index.js

import { expand } from 'brace-expansion';
import { assertValidPattern } from './assert-valid-pattern.js';
import { AST } from './ast.js';
import { escape } from './escape.js';
import { unescape } from './unescape.js';
export const minimatch = (p, pattern, options = {}) => {
    assertValidPattern(pattern);
    // shortcut: comments match nothing.
    if (!options.nocomment && pattern.charAt(0) === '#') {
        return false;
    }
    return new Minimatch(pattern, options).match(p);
};
// Optimized checking for the most common glob patterns.
const starDotExtRE = /^\*+([^+@!?\*\[\(]*)$/;
const starDotExtTest = (ext) => (f) => !f.startsWith('.') && f.endsWith(ext);
const starDotExtTestDot = (ext) => (f) => f.endsWith(ext);
const starDotExtTestNocase = (ext) => {
    ext = ext.toLowerCase();
    return (f) => !f.startsWith('.') && f.toLowerCase().endsWith(ext);
};
const starDotExtTestNocaseDot = (ext) => {
    ext = ext.toLowerCase();
    return (f) => f.toLowerCase().endsWith(ext);
};
const starDotStarRE = /^\*+\.\*+$/;
const starDotStarTest = (f) => !f.startsWith('.') && f.includes('.');
const starDotStarTestDot = (f) => f !== '.' && f !== '..' && f.includes('.');
const dotStarRE = /^\.\*+$/;
const dotStarTest = (f) => f !== '.' && f !== '..' && f.startsWith('.');
const starRE = /^\*+$/;
const starTest = (f) => f.length !== 0 && !f.startsWith('.');
const starTestDot = (f) => f.length !== 0 && f !== '.' && f !== '..';
const qmarksRE = /^\?+([^+@!?\*\[\(]*)?$/;
const qmarksTestNocase = ([$0, ext = '']) => {
    const noext = qmarksTestNoExt([$0]);
    if (!ext)
        return noext;
    ext = ext.toLowerCase();
    return (f) => noext(f) && f.toLowerCase().endsWith(ext);
};
const qmarksTestNocaseDot = ([$0, ext = '']) => {
    const noext = qmarksTestNoExtDot([$0]);
    if (!ext)
        return noext;
    ext = ext.toLowerCase();
    return (f) => noext(f) && f.toLowerCase().endsWith(ext);
};
const qmarksTestDot = ([$0, ext = '']) => {
    const noext = qmarksTestNoExtDot([$0]);
    return !ext ? noext : (f) => noext(f) && f.endsWith(ext);
};
const qmarksTest = ([$0, ext = '']) => {
    const noext = qmarksTestNoExt([$0]);
    return !ext ? noext : (f) => noext(f) && f.endsWith(ext);
};
const qmarksTestNoExt = ([$0]) => {
    const len = $0.length;
    return (f) => f.length === len && !f.startsWith('.');
};
const qmarksTestNoExtDot = ([$0]) => {
    const len = $0.length;
    return (f) => f.length === len && f !== '.' && f !== '..';
};
/* c8 ignore start */
const defaultPlatform = (typeof process === 'object' && process ?
    (typeof process.env === 'object' &&
        process.env &&
        process.env.__MINIMATCH_TESTING_PLATFORM__) ||
        process.platform
    : 'posix');
const path = {
    win32: { sep: '\\' },
    posix: { sep: '/' },
};
/* c8 ignore stop */
export const sep = defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep;
minimatch.sep = sep;
export const GLOBSTAR = Symbol('globstar **');
minimatch.GLOBSTAR = GLOBSTAR;
// any single thing other than /
// don't need to escape / when using new RegExp()
const qmark = '[^/]';
// * => any number of characters
const star = qmark + '*?';
// ** when dots are allowed.  Anything goes, except .. and .
// not (^ or / followed by one or two dots followed by $ or /),
// followed by anything, any number of times.
const twoStarDot = '(?:(?!(?:\\/|^)(?:\\.{1,2})($|\\/)).)*?';
// not a ^ or / followed by a dot,
// followed by anything, any number of times.
