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arkcompiler_ets_runtime/ecmascript/builtins/builtins_date_time_format.cpp
xiongluo 9096c56a58 Fix the mem leak from js method 
Signed-off-by: xiongluo <xiongluo@huawei.com>
2022-05-25 10:53:36 +08:00

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/*
* Copyright (c) 2021 Huawei Device Co., Ltd.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "builtins_date_time_format.h"
#include "ecmascript/ecma_vm.h"
#include "ecmascript/global_env.h"
#include "ecmascript/js_date.h"
#include "ecmascript/js_date_time_format.h"
#include "ecmascript/js_intl.h"
#include "ecmascript/mem/barriers-inl.h"
namespace panda::ecmascript::builtins {
// 13.2.1 Intl.DateTimeFormat ( [ locales [ , options ] ] )
JSTaggedValue BuiltinsDateTimeFormat::DateTimeFormatConstructor(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
EcmaVM *ecmaVm = thread->GetEcmaVM();
JSHandle<GlobalEnv> env = ecmaVm->GetGlobalEnv();
ObjectFactory *factory = ecmaVm->GetFactory();
// 1. If NewTarget is undefined, let newTarget be the active function object, else let newTarget be NewTarget.
JSHandle<JSTaggedValue> constructor = GetConstructor(argv);
JSHandle<JSTaggedValue> newTarget = GetNewTarget(argv);
if (newTarget->IsUndefined()) {
newTarget = constructor;
}
// 2. Let dateTimeFormat be ? OrdinaryCreateFromConstructor(newTarget, "%DateTimeFormatPrototype%", «
// [[InitializedDateTimeFormat]], [[Locale]], [[Calendar]], [[NumberingSystem]], [[TimeZone]], [[Weekday]],
// [[Era]], [[Year]], [[Month]], [[Day]], [[Hour]], [[Minute]], [[Second]], [[TimeZoneName]], [[HourCycle]],
// [[Pattern]], [[BoundFormat]] »).
JSHandle<JSDateTimeFormat> dateTimeFormat = JSHandle<JSDateTimeFormat>::Cast(
factory->NewJSObjectByConstructor(JSHandle<JSFunction>(constructor), newTarget));
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
// 3. Perform ? InitializeDateTimeFormat(dateTimeFormat, locales, options).
JSHandle<JSTaggedValue> locales = GetCallArg(argv, 0);
JSHandle<JSTaggedValue> options = GetCallArg(argv, 1);
JSHandle<JSDateTimeFormat> dtf =
JSDateTimeFormat::InitializeDateTimeFormat(thread, dateTimeFormat, locales, options);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
// 4. Let this be the this value.
JSHandle<JSTaggedValue> thisValue = GetThis(argv);
// 5. If NewTarget is undefined and Type(this) is Object and ? InstanceofOperator(this, %DateTimeFormat%) is true,
// then
// a. Perform ? DefinePropertyOrThrow(this, %Intl%.[[FallbackSymbol]], PropertyDescriptor{ [[Value]]:
// dateTimeFormat, [[Writable]]: false, [[Enumerable]]: false, [[Configurable]]: false }).
// b. Return this.
bool isInstanceOf = JSObject::InstanceOf(thread, thisValue, env->GetDateTimeFormatFunction());
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
if (newTarget->IsUndefined() && thisValue->IsJSObject() && isInstanceOf) {
PropertyDescriptor descriptor(thread, JSHandle<JSTaggedValue>::Cast(dtf), false, false, false);
JSHandle<JSTaggedValue> key(thread, JSHandle<JSIntl>::Cast(env->GetIntlFunction())->GetFallbackSymbol());
JSTaggedValue::DefinePropertyOrThrow(thread, thisValue, key, descriptor);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return thisValue.GetTaggedValue();
}
// 6. Return dateTimeFormat.
return dtf.GetTaggedValue();
}
// 13.3.2 Intl.DateTimeFormat.supportedLocalesOf ( locales [ , options ] )
JSTaggedValue BuiltinsDateTimeFormat::SupportedLocalesOf(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
// 1. Let availableLocales be %DateTimeFormat%.[[AvailableLocales]].
JSHandle<TaggedArray> availableLocales = JSDateTimeFormat::GainAvailableLocales(thread);
// 2. Let requestedLocales be ? CanonicalizeLocaleList(locales).
JSHandle<JSTaggedValue> locales = GetCallArg(argv, 0);
JSHandle<TaggedArray> requestedLocales = JSLocale::CanonicalizeLocaleList(thread, locales);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
// 3. Return ? SupportedLocales(availableLocales, requestedLocales, options).
JSHandle<JSTaggedValue> options = GetCallArg(argv, 1);
JSHandle<JSArray> result = JSLocale::SupportedLocales(thread, availableLocales, requestedLocales, options);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return result.GetTaggedValue();
}
// 13.4.3 get Intl.DateTimeFormat.prototype.format
JSTaggedValue BuiltinsDateTimeFormat::Format(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
// 1. Let dtf be this value.
