ["*", "/", "%"], ["**"]].forEach((tier, i) => {
tier.forEach(op => {
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PRECEDENCE[op] = i;
});
});
function getPrecedence(op) {
return PRECEDENCE[op];
}
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const equalityOperators = {
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"==": true,
"!=": true,
"===": true,
"!==": true
};
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const multiplicativeOperators = {
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"*": true,
"/": true,
"%": true
};
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const bitshiftOperators = {
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">>": true,
">>>": true,
"<<": true
};
function shouldFlatten(parentOp, nodeOp) {
if (getPrecedence(nodeOp) !== getPrecedence(parentOp)) {
return false;
} // ** is right-associative
// x ** y ** z --> x ** (y ** z)
if (parentOp === "**") {
return false;
} // x == y == z --> (x == y) == z
if (equalityOperators[parentOp] && equalityOperators[nodeOp]) {
return false;
} // x * y % z --> (x * y) % z
if (nodeOp === "%" && multiplicativeOperators[parentOp] || parentOp === "%" && multiplicativeOperators[nodeOp]) {
return false;
} // x * y / z --> (x * y) / z
// x / y * z --> (x / y) * z
if (nodeOp !== parentOp && multiplicativeOperators[nodeOp] && multiplicativeOperators[parentOp]) {
return false;
} // x << y << z --> (x << y) << z
if (bitshiftOperators[parentOp] && bitshiftOperators[nodeOp]) {
return false;
}
return true;
}
function isBitwiseOperator(operator) {
return !!bitshiftOperators[operator] || operator === "|" || operator === "^" || operator === "&";
} // Tests if an expression starts with `{`, or (if forbidFunctionClassAndDoExpr
// holds) `function`, `class`, or `do {}`. Will be overzealous if there's
// already necessary grouping parentheses.
function startsWithNoLookaheadToken(node, forbidFunctionClassAndDoExpr) {
node = getLeftMost(node);
switch (node.type) {
case "FunctionExpression":
case "ClassExpression":
case "DoExpression":
return forbidFunctionClassAndDoExpr;
case "ObjectExpression":
return true;
case "MemberExpression":
case "OptionalMemberExpression":
return startsWithNoLookaheadToken(node.object, forbidFunctionClassAndDoExpr);
case "TaggedTemplateExpression":
if (node.tag.type === "FunctionExpression") {
// IIFEs are always already parenthesized
return false;
}
return startsWithNoLookaheadToken(node.tag, forbidFunctionClassAndDoExpr);
case "CallExpression":
case "OptionalCallExpression":
if (node.callee.type === "FunctionExpression") {
// IIFEs are always already parenthesized
return false;
}
return startsWithNoLookaheadToken(node.callee, forbidFunctionClassAndDoExpr);
case "ConditionalExpression":
return startsWithNoLookaheadToken(node.test, forbidFunctionClassAndDoExpr);
case "UpdateExpression":
return !node.prefix && startsWithNoLookaheadToken(node.argument, forbidFunctionClassAndDoExpr);
case "BindExpression":
return node.object && startsWithNoLookaheadToken(node.object, forbidFunctionClassAndDoExpr);
case "SequenceExpression":
return startsWithNoLookaheadToken(node.expressions[0], forbidFunctionClassAndDoExpr);
case "TSAsExpression":
return startsWithNoLookaheadToken(node.expression, forbidFunctionClassAndDoExpr);
default:
return false;
}
}
function getLeftMost(node) {
if (node.left) {
return getLeftMost(node.left);
}
return node;
}
/**
* @param {string} value
* @param {number} tabWidth
* @param {number=} startIndex
* @returns {number}
*/
function getAlignmentSize(value, tabWidth, startIndex) {
startIndex = startIndex || 0;
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let size = 0;
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for (let i = startIndex; i < value.length; ++i) {
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if (value[i] === "\t") {
// Tabs behave in a way that they are aligned to the nearest
// multiple of tabWidth:
// 0 -> 4, 1 -> 4, 2 -> 4, 3 -> 4
// 4 -> 8, 5 -> 8, 6 -> 8, 7 -> 8 ...
size = size + tabWidth - size % tabWidth;
} else {
size++;
}
}
return size;
}
/**
* @param {string} value
* @param {number} tabWidth
* @returns {number}
*/
function getIndentSize(value, tabWidth) {
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const lastNewlineIndex = value.lastIndexOf("\n");
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if (lastNewlineIndex === -1) {
return 0;
}
return getAlignmentSize( // All the leading whitespaces
value.slice(lastNewlineIndex + 1).match(/^[ \t]*/)[0], tabWidth);
}
/**
* @typedef {'"' | "'"} Quote
*/
/**
*
* @param {string} raw
* @param {Quote} preferredQuote
* @returns {Quote}
*/
function getPreferredQuote(raw, preferredQuote) {
// `rawContent` is the string exactly like it appeared in the input source
// code, without its enclosing quotes.
