mono/packages/core/dist/lifecycle.js

/*---------------------------------------------------------------------------------------------
 *  Copyright (c) Microsoft Corporation. All rights reserved.
 *  Licensed under the MIT License. See License.txt in the project root for license information.
 *--------------------------------------------------------------------------------------------*/
import { compareBy, numberComparator } from './arrays.js';
import { groupBy } from './collections.js';
import { SetMap } from './map.js';
import { createSingleCallFunction } from './functional.js';
import { Iterable } from './iterator.js';
// #region Disposable Tracking
/**
 * Enables logging of potentially leaked disposables.
 *
 * A disposable is considered leaked if it is not disposed or not registered as the child of
 * another disposable. This tracking is very simple an only works for classes that either
 * extend Disposable or use a DisposableStore. This means there are a lot of false positives.
 */
const TRACK_DISPOSABLES = false;
let disposableTracker = null;
export class GCBasedDisposableTracker {
    _registry = new FinalizationRegistry(heldValue => {
        console.warn(`[LEAKED DISPOSABLE] ${heldValue}`);
    });
    trackDisposable(disposable) {
        const stack = new Error('CREATED via:').stack;
        this._registry.register(disposable, stack, disposable);
    }
    setParent(child, parent) {
        if (parent) {
            this._registry.unregister(child);
        }
        else {
            this.trackDisposable(child);
        }
    }
    markAsDisposed(disposable) {
        this._registry.unregister(disposable);
    }
    markAsSingleton(disposable) {
        this._registry.unregister(disposable);
    }
}
export class DisposableTracker {
    static idx = 0;
    livingDisposables = new Map();
    getDisposableData(d) {
        let val = this.livingDisposables.get(d);
        if (!val) {
            val = { parent: null, source: null, isSingleton: false, value: d, idx: DisposableTracker.idx++ };
            this.livingDisposables.set(d, val);
        }
        return val;
    }
    trackDisposable(d) {
        const data = this.getDisposableData(d);
        if (!data.source) {
            data.source =
                new Error().stack;
        }
    }
    setParent(child, parent) {
        const data = this.getDisposableData(child);
        data.parent = parent;
    }
    markAsDisposed(x) {
        this.livingDisposables.delete(x);
    }
    markAsSingleton(disposable) {
        this.getDisposableData(disposable).isSingleton = true;
    }
    getRootParent(data, cache) {
        const cacheValue = cache.get(data);
        if (cacheValue) {
            return cacheValue;
        }
        const result = data.parent ? this.getRootParent(this.getDisposableData(data.parent), cache) : data;
        cache.set(data, result);
        return result;
    }
    getTrackedDisposables() {
        const rootParentCache = new Map();
        const leaking = [...this.livingDisposables.entries()]
            .filter(([, v]) => v.source !== null && !this.getRootParent(v, rootParentCache).isSingleton)
            .flatMap(([k]) => k);
        return leaking;
    }
    computeLeakingDisposables(maxReported = 10, preComputedLeaks) {
        let uncoveredLeakingObjs;
        if (preComputedLeaks) {
            uncoveredLeakingObjs = preComputedLeaks;
        }
        else {
            const rootParentCache = new Map();
            const leakingObjects = [...this.livingDisposables.values()]
                .filter((info) => info.source !== null && !this.getRootParent(info, rootParentCache).isSingleton);
            if (leakingObjects.length === 0) {
                return;
            }
            const leakingObjsSet = new Set(leakingObjects.map(o => o.value));
            // Remove all objects that are a child of other leaking objects. Assumes there are no cycles.
