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webkit / WebKit / 983b299acc32acd2faaf762fdcd3ded1f17c80ab / . / JSTests / test262 / harness / temporalHelpers.js
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// Copyright (C) 2021 Igalia, S.L. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
description: |
This defines helper objects and functions for testing Temporal.
defines: [TemporalHelpers]
features: [Symbol.species, Symbol.iterator, Temporal]
---*/
var TemporalHelpers = {
/*
* assertDuration(duration, years, ..., nanoseconds[, description]):
*
* Shorthand for asserting that each field of a Temporal.Duration is equal to
* an expected value.
*/
assertDuration(duration, years, months, weeks, days, hours, minutes, seconds, milliseconds, microseconds, nanoseconds, description = "") {
assert(duration instanceof Temporal.Duration, `${description} instanceof`);
assert.sameValue(duration.years, years, `${description} years result`);
assert.sameValue(duration.months, months, `${description} months result`);
assert.sameValue(duration.weeks, weeks, `${description} weeks result`);
assert.sameValue(duration.days, days, `${description} days result`);
assert.sameValue(duration.hours, hours, `${description} hours result`);
assert.sameValue(duration.minutes, minutes, `${description} minutes result`);
assert.sameValue(duration.seconds, seconds, `${description} seconds result`);
assert.sameValue(duration.milliseconds, milliseconds, `${description} milliseconds result`);
assert.sameValue(duration.microseconds, microseconds, `${description} microseconds result`);
assert.sameValue(duration.nanoseconds, nanoseconds, `${description} nanoseconds result`);
},
/*
* assertDurationsEqual(actual, expected[, description]):
*
* Shorthand for asserting that each field of a Temporal.Duration is equal to
* the corresponding field in another Temporal.Duration.
*/
assertDurationsEqual(actual, expected, description = "") {
assert(expected instanceof Temporal.Duration, `${description} expected value should be a Temporal.Duration`);
TemporalHelpers.assertDuration(actual, expected.years, expected.months, expected.weeks, expected.days, expected.hours, expected.minutes, expected.seconds, expected.milliseconds, expected.microseconds, expected.nanoseconds, description);
},
/*
* assertInstantsEqual(actual, expected[, description]):
*
* Shorthand for asserting that two Temporal.Instants are of the correct type
* and equal according to their equals() methods.
*/
assertInstantsEqual(actual, expected, description = "") {
assert(expected instanceof Temporal.Instant, `${description} expected value should be a Temporal.Instant`);
assert(actual instanceof Temporal.Instant, `${description} instanceof`);
assert(actual.equals(expected), `${description} equals method`);
},
/*
* assertPlainDate(date, year, ..., nanosecond[, description[, era, eraYear]]):
*
* Shorthand for asserting that each field of a Temporal.PlainDate is equal to
* an expected value. (Except the `calendar` property, since callers may want
* to assert either object equality with an object they put in there, or the
* result of date.calendar.toString().)
*/
assertPlainDate(date, year, month, monthCode, day, description = "", era = undefined, eraYear = undefined) {
assert(date instanceof Temporal.PlainDate, `${description} instanceof`);
assert.sameValue(date.era, era, `${description} era result`);
assert.sameValue(date.eraYear, eraYear, `${description} eraYear result`);
assert.sameValue(date.year, year, `${description} year result`);
assert.sameValue(date.month, month, `${description} month result`);
assert.sameValue(date.monthCode, monthCode, `${description} monthCode result`);
assert.sameValue(date.day, day, `${description} day result`);
},
/*
* assertPlainDateTime(datetime, year, ..., nanosecond[, description[, era, eraYear]]):
*
* Shorthand for asserting that each field of a Temporal.PlainDateTime is
* equal to an expected value. (Except the `calendar` property, since callers
* may want to assert either object equality with an object they put in there,
* or the result of datetime.calendar.toString().)
*/
assertPlainDateTime(datetime, year, month, monthCode, day, hour, minute, second, millisecond, microsecond, nanosecond, description = "", era = undefined, eraYear = undefined) {
assert(datetime instanceof Temporal.PlainDateTime, `${description} instanceof`);
assert.sameValue(datetime.era, era, `${description} era result`);
assert.sameValue(datetime.eraYear, eraYear, `${description} eraYear result`);
assert.sameValue(datetime.year, year, `${description} year result`);
assert.sameValue(datetime.month, month, `${description} month result`);
assert.sameValue(datetime.monthCode, monthCode, `${description} monthCode result`);
assert.sameValue(datetime.day, day, `${description} day result`);
assert.sameValue(datetime.hour, hour, `${description} hour result`);
assert.sameValue(datetime.minute, minute, `${description} minute result`);
assert.sameValue(datetime.second, second, `${description} second result`);
assert.sameValue(datetime.millisecond, millisecond, `${description} millisecond result`);
assert.sameValue(datetime.microsecond, microsecond, `${description} microsecond result`);
assert.sameValue(datetime.nanosecond, nanosecond, `${description} nanosecond result`);
},
/*
* assertPlainDateTimesEqual(actual, expected[, description]):
*
* Shorthand for asserting that two Temporal.PlainDateTimes are of the correct
* type, equal according to their equals() methods, and additionally that
* their calendars are the same value.
*/
assertPlainDateTimesEqual(actual, expected, description = "") {
assert(expected instanceof Temporal.PlainDateTime, `${description} expected value should be a Temporal.PlainDateTime`);
assert(actual instanceof Temporal.PlainDateTime, `${description} instanceof`);
assert(actual.equals(expected), `${description} equals method`);
assert.sameValue(actual.calendar, expected.calendar, `${description} calendar same value`);
},
/*
* assertPlainMonthDay(monthDay, monthCode, day[, description [, referenceISOYear]]):
*
* Shorthand for asserting that each field of a Temporal.PlainMonthDay is
* equal to an expected value. (Except the `calendar` property, since callers
* may want to assert either object equality with an object they put in there,
* or the result of monthDay.calendar.toString().)