JSHandle<JSTaggedValue> thisValue = GetThis(argv);
// 2. If Type(dtf) is not Object, throw a TypeError exception.
if (!thisValue->IsJSObject()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "dtf is not object", JSTaggedValue::Exception());
}
// 3. Let dtf be ? UnwrapDateTimeFormat(dtf).
JSHandle<JSTaggedValue> dtfValue = JSDateTimeFormat::UnwrapDateTimeFormat(thread, thisValue);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
if (dtfValue->IsUndefined()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "dtfValue is not object", JSTaggedValue::Exception());
}
// 4. If dtf.[[BoundFormat]] is undefined, then
// a. Let F be a new built-in function object as defined in DateTime Format Functions (13.1.5).
// b. Set F.[[DateTimeFormat]] to dtf.
// c. Set dtf.[[BoundFormat]] to F.
// 5. Return dtf.[[BoundFormat]].
JSHandle<JSDateTimeFormat> dtf = JSHandle<JSDateTimeFormat>::Cast(dtfValue);
JSHandle<JSTaggedValue> boundFormat(thread, dtf->GetBoundFormat());
if (boundFormat->IsUndefined()) {
ObjectFactory *factory = thread->GetEcmaVM()->GetFactory();
JSHandle<JSIntlBoundFunction> intlBoundFunc = factory->NewJSIntlBoundFunction(
MethodIndex::BUILTINS_DATE_TIME_FORMAT_ANONYMOUS_DATE_TIME_FORMAT);
intlBoundFunc->SetDateTimeFormat(thread, dtf);
dtf->SetBoundFormat(thread, intlBoundFunc);
}
return dtf->GetBoundFormat();
}
// 13.1.5 DateTime Format Functions
JSTaggedValue BuiltinsDateTimeFormat::AnonymousDateTimeFormat(EcmaRuntimeCallInfo *argv)
{
// A DateTime format function is an anonymous built-in function that has a [[DateTimeFormat]] internal slot.
// When a DateTime format function F is called with optional argument date, the following steps are taken:
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
JSHandle<JSIntlBoundFunction> intlBoundFunc = JSHandle<JSIntlBoundFunction>::Cast(GetConstructor(argv));
// 1. Let dtf be F.[[DateTimeFormat]].
JSHandle<JSTaggedValue> dtf(thread, intlBoundFunc->GetDateTimeFormat());
// 2. Assert: Type(dtf) is Object and dtf has an [[InitializedDateTimeFormat]] internal slot.
ASSERT_PRINT(dtf->IsJSObject() && dtf->IsJSDateTimeFormat(), "dtf is not object or JSDateTimeFormat");
// 3. If date is not provided or is undefined, then
// a. Let x be Call(%Date_now%, undefined).
// 4. Else,
// a. Let x be ? ToNumber(date).
JSHandle<JSTaggedValue> date = GetCallArg(argv, 0);
double x = 0.0;
if (date->IsUndefined()) {
x = JSDate::Now().GetNumber();
} else {
JSTaggedNumber xNumber = JSTaggedValue::ToNumber(thread, date);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
x = xNumber.GetNumber();
}
// 5. Return ? FormatDateTime(dtf, x).
JSHandle<EcmaString> result = JSDateTimeFormat::FormatDateTime(thread, JSHandle<JSDateTimeFormat>::Cast(dtf), x);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return result.GetTaggedValue();
}
// 13.4.4 Intl.DateTimeFormat.prototype.formatToParts ( date )
JSTaggedValue BuiltinsDateTimeFormat::FormatToParts(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
// 1. Let dtf be this value.
JSHandle<JSTaggedValue> dtf = GetThis(argv);
// 2. Perform ? RequireInternalSlot(dtf, [[InitializedDateTimeFormat]]).
if (!dtf->IsJSDateTimeFormat()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "is not JSDateTimeFormat", JSTaggedValue::Exception());
}
// 3. If date is undefined, then
// a. Let x be Call(%Date_now%, undefined).
// 4. Else,
// a. Let x be ? ToNumber(date).
JSHandle<JSTaggedValue> date = GetCallArg(argv, 0);
double x = 0.0;
if (date->IsUndefined()) {
x = JSDate::Now().GetNumber();
} else {
JSTaggedNumber xNumber = JSTaggedValue::ToNumber(thread, date);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
x = xNumber.GetNumber();
}
double xValue = JSDate::TimeClip(x);
if (std::isnan(xValue)) {
THROW_RANGE_ERROR_AND_RETURN(thread, "Invalid time value", JSTaggedValue::Exception());
}
// 5. Return ? FormatDateTimeToParts(dtf, x).
JSHandle<JSArray> result =
JSDateTimeFormat::FormatDateTimeToParts(thread, JSHandle<JSDateTimeFormat>::Cast(dtf), xValue);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return result.GetTaggedValue();
}
// 13.4.5 Intl.DateTimeFormat.prototype.resolvedOptions ()
JSTaggedValue BuiltinsDateTimeFormat::ResolvedOptions(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
// 1. Let dtf be this value.
