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prepack

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Execute a JS bundle, serialize global state and side effects to a snapshot that can be quickly restored.

github.com/facebook/prepack

facebook/prepack

226 lines (158 loc) • 10.1 kB

JavaScript

"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.default = _default; var _index = require("../../values/index.js"); var _singletons = require("../../singletons.js"); var _date = require("../../methods/date.js"); var _errors = require("../../errors.js"); var _invariant = _interopRequireDefault(require("../../invariant.js")); var _seedrandom = _interopRequireDefault(require("seedrandom")); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /** * Copyright (c) 2017-present, Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD-style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. */ /* strict-local */ const buildDateNowSrc = "global.Date.now()"; function _default(realm) { let lastNow; let offsetGenerator; function getCurrentTime() { if (realm.useAbstractInterpretation) { return _index.AbstractValue.createTemporalFromTemplate(realm, buildDateNowSrc, _index.NumberValue, [], { isPure: true, skipInvariant: true }); } else { let newNow = Date.now(); if (realm.strictlyMonotonicDateNow && lastNow >= newNow) { if (!offsetGenerator) offsetGenerator = (0, _seedrandom.default)(0); // certain behaviors in the test262 test suite can only be (reliably) triggered if Date.now() is strictly monotonically increasing // TODO #1004: Set the strictlyMonotonicDateNow option on the realm in the test262 test runner, fix the issues that will come up in the tests, and remove this comment. newNow = lastNow + 1 + Math.floor(offsetGenerator() * 500); } lastNow = newNow; return new _index.NumberValue(realm, newNow); } } // ECMA262 20.3.2 let func = new _index.NativeFunctionValue(realm, "Date", "Date", 7, (context, args, argCount, NewTarget) => { if (argCount >= 2) { // ECMA262 20.3.2.1 let [year, month, date, hours, minutes, seconds, ms] = args; // 1. Let numberOfArgs be the number of arguments passed to this function call. let numberOfArgs = argCount; // 2. Assert: numberOfArgs ≥ 2. (0, _invariant.default)(numberOfArgs >= 2, "expected two or more arguments"); // 3. If NewTarget is not undefined, then if (NewTarget) { // a. Let y be ? ToNumber(year). let y = _singletons.To.ToNumber(realm, year); // b. Let m be ? ToNumber(month). let m = _singletons.To.ToNumber(realm, month); // c. If date is supplied, let dt be ? ToNumber(date); else let dt be 1. let dt = argCount >= 3 ? _singletons.To.ToNumber(realm, date) : 1; // d. If hours is supplied, let h be ? ToNumber(hours); else let h be 0. let h = argCount >= 4 ? _singletons.To.ToNumber(realm, hours) : 0; // e. If minutes is supplied, let min be ? ToNumber(minutes); else let min be 0. let min = argCount >= 5 ? _singletons.To.ToNumber(realm, minutes) : 0; // f. If seconds is supplied, let s be ? ToNumber(seconds); else let s be 0. let s = argCount >= 6 ? _singletons.To.ToNumber(realm, seconds) : 0; // g. If ms is supplied, let milli be ? ToNumber(ms); else let milli be 0. let milli = argCount >= 7 ? _singletons.To.ToNumber(realm, ms) : 0; // h. If y is not NaN and 0 ≤ ToInteger(y) ≤ 99, let yr be 1900+ToInteger(y); otherwise, let yr be y. let yr; if (!isNaN(y) && _singletons.To.ToInteger(realm, y) >= 0 && _singletons.To.ToInteger(realm, y) <= 99) { yr = 1900 + _singletons.To.ToInteger(realm, new _index.NumberValue(realm, y)); } else { yr = y; } // i. Let finalDate be MakeDate(MakeDay(yr, m, dt), MakeTime(h, min, s, milli)). let finalDate = (0, _date.MakeDate)(realm, (0, _date.MakeDay)(realm, yr, m, dt), (0, _date.MakeTime)(realm, h, min, s, milli)); // j. Let O be ? OrdinaryCreateFromConstructor(NewTarget, "%DatePrototype%", « [[DateValue]] »). let O = _singletons.Create.OrdinaryCreateFromConstructor(realm, NewTarget, "DatePrototype", { $DateValue: undefined }); // k. Set the [[DateValue]] internal slot of O to TimeClip(UTC(finalDate)). O.$DateValue = (0, _date.TimeClip)(realm, (0, _date.UTC)(realm, finalDate)); // l. Return O. return O; } else { // 4. Else, // a. Let now be the Number that is the time value (UTC) identifying the current time. let now = getCurrentTime().throwIfNotConcreteNumber().value; // b. Return ToDateString(now). return new _index.StringValue(realm, (0, _date.ToDateString)(realm, now)); } } else if (argCount === 1) { // ECMA262 20.3.2.2 let [value_] = args; let value = value_.throwIfNotConcrete(); // 1. Let numberOfArgs be the number of arguments passed to this function call. let numberOfArgs = argCount; // 2. Assert: numberOfArgs = 1. (0, _invariant.default)(numberOfArgs === 1, "expected number of arguments to equal 1"); // 3. If NewTarget is not undefined, then if (NewTarget) { let tv; // a. If Type(value) is Object and value has a [[DateValue]] internal slot, then if (value instanceof _index.ObjectValue && value.