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arkcompiler_ets_runtime/ecmascript/interpreter/interpreter-inl.cpp
hecunmao dcb9e55ec8 1**"test" Get Error Result 
Issue:https://gitee.com/openharmony/arkcompiler_ets_runtime/issues/IB212T

Signed-off-by: hecunmao <hecunmao@huawei.com>
Change-Id: I6b5d5a39e48cbdf6ce9b34bbdc45bf9d00f7309c
2024-11-04 22:20:03 +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 "ecmascript/ic/ic_runtime_stub-inl.h"
#include "ecmascript/interpreter/interpreter_assembly.h"
#include "ecmascript/interpreter/slow_runtime_stub.h"
#include "ecmascript/js_async_generator_object.h"
#include "ecmascript/js_generator_object.h"
#include "ecmascript/js_tagged_value.h"
#include "ecmascript/jit/jit_task.h"
#include "ecmascript/mem/concurrent_marker.h"
#include "ecmascript/module/js_module_manager.h"
#include "ecmascript/module/js_module_source_text.h"
#include "ecmascript/runtime_call_id.h"
#include "ecmascript/stubs/runtime_stubs.h"
#include "ecmascript/sendable_env.h"
#include "ecmascript/template_string.h"
#include "ecmascript/checkpoint/thread_state_transition.h"
#if defined(ECMASCRIPT_SUPPORT_CPUPROFILER)
#include "ecmascript/dfx/cpu_profiler/cpu_profiler.h"
#endif
namespace panda::ecmascript {
using CommonStubCSigns = kungfu::CommonStubCSigns;
#if defined(__clang__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wvoid-ptr-dereference"
#pragma clang diagnostic ignored "-Wgnu-label-as-value"
#elif defined(__GNUC__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wpedantic"
#endif
#if ECMASCRIPT_ENABLE_INTERPRETER_LOG
#define HANDLE_OPCODE(opcode) \
HANDLE_##opcode: \
{ \
RuntimeStubs::DebugPrintInstruction(thread->GetGlueAddr(), pc); \
}
#else
#define HANDLE_OPCODE(opcode) \
HANDLE_##opcode:
#endif
#define NOPRINT_HANDLE_OPCODE(opcode) \
HANDLE_##opcode:
#define LOG_INST() false && LOG_INTERPRETER(DEBUG)
#define DEBUG_HANDLE_OPCODE(opcode) \
DEBUG_HANDLE_##opcode:
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define ADVANCE_PC(offset) \
pc += (offset); // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic, cppcoreguidelines-macro-usage)
#define GOTO_NEXT() // NOLINT(clang-diagnostic-gnu-label-as-value, cppcoreguidelines-macro-usage)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DISPATCH(curOpcode) \
do { \
ADVANCE_PC(BytecodeInstruction::Size(EcmaOpcode::curOpcode)) \
opcode = READ_INST_OP(); goto *dispatchTable[opcode]; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DISPATCH_OFFSET(offset) \
do { \
ADVANCE_PC(offset) \
opcode = READ_INST_OP(); goto *dispatchTable[opcode]; \
} while (false)
#define DISPATCH_THROW() \
do { \
opcode = *(pc + 1); \
goto *throwDispatchTable[opcode]; \
} while (false)
#define DISPATCH_WIDE() \
do { \
opcode = *(pc + 1); \
goto *wideDispatchTable[opcode]; \
} while (false)
#define DISPATCH_DEPRECATED() \
do { \
opcode = *(pc + 1); \
goto *deprecatedDispatchTable[opcode]; \
} while (false)
#define DISPATCH_CALLRUNTIME() \
do { \
opcode = *(pc + 1); \
goto *callRuntimeDispatchTable[opcode]; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define GET_FRAME(CurrentSp) \
(reinterpret_cast<InterpretedFrame *>(CurrentSp) - 1) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define GET_ENTRY_FRAME(sp) \
(reinterpret_cast<InterpretedEntryFrame *>(sp) - 1) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
#define GET_BUILTIN_FRAME(sp) \
(reinterpret_cast<InterpretedBuiltinFrame *>(sp) - 1) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define SAVE_PC() (GET_FRAME(sp)->pc = pc) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define SAVE_ACC() (GET_FRAME(sp)->acc = acc) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define RESTORE_ACC() (acc = GET_FRAME(sp)->acc) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define GET_VREG(idx) (sp[idx]) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define GET_VREG_VALUE(idx) (JSTaggedValue(sp[idx])) // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define SET_VREG(idx, val) (sp[idx] = (val)); // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
#define GET_ACC() (acc) // NOLINT(cppcoreguidelines-macro-usage)
#define SET_ACC(val) (acc = val) // NOLINT(cppcoreguidelines-macro-usage)
#define GET_METHOD_FROM_CACHE(index) \
ConstantPool::GetMethodFromCache(thread, constpool, index)
#define GET_STR_FROM_CACHE(index) \
ConstantPool::GetStringFromCache(thread, constpool, index)
#define GET_LITERA_FROM_CACHE(index, type, module) \
ConstantPool::GetLiteralFromCache<type>(thread, constpool, index, module)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define INTERPRETER_GOTO_EXCEPTION_HANDLER() \
do { \
SAVE_PC(); \
goto *dispatchTable[EXCEPTION_OPCODE]; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define INTERPRETER_HANDLE_RETURN() \
do { \
size_t jumpSize = GetJumpSizeAfterCall(pc); \
DISPATCH_OFFSET(jumpSize); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CHECK_SWITCH_TO_DEBUGGER_TABLE() \
if (ecmaVm->GetJsDebuggerManager()->IsDebugMode()) { \
dispatchTable = debugDispatchTable.data(); \
}
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define REAL_GOTO_DISPATCH_OPCODE(opcode) \
do { \
ASSERT(static_cast<uint16_t>(opcode) <= 0xff); \
goto *instDispatchTable[static_cast<uint8_t>(opcode)]; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define REAL_GOTO_EXCEPTION_HANDLER() \
do { \
SAVE_PC(); \
goto *instDispatchTable[EXCEPTION_OPCODE]; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define INTERPRETER_RETURN_IF_ABRUPT(result) \
do { \
if ((result).IsException()) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(_thread) \
do { \
if (UNLIKELY((_thread)->HasPendingException())) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
} while (false)
#define JUMP_IF_ENTRYFRAME_PENDING() \
do { \
if (thread->IsEntryFrameDroppedPending()) { \
thread->ResetEntryFrameDroppedState(); \
DROPFRAME_JUMP(); \
} \
} while (false)
#define DROPFRAME_JUMP() \
do { \
thread->ResetFrameDroppedState(); \
sp = const_cast<JSTaggedType *>(thread->GetCurrentSPFrame()); \
InterpretedFrame *state = GET_FRAME(sp); \
pc = state->pc; \
RESTORE_ACC(); \
DISPATCH_OFFSET(0); \
} while (false)
#define RESET_AND_JUMP_IF_DROPFRAME() \
do { \
if (thread->IsFrameDropped()) { \
if (thread->IsEntryFrameDroppedTrue()) { \
return; \
} \
DROPFRAME_JUMP(); \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define NOTIFY_DEBUGGER_EVENT() \
do { \
JUMP_IF_ENTRYFRAME_PENDING(); \
SAVE_ACC(); \
SAVE_PC(); \
NotifyBytecodePcChanged(thread); \
RESET_AND_JUMP_IF_DROPFRAME(); \
RESTORE_ACC(); \
} while (false)
/*
* reasons of set acc with hole:
* 1. acc will become illegal when new error
* 2. debugger logic will save acc, so illegal acc will set to frame
* 3. when debugger trigger gc, will mark an invalid acc and crash
* 4. acc will set to exception later, so it can set to hole template
*/
#define NOTIFY_DEBUGGER_EXCEPTION_EVENT() \
do { \
SET_ACC(JSTaggedValue::Hole()); \
NOTIFY_DEBUGGER_EVENT(); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_INITIALIZE() \
do { \
SAVE_PC(); \
thread->CheckSafepoint(); \
funcTagged = sp[startReg]; \
JSTaggedValue funcValue(funcTagged); \
if (!funcValue.IsCallable()) { \
{ \
[[maybe_unused]] EcmaHandleScope handleScope(thread); \
JSHandle<JSObject> error = factory->GetJSError( \
ErrorType::TYPE_ERROR, "is not callable", StackCheck::NO); \
thread->SetException(error.GetTaggedValue()); \
} \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
funcObject = ECMAObject::Cast(funcValue.GetTaggedObject()); \
methodHandle.Update(JSTaggedValue(funcObject->GetCallTarget())); \
newSp = sp - InterpretedFrame::NumOfMembers(); \
} while (false)
#define CALL_INITIALIZE() \
do { \
SAVE_PC(); \
SAVE_ACC(); \
thread->CheckSafepoint(); \
RESTORE_ACC(); \
funcTagged = acc.GetRawData(); \
JSTaggedValue funcValue = acc; \
if (!funcValue.IsCallable()) { \
{ \
[[maybe_unused]] EcmaHandleScope handleScope(thread); \
JSHandle<JSObject> error = factory->GetJSError( \
ErrorType::TYPE_ERROR, "is not callable", StackCheck::NO); \
thread->SetException(error.GetTaggedValue()); \
} \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
funcObject = ECMAObject::Cast(funcValue.GetTaggedObject()); \
methodHandle.Update(JSTaggedValue(funcObject->GetCallTarget())); \
newSp = sp - InterpretedFrame::NumOfMembers(); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_UNDEFINED(n) \
do { \
for (int i = 0; i < (n); i++) { \
*(--newSp) = JSTaggedValue::VALUE_UNDEFINED; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_0() \
do { \
/* do nothing when 0 arg */ \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_0() CALL_PUSH_ARGS_0()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_1() \
do { \
*(--newSp) = sp[a0]; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_1() CALL_PUSH_ARGS_1()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_2() \
do { \
*(--newSp) = sp[a1]; \
CALL_PUSH_ARGS_1(); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_2() CALL_PUSH_ARGS_2()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_3() \
do { \
*(--newSp) = sp[a2]; \
CALL_PUSH_ARGS_2(); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_3() CALL_PUSH_ARGS_3()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_RANGE() \
do { \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - actualNumArgs))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
for (int32_t i = actualNumArgs - 1; i >= 0; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_RANGE() \
do { \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - actualNumArgs))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
for (int32_t i = actualNumArgs; i > 0; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_THISRANGE() \
do { \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - actualNumArgs))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
/* 1: skip this */ \
for (int32_t i = actualNumArgs; i > 0; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_THISRANGE() \
do { \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - actualNumArgs))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
/* 1: skip this */ \
for (int32_t i = actualNumArgs + 1; i > 1; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_0_NO_EXTRA() \
do { \
/* do nothing when 0 arg */ \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_0_NO_EXTRA() CALL_PUSH_ARGS_0_NO_EXTRA()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_1_NO_EXTRA() \
do { \
if (declaredNumArgs >= ActualNumArgsOfCall::CALLARG1) { \
*(--newSp) = sp[a0]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_1_NO_EXTRA() CALL_PUSH_ARGS_1_NO_EXTRA()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_2_NO_EXTRA() \
do { \
if (declaredNumArgs >= ActualNumArgsOfCall::CALLARGS2) { \
*(--newSp) = sp[a1]; \
} \
DEPRECATED_CALL_PUSH_ARGS_1_NO_EXTRA(); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_2_NO_EXTRA() CALL_PUSH_ARGS_2_NO_EXTRA()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_3_NO_EXTRA() \
do { \
if (declaredNumArgs >= ActualNumArgsOfCall::CALLARGS3) { \
*(--newSp) = sp[a2]; \
} \
DEPRECATED_CALL_PUSH_ARGS_2_NO_EXTRA(); \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_3_NO_EXTRA() CALL_PUSH_ARGS_3_NO_EXTRA()
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_RANGE_NO_EXTRA() \
do { \
int num = std::min(actualNumArgs, declaredNumArgs); \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - num))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
for (int32_t i = num - 1; i >= 0; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_RANGE_NO_EXTRA() \
do { \
int num = std::min(actualNumArgs, declaredNumArgs); \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - num))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
for (int32_t i = num; i > 0; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS_THISRANGE_NO_EXTRA() \
do { \
int num = std::min(actualNumArgs, declaredNumArgs); \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - num))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
/* 1: skip this */ \
for (int32_t i = num; i > 0; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS_THISRANGE_NO_EXTRA() \
do { \
int num = std::min(actualNumArgs, declaredNumArgs); \
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - num))) { \
INTERPRETER_GOTO_EXCEPTION_HANDLER(); \
} \
/* 1: skip this */ \
for (int32_t i = num + 1; i > 1; i--) { \
*(--newSp) = sp[startReg + i]; \
} \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define CALL_PUSH_ARGS(ARG_TYPE) \
do { \
if (methodHandle->IsNativeWithCallField()) { \
/* native, just push all args directly */ \
CALL_PUSH_ARGS_##ARG_TYPE(); \
goto setVregsAndFrameNative; \
} \
int32_t declaredNumArgs = \
static_cast<int32_t>(methodHandle->GetNumArgsWithCallField()); \
if (actualNumArgs == declaredNumArgs) { \
/* fast path, just push all args directly */ \
CALL_PUSH_ARGS_##ARG_TYPE(); \
goto setVregsAndFrameNotNative; \
} \
/* slow path */ \
if (!methodHandle->HaveExtraWithCallField()) { \
/* push length = declaredNumArgs, may push undefined */ \
CALL_PUSH_UNDEFINED(declaredNumArgs - actualNumArgs); \
CALL_PUSH_ARGS_##ARG_TYPE##_NO_EXTRA(); \
} else { \
/* push actualNumArgs in the end, then all args, may push undefined */ \
*(--newSp) = JSTaggedValue(actualNumArgs).GetRawData(); \
CALL_PUSH_UNDEFINED(declaredNumArgs - actualNumArgs); \
CALL_PUSH_ARGS_##ARG_TYPE(); \
} \
goto setVregsAndFrameNotNative; \
} while (false)
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define DEPRECATED_CALL_PUSH_ARGS(ARG_TYPE) \
do { \
if (methodHandle->IsNativeWithCallField()) { \
/* native, just push all args directly */ \
DEPRECATED_CALL_PUSH_ARGS_##ARG_TYPE(); \
goto deprecatedSetVregsAndFrameNative; \
} \
int32_t declaredNumArgs = \
static_cast<int32_t>(methodHandle->GetNumArgsWithCallField()); \
if (actualNumArgs == declaredNumArgs) { \
/* fast path, just push all args directly */ \
DEPRECATED_CALL_PUSH_ARGS_##ARG_TYPE(); \
goto deprecatedSetVregsAndFrameNotNative; \
} \
/* slow path */ \
if (!methodHandle->HaveExtraWithCallField()) { \
/* push length = declaredNumArgs, may push undefined */ \
CALL_PUSH_UNDEFINED(declaredNumArgs - actualNumArgs); \
DEPRECATED_CALL_PUSH_ARGS_##ARG_TYPE##_NO_EXTRA(); \
} else { \
/* push actualNumArgs in the end, then all args, may push undefined */ \
*(--newSp) = JSTaggedValue(actualNumArgs).GetRawData(); \
CALL_PUSH_UNDEFINED(declaredNumArgs - actualNumArgs); \
DEPRECATED_CALL_PUSH_ARGS_##ARG_TYPE(); \
} \
goto deprecatedSetVregsAndFrameNotNative; \
} while (false)
#if ECMASCRIPT_ENABLE_IC
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define UPDATE_HOTNESS_COUNTER_NON_ACC(offset) (UpdateHotnessCounter(thread, sp, acc, offset))
#define UPDATE_HOTNESS_COUNTER(offset) \
do { \
if (UpdateHotnessCounter(thread, sp, acc, offset)) { \
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread); \
RESTORE_ACC(); \
} \
} while (false)
#else
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define UPDATE_HOTNESS_COUNTER(offset) static_cast<void>(0)
#define UPDATE_HOTNESS_COUNTER_NON_ACC(offset) static_cast<void>(0)
#endif
#define READ_INST_OP() READ_INST_8(0) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_4_0() (READ_INST_8(1) & 0xf) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_4_1() (READ_INST_8(1) >> 4 & 0xf) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_4_2() (READ_INST_8(2) & 0xf) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_4_3() (READ_INST_8(2) >> 4 & 0xf) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_0() READ_INST_8(1) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_1() READ_INST_8(2) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_2() READ_INST_8(3) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_3() READ_INST_8(4) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_4() READ_INST_8(5) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_5() READ_INST_8(6) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_6() READ_INST_8(7) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_7() READ_INST_8(8) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_8() READ_INST_8(9) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8_9() READ_INST_8(10) // NOLINT(hicpp-signed-bitwise, cppcoreguidelines-macro-usage)
#define READ_INST_8(offset) (*(pc + (offset)))
#define MOVE_AND_READ_INST_8(currentInst, offset) \
(currentInst) <<= 8; \
(currentInst) += READ_INST_8(offset); \
#define READ_INST_16_0() READ_INST_16(2)
#define READ_INST_16_1() READ_INST_16(3)
#define READ_INST_16_2() READ_INST_16(4)
#define READ_INST_16_3() READ_INST_16(5)
#define READ_INST_16_4() READ_INST_16(6)
#define READ_INST_16_5() READ_INST_16(7)
#define READ_INST_16_6() READ_INST_16(8)
#define READ_INST_16_7() READ_INST_16(9)
#define READ_INST_16(offset) \
({ \
uint16_t currentInst = READ_INST_8(offset); \
MOVE_AND_READ_INST_8(currentInst, (offset) - 1) \
})
#define READ_INST_32_0() READ_INST_32(4)
#define READ_INST_32_1() READ_INST_32(5)
#define READ_INST_32_2() READ_INST_32(6)
#define READ_INST_32(offset) \
({ \
uint32_t currentInst = READ_INST_8(offset); \
MOVE_AND_READ_INST_8(currentInst, (offset) - 1) \
MOVE_AND_READ_INST_8(currentInst, (offset) - 2) \
MOVE_AND_READ_INST_8(currentInst, (offset) - 3) \
})
#define READ_INST_64_0() \
({ \
uint64_t currentInst = READ_INST_8(8); \
MOVE_AND_READ_INST_8(currentInst, 7) \
MOVE_AND_READ_INST_8(currentInst, 6) \
MOVE_AND_READ_INST_8(currentInst, 5) \
MOVE_AND_READ_INST_8(currentInst, 4) \
MOVE_AND_READ_INST_8(currentInst, 3) \
MOVE_AND_READ_INST_8(currentInst, 2) \
MOVE_AND_READ_INST_8(currentInst, 1) \
})
#ifndef EXCLUDE_C_INTERPRETER
JSTaggedValue EcmaInterpreter::ExecuteNative(EcmaRuntimeCallInfo *info)
{
JSThread *thread = info->GetThread();
ASSERT(thread->IsInManagedState());
INTERPRETER_TRACE(thread, ExecuteNative);
// current is entry frame.
JSTaggedType *sp = const_cast<JSTaggedType *>(thread->GetCurrentSPFrame());
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - InterpretedEntryFrame::NumOfMembers();
InterpretedFrame *state = GET_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FRAME;
state->pc = nullptr;
state->function = info->GetFunctionValue();
state->thisObj = info->GetThisValue();
thread->SetCurrentSPFrame(newSp);
thread->CheckSafepoint();
ECMAObject *callTarget = reinterpret_cast<ECMAObject*>(info->GetFunctionValue().GetTaggedObject());
Method *method = callTarget->GetCallTarget();
LOG_INST() << "Entry: Runtime Call.";
JSTaggedValue tagged;
{
ASSERT(thread == JSThread::GetCurrent());
tagged = reinterpret_cast<EcmaEntrypoint>(const_cast<void *>(method->GetNativePointer()))(info);
}
LOG_INST() << "Exit: Runtime Call.";
InterpretedEntryFrame *entryState = GET_ENTRY_FRAME(sp);
JSTaggedType *prevSp = entryState->base.prev;
thread->SetCurrentSPFrame(prevSp);
#if ECMASCRIPT_ENABLE_STUB_RESULT_CHECK
thread->CheckJSTaggedType(tagged.GetRawData());
#endif
return tagged;
}
#endif
JSTaggedValue EcmaInterpreter::Execute(EcmaRuntimeCallInfo *info)
{
if (info == nullptr) {
return JSTaggedValue::Exception();
}
JSThread *thread = info->GetThread();
ASSERT(thread->IsInManagedState());
INTERPRETER_TRACE(thread, Execute);
// check stack overflow before re-enter interpreter
STACK_LIMIT_CHECK(thread, JSTaggedValue::Exception());
#if ECMASCRIPT_ENABLE_STUB_RESULT_CHECK
for (uint32_t i = 0; i < info->GetArgsNumber(); i++) {
thread->CheckJSTaggedType(info->GetCallArgValue(i).GetRawData());
}
#endif
if (thread->IsAsmInterpreter()) {
return InterpreterAssembly::Execute(info);
}
#ifndef EXCLUDE_C_INTERPRETER
JSHandle<JSTaggedValue> func = info->GetFunction();
ECMAObject *callTarget = reinterpret_cast<ECMAObject*>(func.GetTaggedValue().GetTaggedObject());
ASSERT(callTarget != nullptr);
Method *method = callTarget->GetCallTarget();
if (method->IsNativeWithCallField()) {
return EcmaInterpreter::ExecuteNative(info);
}
// current is entry frame.
