791855deab
Instead we just use a specific constructor. With this set of constructors using curly braces for constructing is highly recommended. As then it will not do too many implicit conversions which could lead to unexpected loss of data or calling the much slower double constructor. Also to ensure we don't feed (Un)SignedBigInteger infinities we throw RangeError earlier for Durations.
169 lines
8.2 KiB
C++
169 lines
8.2 KiB
C++
/*
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* Copyright (c) 2021-2022, Linus Groh <linusg@serenityos.org>
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* Copyright (c) 2021, Luke Wilde <lukew@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/TypeCasts.h>
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#include <LibJS/Runtime/GlobalObject.h>
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#include <LibJS/Runtime/Temporal/AbstractOperations.h>
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#include <LibJS/Runtime/Temporal/Duration.h>
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#include <LibJS/Runtime/Temporal/DurationConstructor.h>
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namespace JS::Temporal {
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// 7.1 The Temporal.Duration Constructor, https://tc39.es/proposal-temporal/#sec-temporal-duration-constructor
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DurationConstructor::DurationConstructor(Realm& realm)
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: NativeFunction(vm().names.Duration.as_string(), *realm.global_object().function_prototype())
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{
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}
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void DurationConstructor::initialize(Realm& realm)
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{
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NativeFunction::initialize(realm);
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auto& vm = this->vm();
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// 7.2.1 Temporal.Duration.prototype, https://tc39.es/proposal-temporal/#sec-temporal.duration.prototype
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define_direct_property(vm.names.prototype, realm.global_object().temporal_duration_prototype(), 0);
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u8 attr = Attribute::Writable | Attribute::Configurable;
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define_native_function(realm, vm.names.from, from, 1, attr);
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define_native_function(realm, vm.names.compare, compare, 2, attr);
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define_direct_property(vm.names.length, Value(0), Attribute::Configurable);
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}
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// 7.1.1 Temporal.Duration ( [ years [ , months [ , weeks [ , days [ , hours [ , minutes [ , seconds [ , milliseconds [ , microseconds [ , nanoseconds ] ] ] ] ] ] ] ] ] ] ), https://tc39.es/proposal-temporal/#sec-temporal.duration
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ThrowCompletionOr<Value> DurationConstructor::call()
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{
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auto& vm = this->vm();
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// 1. If NewTarget is undefined, then
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// a. Throw a TypeError exception.
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return vm.throw_completion<TypeError>(ErrorType::ConstructorWithoutNew, "Temporal.Duration");
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}
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// 7.1.1 Temporal.Duration ( [ years [ , months [ , weeks [ , days [ , hours [ , minutes [ , seconds [ , milliseconds [ , microseconds [ , nanoseconds ] ] ] ] ] ] ] ] ] ] ), https://tc39.es/proposal-temporal/#sec-temporal.duration
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ThrowCompletionOr<Object*> DurationConstructor::construct(FunctionObject& new_target)
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{
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auto& vm = this->vm();
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// 2. Let y be ? ToIntegerWithoutRounding(years).
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auto y = TRY(to_integer_without_rounding(vm, vm.argument(0), ErrorType::TemporalInvalidDuration));
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// 3. Let mo be ? ToIntegerWithoutRounding(months).
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auto mo = TRY(to_integer_without_rounding(vm, vm.argument(1), ErrorType::TemporalInvalidDuration));
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// 4. Let w be ? ToIntegerWithoutRounding(weeks).
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auto w = TRY(to_integer_without_rounding(vm, vm.argument(2), ErrorType::TemporalInvalidDuration));
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// 5. Let d be ? ToIntegerWithoutRounding(days).
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auto d = TRY(to_integer_without_rounding(vm, vm.argument(3), ErrorType::TemporalInvalidDuration));
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// 6. Let h be ? ToIntegerWithoutRounding(hours).
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auto h = TRY(to_integer_without_rounding(vm, vm.argument(4), ErrorType::TemporalInvalidDuration));
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// 7. Let m be ? ToIntegerWithoutRounding(minutes).
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auto m = TRY(to_integer_without_rounding(vm, vm.argument(5), ErrorType::TemporalInvalidDuration));
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// 8. Let s be ? ToIntegerWithoutRounding(seconds).
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auto s = TRY(to_integer_without_rounding(vm, vm.argument(6), ErrorType::TemporalInvalidDuration));
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// 9. Let ms be ? ToIntegerWithoutRounding(milliseconds).
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auto ms = TRY(to_integer_without_rounding(vm, vm.argument(7), ErrorType::TemporalInvalidDuration));
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// 10. Let mis be ? ToIntegerWithoutRounding(microseconds).
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auto mis = TRY(to_integer_without_rounding(vm, vm.argument(8), ErrorType::TemporalInvalidDuration));
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// 11. Let ns be ? ToIntegerWithoutRounding(nanoseconds).
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auto ns = TRY(to_integer_without_rounding(vm, vm.argument(9), ErrorType::TemporalInvalidDuration));
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// 12. Return ? CreateTemporalDuration(y, mo, w, d, h, m, s, ms, mis, ns, NewTarget).
