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android / platform / art / b331feb / . / runtime / interpreter / interpreter_goto_table_impl.cc
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/*
* Copyright (C) 2012 The Android Open Source Project
*
* 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.
*/
#if !defined(__clang__)
// Clang 3.4 fails to build the goto interpreter implementation.
#include "base/stl_util.h" // MakeUnique
#include "experimental_flags.h"
#include "interpreter_common.h"
#include "jit/jit.h"
#include "safe_math.h"
#include <memory> // std::unique_ptr
namespace art {
namespace interpreter {
// In the following macros, we expect the following local variables exist:
// - "self": the current Thread*.
// - "inst" : the current Instruction*.
// - "inst_data" : the current instruction's first 16 bits.
// - "dex_pc": the current pc.
// - "shadow_frame": the current shadow frame.
// - "currentHandlersTable": the current table of pointer to each instruction handler.
// Advance to the next instruction and updates interpreter state.
#define ADVANCE(_offset) \
do { \
int32_t disp = static_cast<int32_t>(_offset); \
inst = inst->RelativeAt(disp); \
dex_pc = static_cast<uint32_t>(static_cast<int32_t>(dex_pc) + disp); \
shadow_frame.SetDexPC(dex_pc); \
TraceExecution(shadow_frame, inst, dex_pc); \
inst_data = inst->Fetch16(0); \
goto *currentHandlersTable[inst->Opcode(inst_data)]; \
} while (false)
#define HANDLE_PENDING_EXCEPTION() goto exception_pending_label
#define POSSIBLY_HANDLE_PENDING_EXCEPTION(_is_exception_pending, _offset) \
do { \
if (UNLIKELY(_is_exception_pending)) { \
HANDLE_PENDING_EXCEPTION(); \
} else { \
ADVANCE(_offset); \
} \
} while (false)
#define UPDATE_HANDLER_TABLE() \
currentHandlersTable = handlersTable[ \
Runtime::Current()->GetInstrumentation()->GetInterpreterHandlerTable()]
#define BRANCH_INSTRUMENTATION(offset) \
do { \
ArtMethod* method = shadow_frame.GetMethod(); \
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation(); \
instrumentation->Branch(self, method, dex_pc, offset); \
JValue result; \
if (jit::Jit::MaybeDoOnStackReplacement(self, method, dex_pc, offset, &result)) { \
return result; \
} \
} while (false)
#define UNREACHABLE_CODE_CHECK() \
do { \
if (kIsDebugBuild) { \
LOG(FATAL) << "We should not be here !"; \
UNREACHABLE(); \
} \
} while (false)
#define HANDLE_INSTRUCTION_START(opcode) op_##opcode: // NOLINT(whitespace/labels)
#define HANDLE_INSTRUCTION_END() UNREACHABLE_CODE_CHECK()
// Use with instructions labeled with kExperimental flag:
#define HANDLE_EXPERIMENTAL_INSTRUCTION_START(opcode) \
HANDLE_INSTRUCTION_START(opcode); \
DCHECK(inst->IsExperimental()); \
if (Runtime::Current()->AreExperimentalFlagsEnabled(ExperimentalFlags::kLambdas)) {
#define HANDLE_EXPERIMENTAL_INSTRUCTION_END() \
} else { \
UnexpectedOpcode(inst, shadow_frame); \
} HANDLE_INSTRUCTION_END();
#define HANDLE_MONITOR_CHECKS() \
if (!shadow_frame.GetLockCountData(). \
CheckAllMonitorsReleasedOrThrow<do_assignability_check>(self)) { \
HANDLE_PENDING_EXCEPTION(); \
}
/**
* Interpreter based on computed goto tables.
*
* Each instruction is associated to a handler. This handler is responsible for executing the
* instruction and jump to the next instruction's handler.
* In order to limit the cost of instrumentation, we have two handler tables:
* - the "main" handler table: it contains handlers for normal execution of each instruction without
* handling of instrumentation.
* - the "alternative" handler table: it contains alternative handlers which first handle
* instrumentation before jumping to the corresponding "normal" instruction's handler.
*
* When instrumentation is active, the interpreter uses the "alternative" handler table. Otherwise
* it uses the "main" handler table.
*
* The current handler table is the handler table being used by the interpreter. It is updated:
* - on backward branch (goto, if and switch instructions)
* - after invoke
* - when an exception is thrown.
* This allows to support an attaching debugger to an already running application for instance.
*
* For a fast handler table update, handler tables are stored in an array of handler tables. Each
* handler table is represented by the InterpreterHandlerTable enum which allows to associate it
* to an index in this array of handler tables ((see Instrumentation::GetInterpreterHandlerTable).
*
* Here's the current layout of this array of handler tables:
*
* ---------------------+---------------+
* | NOP | (handler for NOP instruction)
* +---------------+
* "main" | MOVE | (handler for MOVE instruction)
* handler table +---------------+
* | ... |
* +---------------+
* | UNUSED_FF | (handler for UNUSED_FF instruction)
* ---------------------+---------------+
* | NOP | (alternative handler for NOP instruction)
* +---------------+
* "alternative" | MOVE | (alternative handler for MOVE instruction)
* handler table +---------------+
* | ... |
* +---------------+
* | UNUSED_FF | (alternative handler for UNUSED_FF instruction)
* ---------------------+---------------+
*
*/
template<bool do_access_check, bool transaction_active>
JValue ExecuteGotoImpl(Thread* self, const DexFile::CodeItem* code_item, ShadowFrame& shadow_frame,
JValue result_register) {
// Define handler tables:
// - The main handler table contains execution handlers for each instruction.
// - The alternative handler table contains prelude handlers which check for thread suspend and
// manage instrumentation before jumping to the execution handler.
static const void* const handlersTable[instrumentation::kNumHandlerTables][kNumPackedOpcodes] = {
{
// Main handler table.
#define INSTRUCTION_HANDLER(o, code, n, f, r, i, a, v) &&op_##code,
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(INSTRUCTION_HANDLER)
#undef DEX_INSTRUCTION_LIST
#undef INSTRUCTION_HANDLER
}, {
// Alternative handler table.
#define INSTRUCTION_HANDLER(o, code, n, f, r, i, a, v) &&alt_op_##code,
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(INSTRUCTION_HANDLER)
#undef DEX_INSTRUCTION_LIST
#undef INSTRUCTION_HANDLER
}
};
constexpr bool do_assignability_check = do_access_check;
if (UNLIKELY(!shadow_frame.HasReferenceArray())) {
LOG(FATAL) << "Invalid shadow frame for interpreter use";
return JValue();
}
self->VerifyStack();
uint32_t dex_pc = shadow_frame.GetDexPC();
const Instruction* inst = Instruction::At(code_item->insns_ + dex_pc);
uint16_t inst_data;
const void* const* currentHandlersTable;
UPDATE_HANDLER_TABLE();
std::unique_ptr<lambda::ClosureBuilder> lambda_closure_builder;
size_t lambda_captured_variable_index = 0;
// Jump to first instruction.