JSTaggedType *sp = const_cast<JSTaggedType *>(thread->GetCurrentSPFrame());
int32_t actualNumArgs = static_cast<int32_t>(info->GetArgsNumber());
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - InterpretedEntryFrame::NumOfMembers();
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - actualNumArgs - NUM_MANDATORY_JSFUNC_ARGS))) {
return JSTaggedValue::Undefined();
}
int32_t declaredNumArgs = static_cast<int32_t>(method->GetNumArgsWithCallField());
// push args
if (actualNumArgs == declaredNumArgs) {
// fast path, just push all args directly
for (int i = actualNumArgs - 1; i >= 0; i--) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = info->GetCallArgValue(i).GetRawData();
}
} else {
// slow path
if (!method->HaveExtraWithCallField()) {
// push length = declaredNumArgs, may push undefined
if (declaredNumArgs > actualNumArgs) {
CALL_PUSH_UNDEFINED(declaredNumArgs - actualNumArgs);
}
for (int32_t i = std::min(actualNumArgs, declaredNumArgs) - 1; i >= 0; i--) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = info->GetCallArgValue(i).GetRawData();
}
} else {
// push actualNumArgs in the end, then all args, may push undefined
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = JSTaggedValue(actualNumArgs).GetRawData();
if (declaredNumArgs > actualNumArgs) {
CALL_PUSH_UNDEFINED(declaredNumArgs - actualNumArgs);
}
for (int32_t i = actualNumArgs - 1; i >= 0; i--) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = info->GetCallArgValue(i).GetRawData();
}
}
}
uint64_t callField = method->GetCallField();
if ((callField & CALL_TYPE_MASK) != 0) {
// not normal call type, setting func/newTarget/this cannot be skipped
if (method->HaveThisWithCallField()) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = info->GetThisValue().GetRawData(); // push this
}
if (method->HaveNewTargetWithCallField()) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = info->GetNewTargetValue().GetRawData(); // push new target
}
if (method->HaveFuncWithCallField()) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = info->GetFunctionValue().GetRawData(); // push func
}
}
int32_t numVregs = static_cast<int32_t>(method->GetNumVregsWithCallField());
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - numVregs))) {
return JSTaggedValue::Undefined();
}
// push vregs
CALL_PUSH_UNDEFINED(numVregs);
const uint8_t *pc = method->GetBytecodeArray();
InterpretedFrame *state = GET_FRAME(newSp);
state->pc = pc;
state->function = info->GetFunctionValue();
state->thisObj = info->GetThisValue();
state->acc = JSTaggedValue::Hole();
state->constpool = method->GetConstantPool();
JSHandle<JSFunction> thisFunc = JSHandle<JSFunction>::Cast(func);
state->profileTypeInfo = thisFunc->GetProfileTypeInfo();
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FRAME;
state->env = thisFunc->GetLexicalEnv();
thread->SetCurrentSPFrame(newSp);
thread->CheckSafepoint();
LOG_INST() << "Entry: Runtime Call " << std::hex << reinterpret_cast<uintptr_t>(newSp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
EcmaInterpreter::RunInternal(thread, pc, newSp);
// NOLINTNEXTLINE(readability-identifier-naming)
const JSTaggedValue resAcc = state->acc;
InterpretedEntryFrame *entryState = GET_ENTRY_FRAME(sp);
JSTaggedType *prevSp = entryState->base.prev;
if (thread->IsEntryFrameDroppedTrue()) {
thread->PendingEntryFrameDroppedState();
InterpretedFrame *prevState = GET_FRAME(prevSp);
#if ECMASCRIPT_ENABLE_STUB_RESULT_CHECK
thread->CheckJSTaggedType(prevState->acc.GetRawData());
#endif
return prevState->acc;
}
// pop frame
thread->SetCurrentSPFrame(prevSp);
#if ECMASCRIPT_ENABLE_STUB_RESULT_CHECK
thread->CheckJSTaggedType(resAcc.GetRawData());
#endif
return resAcc;
#else
return JSTaggedValue::Exception();
#endif
}
JSTaggedValue EcmaInterpreter::GeneratorReEnterInterpreter(JSThread *thread, JSHandle<GeneratorContext> context)
{
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSFunction> func = JSHandle<JSFunction>::Cast(JSHandle<JSTaggedValue>(thread, context->GetMethod()));
if (func->IsCompiledCode()) {
return GeneratorReEnterAot(thread, context);
}
if (thread->IsAsmInterpreter()) {
return InterpreterAssembly::GeneratorReEnterInterpreter(thread, context);
}
#ifndef EXCLUDE_C_INTERPRETER
JSTaggedType *currentSp = const_cast<JSTaggedType *>(thread->GetCurrentSPFrame());
// push break frame
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *breakSp = currentSp - InterpretedFrame::NumOfMembers();
if (UNLIKELY(thread->DoStackOverflowCheck(breakSp))) {
return JSTaggedValue::Exception();
}
InterpretedFrame *breakState = GET_FRAME(breakSp);
breakState->pc = nullptr;
breakState->function = JSTaggedValue::Hole();
breakState->thisObj = JSTaggedValue::Hole();
breakState->base.prev = currentSp;
breakState->base.type = FrameType::INTERPRETER_FRAME;
// create new frame and resume sp and pc
uint32_t nregs = context->GetNRegs();
size_t newFrameSize = InterpretedFrame::NumOfMembers() + nregs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic
JSTaggedType *newSp = breakSp - newFrameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
return JSTaggedValue::Exception();
}
JSHandle<TaggedArray> regsArray(thread, context->GetRegsArray());
for (size_t i = 0; i < nregs; i++) {
newSp[i] = regsArray->Get(i).GetRawData(); // NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
}
uint32_t pcOffset = context->GetBCOffset();
Method *method = func->GetCallTarget();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
const uint8_t *resumePc = method->GetBytecodeArray() + pcOffset;
InterpretedFrame *state = GET_FRAME(newSp);
state->pc = resumePc;
state->function = func.GetTaggedValue();
state->thisObj = context->GetThis();
state->constpool = method->GetConstantPool();
state->profileTypeInfo = func->GetProfileTypeInfo();
state->acc = context->GetAcc();
state->base.prev = breakSp;
state->base.type = FrameType::INTERPRETER_FRAME;
JSTaggedValue env = context->GetLexicalEnv();
state->env = env;
// execute interpreter
thread->SetCurrentSPFrame(newSp);
MethodEntry(thread);
EcmaInterpreter::RunInternal(thread, resumePc, newSp);
JSTaggedValue res = state->acc;
// pop frame
thread->SetCurrentSPFrame(currentSp);
return res;
#else
return JSTaggedValue::Exception();
#endif
}
JSTaggedValue EcmaInterpreter::GeneratorReEnterAot(JSThread *thread, JSHandle<GeneratorContext> context)
{
JSHandle<JSFunction> func = JSHandle<JSFunction>::Cast(JSHandle<JSTaggedValue>(thread, context->GetMethod()));
if (func->IsClassConstructor()) {
{
EcmaVM *ecmaVm = thread->GetEcmaVM();
ObjectFactory *factory = ecmaVm->GetFactory();
JSHandle<JSObject> error = factory->GetJSError(ErrorType::TYPE_ERROR,
"class constructor cannot called without 'new'",
StackCheck::NO);
thread->SetException(error.GetTaggedValue());
}
return thread->GetException();
}
Method *method = func->GetCallTarget();
JSTaggedValue genObject = context->GetGeneratorObject();
std::vector<JSTaggedType> args(method->GetNumArgs() + NUM_MANDATORY_JSFUNC_ARGS,
JSTaggedValue::Undefined().GetRawData());
args[0] = func.GetTaggedValue().GetRawData();
args[1] = genObject.GetRawData();
args[2] = context->GetThis().GetRawData(); // 2: this
const JSTaggedType *prevFp = thread->GetLastLeaveFrame();
#if ECMASCRIPT_ENABLE_FUNCTION_CALL_TIMER
RuntimeStubs::StartCallTimer(thread->GetGlueAddr(), func.GetTaggedType(), true);
#endif
auto res = thread->GetCurrentEcmaContext()->ExecuteAot(method->GetNumArgs(), args.data(), prevFp, false);
#if ECMASCRIPT_ENABLE_FUNCTION_CALL_TIMER
RuntimeStubs::EndCallTimer(thread->GetGlueAddr(), func.GetTaggedType());
#endif
return res;
}
void EcmaInterpreter::NotifyBytecodePcChanged(JSThread *thread)
{
FrameHandler frameHandler(thread);
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
continue;
}
Method *method = frameHandler.GetMethod();
// Skip builtins method
if (method->IsNativeWithCallField()) {
continue;
}
auto bcOffset = frameHandler.GetBytecodeOffset();
auto *debuggerMgr = thread->GetEcmaVM()->GetJsDebuggerManager();
debuggerMgr->GetNotificationManager()->BytecodePcChangedEvent(thread, method, bcOffset);
return;
}
}
void EcmaInterpreter::NotifyDebuggerStmt(JSThread *thread)
{
FrameHandler frameHandler(thread);
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
continue;
}
Method *method = frameHandler.GetMethod();
if (method->IsNativeWithCallField()) {
continue;
}
auto bcOffset = frameHandler.GetBytecodeOffset();
auto *debuggerMgr = thread->GetEcmaVM()->GetJsDebuggerManager();
debuggerMgr->GetNotificationManager()->DebuggerStmtEvent(thread, method, bcOffset);
return;
}
}
void EcmaInterpreter::MethodEntry(JSThread *thread)
{
FrameHandler frameHandler(thread);
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
continue;
}
Method *method = frameHandler.GetMethod();
if (method->IsNativeWithCallField()) {
continue;
}
JSTaggedValue env = frameHandler.GetEnv();
auto *debuggerMgr = thread->GetEcmaVM()->GetJsDebuggerManager();
debuggerMgr->GetNotificationManager()->MethodEntryEvent(thread, method, env);
return;
}
}
void EcmaInterpreter::MethodExit(JSThread *thread)
{
FrameHandler frameHandler(thread);
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
continue;
}
Method *method = frameHandler.GetMethod();
if (method->IsNativeWithCallField()) {
continue;
}
auto *debuggerMgr = thread->GetEcmaVM()->GetJsDebuggerManager();
debuggerMgr->GetNotificationManager()->MethodExitEvent(thread, method);
return;
}
}
const JSPandaFile *EcmaInterpreter::GetNativeCallPandafile(JSThread *thread)
{
FrameHandler frameHandler(thread);
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
continue;
}
Method *method = frameHandler.GetMethod();
// Skip builtins method
if (method->IsNativeWithCallField()) {
continue;
}
const JSPandaFile *jsPandaFile = method->GetJSPandaFile();
return jsPandaFile;
}
LOG_ECMA(FATAL) << "this branch is unreachable";
UNREACHABLE();
}
std::pair<CString, CString> EcmaInterpreter::GetCurrentEntryPoint(JSThread *thread)
{
FrameHandler frameHandler(thread);
CString recordName;
CString fileName;
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
continue;
}
Method *method = frameHandler.GetMethod();
// Skip builtins method
if (method->IsNativeWithCallField()) {
continue;
}
JSTaggedValue func = frameHandler.GetFunction();
JSHandle<JSTaggedValue> module(thread, JSFunction::Cast(func.GetTaggedObject())->GetModule());
if (module->IsSourceTextModule()) {
SourceTextModule *sourceTextModule = SourceTextModule::Cast(module->GetTaggedObject());
recordName = sourceTextModule->GetEcmaModuleRecordNameString();
fileName = sourceTextModule->GetEcmaModuleFilenameString();
} else if (module->IsString()) {
recordName = ConvertToString(module.GetTaggedValue());
} else {
continue;
}
return std::make_pair(recordName, fileName);
}
CString msg = "Unable to get recordName and fileName due to failure in getting current entry point.";
THROW_REFERENCE_ERROR_AND_RETURN(thread, msg.c_str(), std::make_pair(recordName, fileName));
}
void EcmaInterpreter::UpdateProfileTypeInfoCellToFunction(JSThread *thread, JSHandle<JSFunction> &function,
JSTaggedValue profileTypeInfo, uint16_t slotId)
{
if (!profileTypeInfo.IsUndefined()) {
JSHandle<ProfileTypeInfo> profileTypeArray(thread, profileTypeInfo);
JSTaggedValue slotValue = profileTypeArray->Get(slotId);
if (slotValue.IsUndefined()) {
JSHandle<JSTaggedValue> handleUndefined(thread, JSTaggedValue::Undefined());
JSHandle<ProfileTypeInfoCell> newProfileTypeInfoCell =
thread->GetEcmaVM()->GetFactory()->NewProfileTypeInfoCell(handleUndefined);
profileTypeArray->Set(thread, slotId, newProfileTypeInfoCell);
function->SetRawProfileTypeInfo(thread, newProfileTypeInfoCell);
} else if (!slotValue.IsHole()) {
ProfileTypeInfoCell::Cast(slotValue.GetTaggedObject())->UpdateProfileTypeInfoCellType(thread);
function->SetRawProfileTypeInfo(thread, slotValue);
}
}
}
#ifndef EXCLUDE_C_INTERPRETER
// NOLINTNEXTLINE(readability-function-size)
NO_UB_SANITIZE void EcmaInterpreter::RunInternal(JSThread *thread, const uint8_t *pc, JSTaggedType *sp)
{
INTERPRETER_TRACE(thread, RunInternal);
uint8_t opcode = READ_INST_OP();
JSTaggedValue acc = JSTaggedValue::Hole();
EcmaVM *ecmaVm = thread->GetEcmaVM();
JSHandle<GlobalEnv> globalEnv = ecmaVm->GetGlobalEnv();
JSTaggedValue globalObj = globalEnv->GetGlobalObject();
ObjectFactory *factory = ecmaVm->GetFactory();
JSMutableHandle<Method> methodHandle(thread, JSTaggedValue::Undefined());
constexpr size_t numOps = 0x100;
constexpr size_t numThrowOps = 10;
constexpr size_t numWideOps = 20;
constexpr size_t numCallRuntimeOps = 26;
constexpr size_t numDeprecatedOps = 47;
static std::array<const void *, numOps> instDispatchTable {
#include "templates/instruction_dispatch.inl"
};
static std::array<const void *, numThrowOps> throwDispatchTable {
#include "templates/throw_instruction_dispatch.inl"
};
static std::array<const void *, numWideOps> wideDispatchTable {
#include "templates/wide_instruction_dispatch.inl"
};
static std::array<const void *, numCallRuntimeOps> callRuntimeDispatchTable {
#include "templates/call_runtime_instruction_dispatch.inl"
};
static std::array<const void *, numDeprecatedOps> deprecatedDispatchTable {
#include "templates/deprecated_instruction_dispatch.inl"
};
static std::array<const void *, numOps> debugDispatchTable {
#include "templates/debugger_instruction_dispatch.inl"
};
auto *dispatchTable = instDispatchTable.data();
CHECK_SWITCH_TO_DEBUGGER_TABLE();
goto *dispatchTable[opcode];
HANDLE_OPCODE(MOV_V4_V4) {
uint16_t vdst = READ_INST_4_0();
uint16_t vsrc = READ_INST_4_1();
LOG_INST() << "mov v" << vdst << ", v" << vsrc;
uint64_t value = GET_VREG(vsrc);
SET_VREG(vdst, value)
DISPATCH(MOV_V4_V4);
}
HANDLE_OPCODE(MOV_V8_V8) {
uint16_t vdst = READ_INST_8_0();
uint16_t vsrc = READ_INST_8_1();
LOG_INST() << "mov v" << vdst << ", v" << vsrc;
uint64_t value = GET_VREG(vsrc);
SET_VREG(vdst, value)
DISPATCH(MOV_V8_V8);
}
HANDLE_OPCODE(MOV_V16_V16) {
uint16_t vdst = READ_INST_16_0();
uint16_t vsrc = READ_INST_16_2();
LOG_INST() << "mov v" << vdst << ", v" << vsrc;
uint64_t value = GET_VREG(vsrc);
SET_VREG(vdst, value)
DISPATCH(MOV_V16_V16);
}
HANDLE_OPCODE(LDA_STR_ID16) {
uint16_t stringId = READ_INST_16_0();
LOG_INST() << "lda.str " << std::hex << stringId;
auto constpool = GetConstantPool(sp);
SET_ACC(GET_STR_FROM_CACHE(stringId));
DISPATCH(LDA_STR_ID16);
}
HANDLE_OPCODE(JMP_IMM8) {
int8_t offset = READ_INST_8_0();
UPDATE_HOTNESS_COUNTER(offset);
LOG_INST() << "jmp " << std::hex << static_cast<int32_t>(offset);
DISPATCH_OFFSET(offset);
}
HANDLE_OPCODE(JMP_IMM16) {
int16_t offset = READ_INST_16_0();
UPDATE_HOTNESS_COUNTER(offset);
LOG_INST() << "jmp " << std::hex << static_cast<int32_t>(offset);
DISPATCH_OFFSET(offset);
}
HANDLE_OPCODE(JMP_IMM32) {
int32_t offset = static_cast<int32_t>(READ_INST_32_0());
UPDATE_HOTNESS_COUNTER(offset);
LOG_INST() << "jmp " << std::hex << offset;
DISPATCH_OFFSET(offset);
}
HANDLE_OPCODE(JEQZ_IMM8) {
int8_t offset = READ_INST_8_0();
LOG_INST() << "jeqz ->\t"
<< "cond jmpz " << std::hex << static_cast<int32_t>(offset);
if (GET_ACC().IsFalse() || (GET_ACC().IsInt() && GET_ACC().GetInt() == 0) ||
(GET_ACC().IsDouble() && GET_ACC().GetDouble() == 0)) {
UPDATE_HOTNESS_COUNTER(offset);
DISPATCH_OFFSET(offset);
} else {
DISPATCH(JEQZ_IMM8);
}
}
HANDLE_OPCODE(JEQZ_IMM16) {
int16_t offset = READ_INST_16_0();
LOG_INST() << "jeqz ->\t"
<< "cond jmpz " << std::hex << static_cast<int32_t>(offset);
if (GET_ACC().IsFalse() || (GET_ACC().IsInt() && GET_ACC().GetInt() == 0) ||
(GET_ACC().IsDouble() && GET_ACC().GetDouble() == 0)) {
UPDATE_HOTNESS_COUNTER(offset);
DISPATCH_OFFSET(offset);
} else {
DISPATCH(JEQZ_IMM16);
}
}
HANDLE_OPCODE(JEQZ_IMM32) {
int32_t offset = static_cast<int32_t>(READ_INST_32_0());
LOG_INST() << "jeqz ->\t"
<< "cond jmpz " << std::hex << static_cast<int32_t>(offset);
if (GET_ACC().IsFalse() || (GET_ACC().IsInt() && GET_ACC().GetInt() == 0) ||
(GET_ACC().IsDouble() && GET_ACC().GetDouble() == 0)) {
UPDATE_HOTNESS_COUNTER(offset);
DISPATCH_OFFSET(offset);
} else {
DISPATCH(JEQZ_IMM32);
}
}
HANDLE_OPCODE(JNEZ_IMM8) {
int8_t offset = READ_INST_8_0();
LOG_INST() << "jnez ->\t"
<< "cond jmpz " << std::hex << static_cast<int32_t>(offset);
if (GET_ACC().IsTrue() || (GET_ACC().IsInt() && GET_ACC().GetInt() != 0) ||
(GET_ACC().IsDouble() && GET_ACC().GetDouble() != 0)) {
UPDATE_HOTNESS_COUNTER(offset);
DISPATCH_OFFSET(offset);
} else {
DISPATCH(JNEZ_IMM8);
}
}
HANDLE_OPCODE(JNEZ_IMM16) {
int16_t offset = READ_INST_16_0();
LOG_INST() << "jnez ->\t"
<< "cond jmpz " << std::hex << static_cast<int32_t>(offset);
if (GET_ACC().IsTrue() || (GET_ACC().IsInt() && GET_ACC().GetInt() != 0) ||
(GET_ACC().IsDouble() && GET_ACC().GetDouble() != 0)) {
UPDATE_HOTNESS_COUNTER(offset);
DISPATCH_OFFSET(offset);
} else {
DISPATCH(JNEZ_IMM16);
}
}
HANDLE_OPCODE(JNEZ_IMM32) {
int32_t offset = static_cast<int32_t>(READ_INST_32_0());
LOG_INST() << "jnez ->\t"
<< "cond jmpz " << std::hex << static_cast<int32_t>(offset);
if (GET_ACC().IsTrue() || (GET_ACC().IsInt() && GET_ACC().GetInt() != 0) ||
(GET_ACC().IsDouble() && GET_ACC().GetDouble() != 0)) {
UPDATE_HOTNESS_COUNTER(offset);
DISPATCH_OFFSET(offset);
} else {
DISPATCH(JNEZ_IMM32);
}
}
HANDLE_OPCODE(LDA_V8) {
uint16_t vsrc = READ_INST_8_0();
LOG_INST() << "lda v" << vsrc;
uint64_t value = GET_VREG(vsrc);
SET_ACC(JSTaggedValue(value));
DISPATCH(LDA_V8);
}
HANDLE_OPCODE(STA_V8) {
uint16_t vdst = READ_INST_8_0();
LOG_INST() << "sta v" << vdst;
SET_VREG(vdst, GET_ACC().GetRawData())
DISPATCH(STA_V8);
}
HANDLE_OPCODE(LDAI_IMM32) {
int32_t imm = static_cast<int32_t>(READ_INST_32_0());
LOG_INST() << "ldai " << std::hex << imm;
SET_ACC(JSTaggedValue(imm));
DISPATCH(LDAI_IMM32);
}
HANDLE_OPCODE(FLDAI_IMM64) {
auto imm = base::bit_cast<double>(READ_INST_64_0());
LOG_INST() << "fldai " << imm;
SET_ACC(JSTaggedValue(imm));
DISPATCH(FLDAI_IMM64);
}
{
int32_t actualNumArgs;
int32_t startReg;
JSTaggedType funcTagged;
ECMAObject *funcObject;
JSTaggedType *newSp;
bool callThis;
HANDLE_OPCODE(CALLARG0_IMM8) {
actualNumArgs = ActualNumArgsOfCall::CALLARG0;
LOG_INST() << "callarg0";
CALL_INITIALIZE();
callThis = false;
CALL_PUSH_ARGS(0);
}
HANDLE_OPCODE(DEPRECATED_CALLARG0_PREF_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARG0;
startReg = READ_INST_8_1();
LOG_INST() << "callarg0 "
<< "v" << startReg;
DEPRECATED_CALL_INITIALIZE();
callThis = false;
DEPRECATED_CALL_PUSH_ARGS(0);
}
HANDLE_OPCODE(CALLARG1_IMM8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARG1;
uint32_t a0 = READ_INST_8_1();
LOG_INST() << "callarg1 "
<< "v" << a0;
CALL_INITIALIZE();
callThis = false;
CALL_PUSH_ARGS(1);
}
HANDLE_OPCODE(DEPRECATED_CALLARG1_PREF_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARG1;
startReg = READ_INST_8_1();
uint32_t a0 = READ_INST_8_2();
LOG_INST() << "callarg1 "
<< "v" << startReg << ", v" << a0;
DEPRECATED_CALL_INITIALIZE();
callThis = false;
DEPRECATED_CALL_PUSH_ARGS(1);
}
HANDLE_OPCODE(CALLARGS2_IMM8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARGS2;
uint32_t a0 = READ_INST_8_1();
uint32_t a1 = READ_INST_8_2();
LOG_INST() << "callargs2 "
<< "v" << a0 << ", v" << a1;
CALL_INITIALIZE();
callThis = false;
CALL_PUSH_ARGS(2);
}
HANDLE_OPCODE(DEPRECATED_CALLARGS2_PREF_V8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARGS2;
startReg = READ_INST_8_1();
uint32_t a0 = READ_INST_8_2();
uint32_t a1 = READ_INST_8_3();
LOG_INST() << "callargs2 "
<< "v" << startReg << ", v" << a0 << ", v" << a1;
DEPRECATED_CALL_INITIALIZE();
callThis = false;
DEPRECATED_CALL_PUSH_ARGS(2);
}
HANDLE_OPCODE(CALLARGS3_IMM8_V8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARGS3;
uint32_t a0 = READ_INST_8_1();
uint32_t a1 = READ_INST_8_2();
uint32_t a2 = READ_INST_8_3();
LOG_INST() << "callargs3 "
<< "v" << a0 << ", v" << a1 << ", v" << a2;
CALL_INITIALIZE();
callThis = false;
CALL_PUSH_ARGS(3);
}
HANDLE_OPCODE(DEPRECATED_CALLARGS3_PREF_V8_V8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARGS3;
startReg = READ_INST_8_1();
uint32_t a0 = READ_INST_8_2();
uint32_t a1 = READ_INST_8_3();
uint32_t a2 = READ_INST_8_4();
LOG_INST() << "callargs3 "
<< "v" << startReg << ", v" << a0 << ", v" << a1 << ", v" << a2;
DEPRECATED_CALL_INITIALIZE();
callThis = false;
DEPRECATED_CALL_PUSH_ARGS(3);
}
HANDLE_OPCODE(CALLTHIS0_IMM8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARG0;
startReg = READ_INST_8_1();
LOG_INST() << "call.this0, v" << startReg;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(0);
}
HANDLE_OPCODE(CALLTHIS1_IMM8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARG1;
startReg = READ_INST_8_1();
uint32_t a0 = READ_INST_8_2();
LOG_INST() << "call.this1, v" << startReg << " v" << a0;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(1);
}
HANDLE_OPCODE(CALLTHIS2_IMM8_V8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARGS2;
startReg = READ_INST_8_1();
uint32_t a0 = READ_INST_8_2();
uint32_t a1 = READ_INST_8_3();
LOG_INST() << "call.this2, v" << startReg << " v" << a0 << " v" << a1;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(2);
}
HANDLE_OPCODE(CALLTHIS3_IMM8_V8_V8_V8_V8) {
actualNumArgs = ActualNumArgsOfCall::CALLARGS3;
startReg = READ_INST_8_1();
uint32_t a0 = READ_INST_8_2();
uint32_t a1 = READ_INST_8_3();
uint32_t a2 = READ_INST_8_4();
LOG_INST() << "call.this3, v" << startReg << " v" << a0 << " v" << a1 << " v" << a2;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(3);
}
HANDLE_OPCODE(CALLTHISRANGE_IMM8_IMM8_V8) {
actualNumArgs = READ_INST_8_1();
startReg = READ_INST_8_2();
LOG_INST() << "call.this.range " << actualNumArgs << ", v" << startReg;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(THISRANGE);
}
HANDLE_OPCODE(WIDE_CALLTHISRANGE_PREF_IMM16_V8) {
actualNumArgs = READ_INST_16_1();
startReg = READ_INST_8_3();
LOG_INST() << "call.this.range " << actualNumArgs << ", v" << startReg;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(THISRANGE);
}
HANDLE_OPCODE(DEPRECATED_CALLTHISRANGE_PREF_IMM16_V8) {
actualNumArgs = static_cast<int32_t>(READ_INST_16_1() - 1); // 1: exclude this
startReg = READ_INST_8_3();
LOG_INST() << "call.this.range " << actualNumArgs << ", v" << startReg;
DEPRECATED_CALL_INITIALIZE();
callThis = true;
DEPRECATED_CALL_PUSH_ARGS(THISRANGE);
}
HANDLE_OPCODE(CALLRANGE_IMM8_IMM8_V8) {
actualNumArgs = READ_INST_8_1();
startReg = READ_INST_8_2();
LOG_INST() << "calli.range " << actualNumArgs << ", v" << startReg;
CALL_INITIALIZE();
callThis = false;
CALL_PUSH_ARGS(RANGE);
}
HANDLE_OPCODE(WIDE_CALLRANGE_PREF_IMM16_V8) {
actualNumArgs = READ_INST_16_1();
startReg = READ_INST_8_3();
LOG_INST() << "calli.range " << actualNumArgs << ", v" << startReg;
CALL_INITIALIZE();
callThis = false;
CALL_PUSH_ARGS(RANGE);
}
HANDLE_OPCODE(DEPRECATED_CALLRANGE_PREF_IMM16_V8) {
actualNumArgs = READ_INST_16_1();
startReg = READ_INST_8_3();
LOG_INST() << "calli.range " << actualNumArgs << ", v" << startReg;
DEPRECATED_CALL_INITIALIZE();
callThis = false;
DEPRECATED_CALL_PUSH_ARGS(RANGE);
}
HANDLE_OPCODE(CALLRUNTIME_CALLINIT_PREF_IMM8_V8) {
// same as callthis0
actualNumArgs = ActualNumArgsOfCall::CALLARG0;
startReg = READ_INST_8_2();
LOG_INST() << "callruntime.callinit, v" << startReg;
CALL_INITIALIZE();
callThis = true;
CALL_PUSH_ARGS(0);
}
setVregsAndFrameNative:
startReg--;
deprecatedSetVregsAndFrameNative: {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = (callThis ? sp[startReg + 1] : JSTaggedValue::VALUE_UNDEFINED); // push this
*(--newSp) = JSTaggedValue::VALUE_UNDEFINED; // push new target
*(--newSp) = ToUintPtr(funcObject); // push func
ASSERT(methodHandle->GetNumVregsWithCallField() == 0); // no need to push vregs
*(--newSp) = actualNumArgs + NUM_MANDATORY_JSFUNC_ARGS;
*(--newSp) = ToUintPtr(thread);
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo *>(newSp);
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = JSTaggedValue(funcTagged);
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime Call.";
SAVE_PC();
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime Call.";
SET_ACC(retValue);
INTERPRETER_HANDLE_RETURN();
}
setVregsAndFrameNotNative:
startReg--;
deprecatedSetVregsAndFrameNotNative: {
JSFunction *func = JSFunction::Cast(funcObject);