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const rawContent = raw.slice(1, -1);
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/** @type {{ quote: '"', regex: RegExp }} */
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const double = {
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quote: '"',
regex: /"/g
};
/** @type {{ quote: "'", regex: RegExp }} */
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const single = {
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quote: "'",
regex: /'/g
};
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const preferred = preferredQuote === "'" ? single : double;
const alternate = preferred === single ? double : single;
let result = preferred.quote; // If `rawContent` contains at least one of the quote preferred for enclosing
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// the string, we might want to enclose with the alternate quote instead, to
// minimize the number of escaped quotes.
if (rawContent.includes(preferred.quote) || rawContent.includes(alternate.quote)) {
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const numPreferredQuotes = (rawContent.match(preferred.regex) || []).length;
const numAlternateQuotes = (rawContent.match(alternate.regex) || []).length;
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result = numPreferredQuotes > numAlternateQuotes ? alternate.quote : preferred.quote;
}
return result;
}
function printString(raw, options, isDirectiveLiteral) {
// `rawContent` is the string exactly like it appeared in the input source
// code, without its enclosing quotes.
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const rawContent = raw.slice(1, -1); // Check for the alternate quote, to determine if we're allowed to swap
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// the quotes on a DirectiveLiteral.
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const canChangeDirectiveQuotes = !rawContent.includes('"') && !rawContent.includes("'");
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/** @type {Quote} */
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const enclosingQuote = options.parser === "json" ? '"' : options.__isInHtmlAttribute ? "'" : getPreferredQuote(raw, options.singleQuote ? "'" : '"'); // Directives are exact code unit sequences, which means that you can't
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// change the escape sequences they use.
// See https://github.com/prettier/prettier/issues/1555
// and https://tc39.github.io/ecma262/#directive-prologue
if (isDirectiveLiteral) {
if (canChangeDirectiveQuotes) {
return enclosingQuote + rawContent + enclosingQuote;
}
return raw;
} // It might sound unnecessary to use `makeString` even if the string already
// is enclosed with `enclosingQuote`, but it isn't. The string could contain
// unnecessary escapes (such as in `"\'"`). Always using `makeString` makes
// sure that we consistently output the minimum amount of escaped quotes.
return makeString(rawContent, enclosingQuote, !(options.parser === "css" || options.parser === "less" || options.parser === "scss" || options.embeddedInHtml));
}
/**
* @param {string} rawContent
* @param {Quote} enclosingQuote
* @param {boolean=} unescapeUnnecessaryEscapes
* @returns {string}
*/
function makeString(rawContent, enclosingQuote, unescapeUnnecessaryEscapes) {
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const otherQuote = enclosingQuote === '"' ? "'" : '"'; // Matches _any_ escape and unescaped quotes (both single and double).
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const regex = /\\([\s\S])|(['"])/g; // Escape and unescape single and double quotes as needed to be able to
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// enclose `rawContent` with `enclosingQuote`.
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const newContent = rawContent.replace(regex, (match, escaped, quote) => {
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// If we matched an escape, and the escaped character is a quote of the
// other type than we intend to enclose the string with, there's no need for
// it to be escaped, so return it _without_ the backslash.
if (escaped === otherQuote) {
return escaped;
} // If we matched an unescaped quote and it is of the _same_ type as we
// intend to enclose the string with, it must be escaped, so return it with
// a backslash.
if (quote === enclosingQuote) {
return "\\" + quote;
}
if (quote) {
return quote;
} // Unescape any unnecessarily escaped character.
// Adapted from https://github.com/eslint/eslint/blob/de0b4ad7bd820ade41b1f606008bea68683dc11a/lib/rules/no-useless-escape.js#L27
return unescapeUnnecessaryEscapes && /^[^\\nrvtbfux\r\n\u2028\u2029"'0-7]$/.test(escaped) ? escaped : "\\" + escaped;
});
return enclosingQuote + newContent + enclosingQuote;
}
function printNumber(rawNumber) {
return rawNumber.toLowerCase() // Remove unnecessary plus and zeroes from scientific notation.
.replace(/^([+-]?[\d.]+e)(?:\+|(-))?0*(\d)/, "$1$2$3") // Remove unnecessary scientific notation (1e0).