ADVANCE(0);
UNREACHABLE_CODE_CHECK();
HANDLE_INSTRUCTION_START(NOP)
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE)
shadow_frame.SetVReg(inst->VRegA_12x(inst_data),
shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_FROM16)
shadow_frame.SetVReg(inst->VRegA_22x(inst_data),
shadow_frame.GetVReg(inst->VRegB_22x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_16)
shadow_frame.SetVReg(inst->VRegA_32x(),
shadow_frame.GetVReg(inst->VRegB_32x()));
ADVANCE(3);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_WIDE)
shadow_frame.SetVRegLong(inst->VRegA_12x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_WIDE_FROM16)
shadow_frame.SetVRegLong(inst->VRegA_22x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_22x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_WIDE_16)
shadow_frame.SetVRegLong(inst->VRegA_32x(),
shadow_frame.GetVRegLong(inst->VRegB_32x()));
ADVANCE(3);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_OBJECT)
shadow_frame.SetVRegReference(inst->VRegA_12x(inst_data),
shadow_frame.GetVRegReference(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_OBJECT_FROM16)
shadow_frame.SetVRegReference(inst->VRegA_22x(inst_data),
shadow_frame.GetVRegReference(inst->VRegB_22x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_OBJECT_16)
shadow_frame.SetVRegReference(inst->VRegA_32x(),
shadow_frame.GetVRegReference(inst->VRegB_32x()));
ADVANCE(3);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_RESULT)
shadow_frame.SetVReg(inst->VRegA_11x(inst_data), result_register.GetI());
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_RESULT_WIDE)
shadow_frame.SetVRegLong(inst->VRegA_11x(inst_data), result_register.GetJ());
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_RESULT_OBJECT)
shadow_frame.SetVRegReference(inst->VRegA_11x(inst_data), result_register.GetL());
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MOVE_EXCEPTION) {
Throwable* exception = self->GetException();
DCHECK(exception != nullptr) << "No pending exception on MOVE_EXCEPTION instruction";
shadow_frame.SetVRegReference(inst->VRegA_11x(inst_data), exception);
self->ClearException();
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RETURN_VOID_NO_BARRIER) {
JValue result;
self->AllowThreadSuspension();
HANDLE_MONITOR_CHECKS();
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation();
if (UNLIKELY(instrumentation->HasMethodExitListeners())) {
instrumentation->MethodExitEvent(self, shadow_frame.GetThisObject(code_item->ins_size_),
shadow_frame.GetMethod(), dex_pc,
result);
}
return result;
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RETURN_VOID) {
QuasiAtomic::ThreadFenceForConstructor();
JValue result;
self->AllowThreadSuspension();
HANDLE_MONITOR_CHECKS();
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation();
if (UNLIKELY(instrumentation->HasMethodExitListeners())) {
instrumentation->MethodExitEvent(self, shadow_frame.GetThisObject(code_item->ins_size_),
shadow_frame.GetMethod(), dex_pc,
result);
}
return result;
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RETURN) {
JValue result;
result.SetJ(0);
result.SetI(shadow_frame.GetVReg(inst->VRegA_11x(inst_data)));
self->AllowThreadSuspension();
HANDLE_MONITOR_CHECKS();
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation();
if (UNLIKELY(instrumentation->HasMethodExitListeners())) {
instrumentation->MethodExitEvent(self, shadow_frame.GetThisObject(code_item->ins_size_),
shadow_frame.GetMethod(), dex_pc,
result);
}
return result;
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RETURN_WIDE) {
JValue result;
result.SetJ(shadow_frame.GetVRegLong(inst->VRegA_11x(inst_data)));
self->AllowThreadSuspension();
HANDLE_MONITOR_CHECKS();
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation();
if (UNLIKELY(instrumentation->HasMethodExitListeners())) {
instrumentation->MethodExitEvent(self, shadow_frame.GetThisObject(code_item->ins_size_),
shadow_frame.GetMethod(), dex_pc,
result);
}
return result;
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RETURN_OBJECT) {
JValue result;
self->AllowThreadSuspension();
HANDLE_MONITOR_CHECKS();
const uint8_t vreg_index = inst->VRegA_11x(inst_data);
Object* obj_result = shadow_frame.GetVRegReference(vreg_index);
if (do_assignability_check && obj_result != nullptr) {
size_t pointer_size = Runtime::Current()->GetClassLinker()->GetImagePointerSize();
Class* return_type = shadow_frame.GetMethod()->GetReturnType(true /* resolve */,
pointer_size);
obj_result = shadow_frame.GetVRegReference(vreg_index);
if (return_type == nullptr) {
// Return the pending exception.
HANDLE_PENDING_EXCEPTION();
}
if (!obj_result->VerifierInstanceOf(return_type)) {
// This should never happen.