if (func->IsClassConstructor()) {
{
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSObject> error = factory->GetJSError(ErrorType::TYPE_ERROR,
"class constructor cannot called without 'new'", StackCheck::NO);
thread->SetException(error.GetTaggedValue());
}
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
JSTaggedType thisObj = JSTaggedValue::VALUE_UNDEFINED;
uint64_t callField = methodHandle->GetCallField();
if ((callField & CALL_TYPE_MASK) != 0) {
// not normal call type, setting func/newTarget/this cannot be skipped
if (methodHandle->HaveThisWithCallField()) {
if (callThis) {
thisObj = sp[startReg + 1];
}
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = thisObj; // push this
}
if (methodHandle->HaveNewTargetWithCallField()) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = JSTaggedValue::VALUE_UNDEFINED; // push new target
}
if (methodHandle->HaveFuncWithCallField()) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
*(--newSp) = ToUintPtr(funcObject); // push func
}
}
int32_t numVregs = static_cast<int32_t>(methodHandle->GetNumVregsWithCallField());
if (UNLIKELY(thread->DoStackOverflowCheck(newSp - numVregs))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// push vregs
CALL_PUSH_UNDEFINED(numVregs);
SAVE_PC();
InterpretedFrame *state = GET_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FRAME;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->function = JSTaggedValue(funcTagged);
state->thisObj = JSTaggedValue(thisObj);
state->acc = JSTaggedValue::Hole();
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = func->GetProfileTypeInfo();
JSTaggedValue env = func->GetLexicalEnv();
state->env = env;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime Call " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
HANDLE_OPCODE(APPLY_IMM8_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::callspread"
<< " v" << v0 << " v" << v1;
JSTaggedValue func = GET_ACC();
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue array = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CallSpread(thread, func, obj, array);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
SET_ACC(res);
DISPATCH(APPLY_IMM8_V8_V8);
}
HANDLE_OPCODE(DEPRECATED_CALLSPREAD_PREF_V8_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
uint16_t v2 = READ_INST_8_3();
LOG_INST() << "intrinsics::callspread"
<< " v" << v0 << " v" << v1 << " v" << v2;
JSTaggedValue func = GET_VREG_VALUE(v0);
JSTaggedValue obj = GET_VREG_VALUE(v1);
JSTaggedValue array = GET_VREG_VALUE(v2);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CallSpread(thread, func, obj, array);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
SET_ACC(res);
DISPATCH(DEPRECATED_CALLSPREAD_PREF_V8_V8_V8);
}
HANDLE_OPCODE(RETURN) {
MethodExit(thread);
LOG_INST() << "return";
InterpretedFrame *state = GET_FRAME(sp);
LOG_INST() << "Exit: Runtime Call " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(state->pc);
methodHandle.Update(JSFunction::Cast(state->function.GetTaggedObject())->GetMethod());
[[maybe_unused]] auto fistPC = methodHandle->GetBytecodeArray();
UPDATE_HOTNESS_COUNTER(-(pc - fistPC));
JSTaggedType *currentSp = sp;
sp = state->base.prev;
ASSERT(sp != nullptr);
InterpretedFrame *prevState = GET_FRAME(sp);
pc = prevState->pc;
// entry frame
if (FrameHandler::IsEntryFrame(pc)) {
state->acc = acc;
return;
}
thread->SetCurrentSPFrame(sp);
if (IsFastNewFrameExit(currentSp)) {
JSFunction *func = JSFunction::Cast(GetFunction(currentSp).GetTaggedObject());
if (acc.IsECMAObject()) {
INTERPRETER_HANDLE_RETURN();
}
if (func->IsBase()) {
JSTaggedValue thisObject = GetThis(currentSp);
SET_ACC(thisObject);
INTERPRETER_HANDLE_RETURN();
}
if (!acc.IsUndefined()) {
{
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSObject> error = factory->GetJSError(ErrorType::TYPE_ERROR,
"Derived constructor must return object or undefined", StackCheck::NO);
thread->SetException(error.GetTaggedValue());
}
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
JSTaggedValue thisObject = GetThis(currentSp);
SET_ACC(thisObject);
INTERPRETER_HANDLE_RETURN();
}
INTERPRETER_HANDLE_RETURN();
}
HANDLE_OPCODE(RETURNUNDEFINED) {
MethodExit(thread);
LOG_INST() << "return.undefined";
InterpretedFrame *state = GET_FRAME(sp);
LOG_INST() << "Exit: Runtime Call " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(state->pc);
methodHandle.Update(JSFunction::Cast(state->function.GetTaggedObject())->GetMethod());
[[maybe_unused]] auto fistPC = methodHandle->GetBytecodeArray();
UPDATE_HOTNESS_COUNTER_NON_ACC(-(pc - fistPC));
JSTaggedType *currentSp = sp;
sp = state->base.prev;
ASSERT(sp != nullptr);
InterpretedFrame *prevState = GET_FRAME(sp);
pc = prevState->pc;
// entry frame
if (FrameHandler::IsEntryFrame(pc)) {
state->acc = JSTaggedValue::Undefined();
return;
}
thread->SetCurrentSPFrame(sp);
if (IsFastNewFrameExit(currentSp)) {
JSFunction *func = JSFunction::Cast(GetFunction(currentSp).GetTaggedObject());
if (func->IsBase()) {
JSTaggedValue thisObject = GetThis(currentSp);
SET_ACC(thisObject);
INTERPRETER_HANDLE_RETURN();
}
if (!acc.IsUndefined()) {
{
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSObject> error = factory->GetJSError(ErrorType::TYPE_ERROR,
"Derived constructor must return object or undefined", StackCheck::NO);
thread->SetException(error.GetTaggedValue());
}
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
JSTaggedValue thisObject = GetThis(currentSp);
SET_ACC(thisObject);
INTERPRETER_HANDLE_RETURN();
} else {
SET_ACC(JSTaggedValue::Undefined());
}
INTERPRETER_HANDLE_RETURN();
}
HANDLE_OPCODE(LDNAN) {
LOG_INST() << "intrinsics::ldnan";
SET_ACC(JSTaggedValue(base::NAN_VALUE));
DISPATCH(LDNAN);
}
HANDLE_OPCODE(LDINFINITY) {
LOG_INST() << "intrinsics::ldinfinity";
SET_ACC(JSTaggedValue(base::POSITIVE_INFINITY));
DISPATCH(LDINFINITY);
}
HANDLE_OPCODE(LDUNDEFINED) {
LOG_INST() << "intrinsics::ldundefined";
SET_ACC(JSTaggedValue::Undefined());
DISPATCH(LDUNDEFINED);
}
HANDLE_OPCODE(LDNULL) {
LOG_INST() << "intrinsics::ldnull";
SET_ACC(JSTaggedValue::Null());
DISPATCH(LDNULL);
}
HANDLE_OPCODE(LDSYMBOL) {
LOG_INST() << "intrinsics::ldsymbol";
SET_ACC(globalEnv->GetSymbolFunction().GetTaggedValue());
DISPATCH(LDSYMBOL);
}
HANDLE_OPCODE(LDGLOBAL) {
LOG_INST() << "intrinsics::ldglobal";
SET_ACC(globalObj);
DISPATCH(LDGLOBAL);
}
HANDLE_OPCODE(LDTRUE) {
LOG_INST() << "intrinsics::ldtrue";
SET_ACC(JSTaggedValue::True());
DISPATCH(LDTRUE);
}
HANDLE_OPCODE(LDFALSE) {
LOG_INST() << "intrinsics::ldfalse";
SET_ACC(JSTaggedValue::False());
DISPATCH(LDFALSE);
}
HANDLE_OPCODE(GETUNMAPPEDARGS) {
LOG_INST() << "intrinsics::getunmappedargs";
uint32_t startIdx = 0;
uint32_t actualNumArgs = GetNumArgs(sp, 0, startIdx);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetUnmapedArgs(thread, sp, actualNumArgs, startIdx);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(GETUNMAPPEDARGS);
}
HANDLE_OPCODE(ASYNCFUNCTIONENTER) {
LOG_INST() << "intrinsics::asyncfunctionenter";
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionEnter(thread);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(ASYNCFUNCTIONENTER);
}
HANDLE_OPCODE(TYPEOF_IMM8) {
LOG_INST() << "intrinsics::typeof";
JSTaggedValue res = FastRuntimeStub::FastTypeOf(thread, GET_ACC());
SET_ACC(res);
DISPATCH(TYPEOF_IMM8);
}
HANDLE_OPCODE(TYPEOF_IMM16) {
LOG_INST() << "intrinsics::typeof";
JSTaggedValue res = FastRuntimeStub::FastTypeOf(thread, GET_ACC());
SET_ACC(res);
DISPATCH(TYPEOF_IMM16);
}
HANDLE_OPCODE(GETPROPITERATOR) {
LOG_INST() << "intrinsics::getpropiterator";
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetPropIterator(thread, GET_ACC());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(GETPROPITERATOR);
}
HANDLE_OPCODE(CLOSEITERATOR_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::closeiterator"
<< " v" << v0;
SAVE_PC();
JSTaggedValue iter = GET_VREG_VALUE(v0);
JSTaggedValue res = SlowRuntimeStub::CloseIterator(thread, iter);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CLOSEITERATOR_IMM8_V8);
}
HANDLE_OPCODE(ADD2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::add2"
<< " v" << v0;
int32_t a0;
int32_t a1;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// number, fast path
if (left.IsInt() && right.IsInt()) {
a0 = left.GetInt();
a1 = right.GetInt();
if ((a0 > 0 && a1 > INT32_MAX - a0) || (a0 < 0 && a1 < INT32_MIN - a0)) {
auto ret = static_cast<double>(a0) + static_cast<double>(a1);
SET_ACC(JSTaggedValue(ret));
} else {
SET_ACC(JSTaggedValue(a0 + a1));
}
} else if (left.IsNumber() && right.IsNumber()) {
double a0Double = left.IsInt() ? left.GetInt() : left.GetDouble();
double a1Double = right.IsInt() ? right.GetInt() : right.GetDouble();
double ret = a0Double + a1Double;
SET_ACC(JSTaggedValue(ret));
} else {
// one or both are not number, slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Add2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(ADD2_IMM8_V8);
}
HANDLE_OPCODE(SUB2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::sub2"
<< " v" << v0;
int32_t a0;
int32_t a1;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
if (left.IsInt() && right.IsInt()) {
a0 = left.GetInt();
a1 = -right.GetInt();
if ((a0 > 0 && a1 > INT32_MAX - a0) || (a0 < 0 && a1 < INT32_MIN - a0)) {
auto ret = static_cast<double>(a0) + static_cast<double>(a1);
SET_ACC(JSTaggedValue(ret));
} else {
SET_ACC(JSTaggedValue(a0 + a1));
}
} else if (left.IsNumber() && right.IsNumber()) {
double a0Double = left.IsInt() ? left.GetInt() : left.GetDouble();
double a1Double = right.IsInt() ? right.GetInt() : right.GetDouble();
double ret = a0Double - a1Double;
SET_ACC(JSTaggedValue(ret));
} else {
// one or both are not number, slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Sub2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(SUB2_IMM8_V8);
}
HANDLE_OPCODE(MUL2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::mul2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = acc;
JSTaggedValue value = FastRuntimeStub::FastMul(left, right);
if (!value.IsHole()) {
SET_ACC(value);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Mul2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(MUL2_IMM8_V8);
}
HANDLE_OPCODE(DIV2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::div2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = acc;
// fast path
JSTaggedValue res = FastRuntimeStub::FastDiv(left, right);
if (!res.IsHole()) {
SET_ACC(res);
} else {
// slow path
SAVE_PC();
JSTaggedValue slowRes = SlowRuntimeStub::Div2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(slowRes);
SET_ACC(slowRes);
}
DISPATCH(DIV2_IMM8_V8);
}
HANDLE_OPCODE(MOD2_IMM8_V8) {
uint16_t vs = READ_INST_8_1();
LOG_INST() << "intrinsics::mod2"
<< " v" << vs;
JSTaggedValue left = GET_VREG_VALUE(vs);
JSTaggedValue right = GET_ACC();
JSTaggedValue res = FastRuntimeStub::FastMod(left, right);
if (!res.IsHole()) {
SET_ACC(res);
} else {
// slow path
SAVE_PC();
JSTaggedValue slowRes = SlowRuntimeStub::Mod2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(slowRes);
SET_ACC(slowRes);
}
DISPATCH(MOD2_IMM8_V8);
}
HANDLE_OPCODE(EQ_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::eq"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = acc;
JSTaggedValue res = FastRuntimeStub::FastEqual(left, right);
if (!res.IsHole()) {
SET_ACC(res);
} else {
// slow path
SAVE_PC();
res = SlowRuntimeStub::Eq(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(EQ_IMM8_V8);
}
HANDLE_OPCODE(NOTEQ_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::noteq"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = acc;
JSTaggedValue res = FastRuntimeStub::FastEqual(left, right);
if (!res.IsHole()) {
res = res.IsTrue() ? JSTaggedValue::False() : JSTaggedValue::True();
SET_ACC(res);
} else {
// slow path
SAVE_PC();
res = SlowRuntimeStub::NotEq(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(NOTEQ_IMM8_V8);
}
HANDLE_OPCODE(LESS_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::less"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
if (left.IsNumber() && right.IsNumber()) {
// fast path
double valueA = left.IsInt() ? static_cast<double>(left.GetInt()) : left.GetDouble();
double valueB = right.IsInt() ? static_cast<double>(right.GetInt()) : right.GetDouble();
bool ret = JSTaggedValue::StrictNumberCompare(valueA, valueB) == ComparisonResult::LESS;
SET_ACC(ret ? JSTaggedValue::True() : JSTaggedValue::False());
} else if (left.IsBigInt() && right.IsBigInt()) {
bool result = BigInt::LessThan(left, right);
SET_ACC(JSTaggedValue(result));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Less(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(LESS_IMM8_V8);
}
HANDLE_OPCODE(LESSEQ_IMM8_V8) {
uint16_t vs = READ_INST_8_1();
LOG_INST() << "intrinsics::lesseq "
<< " v" << vs;
JSTaggedValue left = GET_VREG_VALUE(vs);
JSTaggedValue right = GET_ACC();
if (left.IsNumber() && right.IsNumber()) {
// fast path
double valueA = left.IsInt() ? static_cast<double>(left.GetInt()) : left.GetDouble();
double valueB = right.IsInt() ? static_cast<double>(right.GetInt()) : right.GetDouble();
bool ret = JSTaggedValue::StrictNumberCompare(valueA, valueB) <= ComparisonResult::EQUAL;
SET_ACC(ret ? JSTaggedValue::True() : JSTaggedValue::False());
} else if (left.IsBigInt() && right.IsBigInt()) {
bool result = BigInt::LessThan(left, right) || BigInt::Equal(left, right);
SET_ACC(JSTaggedValue(result));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LessEq(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(LESSEQ_IMM8_V8);
}
HANDLE_OPCODE(GREATER_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::greater"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = acc;
if (left.IsNumber() && right.IsNumber()) {
// fast path
double valueA = left.IsInt() ? static_cast<double>(left.GetInt()) : left.GetDouble();
double valueB = right.IsInt() ? static_cast<double>(right.GetInt()) : right.GetDouble();
bool ret = JSTaggedValue::StrictNumberCompare(valueA, valueB) == ComparisonResult::GREAT;
SET_ACC(ret ? JSTaggedValue::True() : JSTaggedValue::False());
} else if (left.IsBigInt() && right.IsBigInt()) {
bool result = BigInt::LessThan(right, left);
SET_ACC(JSTaggedValue(result));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Greater(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(GREATER_IMM8_V8);
}
HANDLE_OPCODE(GREATEREQ_IMM8_V8) {
uint16_t vs = READ_INST_8_1();
LOG_INST() << "intrinsics::greateq "
<< " v" << vs;
JSTaggedValue left = GET_VREG_VALUE(vs);
JSTaggedValue right = GET_ACC();
if (left.IsNumber() && right.IsNumber()) {
// fast path
double valueA = left.IsInt() ? static_cast<double>(left.GetInt()) : left.GetDouble();
double valueB = right.IsInt() ? static_cast<double>(right.GetInt()) : right.GetDouble();
ComparisonResult comparison = JSTaggedValue::StrictNumberCompare(valueA, valueB);
bool ret = (comparison == ComparisonResult::GREAT) || (comparison == ComparisonResult::EQUAL);
SET_ACC(ret ? JSTaggedValue::True() : JSTaggedValue::False());
} else if (left.IsBigInt() && right.IsBigInt()) {
bool result = BigInt::LessThan(right, left) || BigInt::Equal(right, left);
SET_ACC(JSTaggedValue(result));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GreaterEq(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(GREATEREQ_IMM8_V8);
}
HANDLE_OPCODE(SHL2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::shl2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// both number, fast path
if (left.IsInt() && right.IsInt()) {
int32_t opNumber0 = left.GetInt();
int32_t opNumber1 = right.GetInt();
uint32_t shift =
static_cast<uint32_t>(opNumber1) & 0x1f; // NOLINT(hicpp-signed-bitwise, readability-magic-numbers)
using unsigned_type = std::make_unsigned_t<int32_t>;
auto ret =
static_cast<int32_t>(static_cast<unsigned_type>(opNumber0) << shift); // NOLINT(hicpp-signed-bitwise)
SET_ACC(JSTaggedValue(ret));
} else if (left.IsNumber() && right.IsNumber()) {
int32_t opNumber0 =
left.IsInt() ? left.GetInt() : base::NumberHelper::DoubleToInt(left.GetDouble(), base::INT32_BITS);
int32_t opNumber1 =
right.IsInt() ? right.GetInt() : base::NumberHelper::DoubleToInt(right.GetDouble(), base::INT32_BITS);
uint32_t shift =
static_cast<uint32_t>(opNumber1) & 0x1f; // NOLINT(hicpp-signed-bitwise, readability-magic-numbers)
using unsigned_type = std::make_unsigned_t<int32_t>;
auto ret =
static_cast<int32_t>(static_cast<unsigned_type>(opNumber0) << shift); // NOLINT(hicpp-signed-bitwise)
SET_ACC(JSTaggedValue(ret));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Shl2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(SHL2_IMM8_V8);
}
HANDLE_OPCODE(SHR2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::shr2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// both number, fast path
if (left.IsInt() && right.IsInt()) {
int32_t opNumber0 = left.GetInt();
int32_t opNumber1 = right.GetInt();
uint32_t shift =
static_cast<uint32_t>(opNumber1) & 0x1f; // NOLINT(hicpp-signed-bitwise, readability-magic-numbers)
using unsigned_type = std::make_unsigned_t<uint32_t>;
auto ret =
static_cast<uint32_t>(static_cast<unsigned_type>(opNumber0) >> shift); // NOLINT(hicpp-signed-bitwise)
SET_ACC(JSTaggedValue(ret));
} else if (left.IsNumber() && right.IsNumber()) {
int32_t opNumber0 =
left.IsInt() ? left.GetInt() : base::NumberHelper::DoubleToInt(left.GetDouble(), base::INT32_BITS);
int32_t opNumber1 =
right.IsInt() ? right.GetInt() : base::NumberHelper::DoubleToInt(right.GetDouble(), base::INT32_BITS);
uint32_t shift =
static_cast<uint32_t>(opNumber1) & 0x1f; // NOLINT(hicpp-signed-bitwise, readability-magic-numbers)
using unsigned_type = std::make_unsigned_t<uint32_t>;
auto ret =
static_cast<uint32_t>(static_cast<unsigned_type>(opNumber0) >> shift); // NOLINT(hicpp-signed-bitwise)
SET_ACC(JSTaggedValue(ret));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Shr2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(SHR2_IMM8_V8);
}
HANDLE_OPCODE(ASHR2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::ashr2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// both number, fast path
if (left.IsInt() && right.IsInt()) {
int32_t opNumber0 = left.GetInt();
int32_t opNumber1 = right.GetInt();
uint32_t shift =
static_cast<uint32_t>(opNumber1) & 0x1f; // NOLINT(hicpp-signed-bitwise, readability-magic-numbers)
auto ret = static_cast<int32_t>(opNumber0 >> shift); // NOLINT(hicpp-signed-bitwise)
SET_ACC(JSTaggedValue(ret));
} else if (left.IsNumber() && right.IsNumber()) {
int32_t opNumber0 =
left.IsInt() ? left.GetInt() : base::NumberHelper::DoubleToInt(left.GetDouble(), base::INT32_BITS);
int32_t opNumber1 =
right.IsInt() ? right.GetInt() : base::NumberHelper::DoubleToInt(right.GetDouble(), base::INT32_BITS);
uint32_t shift =
static_cast<uint32_t>(opNumber1) & 0x1f; // NOLINT(hicpp-signed-bitwise, readability-magic-numbers)
auto ret = static_cast<int32_t>(opNumber0 >> shift); // NOLINT(hicpp-signed-bitwise)
SET_ACC(JSTaggedValue(ret));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Ashr2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(ASHR2_IMM8_V8);
}
HANDLE_OPCODE(AND2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::and2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// both number, fast path
if (left.IsInt() && right.IsInt()) {
int32_t opNumber0 = left.GetInt();
int32_t opNumber1 = right.GetInt();
// NOLINT(hicpp-signed-bitwise)
auto ret = static_cast<uint32_t>(opNumber0) & static_cast<uint32_t>(opNumber1);
SET_ACC(JSTaggedValue(static_cast<int32_t>(ret)));
} else if (left.IsNumber() && right.IsNumber()) {
int32_t opNumber0 =
left.IsInt() ? left.GetInt() : base::NumberHelper::DoubleToInt(left.GetDouble(), base::INT32_BITS);
int32_t opNumber1 =
right.IsInt() ? right.GetInt() : base::NumberHelper::DoubleToInt(right.GetDouble(), base::INT32_BITS);
// NOLINT(hicpp-signed-bitwise)
auto ret = static_cast<uint32_t>(opNumber0) & static_cast<uint32_t>(opNumber1);
SET_ACC(JSTaggedValue(static_cast<int32_t>(ret)));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::And2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(AND2_IMM8_V8);
}
HANDLE_OPCODE(OR2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::or2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// both number, fast path
if (left.IsInt() && right.IsInt()) {
int32_t opNumber0 = left.GetInt();
int32_t opNumber1 = right.GetInt();
// NOLINT(hicpp-signed-bitwise)
auto ret = static_cast<uint32_t>(opNumber0) | static_cast<uint32_t>(opNumber1);
SET_ACC(JSTaggedValue(static_cast<int32_t>(ret)));
} else if (left.IsNumber() && right.IsNumber()) {
int32_t opNumber0 =
left.IsInt() ? left.GetInt() : base::NumberHelper::DoubleToInt(left.GetDouble(), base::INT32_BITS);
int32_t opNumber1 =
right.IsInt() ? right.GetInt() : base::NumberHelper::DoubleToInt(right.GetDouble(), base::INT32_BITS);
// NOLINT(hicpp-signed-bitwise)
auto ret = static_cast<uint32_t>(opNumber0) | static_cast<uint32_t>(opNumber1);
SET_ACC(JSTaggedValue(static_cast<int32_t>(ret)));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Or2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(OR2_IMM8_V8);
}
HANDLE_OPCODE(XOR2_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::xor2"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
// both number, fast path
if (left.IsInt() && right.IsInt()) {
int32_t opNumber0 = left.GetInt();
int32_t opNumber1 = right.GetInt();
// NOLINT(hicpp-signed-bitwise)
auto ret = static_cast<uint32_t>(opNumber0) ^ static_cast<uint32_t>(opNumber1);
SET_ACC(JSTaggedValue(static_cast<int32_t>(ret)));
} else if (left.IsNumber() && right.IsNumber()) {
int32_t opNumber0 =
left.IsInt() ? left.GetInt() : base::NumberHelper::DoubleToInt(left.GetDouble(), base::INT32_BITS);
int32_t opNumber1 =
right.IsInt() ? right.GetInt() : base::NumberHelper::DoubleToInt(right.GetDouble(), base::INT32_BITS);
// NOLINT(hicpp-signed-bitwise)
auto ret = static_cast<uint32_t>(opNumber0) ^ static_cast<uint32_t>(opNumber1);
SET_ACC(JSTaggedValue(static_cast<int32_t>(ret)));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Xor2(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(XOR2_IMM8_V8);
}
HANDLE_OPCODE(EXP_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::exp"
<< " v" << v0;
JSTaggedValue base = GET_VREG_VALUE(v0);
JSTaggedValue exponent = GET_ACC();
if (base.IsNumber() && exponent.IsNumber()) {
// fast path
double doubleBase = base.IsInt() ? base.GetInt() : base.GetDouble();
double doubleExponent = exponent.IsInt() ? exponent.GetInt() : exponent.GetDouble();
if ((std::abs(doubleBase) == 1 && std::isinf(doubleExponent)) || std::isnan(doubleExponent)) {
SET_ACC(JSTaggedValue(base::NAN_VALUE));
DISPATCH(EXP_IMM8_V8);
}
bool baseZero = doubleBase == 0 &&
(base::bit_cast<uint64_t>(doubleBase) & base::DOUBLE_SIGN_MASK) == base::DOUBLE_SIGN_MASK;
bool isFinite = std::isfinite(doubleExponent);
bool truncEqual = base::NumberHelper::TruncateDouble(doubleExponent) == doubleExponent;
bool halfTruncEqual = (base::NumberHelper::TruncateDouble(doubleExponent / 2) + base::HALF) ==
(doubleExponent / 2);
if (baseZero && isFinite && truncEqual && halfTruncEqual) {
if (doubleExponent > 0) {
SET_ACC(JSTaggedValue(-0.0));
}
if (doubleExponent < 0) {
SET_ACC(JSTaggedValue(-base::POSITIVE_INFINITY));
}
}
SET_ACC(JSTaggedValue(std::pow(doubleBase, doubleExponent)));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Exp(thread, base, exponent);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(EXP_IMM8_V8);
}
HANDLE_OPCODE(ISIN_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::isin"
<< " v" << v0;
JSTaggedValue prop = GET_VREG_VALUE(v0);
JSTaggedValue obj = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::IsIn(thread, prop, obj);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(ISIN_IMM8_V8);
}
HANDLE_OPCODE(INSTANCEOF_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::instanceof"
<< " v" << v0;
JSTaggedValue object = GET_VREG_VALUE(v0);
JSTaggedValue target = GET_ACC();
#if ECMASCRIPT_ENABLE_IC
// 1. If Type(target) is not Object, throw a TypeError exception.
if (target.IsECMAObject()) {
// 2. Let instOfHandler be GetMethod(target, @@hasInstance).
