#include <optional>
#include "src/asmjs/asm-js.h"
#include "src/codegen/compilation-cache.h"
#include "src/codegen/compiler.h"
#include "src/common/assert-scope.h"
#include "src/common/globals.h"
#include "src/common/message-template.h"
#include "src/deoptimizer/deoptimizer.h"
#include "src/execution/arguments-inl.h"
#include "src/execution/frames-inl.h"
#include "src/execution/isolate-inl.h"
#include "src/objects/js-array-buffer-inl.h"
#include "src/objects/objects-inl.h"
#include "src/objects/shared-function-info.h"
#include "src/runtime/runtime-utils.h"
namespace v8::internal {
namespace {
void LogExecution(Isolate* isolate, DirectHandle<JSFunction> function) {
DCHECK(v8_flags.log_function_events);
if (!function->has_feedback_vector()) return;
DCHECK(function->IsLoggingRequested(isolate));
IsolateGroup::current()->js_dispatch_table()->ResetTieringRequest(
function->dispatch_handle());
DirectHandle<SharedFunctionInfo> sfi(function->shared(), isolate);
DirectHandle<String> name = SharedFunctionInfo::DebugName(isolate, sfi);
DisallowGarbageCollection no_gc;
Tagged<SharedFunctionInfo> raw_sfi = *sfi;
std::string event_name = "first-execution";
CodeKind kind = function->abstract_code(isolate)->kind(isolate);
if (kind != CodeKind::INTERPRETED_FUNCTION) {
event_name += "-";
event_name += CodeKindToString(kind);
}
LOG(isolate, FunctionEvent(
event_name.c_str(), Cast<Script>(raw_sfi->script())->id(), 0,
raw_sfi->StartPosition(), raw_sfi->EndPosition(), *name));
}
}
RUNTIME_FUNCTION(Runtime_CompileLazy) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
StackLimitCheck check(isolate);
if (V8_UNLIKELY(
check.JsHasOverflowed(kStackSpaceRequiredForCompilation * KB))) {
return isolate->StackOverflow();
}
DirectHandle<SharedFunctionInfo> sfi(function->shared(), isolate);
DCHECK(!function->is_compiled(isolate));
#ifdef DEBUG
if (v8_flags.trace_lazy && sfi->is_compiled()) {
PrintF("[unoptimized: %s]\n", function->DebugNameCStr().get());
}
#endif
IsCompiledScope is_compiled_scope;
if (!Compiler::Compile(isolate, function, Compiler::KEEP_EXCEPTION,
&is_compiled_scope)) {
return ReadOnlyRoots(isolate).exception();
}
DCHECK(function->is_compiled(isolate));
return function->code(isolate);
}
RUNTIME_FUNCTION(Runtime_InstallBaselineCode) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
DirectHandle<SharedFunctionInfo> sfi(function->shared(), isolate);
DCHECK(sfi->HasBaselineCode());
{
if (!function->has_feedback_vector()) {
IsCompiledScope is_compiled_scope(*sfi, isolate);
IsBaselineCompiledScope is_baseline_compiled_scope(*sfi, isolate);
DCHECK(is_baseline_compiled_scope.is_compiled());
DCHECK(!function->HasAvailableOptimizedCode(isolate));
DCHECK(!function->has_feedback_vector());
JSFunction::CreateAndAttachFeedbackVector(isolate, function,
&is_compiled_scope);
}
DisallowGarbageCollection no_gc;
Tagged<Code> baseline_code = sfi->baseline_code(kAcquireLoad);
function->UpdateCodeKeepTieringRequests(isolate, baseline_code);
return baseline_code;
}
}
RUNTIME_FUNCTION(Runtime_InstallSFICode) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
{
DisallowGarbageCollection no_gc;
Tagged<SharedFunctionInfo> sfi = function->shared();
DCHECK(sfi->is_compiled());
Tagged<Code> sfi_code = sfi->GetCode(isolate);
if (V8_LIKELY(sfi_code->kind() != CodeKind::BASELINE ||
function->has_feedback_vector())) {
function->UpdateCode(isolate, sfi_code);
return sfi_code;
}
}
IsCompiledScope is_compiled_scope(function->shared(), isolate);
DCHECK(!function->HasAvailableOptimizedCode(isolate));