std::string temp1, temp2;
self->ThrowNewExceptionF("Ljava/lang/VirtualMachineError;",
"Returning '%s' that is not instance of return type '%s'",
obj_result->GetClass()->GetDescriptor(&temp1),
return_type->GetDescriptor(&temp2));
HANDLE_PENDING_EXCEPTION();
}
}
result.SetL(obj_result);
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation();
if (UNLIKELY(instrumentation->HasMethodExitListeners())) {
instrumentation->MethodExitEvent(self, shadow_frame.GetThisObject(code_item->ins_size_),
shadow_frame.GetMethod(), dex_pc,
result);
}
return result;
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_4) {
uint32_t dst = inst->VRegA_11n(inst_data);
int32_t val = inst->VRegB_11n(inst_data);
shadow_frame.SetVReg(dst, val);
if (val == 0) {
shadow_frame.SetVRegReference(dst, nullptr);
}
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_16) {
uint32_t dst = inst->VRegA_21s(inst_data);
int32_t val = inst->VRegB_21s();
shadow_frame.SetVReg(dst, val);
if (val == 0) {
shadow_frame.SetVRegReference(dst, nullptr);
}
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST) {
uint32_t dst = inst->VRegA_31i(inst_data);
int32_t val = inst->VRegB_31i();
shadow_frame.SetVReg(dst, val);
if (val == 0) {
shadow_frame.SetVRegReference(dst, nullptr);
}
ADVANCE(3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_HIGH16) {
uint32_t dst = inst->VRegA_21h(inst_data);
int32_t val = static_cast<int32_t>(inst->VRegB_21h() << 16);
shadow_frame.SetVReg(dst, val);
if (val == 0) {
shadow_frame.SetVRegReference(dst, nullptr);
}
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_WIDE_16)
shadow_frame.SetVRegLong(inst->VRegA_21s(inst_data), inst->VRegB_21s());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_WIDE_32)
shadow_frame.SetVRegLong(inst->VRegA_31i(inst_data), inst->VRegB_31i());
ADVANCE(3);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_WIDE)
shadow_frame.SetVRegLong(inst->VRegA_51l(inst_data), inst->VRegB_51l());
ADVANCE(5);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_WIDE_HIGH16)
shadow_frame.SetVRegLong(inst->VRegA_21h(inst_data),
static_cast<uint64_t>(inst->VRegB_21h()) << 48);
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_STRING) {
String* s = ResolveString(self, shadow_frame, inst->VRegB_21c());
if (UNLIKELY(s == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
shadow_frame.SetVRegReference(inst->VRegA_21c(inst_data), s);
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_STRING_JUMBO) {
String* s = ResolveString(self, shadow_frame, inst->VRegB_31c());
if (UNLIKELY(s == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
shadow_frame.SetVRegReference(inst->VRegA_31c(inst_data), s);
ADVANCE(3);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CONST_CLASS) {
Class* c = ResolveVerifyAndClinit(inst->VRegB_21c(), shadow_frame.GetMethod(),
self, false, do_access_check);
if (UNLIKELY(c == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
shadow_frame.SetVRegReference(inst->VRegA_21c(inst_data), c);
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MONITOR_ENTER) {
Object* obj = shadow_frame.GetVRegReference(inst->VRegA_11x(inst_data));
if (UNLIKELY(obj == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
DoMonitorEnter<do_access_check>(self, &shadow_frame, obj);
POSSIBLY_HANDLE_PENDING_EXCEPTION(self->IsExceptionPending(), 1);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MONITOR_EXIT) {
Object* obj = shadow_frame.GetVRegReference(inst->VRegA_11x(inst_data));
if (UNLIKELY(obj == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
DoMonitorExit<do_access_check>(self, &shadow_frame, obj);
POSSIBLY_HANDLE_PENDING_EXCEPTION(self->IsExceptionPending(), 1);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CHECK_CAST) {
Class* c = ResolveVerifyAndClinit(inst->VRegB_21c(), shadow_frame.GetMethod(),
self, false, do_access_check);
if (UNLIKELY(c == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
Object* obj = shadow_frame.GetVRegReference(inst->VRegA_21c(inst_data));
if (UNLIKELY(obj != nullptr && !obj->InstanceOf(c))) {
ThrowClassCastException(c, obj->GetClass());
HANDLE_PENDING_EXCEPTION();
} else {
ADVANCE(2);
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INSTANCE_OF) {
Class* c = ResolveVerifyAndClinit(inst->VRegC_22c(), shadow_frame.GetMethod(),
self, false, do_access_check);
if (UNLIKELY(c == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
Object* obj = shadow_frame.GetVRegReference(inst->VRegB_22c(inst_data));
shadow_frame.SetVReg(inst->VRegA_22c(inst_data), (obj != nullptr && obj->InstanceOf(c)) ? 1 : 0);
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ARRAY_LENGTH) {
Object* array = shadow_frame.GetVRegReference(inst->VRegB_12x(inst_data));
if (UNLIKELY(array == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
shadow_frame.SetVReg(inst->VRegA_12x(inst_data), array->AsArray()->GetLength());
ADVANCE(1);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NEW_INSTANCE) {
Object* obj = nullptr;
Class* c = ResolveVerifyAndClinit(inst->VRegB_21c(), shadow_frame.GetMethod(),
self, false, do_access_check);
if (LIKELY(c != nullptr)) {
if (UNLIKELY(c->IsStringClass())) {
gc::AllocatorType allocator_type = Runtime::Current()->GetHeap()->GetCurrentAllocator();
mirror::SetStringCountVisitor visitor(0);
obj = String::Alloc<true>(self, 0, allocator_type, visitor);
} else {
obj = AllocObjectFromCode<do_access_check, true>(
inst->VRegB_21c(), shadow_frame.GetMethod(), self,
Runtime::Current()->GetHeap()->GetCurrentAllocator());
}
}
if (UNLIKELY(obj == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
obj->GetClass()->AssertInitializedOrInitializingInThread(self);
// Don't allow finalizable objects to be allocated during a transaction since these can't be
// finalized without a started runtime.
if (transaction_active && obj->GetClass()->IsFinalizable()) {
AbortTransactionF(self, "Allocating finalizable object in transaction: %s",
PrettyTypeOf(obj).c_str());
HANDLE_PENDING_EXCEPTION();
}
shadow_frame.SetVRegReference(inst->VRegA_21c(inst_data), obj);
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NEW_ARRAY) {
int32_t length = shadow_frame.GetVReg(inst->VRegB_22c(inst_data));
Object* obj = AllocArrayFromCode<do_access_check, true>(
inst->VRegC_22c(), length, shadow_frame.GetMethod(), self,
Runtime::Current()->GetHeap()->GetCurrentAllocator());
if (UNLIKELY(obj == nullptr)) {
HANDLE_PENDING_EXCEPTION();
} else {
shadow_frame.SetVRegReference(inst->VRegA_22c(inst_data), obj);
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(FILLED_NEW_ARRAY) {
bool success =
DoFilledNewArray<false, do_access_check, transaction_active>(inst, shadow_frame,
self, &result_register);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(FILLED_NEW_ARRAY_RANGE) {
bool success =
DoFilledNewArray<true, do_access_check, transaction_active>(inst, shadow_frame,
self, &result_register);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(FILL_ARRAY_DATA) {
Object* obj = shadow_frame.GetVRegReference(inst->VRegA_31t(inst_data));
const uint16_t* payload_addr = reinterpret_cast<const uint16_t*>(inst) + inst->VRegB_31t();
const Instruction::ArrayDataPayload* payload =
reinterpret_cast<const Instruction::ArrayDataPayload*>(payload_addr);
bool success = FillArrayData(obj, payload);
if (transaction_active && success) {
RecordArrayElementsInTransaction(obj->AsArray(), payload->element_count);
}
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(THROW) {
Object* exception = shadow_frame.GetVRegReference(inst->VRegA_11x(inst_data));
if (UNLIKELY(exception == nullptr)) {
ThrowNullPointerException("throw with null exception");
} else if (do_assignability_check && !exception->GetClass()->IsThrowableClass()) {
// This should never happen.
