/* * Copyright (c) 2022 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 "ecmascript/js_api/js_api_tree_map_iterator.h" #include "ecmascript/containers/containers_private.h" #include "ecmascript/global_env.h" #include "ecmascript/js_api/js_api_tree_map.h" #include "ecmascript/js_iterator.h" #include "ecmascript/tagged_tree.h" #include "ecmascript/tests/ecma_test_common.h" using namespace panda; using namespace panda::ecmascript; namespace panda::test { class JSAPITreeMapIteratorTest : public BaseTestWithScope { protected: JSHandle CreateTreeMap() { return EcmaContainerCommon::CreateTreeMap(thread); } JSHandle TestKeyValueCommon(std::vector> &keyValue, std::vector &mapKeyValue, uint32_t len, bool valueNext = false) { ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSHandle jsTreeMap = CreateTreeMap(); for (uint32_t i = 0; i < len; i++) { std::string ikey = mapKeyValue[0] + std::to_string(i); std::string ivalue = mapKeyValue[1] + std::to_string(valueNext ? i + 1U : i); keyValue[0].Update(factory->NewFromStdString(ikey).GetTaggedValue()); keyValue[1].Update(factory->NewFromStdString(ivalue).GetTaggedValue()); JSAPITreeMap::Set(thread, jsTreeMap, keyValue[0], keyValue[1]); } return jsTreeMap; } }; /** * @tc.name: SetIterationKind * @tc.desc: Call the "SetIterationKind" function, check whether the result returned through "GetIterationKind" * function from the JSAPITreeMapIterator is within expectations. * @tc.type: FUNC * @tc.require: */ HWTEST_F_L0(JSAPITreeMapIteratorTest, SetIterationKind) { ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSHandle jsTreeMap = CreateTreeMap(); EXPECT_TRUE(*jsTreeMap != nullptr); JSHandle treeMapIterator = factory->NewJSAPITreeMapIterator(jsTreeMap, IterationKind::KEY); EXPECT_EQ(treeMapIterator->GetIterationKind(), IterationKind::KEY); treeMapIterator->SetIterationKind(IterationKind::VALUE); EXPECT_EQ(treeMapIterator->GetIterationKind(), IterationKind::VALUE); treeMapIterator->SetIterationKind(IterationKind::KEY_AND_VALUE); EXPECT_EQ(treeMapIterator->GetIterationKind(), IterationKind::KEY_AND_VALUE); } /** * @tc.name: SetIteratedMap * @tc.desc: Call the "SetIteratedMap" function, check whether the result returned through "GetIteratedMap" * function from the JSAPITreeMapIterator is within expectations. * @tc.type: FUNC * @tc.require: */ HWTEST_F_L0(JSAPITreeMapIteratorTest, SetIteratedMap) { constexpr uint32_t DEFAULT_LENGTH = 8; ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSMutableHandle key(thread, JSTaggedValue::Undefined()); JSMutableHandle value(thread, JSTaggedValue::Undefined()); JSHandle jsTreeMap = CreateTreeMap(); EXPECT_TRUE(*jsTreeMap != nullptr); JSHandle treeMapIterator = factory->NewJSAPITreeMapIterator(jsTreeMap, IterationKind::VALUE); std::string mapKey("mapkey"); std::string mapValue("mapvalue"); for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { std::string ikey = mapKey + std::to_string(i); std::string ivalue = mapValue + std::to_string(i + 2U); key.Update(factory->NewFromStdString(ikey).GetTaggedValue()); value.Update(factory->NewFromStdString(ivalue).GetTaggedValue()); JSAPITreeMap::Set(thread, jsTreeMap, key, value); } treeMapIterator->SetIteratedMap(thread, jsTreeMap.GetTaggedValue()); JSHandle