DCHECK(!function->has_feedback_vector());
JSFunction::CreateAndAttachFeedbackVector(isolate, function,
&is_compiled_scope);
Tagged<Code> sfi_code = function->shared()->GetCode(isolate);
function->UpdateCode(isolate, sfi_code);
return sfi_code;
}
namespace {
void CompileOptimized(DirectHandle<JSFunction> function, ConcurrencyMode mode,
CodeKind target_kind, Isolate* isolate) {
function->ResetTieringRequests();
IsCompiledScope is_compiled_scope(function->shared(), isolate);
if (V8_UNLIKELY(!is_compiled_scope.is_compiled())) {
function->ResetIfCodeFlushed(isolate);
return;
}
if (mode == ConcurrencyMode::kConcurrent) {
if (function->tiering_in_progress() ||
function->GetActiveTier(isolate) >= target_kind) {
static_assert(kTieringStateInProgressBlocksTierup);
function->SetInterruptBudget(isolate, BudgetModification::kRaise);
return;
}
}
const int gap =
IsConcurrent(mode) ? 0 : kStackSpaceRequiredForCompilation * KB;
StackLimitCheck check(isolate);
if (check.JsHasOverflowed(gap)) return;
Compiler::CompileOptimized(isolate, function, mode, target_kind);
DCHECK(function->is_compiled(isolate));
}
}
RUNTIME_FUNCTION(Runtime_StartMaglevOptimizeJob) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
DCHECK(function->IsOptimizationRequested(isolate));
CompileOptimized(function, ConcurrencyMode::kConcurrent, CodeKind::MAGLEV,
isolate);
return ReadOnlyRoots(isolate).undefined_value();
}
RUNTIME_FUNCTION(Runtime_StartTurbofanOptimizeJob) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
DCHECK(function->IsOptimizationRequested(isolate));
CompileOptimized(function, ConcurrencyMode::kConcurrent,
CodeKind::TURBOFAN_JS, isolate);
return ReadOnlyRoots(isolate).undefined_value();
}
RUNTIME_FUNCTION(Runtime_OptimizeMaglevEager) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
DCHECK(function->IsOptimizationRequested(isolate));
CompileOptimized(function, ConcurrencyMode::kSynchronous, CodeKind::MAGLEV,
isolate);
return ReadOnlyRoots(isolate).undefined_value();
}
RUNTIME_FUNCTION(Runtime_OptimizeTurbofanEager) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
DCHECK(function->IsOptimizationRequested(isolate));
CompileOptimized(function, ConcurrencyMode::kSynchronous,
CodeKind::TURBOFAN_JS, isolate);
return ReadOnlyRoots(isolate).undefined_value();
}
RUNTIME_FUNCTION(Runtime_MarkLazyDeoptimized) {
HandleScope scope(isolate);
DCHECK_EQ(2, args.length());
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
bool reoptimize = (*args.at<Smi>(1)).value();
IsCompiledScope is_compiled_scope(function->shared(), isolate);
if (!is_compiled_scope.is_compiled()) {
StackLimitCheck check(isolate);
if (V8_UNLIKELY(
check.JsHasOverflowed(kStackSpaceRequiredForCompilation * KB))) {
return isolate->StackOverflow();
}
if (!Compiler::Compile(isolate, function, Compiler::KEEP_EXCEPTION,
&is_compiled_scope)) {
return ReadOnlyRoots(isolate).exception();
}
reoptimize = false;
}
if (!function->code(isolate)->marked_for_deoptimization()) {
function->ResetTieringRequests();
if (reoptimize) {
function->raw_feedback_cell()->set_interrupt_budget(1);
} else {
function->SetInterruptBudget(isolate, BudgetModification::kRaise,
CodeKind::INTERPRETED_FUNCTION);
}
}
return ReadOnlyRoots(isolate).undefined_value();
}
RUNTIME_FUNCTION(Runtime_FunctionLogNextExecution) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<JSFunction> js_function = args.at<JSFunction>(0);
DCHECK(v8_flags.log_function_events);
LogExecution(isolate, js_function);
return js_function->code(isolate);
}
enum AsmJsInstantiateResult {