.replace(/^([+-]?[\d.]+)e[+-]?0+$/, "$1") // Make sure numbers always start with a digit.
.replace(/^([+-])?\./, "$10.") // Remove extraneous trailing decimal zeroes.
.replace(/(\.\d+?)0+(?=e|$)/, "$1") // Remove trailing dot.
.replace(/\.(?=e|$)/, "");
}
/**
* @param {string} str
* @param {string} target
* @returns {number}
*/
function getMaxContinuousCount(str, target) {
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const results = str.match(new RegExp("(".concat(escapeStringRegexp(target), ")+"), "g"));
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if (results === null) {
return 0;
}
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return results.reduce((maxCount, result) => Math.max(maxCount, result.length / target.length), 0);
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}
function getMinNotPresentContinuousCount(str, target) {
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const matches = str.match(new RegExp("(".concat(escapeStringRegexp(target), ")+"), "g"));
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if (matches === null) {
return 0;
}
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const countPresent = new Map();
let max = 0;
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for (const match of matches) {
const count = match.length / target.length;
countPresent.set(count, true);
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if (count > max) {
max = count;
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}
}
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for (let i = 1; i < max; i++) {
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if (!countPresent.get(i)) {
return i;
}
}
return max + 1;
}
/**
* @param {string} text
* @returns {number}
*/
function getStringWidth(text) {
if (!text) {
return 0;
} // shortcut to avoid needless string `RegExp`s, replacements, and allocations within `string-width`
if (!notAsciiRegex.test(text)) {
return text.length;
}
return stringWidth_1(text);
}
function hasIgnoreComment(path) {
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const node = path.getValue();
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return hasNodeIgnoreComment(node);
}
function hasNodeIgnoreComment(node) {
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return node && (node.comments && node.comments.length > 0 && node.comments.some(comment => isNodeIgnoreComment(comment) && !comment.unignore) || node.prettierIgnore);
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}
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function isNodeIgnoreComment(comment) {
return comment.value.trim() === "prettier-ignore";
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}
function addCommentHelper(node, comment) {
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const comments = node.comments || (node.comments = []);
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comments.push(comment);
comment.printed = false; // For some reason, TypeScript parses `// x` inside of JSXText as a comment
// We already "print" it via the raw text, we don't need to re-print it as a
// comment
if (node.type === "JSXText") {
comment.printed = true;
}
}
function addLeadingComment(node, comment) {
comment.leading = true;
comment.trailing = false;
addCommentHelper(node, comment);
}
function addDanglingComment(node, comment) {
comment.leading = false;
comment.trailing = false;
addCommentHelper(node, comment);
}
function addTrailingComment(node, comment) {
comment.leading = false;
comment.trailing = true;
addCommentHelper(node, comment);
}
function isWithinParentArrayProperty(path, propertyName) {
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const node = path.getValue();
const parent = path.getParentNode();
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if (parent == null) {
return false;
}
if (!Array.isArray(parent[propertyName])) {
return false;
}
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const key = path.getName();
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return parent[propertyName][key] === node;
}
function replaceEndOfLineWith(text, replacement) {
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const parts = [];
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for (const part of text.split("\n")) {
if (parts.length !== 0) {
parts.push(replacement);
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}
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parts.push(part);
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}
return parts;
}
var util = {
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replaceEndOfLineWith,
getStringWidth,
getMaxContinuousCount,
getMinNotPresentContinuousCount,
getPrecedence,
shouldFlatten,
isBitwiseOperator,
getPenultimate,
getLast,
getNextNonSpaceNonCommentCharacterIndexWithStartIndex,
getNextNonSpaceNonCommentCharacterIndex,
getNextNonSpaceNonCommentCharacter,
skip,
skipWhitespace,
skipSpaces,
skipToLineEnd,
skipEverythingButNewLine,