const twoStarNoDot = '(?:(?!(?:\\/|^)\\.).)*?';
export const filter = (pattern, options = {}) => (p) => minimatch(p, pattern, options);
minimatch.filter = filter;
const ext = (a, b = {}) => Object.assign({}, a, b);
export const defaults = (def) => {
    if (!def || typeof def !== 'object' || !Object.keys(def).length) {
        return minimatch;
    }
    const orig = minimatch;
    const m = (p, pattern, options = {}) => orig(p, pattern, ext(def, options));
    return Object.assign(m, {
        Minimatch: class Minimatch extends orig.Minimatch {
            constructor(pattern, options = {}) {
                super(pattern, ext(def, options));
            }
            static defaults(options) {
                return orig.defaults(ext(def, options)).Minimatch;
            }
        },
        AST: class AST extends orig.AST {
            /* c8 ignore start */
            constructor(type, parent, options = {}) {
                super(type, parent, ext(def, options));
            }
            /* c8 ignore stop */
            static fromGlob(pattern, options = {}) {
                return orig.AST.fromGlob(pattern, ext(def, options));
            }
        },
        unescape: (s, options = {}) => orig.unescape(s, ext(def, options)),
        escape: (s, options = {}) => orig.escape(s, ext(def, options)),
        filter: (pattern, options = {}) => orig.filter(pattern, ext(def, options)),
        defaults: (options) => orig.defaults(ext(def, options)),
        makeRe: (pattern, options = {}) => orig.makeRe(pattern, ext(def, options)),
        braceExpand: (pattern, options = {}) => orig.braceExpand(pattern, ext(def, options)),
        match: (list, pattern, options = {}) => orig.match(list, pattern, ext(def, options)),
        sep: orig.sep,
        GLOBSTAR: GLOBSTAR,
    });
};
minimatch.defaults = defaults;
// Brace expansion:
// a{b,c}d -> abd acd
// a{b,}c -> abc ac
// a{0..3}d -> a0d a1d a2d a3d
// a{b,c{d,e}f}g -> abg acdfg acefg
// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg
//
// Invalid sets are not expanded.
// a{2..}b -> a{2..}b
// a{b}c -> a{b}c
export const braceExpand = (pattern, options = {}) => {
    assertValidPattern(pattern);
    // Thanks to Yeting Li <https://github.com/yetingli> for
    // improving this regexp to avoid a ReDOS vulnerability.
    if (options.nobrace || !/\{(?:(?!\{).)*\}/.test(pattern)) {
        // shortcut. no need to expand.
        return [pattern];
    }
    return expand(pattern, { max: options.braceExpandMax });
};
minimatch.braceExpand = braceExpand;
// parse a component of the expanded set.
// At this point, no pattern may contain "/" in it
// so we're going to return a 2d array, where each entry is the full
// pattern, split on '/', and then turned into a regular expression.
// A regexp is made at the end which joins each array with an
// escaped /, and another full one which joins each regexp with |.
//
// Following the lead of Bash 4.1, note that "**" only has special meaning
// when it is the *only* thing in a path portion.  Otherwise, any series
// of * is equivalent to a single *.  Globstar behavior is enabled by
// default, and can be disabled by setting options.noglobstar.
export const makeRe = (pattern, options = {}) => new Minimatch(pattern, options).makeRe();
minimatch.makeRe = makeRe;
export const match = (list, pattern, options = {}) => {
    const mm = new Minimatch(pattern, options);
    list = list.filter(f => mm.match(f));
    if (mm.options.nonull && !list.length) {
        list.push(pattern);
    }
    return list;
};
minimatch.match = match;
// replace stuff like \* with *
const globMagic = /[?*]|[+@!]\(.*?\)|\[|\]/;
const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&');
export class Minimatch {
    options;
    set;
    pattern;
    windowsPathsNoEscape;
    nonegate;
    negate;
    comment;
    empty;
    preserveMultipleSlashes;
    partial;
    globSet;
    globParts;
    nocase;
    isWindows;
    platform;
    windowsNoMagicRoot;
    maxGlobstarRecursion;
    regexp;
    constructor(pattern, options = {}) {
        assertValidPattern(pattern);
        options = options || {};
        this.options = options;
        this.maxGlobstarRecursion = options.maxGlobstarRecursion ?? 200;
        this.pattern = pattern;
        this.platform = options.platform || defaultPlatform;
        this.isWindows = this.platform === 'win32';
        // avoid the annoying deprecation flag lol
        const awe = ('allowWindow' + 'sEscape');
        this.windowsPathsNoEscape =
            !!options.windowsPathsNoEscape || options[awe] === false;
        if (this.windowsPathsNoEscape) {
            this.pattern = this.pattern.replace(/\\/g, '/');
        }
        this.preserveMultipleSlashes = !!options.preserveMultipleSlashes;
        this.regexp = null;
        this.negate = false;
        this.nonegate = !!options.nonegate;
        this.comment = false;
        this.empty = false;
        this.partial = !!options.partial;
        this.nocase = !!this.options.nocase;
        this.windowsNoMagicRoot =
            options.windowsNoMagicRoot !== undefined ?
                options.windowsNoMagicRoot
                : !!(this.isWindows && this.nocase);
        this.globSet = [];
        this.globParts = [];
        this.set = [];
        // make the set of regexps etc.
        this.make();
    }
    hasMagic() {
        if (this.options.magicalBraces && this.set.length > 1) {
            return true;
        }
        for (const pattern of this.set) {
            for (const part of pattern) {
                if (typeof part !== 'string')
                    return true;
            }
        }
        return false;
    }
    debug(..._) { }
    make() {
        const pattern = this.pattern;
        const options = this.options;
        // empty patterns and comments match nothing.
        if (!options.nocomment && pattern.charAt(0) === '#') {
            this.comment = true;
            return;
        }
        if (!pattern) {
            this.empty = true;
            return;
        }
        // step 1: figure out negation, etc.
        this.parseNegate();
        // step 2: expand braces
        this.globSet = [...new Set(this.braceExpand())];
        if (options.debug) {
            this.debug = (...args) => console.error(...args);
        }
        this.debug(this.pattern, this.globSet);
        // step 3: now we have a set, so turn each one into a series of
        // path-portion matching patterns.