*/
assertPlainMonthDay(monthDay, monthCode, day, description = "", referenceISOYear = 1972) {
assert(monthDay instanceof Temporal.PlainMonthDay, `${description} instanceof`);
assert.sameValue(monthDay.monthCode, monthCode, `${description} monthCode result`);
assert.sameValue(monthDay.day, day, `${description} day result`);
assert.sameValue(monthDay.getISOFields().isoYear, referenceISOYear, `${description} referenceISOYear result`);
},
/*
* assertPlainTime(time, hour, ..., nanosecond[, description]):
*
* Shorthand for asserting that each field of a Temporal.PlainTime is equal to
* an expected value.
*/
assertPlainTime(time, hour, minute, second, millisecond, microsecond, nanosecond, description = "") {
assert(time instanceof Temporal.PlainTime, `${description} instanceof`);
assert.sameValue(time.hour, hour, `${description} hour result`);
assert.sameValue(time.minute, minute, `${description} minute result`);
assert.sameValue(time.second, second, `${description} second result`);
assert.sameValue(time.millisecond, millisecond, `${description} millisecond result`);
assert.sameValue(time.microsecond, microsecond, `${description} microsecond result`);
assert.sameValue(time.nanosecond, nanosecond, `${description} nanosecond result`);
},
/*
* assertPlainTimesEqual(actual, expected[, description]):
*
* Shorthand for asserting that two Temporal.PlainTimes are of the correct
* type and equal according to their equals() methods.
*/
assertPlainTimesEqual(actual, expected, description = "") {
assert(expected instanceof Temporal.PlainTime, `${description} expected value should be a Temporal.PlainTime`);
assert(actual instanceof Temporal.PlainTime, `${description} instanceof`);
assert(actual.equals(expected), `${description} equals method`);
},
/*
* assertPlainYearMonth(yearMonth, year, month, monthCode[, description[, era, eraYear]]):
*
* Shorthand for asserting that each field of a Temporal.PlainYearMonth is
* equal to an expected value. (Except the `calendar` property, since callers
* may want to assert either object equality with an object they put in there,
* or the result of yearMonth.calendar.toString().)
*/
assertPlainYearMonth(yearMonth, year, month, monthCode, description = "", era = undefined, eraYear = undefined) {
assert(yearMonth instanceof Temporal.PlainYearMonth, `${description} instanceof`);
assert.sameValue(yearMonth.era, era, `${description} era result`);
assert.sameValue(yearMonth.eraYear, eraYear, `${description} eraYear result`);
assert.sameValue(yearMonth.year, year, `${description} year result`);
assert.sameValue(yearMonth.month, month, `${description} month result`);
assert.sameValue(yearMonth.monthCode, monthCode, `${description} monthCode result`);
},
/*
* assertZonedDateTimesEqual(actual, expected[, description]):
*
* Shorthand for asserting that two Temporal.ZonedDateTimes are of the correct
* type, equal according to their equals() methods, and additionally that
* their time zones and calendars are the same value.
*/
assertZonedDateTimesEqual(actual, expected, description = "") {
assert(expected instanceof Temporal.ZonedDateTime, `${description} expected value should be a Temporal.ZonedDateTime`);
assert(actual instanceof Temporal.ZonedDateTime, `${description} instanceof`);
assert(actual.equals(expected), `${description} equals method`);
assert.sameValue(actual.timeZone, expected.timeZone, `${description} time zone same value`);
assert.sameValue(actual.calendar, expected.calendar, `${description} calendar same value`);
},
/*
* assertUnreachable(description):
*
* Helper for asserting that code is not executed. This is useful for
* assertions that methods of user calendars and time zones are not called.
*/
assertUnreachable(description) {
let message = "This code should not be executed";
if (description) {
message = `${message}: ${description}`;
}
throw new Test262Error(message);
},
/*
* checkCalendarDateUntilLargestUnitSingular(func, expectedLargestUnitCalls):
*
* When an options object with a largestUnit property is synthesized inside
* Temporal and passed to user code such as calendar.dateUntil(), the value of
* the largestUnit property should be in the singular form, even if the input
* was given in the plural form.
* (This doesn't apply when the options object is passed through verbatim.)
*
* func(calendar, largestUnit, index) is the operation under test. It's called
* with an instance of a calendar that keeps track of which largestUnit is
* passed to dateUntil(), each key of expectedLargestUnitCalls in turn, and
* the key's numerical index in case the function needs to generate test data
* based on the index. At the end, the actual values passed to dateUntil() are
* compared with the array values of expectedLargestUnitCalls.
*/
checkCalendarDateUntilLargestUnitSingular(func, expectedLargestUnitCalls) {
const actual = [];
class DateUntilOptionsCalendar extends Temporal.Calendar {
constructor() {
super("iso8601");
}
dateUntil(earlier, later, options) {
actual.push(options.largestUnit);
return super.dateUntil(earlier, later, options);
}
toString() {
return "date-until-options";
}
}
const calendar = new DateUntilOptionsCalendar();
Object.entries(expectedLargestUnitCalls).forEach(([largestUnit, expected], index) => {
func(calendar, largestUnit, index);
assert.compareArray(actual, expected, `largestUnit passed to calendar.dateUntil() for largestUnit ${largestUnit}`);
actual.splice(0, actual.length); // empty it for the next check
});
},
/*
* checkFractionalSecondDigitsOptionWrongType(temporalObject):
*
* Checks the string-or-number type handling of the fractionalSecondDigits
* option to the various types' toString() methods. temporalObject is an
* instance of the Temporal type under test.