std::string temp;
self->ThrowNewExceptionF("Ljava/lang/VirtualMachineError;",
"Throwing '%s' that is not instance of Throwable",
exception->GetClass()->GetDescriptor(&temp));
} else {
self->SetException(exception->AsThrowable());
}
HANDLE_PENDING_EXCEPTION();
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(GOTO) {
int8_t offset = inst->VRegA_10t(inst_data);
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(GOTO_16) {
int16_t offset = inst->VRegA_20t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(GOTO_32) {
int32_t offset = inst->VRegA_30t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(PACKED_SWITCH) {
int32_t offset = DoPackedSwitch(inst, shadow_frame, inst_data);
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPARSE_SWITCH) {
int32_t offset = DoSparseSwitch(inst, shadow_frame, inst_data);
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
}
HANDLE_INSTRUCTION_END();
#if defined(__clang__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wfloat-equal"
#endif
HANDLE_INSTRUCTION_START(CMPL_FLOAT) {
float val1 = shadow_frame.GetVRegFloat(inst->VRegB_23x());
float val2 = shadow_frame.GetVRegFloat(inst->VRegC_23x());
int32_t result;
if (val1 > val2) {
result = 1;
} else if (val1 == val2) {
result = 0;
} else {
result = -1;
}
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), result);
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CMPG_FLOAT) {
float val1 = shadow_frame.GetVRegFloat(inst->VRegB_23x());
float val2 = shadow_frame.GetVRegFloat(inst->VRegC_23x());
int32_t result;
if (val1 < val2) {
result = -1;
} else if (val1 == val2) {
result = 0;
} else {
result = 1;
}
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), result);
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CMPL_DOUBLE) {
double val1 = shadow_frame.GetVRegDouble(inst->VRegB_23x());
double val2 = shadow_frame.GetVRegDouble(inst->VRegC_23x());
int32_t result;
if (val1 > val2) {
result = 1;
} else if (val1 == val2) {
result = 0;
} else {
result = -1;
}
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), result);
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(CMPG_DOUBLE) {
double val1 = shadow_frame.GetVRegDouble(inst->VRegB_23x());
double val2 = shadow_frame.GetVRegDouble(inst->VRegC_23x());
int32_t result;
if (val1 < val2) {
result = -1;
} else if (val1 == val2) {
result = 0;
} else {
result = 1;
}
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), result);
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
#if defined(__clang__)
#pragma clang diagnostic pop
#endif
HANDLE_INSTRUCTION_START(CMP_LONG) {
int64_t val1 = shadow_frame.GetVRegLong(inst->VRegB_23x());
int64_t val2 = shadow_frame.GetVRegLong(inst->VRegC_23x());
int32_t result;
if (val1 > val2) {
result = 1;
} else if (val1 == val2) {
result = 0;
} else {
result = -1;
}
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), result);
ADVANCE(2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_EQ) {
if (shadow_frame.GetVReg(inst->VRegA_22t(inst_data)) == shadow_frame.GetVReg(inst->VRegB_22t(inst_data))) {
int16_t offset = inst->VRegC_22t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_NE) {
if (shadow_frame.GetVReg(inst->VRegA_22t(inst_data)) !=
shadow_frame.GetVReg(inst->VRegB_22t(inst_data))) {
int16_t offset = inst->VRegC_22t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_LT) {
if (shadow_frame.GetVReg(inst->VRegA_22t(inst_data)) <
shadow_frame.GetVReg(inst->VRegB_22t(inst_data))) {
int16_t offset = inst->VRegC_22t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_GE) {
if (shadow_frame.GetVReg(inst->VRegA_22t(inst_data)) >=
shadow_frame.GetVReg(inst->VRegB_22t(inst_data))) {
int16_t offset = inst->VRegC_22t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_GT) {
if (shadow_frame.GetVReg(inst->VRegA_22t(inst_data)) >
shadow_frame.GetVReg(inst->VRegB_22t(inst_data))) {
int16_t offset = inst->VRegC_22t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_LE) {
if (shadow_frame.GetVReg(inst->VRegA_22t(inst_data)) <=
shadow_frame.GetVReg(inst->VRegB_22t(inst_data))) {
int16_t offset = inst->VRegC_22t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_EQZ) {
if (shadow_frame.GetVReg(inst->VRegA_21t(inst_data)) == 0) {
int16_t offset = inst->VRegB_21t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_NEZ) {
if (shadow_frame.GetVReg(inst->VRegA_21t(inst_data)) != 0) {
int16_t offset = inst->VRegB_21t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_LTZ) {
if (shadow_frame.GetVReg(inst->VRegA_21t(inst_data)) < 0) {
int16_t offset = inst->VRegB_21t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_GEZ) {
if (shadow_frame.GetVReg(inst->VRegA_21t(inst_data)) >= 0) {
int16_t offset = inst->VRegB_21t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_GTZ) {
if (shadow_frame.GetVReg(inst->VRegA_21t(inst_data)) > 0) {
int16_t offset = inst->VRegB_21t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IF_LEZ) {
if (shadow_frame.GetVReg(inst->VRegA_21t(inst_data)) <= 0) {
int16_t offset = inst->VRegB_21t();
BRANCH_INSTRUMENTATION(offset);
if (IsBackwardBranch(offset)) {
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
}
ADVANCE(offset);
} else {
ADVANCE(2);
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET_BOOLEAN) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
BooleanArray* array = a->AsBooleanArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET_BYTE) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
ByteArray* array = a->AsByteArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET_CHAR) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
CharArray* array = a->AsCharArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET_SHORT) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
ShortArray* array = a->AsShortArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
DCHECK(a->IsIntArray() || a->IsFloatArray()) << PrettyTypeOf(a);
auto* array = down_cast<IntArray*>(a);
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVReg(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET_WIDE) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
DCHECK(a->IsLongArray() || a->IsDoubleArray()) << PrettyTypeOf(a);
auto* array = down_cast<LongArray*>(a);
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AGET_OBJECT) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
ObjectArray<Object>* array = a->AsObjectArray<Object>();
if (LIKELY(array->CheckIsValidIndex(index))) {
shadow_frame.SetVRegReference(inst->VRegA_23x(inst_data), array->GetWithoutChecks(index));
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT_BOOLEAN) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
uint8_t val = shadow_frame.GetVReg(inst->VRegA_23x(inst_data));
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
BooleanArray* array = a->AsBooleanArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT_BYTE) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int8_t val = shadow_frame.GetVReg(inst->VRegA_23x(inst_data));
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
ByteArray* array = a->AsByteArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT_CHAR) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
uint16_t val = shadow_frame.GetVReg(inst->VRegA_23x(inst_data));
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
CharArray* array = a->AsCharArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT_SHORT) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int16_t val = shadow_frame.GetVReg(inst->VRegA_23x(inst_data));
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
ShortArray* array = a->AsShortArray();
if (LIKELY(array->CheckIsValidIndex(index))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t val = shadow_frame.GetVReg(inst->VRegA_23x(inst_data));
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
DCHECK(a->IsIntArray() || a->IsFloatArray()) << PrettyTypeOf(a);
auto* array = down_cast<IntArray*>(a);
if (LIKELY(array->CheckIsValidIndex(index))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT_WIDE) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int64_t val = shadow_frame.GetVRegLong(inst->VRegA_23x(inst_data));
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
DCHECK(a->IsLongArray() || a->IsDoubleArray()) << PrettyTypeOf(a);
auto* array = down_cast<LongArray*>(a);
if (LIKELY(array->CheckIsValidIndex(index))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(APUT_OBJECT) {
Object* a = shadow_frame.GetVRegReference(inst->VRegB_23x());
if (UNLIKELY(a == nullptr)) {