        // These will be regexps, except in the case of "**", which is
        // set to the GLOBSTAR object for globstar behavior,
        // and will not contain any / characters
        //
        // First, we preprocess to make the glob pattern sets a bit simpler
        // and deduped.  There are some perf-killing patterns that can cause
        // problems with a glob walk, but we can simplify them down a bit.
        const rawGlobParts = this.globSet.map(s => this.slashSplit(s));
        this.globParts = this.preprocess(rawGlobParts);
        this.debug(this.pattern, this.globParts);
        // glob --> regexps
        let set = this.globParts.map((s, _, __) => {
            if (this.isWindows && this.windowsNoMagicRoot) {
                // check if it's a drive or unc path.
                const isUNC = s[0] === '' &&
                    s[1] === '' &&
                    (s[2] === '?' || !globMagic.test(s[2])) &&
                    !globMagic.test(s[3]);
                const isDrive = /^[a-z]:/i.test(s[0]);
                if (isUNC) {
                    return [
                        ...s.slice(0, 4),
                        ...s.slice(4).map(ss => this.parse(ss)),
                    ];
                }
                else if (isDrive) {
                    return [s[0], ...s.slice(1).map(ss => this.parse(ss))];
                }
            }
            return s.map(ss => this.parse(ss));
        });
        this.debug(this.pattern, set);
        // filter out everything that didn't compile properly.
        this.set = set.filter(s => s.indexOf(false) === -1);
        // do not treat the ? in UNC paths as magic
        if (this.isWindows) {
            for (let i = 0; i < this.set.length; i++) {
                const p = this.set[i];
                if (p[0] === '' &&
                    p[1] === '' &&
                    this.globParts[i][2] === '?' &&
                    typeof p[3] === 'string' &&
                    /^[a-z]:$/i.test(p[3])) {
                    p[2] = '?';
                }
            }
        }
        this.debug(this.pattern, this.set);
    }
    // various transforms to equivalent pattern sets that are
    // faster to process in a filesystem walk.  The goal is to
    // eliminate what we can, and push all ** patterns as far
    // to the right as possible, even if it increases the number
    // of patterns that we have to process.
    preprocess(globParts) {
        // if we're not in globstar mode, then turn ** into *
        if (this.options.noglobstar) {
            for (let i = 0; i < globParts.length; i++) {
                for (let j = 0; j < globParts[i].length; j++) {
                    if (globParts[i][j] === '**') {
                        globParts[i][j] = '*';
                    }
                }
            }
        }
        const { optimizationLevel = 1 } = this.options;
        if (optimizationLevel >= 2) {
            // aggressive optimization for the purpose of fs walking
            globParts = this.firstPhasePreProcess(globParts);
            globParts = this.secondPhasePreProcess(globParts);
        }
        else if (optimizationLevel >= 1) {
            // just basic optimizations to remove some .. parts
            globParts = this.levelOneOptimize(globParts);
        }
        else {
            // just collapse multiple ** portions into one
            globParts = this.adjascentGlobstarOptimize(globParts);
        }
        return globParts;
    }
    // just get rid of adjascent ** portions
    adjascentGlobstarOptimize(globParts) {
        return globParts.map(parts => {
            let gs = -1;
            while (-1 !== (gs = parts.indexOf('**', gs + 1))) {
                let i = gs;
                while (parts[i + 1] === '**') {
                    i++;
                }
                if (i !== gs) {
                    parts.splice(gs, i - gs);
                }
            }
            return parts;
        });
    }
    // get rid of adjascent ** and resolve .. portions
    levelOneOptimize(globParts) {
        return globParts.map(parts => {
            parts = parts.reduce((set, part) => {
                const prev = set[set.length - 1];
                if (part === '**' && prev === '**') {
                    return set;
                }
                if (part === '..') {
                    if (prev && prev !== '..' && prev !== '.' && prev !== '**') {
                        set.pop();
                        return set;
                    }
                }
                set.push(part);
                return set;
            }, []);
            return parts.length === 0 ? [''] : parts;
        });
    }
    levelTwoFileOptimize(parts) {
        if (!Array.isArray(parts)) {
            parts = this.slashSplit(parts);
        }
        let didSomething = false;
        do {
            didSomething = false;
            // <pre>/<e>/<rest> -> <pre>/<rest>
            if (!this.preserveMultipleSlashes) {
                for (let i = 1; i < parts.length - 1; i++) {
                    const p = parts[i];
                    // don't squeeze out UNC patterns
                    if (i === 1 && p === '' && parts[0] === '')
                        continue;
                    if (p === '.' || p === '') {
                        didSomething = true;
                        parts.splice(i, 1);
                        i--;
                    }
                }
                if (parts[0] === '.' &&
                    parts.length === 2 &&
                    (parts[1] === '.' || parts[1] === '')) {
                    didSomething = true;
                    parts.pop();
                }
            }
            // <pre>/<p>/../<rest> -> <pre>/<rest>
            let dd = 0;
            while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
                const p = parts[dd - 1];
                if (p && p !== '.' && p !== '..' && p !== '**') {
                    didSomething = true;
                    parts.splice(dd - 1, 2);
                    dd -= 2;
                }
            }
        } while (didSomething);
        return parts.length === 0 ? [''] : parts;
    }
    // First phase: single-pattern processing
    // <pre> is 1 or more portions
    // <rest> is 1 or more portions
    // <p> is any portion other than ., .., '', or **
    // <e> is . or ''
    //
    // **/.. is *brutal* for filesystem walking performance, because
    // it effectively resets the recursive walk each time it occurs,
    // and ** cannot be reduced out by a .. pattern part like a regexp
    // or most strings (other than .., ., and '') can be.