skipInlineComment,
skipTrailingComment,
skipNewline,
isNextLineEmptyAfterIndex,
isNextLineEmpty,
isPreviousLineEmpty,
hasNewline,
hasNewlineInRange,
hasSpaces,
setLocStart,
setLocEnd,
startsWithNoLookaheadToken,
getAlignmentSize,
getIndentSize,
getPreferredQuote,
printString,
printNumber,
hasIgnoreComment,
hasNodeIgnoreComment,
isNodeIgnoreComment,
makeString,
addLeadingComment,
addDanglingComment,
addTrailingComment,
isWithinParentArrayProperty
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};
function guessEndOfLine(text) {
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const index = text.indexOf("\r");
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if (index >= 0) {
return text.charAt(index + 1) === "\n" ? "crlf" : "cr";
}
return "lf";
}
function convertEndOfLineToChars(value) {
switch (value) {
case "cr":
return "\r";
case "crlf":
return "\r\n";
default:
return "\n";
}
}
var endOfLine = {
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guessEndOfLine,
convertEndOfLineToChars
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};
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const {
getStringWidth: getStringWidth$1
} = util;
const {
convertEndOfLineToChars: convertEndOfLineToChars$1
} = endOfLine;
const {
concat: concat$1,
fill: fill$1,
cursor: cursor$1
} = docBuilders;
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/** @type {Record<symbol, typeof MODE_BREAK | typeof MODE_FLAT>} */
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let groupModeMap;
const MODE_BREAK = 1;
const MODE_FLAT = 2;
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function rootIndent() {
return {
value: "",
length: 0,
queue: []
};
}
function makeIndent(ind, options) {
return generateInd(ind, {
type: "indent"
}, options);
}
function makeAlign(ind, n, options) {
return n === -Infinity ? ind.root || rootIndent() : n < 0 ? generateInd(ind, {
type: "dedent"
}, options) : !n ? ind : n.type === "root" ? Object.assign({}, ind, {
root: ind
}) : typeof n === "string" ? generateInd(ind, {
type: "stringAlign",
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n
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}, options) : generateInd(ind, {
type: "numberAlign",
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n
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}, options);
}
function generateInd(ind, newPart, options) {
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const queue = newPart.type === "dedent" ? ind.queue.slice(0, -1) : ind.queue.concat(newPart);
let value = "";
let length = 0;
let lastTabs = 0;
let lastSpaces = 0;
for (const part of queue) {
switch (part.type) {
case "indent":
flush();
if (options.useTabs) {
addTabs(1);
} else {
addSpaces(options.tabWidth);
}
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break;
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case "stringAlign":
flush();
value += part.n;
length += part.n.length;
break;
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case "numberAlign":
lastTabs += 1;
lastSpaces += part.n;
break;
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/* istanbul ignore next */
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default:
throw new Error("Unexpected type '".concat(part.type, "'"));
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}
}
flushSpaces();
return Object.assign({}, ind, {
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value,
length,
queue
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});
function addTabs(count) {
value += "\t".repeat(count);
length += options.tabWidth * count;
}
function addSpaces(count) {
value += " ".repeat(count);
length += count;
}
function flush() {
if (options.useTabs) {
flushTabs();
} else {
flushSpaces();
}
}
function flushTabs() {
if (lastTabs > 0) {
addTabs(lastTabs);
}
resetLast();
}
function flushSpaces() {
if (lastSpaces > 0) {
addSpaces(lastSpaces);
}
resetLast();
}
function resetLast() {
lastTabs = 0;
lastSpaces = 0;
}
}
function trim$1(out) {
if (out.length === 0) {
return 0;
}
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let trimCount = 0; // Trim whitespace at the end of line
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while (out.length > 0 && typeof out[out.length - 1] === "string" && out[out.length - 1].match(/^[ \t]*$/)) {
trimCount += out.pop().length;
}
if (out.length && typeof out[out.length - 1] === "string") {
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const trimmed = out[out.length - 1].replace(/[ \t]*$/, "");
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trimCount += out[out.length - 1].length - trimmed.length;
out[out.length - 1] = trimmed;
}
return trimCount;
}
function fits(next, restCommands, width, options, mustBeFlat) {
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let restIdx = restCommands.length;
const cmds = [next]; // `out` is only used for width counting because `trim` requires to look
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// backwards for space characters.