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue instOfHandler = JSTaggedValue::Hole();
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
instOfHandler = ICRuntimeStub::TryLoadICByName(thread, target, firstValue, secondValue);
}
if (LIKELY(!instOfHandler.IsHole())) {
res = SlowRuntimeStub::InstanceofByHandler(thread, target, object, instOfHandler);
} else if (!firstValue.IsHole()) {
// IC Miss
SAVE_ACC();
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
EcmaVM *vm = thread->GetEcmaVM();
JSTaggedValue key = vm->GetGlobalEnv()->GetHasInstanceSymbol().GetTaggedValue();
instOfHandler = ICRuntimeStub::LoadICByName(thread, profileTypeArray, target, key, slotId);
RESTORE_ACC();
target = GET_ACC();
object = GET_VREG_VALUE(v0);
res = SlowRuntimeStub::InstanceofByHandler(thread, target, object, instOfHandler);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(INSTANCEOF_IMM8_V8);
}
}
}
#endif
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Instanceof(thread, object, target);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(INSTANCEOF_IMM8_V8);
}
HANDLE_OPCODE(STRICTNOTEQ_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::strictnoteq"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
JSTaggedValue res = FastRuntimeStub::FastStrictEqual(left, right);
if (!res.IsHole()) {
res = res.IsTrue() ? JSTaggedValue::False() : JSTaggedValue::True();
SET_ACC(res);
} else {
// slow path
SAVE_PC();
res = SlowRuntimeStub::NotEq(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(STRICTNOTEQ_IMM8_V8);
}
HANDLE_OPCODE(STRICTEQ_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::stricteq"
<< " v" << v0;
JSTaggedValue left = GET_VREG_VALUE(v0);
JSTaggedValue right = GET_ACC();
JSTaggedValue res = FastRuntimeStub::FastStrictEqual(left, right);
if (!res.IsHole()) {
SET_ACC(res);
} else {
// slow path
SAVE_PC();
res = SlowRuntimeStub::Eq(thread, left, right);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(STRICTEQ_IMM8_V8);
}
HANDLE_OPCODE(CREATEITERRESULTOBJ_V8_V8) {
uint16_t v0 = READ_INST_8_0();
uint16_t v1 = READ_INST_8_1();
LOG_INST() << "intrinsics::createiterresultobj"
<< " v" << v0 << " v" << v1;
JSTaggedValue value = GET_VREG_VALUE(v0);
JSTaggedValue flag = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateIterResultObj(thread, value, flag);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEITERRESULTOBJ_V8_V8);
}
HANDLE_OPCODE(NEWOBJAPPLY_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsic::newobjapply"
<< " v" << v0;
JSTaggedValue func = GET_VREG_VALUE(v0);
JSTaggedValue array = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewObjApply(thread, func, array);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(NEWOBJAPPLY_IMM8_V8);
}
HANDLE_OPCODE(NEWOBJAPPLY_IMM16_V8) {
uint16_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsic::newobjapply"
<< " v" << v0;
JSTaggedValue func = GET_VREG_VALUE(v0);
JSTaggedValue array = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewObjApply(thread, func, array);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(NEWOBJAPPLY_IMM16_V8);
}
HANDLE_OPCODE(STOWNBYNAME_IMM8_ID16_V8) {
uint16_t stringId = READ_INST_16_1();
uint32_t v0 = READ_INST_8_3();
LOG_INST() << "intrinsics::stownbyname "
<< "v" << v0 << " stringId:" << stringId;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsJSObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
SAVE_ACC();
receiver = GET_VREG_VALUE(v0);
JSTaggedValue res = FastRuntimeStub::SetPropertyByName<ObjectFastOperator::Status::UseOwn>
(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYNAME_IMM8_ID16_V8);
}
RESTORE_ACC();
}
SAVE_ACC();
auto constpool = GetConstantPool(sp);
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
auto value = GET_ACC(); // Maybe moved by GC
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StOwnByName(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYNAME_IMM8_ID16_V8);
}
HANDLE_OPCODE(STOWNBYNAME_IMM16_ID16_V8) {
uint16_t stringId = READ_INST_16_2();
uint32_t v0 = READ_INST_8_4();
LOG_INST() << "intrinsics::stownbyname "
<< "v" << v0 << " stringId:" << stringId;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsJSObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
SAVE_ACC();
receiver = GET_VREG_VALUE(v0);
JSTaggedValue res = FastRuntimeStub::SetPropertyByName<ObjectFastOperator::Status::UseOwn>
(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYNAME_IMM16_ID16_V8);
}
RESTORE_ACC();
}
SAVE_ACC();
auto constpool = GetConstantPool(sp);
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
auto value = GET_ACC(); // Maybe moved by GC
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StOwnByName(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYNAME_IMM16_ID16_V8);
}
HANDLE_OPCODE(CREATEEMPTYARRAY_IMM8) {
LOG_INST() << "intrinsics::createemptyarray";
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateEmptyArray(thread, factory, globalEnv);
SET_ACC(res);
DISPATCH(CREATEEMPTYARRAY_IMM8);
}
HANDLE_OPCODE(CREATEEMPTYARRAY_IMM16) {
LOG_INST() << "intrinsics::createemptyarray";
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateEmptyArray(thread, factory, globalEnv);
SET_ACC(res);
DISPATCH(CREATEEMPTYARRAY_IMM16);
}
HANDLE_OPCODE(CREATEEMPTYOBJECT) {
LOG_INST() << "intrinsics::createemptyobject";
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateEmptyObject(thread, factory, globalEnv);
SET_ACC(res);
DISPATCH(CREATEEMPTYOBJECT);
}
HANDLE_OPCODE(CREATEREGEXPWITHLITERAL_IMM8_ID16_IMM8) {
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue pattern = GET_STR_FROM_CACHE(stringId);
uint8_t flags = READ_INST_8_3();
LOG_INST() << "intrinsics::createregexpwithliteral "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(pattern.GetTaggedObject()))
<< ", flags:" << flags;
JSTaggedValue res = SlowRuntimeStub::CreateRegExpWithLiteral(thread, pattern, flags);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEREGEXPWITHLITERAL_IMM8_ID16_IMM8);
}
HANDLE_OPCODE(CREATEREGEXPWITHLITERAL_IMM16_ID16_IMM8) {
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue pattern = GET_STR_FROM_CACHE(stringId);
uint8_t flags = READ_INST_8_4();
LOG_INST() << "intrinsics::createregexpwithliteral "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(pattern.GetTaggedObject()))
<< ", flags:" << flags;
JSTaggedValue res = SlowRuntimeStub::CreateRegExpWithLiteral(thread, pattern, flags);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEREGEXPWITHLITERAL_IMM16_ID16_IMM8);
}
HANDLE_OPCODE(GETNEXTPROPNAME_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsic::getnextpropname"
<< " v" << v0;
JSTaggedValue iter = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetNextPropName(thread, iter);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(GETNEXTPROPNAME_V8);
}
HANDLE_OPCODE(STOWNBYVALUE_IMM8_V8_V8) {
uint32_t v0 = READ_INST_8_1();
uint32_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::stownbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue<ObjectFastOperator::Status::UseOwn>
(thread, receiver, propKey, value);
// SetPropertyByValue maybe gc need update the value
RESTORE_ACC();
propKey = GET_VREG_VALUE(v1);
value = GET_ACC();
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYVALUE_IMM8_V8_V8);
}
}
// slow path
SAVE_ACC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto propKey = GET_VREG_VALUE(v1); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StOwnByValue(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYVALUE_IMM8_V8_V8);
}
HANDLE_OPCODE(LDHOLE) {
LOG_INST() << "intrinsic::ldhole";
SET_ACC(JSTaggedValue::Hole());
DISPATCH(LDHOLE);
}
HANDLE_OPCODE(DEFINEGETTERSETTERBYVALUE_V8_V8_V8_V8) {
uint16_t v0 = READ_INST_8_0();
uint16_t v1 = READ_INST_8_1();
uint16_t v2 = READ_INST_8_2();
uint16_t v3 = READ_INST_8_3();
LOG_INST() << "intrinsics::definegettersetterbyvalue"
<< " v" << v0 << " v" << v1 << " v" << v2 << " v" << v3;
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue prop = GET_VREG_VALUE(v1);
JSTaggedValue getter = GET_VREG_VALUE(v2);
JSTaggedValue setter = GET_VREG_VALUE(v3);
JSTaggedValue flag = GET_ACC();
SAVE_PC();
JSTaggedValue res =
SlowRuntimeStub::DefineGetterSetterByValue(thread, obj, prop, getter, setter, flag.ToBoolean());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEFINEGETTERSETTERBYVALUE_V8_V8_V8_V8);
}
HANDLE_OPCODE(STOBJBYVALUE_IMM8_V8_V8) {
uint32_t v0 = READ_INST_8_1();
uint32_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::stobjbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByValue(thread, receiver, propKey, firstValue, secondValue, value);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::StoreICByValue(thread,
profileTypeArray,
receiver, propKey, value, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYVALUE_IMM8_V8_V8);
}
}
#endif
if (receiver.IsHeapObject()) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYVALUE_IMM8_V8_V8);
}
RESTORE_ACC();
}
{
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue propKey = GET_VREG_VALUE(v1); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByValue(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
}
DISPATCH(STOBJBYVALUE_IMM8_V8_V8);
}
HANDLE_OPCODE(STOBJBYVALUE_IMM16_V8_V8) {
uint32_t v0 = READ_INST_8_2();
uint32_t v1 = READ_INST_8_3();
LOG_INST() << "intrinsics::stobjbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByValue(thread, receiver, propKey, firstValue, secondValue, value);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::StoreICByValue(thread,
profileTypeArray,
receiver, propKey, value, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYVALUE_IMM16_V8_V8);
}
}
#endif
if (receiver.IsHeapObject()) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYVALUE_IMM16_V8_V8);
}
RESTORE_ACC();
}
{
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue propKey = GET_VREG_VALUE(v1); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByValue(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
}
DISPATCH(STOBJBYVALUE_IMM16_V8_V8);
}
HANDLE_OPCODE(STSUPERBYVALUE_IMM8_V8_V8) {
uint32_t v0 = READ_INST_8_1();
uint32_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::stsuperbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// slow path
SAVE_ACC();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::StSuperByValue(thread, receiver, propKey, value, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STSUPERBYVALUE_IMM8_V8_V8);
}
HANDLE_OPCODE(TRYLDGLOBALBYNAME_IMM8_ID16) {
uint16_t stringId = READ_INST_16_1();
auto constpool = GetConstantPool(sp);
auto prop = GET_STR_FROM_CACHE(stringId);
LOG_INST() << "intrinsics::tryldglobalbyname "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(prop.GetTaggedObject()));
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
JSTaggedValue res = ICRuntimeStub::LoadGlobalICByName(thread,
ProfileTypeInfo::Cast(
profileTypeInfo.GetTaggedObject()),
globalObj, prop, slotId, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(TRYLDGLOBALBYNAME_IMM8_ID16);
}
#endif
// order: 1. global record 2. global object
JSTaggedValue result = SlowRuntimeStub::LdGlobalRecord(thread, prop);
if (!result.IsUndefined()) {
SET_ACC(PropertyBox::Cast(result.GetTaggedObject())->GetValue());
} else {
JSTaggedValue globalResult = FastRuntimeStub::GetGlobalOwnProperty(thread, globalObj, prop);
if (!globalResult.IsHole()) {
SET_ACC(globalResult);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::TryLdGlobalByNameFromGlobalProto(thread, globalObj, prop);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
}
DISPATCH(TRYLDGLOBALBYNAME_IMM8_ID16);
}
HANDLE_OPCODE(TRYLDGLOBALBYNAME_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
auto constpool = GetConstantPool(sp);
auto prop = GET_STR_FROM_CACHE(stringId);
LOG_INST() << "intrinsics::tryldglobalbyname "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(prop.GetTaggedObject()));
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
JSTaggedValue res = ICRuntimeStub::LoadGlobalICByName(thread,
ProfileTypeInfo::Cast(
profileTypeInfo.GetTaggedObject()),
globalObj, prop, slotId, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(TRYLDGLOBALBYNAME_IMM16_ID16);
}
#endif
// order: 1. global record 2. global object
JSTaggedValue result = SlowRuntimeStub::LdGlobalRecord(thread, prop);
if (!result.IsUndefined()) {
SET_ACC(PropertyBox::Cast(result.GetTaggedObject())->GetValue());
} else {
JSTaggedValue globalResult = FastRuntimeStub::GetGlobalOwnProperty(thread, globalObj, prop);
if (!globalResult.IsHole()) {
SET_ACC(globalResult);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::TryLdGlobalByNameFromGlobalProto(thread, globalObj, prop);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
}
DISPATCH(TRYLDGLOBALBYNAME_IMM16_ID16);
}
HANDLE_OPCODE(TRYSTGLOBALBYNAME_IMM8_ID16) {
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::trystglobalbyname"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
JSTaggedValue value = GET_ACC();
SAVE_ACC();
JSTaggedValue res = ICRuntimeStub::StoreGlobalICByName(thread,
ProfileTypeInfo::Cast(
profileTypeInfo.GetTaggedObject()),
globalObj, propKey, value, slotId, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(TRYSTGLOBALBYNAME_IMM8_ID16);
}
#endif
auto recordResult = SlowRuntimeStub::LdGlobalRecord(thread, propKey);
SAVE_PC();
// 1. find from global record
if (!recordResult.IsUndefined()) {
JSTaggedValue value = GET_ACC();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::TryUpdateGlobalRecord(thread, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
} else {
// 2. find from global object
SAVE_ACC();
auto globalResult = FastRuntimeStub::GetGlobalOwnProperty(thread, globalObj, propKey);
if (globalResult.IsHole()) {
auto result = SlowRuntimeStub::ThrowReferenceError(thread, propKey, " is not defined");
INTERPRETER_RETURN_IF_ABRUPT(result);
}
constpool = GetConstantPool(sp); // Maybe moved by GC
propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
JSTaggedValue res = SlowRuntimeStub::StGlobalVar(thread, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
}
DISPATCH(TRYSTGLOBALBYNAME_IMM8_ID16);
}
HANDLE_OPCODE(STOWNBYVALUEWITHNAMESET_IMM8_V8_V8) {
uint32_t v0 = READ_INST_8_1();
uint32_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::stownbyvaluewithnameset"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue<ObjectFastOperator::Status::DefineSemantics>
(thread, receiver, propKey, value);
// SetPropertyByValue maybe gc need update the value
RESTORE_ACC();
propKey = GET_VREG_VALUE(v1);
value = GET_ACC();
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
JSFunction::SetFunctionNameNoPrefix(thread, JSFunction::Cast(value.GetTaggedObject()), propKey);
RESTORE_ACC();
DISPATCH(STOWNBYVALUEWITHNAMESET_IMM8_V8_V8);
}
}
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto propKey = GET_VREG_VALUE(v1); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StOwnByValueWithNameSet(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYVALUEWITHNAMESET_IMM8_V8_V8);
}
HANDLE_OPCODE(STOWNBYNAMEWITHNAMESET_IMM8_ID16_V8) {
uint16_t stringId = READ_INST_16_1();
uint32_t v0 = READ_INST_8_3();
LOG_INST() << "intrinsics::stownbynamewithnameset "
<< "v" << v0 << " stringId:" << stringId;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsJSObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::SetPropertyByName<ObjectFastOperator::Status::DefineSemantics>
(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
JSFunction::SetFunctionNameNoPrefix(thread, JSFunction::Cast(value.GetTaggedObject()), propKey);
RESTORE_ACC();
DISPATCH(STOWNBYNAMEWITHNAMESET_IMM8_ID16_V8);
}
RESTORE_ACC();
}
SAVE_ACC();
SAVE_PC();
auto constpool = GetConstantPool(sp);
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
RESTORE_ACC();
auto value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StOwnByNameWithNameSet(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYNAMEWITHNAMESET_IMM8_ID16_V8);
}
HANDLE_OPCODE(LDGLOBALVAR_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
LOG_INST() << "intrinsics::ldglobalvar stringId:" << stringId;
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
JSTaggedValue res = ICRuntimeStub::LoadGlobalICByName(thread,
ProfileTypeInfo::Cast(
profileTypeInfo.GetTaggedObject()),
globalObj, propKey, slotId, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDGLOBALVAR_IMM16_ID16);
}
#endif
JSTaggedValue result = FastRuntimeStub::GetGlobalOwnProperty(thread, globalObj, propKey);
if (!result.IsHole()) {
SET_ACC(result);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdGlobalVarFromGlobalProto(thread, globalObj, propKey);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(LDGLOBALVAR_IMM16_ID16);
}
HANDLE_OPCODE(STOBJBYNAME_IMM8_ID16_V8) {
uint32_t v0 = READ_INST_8_3();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByName(thread, receiver, firstValue, secondValue, value);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM8_ID16_V8);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
value = GET_ACC();
receiver = GET_VREG_VALUE(v0);
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::StoreICByName(thread,
profileTypeArray,
receiver, propKey, value, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM8_ID16_V8);
}
}
#endif
uint16_t stringId = READ_INST_16_1();
LOG_INST() << "intrinsics::stobjbyname "
<< "v" << v0 << " stringId:" << stringId;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
receiver = GET_VREG_VALUE(v0);
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByName(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM8_ID16_V8);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
auto constpool = GetConstantPool(sp); // Maybe moved by GC
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
receiver = GET_VREG_VALUE(v0);
JSTaggedValue res = SlowRuntimeStub::StObjByName(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM8_ID16_V8);
}
HANDLE_OPCODE(STOBJBYNAME_IMM16_ID16_V8) {
uint16_t stringId = READ_INST_16_2();
uint32_t v0 = READ_INST_8_4();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByName(thread, receiver, firstValue, secondValue, value);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM16_ID16_V8);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
value = GET_ACC();
receiver = GET_VREG_VALUE(v0);
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::StoreICByName(thread,
profileTypeArray,
receiver, propKey, value, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM16_ID16_V8);
}
}
#endif
LOG_INST() << "intrinsics::stobjbyname "
<< "v" << v0 << " stringId:" << stringId;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
receiver = GET_VREG_VALUE(v0);
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByName(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM16_ID16_V8);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
auto constpool = GetConstantPool(sp); // Maybe moved by GC
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
receiver = GET_VREG_VALUE(v0);
JSTaggedValue res = SlowRuntimeStub::StObjByName(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYNAME_IMM16_ID16_V8);
}
HANDLE_OPCODE(STSUPERBYNAME_IMM8_ID16_V8) {
uint16_t stringId = READ_INST_16_1();
uint32_t v0 = READ_INST_8_3();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
JSTaggedValue obj = GET_VREG_VALUE(v0);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::stsuperbyname"
<< "v" << v0 << " stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
// slow path
SAVE_ACC();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::StSuperByValue(thread, obj, propKey, value, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STSUPERBYNAME_IMM8_ID16_V8);
}
HANDLE_OPCODE(STGLOBALVAR_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue prop = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::stglobalvar "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(prop.GetTaggedObject()))
<< ", value:" << value.GetRawData();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
SAVE_ACC();
JSTaggedValue res = ICRuntimeStub::StoreGlobalICByName(thread,
ProfileTypeInfo::Cast(
profileTypeInfo.GetTaggedObject()),
globalObj, prop, value, slotId, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STGLOBALVAR_IMM16_ID16);
}
#endif
SAVE_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StGlobalVar(thread, prop, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STGLOBALVAR_IMM16_ID16);
}
HANDLE_OPCODE(CREATEGENERATOROBJ_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::creategeneratorobj"
<< " v" << v0;
SAVE_PC();
JSTaggedValue genFunc = GET_VREG_VALUE(v0);
JSTaggedValue res = SlowRuntimeStub::CreateGeneratorObj(thread, genFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEGENERATOROBJ_V8);
}
HANDLE_OPCODE(STARRAYSPREAD_V8_V8) {
uint16_t v0 = READ_INST_8_0();
uint16_t v1 = READ_INST_8_1();
LOG_INST() << "ecmascript::intrinsics::starrayspread"
<< " v" << v0 << " v" << v1 << "acc";
JSTaggedValue dst = GET_VREG_VALUE(v0);
JSTaggedValue index = GET_VREG_VALUE(v1);
JSTaggedValue src = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StArraySpread(thread, dst, index, src);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(STARRAYSPREAD_V8_V8);
}
HANDLE_OPCODE(LDFUNCTION) {
LOG_INST() << "intrinsic::ldfunction";
SET_ACC(GetFunction(sp));
DISPATCH(LDFUNCTION);
}
HANDLE_OPCODE(LDBIGINT_ID16) {
uint16_t stringId = READ_INST_16_0();
LOG_INST() << "intrinsic::ldbigint";
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue numberBigInt = GET_STR_FROM_CACHE(stringId);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdBigInt(thread, numberBigInt);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDBIGINT_ID16);
}
HANDLE_OPCODE(CREATEASYNCGENERATOROBJ_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::createasyncgeneratorobj"
<< " v" << v0;
SAVE_PC();
JSTaggedValue genFunc = GET_VREG_VALUE(v0);
JSTaggedValue res = SlowRuntimeStub::CreateAsyncGeneratorObj(thread, genFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEASYNCGENERATOROBJ_V8);
}
HANDLE_OPCODE(ASYNCGENERATORRESOLVE_V8_V8_V8) {
MethodExit(thread);
uint16_t v0 = READ_INST_8_0();
uint16_t v1 = READ_INST_8_1();
uint16_t v2 = READ_INST_8_2();
LOG_INST() << "intrinsics::asyncgeneratorresolve"
<< " v" << v0 << " v" << v1 << " v" << v2;
JSTaggedValue asyncGenerator = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_VREG_VALUE(v1);
JSTaggedValue flag = GET_VREG_VALUE(v2);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncGeneratorResolve(thread, asyncGenerator, value, flag);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
InterpretedFrame *state = GET_FRAME(sp);
Method *method = JSFunction::Cast(state->function.GetTaggedObject())->GetCallTarget();
[[maybe_unused]] auto fistPC = method->GetBytecodeArray();
UPDATE_HOTNESS_COUNTER(-(pc - fistPC));
LOG_INST() << "Exit: AsyncGeneratorResolve " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(state->pc);
sp = state->base.prev;
ASSERT(sp != nullptr);
InterpretedFrame *prevState = GET_FRAME(sp);
pc = prevState->pc;
// entry frame
if (FrameHandler::IsEntryFrame(pc)) {
state->acc = acc;
return;
}
thread->SetCurrentSPFrame(sp);
INTERPRETER_HANDLE_RETURN();
}
HANDLE_OPCODE(ASYNCGENERATORREJECT_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::asyncgeneratorreject"
<< " v" << v0;
JSTaggedValue asyncGenerator = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncGeneratorReject(thread, asyncGenerator, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(ASYNCGENERATORREJECT_V8);
}
HANDLE_OPCODE(DEPRECATED_ASYNCGENERATORREJECT_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::asyncgeneratorreject"
<< " v" << v0 << " v" << v1;
JSTaggedValue asyncGenerator = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncGeneratorReject(thread, asyncGenerator, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_ASYNCGENERATORREJECT_PREF_V8_V8);
}
HANDLE_OPCODE(SUPERCALLTHISRANGE_IMM8_IMM8_V8) {
uint16_t range = READ_INST_8_1();
uint16_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::supercall"
<< " range: " << range << " v" << v0;
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue newTarget = GetNewTarget(sp);
SAVE_PC();
JSTaggedValue superCtor = SlowRuntimeStub::GetSuperConstructor(thread, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(superCtor);
if (superCtor.IsJSFunction() && superCtor.IsConstructor() && !newTarget.IsUndefined()) {
JSFunction *superCtorFunc = JSFunction::Cast(superCtor.GetTaggedObject());
methodHandle.Update(superCtorFunc->GetMethod());
if (superCtorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize =
InterpretedFrame::NumOfMembers() + range + NUM_MANDATORY_JSFUNC_ARGS + 2; // 2:thread & numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo *>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = range + NUM_MANDATORY_JSFUNC_ARGS;
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = superCtor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = newTarget.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 0; i < range; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = superCtor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall ";
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime SuperCall ";
SET_ACC(retValue);
DISPATCH(SUPERCALLTHISRANGE_IMM8_IMM8_V8);
}
if (IsFastNewFrameEnter(superCtorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = superCtorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (superCtorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, superCtor, newTarget, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(superCtorFunc->IsDerivedConstructor());
newSp[index++] = newTarget.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = superCtor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = superCtorFunc->GetProfileTypeInfo();
state->env = superCtorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 0; i < range && index < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall " << std::hex << reinterpret_cast<uintptr_t>(sp)
<< " " << std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SuperCall(thread, thisFunc, newTarget, v0, range);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(SUPERCALLTHISRANGE_IMM8_IMM8_V8);
}
HANDLE_OPCODE(WIDE_SUPERCALLTHISRANGE_PREF_IMM16_V8) {
uint16_t range = READ_INST_16_1();
uint16_t v0 = READ_INST_8_3();
LOG_INST() << "intrinsics::supercall"
<< " range: " << range << " v" << v0;
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue newTarget = GetNewTarget(sp);
SAVE_PC();
JSTaggedValue superCtor = SlowRuntimeStub::GetSuperConstructor(thread, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(superCtor);
if (superCtor.IsJSFunction() && superCtor.IsConstructor() && !newTarget.IsUndefined()) {
JSFunction *superCtorFunc = JSFunction::Cast(superCtor.GetTaggedObject());
methodHandle.Update(superCtorFunc->GetMethod());
if (superCtorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize =
InterpretedFrame::NumOfMembers() + range + NUM_MANDATORY_JSFUNC_ARGS + 2; // 2:thread & numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo *>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = range + NUM_MANDATORY_JSFUNC_ARGS;
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = superCtor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = newTarget.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 0; i < range; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = superCtor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall ";
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime SuperCall ";
SET_ACC(retValue);
DISPATCH(WIDE_SUPERCALLTHISRANGE_PREF_IMM16_V8);
}
if (IsFastNewFrameEnter(superCtorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = superCtorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (superCtorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, superCtor, newTarget, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(superCtorFunc->IsDerivedConstructor());
newSp[index++] = newTarget.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = superCtor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = superCtorFunc->GetProfileTypeInfo();
state->env = superCtorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 0; i < range && index < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall " << std::hex << reinterpret_cast<uintptr_t>(sp)
<< " " << std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SuperCall(thread, thisFunc, newTarget, v0, range);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_SUPERCALLTHISRANGE_PREF_IMM16_V8);
}
HANDLE_OPCODE(SUPERCALLARROWRANGE_IMM8_IMM8_V8) {
uint16_t range = READ_INST_8_1();
uint16_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::supercall"
<< " range: " << range << " v" << v0;
JSTaggedValue thisFunc = GET_ACC();
JSTaggedValue newTarget = GetNewTarget(sp);
SAVE_PC();
JSTaggedValue superCtor = SlowRuntimeStub::GetSuperConstructor(thread, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(superCtor);
if (superCtor.IsJSFunction() && superCtor.IsConstructor() && !newTarget.IsUndefined()) {
JSFunction *superCtorFunc = JSFunction::Cast(superCtor.GetTaggedObject());
methodHandle.Update(superCtorFunc->GetMethod());
if (superCtorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize =
InterpretedFrame::NumOfMembers() + range + NUM_MANDATORY_JSFUNC_ARGS + 2; // 2:thread & numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo *>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = range + NUM_MANDATORY_JSFUNC_ARGS;