ThrowNullPointerExceptionFromInterpreter();
HANDLE_PENDING_EXCEPTION();
} else {
int32_t index = shadow_frame.GetVReg(inst->VRegC_23x());
Object* val = shadow_frame.GetVRegReference(inst->VRegA_23x(inst_data));
ObjectArray<Object>* array = a->AsObjectArray<Object>();
if (LIKELY(array->CheckIsValidIndex(index) && array->CheckAssignable(val))) {
array->SetWithoutChecks<transaction_active>(index, val);
ADVANCE(2);
} else {
HANDLE_PENDING_EXCEPTION();
}
}
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_BOOLEAN) {
bool success = DoFieldGet<InstancePrimitiveRead, Primitive::kPrimBoolean, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_BYTE) {
bool success = DoFieldGet<InstancePrimitiveRead, Primitive::kPrimByte, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_CHAR) {
bool success = DoFieldGet<InstancePrimitiveRead, Primitive::kPrimChar, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_SHORT) {
bool success = DoFieldGet<InstancePrimitiveRead, Primitive::kPrimShort, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET) {
bool success = DoFieldGet<InstancePrimitiveRead, Primitive::kPrimInt, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_WIDE) {
bool success = DoFieldGet<InstancePrimitiveRead, Primitive::kPrimLong, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_OBJECT) {
bool success = DoFieldGet<InstanceObjectRead, Primitive::kPrimNot, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimInt>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_BOOLEAN_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimBoolean>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_BYTE_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimByte>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_CHAR_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimChar>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_SHORT_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimShort>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_WIDE_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimLong>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IGET_OBJECT_QUICK) {
bool success = DoIGetQuick<Primitive::kPrimNot>(shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET_BOOLEAN) {
bool success = DoFieldGet<StaticPrimitiveRead, Primitive::kPrimBoolean, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET_BYTE) {
bool success = DoFieldGet<StaticPrimitiveRead, Primitive::kPrimByte, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET_CHAR) {
bool success = DoFieldGet<StaticPrimitiveRead, Primitive::kPrimChar, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET_SHORT) {
bool success = DoFieldGet<StaticPrimitiveRead, Primitive::kPrimShort, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET) {
bool success = DoFieldGet<StaticPrimitiveRead, Primitive::kPrimInt, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET_WIDE) {
bool success = DoFieldGet<StaticPrimitiveRead, Primitive::kPrimLong, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SGET_OBJECT) {
bool success = DoFieldGet<StaticObjectRead, Primitive::kPrimNot, do_access_check>(
self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_BOOLEAN) {
bool success = DoFieldPut<InstancePrimitiveWrite, Primitive::kPrimBoolean, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_BYTE) {
bool success = DoFieldPut<InstancePrimitiveWrite, Primitive::kPrimByte, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_CHAR) {
bool success = DoFieldPut<InstancePrimitiveWrite, Primitive::kPrimChar, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_SHORT) {
bool success = DoFieldPut<InstancePrimitiveWrite, Primitive::kPrimShort, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT) {
bool success = DoFieldPut<InstancePrimitiveWrite, Primitive::kPrimInt, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_WIDE) {
bool success = DoFieldPut<InstancePrimitiveWrite, Primitive::kPrimLong, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_OBJECT) {
bool success = DoFieldPut<InstanceObjectWrite, Primitive::kPrimNot, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimInt, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_BOOLEAN_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimBoolean, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_BYTE_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimByte, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_CHAR_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimChar, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_SHORT_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimShort, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_WIDE_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimLong, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(IPUT_OBJECT_QUICK) {
bool success = DoIPutQuick<Primitive::kPrimNot, transaction_active>(
shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT_BOOLEAN) {
bool success = DoFieldPut<StaticPrimitiveWrite, Primitive::kPrimBoolean, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT_BYTE) {
bool success = DoFieldPut<StaticPrimitiveWrite, Primitive::kPrimByte, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT_CHAR) {
bool success = DoFieldPut<StaticPrimitiveWrite, Primitive::kPrimChar, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT_SHORT) {
bool success = DoFieldPut<StaticPrimitiveWrite, Primitive::kPrimShort, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT) {
bool success = DoFieldPut<StaticPrimitiveWrite, Primitive::kPrimInt, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT_WIDE) {
bool success = DoFieldPut<StaticPrimitiveWrite, Primitive::kPrimLong, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SPUT_OBJECT) {
bool success = DoFieldPut<StaticObjectWrite, Primitive::kPrimNot, do_access_check,
transaction_active>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_VIRTUAL) {
bool success = DoInvoke<kVirtual, false, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_VIRTUAL_RANGE) {
bool success = DoInvoke<kVirtual, true, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_SUPER) {
bool success = DoInvoke<kSuper, false, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_SUPER_RANGE) {
bool success = DoInvoke<kSuper, true, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_DIRECT) {
bool success = DoInvoke<kDirect, false, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_DIRECT_RANGE) {
bool success = DoInvoke<kDirect, true, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_INTERFACE) {
bool success = DoInvoke<kInterface, false, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_INTERFACE_RANGE) {
bool success = DoInvoke<kInterface, true, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_STATIC) {
bool success = DoInvoke<kStatic, false, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_STATIC_RANGE) {
bool success = DoInvoke<kStatic, true, do_access_check>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_VIRTUAL_QUICK) {
bool success = DoInvokeVirtualQuick<false>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INVOKE_VIRTUAL_RANGE_QUICK) {
bool success = DoInvokeVirtualQuick<true>(
self, shadow_frame, inst, inst_data, &result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 3);
}
HANDLE_INSTRUCTION_END();
HANDLE_EXPERIMENTAL_INSTRUCTION_START(INVOKE_LAMBDA) {
bool success = DoInvokeLambda<do_access_check>(self, shadow_frame, inst, inst_data,
&result_register);
UPDATE_HANDLER_TABLE();
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_EXPERIMENTAL_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NEG_INT)
shadow_frame.SetVReg(
inst->VRegA_12x(inst_data), -shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NOT_INT)
shadow_frame.SetVReg(
inst->VRegA_12x(inst_data), ~shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NEG_LONG)
shadow_frame.SetVRegLong(
inst->VRegA_12x(inst_data), -shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NOT_LONG)
shadow_frame.SetVRegLong(
inst->VRegA_12x(inst_data), ~shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NEG_FLOAT)
shadow_frame.SetVRegFloat(
inst->VRegA_12x(inst_data), -shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(NEG_DOUBLE)
shadow_frame.SetVRegDouble(
inst->VRegA_12x(inst_data), -shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INT_TO_LONG)
shadow_frame.SetVRegLong(
inst->VRegA_12x(inst_data), shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INT_TO_FLOAT)
shadow_frame.SetVRegFloat(