JSHandle<JSTaggedValue> thisValue = GetThis(argv);
// 2. If Type(dtf) is not Object, throw a TypeError exception.
if (!thisValue->IsJSObject()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "this is not object", JSTaggedValue::Exception());
}
// 3. Let dtf be ? UnwrapDateTimeFormat(dtf).
thisValue = JSDateTimeFormat::UnwrapDateTimeFormat(thread, thisValue);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
auto ecmaVm = thread->GetEcmaVM();
JSHandle<GlobalEnv> env = ecmaVm->GetGlobalEnv();
ObjectFactory *factory = ecmaVm->GetFactory();
JSHandle<JSTaggedValue> ctor = env->GetObjectFunction();
JSHandle<JSObject> options(factory->NewJSObjectByConstructor(JSHandle<JSFunction>(ctor), ctor));
JSDateTimeFormat::ResolvedOptions(thread, JSHandle<JSDateTimeFormat>::Cast(thisValue), options);
// 6. Return options.
return options.GetTaggedValue();
}
// Intl.DateTimeFormat.prototype.formatRange
JSTaggedValue BuiltinsDateTimeFormat::FormatRange(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
// 1. Let dtf be this value.
JSHandle<JSTaggedValue> thisValue = GetThis(argv);
// 2. If Type(dtf) is not Object, throw a TypeError exception.
if (!thisValue->IsJSObject()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "this is not object", JSTaggedValue::Exception());
}
// 3. If dtf does not have an [[InitializedDateTimeFormat]] internal slot, throw a TypeError exception.
if (!thisValue->IsJSDateTimeFormat()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "this is not JSDateTimeFormat", JSTaggedValue::Exception());
}
// 4. If startDate is undefined or endDate is undefined, throw a TypeError exception.
JSHandle<JSTaggedValue> startDate = GetCallArg(argv, 0);
JSHandle<JSTaggedValue> endDate = GetCallArg(argv, 1);
if (startDate->IsUndefined() || endDate->IsUndefined()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "startDate or endDate is undefined", JSTaggedValue::Exception());
}
// 5. Let x be ? ToNumber(startDate).
JSTaggedNumber valueX = JSTaggedValue::ToNumber(thread, startDate);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
double x = valueX.GetNumber();
// 6. Let y be ? ToNumber(endDate).
JSTaggedNumber valueY = JSTaggedValue::ToNumber(thread, endDate);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
double y = valueY.GetNumber();
// 7. If x is greater than y, throw a RangeError exception.
if (x > y) {
THROW_RANGE_ERROR_AND_RETURN(thread, "x is greater than y", JSTaggedValue::Exception());
}
// 8. Return ? FormatDateTimeRange(dtf, x, y)
JSHandle<JSDateTimeFormat> dtf = JSHandle<JSDateTimeFormat>::Cast(thisValue);
JSHandle<EcmaString> result = JSDateTimeFormat::NormDateTimeRange(thread, dtf, x, y);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return result.GetTaggedValue();
}
// Intl.DateTimeFormat.prototype.formatRangeToParts
JSTaggedValue BuiltinsDateTimeFormat::FormatRangeToParts(EcmaRuntimeCallInfo *argv)
{
JSThread *thread = argv->GetThread();
[[maybe_unused]] EcmaHandleScope scope(thread);
// 1. Let dtf be this value.
JSHandle<JSTaggedValue> thisValue = GetThis(argv);
// 2. If Type(dtf) is not Object, throw a TypeError exception.
if (!thisValue->IsJSObject()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "this is not object", JSTaggedValue::Exception());
}
// 3. If dtf does not have an [[InitializedDateTimeFormat]] internal slot,
// throw a TypeError exception.
if (!thisValue->IsJSDateTimeFormat()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "this is not JSDateTimeFormat", JSTaggedValue::Exception());
}
// 4. If startDate is undefined or endDate is undefined, throw a TypeError exception.
JSHandle<JSTaggedValue> startDate = GetCallArg(argv, 0);
JSHandle<JSTaggedValue> endDate = GetCallArg(argv, 1);
if (startDate->IsUndefined() || endDate->IsUndefined()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "startDate or endDate is undefined", JSTaggedValue::Exception());
}
// 5. Let x be ? ToNumber(startDate).
JSTaggedNumber valueX = JSTaggedValue::ToNumber(thread, startDate);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
double x = valueX.GetNumber();
// 6. Let y be ? ToNumber(endDate).
JSTaggedNumber valueY = JSTaggedValue::ToNumber(thread, endDate);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
double y = valueY.GetNumber();
// 7. If x is greater than y, throw a RangeError exception.
if (x > y) {
THROW_RANGE_ERROR_AND_RETURN(thread, "x is greater than y", JSTaggedValue::Exception());
}
// 8. Return ? FormatDateTimeRangeToParts(dtf, x, y)
JSHandle<JSDateTimeFormat> dtf = JSHandle<JSDateTimeFormat>::Cast(thisValue);
JSHandle<JSArray> result = JSDateTimeFormat::NormDateTimeRangeToParts(thread, dtf, x, y);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return result.GetTaggedValue();
}
} // namespace panda::ecmascript::builtins
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