    //
    // <pre>/**/../<p>/<p>/<rest> -> {<pre>/../<p>/<p>/<rest>,<pre>/**/<p>/<p>/<rest>}
    // <pre>/<e>/<rest> -> <pre>/<rest>
    // <pre>/<p>/../<rest> -> <pre>/<rest>
    // **/**/<rest> -> **/<rest>
    //
    // **/*/<rest> -> */**/<rest> <== not valid because ** doesn't follow
    // this WOULD be allowed if ** did follow symlinks, or * didn't
    firstPhasePreProcess(globParts) {
        let didSomething = false;
        do {
            didSomething = false;
            // <pre>/**/../<p>/<p>/<rest> -> {<pre>/../<p>/<p>/<rest>,<pre>/**/<p>/<p>/<rest>}
            for (let parts of globParts) {
                let gs = -1;
                while (-1 !== (gs = parts.indexOf('**', gs + 1))) {
                    let gss = gs;
                    while (parts[gss + 1] === '**') {
                        // <pre>/**/**/<rest> -> <pre>/**/<rest>
                        gss++;
                    }
                    // eg, if gs is 2 and gss is 4, that means we have 3 **
                    // parts, and can remove 2 of them.
                    if (gss > gs) {
                        parts.splice(gs + 1, gss - gs);
                    }
                    let next = parts[gs + 1];
                    const p = parts[gs + 2];
                    const p2 = parts[gs + 3];
                    if (next !== '..')
                        continue;
                    if (!p ||
                        p === '.' ||
                        p === '..' ||
                        !p2 ||
                        p2 === '.' ||
                        p2 === '..') {
                        continue;
                    }
                    didSomething = true;
                    // edit parts in place, and push the new one
                    parts.splice(gs, 1);
                    const other = parts.slice(0);
                    other[gs] = '**';
                    globParts.push(other);
                    gs--;
                }
                // <pre>/<e>/<rest> -> <pre>/<rest>
                if (!this.preserveMultipleSlashes) {
                    for (let i = 1; i < parts.length - 1; i++) {
                        const p = parts[i];
                        // don't squeeze out UNC patterns
                        if (i === 1 && p === '' && parts[0] === '')
                            continue;
                        if (p === '.' || p === '') {
                            didSomething = true;
                            parts.splice(i, 1);
                            i--;
                        }
                    }
                    if (parts[0] === '.' &&
                        parts.length === 2 &&
                        (parts[1] === '.' || parts[1] === '')) {
                        didSomething = true;
                        parts.pop();
                    }
                }
                // <pre>/<p>/../<rest> -> <pre>/<rest>
                let dd = 0;
                while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
                    const p = parts[dd - 1];
                    if (p && p !== '.' && p !== '..' && p !== '**') {
                        didSomething = true;
                        const needDot = dd === 1 && parts[dd + 1] === '**';
                        const splin = needDot ? ['.'] : [];
                        parts.splice(dd - 1, 2, ...splin);
                        if (parts.length === 0)
                            parts.push('');
                        dd -= 2;
                    }
                }
            }
        } while (didSomething);
        return globParts;
    }
    // second phase: multi-pattern dedupes
    // {<pre>/*/<rest>,<pre>/<p>/<rest>} -> <pre>/*/<rest>
    // {<pre>/<rest>,<pre>/<rest>} -> <pre>/<rest>
    // {<pre>/**/<rest>,<pre>/<rest>} -> <pre>/**/<rest>
    //
    // {<pre>/**/<rest>,<pre>/**/<p>/<rest>} -> <pre>/**/<rest>
    // ^-- not valid because ** doens't follow symlinks
    secondPhasePreProcess(globParts) {
        for (let i = 0; i < globParts.length - 1; i++) {
            for (let j = i + 1; j < globParts.length; j++) {
                const matched = this.partsMatch(globParts[i], globParts[j], !this.preserveMultipleSlashes);
                if (matched) {
                    globParts[i] = [];
                    globParts[j] = matched;
                    break;
                }
            }
        }
        return globParts.filter(gs => gs.length);
    }
    partsMatch(a, b, emptyGSMatch = false) {
        let ai = 0;
        let bi = 0;
        let result = [];
        let which = '';
        while (ai < a.length && bi < b.length) {
            if (a[ai] === b[bi]) {
                result.push(which === 'b' ? b[bi] : a[ai]);
                ai++;
                bi++;
            }
            else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {
                result.push(a[ai]);
                ai++;
            }