inst->VRegA_12x(inst_data), shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INT_TO_DOUBLE)
shadow_frame.SetVRegDouble(
inst->VRegA_12x(inst_data), shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(LONG_TO_INT)
shadow_frame.SetVReg(
inst->VRegA_12x(inst_data), shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(LONG_TO_FLOAT)
shadow_frame.SetVRegFloat(
inst->VRegA_12x(inst_data), shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(LONG_TO_DOUBLE)
shadow_frame.SetVRegDouble(
inst->VRegA_12x(inst_data), shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(FLOAT_TO_INT) {
float val = shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data));
int32_t result = art_float_to_integral<int32_t, float>(val);
shadow_frame.SetVReg(inst->VRegA_12x(inst_data), result);
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(FLOAT_TO_LONG) {
float val = shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data));
int64_t result = art_float_to_integral<int64_t, float>(val);
shadow_frame.SetVRegLong(inst->VRegA_12x(inst_data), result);
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(FLOAT_TO_DOUBLE)
shadow_frame.SetVRegDouble(
inst->VRegA_12x(inst_data), shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DOUBLE_TO_INT) {
double val = shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data));
int32_t result = art_float_to_integral<int32_t, double>(val);
shadow_frame.SetVReg(inst->VRegA_12x(inst_data), result);
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DOUBLE_TO_LONG) {
double val = shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data));
int64_t result = art_float_to_integral<int64_t, double>(val);
shadow_frame.SetVRegLong(inst->VRegA_12x(inst_data), result);
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DOUBLE_TO_FLOAT)
shadow_frame.SetVRegFloat(
inst->VRegA_12x(inst_data), shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data)));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INT_TO_BYTE)
shadow_frame.SetVReg(inst->VRegA_12x(inst_data),
static_cast<int8_t>(shadow_frame.GetVReg(inst->VRegB_12x(inst_data))));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INT_TO_CHAR)
shadow_frame.SetVReg(inst->VRegA_12x(inst_data),
static_cast<uint16_t>(shadow_frame.GetVReg(inst->VRegB_12x(inst_data))));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(INT_TO_SHORT)
shadow_frame.SetVReg(inst->VRegA_12x(inst_data),
static_cast<int16_t>(shadow_frame.GetVReg(inst->VRegB_12x(inst_data))));
ADVANCE(1);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
SafeAdd(shadow_frame.GetVReg(inst->VRegB_23x()),
shadow_frame.GetVReg(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
SafeSub(shadow_frame.GetVReg(inst->VRegB_23x()),
shadow_frame.GetVReg(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
SafeMul(shadow_frame.GetVReg(inst->VRegB_23x()),
shadow_frame.GetVReg(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_INT) {
bool success = DoIntDivide(shadow_frame, inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()),
shadow_frame.GetVReg(inst->VRegC_23x()));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_INT) {
bool success = DoIntRemainder(shadow_frame, inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()),
shadow_frame.GetVReg(inst->VRegC_23x()));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHL_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()) <<
(shadow_frame.GetVReg(inst->VRegC_23x()) & 0x1f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHR_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()) >>
(shadow_frame.GetVReg(inst->VRegC_23x()) & 0x1f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(USHR_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
static_cast<uint32_t>(shadow_frame.GetVReg(inst->VRegB_23x())) >>
(shadow_frame.GetVReg(inst->VRegC_23x()) & 0x1f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AND_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()) &
shadow_frame.GetVReg(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(OR_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()) |
shadow_frame.GetVReg(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(XOR_INT)
shadow_frame.SetVReg(inst->VRegA_23x(inst_data),
shadow_frame.GetVReg(inst->VRegB_23x()) ^
shadow_frame.GetVReg(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
SafeAdd(shadow_frame.GetVRegLong(inst->VRegB_23x()),
shadow_frame.GetVRegLong(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
SafeSub(shadow_frame.GetVRegLong(inst->VRegB_23x()),
shadow_frame.GetVRegLong(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
SafeMul(shadow_frame.GetVRegLong(inst->VRegB_23x()),
shadow_frame.GetVRegLong(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_LONG) {
bool success = DoLongDivide(shadow_frame, inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()),
shadow_frame.GetVRegLong(inst->VRegC_23x()));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_LONG) {
bool success = DoLongRemainder(shadow_frame, inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()),
shadow_frame.GetVRegLong(inst->VRegC_23x()));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AND_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()) &
shadow_frame.GetVRegLong(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(OR_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()) |
shadow_frame.GetVRegLong(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(XOR_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()) ^
shadow_frame.GetVRegLong(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHL_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()) <<
(shadow_frame.GetVReg(inst->VRegC_23x()) & 0x3f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHR_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegLong(inst->VRegB_23x()) >>
(shadow_frame.GetVReg(inst->VRegC_23x()) & 0x3f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(USHR_LONG)
shadow_frame.SetVRegLong(inst->VRegA_23x(inst_data),
static_cast<uint64_t>(shadow_frame.GetVRegLong(inst->VRegB_23x())) >>
(shadow_frame.GetVReg(inst->VRegC_23x()) & 0x3f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_FLOAT)
shadow_frame.SetVRegFloat(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegFloat(inst->VRegB_23x()) +
shadow_frame.GetVRegFloat(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_FLOAT)
shadow_frame.SetVRegFloat(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegFloat(inst->VRegB_23x()) -
shadow_frame.GetVRegFloat(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_FLOAT)
shadow_frame.SetVRegFloat(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegFloat(inst->VRegB_23x()) *
shadow_frame.GetVRegFloat(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_FLOAT)
shadow_frame.SetVRegFloat(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegFloat(inst->VRegB_23x()) /
shadow_frame.GetVRegFloat(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_FLOAT)
shadow_frame.SetVRegFloat(inst->VRegA_23x(inst_data),
fmodf(shadow_frame.GetVRegFloat(inst->VRegB_23x()),
shadow_frame.GetVRegFloat(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_DOUBLE)
shadow_frame.SetVRegDouble(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegDouble(inst->VRegB_23x()) +
shadow_frame.GetVRegDouble(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_DOUBLE)
shadow_frame.SetVRegDouble(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegDouble(inst->VRegB_23x()) -
shadow_frame.GetVRegDouble(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_DOUBLE)
shadow_frame.SetVRegDouble(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegDouble(inst->VRegB_23x()) *
shadow_frame.GetVRegDouble(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_DOUBLE)
shadow_frame.SetVRegDouble(inst->VRegA_23x(inst_data),
shadow_frame.GetVRegDouble(inst->VRegB_23x()) /
shadow_frame.GetVRegDouble(inst->VRegC_23x()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_DOUBLE)
shadow_frame.SetVRegDouble(inst->VRegA_23x(inst_data),
fmod(shadow_frame.GetVRegDouble(inst->VRegB_23x()),
shadow_frame.GetVRegDouble(inst->VRegC_23x())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
SafeAdd(shadow_frame.GetVReg(vregA),
shadow_frame.GetVReg(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
SafeSub(shadow_frame.GetVReg(vregA),
shadow_frame.GetVReg(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
SafeMul(shadow_frame.GetVReg(vregA),
shadow_frame.GetVReg(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