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = superCtor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = newTarget.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 0; i < range; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = superCtor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall ";
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime SuperCall ";
SET_ACC(retValue);
DISPATCH(SUPERCALLARROWRANGE_IMM8_IMM8_V8);
}
if (IsFastNewFrameEnter(superCtorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = superCtorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (superCtorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, superCtor, newTarget, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(superCtorFunc->IsDerivedConstructor());
newSp[index++] = newTarget.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = superCtor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = superCtorFunc->GetProfileTypeInfo();
state->env = superCtorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 0; i < range && index < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall " << std::hex << reinterpret_cast<uintptr_t>(sp)
<< " " << std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SuperCall(thread, thisFunc, newTarget, v0, range);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(SUPERCALLARROWRANGE_IMM8_IMM8_V8);
}
HANDLE_OPCODE(WIDE_SUPERCALLARROWRANGE_PREF_IMM16_V8) {
uint16_t range = READ_INST_16_1();
uint16_t v0 = READ_INST_8_3();
LOG_INST() << "intrinsics::supercall"
<< " range: " << range << " v" << v0;
JSTaggedValue thisFunc = GET_ACC();
JSTaggedValue newTarget = GetNewTarget(sp);
SAVE_PC();
JSTaggedValue superCtor = SlowRuntimeStub::GetSuperConstructor(thread, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(superCtor);
if (superCtor.IsJSFunction() && superCtor.IsConstructor() && !newTarget.IsUndefined()) {
JSFunction *superCtorFunc = JSFunction::Cast(superCtor.GetTaggedObject());
methodHandle.Update(superCtorFunc->GetMethod());
if (superCtorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize =
InterpretedFrame::NumOfMembers() + range + NUM_MANDATORY_JSFUNC_ARGS + 2; // 2:thread & numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo *>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = range + NUM_MANDATORY_JSFUNC_ARGS;
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = superCtor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = newTarget.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 0; i < range; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = superCtor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall ";
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime SuperCall ";
SET_ACC(retValue);
DISPATCH(WIDE_SUPERCALLARROWRANGE_PREF_IMM16_V8);
}
if (IsFastNewFrameEnter(superCtorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = superCtorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (superCtorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, superCtor, newTarget, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(superCtorFunc->IsDerivedConstructor());
newSp[index++] = newTarget.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = superCtor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = superCtorFunc->GetProfileTypeInfo();
state->env = superCtorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 0; i < range && index < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(v0 + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime SuperCall " << std::hex << reinterpret_cast<uintptr_t>(sp)
<< " " << std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SuperCall(thread, thisFunc, newTarget, v0, range);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_SUPERCALLARROWRANGE_PREF_IMM16_V8);
}
HANDLE_OPCODE(SUPERCALLSPREAD_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsic::supercallspread"
<< " array: v" << v0;
JSTaggedValue thisFunc = GET_ACC();
JSTaggedValue newTarget = GetNewTarget(sp);
JSTaggedValue array = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SuperCallSpread(thread, thisFunc, newTarget, array);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(SUPERCALLSPREAD_IMM8_V8);
}
HANDLE_OPCODE(CALLRUNTIME_SUPERCALLFORWARDALLARGS_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsic::callruntime.supercallforwardallargs"
<< "thisFunc: v" << v0;
JSTaggedValue thisFunc = GET_VREG_VALUE(v0);
JSTaggedValue newTarget = GetNewTarget(sp);
uint32_t restIdx = 0;
uint32_t startIdx = 0;
uint32_t restNumArgs = GetNumArgs(sp, restIdx, startIdx);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SuperCallForwardAllArgs(thread, sp, thisFunc, newTarget, restNumArgs,
startIdx);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CALLRUNTIME_SUPERCALLFORWARDALLARGS_PREF_V8);
}
HANDLE_OPCODE(DEPRECATED_CREATEOBJECTHAVINGMETHOD_PREF_IMM16) {
uint16_t imm = READ_INST_16_1();
LOG_INST() << "intrinsics::createobjecthavingmethod"
<< " imm:" << imm;
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSObject *result = JSObject::Cast(GET_METHOD_FROM_CACHE(imm).GetTaggedObject());
RESTORE_ACC();
JSTaggedValue env = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateObjectHavingMethod(thread, factory, result, env);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_CREATEOBJECTHAVINGMETHOD_PREF_IMM16);
}
HANDLE_OPCODE(DEPRECATED_LDHOMEOBJECT_PREF_NONE) {
LOG_INST() << "intrinsics::ldhomeobject";
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue homeObject = JSFunction::Cast(thisFunc.GetTaggedObject())->GetHomeObject();
SET_ACC(homeObject);
DISPATCH(DEPRECATED_LDHOMEOBJECT_PREF_NONE);
}
HANDLE_OPCODE(DEBUGGER) {
LOG_INST() << "intrinsics::debugger";
NotifyDebuggerStmt(thread);
DISPATCH(DEBUGGER);
}
HANDLE_OPCODE(ISTRUE) {
LOG_INST() << "intrinsics::istrue";
if (GET_ACC().ToBoolean()) {
SET_ACC(JSTaggedValue::True());
} else {
SET_ACC(JSTaggedValue::False());
}
DISPATCH(ISTRUE);
}
HANDLE_OPCODE(CALLRUNTIME_ISTRUE_PREF_IMM8) {
LOG_INST() << "intrinsics::callruntime.istrue";
if (GET_ACC().ToBoolean()) {
SET_ACC(JSTaggedValue::True());
} else {
SET_ACC(JSTaggedValue::False());
}
DISPATCH(CALLRUNTIME_ISTRUE_PREF_IMM8);
}
HANDLE_OPCODE(ISFALSE) {
LOG_INST() << "intrinsics::isfalse";
if (!GET_ACC().ToBoolean()) {
SET_ACC(JSTaggedValue::True());
} else {
SET_ACC(JSTaggedValue::False());
}
DISPATCH(ISFALSE);
}
HANDLE_OPCODE(CALLRUNTIME_ISFALSE_PREF_IMM8) {
LOG_INST() << "intrinsics::callruntime.isfalse";
if (!GET_ACC().ToBoolean()) {
SET_ACC(JSTaggedValue::True());
} else {
SET_ACC(JSTaggedValue::False());
}
DISPATCH(CALLRUNTIME_ISFALSE_PREF_IMM8);
}
NOPRINT_HANDLE_OPCODE(EXCEPTION) {
FrameHandler frameHandler(thread);
uint32_t pcOffset = panda_file::INVALID_OFFSET;
for (; frameHandler.HasFrame(); frameHandler.PrevJSFrame()) {
if (frameHandler.IsEntryFrame()) {
return;
}
auto method = frameHandler.GetMethod();
pcOffset = method->FindCatchBlock(frameHandler.GetBytecodeOffset());
if (pcOffset != INVALID_INDEX) {
sp = frameHandler.GetSp();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
pc = method->GetBytecodeArray() + pcOffset;
break;
}
if (!method->IsNativeWithCallField()) {
auto *debuggerMgr = thread->GetEcmaVM()->GetJsDebuggerManager();
debuggerMgr->GetNotificationManager()->MethodExitEvent(thread, method);
}
}
if (pcOffset == INVALID_INDEX) {
LOG_FULL(FATAL) << "EXCEPTION: EntryFrame Not Found";
UNREACHABLE();
}
auto exception = thread->GetException();
SET_ACC(exception);
thread->ClearException();
thread->SetCurrentSPFrame(sp);
DISPATCH_OFFSET(0);
}
HANDLE_OPCODE(OVERFLOW) {
LOG_INTERPRETER(FATAL) << "opcode overflow";
}
HANDLE_OPCODE(NOP) {
LOG_INST() << "intrinsics::nop";
DISPATCH(NOP);
}
NOPRINT_HANDLE_OPCODE(THROW) {
DISPATCH_THROW();
}
NOPRINT_HANDLE_OPCODE(WIDE) {
DISPATCH_WIDE();
}
NOPRINT_HANDLE_OPCODE(DEPRECATED) {
DISPATCH_DEPRECATED();
}
NOPRINT_HANDLE_OPCODE(CALLRUNTIME) {
DISPATCH_CALLRUNTIME();
}
HANDLE_OPCODE(THROW_PREF_NONE) {
LOG_INST() << "intrinsics::throw";
SAVE_PC();
SlowRuntimeStub::Throw(thread, GET_ACC());
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_CONSTASSIGNMENT_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "throwconstassignment"
<< " v" << v0;
SAVE_PC();
SlowRuntimeStub::ThrowConstAssignment(thread, GET_VREG_VALUE(v0));
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_NOTEXISTS_PREF_NONE) {
LOG_INST() << "throwthrownotexists";
SAVE_PC();
SlowRuntimeStub::ThrowThrowNotExists(thread);
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_PATTERNNONCOERCIBLE_PREF_NONE) {
LOG_INST() << "throwpatternnoncoercible";
SAVE_PC();
SlowRuntimeStub::ThrowPatternNonCoercible(thread);
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_IFNOTOBJECT_PREF_V8) {
LOG_INST() << "throwifnotobject";
uint16_t v0 = READ_INST_8_1();
JSTaggedValue value = GET_VREG_VALUE(v0);
// fast path
if (value.IsECMAObject()) {
DISPATCH(THROW_IFNOTOBJECT_PREF_V8);
}
// slow path
SAVE_PC();
SlowRuntimeStub::ThrowIfNotObject(thread);
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_UNDEFINEDIFHOLE_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsic::throwundefinedifhole"
<< " v" << v0 << " v" << v1;
JSTaggedValue hole = GET_VREG_VALUE(v0);
if (!hole.IsHole()) {
DISPATCH(THROW_UNDEFINEDIFHOLE_PREF_V8_V8);
}
JSTaggedValue obj = GET_VREG_VALUE(v1);
ASSERT(obj.IsString());
SAVE_PC();
SlowRuntimeStub::ThrowUndefinedIfHole(thread, obj);
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_UNDEFINEDIFHOLEWITHNAME_PREF_ID16) {
JSTaggedValue hole = acc;
if (!hole.IsHole()) {
DISPATCH(THROW_UNDEFINEDIFHOLEWITHNAME_PREF_ID16);
}
uint16_t stringId = READ_INST_16_1();
LOG_INST() << "intrinsic::throwundefinedifholewithname" << std::hex << stringId;
JSTaggedValue constpool = GetConstantPool(sp);
JSTaggedValue obj = GET_STR_FROM_CACHE(stringId);
ASSERT(obj.IsString());
SAVE_PC();
SlowRuntimeStub::ThrowUndefinedIfHole(thread, obj);
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_DELETESUPERPROPERTY_PREF_NONE) {
LOG_INST() << "throwdeletesuperproperty";
SAVE_PC();
SlowRuntimeStub::ThrowDeleteSuperProperty(thread);
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
HANDLE_OPCODE(THROW_IFSUPERNOTCORRECTCALL_PREF_IMM8) {
uint8_t imm = READ_INST_8_1();
JSTaggedValue thisValue = GET_ACC();
LOG_INST() << "intrinsic::throwifsupernotcorrectcall"
<< " imm:" << imm;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::ThrowIfSuperNotCorrectCall(thread, imm, thisValue);
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(THROW_IFSUPERNOTCORRECTCALL_PREF_IMM8);
}
HANDLE_OPCODE(THROW_IFSUPERNOTCORRECTCALL_PREF_IMM16) {
uint16_t imm = READ_INST_16_1();
JSTaggedValue thisValue = GET_ACC();
LOG_INST() << "intrinsic::throwifsupernotcorrectcall"
<< " imm:" << imm;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::ThrowIfSuperNotCorrectCall(thread, imm, thisValue);
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(THROW_IFSUPERNOTCORRECTCALL_PREF_IMM16);
}
HANDLE_OPCODE(CREATEOBJECTWITHEXCLUDEDKEYS_IMM8_V8_V8) {
uint8_t numKeys = READ_INST_8_0();
uint16_t v0 = READ_INST_8_1();
uint16_t firstArgRegIdx = READ_INST_8_2();
LOG_INST() << "intrinsics::createobjectwithexcludedkeys " << numKeys << " v" << firstArgRegIdx;
JSTaggedValue obj = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateObjectWithExcludedKeys(thread, numKeys, obj, firstArgRegIdx);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEOBJECTWITHEXCLUDEDKEYS_IMM8_V8_V8);
}
HANDLE_OPCODE(WIDE_CREATEOBJECTWITHEXCLUDEDKEYS_PREF_IMM16_V8_V8) {
uint16_t numKeys = READ_INST_16_1();
uint16_t v0 = READ_INST_8_3();
uint16_t firstArgRegIdx = READ_INST_8_4();
LOG_INST() << "intrinsics::createobjectwithexcludedkeys " << numKeys << " v" << firstArgRegIdx;
JSTaggedValue obj = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateObjectWithExcludedKeys(thread, numKeys, obj, firstArgRegIdx);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_CREATEOBJECTWITHEXCLUDEDKEYS_PREF_IMM16_V8_V8);
}
HANDLE_OPCODE(NEWOBJRANGE_IMM8_IMM8_V8) {
uint16_t numArgs = READ_INST_8_1();
uint16_t firstArgRegIdx = READ_INST_8_2();
LOG_INST() << "intrinsics::newobjRange " << numArgs << " v" << firstArgRegIdx;
JSTaggedValue ctor = GET_VREG_VALUE(firstArgRegIdx);
if (ctor.IsJSFunction() && ctor.IsConstructor()) {
JSFunction *ctorFunc = JSFunction::Cast(ctor.GetTaggedObject());
methodHandle.Update(ctorFunc->GetMethod());
if (ctorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize = InterpretedFrame::NumOfMembers() + numArgs + 4; // 2: numArgs & thread
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo*>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = numArgs + 2; // 2: for newtarget / this
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = ctor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = ctor.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 1; i < numArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(firstArgRegIdx + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = ctor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime New.";
SAVE_PC();
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime New.";
SET_ACC(retValue);
DISPATCH(NEWOBJRANGE_IMM8_IMM8_V8);
}
if (IsFastNewFrameEnter(ctorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = ctorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (ctorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, ctor, ctor, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(ctorFunc->IsDerivedConstructor());
newSp[index++] = ctor.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = ctor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = ctorFunc->GetProfileTypeInfo();
state->env = ctorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 1; i < numArgs && index < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(firstArgRegIdx + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime New " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
// bound function, proxy, other call types, enter slow path
constexpr uint16_t firstArgOffset = 1;
// Exclude func and newTarget
uint16_t firstArgIdx = firstArgRegIdx + firstArgOffset;
uint16_t length = numArgs - firstArgOffset;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewObjRange(thread, ctor, ctor, firstArgIdx, length);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(NEWOBJRANGE_IMM8_IMM8_V8);
}
HANDLE_OPCODE(NEWOBJRANGE_IMM16_IMM8_V8) {
uint16_t numArgs = READ_INST_8_2();
uint16_t firstArgRegIdx = READ_INST_8_3();
LOG_INST() << "intrinsics::newobjRange " << numArgs << " v" << firstArgRegIdx;
JSTaggedValue ctor = GET_VREG_VALUE(firstArgRegIdx);
if (ctor.IsJSFunction() && ctor.IsConstructor()) {
JSFunction *ctorFunc = JSFunction::Cast(ctor.GetTaggedObject());
methodHandle.Update(ctorFunc->GetMethod());
if (ctorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize =
InterpretedFrame::NumOfMembers() + numArgs + 4; // 4: newtarget/this & numArgs & thread
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo*>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = numArgs + 2; // 2: for newtarget/this
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = ctor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = ctor.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 1; i < numArgs; ++i) { // 1: func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(firstArgRegIdx + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = ctor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime New.";
SAVE_PC();
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime New.";
SET_ACC(retValue);
DISPATCH(NEWOBJRANGE_IMM16_IMM8_V8);
}
if (IsFastNewFrameEnter(ctorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = ctorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (ctorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, ctor, ctor, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(ctorFunc->IsDerivedConstructor());
newSp[index++] = ctor.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = ctor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = ctorFunc->GetProfileTypeInfo();
state->env = ctorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 1; i < numArgs && index < numVregs + numDeclaredArgs; ++i) { // 2: func and newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(firstArgRegIdx + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime New " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
// bound function, proxy, other call types, enter slow path
constexpr uint16_t firstArgOffset = 1;
// Exclude func and newTarget
uint16_t firstArgIdx = firstArgRegIdx + firstArgOffset;
uint16_t length = numArgs - firstArgOffset;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewObjRange(thread, ctor, ctor, firstArgIdx, length);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(NEWOBJRANGE_IMM16_IMM8_V8);
}
HANDLE_OPCODE(WIDE_NEWOBJRANGE_PREF_IMM16_V8) {
uint16_t numArgs = READ_INST_16_1();
uint16_t firstArgRegIdx = READ_INST_8_3();
LOG_INST() << "intrinsics::newobjRange " << numArgs << " v" << firstArgRegIdx;
JSTaggedValue ctor = GET_VREG_VALUE(firstArgRegIdx);
if (ctor.IsJSFunction() && ctor.IsConstructor()) {
JSFunction *ctorFunc = JSFunction::Cast(ctor.GetTaggedObject());
methodHandle.Update(ctorFunc->GetMethod());
if (ctorFunc->IsBuiltinConstructor()) {
ASSERT(methodHandle->GetNumVregsWithCallField() == 0);
size_t frameSize = InterpretedFrame::NumOfMembers() + numArgs + 4; // 3: this & numArgs & thread
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
// copy args
uint32_t index = 0;
// numArgs
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
EcmaRuntimeCallInfo *ecmaRuntimeCallInfo = reinterpret_cast<EcmaRuntimeCallInfo*>(newSp);
newSp[index++] = ToUintPtr(thread);
newSp[index++] = numArgs + 2; // 2: +1 for this
// func
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = ctor.GetRawData();
// newTarget
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = ctor.GetRawData();
// this
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
for (size_t i = 1; i < numArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(firstArgRegIdx + i);
}
InterpretedBuiltinFrame *state = GET_BUILTIN_FRAME(newSp);
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_BUILTIN_FRAME;
state->pc = nullptr;
state->function = ctor;
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime New.";
SAVE_PC();
JSTaggedValue retValue = reinterpret_cast<EcmaEntrypoint>(
const_cast<void *>(methodHandle->GetNativePointer()))(ecmaRuntimeCallInfo);
thread->SetCurrentSPFrame(sp);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
LOG_INST() << "Exit: Runtime New.";
SET_ACC(retValue);
DISPATCH(WIDE_NEWOBJRANGE_PREF_IMM16_V8);
}
if (IsFastNewFrameEnter(ctorFunc, methodHandle)) {
SAVE_PC();
uint32_t numVregs = methodHandle->GetNumVregsWithCallField();
uint32_t numDeclaredArgs = ctorFunc->IsBase() ?
methodHandle->GetNumArgsWithCallField() + 1 : // +1 for this
methodHandle->GetNumArgsWithCallField() + 2; // +2 for newTarget and this
size_t frameSize = InterpretedFrame::NumOfMembers() + numVregs + numDeclaredArgs;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSTaggedType *newSp = sp - frameSize;
InterpretedFrame *state = GET_FRAME(newSp);
if (UNLIKELY(thread->DoStackOverflowCheck(newSp))) {
INTERPRETER_GOTO_EXCEPTION_HANDLER();
}
uint32_t index = 0;
// initialize vregs value
for (size_t i = 0; i < numVregs; ++i) {
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
// this
JSTaggedValue thisObj;
if (ctorFunc->IsBase()) {
thisObj = FastRuntimeStub::NewThisObject(thread, ctor, ctor, state);
INTERPRETER_RETURN_IF_ABRUPT(thisObj);
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
} else {
ASSERT(ctorFunc->IsDerivedConstructor());
newSp[index++] = ctor.GetRawData();
thisObj = JSTaggedValue::Undefined();
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = thisObj.GetRawData();
state->function = ctor;
state->constpool = methodHandle->GetConstantPool();
state->profileTypeInfo = ctorFunc->GetProfileTypeInfo();
state->env = ctorFunc->GetLexicalEnv();
}
// the second condition ensure not push extra args
for (size_t i = 1; i < numArgs && index < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = GET_VREG(firstArgRegIdx + i);
}
// set undefined to the extra prats of declare
for (size_t i = index; i < numVregs + numDeclaredArgs; ++i) {
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp[index++] = JSTaggedValue::VALUE_UNDEFINED;
}
state->base.prev = sp;
state->base.type = FrameType::INTERPRETER_FAST_NEW_FRAME;
state->thisObj = thisObj;
state->pc = pc = methodHandle->GetBytecodeArray();
sp = newSp;
state->acc = JSTaggedValue::Hole();
thread->SetCurrentSPFrame(newSp);
LOG_INST() << "Entry: Runtime New " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(pc);
MethodEntry(thread);
DISPATCH_OFFSET(0);
}
}
// bound function, proxy, other call types, enter slow path
constexpr uint16_t firstArgOffset = 1;
// Exclude func and newTarget
uint16_t firstArgIdx = firstArgRegIdx + firstArgOffset;
uint16_t length = numArgs - firstArgOffset;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewObjRange(thread, ctor, ctor, firstArgIdx, length);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_NEWOBJRANGE_PREF_IMM16_V8);
}
HANDLE_OPCODE(NEWLEXENV_IMM8) {
uint8_t numVars = READ_INST_8_0();
LOG_INST() << "intrinsics::newlexenv"
<< " imm " << numVars;
JSTaggedValue res = FastRuntimeStub::NewLexicalEnv(thread, factory, numVars);
if (res.IsHole()) {
SAVE_PC();
res = SlowRuntimeStub::NewLexicalEnv(thread, numVars);
INTERPRETER_RETURN_IF_ABRUPT(res);
}
SET_ACC(res);
GET_FRAME(sp)->env = res;
DISPATCH(NEWLEXENV_IMM8);
}
HANDLE_OPCODE(WIDE_NEWLEXENV_PREF_IMM16) {
uint16_t numVars = READ_INST_16_1();
LOG_INST() << "intrinsics::newlexenv"
<< " imm " << numVars;
JSTaggedValue res = FastRuntimeStub::NewLexicalEnv(thread, factory, numVars);
if (res.IsHole()) {
SAVE_PC();
res = SlowRuntimeStub::NewLexicalEnv(thread, numVars);
INTERPRETER_RETURN_IF_ABRUPT(res);
}
SET_ACC(res);
GET_FRAME(sp)->env = res;
DISPATCH(WIDE_NEWLEXENV_PREF_IMM16);
}
HANDLE_OPCODE(NEWLEXENVWITHNAME_IMM8_ID16) {
uint16_t numVars = READ_INST_8_0();
uint16_t scopeId = READ_INST_16_1();
LOG_INST() << "intrinsics::newlexenvwithname"
<< " numVars " << numVars << " scopeId " << scopeId;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewLexicalEnvWithName(thread, numVars, scopeId);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
GET_FRAME(sp)->env = res;
DISPATCH(NEWLEXENVWITHNAME_IMM8_ID16);
}
HANDLE_OPCODE(WIDE_NEWLEXENVWITHNAME_PREF_IMM16_ID16) {
uint16_t numVars = READ_INST_16_1();
uint16_t scopeId = READ_INST_16_3();
LOG_INST() << "intrinsics::newlexenvwithname"
<< " numVars " << numVars << " scopeId " << scopeId;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewLexicalEnvWithName(thread, numVars, scopeId);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
GET_FRAME(sp)->env = res;
DISPATCH(WIDE_NEWLEXENVWITHNAME_PREF_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_LDLEXENV_PREF_NONE) {
LOG_INST() << "intrinsics::ldlexenv ";
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue currentLexenv = state->env;
SET_ACC(currentLexenv);
DISPATCH(DEPRECATED_LDLEXENV_PREF_NONE);
}
HANDLE_OPCODE(POPLEXENV) {
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue currentLexenv = state->env;
JSTaggedValue parentLexenv = LexicalEnv::Cast(currentLexenv.GetTaggedObject())->GetParentEnv();
GET_FRAME(sp)->env = parentLexenv;
DISPATCH(POPLEXENV);
}
HANDLE_OPCODE(DEPRECATED_POPLEXENV_PREF_NONE) {
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue currentLexenv = state->env;
JSTaggedValue parentLexenv = LexicalEnv::Cast(currentLexenv.GetTaggedObject())->GetParentEnv();
GET_FRAME(sp)->env = parentLexenv;
DISPATCH(DEPRECATED_POPLEXENV_PREF_NONE);
}
HANDLE_OPCODE(GETITERATOR_IMM8) {
LOG_INST() << "intrinsics::getiterator";
JSTaggedValue obj = GET_ACC();
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetIterator(thread, obj);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
SET_ACC(res);
DISPATCH(GETITERATOR_IMM8);
}
HANDLE_OPCODE(GETITERATOR_IMM16) {
LOG_INST() << "intrinsics::getiterator";
JSTaggedValue obj = GET_ACC();
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetIterator(thread, obj);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
SET_ACC(res);
DISPATCH(GETITERATOR_IMM16);
}
HANDLE_OPCODE(GETASYNCITERATOR_IMM8) {
LOG_INST() << "intrinsics::getasynciterator";
JSTaggedValue obj = GET_ACC();
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetAsyncIterator(thread, obj);
HANDLE_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
SET_ACC(res);
DISPATCH(GETASYNCITERATOR_IMM8);
}
HANDLE_OPCODE(LDPRIVATEPROPERTY_IMM8_IMM16_IMM16) {
JSTaggedValue lexicalEnv = GET_FRAME(sp)->env;
uint32_t levelIndex = READ_INST_16_1();
uint32_t slotIndex = READ_INST_16_3();
JSTaggedValue obj = GET_ACC();
LOG_INST() << "intrinsics::ldprivateproperty" << " levelIndex:" << levelIndex
<< ", slotIndex:" << slotIndex << ", obj:" << obj.GetRawData();
JSTaggedValue res = SlowRuntimeStub::LdPrivateProperty(thread, lexicalEnv, levelIndex, slotIndex, obj);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDPRIVATEPROPERTY_IMM8_IMM16_IMM16);
}
HANDLE_OPCODE(STPRIVATEPROPERTY_IMM8_IMM16_IMM16_V8) {
JSTaggedValue lexicalEnv = GET_FRAME(sp)->env;
uint32_t levelIndex = READ_INST_16_1();
uint32_t slotIndex = READ_INST_16_3();
uint32_t v0 = READ_INST_8_5();
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::stprivateproperty" << " levelIndex:" << levelIndex
<< ", slotIndex:" << slotIndex << ", v" << v0
<<", obj:" << obj.GetRawData() << ", value:" << value.GetRawData();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::StPrivateProperty(thread, lexicalEnv, levelIndex, slotIndex, obj, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STPRIVATEPROPERTY_IMM8_IMM16_IMM16_V8);
}
HANDLE_OPCODE(TESTIN_IMM8_IMM16_IMM16) {
JSTaggedValue lexicalEnv = GET_FRAME(sp)->env;
[[maybe_unused]] uint32_t slotId = READ_INST_8_0();
uint32_t levelIndex = READ_INST_16_1();
uint32_t slotIndex = READ_INST_16_3();
JSTaggedValue obj = GET_ACC();
LOG_INST() << "intrinsics::testin" << " levelIndex:" << levelIndex
<< ", slotIndex:" << slotIndex << ", obj:" << obj.GetRawData();
JSTaggedValue res = SlowRuntimeStub::TestIn(thread, lexicalEnv, levelIndex, slotIndex, obj);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(TESTIN_IMM8_IMM16_IMM16);
}
HANDLE_OPCODE(DEPRECATED_GETITERATORNEXT_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsic::getiteratornext"
<< " v" << v0 << " v" << v1;
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue method = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetIteratorNext(thread, obj, method);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_GETITERATORNEXT_PREF_V8_V8);
}
HANDLE_OPCODE(CREATEARRAYWITHBUFFER_IMM8_ID16) {
uint16_t imm = READ_INST_16_1();
LOG_INST() << "intrinsics::createarraywithbuffer"
<< " imm:" << imm;
auto constpool = GetUnsharedConstpool(thread, sp);
JSArray *result = JSArray::Cast(GET_LITERA_FROM_CACHE(imm, ConstPoolType::ARRAY_LITERAL,
GetEcmaModule(sp)).GetTaggedObject());
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateArrayWithBuffer(thread, factory, result);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEARRAYWITHBUFFER_IMM8_ID16);
}
HANDLE_OPCODE(CREATEARRAYWITHBUFFER_IMM16_ID16) {
uint16_t imm = READ_INST_16_2();
LOG_INST() << "intrinsics::createarraywithbuffer"
<< " imm:" << imm;
auto constpool = GetUnsharedConstpool(thread, sp);
JSArray *result = JSArray::Cast(GET_LITERA_FROM_CACHE(imm, ConstPoolType::ARRAY_LITERAL,
GetEcmaModule(sp)).GetTaggedObject());
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateArrayWithBuffer(thread, factory, result);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEARRAYWITHBUFFER_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_CREATEARRAYWITHBUFFER_PREF_IMM16) {
uint16_t imm = READ_INST_16_1();
LOG_INST() << "intrinsics::createarraywithbuffer"
<< " imm:" << imm;
auto constpool = GetConstantPool(sp);
JSArray *result = JSArray::Cast(GET_METHOD_FROM_CACHE(imm).GetTaggedObject());
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateArrayWithBuffer(thread, factory, result);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_CREATEARRAYWITHBUFFER_PREF_IMM16);
}
HANDLE_OPCODE(CREATEOBJECTWITHBUFFER_IMM8_ID16) {
uint16_t imm = READ_INST_16_1();
LOG_INST() << "intrinsics::createobjectwithbuffer"
<< " imm:" << imm;
auto constpool = GetUnsharedConstpool(thread, sp);
JSObject *result = JSObject::Cast(GET_LITERA_FROM_CACHE(imm, ConstPoolType::OBJECT_LITERAL,
GetEcmaModule(sp)).GetTaggedObject());
SAVE_PC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue res = SlowRuntimeStub::CreateObjectHavingMethod(thread, factory, result, state->env);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEOBJECTWITHBUFFER_IMM8_ID16);
}
HANDLE_OPCODE(CREATEOBJECTWITHBUFFER_IMM16_ID16) {
uint16_t imm = READ_INST_16_2();
LOG_INST() << "intrinsics::createobjectwithbuffer"
<< " imm:" << imm;
auto constpool = GetUnsharedConstpool(thread, sp);
JSObject *result = JSObject::Cast(GET_LITERA_FROM_CACHE(imm, ConstPoolType::OBJECT_LITERAL,
GetEcmaModule(sp)).GetTaggedObject());