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const out = [];
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while (width >= 0) {
if (cmds.length === 0) {
if (restIdx === 0) {
return true;
}
cmds.push(restCommands[restIdx - 1]);
restIdx--;
continue;
}
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const [ind, mode, doc] = cmds.pop();
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if (typeof doc === "string") {
out.push(doc);
width -= getStringWidth$1(doc);
} else {
switch (doc.type) {
case "concat":
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for (let i = doc.parts.length - 1; i >= 0; i--) {
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cmds.push([ind, mode, doc.parts[i]]);
}
break;
case "indent":
cmds.push([makeIndent(ind, options), mode, doc.contents]);
break;
case "align":
cmds.push([makeAlign(ind, doc.n, options), mode, doc.contents]);
break;
case "trim":
width += trim$1(out);
break;
case "group":
if (mustBeFlat && doc.break) {
return false;
}
cmds.push([ind, doc.break ? MODE_BREAK : mode, doc.contents]);
if (doc.id) {
groupModeMap[doc.id] = cmds[cmds.length - 1][1];
}
break;
case "fill":
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for (let i = doc.parts.length - 1; i >= 0; i--) {
cmds.push([ind, mode, doc.parts[i]]);
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}
break;
case "if-break":
{
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const groupMode = doc.groupId ? groupModeMap[doc.groupId] : mode;
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if (groupMode === MODE_BREAK) {
if (doc.breakContents) {
cmds.push([ind, mode, doc.breakContents]);
}
}
if (groupMode === MODE_FLAT) {
if (doc.flatContents) {
cmds.push([ind, mode, doc.flatContents]);
}
}
break;
}
case "line":
switch (mode) {
// fallthrough
case MODE_FLAT:
if (!doc.hard) {
if (!doc.soft) {
out.push(" ");
width -= 1;
}
break;
}
return true;
case MODE_BREAK:
return true;
}
break;
}
}
}
return false;
}
function printDocToString(doc, options) {
groupModeMap = {};
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const width = options.printWidth;
const newLine = convertEndOfLineToChars$1(options.endOfLine);
let pos = 0; // cmds is basically a stack. We've turned a recursive call into a
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// while loop which is much faster. The while loop below adds new
// cmds to the array instead of recursively calling `print`.
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const cmds = [[rootIndent(), MODE_BREAK, doc]];
const out = [];
let shouldRemeasure = false;
let lineSuffix = [];
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while (cmds.length !== 0) {
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const [ind, mode, doc] = cmds.pop();
if (typeof doc === "string") {
out.push(doc);
pos += getStringWidth$1(doc);
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} else {
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switch (doc.type) {
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case "cursor":
out.push(cursor$1.placeholder);
break;
case "concat":
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for (let i = doc.parts.length - 1; i >= 0; i--) {
cmds.push([ind, mode, doc.parts[i]]);
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}
break;
case "indent":
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cmds.push([makeIndent(ind, options), mode, doc.contents]);
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break;
case "align":
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cmds.push([makeAlign(ind, doc.n, options), mode, doc.contents]);
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break;
case "trim":
pos -= trim$1(out);
break;
case "group":
switch (mode) {
case MODE_FLAT:
if (!shouldRemeasure) {
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cmds.push([ind, doc.break ? MODE_BREAK : MODE_FLAT, doc.contents]);
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break;
}
// fallthrough
case MODE_BREAK:
{
shouldRemeasure = false;
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const next = [ind, MODE_FLAT, doc.contents];
const rem = width - pos;
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if (!doc.break && fits(next, cmds, rem, options)) {
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cmds.push(next);
} else {
// Expanded states are a rare case where a document
// can manually provide multiple representations of
// itself. It provides an array of documents
// going from the least expanded (most flattened)
// representation first to the most expanded. If a
// group has these, we need to manually go through
// these states and find the first one that fits.
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if (doc.expandedStates) {
const mostExpanded = doc.expandedStates[doc.expandedStates.length - 1];
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if (doc.break) {
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cmds.push([ind, MODE_BREAK, mostExpanded]);
break;
} else {
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for (let i = 1; i < doc.expandedStates.length + 1; i++) {
if (i >= doc.expandedStates.length) {
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cmds.push([ind, MODE_BREAK, mostExpanded]);
break;
} else {
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const state = doc.expandedStates[i];
const cmd = [ind, MODE_FLAT, state];
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if (fits(cmd, cmds, rem, options)) {
cmds.push(cmd);
break;
}
}
}
}
} else {
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cmds.push([ind, MODE_BREAK, doc.contents]);
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}
}
break;
}
}
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if (doc.id) {
groupModeMap[doc.id] = cmds[cmds.length - 1][1];
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}
break;
// Fills each line with as much code as possible before moving to a new
// line with the same indentation.
//
// Expects doc.parts to be an array of alternating content and
// whitespace. The whitespace contains the linebreaks.
//
// For example:
// ["I", line, "love", line, "monkeys"]
// or
// [{ type: group, ... }, softline, { type: group, ... }]
//
// It uses this parts structure to handle three main layout cases:
// * The first two content items fit on the same line without
// breaking
// -> output the first content item and the whitespace "flat".
// * Only the first content item fits on the line without breaking
// -> output the first content item "flat" and the whitespace with
// "break".