            uncoveredLeakingObjs = leakingObjects.filter(l => {
                return !(l.parent && leakingObjsSet.has(l.parent));
            });
            if (uncoveredLeakingObjs.length === 0) {
                throw new Error('There are cyclic diposable chains!');
            }
        }
        if (!uncoveredLeakingObjs) {
            return undefined;
        }
        function getStackTracePath(leaking) {
            function removePrefix(array, linesToRemove) {
                while (array.length > 0 && linesToRemove.some(regexp => typeof regexp === 'string' ? regexp === array[0] : array[0].match(regexp))) {
                    array.shift();
                }
            }
            const lines = leaking.source.split('\n').map(p => p.trim().replace('at ', '')).filter(l => l !== '');
            removePrefix(lines, ['Error', /^trackDisposable \(.*\)$/, /^DisposableTracker.trackDisposable \(.*\)$/]);
            return lines.reverse();
        }
        const stackTraceStarts = new SetMap();
        for (const leaking of uncoveredLeakingObjs) {
            const stackTracePath = getStackTracePath(leaking);
            for (let i = 0; i <= stackTracePath.length; i++) {
                stackTraceStarts.add(stackTracePath.slice(0, i).join('\n'), leaking);
            }
        }
        // Put earlier leaks first
        uncoveredLeakingObjs.sort(compareBy(l => l.idx, numberComparator));
        let message = '';
        let i = 0;
        for (const leaking of uncoveredLeakingObjs.slice(0, maxReported)) {
            i++;
            const stackTracePath = getStackTracePath(leaking);
            const stackTraceFormattedLines = [];
            for (let i = 0; i < stackTracePath.length; i++) {
                let line = stackTracePath[i];
                const starts = stackTraceStarts.get(stackTracePath.slice(0, i + 1).join('\n'));
                line = `(shared with ${starts.size}/${uncoveredLeakingObjs.length} leaks) at ${line}`;
                const prevStarts = stackTraceStarts.get(stackTracePath.slice(0, i).join('\n'));
                const continuations = groupBy([...prevStarts].map(d => getStackTracePath(d)[i]), v => v);
                delete continuations[stackTracePath[i]];
                for (const [cont, set] of Object.entries(continuations)) {
                    stackTraceFormattedLines.unshift(`    - stacktraces of ${set.length} other leaks continue with ${cont}`);
                }
                stackTraceFormattedLines.unshift(line);
            }
            message += `\n\n\n==================== Leaking disposable ${i}/${uncoveredLeakingObjs.length}: ${leaking.value.constructor.name} ====================\n${stackTraceFormattedLines.join('\n')}\n============================================================\n\n`;
        }
        if (uncoveredLeakingObjs.length > maxReported) {
            message += `\n\n\n... and ${uncoveredLeakingObjs.length - maxReported} more leaking disposables\n\n`;
        }
        return { leaks: uncoveredLeakingObjs, details: message };
    }
}
export function setDisposableTracker(tracker) {
    disposableTracker = tracker;
}
if (TRACK_DISPOSABLES) {
    const __is_disposable_tracked__ = '__is_disposable_tracked__';
    setDisposableTracker(new class {
        trackDisposable(x) {
            const stack = new Error('Potentially leaked disposable').stack;
            setTimeout(() => {
                if (!x[__is_disposable_tracked__]) {
                    console.log(stack);
                }
            }, 3000);
        }
        setParent(child, parent) {
            if (child && child !== Disposable.None) {
                try {
                    child[__is_disposable_tracked__] = true;
                }
                catch {
                    // noop
                }
            }
        }
        markAsDisposed(disposable) {
            if (disposable && disposable !== Disposable.None) {
                try {
                    disposable[__is_disposable_tracked__] = true;
                }
                catch {
                    // noop
                }
            }
        }
        markAsSingleton(disposable) { }
    });
}
export function trackDisposable(x) {
    disposableTracker?.trackDisposable(x);
    return x;
}
export function markAsDisposed(disposable) {
    disposableTracker?.markAsDisposed(disposable);
}
function setParentOfDisposable(child, parent) {
    disposableTracker?.setParent(child, parent);
}
function setParentOfDisposables(children, parent) {
    if (!disposableTracker) {
        return;
    }
    for (const child of children) {
        disposableTracker.setParent(child, parent);
    }
}
/**
 * Indicates that the given object is a singleton which does not need to be disposed.
*/
export function markAsSingleton(singleton) {
    disposableTracker?.markAsSingleton(singleton);
    return singleton;
}
/**
 * Check if `thing` is {@link IDisposable disposable}.
 */
export function isDisposable(thing) {
    return typeof thing === 'object' && thing !== null && typeof thing.dispose === 'function' && thing.dispose.length === 0;
}
export function dispose(arg) {
    if (Iterable.is(arg)) {
        const errors = [];
        for (const d of arg) {
            if (d) {
                try {
                    d.dispose();
                }
                catch (e) {
                    errors.push(e);
                }
            }
        }
        if (errors.length === 1) {
            throw errors[0];
        }
        else if (errors.length > 1) {
            throw new AggregateError(errors, 'Encountered errors while disposing of store');
        }
        return Array.isArray(arg) ? [] : arg;
    }
    else if (arg) {
        arg.dispose();
        return arg;
    }
}
export function disposeIfDisposable(disposables) {
    for (const d of disposables) {
        if (isDisposable(d)) {
            d.dispose();
        }
    }
    return [];
}
/**
 * Combine multiple disposable values into a single {@link IDisposable}.
 */
export function combinedDisposable(...disposables) {
    const parent = toDisposable(() => dispose(disposables));
    setParentOfDisposables(disposables, parent);
    return parent;
}
/**
 * Turn a function that implements dispose into an {@link IDisposable}.