            else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {
                result.push(b[bi]);
                bi++;
            }
            else if (a[ai] === '*' &&
                b[bi] &&
                (this.options.dot || !b[bi].startsWith('.')) &&
                b[bi] !== '**') {
                if (which === 'b')
                    return false;
                which = 'a';
                result.push(a[ai]);
                ai++;
                bi++;
            }
            else if (b[bi] === '*' &&
                a[ai] &&
                (this.options.dot || !a[ai].startsWith('.')) &&
                a[ai] !== '**') {
                if (which === 'a')
                    return false;
                which = 'b';
                result.push(b[bi]);
                ai++;
                bi++;
            }
            else {
                return false;
            }
        }
        // if we fall out of the loop, it means they two are identical
        // as long as their lengths match
        return a.length === b.length && result;
    }
    parseNegate() {
        if (this.nonegate)
            return;
        const pattern = this.pattern;
        let negate = false;
        let negateOffset = 0;
        for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {
            negate = !negate;
            negateOffset++;
        }
        if (negateOffset)
            this.pattern = pattern.slice(negateOffset);
        this.negate = negate;
    }
    // set partial to true to test if, for example,
    // "/a/b" matches the start of "/*/b/*/d"
    // Partial means, if you run out of file before you run
    // out of pattern, then that's fine, as long as all
    // the parts match.
    matchOne(file, pattern, partial = false) {
        let fileStartIndex = 0;
        let patternStartIndex = 0;
        // UNC paths like //?/X:/... can match X:/... and vice versa
        // Drive letters in absolute drive or unc paths are always compared
        // case-insensitively.
        if (this.isWindows) {
            const fileDrive = typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0]);
            const fileUNC = !fileDrive &&
                file[0] === '' &&
                file[1] === '' &&
                file[2] === '?' &&
                /^[a-z]:$/i.test(file[3]);
            const patternDrive = typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0]);
            const patternUNC = !patternDrive &&
                pattern[0] === '' &&
                pattern[1] === '' &&
                pattern[2] === '?' &&
                typeof pattern[3] === 'string' &&
                /^[a-z]:$/i.test(pattern[3]);
            const fdi = fileUNC ? 3
                : fileDrive ? 0
                    : undefined;
            const pdi = patternUNC ? 3
                : patternDrive ? 0
                    : undefined;
            if (typeof fdi === 'number' && typeof pdi === 'number') {
                const [fd, pd] = [
                    file[fdi],
                    pattern[pdi],
                ];
                // start matching at the drive letter index of each
                if (fd.toLowerCase() === pd.toLowerCase()) {
                    pattern[pdi] = fd;
                    patternStartIndex = pdi;
                    fileStartIndex = fdi;
                }
            }
        }
        // resolve and reduce . and .. portions in the file as well.
        // don't need to do the second phase, because it's only one string[]
        const { optimizationLevel = 1 } = this.options;
        if (optimizationLevel >= 2) {
            file = this.levelTwoFileOptimize(file);
        }
        if (pattern.includes(GLOBSTAR)) {
            return this.#matchGlobstar(file, pattern, partial, fileStartIndex, patternStartIndex);
        }
        return this.#matchOne(file, pattern, partial, fileStartIndex, patternStartIndex);
    }
    #matchGlobstar(file, pattern, partial, fileIndex, patternIndex) {
        // split the pattern into head, tail, and middle of ** delimited parts
        const firstgs = pattern.indexOf(GLOBSTAR, patternIndex);
        const lastgs = pattern.lastIndexOf(GLOBSTAR);
        // split the pattern up into globstar-delimited sections
        // the tail has to be at the end, and the others just have
        // to be found in order from the head.
        const [head, body, tail] = [
            pattern.slice(patternIndex, firstgs),
            pattern.slice(firstgs + 1, lastgs),
            pattern.slice(lastgs + 1),
        ];
        // check the head, from the current file/pattern index.
        if (head.length) {
            const fileHead = file.slice(fileIndex, fileIndex + head.length);
            if (!this.#matchOne(fileHead, head, partial, 0, 0)) {
                return false;
            }
            fileIndex += head.length;
            patternIndex += head.length;
        }
        // now we know the head matches!