$DateValue !== undefined) { // i. Let tv be thisTimeValue(value). tv = (0, _date.thisTimeValue)(realm, value); } else { // b. Else, // i. Let v be ? ToPrimitive(value) let v = _singletons.To.ToPrimitive(realm, value); // ii. If Type(v) is String, then if (v instanceof _index.StringValue) { // 1. Let tv be the result of parsing v as a date, in exactly the same manner as for the parse // method (20.3.3.2). If the parse resulted in an abrupt completion, tv is the Completion Record. tv = new _index.NumberValue(realm, new Date(v.value).getTime()); // 2. ReturnIfAbrupt(tv). } else { // iii. Else, // 1. Let tv be ? ToNumber(v). tv = new _index.NumberValue(realm, _singletons.To.ToNumber(realm, v)); } } // c. Let O be ? OrdinaryCreateFromConstructor(NewTarget, "%DatePrototype%", « [[DateValue]] »). let O = _singletons.Create.OrdinaryCreateFromConstructor(realm, NewTarget, "DatePrototype", { $DateValue: undefined }); // d. Set the [[DateValue]] internal slot of O to TimeClip(tv). O.$DateValue = (0, _date.TimeClip)(realm, tv); // e. Return O. return O; } else { // 4. Else, // a. Let now be the Number that is the time value (UTC) identifying the current time. let now = getCurrentTime().throwIfNotConcreteNumber().value; // b. Return ToDateString(now). return new _index.StringValue(realm, (0, _date.ToDateString)(realm, now)); } } else { // ECMA262 20.3.2.3 // 1. Let numberOfArgs be the number of arguments passed to this function call. let numberOfArgs = argCount; // 2. Assert: numberOfArgs = 0. (0, _invariant.default)(numberOfArgs === 0, "expected zero arguments"); // 3. If NewTarget is not undefined, then if (NewTarget) { // a. Let O be ? OrdinaryCreateFromConstructor(NewTarget, "%DatePrototype%", « [[DateValue]] »). let O = _singletons.Create.OrdinaryCreateFromConstructor(realm, NewTarget, "DatePrototype", { $DateValue: undefined }); // b. Set the [[DateValue]] internal slot of O to the time value (UTC) identifying the current time. O.$DateValue = getCurrentTime(); // c. Return O. return O; } else { // 4. Else, // a. Let now be the Number that is the time value (UTC) identifying the current time. let now = getCurrentTime().throwIfNotConcreteNumber().value; // b. Return ToDateString(now). return new _index.StringValue(realm, (0, _date.ToDateString)(realm, now)); } } }); // ECMA262 20.3.3.1 func.defineNativeMethod("now", 0, context => { return getCurrentTime(); }); // ECMA262 20.3.3.2 func.defineNativeMethod("parse", 1, (context, [string]) => { if (realm.useAbstractInterpretation) { _index.AbstractValue.reportIntrospectionError(string); throw new _errors.FatalError(); } else { const parsedDate = Date.parse(string.value); return new _index.NumberValue(realm, parsedDate); } }); // ECMA262 20.3.3.4 func.defineNativeMethod("UTC", 7, (context, [year, month, date, hours, minutes, seconds, ms], argCount) => { // 1. Let y be ? ToNumber(year). let y = _singletons.To.ToNumber(realm, year); // 2. Let m be ? ToNumber(month). let m = argCount >= 2 ? _singletons.To.ToNumber(realm, month) : 0; // 3. If date is supplied, let dt be ? ToNumber(date); else let dt be 1. let dt = argCount >= 3 ? _singletons.To.ToNumber(realm, date) : 1; // 4. If hours is supplied, let h be ? ToNumber(hours); else let h be 0. let h = argCount >= 4 ? _singletons.To.ToNumber(realm, hours) : 0; // 5. If minutes is supplied, let min be ? ToNumber(minutes); else let min be 0. let min = argCount >= 5 ? _singletons.To.ToNumber(realm, minutes) : 0; // 6. If seconds is supplied, let s be ? ToNumber(seconds); else let s be 0. let s = argCount >= 6 ? _singletons.To.ToNumber(realm, seconds) : 0; // 7. If ms is supplied, let milli be ? ToNumber(ms); else let milli be 0. let milli = argCount >= 7 ? _singletons.To.ToNumber(realm, ms) : 0; // 8. If y is not NaN and 0 ≤ ToInteger(y) ≤ 99, let yr be 1900+ToInteger(y); otherwise, let yr be y. let yr = !isNaN(y) && _singletons.To.ToInteger(realm, y) >= 0 && _singletons.To.ToInteger(realm, y) <= 99 ? 1900 + _singletons.To.ToInteger(realm, y) : y; // 9. Return TimeClip(MakeDate(MakeDay(yr, m, dt), MakeTime(h, min, s, milli))). return (0, _date.TimeClip)(realm, (0, _date.MakeDate)(realm, (0, _date.MakeDay)(realm, yr, m, dt), (0, _date.MakeTime)(realm, h, min, s, milli))); }); return func; } //# sourceMappingURL=Date.js.map