 *
 * @param fn Clean up function, guaranteed to be called only **once**.
 */
export function toDisposable(fn) {
    const self = trackDisposable({
        dispose: createSingleCallFunction(() => {
            markAsDisposed(self);
            fn();
        })
    });
    return self;
}
/**
 * Manages a collection of disposable values.
 *
 * This is the preferred way to manage multiple disposables. A `DisposableStore` is safer to work with than an
 * `IDisposable[]` as it considers edge cases, such as registering the same value multiple times or adding an item to a
 * store that has already been disposed of.
 */
export class DisposableStore {
    static DISABLE_DISPOSED_WARNING = false;
    _toDispose = new Set();
    _isDisposed = false;
    constructor() {
        trackDisposable(this);
    }
    /**
     * Dispose of all registered disposables and mark this object as disposed.
     *
     * Any future disposables added to this object will be disposed of on `add`.
     */
    dispose() {
        if (this._isDisposed) {
            return;
        }
        markAsDisposed(this);
        this._isDisposed = true;
        this.clear();
    }
    /**
     * @return `true` if this object has been disposed of.
     */
    get isDisposed() {
        return this._isDisposed;
    }
    /**
     * Dispose of all registered disposables but do not mark this object as disposed.
     */
    clear() {
        if (this._toDispose.size === 0) {
            return;
        }
        try {
            dispose(this._toDispose);
        }
        finally {
            this._toDispose.clear();
        }
    }
    /**
     * Add a new {@link IDisposable disposable} to the collection.
     */
    add(o) {
        if (!o) {
            return o;
        }
        if (o === this) {
            throw new Error('Cannot register a disposable on itself!');
        }
        setParentOfDisposable(o, this);
        if (this._isDisposed) {
            if (!DisposableStore.DISABLE_DISPOSED_WARNING) {
                console.warn(new Error('Trying to add a disposable to a DisposableStore that has already been disposed of. The added object will be leaked!').stack);
            }
        }
        else {
            this._toDispose.add(o);
        }
        return o;
    }
    /**
     * Deletes a disposable from store and disposes of it. This will not throw or warn and proceed to dispose the
     * disposable even when the disposable is not part in the store.
     */
    delete(o) {
        if (!o) {
            return;
        }
        if (o === this) {
            throw new Error('Cannot dispose a disposable on itself!');
        }
        this._toDispose.delete(o);
        o.dispose();
    }
    /**
     * Deletes the value from the store, but does not dispose it.
     */
    deleteAndLeak(o) {
        if (!o) {
            return;
        }
        if (this._toDispose.has(o)) {
            this._toDispose.delete(o);
            setParentOfDisposable(o, null);
        }
    }
}
/**
 * Abstract base class for a {@link IDisposable disposable} object.
 *
 * Subclasses can {@linkcode _register} disposables that will be automatically cleaned up when this object is disposed of.
 */
export class Disposable {
    /**
     * A disposable that does nothing when it is disposed of.
     *
     * TODO: This should not be a static property.
     */
    static None = Object.freeze({ dispose() { } });
    _store = new DisposableStore();
    constructor() {
        trackDisposable(this);
        setParentOfDisposable(this._store, this);
    }
    dispose() {
        markAsDisposed(this);
        this._store.dispose();
    }
    /**
     * Adds `o` to the collection of disposables managed by this object.
     */
    _register(o) {
        if (o === this) {
            throw new Error('Cannot register a disposable on itself!');
        }
        return this._store.add(o);
    }
}
/**
 * Manages the lifecycle of a disposable value that may be changed.
 *
 * This ensures that when the disposable value is changed, the previously held disposable is disposed of. You can
 * also register a `MutableDisposable` on a `Disposable` to ensure it is automatically cleaned up.
 */
export class MutableDisposable {
    _value;
    _isDisposed = false;
    constructor() {
        trackDisposable(this);
    }
    get value() {
        return this._isDisposed ? undefined : this._value;
    }
    set value(value) {
        if (this._isDisposed || value === this._value) {
            return;
        }
        this._value?.dispose();
        if (value) {
            setParentOfDisposable(value, this);
        }
        this._value = value;
    }
    /**
     * Resets the stored value and disposed of the previously stored value.
     */
    clear() {
        this.value = undefined;
    }
    dispose() {
        this._isDisposed = true;
        markAsDisposed(this);
        this._value?.dispose();
        this._value = undefined;
    }
    /**
     * Clears the value, but does not dispose it.
     * The old value is returned.
    */
    clearAndLeak() {
        const oldValue = this._value;
        this._value = undefined;
        if (oldValue) {
            setParentOfDisposable(oldValue, null);
        }
        return oldValue;
    }
}
/**
 * Manages the lifecycle of a disposable value that may be changed like {@link MutableDisposable}, but the value must
 * exist and cannot be undefined.