kAsmJsInstantiateSuccess = 0,
kAsmJsInstantiateFail = 1,
};
RUNTIME_FUNCTION(Runtime_InstantiateAsmJs) {
HandleScope scope(isolate);
DCHECK_EQ(args.length(), 4);
DirectHandle<JSFunction> function = args.at<JSFunction>(0);
DirectHandle<JSReceiver> stdlib;
if (IsJSReceiver(args[1])) {
stdlib = args.at<JSReceiver>(1);
}
DirectHandle<JSReceiver> foreign;
if (IsJSReceiver(args[2])) {
foreign = args.at<JSReceiver>(2);
}
DirectHandle<JSArrayBuffer> memory;
if (IsJSArrayBuffer(args[3])) {
memory = args.at<JSArrayBuffer>(3);
}
DirectHandle<SharedFunctionInfo> shared(function->shared(), isolate);
#if V8_ENABLE_WEBASSEMBLY
if (shared->HasAsmWasmData()) {
DirectHandle<AsmWasmData> data(shared->asm_wasm_data(), isolate);
MaybeDirectHandle<Object> result = AsmJs::InstantiateAsmWasm(
isolate, shared, data, stdlib, foreign, memory);
if (!result.is_null()) {
isolate->counters()->asmjs_instantiate_result()->AddSample(
kAsmJsInstantiateSuccess);
return *result.ToHandleChecked();
}
if (isolate->has_exception()) {
DCHECK(isolate->is_execution_terminating());
return ReadOnlyRoots{isolate}.exception();
}
isolate->counters()->asmjs_instantiate_result()->AddSample(
kAsmJsInstantiateFail);
SharedFunctionInfo::DiscardCompiled(isolate, shared);
}
shared->set_is_asm_wasm_broken(true);
#endif
DCHECK_EQ(function->code(isolate), *BUILTIN_CODE(isolate, InstantiateAsmJs));
function->UpdateCode(isolate, *BUILTIN_CODE(isolate, CompileLazy));
DCHECK(!isolate->has_exception());
return Smi::zero();
}
namespace {
bool TryGetOptimizedOsrCode(Isolate* isolate, Tagged<FeedbackVector> vector,
const interpreter::BytecodeArrayIterator& it,
Tagged<Code>* code_out) {
std::optional<Tagged<Code>> maybe_code =
vector->GetOptimizedOsrCode(isolate, {}, it.GetSlotOperand(2));
if (maybe_code.has_value()) {
*code_out = maybe_code.value();
return true;
}
return false;
}
bool DeoptAllOsrLoopsContainingDeoptExit(Isolate* isolate,
Tagged<JSFunction> function,
BytecodeOffset deopt_exit_offset) {
DisallowGarbageCollection no_gc;
DCHECK(!deopt_exit_offset.IsNone());
if (!v8_flags.use_ic ||
!function->feedback_vector()->maybe_has_optimized_osr_code()) {
return false;
}
Handle<BytecodeArray> bytecode_array(
function->shared()->GetBytecodeArray(isolate), isolate);
DCHECK(interpreter::BytecodeArrayIterator::IsValidOffset(
bytecode_array, deopt_exit_offset.ToInt()));
Tagged<FeedbackVector> vector = function->feedback_vector();
Tagged<Code> code;
bool any_marked = false;
bool has_maglev_code = false;
bool has_turbofan_code = false;
interpreter::BytecodeArrayIterator it(bytecode_array);
for (; !it.done(); it.Advance()) {
if (it.current_bytecode() != interpreter::Bytecode::kJumpLoop) continue;
bool has_osr_code = TryGetOptimizedOsrCode(isolate, vector, it, &code);
if (has_osr_code) {
if (base::IsInRange(deopt_exit_offset.ToInt(), it.GetJumpTargetOffset(),
it.current_offset())) {
code->SetMarkedForDeoptimization(isolate,
LazyDeoptimizeReason::kEagerDeopt);
any_marked = true;
} else {
has_turbofan_code |= code->is_turbofanned();
has_maglev_code |= code->is_maglevved();
}
}
}
Tagged<FeedbackVector> fbv = function->feedback_vector();
if (!has_maglev_code && fbv->maybe_has_maglev_osr_code()) {
fbv->set_maybe_has_optimized_osr_code(false, CodeKind::MAGLEV);
}
if (!has_turbofan_code && fbv->maybe_has_turbofan_osr_code()) {
fbv->set_maybe_has_optimized_osr_code(false, CodeKind::TURBOFAN_JS);
}
return any_marked;
}
void GetOsrOffsetAndFunctionForOSR(Isolate* isolate, BytecodeOffset* osr_offset,
Handle<JSFunction>* function) {
DCHECK(osr_offset->IsNone());