bool success = DoIntDivide(shadow_frame, vregA, shadow_frame.GetVReg(vregA),
shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
bool success = DoIntRemainder(shadow_frame, vregA, shadow_frame.GetVReg(vregA),
shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHL_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
shadow_frame.GetVReg(vregA) <<
(shadow_frame.GetVReg(inst->VRegB_12x(inst_data)) & 0x1f));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHR_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
shadow_frame.GetVReg(vregA) >>
(shadow_frame.GetVReg(inst->VRegB_12x(inst_data)) & 0x1f));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(USHR_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
static_cast<uint32_t>(shadow_frame.GetVReg(vregA)) >>
(shadow_frame.GetVReg(inst->VRegB_12x(inst_data)) & 0x1f));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AND_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
shadow_frame.GetVReg(vregA) &
shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(OR_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
shadow_frame.GetVReg(vregA) |
shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(XOR_INT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVReg(vregA,
shadow_frame.GetVReg(vregA) ^
shadow_frame.GetVReg(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
SafeAdd(shadow_frame.GetVRegLong(vregA),
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
SafeSub(shadow_frame.GetVRegLong(vregA),
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
SafeMul(shadow_frame.GetVRegLong(vregA),
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
bool success = DoLongDivide(shadow_frame, vregA, shadow_frame.GetVRegLong(vregA),
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
bool success = DoLongRemainder(shadow_frame, vregA, shadow_frame.GetVRegLong(vregA),
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AND_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
shadow_frame.GetVRegLong(vregA) &
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(OR_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
shadow_frame.GetVRegLong(vregA) |
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(XOR_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
shadow_frame.GetVRegLong(vregA) ^
shadow_frame.GetVRegLong(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHL_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
shadow_frame.GetVRegLong(vregA) <<
(shadow_frame.GetVReg(inst->VRegB_12x(inst_data)) & 0x3f));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHR_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
shadow_frame.GetVRegLong(vregA) >>
(shadow_frame.GetVReg(inst->VRegB_12x(inst_data)) & 0x3f));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(USHR_LONG_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegLong(vregA,
static_cast<uint64_t>(shadow_frame.GetVRegLong(vregA)) >>
(shadow_frame.GetVReg(inst->VRegB_12x(inst_data)) & 0x3f));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_FLOAT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegFloat(vregA,
shadow_frame.GetVRegFloat(vregA) +
shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_FLOAT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegFloat(vregA,
shadow_frame.GetVRegFloat(vregA) -
shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_FLOAT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegFloat(vregA,
shadow_frame.GetVRegFloat(vregA) *
shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_FLOAT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegFloat(vregA,
shadow_frame.GetVRegFloat(vregA) /
shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_FLOAT_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegFloat(vregA,
fmodf(shadow_frame.GetVRegFloat(vregA),
shadow_frame.GetVRegFloat(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_DOUBLE_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegDouble(vregA,
shadow_frame.GetVRegDouble(vregA) +
shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SUB_DOUBLE_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegDouble(vregA,
shadow_frame.GetVRegDouble(vregA) -
shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_DOUBLE_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegDouble(vregA,
shadow_frame.GetVRegDouble(vregA) *
shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_DOUBLE_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegDouble(vregA,
shadow_frame.GetVRegDouble(vregA) /
shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data)));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_DOUBLE_2ADDR) {
uint32_t vregA = inst->VRegA_12x(inst_data);
shadow_frame.SetVRegDouble(vregA,
fmod(shadow_frame.GetVRegDouble(vregA),
shadow_frame.GetVRegDouble(inst->VRegB_12x(inst_data))));
ADVANCE(1);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_INT_LIT16)
shadow_frame.SetVReg(inst->VRegA_22s(inst_data),
SafeAdd(shadow_frame.GetVReg(inst->VRegB_22s(inst_data)),
inst->VRegC_22s()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RSUB_INT)
shadow_frame.SetVReg(inst->VRegA_22s(inst_data),
SafeSub(inst->VRegC_22s(),
shadow_frame.GetVReg(inst->VRegB_22s(inst_data))));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_INT_LIT16)
shadow_frame.SetVReg(inst->VRegA_22s(inst_data),
SafeMul(shadow_frame.GetVReg(inst->VRegB_22s(inst_data)),
inst->VRegC_22s()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_INT_LIT16) {
bool success = DoIntDivide(
shadow_frame, inst->VRegA_22s(inst_data), shadow_frame.GetVReg(inst->VRegB_22s(inst_data)),
inst->VRegC_22s());
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_INT_LIT16) {
bool success = DoIntRemainder(
shadow_frame, inst->VRegA_22s(inst_data), shadow_frame.GetVReg(inst->VRegB_22s(inst_data)),
inst->VRegC_22s());
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AND_INT_LIT16)
shadow_frame.SetVReg(inst->VRegA_22s(inst_data),
shadow_frame.GetVReg(inst->VRegB_22s(inst_data)) &
inst->VRegC_22s());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(OR_INT_LIT16)
shadow_frame.SetVReg(inst->VRegA_22s(inst_data),
shadow_frame.GetVReg(inst->VRegB_22s(inst_data)) |
inst->VRegC_22s());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(XOR_INT_LIT16)
shadow_frame.SetVReg(inst->VRegA_22s(inst_data),
shadow_frame.GetVReg(inst->VRegB_22s(inst_data)) ^
inst->VRegC_22s());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(ADD_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
SafeAdd(shadow_frame.GetVReg(inst->VRegB_22b()),
inst->VRegC_22b()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(RSUB_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
SafeSub(inst->VRegC_22b(),
shadow_frame.GetVReg(inst->VRegB_22b())));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(MUL_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
SafeMul(shadow_frame.GetVReg(inst->VRegB_22b()),
inst->VRegC_22b()));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(DIV_INT_LIT8) {
bool success = DoIntDivide(shadow_frame, inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()), inst->VRegC_22b());
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(REM_INT_LIT8) {
bool success = DoIntRemainder(shadow_frame, inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()), inst->VRegC_22b());
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(AND_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()) &
inst->VRegC_22b());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(OR_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()) |
inst->VRegC_22b());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(XOR_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()) ^
inst->VRegC_22b());
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHL_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()) <<
(inst->VRegC_22b() & 0x1f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(SHR_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
shadow_frame.GetVReg(inst->VRegB_22b()) >>
(inst->VRegC_22b() & 0x1f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(USHR_INT_LIT8)
shadow_frame.SetVReg(inst->VRegA_22b(inst_data),
static_cast<uint32_t>(shadow_frame.GetVReg(inst->VRegB_22b())) >>
(inst->VRegC_22b() & 0x1f));
ADVANCE(2);
HANDLE_INSTRUCTION_END();
HANDLE_EXPERIMENTAL_INSTRUCTION_START(CREATE_LAMBDA) {
if (lambda_closure_builder == nullptr) {
// DoCreateLambda always needs a ClosureBuilder, even if it has 0 captured variables.