SAVE_PC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue res = SlowRuntimeStub::CreateObjectHavingMethod(thread, factory, result, state->env);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CREATEOBJECTWITHBUFFER_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_CREATEOBJECTWITHBUFFER_PREF_IMM16) {
uint16_t imm = READ_INST_16_1();
LOG_INST() << "intrinsics::createobjectwithbuffer"
<< " imm:" << imm;
auto constpool = GetConstantPool(sp);
JSObject *result = JSObject::Cast(GET_METHOD_FROM_CACHE(imm).GetTaggedObject());
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CreateObjectWithBuffer(thread, factory, result);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_CREATEOBJECTWITHBUFFER_PREF_IMM16);
}
HANDLE_OPCODE(TONUMBER_IMM8) {
LOG_INST() << "intrinsics::tonumber";
JSTaggedValue value = GET_ACC();
if (value.IsNumber()) {
// fast path
SET_ACC(value);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::ToNumber(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(TONUMBER_IMM8);
}
HANDLE_OPCODE(DEPRECATED_TONUMBER_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::tonumber"
<< " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
if (value.IsNumber()) {
// fast path
SET_ACC(value);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::ToNumber(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEPRECATED_TONUMBER_PREF_V8);
}
HANDLE_OPCODE(TONUMERIC_IMM8) {
LOG_INST() << "intrinsics::tonumeric";
JSTaggedValue value = GET_ACC();
if (value.IsNumber() || value.IsBigInt()) {
// fast path
SET_ACC(value);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::ToNumeric(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(TONUMERIC_IMM8);
}
HANDLE_OPCODE(DEPRECATED_TONUMERIC_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::tonumeric"
<< " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
if (value.IsNumber() || value.IsBigInt()) {
// fast path
SET_ACC(value);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::ToNumeric(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEPRECATED_TONUMERIC_PREF_V8);
}
HANDLE_OPCODE(NEG_IMM8) {
LOG_INST() << "intrinsics::neg";
JSTaggedValue value = GET_ACC();
// fast path
if (value.IsInt()) {
if (value.GetInt() == 0) {
SET_ACC(JSTaggedValue(-0.0));
} else if (value.GetInt() == INT32_MIN) {
SET_ACC(JSTaggedValue(-static_cast<double>(INT32_MIN)));
} else {
SET_ACC(JSTaggedValue(-value.GetInt()));
}
} else if (value.IsDouble()) {
SET_ACC(JSTaggedValue(-value.GetDouble()));
} else { // slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Neg(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(NEG_IMM8);
}
HANDLE_OPCODE(DEPRECATED_NEG_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::neg"
<< " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
// fast path
if (value.IsInt()) {
if (value.GetInt() == 0) {
SET_ACC(JSTaggedValue(-0.0));
} else {
SET_ACC(JSTaggedValue(-value.GetInt()));
}
} else if (value.IsDouble()) {
SET_ACC(JSTaggedValue(-value.GetDouble()));
} else { // slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Neg(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEPRECATED_NEG_PREF_V8);
}
HANDLE_OPCODE(NOT_IMM8) {
LOG_INST() << "intrinsics::not";
JSTaggedValue value = GET_ACC();
int32_t number;
// number, fast path
if (value.IsInt()) {
number = static_cast<int32_t>(value.GetInt());
SET_ACC(JSTaggedValue(~number)); // NOLINT(hicpp-signed-bitwise);
} else if (value.IsDouble()) {
number = base::NumberHelper::DoubleToInt(value.GetDouble(), base::INT32_BITS);
SET_ACC(JSTaggedValue(~number)); // NOLINT(hicpp-signed-bitwise);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Not(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(NOT_IMM8);
}
HANDLE_OPCODE(DEPRECATED_NOT_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::not"
<< " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
int32_t number;
// number, fast path
if (value.IsInt()) {
number = static_cast<int32_t>(value.GetInt());
SET_ACC(JSTaggedValue(~number)); // NOLINT(hicpp-signed-bitwise);
} else if (value.IsDouble()) {
number = base::NumberHelper::DoubleToInt(value.GetDouble(), base::INT32_BITS);
SET_ACC(JSTaggedValue(~number)); // NOLINT(hicpp-signed-bitwise);
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Not(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEPRECATED_NOT_PREF_V8);
}
HANDLE_OPCODE(INC_IMM8) {
LOG_INST() << "intrinsics::inc";
JSTaggedValue value = GET_ACC();
// number fast path
if (value.IsInt()) {
int32_t a0 = value.GetInt();
if (UNLIKELY(a0 == INT32_MAX)) {
auto ret = static_cast<double>(a0) + 1.0;
SET_ACC(JSTaggedValue(ret));
} else {
SET_ACC(JSTaggedValue(a0 + 1));
}
} else if (value.IsDouble()) {
SET_ACC(JSTaggedValue(value.GetDouble() + 1.0));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Inc(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(INC_IMM8);
}
HANDLE_OPCODE(DEPRECATED_INC_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::inc"
<< " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
// number fast path
if (value.IsInt()) {
int32_t a0 = value.GetInt();
if (UNLIKELY(a0 == INT32_MAX)) {
auto ret = static_cast<double>(a0) + 1.0;
SET_ACC(JSTaggedValue(ret));
} else {
SET_ACC(JSTaggedValue(a0 + 1));
}
} else if (value.IsDouble()) {
SET_ACC(JSTaggedValue(value.GetDouble() + 1.0));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Inc(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEPRECATED_INC_PREF_V8);
}
HANDLE_OPCODE(DEC_IMM8) {
LOG_INST() << "intrinsics::dec";
JSTaggedValue value = GET_ACC();
// number, fast path
if (value.IsInt()) {
int32_t a0 = value.GetInt();
if (UNLIKELY(a0 == INT32_MIN)) {
auto ret = static_cast<double>(a0) - 1.0;
SET_ACC(JSTaggedValue(ret));
} else {
SET_ACC(JSTaggedValue(a0 - 1));
}
} else if (value.IsDouble()) {
SET_ACC(JSTaggedValue(value.GetDouble() - 1.0));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Dec(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEC_IMM8);
}
HANDLE_OPCODE(DEPRECATED_DEC_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::dec"
<< " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
// number, fast path
if (value.IsInt()) {
int32_t a0 = value.GetInt();
if (UNLIKELY(a0 == INT32_MIN)) {
auto ret = static_cast<double>(a0) - 1.0;
SET_ACC(JSTaggedValue(ret));
} else {
SET_ACC(JSTaggedValue(a0 - 1));
}
} else if (value.IsDouble()) {
SET_ACC(JSTaggedValue(value.GetDouble() - 1.0));
} else {
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::Dec(thread, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
}
DISPATCH(DEPRECATED_DEC_PREF_V8);
}
HANDLE_OPCODE(DEFINEFUNC_IMM8_ID16_IMM8) {
uint16_t methodId = READ_INST_16_1();
uint16_t length = READ_INST_8_3();
LOG_INST() << "intrinsics::definefunc length: " << length;
auto constpool = GetConstantPool(sp);
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue envHandle = state->env;
JSFunction *currentFunc = JSFunction::Cast((GET_FRAME(sp)->function).GetTaggedObject());
auto res = SlowRuntimeStub::DefineFunc(thread, constpool, methodId, currentFunc->GetModule(),
length, envHandle, currentFunc->GetHomeObject());
JSHandle<JSFunction> jsFunc(thread, res);
#if ECMASCRIPT_ENABLE_IC
if (!jsFunc->IsSharedFunction()) {
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
uint16_t slotId = READ_INST_8_0();
UpdateProfileTypeInfoCellToFunction(thread, jsFunc, profileTypeInfo, slotId);
}
#endif
SET_ACC(jsFunc.GetTaggedValue());
DISPATCH(DEFINEFUNC_IMM8_ID16_IMM8);
}
HANDLE_OPCODE(DEFINEFUNC_IMM16_ID16_IMM8) {
uint16_t methodId = READ_INST_16_2();
uint16_t length = READ_INST_8_4();
LOG_INST() << "intrinsics::definefunc length: " << length;
auto constpool = GetConstantPool(sp);
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue envHandle = state->env;
JSFunction *currentFunc = JSFunction::Cast((GET_FRAME(sp)->function).GetTaggedObject());
auto res = SlowRuntimeStub::DefineFunc(thread, constpool, methodId, currentFunc->GetModule(),
length, envHandle, currentFunc->GetHomeObject());
JSHandle<JSFunction> jsFunc(thread, res);
#if ECMASCRIPT_ENABLE_IC
if (!jsFunc->IsSharedFunction()) {
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
uint16_t slotId = READ_INST_16_0();
UpdateProfileTypeInfoCellToFunction(thread, jsFunc, profileTypeInfo, slotId);
}
#endif
SET_ACC(jsFunc.GetTaggedValue());
DISPATCH(DEFINEFUNC_IMM16_ID16_IMM8);
}
HANDLE_OPCODE(DEFINEMETHOD_IMM8_ID16_IMM8) {
uint16_t methodId = READ_INST_16_1();
uint16_t length = READ_INST_8_3();
LOG_INST() << "intrinsics::definemethod length: " << length;
SAVE_ACC();
auto constpool = GetConstantPool(sp);
Method *method = Method::Cast(GET_METHOD_FROM_CACHE(methodId).GetTaggedObject());
ASSERT(method != nullptr);
RESTORE_ACC();
SAVE_PC();
JSTaggedValue homeObject = GET_ACC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue taggedCurEnv = state->env;
auto res = SlowRuntimeStub::DefineMethod(thread, method, homeObject, length, taggedCurEnv, GetEcmaModule(sp));
INTERPRETER_RETURN_IF_ABRUPT(res);
JSFunction *result = JSFunction::Cast(res.GetTaggedObject());
SET_ACC(JSTaggedValue(result));
DISPATCH(DEFINEMETHOD_IMM8_ID16_IMM8);
}
HANDLE_OPCODE(DEFINEMETHOD_IMM16_ID16_IMM8) {
uint16_t methodId = READ_INST_16_2();
uint16_t length = READ_INST_8_4();
LOG_INST() << "intrinsics::definemethod length: " << length;
SAVE_ACC();
auto constpool = GetConstantPool(sp);
Method *method = Method::Cast(GET_METHOD_FROM_CACHE(methodId).GetTaggedObject());
ASSERT(method != nullptr);
RESTORE_ACC();
SAVE_PC();
JSTaggedValue homeObject = GET_ACC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue taggedCurEnv = state->env;
auto res = SlowRuntimeStub::DefineMethod(thread, method, homeObject, length, taggedCurEnv, GetEcmaModule(sp));
INTERPRETER_RETURN_IF_ABRUPT(res);
JSFunction *result = JSFunction::Cast(res.GetTaggedObject());
SET_ACC(JSTaggedValue(result));
DISPATCH(DEFINEMETHOD_IMM16_ID16_IMM8);
}
HANDLE_OPCODE(DEFINECLASSWITHBUFFER_IMM8_ID16_ID16_IMM16_V8) {
uint16_t methodId = READ_INST_16_1();
uint16_t literaId = READ_INST_16_3();
uint16_t length = READ_INST_16_5();
uint16_t v0 = READ_INST_8_7();
LOG_INST() << "intrinsics::defineclasswithbuffer"
<< " method id:" << methodId << " lexenv: v" << v0;
JSTaggedValue proto = GET_VREG_VALUE(v0);
SAVE_PC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue res =
SlowRuntimeStub::CreateClassWithBuffer(thread, proto, state->env, GetConstantPool(sp),
methodId, literaId, GetEcmaModule(sp), JSTaggedValue(length));
INTERPRETER_RETURN_IF_ABRUPT(res);
ASSERT(res.IsClassConstructor());
SET_ACC(res);
DISPATCH(DEFINECLASSWITHBUFFER_IMM8_ID16_ID16_IMM16_V8);
}
HANDLE_OPCODE(DEFINECLASSWITHBUFFER_IMM16_ID16_ID16_IMM16_V8) {
uint16_t methodId = READ_INST_16_2();
uint16_t literaId = READ_INST_16_4();
uint16_t length = READ_INST_16_6();
uint16_t v0 = READ_INST_8_8();
LOG_INST() << "intrinsics::defineclasswithbuffer"
<< " method id:" << methodId << " lexenv: v" << v0;
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue proto = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res =
SlowRuntimeStub::CreateClassWithBuffer(thread, proto, state->env, GetConstantPool(sp),
methodId, literaId, GetEcmaModule(sp), JSTaggedValue(length));
INTERPRETER_RETURN_IF_ABRUPT(res);
ASSERT(res.IsClassConstructor());
SET_ACC(res);
DISPATCH(DEFINECLASSWITHBUFFER_IMM16_ID16_ID16_IMM16_V8);
}
HANDLE_OPCODE(DEPRECATED_DEFINECLASSWITHBUFFER_PREF_ID16_IMM16_IMM16_V8_V8) {
uint16_t methodId = READ_INST_16_1();
uint16_t length = READ_INST_16_5();
uint16_t v0 = READ_INST_8_7();
uint16_t v1 = READ_INST_8_8();
LOG_INST() << "intrinsics::defineclasswithbuffer"
<< " method id:" << methodId << " lexenv: v" << v0 << " parent: v" << v1;
JSTaggedValue lexenv = GET_VREG_VALUE(v0);
JSTaggedValue proto = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res =
SlowRuntimeStub::CreateClassWithBuffer(thread, proto, lexenv, GetConstantPool(sp),
methodId, methodId + 1, GetEcmaModule(sp),
JSTaggedValue(length));
INTERPRETER_RETURN_IF_ABRUPT(res);
ASSERT(res.IsClassConstructor());
SET_ACC(res);
DISPATCH(DEPRECATED_DEFINECLASSWITHBUFFER_PREF_ID16_IMM16_IMM16_V8_V8);
}
HANDLE_OPCODE(RESUMEGENERATOR) {
LOG_INST() << "intrinsics::resumegenerator";
JSTaggedValue objVal = GET_ACC();
if (objVal.IsAsyncGeneratorObject()) {
JSAsyncGeneratorObject *obj = JSAsyncGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(obj->GetResumeResult());
} else {
JSGeneratorObject *obj = JSGeneratorObject::Cast(objVal.GetTaggedObject());
uintptr_t taskInfo = obj->GetTaskInfo();
thread->SetTaskInfo(taskInfo);
obj->SetTaskInfo(reinterpret_cast<uintptr_t>(nullptr));
SET_ACC(obj->GetResumeResult());
}
DISPATCH(RESUMEGENERATOR);
}
HANDLE_OPCODE(DEPRECATED_RESUMEGENERATOR_PREF_V8) {
LOG_INST() << "intrinsics::resumegenerator";
uint16_t vs = READ_INST_8_1();
JSTaggedValue objVal = GET_VREG_VALUE(vs);
if (objVal.IsAsyncGeneratorObject()) {
JSAsyncGeneratorObject *obj = JSAsyncGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(obj->GetResumeResult());
} else {
JSGeneratorObject *obj = JSGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(obj->GetResumeResult());
}
DISPATCH(DEPRECATED_RESUMEGENERATOR_PREF_V8);
}
HANDLE_OPCODE(GETRESUMEMODE) {
LOG_INST() << "intrinsics::getresumemode";
JSTaggedValue objVal = GET_ACC();
if (objVal.IsAsyncGeneratorObject()) {
JSAsyncGeneratorObject *obj = JSAsyncGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(JSTaggedValue(static_cast<int>(obj->GetResumeMode())));
} else {
JSGeneratorObject *obj = JSGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(JSTaggedValue(static_cast<int>(obj->GetResumeMode())));
}
DISPATCH(GETRESUMEMODE);
}
HANDLE_OPCODE(DEPRECATED_GETRESUMEMODE_PREF_V8) {
LOG_INST() << "intrinsics::getresumemode";
uint16_t vs = READ_INST_8_1();
JSTaggedValue objVal = GET_VREG_VALUE(vs);
if (objVal.IsAsyncGeneratorObject()) {
JSAsyncGeneratorObject *obj = JSAsyncGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(JSTaggedValue(static_cast<int>(obj->GetResumeMode())));
} else {
JSGeneratorObject *obj = JSGeneratorObject::Cast(objVal.GetTaggedObject());
SET_ACC(JSTaggedValue(static_cast<int>(obj->GetResumeMode())));
}
DISPATCH(DEPRECATED_GETRESUMEMODE_PREF_V8);
}
HANDLE_OPCODE(GETTEMPLATEOBJECT_IMM8) {
LOG_INST() << "intrinsic::gettemplateobject";
JSTaggedValue literal = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetTemplateObject(thread, literal);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(GETTEMPLATEOBJECT_IMM8);
}
HANDLE_OPCODE(GETTEMPLATEOBJECT_IMM16) {
LOG_INST() << "intrinsic::gettemplateobject";
JSTaggedValue literal = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetTemplateObject(thread, literal);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(GETTEMPLATEOBJECT_IMM16);
}
HANDLE_OPCODE(DEPRECATED_GETTEMPLATEOBJECT_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsic::gettemplateobject"
<< " v" << v0;
JSTaggedValue literal = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::GetTemplateObject(thread, literal);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_GETTEMPLATEOBJECT_PREF_V8);
}
HANDLE_OPCODE(DELOBJPROP_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::delobjprop"
<< " v0" << v0;
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue prop = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::DelObjProp(thread, obj, prop);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DELOBJPROP_V8);
}
HANDLE_OPCODE(DEPRECATED_DELOBJPROP_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::delobjprop"
<< " v0" << v0 << " v1" << v1;
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue prop = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::DelObjProp(thread, obj, prop);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_DELOBJPROP_PREF_V8_V8);
}
HANDLE_OPCODE(SUSPENDGENERATOR_V8) {
MethodExit(thread);
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::suspendgenerator"
<< " v" << v0;
JSTaggedValue genObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
// suspend will record bytecode offset
SAVE_PC();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::SuspendGenerator(thread, genObj, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
InterpretedFrame *state = GET_FRAME(sp);
methodHandle.Update(JSFunction::Cast(state->function.GetTaggedObject())->GetMethod());
[[maybe_unused]] auto fistPC = methodHandle->GetBytecodeArray();
UPDATE_HOTNESS_COUNTER(-(pc - fistPC));
LOG_INST() << "Exit: SuspendGenerator " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(state->pc);
sp = state->base.prev;
ASSERT(sp != nullptr);
InterpretedFrame *prevState = GET_FRAME(sp);
pc = prevState->pc;
// entry frame
if (FrameHandler::IsEntryFrame(pc)) {
state->acc = acc;
return;
}
thread->SetCurrentSPFrame(sp);
INTERPRETER_HANDLE_RETURN();
}
HANDLE_OPCODE(DEPRECATED_SUSPENDGENERATOR_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::suspendgenerator"
<< " v" << v0 << " v" << v1;
JSTaggedValue genObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_VREG_VALUE(v1);
// suspend will record bytecode offset
SAVE_PC();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::SuspendGenerator(thread, genObj, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
InterpretedFrame *state = GET_FRAME(sp);
Method *method = JSFunction::Cast(state->function.GetTaggedObject())->GetCallTarget();
[[maybe_unused]] auto fistPC = method->GetBytecodeArray();
UPDATE_HOTNESS_COUNTER(-(pc - fistPC));
LOG_INST() << "Exit: SuspendGenerator " << std::hex << reinterpret_cast<uintptr_t>(sp) << " "
<< std::hex << reinterpret_cast<uintptr_t>(state->pc);
sp = state->base.prev;
ASSERT(sp != nullptr);
InterpretedFrame *prevState = GET_FRAME(sp);
pc = prevState->pc;
// entry frame
if (FrameHandler::IsEntryFrame(pc)) {
state->acc = acc;
return;
}
thread->SetCurrentSPFrame(sp);
INTERPRETER_HANDLE_RETURN();
}
HANDLE_OPCODE(SETGENERATORSTATE_IMM8) {
uint16_t index = READ_INST_8_0();
LOG_INST() << "intrinsics::setgeneratorstate index" << index;
JSTaggedValue objVal = GET_ACC();
SAVE_PC();
SAVE_ACC();
SlowRuntimeStub::SetGeneratorState(thread, objVal, index);
RESTORE_ACC();
DISPATCH(SETGENERATORSTATE_IMM8);
}
HANDLE_OPCODE(ASYNCFUNCTIONAWAITUNCAUGHT_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::asyncfunctionawaituncaught"
<< " v" << v0;
JSTaggedValue asyncFuncObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionAwaitUncaught(thread, asyncFuncObj, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(ASYNCFUNCTIONAWAITUNCAUGHT_V8);
}
HANDLE_OPCODE(DEPRECATED_ASYNCFUNCTIONAWAITUNCAUGHT_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::asyncfunctionawaituncaught"
<< " v" << v0 << " v" << v1;
JSTaggedValue asyncFuncObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionAwaitUncaught(thread, asyncFuncObj, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_ASYNCFUNCTIONAWAITUNCAUGHT_PREF_V8_V8);
}
HANDLE_OPCODE(COPYDATAPROPERTIES_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsic::copydataproperties"
<< " v" << v0;
JSTaggedValue dst = GET_VREG_VALUE(v0);
JSTaggedValue src = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CopyDataProperties(thread, dst, src);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(COPYDATAPROPERTIES_V8);
}
HANDLE_OPCODE(DEPRECATED_COPYDATAPROPERTIES_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsic::copydataproperties"
<< " v" << v0 << " v" << v1;
JSTaggedValue dst = GET_VREG_VALUE(v0);
JSTaggedValue src = GET_VREG_VALUE(v1);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CopyDataProperties(thread, dst, src);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_COPYDATAPROPERTIES_PREF_V8_V8);
}
HANDLE_OPCODE(SETOBJECTWITHPROTO_IMM8_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::setobjectwithproto"
<< " v" << v0;
JSTaggedValue proto = GET_VREG_VALUE(v0);
JSTaggedValue obj = GET_ACC();
SAVE_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SetObjectWithProto(thread, proto, obj);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(SETOBJECTWITHPROTO_IMM8_V8);
}
HANDLE_OPCODE(SETOBJECTWITHPROTO_IMM16_V8) {
uint16_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::setobjectwithproto"
<< " v" << v0;
JSTaggedValue proto = GET_VREG_VALUE(v0);
JSTaggedValue obj = GET_ACC();
SAVE_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SetObjectWithProto(thread, proto, obj);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(SETOBJECTWITHPROTO_IMM16_V8);
}
HANDLE_OPCODE(DEPRECATED_SETOBJECTWITHPROTO_PREF_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::setobjectwithproto"
<< " v" << v0 << " v" << v1;
JSTaggedValue proto = GET_VREG_VALUE(v0);
JSTaggedValue obj = GET_VREG_VALUE(v1);
SAVE_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::SetObjectWithProto(thread, proto, obj);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(DEPRECATED_SETOBJECTWITHPROTO_PREF_V8_V8);
}
HANDLE_OPCODE(LDOBJBYVALUE_IMM8_V8) {
uint32_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::Ldobjbyvalue"
<< " v" << v0;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_ACC();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByValue(thread, receiver, propKey, firstValue, secondValue);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::LoadICByValue(thread,
profileTypeArray,
receiver, propKey, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYVALUE_IMM8_V8);
}
}
#endif
// fast path
if (LIKELY(receiver.IsHeapObject())) {
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::GetPropertyByValue(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYVALUE_IMM8_V8);
}
RESTORE_ACC();
}
// slow path
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
propKey = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByValue(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYVALUE_IMM8_V8);
}
HANDLE_OPCODE(LDOBJBYVALUE_IMM16_V8) {
uint32_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::Ldobjbyvalue"
<< " v" << v0;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_ACC();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByValue(thread, receiver, propKey, firstValue, secondValue);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::LoadICByValue(thread,
profileTypeArray,
receiver, propKey, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYVALUE_IMM16_V8);
}
}
#endif
// fast path
if (LIKELY(receiver.IsHeapObject())) {
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::GetPropertyByValue(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYVALUE_IMM16_V8);
}
RESTORE_ACC();
}
// slow path
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
propKey = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByValue(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYVALUE_IMM16_V8);
}
HANDLE_OPCODE(DEPRECATED_LDOBJBYVALUE_PREF_V8_V8) {
uint32_t v0 = READ_INST_8_1();
uint32_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::Ldobjbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_VREG_VALUE(v1);
// fast path
if (LIKELY(receiver.IsHeapObject())) {
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::GetPropertyByValue(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDOBJBYVALUE_PREF_V8_V8);
}
RESTORE_ACC();
}
// slow path
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
propKey = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByValue(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDOBJBYVALUE_PREF_V8_V8);
}
HANDLE_OPCODE(LDSUPERBYVALUE_IMM8_V8) {
uint32_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::Ldsuperbyvalue"
<< " v" << v0;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_ACC();
// slow path
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::LdSuperByValue(thread, receiver, propKey, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDSUPERBYVALUE_IMM8_V8);
}
HANDLE_OPCODE(LDSUPERBYVALUE_IMM16_V8) {
uint32_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::Ldsuperbyvalue"
<< " v" << v0;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_ACC();
// slow path
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::LdSuperByValue(thread, receiver, propKey, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDSUPERBYVALUE_IMM16_V8);
}
HANDLE_OPCODE(DEPRECATED_LDSUPERBYVALUE_PREF_V8_V8) {
uint32_t v0 = READ_INST_8_1();
uint32_t v1 = READ_INST_8_2();
LOG_INST() << "intrinsics::Ldsuperbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_VREG_VALUE(v1);
// slow path
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::LdSuperByValue(thread, receiver, propKey, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDSUPERBYVALUE_PREF_V8_V8);
}
HANDLE_OPCODE(LDOBJBYINDEX_IMM8_IMM16) {
uint32_t idx = READ_INST_16_1();
LOG_INST() << "intrinsics::ldobjbyindex"
<< " imm" << idx;
JSTaggedValue receiver = GET_ACC();
// fast path
if (LIKELY(receiver.IsHeapObject())) {
JSTaggedValue res = FastRuntimeStub::GetPropertyByIndex(thread, receiver, idx);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYINDEX_IMM8_IMM16);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByIndex(thread, receiver, idx, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYINDEX_IMM8_IMM16);
}
HANDLE_OPCODE(LDOBJBYINDEX_IMM16_IMM16) {
uint32_t idx = READ_INST_16_2();
LOG_INST() << "intrinsics::ldobjbyindex"
<< " imm" << idx;
JSTaggedValue receiver = GET_ACC();
// fast path
if (LIKELY(receiver.IsHeapObject())) {
JSTaggedValue res = FastRuntimeStub::GetPropertyByIndex(thread, receiver, idx);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYINDEX_IMM16_IMM16);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByIndex(thread, receiver, idx, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYINDEX_IMM16_IMM16);
}
HANDLE_OPCODE(WIDE_LDOBJBYINDEX_PREF_IMM32) {
uint32_t idx = READ_INST_32_1();
LOG_INST() << "intrinsics::ldobjbyindex"
<< " imm" << idx;
JSTaggedValue receiver = GET_ACC();
// fast path
if (LIKELY(receiver.IsHeapObject())) {
JSTaggedValue res = FastRuntimeStub::GetPropertyByIndex(thread, receiver, idx);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_LDOBJBYINDEX_PREF_IMM32);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByIndex(thread, receiver, idx, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_LDOBJBYINDEX_PREF_IMM32);
}
HANDLE_OPCODE(DEPRECATED_LDOBJBYINDEX_PREF_V8_IMM32) {
uint16_t v0 = READ_INST_8_1();
uint32_t idx = READ_INST_32_2();
LOG_INST() << "intrinsics::ldobjbyindex"
<< " v" << v0 << " imm" << idx;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
// fast path
if (LIKELY(receiver.IsHeapObject())) {
JSTaggedValue res = FastRuntimeStub::GetPropertyByIndex(thread, receiver, idx);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDOBJBYINDEX_PREF_V8_IMM32);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByIndex(thread, receiver, idx, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDOBJBYINDEX_PREF_V8_IMM32);
}
HANDLE_OPCODE(STOBJBYINDEX_IMM8_V8_IMM16) {
uint8_t v0 = READ_INST_8_1();
uint16_t index = READ_INST_16_2();
LOG_INST() << "intrinsics::stobjbyindex"
<< " v" << v0 << " imm" << index;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject()) {
SAVE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByIndex(thread, receiver, index, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYINDEX_IMM8_V8_IMM16);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByIndex(thread, receiver, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYINDEX_IMM8_V8_IMM16);
}
HANDLE_OPCODE(STOBJBYINDEX_IMM16_V8_IMM16) {
uint8_t v0 = READ_INST_8_2();
uint16_t index = READ_INST_16_3();
LOG_INST() << "intrinsics::stobjbyindex"
<< " v" << v0 << " imm" << index;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject()) {
SAVE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByIndex(thread, receiver, index, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYINDEX_IMM16_V8_IMM16);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByIndex(thread, receiver, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOBJBYINDEX_IMM16_V8_IMM16);
}
HANDLE_OPCODE(WIDE_STOBJBYINDEX_PREF_V8_IMM32) {
uint8_t v0 = READ_INST_8_1();
uint32_t index = READ_INST_32_2();
LOG_INST() << "intrinsics::stobjbyindex"
<< " v" << v0 << " imm" << index;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject()) {
SAVE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByIndex(thread, receiver, index, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(WIDE_STOBJBYINDEX_PREF_V8_IMM32);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByIndex(thread, receiver, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(WIDE_STOBJBYINDEX_PREF_V8_IMM32);
}
HANDLE_OPCODE(STOWNBYINDEX_IMM8_V8_IMM16) {
uint8_t v0 = READ_INST_8_1();
uint16_t index = READ_INST_16_2();
LOG_INST() << "intrinsics::stownbyindex"
<< " v" << v0 << " imm" << index;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
SAVE_ACC();
uint32_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue value = GET_ACC();
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByValue(thread,
receiver, JSTaggedValue(index), firstValue, secondValue, value);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::StoreOwnICByValue(thread,
profileTypeArray, receiver, JSTaggedValue(index), value, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYINDEX_IMM8_V8_IMM16);
}
}
#endif
// fast path
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
receiver = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByIndex<ObjectFastOperator::Status::UseOwn>
(thread, receiver, index, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYINDEX_IMM8_V8_IMM16);
}
RESTORE_ACC();
}