// * Neither content item fits on the line without breaking
// -> output the first content item and the whitespace with "break".
case "fill":
{
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const rem = width - pos;
const {
parts
} = doc;
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if (parts.length === 0) {
break;
}
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const [content, whitespace] = parts;
const contentFlatCmd = [ind, MODE_FLAT, content];
const contentBreakCmd = [ind, MODE_BREAK, content];
const contentFits = fits(contentFlatCmd, [], rem, options, true);
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if (parts.length === 1) {
if (contentFits) {
cmds.push(contentFlatCmd);
} else {
cmds.push(contentBreakCmd);
}
break;
}
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const whitespaceFlatCmd = [ind, MODE_FLAT, whitespace];
const whitespaceBreakCmd = [ind, MODE_BREAK, whitespace];
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if (parts.length === 2) {
if (contentFits) {
cmds.push(whitespaceFlatCmd);
cmds.push(contentFlatCmd);
} else {
cmds.push(whitespaceBreakCmd);
cmds.push(contentBreakCmd);
}
break;
} // At this point we've handled the first pair (context, separator)
// and will create a new fill doc for the rest of the content.
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// Ideally we wouldn't mutate the array here but copying all the
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// elements to a new array would make this algorithm quadratic,
// which is unusable for large arrays (e.g. large texts in JSX).
parts.splice(0, 2);
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const remainingCmd = [ind, mode, fill$1(parts)];
const secondContent = parts[0];
const firstAndSecondContentFlatCmd = [ind, MODE_FLAT, concat$1([content, whitespace, secondContent])];
const firstAndSecondContentFits = fits(firstAndSecondContentFlatCmd, [], rem, options, true);
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if (firstAndSecondContentFits) {
cmds.push(remainingCmd);
cmds.push(whitespaceFlatCmd);
cmds.push(contentFlatCmd);
} else if (contentFits) {
cmds.push(remainingCmd);
cmds.push(whitespaceBreakCmd);
cmds.push(contentFlatCmd);
} else {
cmds.push(remainingCmd);
cmds.push(whitespaceBreakCmd);
cmds.push(contentBreakCmd);
}
break;
}
case "if-break":
{
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const groupMode = doc.groupId ? groupModeMap[doc.groupId] : mode;
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if (groupMode === MODE_BREAK) {
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if (doc.breakContents) {
cmds.push([ind, mode, doc.breakContents]);
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}
}
if (groupMode === MODE_FLAT) {
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if (doc.flatContents) {
cmds.push([ind, mode, doc.flatContents]);
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}
}
break;
}
case "line-suffix":
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lineSuffix.push([ind, mode, doc.contents]);
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break;
case "line-suffix-boundary":
if (lineSuffix.length > 0) {
cmds.push([ind, mode, {
type: "line",
hard: true
}]);
}
break;
case "line":
switch (mode) {
case MODE_FLAT:
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if (!doc.hard) {
if (!doc.soft) {
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out.push(" ");
pos += 1;
}
break;
} else {
// This line was forced into the output even if we
// were in flattened mode, so we need to tell the next
// group that no matter what, it needs to remeasure
// because the previous measurement didn't accurately
// capture the entire expression (this is necessary
// for nested groups)
shouldRemeasure = true;
}
// fallthrough
case MODE_BREAK:
if (lineSuffix.length) {
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cmds.push([ind, mode, doc]);
cmds.push(...lineSuffix.reverse());
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lineSuffix = [];
break;
}
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if (doc.literal) {
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if (ind.root) {
out.push(newLine, ind.root.value);
pos = ind.root.length;
} else {
out.push(newLine);
pos = 0;
}
} else {
pos -= trim$1(out);
out.push(newLine + ind.value);
pos = ind.length;
}
break;
}
break;
}
}
}
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const cursorPlaceholderIndex = out.indexOf(cursor$1.placeholder);
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if (cursorPlaceholderIndex !== -1) {
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const otherCursorPlaceholderIndex = out.indexOf(cursor$1.placeholder, cursorPlaceholderIndex + 1);
const beforeCursor = out.slice(0, cursorPlaceholderIndex).join("");
const aroundCursor = out.slice(cursorPlaceholderIndex + 1, otherCursorPlaceholderIndex).join("");
const afterCursor = out.slice(otherCursorPlaceholderIndex + 1).join("");
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return {
formatted: beforeCursor + aroundCursor + afterCursor,
cursorNodeStart: beforeCursor.length,
cursorNodeText: aroundCursor
};
}
return {
formatted: out.join("")
};
}
var docPrinter = {
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printDocToString
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};
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const traverseDocOnExitStackMarker = {};
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function traverseDoc(doc, onEnter, onExit, shouldTraverseConditionalGroups) {
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const docsStack = [doc];
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while (docsStack.length !== 0) {
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const doc = docsStack.pop();
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if (doc === traverseDocOnExitStackMarker) {
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onExit(docsStack.pop());
continue;
}
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let shouldRecurse = true;
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if (onEnter) {
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if (onEnter(doc) === false) {
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shouldRecurse = false;
}
}
if (onExit) {
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docsStack.push(doc);
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docsStack.push(traverseDocOnExitStackMarker);
}
if (shouldRecurse) {
// When there are multiple parts to process,
// the parts need to be pushed onto the stack in reverse order,
// so that they are processed in the original order
// when the stack is popped.