lambda_closure_builder = MakeUnique<lambda::ClosureBuilder>();
}
// TODO: these allocations should not leak, and the lambda method should not be local.
lambda::Closure* lambda_closure =
reinterpret_cast<lambda::Closure*>(alloca(lambda_closure_builder->GetSize()));
bool success = DoCreateLambda<do_access_check>(self,
inst,
/*inout*/shadow_frame,
/*inout*/lambda_closure_builder.get(),
/*inout*/lambda_closure);
lambda_closure_builder.reset(nullptr); // reset state of variables captured
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_EXPERIMENTAL_INSTRUCTION_END();
HANDLE_EXPERIMENTAL_INSTRUCTION_START(BOX_LAMBDA) {
bool success = DoBoxLambda<do_access_check>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_EXPERIMENTAL_INSTRUCTION_END();
HANDLE_EXPERIMENTAL_INSTRUCTION_START(UNBOX_LAMBDA) {
bool success = DoUnboxLambda<do_access_check>(self, shadow_frame, inst, inst_data);
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_EXPERIMENTAL_INSTRUCTION_END();
HANDLE_EXPERIMENTAL_INSTRUCTION_START(CAPTURE_VARIABLE) {
if (lambda_closure_builder == nullptr) {
lambda_closure_builder = MakeUnique<lambda::ClosureBuilder>();
}
bool success = DoCaptureVariable<do_access_check>(self,
inst,
/*inout*/shadow_frame,
/*inout*/lambda_closure_builder.get());
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_EXPERIMENTAL_INSTRUCTION_END();
HANDLE_EXPERIMENTAL_INSTRUCTION_START(LIBERATE_VARIABLE) {
bool success = DoLiberateVariable<do_access_check>(self,
inst,
lambda_captured_variable_index,
/*inout*/shadow_frame);
// Temporarily only allow sequences of 'liberate-variable, liberate-variable, ...'
lambda_captured_variable_index++;
POSSIBLY_HANDLE_PENDING_EXCEPTION(!success, 2);
}
HANDLE_EXPERIMENTAL_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_3E)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_3F)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_40)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_41)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_42)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_43)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_79)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_7A)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_F4)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_FA)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_FB)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_FC)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_FD)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_FE)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
HANDLE_INSTRUCTION_START(UNUSED_FF)
UnexpectedOpcode(inst, shadow_frame);
HANDLE_INSTRUCTION_END();
exception_pending_label: {
CHECK(self->IsExceptionPending());
if (UNLIKELY(self->TestAllFlags())) {
self->CheckSuspend();
UPDATE_HANDLER_TABLE();
}
instrumentation::Instrumentation* instrumentation = Runtime::Current()->GetInstrumentation();
uint32_t found_dex_pc = FindNextInstructionFollowingException(self, shadow_frame, dex_pc,
instrumentation);
if (found_dex_pc == DexFile::kDexNoIndex) {
// Structured locking is to be enforced for abnormal termination, too.
shadow_frame.GetLockCountData().CheckAllMonitorsReleasedOrThrow<do_assignability_check>(self);
return JValue(); /* Handled in caller. */
} else {
int32_t displacement = static_cast<int32_t>(found_dex_pc) - static_cast<int32_t>(dex_pc);
ADVANCE(displacement);
}
}
// Create alternative instruction handlers dedicated to instrumentation.
// Return instructions must not call Instrumentation::DexPcMovedEvent since they already call
// Instrumentation::MethodExited. This is to avoid posting debugger events twice for this location.
// Note: we do not use the kReturn instruction flag here (to test the instruction is a return). The
// compiler seems to not evaluate "(Instruction::FlagsOf(Instruction::code) & kReturn) != 0" to
// a constant condition that would remove the "if" statement so the test is free.
#define INSTRUMENTATION_INSTRUCTION_HANDLER(o, code, n, f, r, i, a, v) \
alt_op_##code: { \
Runtime* const runtime = Runtime::Current(); \
const instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation(); \
if (UNLIKELY(instrumentation->HasDexPcListeners())) { \
Object* this_object = shadow_frame.GetThisObject(code_item->ins_size_); \
instrumentation->DexPcMovedEvent(self, this_object, shadow_frame.GetMethod(), dex_pc); \
} \
UPDATE_HANDLER_TABLE(); \
goto *handlersTable[instrumentation::kMainHandlerTable][Instruction::code]; \
}
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(INSTRUMENTATION_INSTRUCTION_HANDLER)
#undef DEX_INSTRUCTION_LIST
#undef INSTRUMENTATION_INSTRUCTION_HANDLER
} // NOLINT(readability/fn_size)
// Explicit definitions of ExecuteGotoImpl.
template SHARED_REQUIRES(Locks::mutator_lock_) HOT_ATTR
JValue ExecuteGotoImpl<true, false>(Thread* self, const DexFile::CodeItem* code_item,
ShadowFrame& shadow_frame, JValue result_register);
template SHARED_REQUIRES(Locks::mutator_lock_) HOT_ATTR
JValue ExecuteGotoImpl<false, false>(Thread* self, const DexFile::CodeItem* code_item,
ShadowFrame& shadow_frame, JValue result_register);
template SHARED_REQUIRES(Locks::mutator_lock_)
JValue ExecuteGotoImpl<true, true>(Thread* self, const DexFile::CodeItem* code_item,
ShadowFrame& shadow_frame, JValue result_register);
template SHARED_REQUIRES(Locks::mutator_lock_)
JValue ExecuteGotoImpl<false, true>(Thread* self, const DexFile::CodeItem* code_item,
ShadowFrame& shadow_frame, JValue result_register);
} // namespace interpreter
} // namespace art
#endif