        // if the last portion is not empty, it MUST match the end
        // check the tail
        let fileTailMatch = 0;
        if (tail.length) {
            // if head + tail > file, then we cannot possibly match
            if (tail.length + fileIndex > file.length)
                return false;
            // try to match the tail
            let tailStart = file.length - tail.length;
            if (this.#matchOne(file, tail, partial, tailStart, 0)) {
                fileTailMatch = tail.length;
            }
            else {
                // affordance for stuff like a/**/* matching a/b/
                // if the last file portion is '', and there's more to the pattern
                // then try without the '' bit.
                if (file[file.length - 1] !== '' ||
                    fileIndex + tail.length === file.length) {
                    return false;
                }
                tailStart--;
                if (!this.#matchOne(file, tail, partial, tailStart, 0)) {
                    return false;
                }
                fileTailMatch = tail.length + 1;
            }
        }
        // now we know the tail matches!
        // the middle is zero or more portions wrapped in **, possibly
        // containing more ** sections.
        // so a/**/b/**/c/**/d has become **/b/**/c/**
        // if it's empty, it means a/**/b, just verify we have no bad dots
        // if there's no tail, so it ends on /**, then we must have *something*
        // after the head, or it's not a matc
        if (!body.length) {
            let sawSome = !!fileTailMatch;
            for (let i = fileIndex; i < file.length - fileTailMatch; i++) {
                const f = String(file[i]);
                sawSome = true;
                if (f === '.' ||
                    f === '..' ||
                    (!this.options.dot && f.startsWith('.'))) {
                    return false;
                }
            }
            return sawSome;
        }
        // now we know that there's one or more body sections, which can
        // be matched anywhere from the 0 index (because the head was pruned)
        // through to the length-fileTailMatch index.
        // split the body up into sections, and note the minimum index it can
        // be found at (start with the length of all previous segments)
        // [section, before, after]
        const bodySegments = [[[], 0]];
        let currentBody = bodySegments[0];
        let nonGsParts = 0;
        const nonGsPartsSums = [0];
        for (const b of body) {
            if (b === GLOBSTAR) {
                nonGsPartsSums.push(nonGsParts);
                currentBody = [[], 0];
                bodySegments.push(currentBody);
            }
            else {
                currentBody[0].push(b);
                nonGsParts++;
            }
        }
        let i = bodySegments.length - 1;
        const fileLength = file.length - fileTailMatch;
        for (const b of bodySegments) {
            b[1] = fileLength - (nonGsPartsSums[i--] + b[0].length);
        }
        return !!this.#matchGlobStarBodySections(file, bodySegments, fileIndex, 0, partial, 0, !!fileTailMatch);
    }
    // return false for "nope, not matching"
    // return null for "not matching, cannot keep trying"
    #matchGlobStarBodySections(file, 
    // pattern section, last possible position for it
    bodySegments, fileIndex, bodyIndex, partial, globStarDepth, sawTail) {
        // take the first body segment, and walk from fileIndex to its "after"
        // value at the end
        // If it doesn't match at that position, we increment, until we hit
        // that final possible position, and give up.
        // If it does match, then advance and try to rest.
        // If any of them fail we keep walking forward.
        // this is still a bit recursively painful, but it's more constrained
        // than previous implementations, because we never test something that
        // can't possibly be a valid matching condition.
        const bs = bodySegments[bodyIndex];
        if (!bs) {
            // just make sure that there's no bad dots
            for (let i = fileIndex; i < file.length; i++) {
                sawTail = true;
                const f = file[i];
                if (f === '.' ||
                    f === '..' ||
                    (!this.options.dot && f.startsWith('.'))) {
                    return false;
                }
            }
            return sawTail;
        }
        // have a non-globstar body section to test
        const [body, after] = bs;
        while (fileIndex <= after) {
            const m = this.#matchOne(file.slice(0, fileIndex + body.length), body, partial, fileIndex, 0);
            // if limit exceeded, no match. intentional false negative,
            // acceptable break in correctness for security.
            if (m && globStarDepth < this.maxGlobstarRecursion) {
                // match! see if the rest match. if so, we're done!
                const sub = this.#matchGlobStarBodySections(file, bodySegments, fileIndex + body.length, bodyIndex + 1, partial, globStarDepth + 1, sawTail);
                if (sub !== false) {
                    return sub;
                }
            }
            const f = file[fileIndex];
            if (f === '.' ||
                f === '..' ||
                (!this.options.dot && f.startsWith('.'))) {
                return false;
            }
            fileIndex++;
        }
        // walked off. no point continuing
        return null;
    }
    #matchOne(file, pattern, partial, fileIndex, patternIndex) {
        let fi;
        let pi;
        let pl;
        let fl;
        for (fi = fileIndex,
            pi = patternIndex,
            fl = file.length,
            pl = pattern.length; fi < fl && pi < pl; fi++, pi++) {
            this.debug('matchOne loop');
            let p = pattern[pi];
            let f = file[fi];
            this.debug(pattern, p, f);
            // should be impossible.