treeMapTo(thread, JSAPITreeMap::Cast(treeMapIterator->GetIteratedMap(thread).GetTaggedObject())); EXPECT_EQ(treeMapTo->GetSize(thread), static_cast(DEFAULT_LENGTH)); for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { std::string ikey = mapKey + std::to_string(i); std::string ivalue = mapValue + std::to_string(i + 2U); key.Update(factory->NewFromStdString(ikey).GetTaggedValue()); value.Update(factory->NewFromStdString(ivalue).GetTaggedValue()); JSTaggedValue result = JSAPITreeMap::Get(thread, treeMapTo, key); EXPECT_EQ(result, value.GetTaggedValue()); } } /** * @tc.name: SetNextIndex * @tc.desc: Call the "SetNextIndex" function, check whether the result returned through "GetNextIndex" * function from the JSAPITreeMapIterator is within expectations. * @tc.type: FUNC * @tc.require: */ HWTEST_F_L0(JSAPITreeMapIteratorTest, SetNextIndex) { constexpr uint32_t DEFAULT_LENGTH = 8; ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSHandle jsTreeMap = CreateTreeMap(); EXPECT_TRUE(*jsTreeMap != nullptr); JSHandle treeMapIterator = factory->NewJSAPITreeMapIterator(jsTreeMap, IterationKind::KEY_AND_VALUE); EXPECT_EQ(treeMapIterator->GetNextIndex(), 0U); for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { treeMapIterator->SetNextIndex(i); EXPECT_EQ(treeMapIterator->GetNextIndex(), i); } } /** * @tc.name: CreateTreeMapIterator * @tc.desc: Create TreeMap iterator, check whether the result returned through "IsJSAPITreeMapIterator" * function from the JSAPITreeMapIterator is within expectations. * @tc.type: FUNC * @tc.require: */ HWTEST_F_L0(JSAPITreeMapIteratorTest, CreateTreeMapIterator) { JSHandle jsTreeMap = CreateTreeMap(); EXPECT_TRUE(*jsTreeMap != nullptr); JSHandle treeMapVal(jsTreeMap); // Create Iterator with KEY JSHandle treeMapIterator = JSAPITreeMapIterator::CreateTreeMapIterator(thread, treeMapVal, IterationKind::KEY); EXPECT_TRUE(*treeMapIterator != nullptr); EXPECT_TRUE(treeMapIterator->IsJSAPITreeMapIterator()); // Create Iterator with VALUE treeMapIterator = JSAPITreeMapIterator::CreateTreeMapIterator(thread, treeMapVal, IterationKind::VALUE); EXPECT_TRUE(*treeMapIterator != nullptr); EXPECT_TRUE(treeMapIterator->IsJSAPITreeMapIterator()); // Create Iterator with KEY_AND_VALUE treeMapIterator = JSAPITreeMapIterator::CreateTreeMapIterator(thread, treeMapVal, IterationKind::KEY_AND_VALUE); EXPECT_TRUE(*treeMapIterator != nullptr); EXPECT_TRUE(treeMapIterator->IsJSAPITreeMapIterator()); } /** * @tc.name: Next * @tc.desc: Create an iterator of JSAPITreeMap,and then loop through the elements(key,value and keyAndvalue) of the * iterator to check whether the elements through "Next" function are consistent. * @tc.type: FUNC * @tc.require: */ HWTEST_F_L0(JSAPITreeMapIteratorTest, KEY_Next) { constexpr uint32_t DEFAULT_LENGTH = 8; JSMutableHandle key(thread, JSTaggedValue::Undefined()); JSMutableHandle value(thread, JSTaggedValue::Undefined()); std::vector> keyValue {key, value}; std::string mapKey("mapkey"); std::string mapValue("mapvalue"); std::vector mapKeyValue{mapKey, mapValue}; JSHandle jsTreeMap = TestKeyValueCommon(keyValue, mapKeyValue, DEFAULT_LENGTH); // Create Iterator with KEY ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSHandle treeMapKeyIterator = factory->NewJSAPITreeMapIterator(jsTreeMap, IterationKind::KEY); // traversal iterator