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return TRY(create_temporal_duration(vm, y, mo, w, d, h, m, s, ms, mis, ns, &new_target));
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}
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// 7.2.2 Temporal.Duration.from ( item ), https://tc39.es/proposal-temporal/#sec-temporal.duration.from
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JS_DEFINE_NATIVE_FUNCTION(DurationConstructor::from)
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{
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auto item = vm.argument(0);
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// 1. If Type(item) is Object and item has an [[InitializedTemporalDuration]] internal slot, then
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if (item.is_object() && is<Duration>(item.as_object())) {
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auto& duration = static_cast<Duration&>(item.as_object());
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// a. Return ! CreateTemporalDuration(item.[[Years]], item.[[Months]], item.[[Weeks]], item.[[Days]], item.[[Hours]], item.[[Minutes]], item.[[Seconds]], item.[[Milliseconds]], item.[[Microseconds]], item.[[Nanoseconds]]).
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return MUST(create_temporal_duration(vm, duration.years(), duration.months(), duration.weeks(), duration.days(), duration.hours(), duration.minutes(), duration.seconds(), duration.milliseconds(), duration.microseconds(), duration.nanoseconds()));
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}
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// 2. Return ? ToTemporalDuration(item).
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return TRY(to_temporal_duration(vm, item));
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}
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// 7.2.3 Temporal.Duration.compare ( one, two [ , options ] ), https://tc39.es/proposal-temporal/#sec-temporal.duration.compare
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JS_DEFINE_NATIVE_FUNCTION(DurationConstructor::compare)
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{
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// 1. Set one to ? ToTemporalDuration(one).
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auto* one = TRY(to_temporal_duration(vm, vm.argument(0)));
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// 2. Set two to ? ToTemporalDuration(two).
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auto* two = TRY(to_temporal_duration(vm, vm.argument(1)));
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// 3. Set options to ? GetOptionsObject(options).
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auto const* options = TRY(get_options_object(vm, vm.argument(2)));
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// 4. Let relativeTo be ? ToRelativeTemporalObject(options).
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auto relative_to = TRY(to_relative_temporal_object(vm, *options));
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// 5. Let shift1 be ? CalculateOffsetShift(relativeTo, one.[[Years]], one.[[Months]], one.[[Weeks]], one.[[Days]]).
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auto shift1 = TRY(calculate_offset_shift(vm, relative_to, one->years(), one->months(), one->weeks(), one->days()));
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// 6. Let shift2 be ? CalculateOffsetShift(relativeTo, two.[[Years]], two.[[Months]], two.[[Weeks]], two.[[Days]]).
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auto shift2 = TRY(calculate_offset_shift(vm, relative_to, two->years(), two->months(), two->weeks(), two->days()));
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double days1;
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double days2;
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// 7. If any of one.[[Years]], two.[[Years]], one.[[Months]], two.[[Months]], one.[[Weeks]], or two.[[Weeks]] are not 0, then
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if (one->years() != 0 || two->years() != 0 || one->months() != 0 || two->months() != 0 || one->weeks() != 0 || two->weeks() != 0) {
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// a. Let unbalanceResult1 be ? UnbalanceDurationRelative(one.[[Years]], one.[[Months]], one.[[Weeks]], one.[[Days]], "day", relativeTo).
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auto unbalance_result1 = TRY(unbalance_duration_relative(vm, one->years(), one->months(), one->weeks(), one->days(), "day", relative_to));
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// b. Let unbalanceResult2 be ? UnbalanceDurationRelative(two.[[Years]], two.[[Months]], two.[[Weeks]], two.[[Days]], "day", relativeTo).
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auto unbalance_result2 = TRY(unbalance_duration_relative(vm, two->years(), two->months(), two->weeks(), two->days(), "day", relative_to));
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// c. Let days1 be unbalanceResult1.[[Days]].
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days1 = unbalance_result1.days;
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// d. Let days2 be unbalanceResult2.[[Days]].
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days2 = unbalance_result2.days;
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}
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// 8. Else,
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else {
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// a. Let days1 be one.[[Days]].
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days1 = one->days();
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// b. Let days2 be two.[[Days]].
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days2 = two->days();
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}
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// 9. Let ns1 be ! TotalDurationNanoseconds(days1, one.[[Hours]], one.[[Minutes]], one.[[Seconds]], one.[[Milliseconds]], one.[[Microseconds]], one.[[Nanoseconds]], shift1).
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auto ns1 = total_duration_nanoseconds(days1, one->hours(), one->minutes(), one->seconds(), one->milliseconds(), one->microseconds(), Crypto::SignedBigInteger { one->nanoseconds() }, shift1);
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// 10. Let ns2 be ! TotalDurationNanoseconds(days2, two.[[Hours]], two.[[Minutes]], two.[[Seconds]], two.[[Milliseconds]], two.[[Microseconds]], two.[[Nanoseconds]], shift2).
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auto ns2 = total_duration_nanoseconds(days2, two->hours(), two->minutes(), two->seconds(), two->milliseconds(), two->microseconds(), Crypto::SignedBigInteger { two->nanoseconds() }, shift2);
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// 11. If ns1 > ns2, return 1𝔽.
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if (ns1 > ns2)
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return Value(1);
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// 12. If ns1 < ns2, return -1𝔽.
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if (ns1 < ns2)
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return Value(-1);
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// 13. Return +0𝔽.
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return Value(0);
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}
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}
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