 */
export class MandatoryMutableDisposable {
    _disposable = new MutableDisposable();
    _isDisposed = false;
    constructor(initialValue) {
        this._disposable.value = initialValue;
    }
    get value() {
        return this._disposable.value;
    }
    set value(value) {
        if (this._isDisposed || value === this._disposable.value) {
            return;
        }
        this._disposable.value = value;
    }
    dispose() {
        this._isDisposed = true;
        this._disposable.dispose();
    }
}
export class RefCountedDisposable {
    _disposable;
    _counter = 1;
    constructor(_disposable) {
        this._disposable = _disposable;
    }
    acquire() {
        this._counter++;
        return this;
    }
    release() {
        if (--this._counter === 0) {
            this._disposable.dispose();
        }
        return this;
    }
}
/**
 * A safe disposable can be `unset` so that a leaked reference (listener)
 * can be cut-off.
 */
export class SafeDisposable {
    dispose = () => { };
    unset = () => { };
    isset = () => false;
    constructor() {
        trackDisposable(this);
    }
    set(fn) {
        let callback = fn;
        this.unset = () => callback = undefined;
        this.isset = () => callback !== undefined;
        this.dispose = () => {
            if (callback) {
                callback();
                callback = undefined;
                markAsDisposed(this);
            }
        };
        return this;
    }
}
export class ReferenceCollection {
    references = new Map();
    acquire(key, ...args) {
        let reference = this.references.get(key);
        if (!reference) {
            reference = { counter: 0, object: this.createReferencedObject(key, ...args) };
            this.references.set(key, reference);
        }
        const { object } = reference;
        const dispose = createSingleCallFunction(() => {
            if (--reference.counter === 0) {
                this.destroyReferencedObject(key, reference.object);
                this.references.delete(key);
            }
        });
        reference.counter++;
        return { object, dispose };
    }
}
/**
 * Unwraps a reference collection of promised values. Makes sure
 * references are disposed whenever promises get rejected.
 */
export class AsyncReferenceCollection {
    referenceCollection;
    constructor(referenceCollection) {
        this.referenceCollection = referenceCollection;
    }
    async acquire(key, ...args) {
        const ref = this.referenceCollection.acquire(key, ...args);
        try {
            const object = await ref.object;
            return {
                object,
                dispose: () => ref.dispose()
            };
        }
        catch (error) {
            ref.dispose();
            throw error;
        }
    }
}
export class ImmortalReference {
    object;
    constructor(object) {
        this.object = object;
    }
    dispose() { }
}
export function disposeOnReturn(fn) {
    const store = new DisposableStore();
    try {
        fn(store);
    }
    finally {
        store.dispose();
    }
}
/**
 * A map the manages the lifecycle of the values that it stores.
 */
export class DisposableMap {
    _store = new Map();
    _isDisposed = false;
    constructor() {
        trackDisposable(this);
    }
    /**
     * Disposes of all stored values and mark this object as disposed.
     *
     * Trying to use this object after it has been disposed of is an error.
     */
    dispose() {
        markAsDisposed(this);
        this._isDisposed = true;
        this.clearAndDisposeAll();
    }
    /**
     * Disposes of all stored values and clear the map, but DO NOT mark this object as disposed.
     */
    clearAndDisposeAll() {
        if (!this._store.size) {
            return;
        }
        try {
            dispose(this._store.values());
        }
        finally {
            this._store.clear();
        }
    }
    has(key) {
        return this._store.has(key);
    }
    get size() {
        return this._store.size;
    }
    get(key) {
        return this._store.get(key);
    }
    set(key, value, skipDisposeOnOverwrite = false) {
        if (this._isDisposed) {
            console.warn(new Error('Trying to add a disposable to a DisposableMap that has already been disposed of. The added object will be leaked!').stack);
        }
        if (!skipDisposeOnOverwrite) {
            this._store.get(key)?.dispose();
        }
        this._store.set(key, value);
    }
    /**
     * Delete the value stored for `key` from this map and also dispose of it.
     */
    deleteAndDispose(key) {
        this._store.get(key)?.dispose();
        this._store.delete(key);
    }
    /**
     * Delete the value stored for `key` from this map but return it. The caller is
     * responsible for disposing of the value.
     */
    deleteAndLeak(key) {
        const value = this._store.get(key);
        this._store.delete(key);
        return value;
    }
    keys() {
        return this._store.keys();
    }
    values() {
        return this._store.values();
    }
    [Symbol.iterator]() {
        return this._store[Symbol.iterator]();
    }
}
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