SAVE_ACC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StOwnByIndex(thread, receiver, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYINDEX_IMM8_V8_IMM16);
}
HANDLE_OPCODE(STOWNBYINDEX_IMM16_V8_IMM16) {
uint8_t v0 = READ_INST_8_2();
uint16_t index = READ_INST_16_3();
LOG_INST() << "intrinsics::stownbyindex"
<< " v" << v0 << " imm" << index;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
SAVE_ACC();
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue value = GET_ACC();
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByValue(thread,
receiver, JSTaggedValue(index), firstValue, secondValue, value);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::StoreOwnICByValue(thread,
profileTypeArray, receiver, JSTaggedValue(index), value, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYINDEX_IMM16_V8_IMM16);
}
}
#endif
// fast path
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByIndex<ObjectFastOperator::Status::UseOwn>
(thread, receiver, index, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYINDEX_IMM16_V8_IMM16);
}
RESTORE_ACC();
}
SAVE_ACC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StOwnByIndex(thread, receiver, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYINDEX_IMM16_V8_IMM16);
}
HANDLE_OPCODE(WIDE_STOWNBYINDEX_PREF_V8_IMM32) {
uint8_t v0 = READ_INST_8_1();
uint32_t index = READ_INST_32_2();
LOG_INST() << "intrinsics::stownbyindex"
<< " v" << v0 << " imm" << index;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
// fast path
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByIndex<ObjectFastOperator::Status::UseOwn>
(thread, receiver, index, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(WIDE_STOWNBYINDEX_PREF_V8_IMM32);
}
RESTORE_ACC();
}
SAVE_ACC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StOwnByIndex(thread, receiver, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(WIDE_STOWNBYINDEX_PREF_V8_IMM32);
}
HANDLE_OPCODE(COPYRESTARGS_IMM8) {
uint8_t restIdx = READ_INST_8_0();
LOG_INST() << "intrinsics::copyrestargs"
<< " index: " << restIdx;
uint32_t startIdx = 0;
uint32_t restNumArgs = GetNumArgs(sp, restIdx, startIdx);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CopyRestArgs(thread, sp, restNumArgs, startIdx);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(COPYRESTARGS_IMM8);
}
HANDLE_OPCODE(WIDE_COPYRESTARGS_PREF_IMM16) {
uint16_t restIdx = READ_INST_16_1();
LOG_INST() << "intrinsics::copyrestargs"
<< " index: " << restIdx;
uint32_t startIdx = 0;
uint32_t restNumArgs = GetNumArgs(sp, restIdx, startIdx);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::CopyRestArgs(thread, sp, restNumArgs, startIdx);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_COPYRESTARGS_PREF_IMM16);
}
HANDLE_OPCODE(LDLEXVAR_IMM4_IMM4) {
uint16_t level = READ_INST_4_0();
uint16_t slot = READ_INST_4_1();
LOG_INST() << "intrinsics::ldlexvar"
<< " level:" << level << " slot:" << slot;
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue currentLexenv = state->env;
JSTaggedValue env(currentLexenv);
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SET_ACC(LexicalEnv::Cast(env.GetTaggedObject())->GetProperties(slot));
DISPATCH(LDLEXVAR_IMM4_IMM4);
}
HANDLE_OPCODE(LDLEXVAR_IMM8_IMM8) {
uint16_t level = READ_INST_8_0();
uint16_t slot = READ_INST_8_1();
LOG_INST() << "intrinsics::ldlexvar"
<< " level:" << level << " slot:" << slot;
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue currentLexenv = state->env;
JSTaggedValue env(currentLexenv);
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SET_ACC(LexicalEnv::Cast(env.GetTaggedObject())->GetProperties(slot));
DISPATCH(LDLEXVAR_IMM8_IMM8);
}
HANDLE_OPCODE(WIDE_LDLEXVAR_PREF_IMM16_IMM16) {
uint16_t level = READ_INST_16_1();
uint16_t slot = READ_INST_16_3();
LOG_INST() << "intrinsics::ldlexvar"
<< " level:" << level << " slot:" << slot;
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue currentLexenv = state->env;
JSTaggedValue env(currentLexenv);
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SET_ACC(LexicalEnv::Cast(env.GetTaggedObject())->GetProperties(slot));
DISPATCH(WIDE_LDLEXVAR_PREF_IMM16_IMM16);
}
HANDLE_OPCODE(STLEXVAR_IMM4_IMM4) {
uint16_t level = READ_INST_4_0();
uint16_t slot = READ_INST_4_1();
LOG_INST() << "intrinsics::stlexvar"
<< " level:" << level << " slot:" << slot;
JSTaggedValue value = GET_ACC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue env = state->env;
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
LexicalEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(STLEXVAR_IMM4_IMM4);
}
HANDLE_OPCODE(STLEXVAR_IMM8_IMM8) {
uint16_t level = READ_INST_8_0();
uint16_t slot = READ_INST_8_1();
LOG_INST() << "intrinsics::stlexvar"
<< " level:" << level << " slot:" << slot;
JSTaggedValue value = GET_ACC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue env = state->env;
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
LexicalEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(STLEXVAR_IMM8_IMM8);
}
HANDLE_OPCODE(WIDE_STLEXVAR_PREF_IMM16_IMM16) {
uint16_t level = READ_INST_16_1();
uint16_t slot = READ_INST_16_3();
LOG_INST() << "intrinsics::stlexvar"
<< " level:" << level << " slot:" << slot;
JSTaggedValue value = GET_ACC();
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue env = state->env;
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
LexicalEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(WIDE_STLEXVAR_PREF_IMM16_IMM16);
}
HANDLE_OPCODE(DEPRECATED_STLEXVAR_PREF_IMM4_IMM4_V8) {
uint16_t level = READ_INST_4_2();
uint16_t slot = READ_INST_4_3();
uint16_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::stlexvar"
<< " level:" << level << " slot:" << slot << " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue env = state->env;
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
LexicalEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(DEPRECATED_STLEXVAR_PREF_IMM4_IMM4_V8);
}
HANDLE_OPCODE(DEPRECATED_STLEXVAR_PREF_IMM8_IMM8_V8) {
uint16_t level = READ_INST_8_1();
uint16_t slot = READ_INST_8_2();
uint16_t v0 = READ_INST_8_3();
LOG_INST() << "intrinsics::stlexvar"
<< " level:" << level << " slot:" << slot << " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue env = state->env;
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
LexicalEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(DEPRECATED_STLEXVAR_PREF_IMM8_IMM8_V8);
}
HANDLE_OPCODE(DEPRECATED_STLEXVAR_PREF_IMM16_IMM16_V8) {
uint16_t level = READ_INST_16_1();
uint16_t slot = READ_INST_16_3();
uint16_t v0 = READ_INST_8_5();
LOG_INST() << "intrinsics::stlexvar"
<< " level:" << level << " slot:" << slot << " v" << v0;
JSTaggedValue value = GET_VREG_VALUE(v0);
InterpretedFrame *state = GET_FRAME(sp);
JSTaggedValue env = state->env;
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = LexicalEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
LexicalEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(DEPRECATED_STLEXVAR_PREF_IMM16_IMM16_V8);
}
HANDLE_OPCODE(GETMODULENAMESPACE_IMM8) {
int32_t index = READ_INST_8_0();
LOG_INST() << "intrinsics::getmodulenamespace index:" << index;
JSTaggedValue moduleNamespace = SlowRuntimeStub::GetModuleNamespace(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(moduleNamespace);
SET_ACC(moduleNamespace);
DISPATCH(GETMODULENAMESPACE_IMM8);
}
HANDLE_OPCODE(WIDE_GETMODULENAMESPACE_PREF_IMM16) {
int32_t index = READ_INST_16_1();
LOG_INST() << "intrinsics::getmodulenamespace index:" << index;
JSTaggedValue moduleNamespace = SlowRuntimeStub::GetModuleNamespace(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(moduleNamespace);
SET_ACC(moduleNamespace);
DISPATCH(WIDE_GETMODULENAMESPACE_PREF_IMM16);
}
HANDLE_OPCODE(DEPRECATED_GETMODULENAMESPACE_PREF_ID32) {
uint16_t stringId = READ_INST_32_1();
auto constpool = GetConstantPool(sp);
auto localName = GET_STR_FROM_CACHE(stringId);
LOG_INST() << "intrinsics::getmodulenamespace "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(localName.GetTaggedObject()));
JSTaggedValue moduleNamespace = SlowRuntimeStub::GetModuleNamespace(thread, localName);
INTERPRETER_RETURN_IF_ABRUPT(moduleNamespace);
SET_ACC(moduleNamespace);
DISPATCH(DEPRECATED_GETMODULENAMESPACE_PREF_ID32);
}
HANDLE_OPCODE(STMODULEVAR_IMM8) {
int32_t index = READ_INST_8_0();
LOG_INST() << "intrinsics::stmodulevar index:" << index;
JSTaggedValue value = GET_ACC();
SAVE_ACC();
SlowRuntimeStub::StModuleVar(thread, index, value);
RESTORE_ACC();
DISPATCH(STMODULEVAR_IMM8);
}
HANDLE_OPCODE(WIDE_STMODULEVAR_PREF_IMM16) {
int32_t index = READ_INST_16_1();
LOG_INST() << "intrinsics::stmodulevar index:" << index;
JSTaggedValue value = GET_ACC();
SAVE_ACC();
SlowRuntimeStub::StModuleVar(thread, index, value);
RESTORE_ACC();
DISPATCH(WIDE_STMODULEVAR_PREF_IMM16);
}
HANDLE_OPCODE(DEPRECATED_STMODULEVAR_PREF_ID32) {
uint16_t stringId = READ_INST_32_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
auto key = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::stmodulevar "
<< "stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(key.GetTaggedObject()));
JSTaggedValue value = GET_ACC();
SlowRuntimeStub::StModuleVar(thread, key, value);
RESTORE_ACC();
DISPATCH(DEPRECATED_STMODULEVAR_PREF_ID32);
}
HANDLE_OPCODE(LDLOCALMODULEVAR_IMM8) {
int32_t index = READ_INST_8_0();
LOG_INST() << "intrinsics::ldmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdLocalModuleVar(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(LDLOCALMODULEVAR_IMM8);
}
HANDLE_OPCODE(WIDE_LDLOCALMODULEVAR_PREF_IMM16) {
int32_t index = READ_INST_16_1();
LOG_INST() << "intrinsics::ldmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdLocalModuleVar(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(WIDE_LDLOCALMODULEVAR_PREF_IMM16);
}
HANDLE_OPCODE(LDEXTERNALMODULEVAR_IMM8) {
int32_t index = READ_INST_8_0();
LOG_INST() << "intrinsics::ldmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdExternalModuleVar(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(LDEXTERNALMODULEVAR_IMM8);
}
HANDLE_OPCODE(WIDE_LDEXTERNALMODULEVAR_PREF_IMM16) {
int32_t index = READ_INST_16_1();
LOG_INST() << "intrinsics::ldmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdExternalModuleVar(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(WIDE_LDEXTERNALMODULEVAR_PREF_IMM16);
}
HANDLE_OPCODE(STCONSTTOGLOBALRECORD_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::stconsttoglobalrecord"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StGlobalRecord(thread, propKey, value, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STCONSTTOGLOBALRECORD_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_STCONSTTOGLOBALRECORD_PREF_ID32) {
uint16_t stringId = READ_INST_32_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::stconsttoglobalrecord"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StGlobalRecord(thread, propKey, value, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(DEPRECATED_STCONSTTOGLOBALRECORD_PREF_ID32);
}
HANDLE_OPCODE(STTOGLOBALRECORD_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::stlettoglobalrecord"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StGlobalRecord(thread, propKey, value, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTOGLOBALRECORD_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_STLETTOGLOBALRECORD_PREF_ID32) {
uint16_t stringId = READ_INST_32_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::stlettoglobalrecord"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StGlobalRecord(thread, propKey, value, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(DEPRECATED_STLETTOGLOBALRECORD_PREF_ID32);
}
HANDLE_OPCODE(DEPRECATED_STCLASSTOGLOBALRECORD_PREF_ID32) {
uint16_t stringId = READ_INST_32_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::stclasstoglobalrecord"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StGlobalRecord(thread, propKey, value, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(DEPRECATED_STCLASSTOGLOBALRECORD_PREF_ID32);
}
HANDLE_OPCODE(DEPRECATED_LDMODULEVAR_PREF_ID32_IMM8) {
uint16_t stringId = READ_INST_16_1();
uint8_t innerFlag = READ_INST_8_5();
auto constpool = GetConstantPool(sp);
JSTaggedValue key = GET_STR_FROM_CACHE(stringId);
LOG_INST() << "intrinsics::ldmodulevar "
<< "string_id:" << stringId << ", "
<< "key: " << ConvertToString(EcmaString::Cast(key.GetTaggedObject()));
JSTaggedValue moduleVar = SlowRuntimeStub::LdModuleVar(thread, key, innerFlag != 0);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(DEPRECATED_LDMODULEVAR_PREF_ID32_IMM8);
}
HANDLE_OPCODE(LDOBJBYNAME_IMM8_ID16) {
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
JSTaggedValue receiver = GET_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByName(thread, receiver, firstValue, secondValue);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM8_ID16);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
receiver = GET_ACC();
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::LoadICByName(thread,
profileTypeArray,
receiver, propKey, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM8_ID16);
}
}
#endif
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue receiver = GET_ACC();
LOG_INST() << "intrinsics::ldobjbyname stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << receiver.GetRawData();
if (LIKELY(receiver.IsHeapObject())) {
// fast path
JSTaggedValue res = FastRuntimeStub::GetPropertyByName(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM8_ID16);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByName(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM8_ID16);
}
HANDLE_OPCODE(LDOBJBYNAME_IMM16_ID16) {
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
JSTaggedValue receiver = GET_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByName(thread, receiver, firstValue, secondValue);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM16_ID16);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
receiver = GET_ACC();
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::LoadICByName(thread,
profileTypeArray,
receiver, propKey, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM16_ID16);
}
}
#endif
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue receiver = GET_ACC();
LOG_INST() << "intrinsics::ldobjbyname stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << receiver.GetRawData();
if (LIKELY(receiver.IsHeapObject())) {
// fast path
JSTaggedValue res = FastRuntimeStub::GetPropertyByName(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM16_ID16);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByName(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDOBJBYNAME_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_LDOBJBYNAME_PREF_ID32_V8) {
uint32_t v0 = READ_INST_8_5();
uint16_t stringId = READ_INST_32_1();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
JSTaggedValue receiver = GET_VREG_VALUE(v0);
LOG_INST() << "intrinsics::ldobjbyname "
<< "v" << v0 << " stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << receiver.GetRawData();
if (LIKELY(receiver.IsHeapObject())) {
// fast path
JSTaggedValue res = FastRuntimeStub::GetPropertyByName(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDOBJBYNAME_PREF_ID32_V8);
}
}
// not meet fast condition or fast path return hole, walk slow path
// slow stub not need receiver
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByName(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDOBJBYNAME_PREF_ID32_V8);
}
HANDLE_OPCODE(LDSUPERBYNAME_IMM8_ID16) {
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue obj = GET_ACC();
LOG_INST() << "intrinsics::ldsuperbyname stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::LdSuperByValue(thread, obj, propKey, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDSUPERBYNAME_IMM8_ID16);
}
HANDLE_OPCODE(LDSUPERBYNAME_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue obj = GET_ACC();
LOG_INST() << "intrinsics::ldsuperbyname stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::LdSuperByValue(thread, obj, propKey, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDSUPERBYNAME_IMM16_ID16);
}
HANDLE_OPCODE(DEPRECATED_LDSUPERBYNAME_PREF_ID32_V8) {
uint32_t stringId = READ_INST_32_1();
uint32_t v0 = READ_INST_8_5();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
JSTaggedValue obj = GET_VREG_VALUE(v0);
LOG_INST() << "intrinsics::ldsuperbyname"
<< "v" << v0 << " stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::LdSuperByValue(thread, obj, propKey, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_LDSUPERBYNAME_PREF_ID32_V8);
}
HANDLE_OPCODE(ASYNCFUNCTIONRESOLVE_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::asyncfunctionresolve"
<< " v" << v0;
JSTaggedValue asyncFuncObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionResolveOrReject(thread, asyncFuncObj, value, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(ASYNCFUNCTIONRESOLVE_V8);
}
HANDLE_OPCODE(DEPRECATED_ASYNCFUNCTIONRESOLVE_PREF_V8_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
uint16_t v2 = READ_INST_8_3();
LOG_INST() << "intrinsics::asyncfunctionresolve"
<< " v" << v0 << " v" << v1 << " v" << v2;
JSTaggedValue asyncFuncObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_VREG_VALUE(v2);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionResolveOrReject(thread, asyncFuncObj, value, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_ASYNCFUNCTIONRESOLVE_PREF_V8_V8_V8);
}
HANDLE_OPCODE(ASYNCFUNCTIONREJECT_V8) {
uint16_t v0 = READ_INST_8_0();
LOG_INST() << "intrinsics::asyncfunctionreject"
<< " v" << v0;
JSTaggedValue asyncFuncObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionResolveOrReject(thread, asyncFuncObj, value, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(ASYNCFUNCTIONREJECT_V8);
}
HANDLE_OPCODE(DEPRECATED_ASYNCFUNCTIONREJECT_PREF_V8_V8_V8) {
uint16_t v0 = READ_INST_8_1();
uint16_t v1 = READ_INST_8_2();
uint16_t v2 = READ_INST_8_3();
LOG_INST() << "intrinsics::asyncfunctionreject"
<< " v" << v0 << " v" << v1 << " v" << v2;
JSTaggedValue asyncFuncObj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_VREG_VALUE(v2);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::AsyncFunctionResolveOrReject(thread, asyncFuncObj, value, false);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_ASYNCFUNCTIONREJECT_PREF_V8_V8_V8);
}
HANDLE_OPCODE(CLOSEITERATOR_IMM16_V8) {
uint16_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::closeiterator"
<< " v" << v0;
SAVE_PC();
JSTaggedValue iter = GET_VREG_VALUE(v0);
JSTaggedValue res = SlowRuntimeStub::CloseIterator(thread, iter);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CLOSEITERATOR_IMM16_V8);
}
HANDLE_OPCODE(STOWNBYVALUE_IMM16_V8_V8) {
uint32_t v0 = READ_INST_8_2();
uint32_t v1 = READ_INST_8_3();
LOG_INST() << "intrinsics::stownbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue<ObjectFastOperator::Status::UseOwn>
(thread, receiver, propKey, value);
// SetPropertyByValue maybe gc need update the value
RESTORE_ACC();
propKey = GET_VREG_VALUE(v1);
value = GET_ACC();
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STOWNBYVALUE_IMM16_V8_V8);
}
}
// slow path
SAVE_ACC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto propKey = GET_VREG_VALUE(v1); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StOwnByValue(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYVALUE_IMM16_V8_V8);
}
HANDLE_OPCODE(STSUPERBYVALUE_IMM16_V8_V8) {
uint32_t v0 = READ_INST_8_2();
uint32_t v1 = READ_INST_8_3();
LOG_INST() << "intrinsics::stsuperbyvalue"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// slow path
SAVE_ACC();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::StSuperByValue(thread, receiver, propKey, value, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STSUPERBYVALUE_IMM16_V8_V8);
}
HANDLE_OPCODE(TRYSTGLOBALBYNAME_IMM16_ID16) {
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
LOG_INST() << "intrinsics::trystglobalbyname"
<< " stringId:" << stringId << ", " << ConvertToString(EcmaString::Cast(propKey.GetTaggedObject()));
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
JSTaggedValue value = GET_ACC();
SAVE_ACC();
JSTaggedValue res = ICRuntimeStub::StoreGlobalICByName(thread,
ProfileTypeInfo::Cast(
profileTypeInfo.GetTaggedObject()),
globalObj, propKey, value, slotId, true);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(TRYSTGLOBALBYNAME_IMM16_ID16);
}
#endif
auto recordResult = SlowRuntimeStub::LdGlobalRecord(thread, propKey);
SAVE_PC();
// 1. find from global record
if (!recordResult.IsUndefined()) {
JSTaggedValue value = GET_ACC();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::TryUpdateGlobalRecord(thread, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
} else {
// 2. find from global object
SAVE_ACC();
auto globalResult = FastRuntimeStub::GetGlobalOwnProperty(thread, globalObj, propKey);
if (globalResult.IsHole()) {
auto result = SlowRuntimeStub::ThrowReferenceError(thread, propKey, " is not defined");
INTERPRETER_RETURN_IF_ABRUPT(result);
}
constpool = GetConstantPool(sp); // Maybe moved by GC
propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
JSTaggedValue res = SlowRuntimeStub::StGlobalVar(thread, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
}
DISPATCH(TRYSTGLOBALBYNAME_IMM16_ID16);
}
HANDLE_OPCODE(STSUPERBYNAME_IMM16_ID16_V8) {
uint16_t stringId = READ_INST_16_2();
uint32_t v0 = READ_INST_8_4();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::stsuperbyname"
<< "v" << v0 << " stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
// slow path
SAVE_ACC();
SAVE_PC();
JSTaggedValue thisFunc = GetFunction(sp);
JSTaggedValue res = SlowRuntimeStub::StSuperByValue(thread, obj, propKey, value, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STSUPERBYNAME_IMM16_ID16_V8);
}
HANDLE_OPCODE(STOWNBYVALUEWITHNAMESET_IMM16_V8_V8) {
uint32_t v0 = READ_INST_8_2();
uint32_t v1 = READ_INST_8_3();
LOG_INST() << "intrinsics::stownbyvaluewithnameset"
<< " v" << v0 << " v" << v1;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsHeapObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v1);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue<ObjectFastOperator::Status::DefineSemantics>
(thread, receiver, propKey, value);
// SetPropertyByValue maybe gc need update the value
RESTORE_ACC();
propKey = GET_VREG_VALUE(v1);
value = GET_ACC();
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
JSFunction::SetFunctionNameNoPrefix(thread, JSFunction::Cast(value.GetTaggedObject()), propKey);
RESTORE_ACC();
DISPATCH(STOWNBYVALUEWITHNAMESET_IMM16_V8_V8);
}
}
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
auto propKey = GET_VREG_VALUE(v1); // Maybe moved by GC
auto value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StOwnByValueWithNameSet(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYVALUEWITHNAMESET_IMM16_V8_V8);
}
HANDLE_OPCODE(STOWNBYNAMEWITHNAMESET_IMM16_ID16_V8) {
uint16_t stringId = READ_INST_16_2();
uint32_t v0 = READ_INST_8_4();
auto constpool = GetConstantPool(sp);
LOG_INST() << "intrinsics::stownbynamewithnameset "
<< "v" << v0 << " stringId:" << stringId;
JSTaggedValue receiver = GET_VREG_VALUE(v0);
if (receiver.IsJSObject() && !receiver.IsClassConstructor() && !receiver.IsClassPrototype()) {
SAVE_ACC();
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
receiver = GET_VREG_VALUE(v0);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
// fast path
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::SetPropertyByName<ObjectFastOperator::Status::DefineSemantics>
(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
JSFunction::SetFunctionNameNoPrefix(thread, JSFunction::Cast(value.GetTaggedObject()), propKey);
RESTORE_ACC();
DISPATCH(STOWNBYNAMEWITHNAMESET_IMM16_ID16_V8);
}
RESTORE_ACC();
}
SAVE_ACC();
SAVE_PC();
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
receiver = GET_VREG_VALUE(v0); // Maybe moved by GC
RESTORE_ACC();
auto value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StOwnByNameWithNameSet(thread, receiver, propKey, value);
RESTORE_ACC();
INTERPRETER_RETURN_IF_ABRUPT(res);
DISPATCH(STOWNBYNAMEWITHNAMESET_IMM16_ID16_V8);
}
HANDLE_OPCODE(JSTRICTEQZ_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQZ_IMM8);
}
HANDLE_OPCODE(JSTRICTEQZ_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQZ_IMM16);
}
HANDLE_OPCODE(JNSTRICTEQZ_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQZ_IMM8);
}
HANDLE_OPCODE(JNSTRICTEQZ_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQZ_IMM16);
}
HANDLE_OPCODE(JEQNULL_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JEQNULL_IMM8);
}
HANDLE_OPCODE(JEQNULL_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JEQNULL_IMM16);
}
HANDLE_OPCODE(JNENULL_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNENULL_IMM8);
}
HANDLE_OPCODE(JNENULL_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNENULL_IMM16);
}
HANDLE_OPCODE(JSTRICTEQNULL_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQNULL_IMM8);
}
HANDLE_OPCODE(JSTRICTEQNULL_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQNULL_IMM16);
}
HANDLE_OPCODE(JNSTRICTEQNULL_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQNULL_IMM8);
}
HANDLE_OPCODE(JNSTRICTEQNULL_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQNULL_IMM16);
}
HANDLE_OPCODE(JEQUNDEFINED_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JEQUNDEFINED_IMM8);
}
HANDLE_OPCODE(JEQUNDEFINED_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JEQUNDEFINED_IMM16);
}
HANDLE_OPCODE(JNEUNDEFINED_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNEUNDEFINED_IMM8);
}
HANDLE_OPCODE(JNEUNDEFINED_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNEUNDEFINED_IMM16);
}
HANDLE_OPCODE(JSTRICTEQUNDEFINED_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQUNDEFINED_IMM8);
}
HANDLE_OPCODE(JSTRICTEQUNDEFINED_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQUNDEFINED_IMM16);
}
HANDLE_OPCODE(JNSTRICTEQUNDEFINED_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQUNDEFINED_IMM8);
}
HANDLE_OPCODE(JNSTRICTEQUNDEFINED_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQUNDEFINED_IMM16);
}
HANDLE_OPCODE(JEQ_V8_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JEQ_V8_IMM8);
}
HANDLE_OPCODE(JEQ_V8_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JEQ_V8_IMM16);
}
HANDLE_OPCODE(JNE_V8_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNE_V8_IMM8);
}
HANDLE_OPCODE(JNE_V8_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNE_V8_IMM16);
}
HANDLE_OPCODE(JSTRICTEQ_V8_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQ_V8_IMM8);
}
HANDLE_OPCODE(JSTRICTEQ_V8_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JSTRICTEQ_V8_IMM16);
}
HANDLE_OPCODE(JNSTRICTEQ_V8_IMM8) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQ_V8_IMM8);
}
HANDLE_OPCODE(JNSTRICTEQ_V8_IMM16) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(JNSTRICTEQ_V8_IMM16);
}
HANDLE_OPCODE(LDNEWTARGET) {
LOG_FULL(FATAL) << "not implement";
DISPATCH(LDNEWTARGET);
}
HANDLE_OPCODE(LDTHIS) {
LOG_INST() << "intrinsic::ldthis";
SET_ACC(GetThis(sp));
DISPATCH(LDTHIS);
}
HANDLE_OPCODE(LDTHISBYVALUE_IMM8) {
LOG_INST() << "intrinsics::Ldthisbyvalue";
JSTaggedValue receiver = GetThis(sp);
JSTaggedValue propKey = GET_ACC();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByValue(thread, receiver, propKey, firstValue, secondValue);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::LoadICByValue(thread,
profileTypeArray,
receiver, propKey, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYVALUE_IMM8);
}
}
#endif
// fast path
if (LIKELY(receiver.IsHeapObject())) {
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::GetPropertyByValue(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYVALUE_IMM8);
}
RESTORE_ACC();
}
// slow path
receiver = GetThis(sp); // Maybe moved by GC
propKey = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByValue(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYVALUE_IMM8);
}
HANDLE_OPCODE(LDTHISBYVALUE_IMM16) {
LOG_INST() << "intrinsics::Ldthisbyvalue";
JSTaggedValue receiver = GetThis(sp);
JSTaggedValue propKey = GET_ACC();
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByValue(thread, receiver, propKey, firstValue, secondValue);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::LoadICByValue(thread,
profileTypeArray,
receiver, propKey, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYVALUE_IMM16);
}
}
#endif
if (LIKELY(receiver.IsHeapObject())) {
// fast path
SAVE_ACC();
JSTaggedValue res = FastRuntimeStub::GetPropertyByValue(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYVALUE_IMM16);
}
RESTORE_ACC();
}
// slow path
receiver = GetThis(sp); // Maybe moved by GC
propKey = GET_ACC(); // Maybe moved by GC
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByValue(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYVALUE_IMM16);
}
HANDLE_OPCODE(STTHISBYVALUE_IMM8_V8) {
uint32_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::stthisbyvalue"
<< " v" << v0;
JSTaggedValue receiver = GetThis(sp);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue propKey = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByValue(thread, receiver, propKey, firstValue, secondValue, value);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::StoreICByValue(thread,
profileTypeArray,
receiver, propKey, value, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYVALUE_IMM8_V8);
}
}
#endif