            // some invalid regexp stuff in the set.
            /* c8 ignore start */
            if (p === false || p === GLOBSTAR) {
                return false;
            }
            /* c8 ignore stop */
            // something other than **
            // non-magic patterns just have to match exactly
            // patterns with magic have been turned into regexps.
            let hit;
            if (typeof p === 'string') {
                hit = f === p;
                this.debug('string match', p, f, hit);
            }
            else {
                hit = p.test(f);
                this.debug('pattern match', p, f, hit);
            }
            if (!hit)
                return false;
        }
        // Note: ending in / means that we'll get a final ""
        // at the end of the pattern.  This can only match a
        // corresponding "" at the end of the file.
        // If the file ends in /, then it can only match a
        // a pattern that ends in /, unless the pattern just
        // doesn't have any more for it. But, a/b/ should *not*
        // match "a/b/*", even though "" matches against the
        // [^/]*? pattern, except in partial mode, where it might
        // simply not be reached yet.
        // However, a/b/ should still satisfy a/*
        // now either we fell off the end of the pattern, or we're done.
        if (fi === fl && pi === pl) {
            // ran out of pattern and filename at the same time.
            // an exact hit!
            return true;
        }
        else if (fi === fl) {
            // ran out of file, but still had pattern left.
            // this is ok if we're doing the match as part of
            // a glob fs traversal.
            return partial;
        }
        else if (pi === pl) {
            // ran out of pattern, still have file left.
            // this is only acceptable if we're on the very last
            // empty segment of a file with a trailing slash.
            // a/* should match a/b/
            return fi === fl - 1 && file[fi] === '';
            /* c8 ignore start */
        }
        else {
            // should be unreachable.
            throw new Error('wtf?');
        }
        /* c8 ignore stop */
    }
    braceExpand() {
        return braceExpand(this.pattern, this.options);
    }
    parse(pattern) {
        assertValidPattern(pattern);
        const options = this.options;
        // shortcuts
        if (pattern === '**')
            return GLOBSTAR;
        if (pattern === '')
            return '';
        // far and away, the most common glob pattern parts are
        // *, *.*, and *.<ext>  Add a fast check method for those.
        let m;
        let fastTest = null;
        if ((m = pattern.match(starRE))) {
            fastTest = options.dot ? starTestDot : starTest;
        }
        else if ((m = pattern.match(starDotExtRE))) {
            fastTest = (options.nocase ?
                options.dot ?
                    starDotExtTestNocaseDot
                    : starDotExtTestNocase
                : options.dot ? starDotExtTestDot
                    : starDotExtTest)(m[1]);
        }
        else if ((m = pattern.match(qmarksRE))) {
            fastTest = (options.nocase ?
                options.dot ?
                    qmarksTestNocaseDot
                    : qmarksTestNocase
                : options.dot ? qmarksTestDot
                    : qmarksTest)(m);
        }
        else if ((m = pattern.match(starDotStarRE))) {
            fastTest = options.dot ? starDotStarTestDot : starDotStarTest;
        }
        else if ((m = pattern.match(dotStarRE))) {
            fastTest = dotStarTest;
        }
        const re = AST.fromGlob(pattern, this.options).toMMPattern();
        if (fastTest && typeof re === 'object') {
            // Avoids overriding in frozen environments
            Reflect.defineProperty(re, 'test', { value: fastTest });
        }
        return re;
    }
    makeRe() {
        if (this.regexp || this.regexp === false)
            return this.regexp;
        // at this point, this.set is a 2d array of partial
        // pattern strings, or "**".
        //
        // It's better to use .match().  This function shouldn't
        // be used, really, but it's pretty convenient sometimes,
        // when you just want to work with a regex.