*/
checkFractionalSecondDigitsOptionWrongType(temporalObject) {
// null is not a number, and converts to the string "null", which is an invalid string value
assert.throws(RangeError, () => temporalObject.toString({ fractionalSecondDigits: null }), "null");
// Booleans are not numbers, and convert to the strings "true" or "false", which are invalid
assert.throws(RangeError, () => temporalObject.toString({ fractionalSecondDigits: true }), "true");
assert.throws(RangeError, () => temporalObject.toString({ fractionalSecondDigits: false }), "false");
// Symbols are not numbers and cannot convert to strings
assert.throws(TypeError, () => temporalObject.toString({ fractionalSecondDigits: Symbol() }), "symbol");
// BigInts are not numbers and convert to strings which are invalid
assert.throws(RangeError, () => temporalObject.toString({ fractionalSecondDigits: 2n }), "bigint");
// Objects are not numbers and prefer their toString() methods when converting to a string
assert.throws(RangeError, () => temporalObject.toString({ fractionalSecondDigits: {} }), "plain object");
const toStringExpected = temporalObject.toString({ fractionalSecondDigits: 'auto' });
const expected = [
"get fractionalSecondDigits.toString",
"call fractionalSecondDigits.toString",
];
const actual = [];
const observer = TemporalHelpers.toPrimitiveObserver(actual, "auto", "fractionalSecondDigits");
const result = temporalObject.toString({ fractionalSecondDigits: observer });
assert.sameValue(result, toStringExpected, "object with toString");
assert.compareArray(actual, expected, "order of operations");
},
/*
* checkPlainDateTimeConversionFastPath(func):
*
* ToTemporalDate and ToTemporalTime should both, if given a
* Temporal.PlainDateTime instance, convert to the desired type by reading the
* PlainDateTime's internal slots, rather than calling any getters.
*
* func(datetime, calendar) is the actual operation to test, that must
* internally call the abstract operation ToTemporalDate or ToTemporalTime.
* It is passed a Temporal.PlainDateTime instance, as well as the instance's
* calendar object (so that it doesn't have to call the calendar getter itself
* if it wants to make any assertions about the calendar.)
*/
checkPlainDateTimeConversionFastPath(func) {
const actual = [];
const expected = [];
const calendar = new Temporal.Calendar("iso8601");
const datetime = new Temporal.PlainDateTime(2000, 5, 2, 12, 34, 56, 987, 654, 321, calendar);
const prototypeDescrs = Object.getOwnPropertyDescriptors(Temporal.PlainDateTime.prototype);
["year", "month", "monthCode", "day", "hour", "minute", "second", "millisecond", "microsecond", "nanosecond"].forEach((property) => {
Object.defineProperty(datetime, property, {
get() {
actual.push(`get ${property}`);
const value = prototypeDescrs[property].get.call(this);
return {
toString() {
actual.push(`toString ${property}`);
return value.toString();
},
valueOf() {
actual.push(`valueOf ${property}`);
return value;
},
};
},
});
});
Object.defineProperty(datetime, "calendar", {
get() {
actual.push("get calendar");
return calendar;
},
});
func(datetime, calendar);
assert.compareArray(actual, expected, "property getters not called");
},
/*
* Check that an options bag that accepts units written in the singular form,
* also accepts the same units written in the plural form.
* func(unit) should call the method with the appropriate options bag
* containing unit as a value. This will be called twice for each element of
* validSingularUnits, once with singular and once with plural, and the
* results of each pair should be the same (whether a Temporal object or a
* primitive value.)
*/
checkPluralUnitsAccepted(func, validSingularUnits) {
const plurals = {
year: 'years',
month: 'months',
week: 'weeks',
day: 'days',
hour: 'hours',
minute: 'minutes',
second: 'seconds',
millisecond: 'milliseconds',
microsecond: 'microseconds',
nanosecond: 'nanoseconds',
};
validSingularUnits.forEach((unit) => {
const singularValue = func(unit);
const pluralValue = func(plurals[unit]);
const desc = `Plural ${plurals[unit]} produces the same result as singular ${unit}`;
if (singularValue instanceof Temporal.Duration) {
TemporalHelpers.assertDurationsEqual(pluralValue, singularValue, desc);
} else if (singularValue instanceof Temporal.Instant) {
TemporalHelpers.assertInstantsEqual(pluralValue, singularValue, desc);
} else if (singularValue instanceof Temporal.PlainDateTime) {
TemporalHelpers.assertPlainDateTimesEqual(pluralValue, singularValue, desc);
} else if (singularValue instanceof Temporal.PlainTime) {
TemporalHelpers.assertPlainTimesEqual(pluralValue, singularValue, desc);
} else if (singularValue instanceof Temporal.ZonedDateTime) {
TemporalHelpers.assertZonedDateTimesEqual(pluralValue, singularValue, desc);
} else {
assert.sameValue(pluralValue, singularValue);
}
});
},
/*
* checkRoundingIncrementOptionWrongType(checkFunc, assertTrueResultFunc, assertObjectResultFunc):
*
* Checks the type handling of the roundingIncrement option.
* checkFunc(roundingIncrement) is a function which takes the value of
* roundingIncrement to test, and calls the method under test with it,
* returning the result. assertTrueResultFunc(result, description) should
* assert that result is the expected result with roundingIncrement: true, and
* assertObjectResultFunc(result, description) should assert that result is
* the expected result with roundingIncrement being an object with a valueOf()
* method.
*/
checkRoundingIncrementOptionWrongType(checkFunc, assertTrueResultFunc, assertObjectResultFunc) {
// null converts to 0, which is out of range
assert.throws(RangeError, () => checkFunc(null), "null");
// Booleans convert to either 0 or 1, and 1 is allowed
const trueResult = checkFunc(true);
assertTrueResultFunc(trueResult, "true");
assert.throws(RangeError, () => checkFunc(false), "false");
// Symbols and BigInts cannot convert to numbers
assert.throws(TypeError, () => checkFunc(Symbol()), "symbol");
assert.throws(TypeError, () => checkFunc(2n), "bigint");
// Objects prefer their valueOf() methods when converting to a number
assert.throws(RangeError, () => checkFunc({}), "plain object");
const expected = [
"get roundingIncrement.valueOf",
"call roundingIncrement.valueOf",
];
const actual = [];
const observer = TemporalHelpers.toPrimitiveObserver(actual, 2, "roundingIncrement");
const objectResult = checkFunc(observer);
assertObjectResultFunc(objectResult, "object with valueOf");
assert.compareArray(actual, expected, "order of operations");
},
/*
* checkStringOptionWrongType(propertyName, value, checkFunc, assertFunc):
*
* Checks the type handling of a string option, of which there are several in
* Temporal.
* propertyName is the name of the option, and value is the value that
* assertFunc should expect it to have.
* checkFunc(value) is a function which takes the value of the option to test,
* and calls the method under test with it, returning the result.
* assertFunc(result, description) should assert that result is the expected
* result with the option value being an object with a toString() method
* which returns the given value.