JSHandle valueStr = thread->GlobalConstants()->GetHandledValueString(); for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { auto ecmaRuntimeCallInfo = TestHelper::CreateEcmaRuntimeCallInfo(thread, JSTaggedValue::Undefined(), 4); ecmaRuntimeCallInfo->SetFunction(JSTaggedValue::Undefined()); ecmaRuntimeCallInfo->SetThis(treeMapKeyIterator.GetTaggedValue()); [[maybe_unused]] auto prev = TestHelper::SetupFrame(thread, ecmaRuntimeCallInfo); JSTaggedValue result = JSAPITreeMapIterator::Next(ecmaRuntimeCallInfo); TestHelper::TearDownFrame(thread, prev); JSHandle resultObj(thread, result); std::string resultKey = mapKey + std::to_string(i); keyValue[0].Update(factory->NewFromStdString(resultKey).GetTaggedValue()); EXPECT_EQ(JSTaggedValue::SameValue(thread, JSObject::GetProperty(thread, resultObj, valueStr).GetValue(), keyValue[0]), true); EXPECT_EQ(treeMapKeyIterator->GetNextIndex(), (i + 1U)); } } HWTEST_F_L0(JSAPITreeMapIteratorTest, VALUE_Next) { constexpr uint32_t DEFAULT_LENGTH = 8; std::string mapKey("mapkey"); std::string mapValue("mapvalue"); std::vector mapKeyValue{mapKey, mapValue}; JSMutableHandle key(thread, JSTaggedValue::Undefined()); JSMutableHandle value(thread, JSTaggedValue::Undefined()); std::vector> keyValue {key, value}; JSHandle jsTreeMap = TestKeyValueCommon(keyValue, mapKeyValue, DEFAULT_LENGTH, true); // Create Iterator with VALUE ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSHandle treeMapKeyIterator = factory->NewJSAPITreeMapIterator(jsTreeMap, IterationKind::VALUE); // traversal iterator JSHandle valueStr = thread->GlobalConstants()->GetHandledValueString(); for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { auto ecmaRuntimeCallInfo = TestHelper::CreateEcmaRuntimeCallInfo(thread, JSTaggedValue::Undefined(), 4); ecmaRuntimeCallInfo->SetFunction(JSTaggedValue::Undefined()); ecmaRuntimeCallInfo->SetThis(treeMapKeyIterator.GetTaggedValue()); [[maybe_unused]] auto prev = TestHelper::SetupFrame(thread, ecmaRuntimeCallInfo); JSTaggedValue result = JSAPITreeMapIterator::Next(ecmaRuntimeCallInfo); TestHelper::TearDownFrame(thread, prev); JSHandle resultObj(thread, result); std::string resultKey = mapValue + std::to_string(i + 1U); keyValue[1].Update(factory->NewFromStdString(resultKey).GetTaggedValue()); // 1 : value index EXPECT_EQ(JSTaggedValue::SameValue(thread, JSObject::GetProperty(thread, resultObj, valueStr).GetValue(), keyValue[1]), true); // 1 : value index EXPECT_EQ(treeMapKeyIterator->GetNextIndex(), (i + 1U)); } } HWTEST_F_L0(JSAPITreeMapIteratorTest, KEY_AND_VALUE_Next) { constexpr uint32_t DEFAULT_LENGTH = 8; ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSMutableHandle key(thread, JSTaggedValue::Undefined()); JSMutableHandle value(thread, JSTaggedValue::Undefined()); JSHandle valueStr = thread->GlobalConstants()->GetHandledValueString(); JSHandle jsTreeMap = CreateTreeMap(); std::string mapKey("mapkey"); std::string mapValue("mapvalue"); for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { std::string ikey = mapKey + std::to_string(i + 1U); std::string ivalue = mapValue + std::to_string(i + 2U); key.Update(factory->NewFromStdString(ikey).GetTaggedValue()); value.Update(factory->NewFromStdString(ivalue).GetTaggedValue()); JSAPITreeMap::Set(thread, jsTreeMap, key, value); } // Create