"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.assertSimpleType = assertSimpleType; exports.makeStrongCache = makeStrongCache; exports.makeStrongCacheSync = makeStrongCacheSync; exports.makeWeakCache = makeWeakCache; exports.makeWeakCacheSync = makeWeakCacheSync; function _gensync() { const data = require("gensync"); _gensync = function () { return data; }; return data; } var _async = require("../gensync-utils/async.js"); var _util = require("./util.js"); const synchronize = gen => { return _gensync()(gen).sync; }; function* genTrue() { return true; } function makeWeakCache(handler) { return makeCachedFunction(WeakMap, handler); } function makeWeakCacheSync(handler) { return synchronize(makeWeakCache(handler)); } function makeStrongCache(handler) { return makeCachedFunction(Map, handler); } function makeStrongCacheSync(handler) { return synchronize(makeStrongCache(handler)); } function makeCachedFunction(CallCache, handler) { const callCacheSync = new CallCache(); const callCacheAsync = new CallCache(); const futureCache = new CallCache(); return function* cachedFunction(arg, data) { const asyncContext = yield* (0, _async.isAsync)(); const callCache = asyncContext ? callCacheAsync : callCacheSync; const cached = yield* getCachedValueOrWait(asyncContext, callCache, futureCache, arg, data); if (cached.valid) return cached.value; const cache = new CacheConfigurator(data); const handlerResult = handler(arg, cache); let finishLock; let value; if ((0, _util.isIterableIterator)(handlerResult)) { value = yield* (0, _async.onFirstPause)(handlerResult, () => { finishLock = setupAsyncLocks(cache, futureCache, arg); }); } else { value = handlerResult; } updateFunctionCache(callCache, cache, arg, value); if (finishLock) { futureCache.delete(arg); finishLock.release(value); } return value; }; } function* getCachedValue(cache, arg, data) { const cachedValue = cache.get(arg); if (cachedValue) { for (const { value, valid } of cachedValue) { if (yield* valid(data)) return { valid: true, value }; } } return { valid: false, value: null }; } function* getCachedValueOrWait(asyncContext, callCache, futureCache, arg, data) { const cached = yield* getCachedValue(callCache, arg, data); if (cached.valid) { return cached; } if (asyncContext) { const cached = yield* getCachedValue(futureCache, arg, data); if (cached.valid) { const value = yield* (0, _async.waitFor)(cached.value.promise); return { valid: true, value }; } } return { valid: false, value: null }; } function setupAsyncLocks(config, futureCache, arg) { const finishLock = new Lock(); updateFunctionCache(futureCache, config, arg, finishLock); return finishLock; } function updateFunctionCache(cache, config, arg, value) { if (!config.configured()) config.forever(); let cachedValue = cache.get(arg); config.deactivate(); switch (config.mode()) { case "forever": cachedValue = [{ value, valid: genTrue }]; cache.set(arg, cachedValue); break; case "invalidate": cachedValue = [{ value, valid: config.validator() }]; cache.set(arg, cachedValue); break; case "valid": if (cachedValue) { cachedValue.push({ value, valid: config.validator() }); } else { cachedValue = [{ value, valid: config.validator() }]; cache.set(arg, cachedValue); } } } class CacheConfigurator { constructor(data) { this._active = true; this._never = false; this._forever = false; this._invalidate = false; this._configured = false; this._pairs = []; this._data = void 0; this._data = data; } simple() { return makeSimpleConfigurator(this); } mode() { if (this._never) return "never"; if (this._forever) return "forever"; if (this._invalidate) return "invalidate"; return "valid"; } forever() { if (!this._active) { throw new Error("Cannot change caching after evaluation has completed."); } if (this._never) { throw new Error("Caching has already been configured with .never()"); } this._forever = true; this._configured = true; } never() { if (!this._active) { throw new Error("Cannot change caching after evaluation has completed."); } if (this._forever) { throw new Error("Caching has already been configured with .forever()"); } this._never = true; this._configured = true; } using(handler) { if (!this._active) { throw new Error("Cannot change caching after evaluation has completed."); } if (this._never || this._forever) { throw new Error("Caching has already been configured with .never or .forever()"); } this._configured = true; const key = handler(this._data); const fn = (0, _async.maybeAsync)(handler, `You appear to be using an async cache handler, but Babel has been called synchronously`); if ((0, _async.isThenable)(key)) { return key.then(key => { this._pairs.push([key, fn]); return key; }); } this._pairs.push([key, fn]); return key; } invalidate(handler) { this._invalidate = true; return this.using(handler); } validator() { const pairs = this._pairs; return function* (data) { for (const [key, fn] of pairs) { if (key !== (yield* fn(data))) return false; } return true; }; } deactivate() { this._active = false; } configured() { return this._configured; } } function makeSimpleConfigurator(cache) { function cacheFn(val) { if (typeof val === "boolean") { if (val) cache.forever();else cache.never(); return; } return cache.using(() => assertSimpleType(val())); } cacheFn.forever = () => cache.forever(); cacheFn.never = () => cache.never(); cacheFn.using = cb => cache.using(() => assertSimpleType(cb())); cacheFn.invalidate = cb => cache.invalidate(() => assertSimpleType(cb())); return cacheFn; } function assertSimpleType(value) { if ((0, _async.isThenable)(value)) { throw new Error(`You appear to be using an async cache handler, ` + `which your current version of Babel does not support. ` + `We may add support for this in the future, ` + `but if you're on the most recent version of @babel/core and still ` + `seeing this error, then you'll need to synchronously handle your caching logic.`); } if (value != null && typeof value !== "string" && typeof value !== "boolean" && typeof value !== "number") { throw new Error("Cache keys must be either string, boolean, number, null, or undefined."); } return value; } class Lock { constructor() { this.released = false; this.promise = void 0; this._resolve = void 0; this.promise = new Promise(resolve => { this._resolve = resolve; }); } release(value) { this.released = true; this._resolve(value); } } 0 && 0; //# sourceMappingURL=caching.js.map