*/
checkStringOptionWrongType(propertyName, value, checkFunc, assertFunc) {
// null converts to the string "null", which is an invalid string value
assert.throws(RangeError, () => checkFunc(null), "null");
// Booleans convert to the strings "true" or "false", which are invalid
assert.throws(RangeError, () => checkFunc(true), "true");
assert.throws(RangeError, () => checkFunc(false), "false");
// Symbols cannot convert to strings
assert.throws(TypeError, () => checkFunc(Symbol()), "symbol");
// Numbers convert to strings which are invalid
assert.throws(RangeError, () => checkFunc(2), "number");
// BigInts convert to strings which are invalid
assert.throws(RangeError, () => checkFunc(2n), "bigint");
// Objects prefer their toString() methods when converting to a string
assert.throws(RangeError, () => checkFunc({}), "plain object");
const expected = [
`get ${propertyName}.toString`,
`call ${propertyName}.toString`,
];
const actual = [];
const observer = TemporalHelpers.toPrimitiveObserver(actual, value, propertyName);
const result = checkFunc(observer);
assertFunc(result, "object with toString");
assert.compareArray(actual, expected, "order of operations");
},
/*
* checkSubclassingIgnored(construct, constructArgs, method, methodArgs,
* resultAssertions):
*
* Methods of Temporal classes that return a new instance of the same class,
* must not take the constructor of a subclass into account, nor the @@species
* property. This helper runs tests to ensure this.
*
* construct(...constructArgs) must yield a valid instance of the Temporal
* class. instance[method](...methodArgs) is the method call under test, which
* must also yield a valid instance of the same Temporal class, not a
* subclass. See below for the individual tests that this runs.
* resultAssertions() is a function that performs additional assertions on the
* instance returned by the method under test.
*/
checkSubclassingIgnored(...args) {
this.checkSubclassConstructorNotObject(...args);
this.checkSubclassConstructorUndefined(...args);
this.checkSubclassConstructorThrows(...args);
this.checkSubclassConstructorNotCalled(...args);
this.checkSubclassSpeciesInvalidResult(...args);
this.checkSubclassSpeciesNotAConstructor(...args);
this.checkSubclassSpeciesNull(...args);
this.checkSubclassSpeciesUndefined(...args);
this.checkSubclassSpeciesThrows(...args);
},
/*
* Checks that replacing the 'constructor' property of the instance with
* various primitive values does not affect the returned new instance.
*/
checkSubclassConstructorNotObject(construct, constructArgs, method, methodArgs, resultAssertions) {
function check(value, description) {
const instance = new construct(...constructArgs);
instance.constructor = value;
const result = instance[method](...methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype, description);
resultAssertions(result);
}
check(null, "null");
check(true, "true");
check("test", "string");
check(Symbol(), "Symbol");
check(7, "number");
check(7n, "bigint");
},
/*
* Checks that replacing the 'constructor' property of the subclass with
* undefined does not affect the returned new instance.
*/
checkSubclassConstructorUndefined(construct, constructArgs, method, methodArgs, resultAssertions) {
let called = 0;
class MySubclass extends construct {
constructor() {
++called;
super(...constructArgs);
}
}
const instance = new MySubclass();
assert.sameValue(called, 1);
MySubclass.prototype.constructor = undefined;
const result = instance[method](...methodArgs);
assert.sameValue(called, 1);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
},
/*
* Checks that making the 'constructor' property of the instance throw when
* called does not affect the returned new instance.
*/
checkSubclassConstructorThrows(construct, constructArgs, method, methodArgs, resultAssertions) {
function CustomError() {}
const instance = new construct(...constructArgs);
Object.defineProperty(instance, "constructor", {
get() {
throw new CustomError();
}
});
const result = instance[method](...methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
},
/*
* Checks that when subclassing, the subclass constructor is not called by
* the method under test.
*/
checkSubclassConstructorNotCalled(construct, constructArgs, method, methodArgs, resultAssertions) {
let called = 0;
class MySubclass extends construct {
constructor() {
++called;
super(...constructArgs);
}
}
const instance = new MySubclass();
assert.sameValue(called, 1);
const result = instance[method](...methodArgs);
assert.sameValue(called, 1);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
},
/*
* Check that the constructor's @@species property is ignored when it's a
* constructor that returns a non-object value.
*/
checkSubclassSpeciesInvalidResult(construct, constructArgs, method, methodArgs, resultAssertions) {
function check(value, description) {
const instance = new construct(...constructArgs);
instance.constructor = {
[Symbol.species]: function() {
return value;
},
};
const result = instance[method](...methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype, description);
resultAssertions(result);
}
check(undefined, "undefined");
check(null, "null");
check(true, "true");
check("test", "string");
check(Symbol(), "Symbol");
check(7, "number");
check(7n, "bigint");
check({}, "plain object");
},
/*
* Check that the constructor's @@species property is ignored when it's not a
* constructor.
*/
checkSubclassSpeciesNotAConstructor(construct, constructArgs, method, methodArgs, resultAssertions) {
function check(value, description) {
const instance = new construct(...constructArgs);
instance.constructor = {
[Symbol.species]: value,
};
const result = instance[method](...methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype, description);
resultAssertions(result);
}
check(true, "true");
check("test", "string");
check(Symbol(), "Symbol");
check(7, "number");
check(7n, "bigint");
check({}, "plain object");
},
/*
* Check that the constructor's @@species property is ignored when it's null.
*/
checkSubclassSpeciesNull(construct, constructArgs, method, methodArgs, resultAssertions) {
let called = 0;
class MySubclass extends construct {
constructor() {
++called;
super(...constructArgs);
}
}
const instance = new MySubclass();
assert.sameValue(called, 1);
MySubclass.prototype.constructor = {
[Symbol.species]: null,
};
const result = instance[method](...methodArgs);
assert.sameValue(called, 1);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
},
/*
* Check that the constructor's @@species property is ignored when it's
* undefined.