if (LIKELY(receiver.IsHeapObject())) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYVALUE_IMM8_V8);
}
RESTORE_ACC();
}
{
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GetThis(sp); // Maybe moved by GC
JSTaggedValue propKey = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByValue(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
}
DISPATCH(STTHISBYVALUE_IMM8_V8);
}
HANDLE_OPCODE(STTHISBYVALUE_IMM16_V8) {
uint32_t v0 = READ_INST_8_2();
LOG_INST() << "intrinsics::stthisbyvalue"
<< " v" << v0;
JSTaggedValue receiver = GetThis(sp);
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue propKey = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByValue(thread, receiver, propKey, firstValue, secondValue, value);
}
// IC miss and not enter the megamorphic state, store as polymorphic
if (res.IsHole() && !firstValue.IsHole()) {
res = ICRuntimeStub::StoreICByValue(thread,
profileTypeArray,
receiver, propKey, value, slotId);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYVALUE_IMM16_V8);
}
}
#endif
if (LIKELY(receiver.IsHeapObject())) {
SAVE_ACC();
JSTaggedValue propKey = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByValue(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYVALUE_IMM16_V8);
}
RESTORE_ACC();
}
{
// slow path
SAVE_ACC();
SAVE_PC();
receiver = GetThis(sp); // Maybe moved by GC
JSTaggedValue propKey = GET_VREG_VALUE(v0); // Maybe moved by GC
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
JSTaggedValue res = SlowRuntimeStub::StObjByValue(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
}
DISPATCH(STTHISBYVALUE_IMM16_V8);
}
HANDLE_OPCODE(LDTHISBYNAME_IMM8_ID16) {
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
JSTaggedValue receiver = GetThis(sp);
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByName(thread, receiver, firstValue, secondValue);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM8_ID16);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_1();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
receiver = GetThis(sp);
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::LoadICByName(thread,
profileTypeArray,
receiver, propKey, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM8_ID16);
}
}
#endif
uint16_t stringId = READ_INST_16_1();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
JSTaggedValue receiver = GetThis(sp);
LOG_INST() << "intrinsics::ldthisbyname stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << receiver.GetRawData();
if (LIKELY(receiver.IsHeapObject())) {
// fast path
JSTaggedValue res = FastRuntimeStub::GetPropertyByName(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM8_ID16);
}
}
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByName(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM8_ID16);
}
HANDLE_OPCODE(LDTHISBYNAME_IMM16_ID16) {
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
JSTaggedValue receiver = GetThis(sp);
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryLoadICByName(thread, receiver, firstValue, secondValue);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM16_ID16);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_2();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
receiver = GetThis(sp);
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::LoadICByName(thread,
profileTypeArray,
receiver, propKey, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM16_ID16);
}
}
#endif
uint16_t stringId = READ_INST_16_2();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
JSTaggedValue receiver = GetThis(sp);
LOG_INST() << "intrinsics::ldthisbyname stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << receiver.GetRawData();
if (LIKELY(receiver.IsHeapObject())) {
// fast path
JSTaggedValue res = FastRuntimeStub::GetPropertyByName(thread, receiver, propKey);
if (!res.IsHole()) {
ASSERT(!res.IsAccessor());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM16_ID16);
}
}
// slow path
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdObjByName(thread, receiver, propKey, false, JSTaggedValue::Undefined());
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(LDTHISBYNAME_IMM16_ID16);
}
HANDLE_OPCODE(STTHISBYNAME_IMM8_ID16) {
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_8_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
JSTaggedValue receiver = GetThis(sp);
JSTaggedValue value = GET_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByName(thread, receiver, firstValue, secondValue, value);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM8_ID16);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_1();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
value = GET_ACC();
receiver = GetThis(sp);
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::StoreICByName(thread,
profileTypeArray,
receiver, propKey, value, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM8_ID16);
}
}
#endif
uint16_t stringId = READ_INST_16_1();
LOG_INST() << "intrinsics::stthisbyname "
<< " stringId:" << stringId;
JSTaggedValue receiver = GetThis(sp);
if (receiver.IsHeapObject()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
receiver = GetThis(sp);
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByName(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM8_ID16);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
auto constpool = GetConstantPool(sp); // Maybe moved by GC
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
receiver = GetThis(sp);
JSTaggedValue res = SlowRuntimeStub::StObjByName(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM8_ID16);
}
HANDLE_OPCODE(STTHISBYNAME_IMM16_ID16) {
#if ECMASCRIPT_ENABLE_IC
auto profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
if (!profileTypeInfo.IsUndefined()) {
uint16_t slotId = READ_INST_16_0();
auto profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
JSTaggedValue firstValue = profileTypeArray->Get(slotId);
JSTaggedValue res = JSTaggedValue::Hole();
SAVE_ACC();
JSTaggedValue receiver = GetThis(sp);
JSTaggedValue value = GET_ACC();
if (LIKELY(firstValue.IsHeapObject())) {
JSTaggedValue secondValue = profileTypeArray->Get(slotId + 1);
res = ICRuntimeStub::TryStoreICByName(thread, receiver, firstValue, secondValue, value);
}
if (LIKELY(!res.IsHole())) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM16_ID16);
} else if (!firstValue.IsHole()) { // IC miss and not enter the megamorphic state, store as polymorphic
uint16_t stringId = READ_INST_16_2();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
value = GET_ACC();
receiver = GetThis(sp);
profileTypeInfo = GetRuntimeProfileTypeInfo(sp);
profileTypeArray = ProfileTypeInfo::Cast(profileTypeInfo.GetTaggedObject());
res = ICRuntimeStub::StoreICByName(thread,
profileTypeArray,
receiver, propKey, value, slotId);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM16_ID16);
}
}
#endif
uint16_t stringId = READ_INST_16_2();
LOG_INST() << "intrinsics::stthisbyname "
<< " stringId:" << stringId;
JSTaggedValue receiver = GetThis(sp);
if (receiver.IsHeapObject()) {
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
receiver = GetThis(sp);
// fast path
JSTaggedValue res = FastRuntimeStub::SetPropertyByName(thread, receiver, propKey, value);
if (!res.IsHole()) {
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM16_ID16);
}
RESTORE_ACC();
}
// slow path
SAVE_ACC();
SAVE_PC();
auto constpool = GetConstantPool(sp); // Maybe moved by GC
auto propKey = GET_STR_FROM_CACHE(stringId); // Maybe moved by GC
RESTORE_ACC();
JSTaggedValue value = GET_ACC(); // Maybe moved by GC
receiver = GetThis(sp);
JSTaggedValue res = SlowRuntimeStub::StObjByName(thread, receiver, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(STTHISBYNAME_IMM16_ID16);
}
HANDLE_OPCODE(WIDE_LDPATCHVAR_PREF_IMM16) {
uint16_t index = READ_INST_16_1();
LOG_INST() << "intrinsics::ldpatchvar" << " imm: " << index;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::LdPatchVar(thread, index);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(WIDE_LDPATCHVAR_PREF_IMM16);
}
HANDLE_OPCODE(WIDE_STPATCHVAR_PREF_IMM16) {
uint16_t index = READ_INST_16_1();
LOG_INST() << "intrinsics::stpatchvar" << " imm: " << index;
JSTaggedValue value = GET_ACC();
SAVE_ACC();
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::StPatchVar(thread, index, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(WIDE_STPATCHVAR_PREF_IMM16);
}
HANDLE_OPCODE(DYNAMICIMPORT) {
LOG_INST() << "intrinsics::dynamicimport";
JSTaggedValue specifier = GET_ACC();
JSTaggedValue thisFunc = GetFunction(sp);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::DynamicImport(thread, specifier, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DYNAMICIMPORT);
}
HANDLE_OPCODE(DEPRECATED_DYNAMICIMPORT_PREF_V8) {
uint16_t v0 = READ_INST_8_1();
LOG_INST() << "intrinsics::dynamicimport";
JSTaggedValue specifier = GET_VREG_VALUE(v0);
JSTaggedValue thisFunc = GetFunction(sp);
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::DynamicImport(thread, specifier, thisFunc);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(DEPRECATED_DYNAMICIMPORT_PREF_V8);
}
HANDLE_OPCODE(CALLRUNTIME_NOTIFYCONCURRENTRESULT_PREF_NONE) {
LOG_INST() << "intrinsics::callruntime.notifyconcurrentresult";
JSTaggedValue funcObj = GetFunction(sp);
SlowRuntimeStub::NotifyConcurrentResult(thread, acc, funcObj);
DISPATCH(CALLRUNTIME_NOTIFYCONCURRENTRESULT_PREF_NONE);
}
HANDLE_OPCODE(DEFINEFIELDBYNAME_IMM8_ID16_V8) {
uint16_t stringId = READ_INST_16_1();
uint32_t v0 = READ_INST_8_3();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
JSTaggedValue obj = GET_VREG_VALUE(v0);
LOG_INST() << "intrinsics::callruntime.definefieldbyname "
<< "v" << v0 << " stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
JSTaggedValue res = SlowRuntimeStub::DefineField(thread, obj, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(DEFINEFIELDBYNAME_IMM8_ID16_V8);
}
HANDLE_OPCODE(DEFINEPROPERTYBYNAME_IMM8_ID16_V8) {
uint16_t stringId = READ_INST_16_1();
uint32_t v0 = READ_INST_8_3();
SAVE_ACC();
auto constpool = GetConstantPool(sp);
JSTaggedValue propKey = GET_STR_FROM_CACHE(stringId);
RESTORE_ACC();
JSTaggedValue value = GET_ACC();
JSTaggedValue obj = GET_VREG_VALUE(v0);
LOG_INST() << "intrinsics::callruntime.definepropertybyname "
<< "v" << v0 << " stringId:" << stringId << ", "
<< ConvertToString(EcmaString::Cast(propKey.GetTaggedObject())) << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
JSTaggedValue res = SlowRuntimeStub::DefineField(thread, obj, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(DEFINEPROPERTYBYNAME_IMM8_ID16_V8);
}
HANDLE_OPCODE(CALLRUNTIME_DEFINEFIELDBYVALUE_PREF_IMM8_V8_V8) {
uint32_t v0 = READ_INST_8_2();
uint32_t v1 = READ_INST_8_3();
JSTaggedValue obj = GET_VREG_VALUE(v1);
JSTaggedValue propKey = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::callruntime.definefieldbyvalue "
<< "v" << v0 << " v" << v1 << ", propKey:"
<< propKey.GetRawData() << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::DefineField(thread, obj, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(CALLRUNTIME_DEFINEFIELDBYVALUE_PREF_IMM8_V8_V8);
}
HANDLE_OPCODE(CALLRUNTIME_DEFINEFIELDBYINDEX_PREF_IMM8_IMM32_V8) {
uint32_t index = READ_INST_32_2();
uint32_t v0 = READ_INST_8_6();
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue propKey = JSTaggedValue(index);
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::callruntime.definefieldbyvalue "
<< "v" << v0 << ", index:"
<< index << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::DefineField(thread, obj, propKey, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(CALLRUNTIME_DEFINEFIELDBYINDEX_PREF_IMM8_IMM32_V8);
}
HANDLE_OPCODE(CALLRUNTIME_TOPROPERTYKEY_PREF_NONE) {
LOG_INST() << "intrinsics::callruntime.topropertykey";
JSHandle<JSTaggedValue> handleAcc(thread, acc);
JSTaggedValue res = JSTaggedValue::ToPropertyKey(thread, handleAcc).GetTaggedValue();
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
DISPATCH(CALLRUNTIME_TOPROPERTYKEY_PREF_NONE);
}
HANDLE_OPCODE(CALLRUNTIME_CREATEPRIVATEPROPERTY_PREF_IMM16_ID16) {
JSTaggedValue lexicalEnv = GET_FRAME(sp)->env;
JSTaggedValue constpool = GetConstantPool(sp);
JSTaggedValue module = GetEcmaModule(sp);
uint32_t count = READ_INST_16_1();
uint32_t literalId = READ_INST_16_3();
LOG_INST() << "intrinsics::callruntime.createprivateproperty "
<< "count:" << count << ", literalId:" << literalId;
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::CreatePrivateProperty(thread, lexicalEnv,
count, constpool, literalId, module);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(CALLRUNTIME_CREATEPRIVATEPROPERTY_PREF_IMM16_ID16);
}
HANDLE_OPCODE(CALLRUNTIME_DEFINEPRIVATEPROPERTY_PREF_IMM8_IMM16_IMM16_V8) {
JSTaggedValue lexicalEnv = GET_FRAME(sp)->env;
uint32_t levelIndex = READ_INST_16_2();
uint32_t slotIndex = READ_INST_16_4();
uint32_t v0 = READ_INST_8_6();
JSTaggedValue obj = GET_VREG_VALUE(v0);
JSTaggedValue value = GET_ACC();
LOG_INST() << "intrinsics::callruntime.defineprivateproperty "
<< "v" << v0 << ", levelIndex:" << levelIndex
<< ", slotIndex:" << slotIndex << ", obj:" << obj.GetRawData()
<< ", value:" << value.GetRawData();
SAVE_ACC();
JSTaggedValue res = SlowRuntimeStub::DefinePrivateProperty(thread, lexicalEnv,
levelIndex, slotIndex, obj, value);
INTERPRETER_RETURN_IF_ABRUPT(res);
RESTORE_ACC();
DISPATCH(CALLRUNTIME_DEFINEPRIVATEPROPERTY_PREF_IMM8_IMM16_IMM16_V8);
}
HANDLE_OPCODE(CALLRUNTIME_DEFINESENDABLECLASS_PREF_IMM16_ID16_ID16_IMM16_V8) {
uint16_t methodId = READ_INST_16_3();
uint16_t literaId = READ_INST_16_5();
uint16_t length = READ_INST_16_7();
uint16_t v0 = READ_INST_8_9();
LOG_INST() << "intrinsics::definesendableclass"
<< " method id:" << methodId << " base: v" << v0;
JSTaggedValue base = GET_VREG_VALUE(v0);
SAVE_PC();
JSTaggedValue res =
SlowRuntimeStub::CreateSharedClass(thread, base, GetConstantPool(sp), methodId,
literaId, length, GetEcmaModule(sp));
INTERPRETER_RETURN_IF_ABRUPT(res);
ASSERT(res.IsClassConstructor());
ASSERT(res.IsJSSharedFunction());
SET_ACC(res);
DISPATCH(CALLRUNTIME_DEFINESENDABLECLASS_PREF_IMM16_ID16_ID16_IMM16_V8);
}
HANDLE_OPCODE(CALLRUNTIME_LDSENDABLECLASS_PREF_IMM16) {
uint16_t level = READ_INST_16_1();
LOG_INST() << "intrinsics::LdSendableClass level: " << level;
InterpretedFrame *state = GET_FRAME(sp);
auto res = SlowRuntimeStub::LdSendableClass(thread, state->env, level);
ASSERT(res.IsJSSharedFunction());
SET_ACC(res);
DISPATCH(CALLRUNTIME_LDSENDABLECLASS_PREF_IMM16);
}
HANDLE_OPCODE(CALLRUNTIME_LDSENDABLEEXTERNALMODULEVAR_PREF_IMM8) {
int32_t index = READ_INST_8_1();
JSTaggedValue funcObj = GetFunction(sp);
LOG_INST() << "intrinsics::ldsendableexternalmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdSendableExternalModuleVar(thread, index, funcObj);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(CALLRUNTIME_LDSENDABLEEXTERNALMODULEVAR_PREF_IMM8);
}
HANDLE_OPCODE(CALLRUNTIME_WIDELDSENDABLEEXTERNALMODULEVAR_PREF_IMM16) {
int32_t index = READ_INST_16_1();
JSTaggedValue funcObj = GetFunction(sp);
LOG_INST() << "intrinsics::ldsendableexternalmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdSendableExternalModuleVar(thread, index, funcObj);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(CALLRUNTIME_WIDELDSENDABLEEXTERNALMODULEVAR_PREF_IMM16);
}
HANDLE_OPCODE(CALLRUNTIME_NEWSENDABLEENV_PREF_IMM8) {
uint8_t numVars = READ_INST_8_1();
LOG_INST() << "intrinsics::newsendableenv8"
<< " imm " << numVars;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewSendableEnv(thread, numVars);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
moduleRecord->SetSendableEnv(thread, res);
DISPATCH(CALLRUNTIME_NEWSENDABLEENV_PREF_IMM8);
}
HANDLE_OPCODE(CALLRUNTIME_WIDENEWSENDABLEENV_PREF_IMM16) {
uint16_t numVars = READ_INST_16_1();
LOG_INST() << "intrinsics::newsendableenv16"
<< " imm " << numVars;
SAVE_PC();
JSTaggedValue res = SlowRuntimeStub::NewSendableEnv(thread, numVars);
INTERPRETER_RETURN_IF_ABRUPT(res);
SET_ACC(res);
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
moduleRecord->SetSendableEnv(thread, res);
DISPATCH(CALLRUNTIME_WIDENEWSENDABLEENV_PREF_IMM16);
}
HANDLE_OPCODE(CALLRUNTIME_STSENDABLEVAR_PREF_IMM4_IMM4) {
uint16_t level = READ_INST_4_2();
uint16_t slot = READ_INST_4_3();
LOG_INST() << "intrinsics::stsendablevar4"
<< " level:" << level << " slot:" << slot;
JSTaggedValue value = GET_ACC();
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
JSTaggedValue env = moduleRecord->GetSendableEnv();
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = SendableEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SendableEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(CALLRUNTIME_STSENDABLEVAR_PREF_IMM4_IMM4);
}
HANDLE_OPCODE(CALLRUNTIME_STSENDABLEVAR_PREF_IMM8_IMM8) {
uint16_t level = READ_INST_8_1();
uint16_t slot = READ_INST_8_2();
LOG_INST() << "intrinsics::stsendablevar8"
<< " level:" << level << " slot:" << slot;
JSTaggedValue value = GET_ACC();
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
JSTaggedValue env = moduleRecord->GetSendableEnv();
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = SendableEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SendableEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(CALLRUNTIME_STSENDABLEVAR_PREF_IMM8_IMM8);
}
HANDLE_OPCODE(CALLRUNTIME_WIDESTSENDABLEVAR_PREF_IMM16_IMM16) {
uint16_t level = READ_INST_16_1();
uint16_t slot = READ_INST_16_3();
LOG_INST() << "intrinsics::stsendablevar16"
<< " level:" << level << " slot:" << slot;
JSTaggedValue value = GET_ACC();
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
JSTaggedValue env = moduleRecord->GetSendableEnv();
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = SendableEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SendableEnv::Cast(env.GetTaggedObject())->SetProperties(thread, slot, value);
DISPATCH(CALLRUNTIME_WIDESTSENDABLEVAR_PREF_IMM16_IMM16);
}
HANDLE_OPCODE(CALLRUNTIME_LDSENDABLEVAR_PREF_IMM4_IMM4) {
uint16_t level = READ_INST_4_2();
uint16_t slot = READ_INST_4_3();
LOG_INST() << "intrinsics::ldsendablevar4"
<< " level:" << level << " slot:" << slot;
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
JSTaggedValue env = moduleRecord->GetSendableEnv();
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = SendableEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SET_ACC(SendableEnv::Cast(env.GetTaggedObject())->GetProperties(slot));
DISPATCH(CALLRUNTIME_LDSENDABLEVAR_PREF_IMM4_IMM4);
}
HANDLE_OPCODE(CALLRUNTIME_LDSENDABLEVAR_PREF_IMM8_IMM8) {
uint16_t level = READ_INST_8_1();
uint16_t slot = READ_INST_8_2();
LOG_INST() << "intrinsics::ldsendablevar8"
<< " level:" << level << " slot:" << slot;
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
JSTaggedValue env = moduleRecord->GetSendableEnv();
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = SendableEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SET_ACC(SendableEnv::Cast(env.GetTaggedObject())->GetProperties(slot));
DISPATCH(CALLRUNTIME_LDSENDABLEVAR_PREF_IMM8_IMM8);
}
HANDLE_OPCODE(CALLRUNTIME_WIDELDSENDABLEVAR_PREF_IMM16_IMM16) {
uint16_t level = READ_INST_16_1();
uint16_t slot = READ_INST_16_3();
LOG_INST() << "intrinsics::ldsendablevar16"
<< " level:" << level << " slot:" << slot;
SourceTextModule *moduleRecord = SourceTextModule::Cast(GetEcmaModule(sp));
JSTaggedValue env = moduleRecord->GetSendableEnv();
for (uint32_t i = 0; i < level; i++) {
JSTaggedValue taggedParentEnv = SendableEnv::Cast(env.GetTaggedObject())->GetParentEnv();
ASSERT(!taggedParentEnv.IsUndefined());
env = taggedParentEnv;
}
SET_ACC(SendableEnv::Cast(env.GetTaggedObject())->GetProperties(slot));
DISPATCH(CALLRUNTIME_WIDELDSENDABLEVAR_PREF_IMM16_IMM16);
}
HANDLE_OPCODE(CALLRUNTIME_LDLAZYMODULEVAR_PREF_IMM8) {
int32_t index = READ_INST_8_1();
JSTaggedValue funcObj = GetFunction(sp);
LOG_INST() << "intrinsics::ldlazyexternalmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdLazyExternalModuleVar(thread, index, funcObj);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(CALLRUNTIME_LDLAZYMODULEVAR_PREF_IMM8);
}
HANDLE_OPCODE(CALLRUNTIME_WIDELDLAZYMODULEVAR_PREF_IMM16) {
int32_t index = READ_INST_16_1();
JSTaggedValue funcObj = GetFunction(sp);
LOG_INST() << "intrinsics::ldlazyexternalmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdLazyExternalModuleVar(thread, index, funcObj);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(CALLRUNTIME_WIDELDLAZYMODULEVAR_PREF_IMM16);
}
HANDLE_OPCODE(CALLRUNTIME_LDLAZYSENDABLEMODULEVAR_PREF_IMM8) {
int32_t index = READ_INST_8_1();
JSTaggedValue funcObj = GetFunction(sp);
LOG_INST() << "intrinsics::ldlazysendableexternalmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdLazySendableExternalModuleVar(thread, index, funcObj);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(CALLRUNTIME_LDLAZYSENDABLEMODULEVAR_PREF_IMM8);
}
HANDLE_OPCODE(CALLRUNTIME_WIDELDLAZYSENDABLEMODULEVAR_PREF_IMM16) {
int32_t index = READ_INST_16_1();
JSTaggedValue funcObj = GetFunction(sp);
LOG_INST() << "intrinsics::ldlazysendableexternalmodulevar index:" << index;
JSTaggedValue moduleVar = SlowRuntimeStub::LdLazySendableExternalModuleVar(thread, index, funcObj);
INTERPRETER_RETURN_IF_ABRUPT(moduleVar);
SET_ACC(moduleVar);
DISPATCH(CALLRUNTIME_WIDELDLAZYSENDABLEMODULEVAR_PREF_IMM16);
}
#include "templates/debugger_instruction_handler.inl"
}
#endif
void EcmaInterpreter::InitStackFrame(JSThread *thread)
{
if (thread->IsAsmInterpreter()) {
return InterpreterAssembly::InitStackFrame(thread);
}
InitStackFrameForSP(const_cast<JSTaggedType *>(thread->GetCurrentSPFrame()));
}
void EcmaInterpreter::InitStackFrame(EcmaContext *context)
{
if (context->GetJSThread()->IsAsmInterpreter()) {
return InterpreterAssembly::InitStackFrame(context);
}
InitStackFrameForSP(const_cast<JSTaggedType *>(context->GetCurrentFrame()));
}
void EcmaInterpreter::InitStackFrameForSP(JSTaggedType *prevSp)
{
InterpretedFrame *state = GET_FRAME(prevSp);
state->pc = nullptr;
state->function = JSTaggedValue::Hole();
state->thisObj = JSTaggedValue::Hole();
state->acc = JSTaggedValue::Hole();
state->constpool = JSTaggedValue::Hole();
state->profileTypeInfo = JSTaggedValue::Undefined();
state->base.type = FrameType::INTERPRETER_FRAME;
state->base.prev = nullptr;
}
JSTaggedValue EcmaInterpreter::GetFunction(JSTaggedType *sp)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
return state->function;
}
JSTaggedValue EcmaInterpreter::GetThis(JSTaggedType *sp)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
return state->thisObj;
}
JSTaggedValue EcmaInterpreter::GetNewTarget(JSTaggedType *sp)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
Method *method = JSFunction::Cast(state->function.GetTaggedObject())->GetCallTarget();
ASSERT(method->HaveNewTargetWithCallField());
uint32_t numVregs = method->GetNumVregsWithCallField();
bool haveFunc = method->HaveFuncWithCallField();
return JSTaggedValue(sp[numVregs + haveFunc]);
}
uint32_t EcmaInterpreter::GetNumArgs(JSTaggedType *sp, uint32_t restIdx, uint32_t &startIdx)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
Method *method = JSFunction::Cast(state->function.GetTaggedObject())->GetCallTarget();
ASSERT(method->HaveExtraWithCallField());
uint32_t numVregs = method->GetNumVregsWithCallField();
bool haveFunc = method->HaveFuncWithCallField();
bool haveNewTarget = method->HaveNewTargetWithCallField();
bool haveThis = method->HaveThisWithCallField();
uint32_t copyArgs = haveFunc + haveNewTarget + haveThis;
uint32_t numArgs = method->GetNumArgsWithCallField();
JSTaggedType *lastFrame = state->base.prev;
// The prev frame of InterpretedFrame may entry frame or interpreter frame.
if (FrameHandler::GetFrameType(state->base.prev) == FrameType::INTERPRETER_ENTRY_FRAME) {
lastFrame = lastFrame - InterpretedEntryFrame::NumOfMembers();
} else {
lastFrame = lastFrame - InterpretedFrame::NumOfMembers();
}
if (static_cast<uint32_t>(lastFrame - sp) > numVregs + copyArgs + numArgs) {
// In this case, actualNumArgs is in the end
// If not, then actualNumArgs == declaredNumArgs, therefore do nothing
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
numArgs = static_cast<uint32_t>(JSTaggedValue(*(lastFrame - 1)).GetInt());
}
startIdx = numVregs + copyArgs + restIdx;
return ((numArgs > restIdx) ? (numArgs - restIdx) : 0);
}
size_t EcmaInterpreter::GetJumpSizeAfterCall(const uint8_t *prevPc)
{
auto op = BytecodeInstruction(prevPc).GetOpcode();
size_t jumpSize = BytecodeInstruction::Size(op);
return jumpSize;
}
JSTaggedValue EcmaInterpreter::GetRuntimeProfileTypeInfo(JSTaggedType *sp)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
return state->profileTypeInfo;
}
JSTaggedValue EcmaInterpreter::GetEcmaModule(JSTaggedType *sp)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
JSFunction *currentFunc = JSFunction::Cast((GET_FRAME(sp)->function).GetTaggedObject());
return currentFunc->GetModule();
}
JSTaggedValue EcmaInterpreter::GetConstantPool(JSTaggedType *sp)
{
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
return state->constpool;
}
JSTaggedValue EcmaInterpreter::GetUnsharedConstpool(JSThread* thread, JSTaggedType *sp)
{
InterpretedFrame *state = reinterpret_cast<InterpretedFrame *>(sp) - 1;
return thread->GetCurrentEcmaContext()->FindOrCreateUnsharedConstpool(state->constpool);
}
bool EcmaInterpreter::UpdateHotnessCounter(JSThread* thread, JSTaggedType *sp, JSTaggedValue acc, int32_t offset)
{
InterpretedFrame *state = GET_FRAME(sp);
auto method = JSFunction::Cast(state->function.GetTaggedObject())->GetCallTarget();
auto hotnessCounter = method->GetHotnessCounter();
hotnessCounter += offset;
if (UNLIKELY(hotnessCounter <= 0)) {
bool needRestoreAcc = false;
SAVE_ACC();
needRestoreAcc = thread->CheckSafepoint();
RESTORE_ACC();
method = JSFunction::Cast(state->function.GetTaggedObject())->GetCallTarget();
if (state->profileTypeInfo.IsUndefined()) {
state->acc = acc;
// NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic)
auto thisFunc = JSFunction::Cast(state->function.GetTaggedObject());
method = thisFunc->GetCallTarget(); // for CheckSafepoint, method need retrieve.
method->SetHotnessCounter(EcmaInterpreter::METHOD_HOTNESS_THRESHOLD);
auto res = SlowRuntimeStub::NotifyInlineCache(thread, thisFunc);
state->profileTypeInfo = res;
return true;
} else {
method->SetHotnessCounter(EcmaInterpreter::METHOD_HOTNESS_THRESHOLD);
return needRestoreAcc;
}
}
method->SetHotnessCounter(hotnessCounter);
return false;
}
bool EcmaInterpreter::IsFastNewFrameEnter(JSFunction *ctor, JSHandle<Method> method)
{
if (method->IsNativeWithCallField()) {
return false;
}
if (ctor->IsBase()) {
return method->OnlyHaveThisWithCallField();
}
if (ctor->IsDerivedConstructor()) {
return method->OnlyHaveNewTagetAndThisWithCallField();
}
return false;
}
JSTaggedType *EcmaInterpreter::GetInterpreterFrameEnd(JSThread *thread, JSTaggedType *sp)
{
JSTaggedType *newSp;
if (thread->IsAsmInterpreter()) {
newSp = sp - InterpretedEntryFrame::NumOfMembers();
} else {
if (FrameHandler::GetFrameType(sp) == FrameType::INTERPRETER_FRAME ||
FrameHandler::GetFrameType(sp) == FrameType::INTERPRETER_FAST_NEW_FRAME) {
// NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp = sp - InterpretedFrame::NumOfMembers();
} else if (FrameHandler::GetFrameType(sp) == FrameType::INTERPRETER_BUILTIN_FRAME) {
// NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp = sp - InterpretedBuiltinFrame::NumOfMembers();
} else {
// NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic)
newSp = sp - InterpretedEntryFrame::NumOfMembers();
}
}
return newSp;
}
bool EcmaInterpreter::IsFastNewFrameExit(JSTaggedType *sp)
{
return GET_FRAME(sp)->base.type == FrameType::INTERPRETER_FAST_NEW_FRAME;
}
int16_t EcmaInterpreter::GetHotnessCounter(uint32_t codeSize, bool cancelThreshold)
{
auto result = codeSize * METHOD_HOTNESS_THRESHOLD_FACTOR;
if (cancelThreshold) {
return CANCEL_METHOD_HOTNESS_THRESHOLD;
} else if (result > METHOD_HOTNESS_THRESHOLD) {
return METHOD_HOTNESS_THRESHOLD;
} else {
return static_cast<int16_t>(result);
}
}
#undef LOG_INST
#undef HANDLE_OPCODE
#undef ADVANCE_PC
#undef GOTO_NEXT
#undef DISPATCH
#undef DISPATCH_OFFSET
#undef GET_FRAME
#undef GET_ENTRY_FRAME
#undef SAVE_PC
#undef SAVE_ACC
#undef RESTORE_ACC
#undef INTERPRETER_GOTO_EXCEPTION_HANDLER
#undef CHECK_SWITCH_TO_DEBUGGER_TABLE
#undef REAL_GOTO_DISPATCH_OPCODE
#undef REAL_GOTO_EXCEPTION_HANDLER
#undef INTERPRETER_RETURN_IF_ABRUPT
#undef NOTIFY_DEBUGGER_EVENT
#undef DEPRECATED_CALL_INITIALIZE
#undef CALL_PUSH_UNDEFINED
#undef DEPRECATED_CALL_PUSH_ARGS_0
#undef DEPRECATED_CALL_PUSH_ARGS_1
#undef DEPRECATED_CALL_PUSH_ARGS_2
#undef DEPRECATED_CALL_PUSH_ARGS_3
#undef DEPRECATED_CALL_PUSH_ARGS_RANGE
#undef DEPRECATED_CALL_PUSH_ARGS_THISRANGE
#undef DEPRECATED_CALL_PUSH_ARGS_0_NO_EXTRA
#undef DEPRECATED_CALL_PUSH_ARGS_1_NO_EXTRA
#undef DEPRECATED_CALL_PUSH_ARGS_2_NO_EXTRA
#undef DEPRECATED_CALL_PUSH_ARGS_3_NO_EXTRA
#undef DEPRECATED_CALL_PUSH_ARGS_RANGE_NO_EXTRA
#undef DEPRECATED_CALL_PUSH_ARGS_THISRANGE_NO_EXTRA
#undef DEPRECATED_CALL_PUSH_ARGS
#undef UPDATE_HOTNESS_COUNTER_NON_ACC
#undef UPDATE_HOTNESS_COUNTER
#undef GET_VREG
#undef GET_VREG_VALUE
#undef SET_VREG
#undef GET_ACC
#undef SET_ACC
#if defined(__clang__)
#pragma clang diagnostic pop
#elif defined(__GNUC__)
#pragma GCC diagnostic pop
#endif
} // namespace panda::ecmascript
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