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if (doc.type === "concat" || doc.type === "fill") {
for (let ic = doc.parts.length, i = ic - 1; i >= 0; --i) {
docsStack.push(doc.parts[i]);
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}
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} else if (doc.type === "if-break") {
if (doc.flatContents) {
docsStack.push(doc.flatContents);
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}
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if (doc.breakContents) {
docsStack.push(doc.breakContents);
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}
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} else if (doc.type === "group" && doc.expandedStates) {
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if (shouldTraverseConditionalGroups) {
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for (let ic = doc.expandedStates.length, i = ic - 1; i >= 0; --i) {
docsStack.push(doc.expandedStates[i]);
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}
} else {
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docsStack.push(doc.contents);
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}
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} else if (doc.contents) {
docsStack.push(doc.contents);
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}
}
}
}
function mapDoc(doc, cb) {
if (doc.type === "concat" || doc.type === "fill") {
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const parts = doc.parts.map(part => mapDoc(part, cb));
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return cb(Object.assign({}, doc, {
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parts
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}));
} else if (doc.type === "if-break") {
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const breakContents = doc.breakContents && mapDoc(doc.breakContents, cb);
const flatContents = doc.flatContents && mapDoc(doc.flatContents, cb);
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return cb(Object.assign({}, doc, {
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breakContents,
flatContents
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}));
} else if (doc.contents) {
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const contents = mapDoc(doc.contents, cb);
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return cb(Object.assign({}, doc, {
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contents
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}));
}
return cb(doc);
}
function findInDoc(doc, fn, defaultValue) {
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let result = defaultValue;
let hasStopped = false;
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function findInDocOnEnterFn(doc) {
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const maybeResult = fn(doc);
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if (maybeResult !== undefined) {
hasStopped = true;
result = maybeResult;
}
if (hasStopped) {
return false;
}
}
traverseDoc(doc, findInDocOnEnterFn);
return result;
}
function isEmpty(n) {
return typeof n === "string" && n.length === 0;
}
function isLineNextFn(doc) {
if (typeof doc === "string") {
return false;
}
if (doc.type === "line") {
return true;
}
}
function isLineNext(doc) {
return findInDoc(doc, isLineNextFn, false);
}
function willBreakFn(doc) {
if (doc.type === "group" && doc.break) {
return true;
}
if (doc.type === "line" && doc.hard) {
return true;
}
if (doc.type === "break-parent") {
return true;
}
}
function willBreak(doc) {
return findInDoc(doc, willBreakFn, false);
}
function breakParentGroup(groupStack) {
if (groupStack.length > 0) {
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const parentGroup = groupStack[groupStack.length - 1]; // Breaks are not propagated through conditional groups because
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// the user is expected to manually handle what breaks.
if (!parentGroup.expandedStates) {
parentGroup.break = true;
}
}
return null;
}
function propagateBreaks(doc) {
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const alreadyVisitedSet = new Set();
const groupStack = [];
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function propagateBreaksOnEnterFn(doc) {
if (doc.type === "break-parent") {
breakParentGroup(groupStack);
}
if (doc.type === "group") {
groupStack.push(doc);
if (alreadyVisitedSet.has(doc)) {
return false;
}
alreadyVisitedSet.add(doc);
}
}
function propagateBreaksOnExitFn(doc) {
if (doc.type === "group") {
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const group = groupStack.pop();
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if (group.break) {
breakParentGroup(groupStack);
}
}
}
traverseDoc(doc, propagateBreaksOnEnterFn, propagateBreaksOnExitFn,
/* shouldTraverseConditionalGroups */
true);
}
function removeLinesFn(doc) {
// Force this doc into flat mode by statically converting all
// lines into spaces (or soft lines into nothing). Hard lines
// should still output because there's too great of a chance
// of breaking existing assumptions otherwise.