*/
checkSubclassSpeciesUndefined(construct, constructArgs, method, methodArgs, resultAssertions) {
let called = 0;
class MySubclass extends construct {
constructor() {
++called;
super(...constructArgs);
}
}
const instance = new MySubclass();
assert.sameValue(called, 1);
MySubclass.prototype.constructor = {
[Symbol.species]: undefined,
};
const result = instance[method](...methodArgs);
assert.sameValue(called, 1);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
},
/*
* Check that the constructor's @@species property is ignored when it throws,
* i.e. it is not called at all.
*/
checkSubclassSpeciesThrows(construct, constructArgs, method, methodArgs, resultAssertions) {
function CustomError() {}
const instance = new construct(...constructArgs);
instance.constructor = {
get [Symbol.species]() {
throw new CustomError();
},
};
const result = instance[method](...methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
},
/*
* checkSubclassingIgnoredStatic(construct, method, methodArgs, resultAssertions):
*
* Static methods of Temporal classes that return a new instance of the class,
* must not use the this-value as a constructor. This helper runs tests to
* ensure this.
*
* construct[method](...methodArgs) is the static method call under test, and
* must yield a valid instance of the Temporal class, not a subclass. See
* below for the individual tests that this runs.
* resultAssertions() is a function that performs additional assertions on the
* instance returned by the method under test.
*/
checkSubclassingIgnoredStatic(...args) {
this.checkStaticInvalidReceiver(...args);
this.checkStaticReceiverNotCalled(...args);
this.checkThisValueNotCalled(...args);
},
/*
* Check that calling the static method with a receiver that's not callable,
* still calls the intrinsic constructor.
*/
checkStaticInvalidReceiver(construct, method, methodArgs, resultAssertions) {
function check(value, description) {
const result = construct[method].apply(value, methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
}
check(undefined, "undefined");
check(null, "null");
check(true, "true");
check("test", "string");
check(Symbol(), "symbol");
check(7, "number");
check(7n, "bigint");
check({}, "Non-callable object");
},
/*
* Check that calling the static method with a receiver that returns a value
* that's not callable, still calls the intrinsic constructor.
*/
checkStaticReceiverNotCalled(construct, method, methodArgs, resultAssertions) {
function check(value, description) {
const receiver = function () {
return value;
};
const result = construct[method].apply(receiver, methodArgs);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
}
check(undefined, "undefined");
check(null, "null");
check(true, "true");
check("test", "string");
check(Symbol(), "symbol");
check(7, "number");
check(7n, "bigint");
check({}, "Non-callable object");
},
/*
* Check that the receiver isn't called.
*/
checkThisValueNotCalled(construct, method, methodArgs, resultAssertions) {
let called = false;
class MySubclass extends construct {
constructor(...args) {
called = true;
super(...args);
}
}
const result = MySubclass[method](...methodArgs);
assert.sameValue(called, false);
assert.sameValue(Object.getPrototypeOf(result), construct.prototype);
resultAssertions(result);
},
/*
* Check that any iterable returned from a custom time zone's
* getPossibleInstantsFor() method is exhausted.
* The custom time zone object is passed in to func().
* expected is an array of strings representing the expected calls to the
* getPossibleInstantsFor() method. The PlainDateTimes that it is called with,
* are compared (using their toString() results) with the array.
*/
checkTimeZonePossibleInstantsIterable(func, expected) {
// A custom time zone that returns an iterable instead of an array from its
// getPossibleInstantsFor() method, and for testing purposes skips
// 00:00-01:00 UTC on January 1, 2030, and repeats 00:00-01:00 UTC+1 on
// January 3, 2030. Otherwise identical to the UTC time zone.
class TimeZonePossibleInstantsIterable extends Temporal.TimeZone {
constructor() {
super("UTC");
this.getPossibleInstantsForCallCount = 0;
this.getPossibleInstantsForCalledWith = [];
this.getPossibleInstantsForReturns = [];
this.iteratorExhausted = [];
}
toString() {
return "Custom/Iterable";
}
getOffsetNanosecondsFor(instant) {
if (Temporal.Instant.compare(instant, "2030-01-01T00:00Z") >= 0 &&
Temporal.Instant.compare(instant, "2030-01-03T01:00Z") < 0) {
return 3600_000_000_000;
} else {
return 0;
}
}
getPossibleInstantsFor(dateTime) {
this.getPossibleInstantsForCallCount++;
this.getPossibleInstantsForCalledWith.push(dateTime);
// Fake DST transition
let retval = super.getPossibleInstantsFor(dateTime);
if (dateTime.toPlainDate().equals("2030-01-01") && dateTime.hour === 0) {
retval = [];
} else if (dateTime.toPlainDate().equals("2030-01-03") && dateTime.hour === 0) {
retval.push(retval[0].subtract({ hours: 1 }));
} else if (dateTime.year === 2030 && dateTime.month === 1 && dateTime.day >= 1 && dateTime.day <= 2) {
retval[0] = retval[0].subtract({ hours: 1 });
}
this.getPossibleInstantsForReturns.push(retval);
this.iteratorExhausted.push(false);
return {
callIndex: this.getPossibleInstantsForCallCount - 1,
timeZone: this,
*[Symbol.iterator]() {
yield* this.timeZone.getPossibleInstantsForReturns[this.callIndex];
this.timeZone.iteratorExhausted[this.callIndex] = true;
},
};
}
}
const timeZone = new TimeZonePossibleInstantsIterable();
func(timeZone);
assert.sameValue(timeZone.getPossibleInstantsForCallCount, expected.length, "getPossibleInstantsFor() method called correct number of times");
for (let index = 0; index < expected.length; index++) {
assert.sameValue(timeZone.getPossibleInstantsForCalledWith[index].toString(), expected[index], "getPossibleInstantsFor() called with expected PlainDateTime");
assert(timeZone.iteratorExhausted[index], "iterated through the whole iterable");
}
},
/*
* Check that any calendar-carrying Temporal object has its [[Calendar]]
* internal slot read by ToTemporalCalendar, and does not fetch the calendar
* by calling getters.
* The custom calendar object is passed in to func() so that it can do its
* own additional assertions involving the calendar if necessary. (Sometimes
* there is nothing to assert as the calendar isn't stored anywhere that can
* be asserted about.)