        const set = this.set;
        if (!set.length) {
            this.regexp = false;
            return this.regexp;
        }
        const options = this.options;
        const twoStar = options.noglobstar ? star
            : options.dot ? twoStarDot
                : twoStarNoDot;
        const flags = new Set(options.nocase ? ['i'] : []);
        // regexpify non-globstar patterns
        // if ** is only item, then we just do one twoStar
        // if ** is first, and there are more, prepend (\/|twoStar\/)? to next
        // if ** is last, append (\/twoStar|) to previous
        // if ** is in the middle, append (\/|\/twoStar\/) to previous
        // then filter out GLOBSTAR symbols
        let re = set
            .map(pattern => {
            const pp = pattern.map(p => {
                if (p instanceof RegExp) {
                    for (const f of p.flags.split(''))
                        flags.add(f);
                }
                return (typeof p === 'string' ? regExpEscape(p)
                    : p === GLOBSTAR ? GLOBSTAR
                        : p._src);
            });
            pp.forEach((p, i) => {
                const next = pp[i + 1];
                const prev = pp[i - 1];
                if (p !== GLOBSTAR || prev === GLOBSTAR) {
                    return;
                }
                if (prev === undefined) {
                    if (next !== undefined && next !== GLOBSTAR) {
                        pp[i + 1] = '(?:\\/|' + twoStar + '\\/)?' + next;
                    }
                    else {
                        pp[i] = twoStar;
                    }
                }
                else if (next === undefined) {
                    pp[i - 1] = prev + '(?:\\/|\\/' + twoStar + ')?';
                }
                else if (next !== GLOBSTAR) {
                    pp[i - 1] = prev + '(?:\\/|\\/' + twoStar + '\\/)' + next;
                    pp[i + 1] = GLOBSTAR;
                }
            });
            const filtered = pp.filter(p => p !== GLOBSTAR);
            // For partial matches, we need to make the pattern match
            // any prefix of the full path. We do this by generating
            // alternative patterns that match progressively longer prefixes.
            if (this.partial && filtered.length >= 1) {
                const prefixes = [];
                for (let i = 1; i <= filtered.length; i++) {
                    prefixes.push(filtered.slice(0, i).join('/'));
                }
                return '(?:' + prefixes.join('|') + ')';
            }
            return filtered.join('/');
        })
            .join('|');
        // need to wrap in parens if we had more than one thing with |,
        // otherwise only the first will be anchored to ^ and the last to $
        const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', ''];
        // must match entire pattern
        // ending in a * or ** will make it less strict.
        re = '^' + open + re + close + '$';
        // In partial mode, '/' should always match as it's a valid prefix for any pattern
        if (this.partial) {
            re = '^(?:\\/|' + open + re.slice(1, -1) + close + ')$';
        }
        // can match anything, as long as it's not this.
        if (this.negate)
            re = '^(?!' + re + ').+$';
        try {
            this.regexp = new RegExp(re, [...flags].join(''));
            /* c8 ignore start */
        }
        catch (ex) {
            // should be impossible
            this.regexp = false;
        }
        /* c8 ignore stop */
        return this.regexp;
    }
    slashSplit(p) {
        // if p starts with // on windows, we preserve that
        // so that UNC paths aren't broken.  Otherwise, any number of
        // / characters are coalesced into one, unless
        // preserveMultipleSlashes is set to true.
        if (this.preserveMultipleSlashes) {
            return p.split('/');
        }
        else if (this.isWindows && /^\/\/[^\/]+/.test(p)) {
            // add an extra '' for the one we lose
            return ['', ...p.split(/\/+/)];
        }
        else {
            return p.split(/\/+/);
        }
    }
    match(f, partial = this.partial) {
        this.debug('match', f, this.pattern);
        // short-circuit in the case of busted things.
        // comments, etc.
        if (this.comment) {
            return false;
        }
        if (this.empty) {
            return f === '';
        }
        if (f === '/' && partial) {
            return true;
        }
        const options = this.options;
        // windows: need to use /, not \
        if (this.isWindows) {
            f = f.split('\\').join('/');
        }
        // treat the test path as a set of pathparts.
        const ff = this.slashSplit(f);
        this.debug(this.pattern, 'split', ff);
        // just ONE of the pattern sets in this.set needs to match
        // in order for it to be valid.  If negating, then just one
        // match means that we have failed.
        // Either way, return on the first hit.
        const set = this.set;
        this.debug(this.pattern, 'set', set);
        // Find the basename of the path by looking for the last non-empty segment
        let filename = ff[ff.length - 1];
        if (!filename) {
            for (let i = ff.length - 2; !filename && i >= 0; i--) {
                filename = ff[i];
            }
        }
        for (let i = 0; i < set.length; i++) {
            const pattern = set[i];
            let file = ff;
            if (options.matchBase && pattern.length === 1) {
                file = [filename];
            }
            const hit = this.matchOne(file, pattern, partial);
            if (hit) {
                if (options.flipNegate) {
                    return true;
                }
                return !this.negate;
            }
        }
        // didn't get any hits.  this is success if it's a negative
        // pattern, failure otherwise.
        if (options.flipNegate) {
            return false;
        }
        return this.negate;
    }
    static defaults(def) {
        return minimatch.defaults(def).Minimatch;
    }
}
/* c8 ignore start */
export { AST } from './ast.js';
export { escape } from './escape.js';
export { unescape } from './unescape.js';
/* c8 ignore stop */
minimatch.AST = AST;
minimatch.Minimatch = Minimatch;
minimatch.escape = escape;
minimatch.unescape = unescape;
//# sourceMappingURL=index.js.map