Iterator with KEY_AND_VALUE JSHandle treeMapKeyIterator = factory->NewJSAPITreeMapIterator(jsTreeMap, IterationKind::KEY_AND_VALUE); // traversal iterator for (uint32_t i = 0; i < DEFAULT_LENGTH; i++) { auto ecmaRuntimeCallInfo = TestHelper::CreateEcmaRuntimeCallInfo(thread, JSTaggedValue::Undefined(), 4); ecmaRuntimeCallInfo->SetFunction(JSTaggedValue::Undefined()); ecmaRuntimeCallInfo->SetThis(treeMapKeyIterator.GetTaggedValue()); [[maybe_unused]] auto prev = TestHelper::SetupFrame(thread, ecmaRuntimeCallInfo); JSTaggedValue result = JSAPITreeMapIterator::Next(ecmaRuntimeCallInfo); TestHelper::TearDownFrame(thread, prev); JSHandle resultObj(thread, result); std::string resultKeyAndValue = mapKey + std::to_string(i + 1U); value.Update(factory->NewFromStdString(resultKeyAndValue).GetTaggedValue()); JSHandle keyValueArr(JSObject::GetProperty(thread, resultObj, valueStr).GetValue()); for (int index = 0; index < 2; index++) { JSHandle indexValue(thread, JSTaggedValue(index)); EXPECT_EQ(JSTaggedValue::SameValue(thread, JSObject::GetProperty(thread, keyValueArr, indexValue).GetValue(), value), true); resultKeyAndValue = mapValue + std::to_string(i + 2U); value.Update(factory->NewFromStdString(resultKeyAndValue).GetTaggedValue()); } EXPECT_EQ(treeMapKeyIterator->GetNextIndex(), (i + 1U)); } } /** * @tc.name: Next and CreateTreeMapIterator * @tc.desc: test special return of Next and CreateTreeMapIterator, * including throw exception and return undefined * @tc.type: FUNC * @tc.require: */ HWTEST_F_L0(JSAPITreeMapIteratorTest, SpecailReturnOfNextCreateTreeMapIterator) { JSHandle jsTreeMap = CreateTreeMap(); ObjectFactory *factory = thread->GetEcmaVM()->GetFactory(); JSHandle treeMapIterator = factory->NewJSAPITreeMapIterator( jsTreeMap, IterationKind::KEY_AND_VALUE); treeMapIterator->SetIteratedMap(thread, JSTaggedValue::Undefined()); // test Next exception { auto ecmaRuntimeCallInfo = TestHelper::CreateEcmaRuntimeCallInfo(thread, JSTaggedValue::Undefined(), 4); ecmaRuntimeCallInfo->SetFunction(JSTaggedValue::Undefined()); ecmaRuntimeCallInfo->SetThis(JSTaggedValue::Undefined()); [[maybe_unused]] auto prev = TestHelper::SetupFrame(thread, ecmaRuntimeCallInfo); JSTaggedValue result = JSAPITreeMapIterator::Next(ecmaRuntimeCallInfo); TestHelper::TearDownFrame(thread, prev); EXPECT_EQ(result, JSTaggedValue::Exception()); EXPECT_EXCEPTION(); } // test Next return undefined { auto ecmaRuntimeCallInfo = TestHelper::CreateEcmaRuntimeCallInfo(thread, JSTaggedValue::Undefined(), 4); ecmaRuntimeCallInfo->SetFunction(JSTaggedValue::Undefined()); ecmaRuntimeCallInfo->SetThis(treeMapIterator.GetTaggedValue()); [[maybe_unused]] auto prev = TestHelper::SetupFrame(thread, ecmaRuntimeCallInfo); JSTaggedValue result = JSAPITreeMapIterator::Next(ecmaRuntimeCallInfo); TestHelper::TearDownFrame(thread, prev); EXPECT_EQ(result, thread->GetEcmaVM()->GetGlobalEnv()->GetUndefinedIteratorResult().GetTaggedValue()); } // test CreateTreeMapIterator exception { JSHandle undefined(thread, JSTaggedValue::Undefined()); JSHandle result = JSAPITreeMapIterator::CreateTreeMapIterator(thread, undefined, IterationKind::KEY_AND_VALUE); EXPECT_EQ(result.GetTaggedValue(), JSTaggedValue::Exception()); EXPECT_EXCEPTION(); } } } // namespace panda::ecmascript