*/
checkToTemporalCalendarFastPath(func) {
class CalendarFastPathCheck extends Temporal.Calendar {
constructor() {
super("iso8601");
}
toString() {
return "fast-path-check";
}
}
const calendar = new CalendarFastPathCheck();
const plainDate = new Temporal.PlainDate(2000, 5, 2, calendar);
const plainDateTime = new Temporal.PlainDateTime(2000, 5, 2, 12, 34, 56, 987, 654, 321, calendar);
const plainMonthDay = new Temporal.PlainMonthDay(5, 2, calendar);
const plainYearMonth = new Temporal.PlainYearMonth(2000, 5, calendar);
const zonedDateTime = new Temporal.ZonedDateTime(1_000_000_000_000_000_000n, "UTC", calendar);
[plainDate, plainDateTime, plainMonthDay, plainYearMonth, zonedDateTime].forEach((temporalObject) => {
const actual = [];
const expected = [];
Object.defineProperty(temporalObject, "calendar", {
get() {
actual.push("get calendar");
return calendar;
},
});
func(temporalObject, calendar);
assert.compareArray(actual, expected, "calendar getter not called");
});
},
checkToTemporalInstantFastPath(func) {
const actual = [];
const expected = [];
const datetime = new Temporal.ZonedDateTime(1_000_000_000_987_654_321n, "UTC");
Object.defineProperty(datetime, 'toString', {
get() {
actual.push("get toString");
return function (options) {
actual.push("call toString");
return Temporal.ZonedDateTime.prototype.toString.call(this, options);
};
},
});
func(datetime);
assert.compareArray(actual, expected, "toString not called");
},
checkToTemporalPlainDateTimeFastPath(func) {
const actual = [];
const expected = [];
const calendar = new Temporal.Calendar("iso8601");
const date = new Temporal.PlainDate(2000, 5, 2, calendar);
const prototypeDescrs = Object.getOwnPropertyDescriptors(Temporal.PlainDate.prototype);
["year", "month", "monthCode", "day"].forEach((property) => {
Object.defineProperty(date, property, {
get() {
actual.push(`get ${property}`);
const value = prototypeDescrs[property].get.call(this);
return TemporalHelpers.toPrimitiveObserver(actual, value, property);
},
});
});
["hour", "minute", "second", "millisecond", "microsecond", "nanosecond"].forEach((property) => {
Object.defineProperty(date, property, {
get() {
actual.push(`get ${property}`);
return undefined;
},
});
});
Object.defineProperty(date, "calendar", {
get() {
actual.push("get calendar");
return calendar;
},
});
func(date, calendar);
assert.compareArray(actual, expected, "property getters not called");
},
/*
* A custom calendar that asserts its dateAdd() method is called with the
* options parameter having the value undefined.
*/
calendarDateAddUndefinedOptions() {
class CalendarDateAddUndefinedOptions extends Temporal.Calendar {
constructor() {
super("iso8601");
this.dateAddCallCount = 0;
}
toString() {
return "dateadd-undef-options";
}
dateAdd(date, duration, options) {
this.dateAddCallCount++;
assert.sameValue(options, undefined, "dateAdd shouldn't be called with options");
return super.dateAdd(date, duration, options);
}
}
return new CalendarDateAddUndefinedOptions();
},
/*
* A custom calendar that asserts its dateAdd() method is called with a
* PlainDate instance. Optionally, it also asserts that the PlainDate instance
* is the specific object `this.specificPlainDate`, if it is set by the
* calling code.
*/
calendarDateAddPlainDateInstance() {
class CalendarDateAddPlainDateInstance extends Temporal.Calendar {
constructor() {
super("iso8601");
this.dateAddCallCount = 0;
this.specificPlainDate = undefined;
}
toString() {
return "dateadd-plain-date-instance";
}
dateAdd(date, duration, options) {
this.dateAddCallCount++;
assert(date instanceof Temporal.PlainDate, "dateAdd() should be called with a PlainDate instance");
if (this.dateAddCallCount === 1 && this.specificPlainDate) {
assert.sameValue(date, this.specificPlainDate, `dateAdd() should be called first with the specific PlainDate instance ${this.specificPlainDate}`);
}
return super.dateAdd(date, duration, options);
}
}
return new CalendarDateAddPlainDateInstance();
},
/*
* A custom calendar that returns @returnValue from its dateUntil() method,
* recording the call in @calls.
*/
calendarDateUntilObservable(calls, returnValue) {
class CalendarDateUntilObservable extends Temporal.Calendar {
constructor() {
super("iso8601");
}
dateUntil() {
calls.push("call dateUntil");
return returnValue;
}
}
return new CalendarDateUntilObservable();
},
/*
* A custom calendar that returns an iterable instead of an array from its
* fields() method, otherwise identical to the ISO calendar.
*/
calendarFieldsIterable() {
class CalendarFieldsIterable extends Temporal.Calendar {
constructor() {
super("iso8601");
this.fieldsCallCount = 0;
this.fieldsCalledWith = [];
this.iteratorExhausted = [];
}
toString() {
return "fields-iterable";
}
fields(fieldNames) {
this.fieldsCallCount++;
this.fieldsCalledWith.push(fieldNames.slice());
this.iteratorExhausted.push(false);
return {
callIndex: this.fieldsCallCount - 1,
calendar: this,
*[Symbol.iterator]() {
yield* this.calendar.fieldsCalledWith[this.callIndex];
this.calendar.iteratorExhausted[this.callIndex] = true;
},
};
}
}
return new CalendarFieldsIterable();
},
/*
* A custom calendar that modifies the fields object passed in to
* dateFromFields, sabotaging its time properties.
*/
calendarMakeInfinityTime() {
class CalendarMakeInfinityTime extends Temporal.Calendar {
constructor() {
super("iso8601");
}
dateFromFields(fields, options) {
const retval = super.dateFromFields(fields, options);
fields.hour = Infinity;
fields.minute = Infinity;
fields.second = Infinity;
fields.millisecond = Infinity;
fields.microsecond = Infinity;
fields.nanosecond = Infinity;
return retval;
}
}
return new CalendarMakeInfinityTime();
},
/*
* A custom calendar that defines getters on the fields object passed into
* dateFromFields that throw, sabotaging its time properties.
