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/**
 * Single-use utility classes to provide functionality to the {@link Glob}
 * methods.
 *
 * @module
 */
import Minipass from 'minipass';
import { Ignore } from './ignore.js';
import { Processor } from './processor.js';
const makeIgnore = (ignore, opts) => typeof ignore === 'string'
    ? new Ignore([ignore], opts)
    : Array.isArray(ignore)
        ? new Ignore(ignore, opts)
        : ignore;
/**
 * basic walking utilities that all the glob walker types use
 */
export class GlobUtil {
    path;
    patterns;
    opts;
    seen = new Set();
    paused = false;
    aborted = false;
    #onResume = [];
    #ignore;
    #sep;
    signal;
    maxDepth;
    constructor(patterns, path, opts) {
        this.patterns = patterns;
        this.path = path;
        this.opts = opts;
        this.#sep = opts.platform === 'win32' ? '\\' : '/';
        if (opts.ignore) {
            this.#ignore = makeIgnore(opts.ignore, opts);
        }
        // ignore, always set with maxDepth, but it's optional on the
        // GlobOptions type
        /* c8 ignore start */
        this.maxDepth = opts.maxDepth || Infinity;
        /* c8 ignore stop */
        if (opts.signal) {
            this.signal = opts.signal;
            this.signal.addEventListener('abort', () => {
                this.#onResume.length = 0;
            });
        }
    }
    #ignored(path) {
        return this.seen.has(path) || !!this.#ignore?.ignored?.(path);
    }
    #childrenIgnored(path) {
        return !!this.#ignore?.childrenIgnored?.(path);
    }
    // backpressure mechanism
    pause() {
        this.paused = true;
    }
    resume() {
        /* c8 ignore start */
        if (this.signal?.aborted)
            return;
        /* c8 ignore stop */
        this.paused = false;
        let fn = undefined;
        while (!this.paused && (fn = this.#onResume.shift())) {
            fn();
        }
    }
    onResume(fn) {
        if (this.signal?.aborted)
            return;
        /* c8 ignore start */
        if (!this.paused) {
            fn();
        }
        else {
            /* c8 ignore stop */
            this.#onResume.push(fn);
        }
    }
    // do the requisite realpath/stat checking, and return the path
    // to add or undefined to filter it out.
    async matchCheck(e, ifDir) {
        if (ifDir && this.opts.nodir)
            return undefined;
        let rpc;
        if (this.opts.realpath) {
            rpc = e.realpathCached() || (await e.realpath());
            if (!rpc)
                return undefined;
            e = rpc;
        }
        const needStat = e.isUnknown() || this.opts.stat;
        return this.matchCheckTest(needStat ? await e.lstat() : e, ifDir);
    }
    matchCheckTest(e, ifDir) {
        return e &&
            (this.maxDepth === Infinity || e.depth() <= this.maxDepth) &&
            (!ifDir || e.canReaddir()) &&
            (!this.opts.nodir || !e.isDirectory()) &&
            !this.#ignored(e)
            ? e
            : undefined;
    }
    matchCheckSync(e, ifDir) {
        if (ifDir && this.opts.nodir)
            return undefined;
        let rpc;
        if (this.opts.realpath) {
            rpc = e.realpathCached() || e.realpathSync();
            if (!rpc)
                return undefined;
            e = rpc;
        }
        const needStat = e.isUnknown() || this.opts.stat;
        return this.matchCheckTest(needStat ? e.lstatSync() : e, ifDir);
    }
    matchFinish(e, absolute) {
        if (this.#ignored(e))
            return;
        const abs = this.opts.absolute === undefined ? absolute : this.opts.absolute;
        this.seen.add(e);
        const mark = this.opts.mark && e.isDirectory() ? this.#sep : '';
        // ok, we have what we need!
        if (this.opts.withFileTypes) {
            this.matchEmit(e);
        }
        else if (abs) {
            this.matchEmit(e.fullpath() + mark);
        }
        else {
            const rel = e.relative();
            const pre = this.opts.dotRelative && !rel.startsWith('..' + this.#sep)
                ? '.' + this.#sep
                : '';
            this.matchEmit(!rel && mark ? '.' + mark : pre + rel + mark);
        }
    }
    async match(e, absolute, ifDir) {
        const p = await this.matchCheck(e, ifDir);
        if (p)
            this.matchFinish(p, absolute);
    }
    matchSync(e, absolute, ifDir) {
        const p = this.matchCheckSync(e, ifDir);
        if (p)
            this.matchFinish(p, absolute);
    }
    walkCB(target, patterns, cb) {
        /* c8 ignore start */
        if (this.signal?.aborted)
            cb();
        /* c8 ignore stop */
        this.walkCB2(target, patterns, new Processor(this.opts), cb);
    }
    walkCB2(target, patterns, processor, cb) {
        if (this.#childrenIgnored(target))
            return cb();
        if (this.signal?.aborted)
            cb();
        if (this.paused) {
            this.onResume(() => this.walkCB2(target, patterns, processor, cb));
            return;
        }
        processor.processPatterns(target, patterns);
        // done processing.  all of the above is sync, can be abstracted out.