if (doc.type === "line" && !doc.hard) {
return doc.soft ? "" : " ";
} else if (doc.type === "if-break") {
return doc.flatContents || "";
}
return doc;
}
function removeLines(doc) {
return mapDoc(doc, removeLinesFn);
}
function stripTrailingHardline(doc) {
// HACK remove ending hardline, original PR: #1984
if (doc.type === "concat" && doc.parts.length !== 0) {
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const lastPart = doc.parts[doc.parts.length - 1];
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if (lastPart.type === "concat") {
if (lastPart.parts.length === 2 && lastPart.parts[0].hard && lastPart.parts[1].type === "break-parent") {
return {
type: "concat",
parts: doc.parts.slice(0, -1)
};
}
return {
type: "concat",
parts: doc.parts.slice(0, -1).concat(stripTrailingHardline(lastPart))
};
}
}
return doc;
}
var docUtils = {
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isEmpty,
willBreak,
isLineNext,
traverseDoc,
findInDoc,
mapDoc,
propagateBreaks,
removeLines,
stripTrailingHardline
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};
function flattenDoc(doc) {
if (doc.type === "concat") {
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const res = [];
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for (let i = 0; i < doc.parts.length; ++i) {
const doc2 = doc.parts[i];
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if (typeof doc2 !== "string" && doc2.type === "concat") {
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res.push(...flattenDoc(doc2).parts);
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} else {
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const flattened = flattenDoc(doc2);
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if (flattened !== "") {
res.push(flattened);
}
}
}
return Object.assign({}, doc, {
parts: res
});
} else if (doc.type === "if-break") {
return Object.assign({}, doc, {
breakContents: doc.breakContents != null ? flattenDoc(doc.breakContents) : null,
flatContents: doc.flatContents != null ? flattenDoc(doc.flatContents) : null
});
} else if (doc.type === "group") {
return Object.assign({}, doc, {
contents: flattenDoc(doc.contents),
expandedStates: doc.expandedStates ? doc.expandedStates.map(flattenDoc) : doc.expandedStates
});
} else if (doc.contents) {
return Object.assign({}, doc, {
contents: flattenDoc(doc.contents)
});
}
return doc;
}
function printDoc(doc) {
if (typeof doc === "string") {
return JSON.stringify(doc);
}
if (doc.type === "line") {
if (doc.literal) {
return "literalline";
}
if (doc.hard) {
return "hardline";
}
if (doc.soft) {
return "softline";
}
return "line";
}
if (doc.type === "break-parent") {
return "breakParent";
}
if (doc.type === "trim") {
return "trim";
}
if (doc.type === "concat") {
return "[" + doc.parts.map(printDoc).join(", ") + "]";
}
if (doc.type === "indent") {
return "indent(" + printDoc(doc.contents) + ")";
}
if (doc.type === "align") {
return doc.n === -Infinity ? "dedentToRoot(" + printDoc(doc.contents) + ")" : doc.n < 0 ? "dedent(" + printDoc(doc.contents) + ")" : doc.n.type === "root" ? "markAsRoot(" + printDoc(doc.contents) + ")" : "align(" + JSON.stringify(doc.n) + ", " + printDoc(doc.contents) + ")";
}
if (doc.type === "if-break") {
return "ifBreak(" + printDoc(doc.breakContents) + (doc.flatContents ? ", " + printDoc(doc.flatContents) : "") + ")";
}
if (doc.type === "group") {
if (doc.expandedStates) {
return "conditionalGroup(" + "[" + doc.expandedStates.map(printDoc).join(",") + "])";
}
return (doc.break ? "wrappedGroup" : "group") + "(" + printDoc(doc.contents) + ")";
}
if (doc.type === "fill") {
return "fill" + "(" + doc.parts.map(printDoc).join(", ") + ")";
}
if (doc.type === "line-suffix") {
return "lineSuffix(" + printDoc(doc.contents) + ")";
}
if (doc.type === "line-suffix-boundary") {
return "lineSuffixBoundary";
}
throw new Error("Unknown doc type " + doc.type);
}
var docDebug = {
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printDocToDebug(doc) {
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return printDoc(flattenDoc(doc));
}
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};
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var document = {
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builders: docBuilders,
printer: docPrinter,
utils: docUtils,
debug: docDebug
};
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var document_1 = document.builders;
var document_2 = document.printer;
var document_3 = document.utils;
var document_4 = document.debug;
exports.builders = document_1;
exports.debug = document_4;
exports.default = document;
exports.printer = document_2;
exports.utils = document_3;
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Object.defineProperty(exports, '__esModule', { value: true });
})));