*/
calendarMakeInvalidGettersTime() {
class CalendarMakeInvalidGettersTime extends Temporal.Calendar {
constructor() {
super("iso8601");
}
dateFromFields(fields, options) {
const retval = super.dateFromFields(fields, options);
const throwingDescriptor = {
get() {
throw new Test262Error("reading a sabotaged time field");
},
};
Object.defineProperties(fields, {
hour: throwingDescriptor,
minute: throwingDescriptor,
second: throwingDescriptor,
millisecond: throwingDescriptor,
microsecond: throwingDescriptor,
nanosecond: throwingDescriptor,
});
return retval;
}
}
return new CalendarMakeInvalidGettersTime();
},
/*
* A custom calendar whose mergeFields() method returns a proxy object with
* all of its Get and HasProperty operations observable, as well as adding a
* "shouldNotBeCopied": true property.
*/
calendarMergeFieldsGetters() {
class CalendarMergeFieldsGetters extends Temporal.Calendar {
constructor() {
super("iso8601");
this.mergeFieldsReturnOperations = [];
}
toString() {
return "merge-fields-getters";
}
dateFromFields(fields, options) {
assert.sameValue(fields.shouldNotBeCopied, undefined, "extra fields should not be copied");
return super.dateFromFields(fields, options);
}
yearMonthFromFields(fields, options) {
assert.sameValue(fields.shouldNotBeCopied, undefined, "extra fields should not be copied");
return super.yearMonthFromFields(fields, options);
}
monthDayFromFields(fields, options) {
assert.sameValue(fields.shouldNotBeCopied, undefined, "extra fields should not be copied");
return super.monthDayFromFields(fields, options);
}
mergeFields(fields, additionalFields) {
const retval = super.mergeFields(fields, additionalFields);
retval._calendar = this;
retval.shouldNotBeCopied = true;
return new Proxy(retval, {
get(target, key) {
target._calendar.mergeFieldsReturnOperations.push(`get ${key}`);
const result = target[key];
if (result === undefined) {
return undefined;
}
return TemporalHelpers.toPrimitiveObserver(target._calendar.mergeFieldsReturnOperations, result, key);
},
has(target, key) {
target._calendar.mergeFieldsReturnOperations.push(`has ${key}`);
return key in target;
},
});
}
}
return new CalendarMergeFieldsGetters();
},
/*
* A custom calendar whose mergeFields() method returns a primitive value,
* given by @primitive, and which records the number of calls made to its
* dateFromFields(), yearMonthFromFields(), and monthDayFromFields() methods.
*/
calendarMergeFieldsReturnsPrimitive(primitive) {
class CalendarMergeFieldsPrimitive extends Temporal.Calendar {
constructor(mergeFieldsReturnValue) {
super("iso8601");
this._mergeFieldsReturnValue = mergeFieldsReturnValue;
this.dateFromFieldsCallCount = 0;
this.monthDayFromFieldsCallCount = 0;
this.yearMonthFromFieldsCallCount = 0;
}
toString() {
return "merge-fields-primitive";
}
dateFromFields(fields, options) {
this.dateFromFieldsCallCount++;
return super.dateFromFields(fields, options);
}
yearMonthFromFields(fields, options) {
this.yearMonthFromFieldsCallCount++;
return super.yearMonthFromFields(fields, options);
}
monthDayFromFields(fields, options) {
this.monthDayFromFieldsCallCount++;
return super.monthDayFromFields(fields, options);
}
mergeFields() {
return this._mergeFieldsReturnValue;
}
}
return new CalendarMergeFieldsPrimitive(primitive);
},
/*
* observeProperty(calls, object, propertyName, value):
*
* Defines an own property @object.@propertyName with value @value, that
* will log any calls to its accessors to the array @calls.
*/
observeProperty(calls, object, propertyName, value) {
Object.defineProperty(object, propertyName, {
get() {
calls.push(`get ${propertyName}`);
return value;
},
set(v) {
calls.push(`set ${propertyName}`);
}
});
},
/*
* A custom calendar that does not allow any of its methods to be called, for
* the purpose of asserting that a particular operation does not call into
* user code.
*/
calendarThrowEverything() {
class CalendarThrowEverything extends Temporal.Calendar {
constructor() {
super("iso8601");
}
toString() {
TemporalHelpers.assertUnreachable("toString should not be called");
}
dateFromFields() {
TemporalHelpers.assertUnreachable("dateFromFields should not be called");
}
yearMonthFromFields() {
TemporalHelpers.assertUnreachable("yearMonthFromFields should not be called");
}
monthDayFromFields() {
TemporalHelpers.assertUnreachable("monthDayFromFields should not be called");
}
dateAdd() {
TemporalHelpers.assertUnreachable("dateAdd should not be called");
}
dateUntil() {
TemporalHelpers.assertUnreachable("dateUntil should not be called");
}
era() {
TemporalHelpers.assertUnreachable("era should not be called");
}
eraYear() {
TemporalHelpers.assertUnreachable("eraYear should not be called");
}
year() {
TemporalHelpers.assertUnreachable("year should not be called");
}
month() {
TemporalHelpers.assertUnreachable("month should not be called");
}
monthCode() {
TemporalHelpers.assertUnreachable("monthCode should not be called");
}
day() {
TemporalHelpers.assertUnreachable("day should not be called");
}
fields() {
TemporalHelpers.assertUnreachable("fields should not be called");
}
mergeFields() {
TemporalHelpers.assertUnreachable("mergeFields should not be called");
}
}
return new CalendarThrowEverything();
},
/*
* oneShiftTimeZone(shiftInstant, shiftNanoseconds):
*
* In the case of a spring-forward time zone offset transition (skipped time),
* and disambiguation === 'earlier', BuiltinTimeZoneGetInstantFor subtracts a
* negative number of nanoseconds from a PlainDateTime, which should balance
* with the microseconds field.
*
* This returns an instance of a custom time zone class which skips a length
* of time equal to shiftNanoseconds (a number), at the Temporal.Instant
* shiftInstant. Before shiftInstant, it's identical to UTC, and after
* shiftInstant it's a constant-offset time zone.