        // subwalks is a map of paths to the entry filters they need
        // matches is a map of paths to [absolute, ifDir] tuples.
        let tasks = 1;
        const next = () => {
            if (--tasks === 0)
                cb();
        };
        for (const [m, absolute, ifDir] of processor.matches.entries()) {
            if (this.#ignored(m))
                continue;
            tasks++;
            this.match(m, absolute, ifDir).then(() => next());
        }
        for (const t of processor.subwalkTargets()) {
            if (this.maxDepth !== Infinity && t.depth() >= this.maxDepth) {
                continue;
            }
            tasks++;
            const childrenCached = t.readdirCached();
            if (t.calledReaddir())
                this.walkCB3(t, childrenCached, processor, next);
            else {
                t.readdirCB((_, entries) => this.walkCB3(t, entries, processor, next), true);
            }
        }
        next();
    }
    walkCB3(target, entries, processor, cb) {
        processor = processor.filterEntries(target, entries);
        let tasks = 1;
        const next = () => {
            if (--tasks === 0)
                cb();
        };
        for (const [m, absolute, ifDir] of processor.matches.entries()) {
            if (this.#ignored(m))
                continue;
            tasks++;
            this.match(m, absolute, ifDir).then(() => next());
        }
        for (const [target, patterns] of processor.subwalks.entries()) {
            tasks++;
            this.walkCB2(target, patterns, processor.child(), next);
        }
        next();
    }
    walkCBSync(target, patterns, cb) {
        /* c8 ignore start */
        if (this.signal?.aborted)
            cb();
        /* c8 ignore stop */
        this.walkCB2Sync(target, patterns, new Processor(this.opts), cb);
    }
    walkCB2Sync(target, patterns, processor, cb) {
        if (this.#childrenIgnored(target))
            return cb();
        if (this.signal?.aborted)
            cb();
        if (this.paused) {
            this.onResume(() => this.walkCB2Sync(target, patterns, processor, cb));
            return;
        }
        processor.processPatterns(target, patterns);
        // done processing.  all of the above is sync, can be abstracted out.
        // subwalks is a map of paths to the entry filters they need
        // matches is a map of paths to [absolute, ifDir] tuples.
        let tasks = 1;
        const next = () => {
            if (--tasks === 0)
                cb();
        };
        for (const [m, absolute, ifDir] of processor.matches.entries()) {
            if (this.#ignored(m))
                continue;
            this.matchSync(m, absolute, ifDir);
        }
        for (const t of processor.subwalkTargets()) {
            if (this.maxDepth !== Infinity && t.depth() >= this.maxDepth) {
                continue;
            }
            tasks++;
            const children = t.readdirSync();
            this.walkCB3Sync(t, children, processor, next);
        }
        next();
    }
    walkCB3Sync(target, entries, processor, cb) {
        processor = processor.filterEntries(target, entries);
        let tasks = 1;
        const next = () => {
            if (--tasks === 0)
                cb();
        };
        for (const [m, absolute, ifDir] of processor.matches.entries()) {
            if (this.#ignored(m))
                continue;
            this.matchSync(m, absolute, ifDir);
        }
        for (const [target, patterns] of processor.subwalks.entries()) {
            tasks++;
            this.walkCB2Sync(target, patterns, processor.child(), next);
        }
        next();
    }
}
export class GlobWalker extends GlobUtil {
    matches;
    constructor(patterns, path, opts) {
        super(patterns, path, opts);
        this.matches = new Set();
    }
    matchEmit(e) {
        this.matches.add(e);
    }
    async walk() {
        if (this.signal?.aborted)
            throw this.signal.reason;
        if (this.path.isUnknown()) {
            await this.path.lstat();
        }
        await new Promise((res, rej) => {
            this.walkCB(this.path, this.patterns, () => {
                if (this.signal?.aborted) {
                    rej(this.signal.reason);
                }
                else {
                    res(this.matches);
                }
            });
        });
        return this.matches;
    }
    walkSync() {
        if (this.signal?.aborted)
            throw this.signal.reason;
        if (this.path.isUnknown()) {
            this.path.lstatSync();
        }
        // nothing for the callback to do, because this never pauses
        this.walkCBSync(this.path, this.patterns, () => {
            if (this.signal?.aborted)
                throw this.signal.reason;
        });
        return this.matches;
    }
}
export class GlobStream extends GlobUtil {
    results;
    constructor(patterns, path, opts) {
        super(patterns, path, opts);
        this.results = new Minipass({
            signal: this.signal,
            objectMode: true,
        });
        this.results.on('drain', () => this.resume());
        this.results.on('resume', () => this.resume());
    }
    matchEmit(e) {
        this.results.write(e);
        if (!this.results.flowing)
            this.pause();
    }
    stream() {
        const target = this.path;
        if (target.isUnknown()) {
            target.lstat().then(() => {
                this.walkCB(target, this.patterns, () => this.results.end());
            });
        }
        else {
            this.walkCB(target, this.patterns, () => this.results.end());
        }
        return this.results;
    }
    streamSync() {
        if (this.path.isUnknown()) {
            this.path.lstatSync();
        }
        this.walkCBSync(this.path, this.patterns, () => this.results.end());
        return this.results;
    }
}
//# sourceMappingURL=walker.js.map

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