*
* It provides a getPossibleInstantsForCalledWith member which is an array
* with the result of calling toString() on any PlainDateTimes passed to
* getPossibleInstantsFor().
*/
oneShiftTimeZone(shiftInstant, shiftNanoseconds) {
class OneShiftTimeZone extends Temporal.TimeZone {
constructor(shiftInstant, shiftNanoseconds) {
super("+00:00");
this._shiftInstant = shiftInstant;
this._epoch1 = shiftInstant.epochNanoseconds;
this._epoch2 = this._epoch1 + BigInt(shiftNanoseconds);
this._shiftNanoseconds = shiftNanoseconds;
this._shift = new Temporal.Duration(0, 0, 0, 0, 0, 0, 0, 0, 0, this._shiftNanoseconds);
this.getPossibleInstantsForCalledWith = [];
}
_isBeforeShift(instant) {
return instant.epochNanoseconds < this._epoch1;
}
getOffsetNanosecondsFor(instant) {
return this._isBeforeShift(instant) ? 0 : this._shiftNanoseconds;
}
getPossibleInstantsFor(plainDateTime) {
this.getPossibleInstantsForCalledWith.push(plainDateTime.toString());
const [instant] = super.getPossibleInstantsFor(plainDateTime);
if (this._shiftNanoseconds > 0) {
if (this._isBeforeShift(instant)) return [instant];
if (instant.epochNanoseconds < this._epoch2) return [];
return [instant.add(this._shift)];
}
if (instant.epochNanoseconds < this._epoch2) return [instant];
const shifted = instant.add(this._shift);
if (this._isBeforeShift(instant)) return [instant, shifted];
return [shifted];
}
getNextTransition(instant) {
return this._isBeforeShift(instant) ? this._shiftInstant : null;
}
getPreviousTransition(instant) {
return this._isBeforeShift(instant) ? null : this._shiftInstant;
}
toString() {
return "Custom/One_Shift";
}
}
return new OneShiftTimeZone(shiftInstant, shiftNanoseconds);
},
/*
* specificOffsetTimeZone():
*
* This returns an instance of a custom time zone class, which returns a
* specific custom value from its getOffsetNanosecondsFrom() method. This is
* for the purpose of testing the validation of what this method returns.
*
* It also returns an empty array from getPossibleInstantsFor(), so as to
* trigger calls to getOffsetNanosecondsFor() when used from the
* BuiltinTimeZoneGetInstantFor operation.
*/
specificOffsetTimeZone(offsetValue) {
class SpecificOffsetTimeZone extends Temporal.TimeZone {
constructor(offsetValue) {
super("UTC");
this._offsetValue = offsetValue;
}
getOffsetNanosecondsFor() {
return this._offsetValue;
}
getPossibleInstantsFor() {
return [];
}
}
return new SpecificOffsetTimeZone(offsetValue);
},
/*
* springForwardFallBackTimeZone():
*
* This returns an instance of a custom time zone class that implements one
* single spring-forward/fall-back transition, for the purpose of testing the
* disambiguation option, without depending on system time zone data.
*
* The spring-forward occurs at epoch second 954669600 (2000-04-02T02:00
* local) and goes from offset -08:00 to -07:00.
*
* The fall-back occurs at epoch second 972810000 (2000-10-29T02:00 local) and
* goes from offset -07:00 to -08:00.
*/
springForwardFallBackTimeZone() {
const { compare } = Temporal.PlainDateTime;
const springForwardLocal = new Temporal.PlainDateTime(2000, 4, 2, 2);
const springForwardEpoch = 954669600_000_000_000n;
const fallBackLocal = new Temporal.PlainDateTime(2000, 10, 29, 1);
const fallBackEpoch = 972810000_000_000_000n;
const winterOffset = new Temporal.TimeZone('-08:00');
const summerOffset = new Temporal.TimeZone('-07:00');
class SpringForwardFallBackTimeZone extends Temporal.TimeZone {
constructor() {
super("-08:00");
}
getOffsetNanosecondsFor(instant) {
if (instant.epochNanoseconds < springForwardEpoch ||
instant.epochNanoseconds >= fallBackEpoch) {
return winterOffset.getOffsetNanosecondsFor(instant);
}
return summerOffset.getOffsetNanosecondsFor(instant);
}
getPossibleInstantsFor(datetime) {
if (compare(datetime, springForwardLocal) >= 0 && compare(datetime, springForwardLocal.add({ hours: 1 })) < 0) {
return [];
}
if (compare(datetime, fallBackLocal) >= 0 && compare(datetime, fallBackLocal.add({ hours: 1 })) < 0) {
return [summerOffset.getInstantFor(datetime), winterOffset.getInstantFor(datetime)];
}
if (compare(datetime, springForwardLocal) < 0 || compare(datetime, fallBackLocal) >= 0) {
return [winterOffset.getInstantFor(datetime)];
}
return [summerOffset.getInstantFor(datetime)];
}
getPreviousTransition(instant) {
if (instant.epochNanoseconds > fallBackEpoch) return new Temporal.Instant(fallBackEpoch);
if (instant.epochNanoseconds > springForwardEpoch) return new Temporal.Instant(springForwardEpoch);
return null;
}
getNextTransition(instant) {
if (instant.epochNanoseconds < springForwardEpoch) return new Temporal.Instant(springForwardEpoch);
if (instant.epochNanoseconds < fallBackEpoch) return new Temporal.Instant(fallBackEpoch);
return null;
}
toString() {
return "Custom/Spring_Fall";
}
}
return new SpringForwardFallBackTimeZone();
},
/*
* Returns an object that will append logs of any Gets or Calls of its valueOf
* or toString properties to the array calls. Both valueOf and toString will
* return the actual primitiveValue. propertyName is used in the log.
*/
toPrimitiveObserver(calls, primitiveValue, propertyName) {
return {
get valueOf() {
calls.push(`get ${propertyName}.valueOf`);
return function () {
calls.push(`call ${propertyName}.valueOf`);
return primitiveValue;
};
},
get toString() {
calls.push(`get ${propertyName}.toString`);
return function () {
calls.push(`call ${propertyName}.toString`);
if (primitiveValue === undefined) return undefined;
return primitiveValue.toString();
};
},
};
},
};