DCHECK(function->is_null());
JavaScriptStackFrameIterator it(isolate);
UnoptimizedJSFrame* frame = UnoptimizedJSFrame::cast(it.frame());
DCHECK_IMPLIES(frame->is_interpreted(),
frame->LookupCode()->is_interpreter_trampoline_builtin());
DCHECK_IMPLIES(frame->is_baseline(),
frame->LookupCode()->kind() == CodeKind::BASELINE);
*osr_offset = BytecodeOffset(frame->GetBytecodeOffset());
*function = handle(frame->function(), isolate);
DCHECK(!osr_offset->IsNone());
DCHECK((*function)->shared()->HasBytecodeArray());
}
Tagged<Object> CompileOptimizedOSR(Isolate* isolate,
DirectHandle<JSFunction> function,
CodeKind min_opt_level,
BytecodeOffset osr_offset) {
ConcurrencyMode mode =
V8_LIKELY(isolate->concurrent_recompilation_enabled() &&
v8_flags.concurrent_osr)
? ConcurrencyMode::kConcurrent
: ConcurrencyMode::kSynchronous;
if (V8_UNLIKELY(isolate->EfficiencyModeEnabled() &&
min_opt_level == CodeKind::MAGLEV)) {
mode = ConcurrencyMode::kSynchronous;
}
DirectHandle<Code> result;
if (!Compiler::CompileOptimizedOSR(
isolate, function, osr_offset, mode,
(maglev::IsMaglevOsrEnabled() && min_opt_level == CodeKind::MAGLEV)
? CodeKind::MAGLEV
: CodeKind::TURBOFAN_JS)
.ToHandle(&result) ||
result->marked_for_deoptimization()) {
return Smi::zero();
}
DCHECK(!result.is_null());
DCHECK(result->is_turbofanned() || result->is_maglevved());
DCHECK(CodeKindIsOptimizedJSFunction(result->kind()));
#ifdef DEBUG
Tagged<DeoptimizationData> data = result->deoptimization_data();
DCHECK_EQ(BytecodeOffset(data->OsrBytecodeOffset().value()), osr_offset);
DCHECK_GE(data->OsrPcOffset().value(), 0);
#endif
return *result;
}
}
RUNTIME_FUNCTION(Runtime_NotifyDeoptimized) {
HandleScope scope(isolate);
DCHECK_EQ(0, args.length());
Deoptimizer* deoptimizer = Deoptimizer::Grab(isolate);
DCHECK(CodeKindCanDeoptimize(deoptimizer->compiled_code()->kind()));
DCHECK(AllowGarbageCollection::IsAllowed());
DCHECK(isolate->context().is_null());
TimerEventScope<TimerEventDeoptimizeCode> timer(isolate);
TRACE_EVENT0("v8", "V8.DeoptimizeCode");
DirectHandle<JSFunction> function = deoptimizer->function();
DirectHandle<Code> optimized_code = deoptimizer->compiled_code();
const DeoptimizeKind deopt_kind = deoptimizer->deopt_kind();
const DeoptimizeReason deopt_reason =
deoptimizer->GetDeoptInfo().deopt_reason;
const Deoptimizer::CodeValidity code_validity = deoptimizer->code_validity();
isolate->set_context(deoptimizer->function()->native_context());
deoptimizer->MaterializeHeapObjects();
deoptimizer->ProcessDeoptReason(deopt_reason);
const BytecodeOffset deopt_exit_offset =
deoptimizer->bytecode_offset_in_outermost_frame();
delete deoptimizer;
JavaScriptStackFrameIterator top_it(isolate);
JavaScriptFrame* top_frame = top_it.frame();
isolate->set_context(Cast<Context>(top_frame->context()));
if (deopt_kind == DeoptimizeKind::kLazy) {
DCHECK_EQ(code_validity, Deoptimizer::CodeValidity::kUnaffected);
return ReadOnlyRoots(isolate).undefined_value();
}
const BytecodeOffset osr_offset = optimized_code->osr_offset();
if (code_validity == Deoptimizer::CodeValidity::kUnaffected) {
BytecodeOffset outer_loop_osr_offset = BytecodeOffset::None();
if (v8_flags.turbolev && deopt_reason == DeoptimizeReason::kOSREarlyExit) {
CHECK_GT(deopt_exit_offset.ToInt(), osr_offset.ToInt());
if (optimized_code->kind() == CodeKind::TURBOFAN_JS &&
Deoptimizer::GetOutermostOuterLoopWithCodeKind(
isolate, *function, osr_offset, CodeKind::MAGLEV,
&outer_loop_osr_offset)) {
auto result =
CompileOptimizedOSR(isolate, handle(*function, isolate),
CodeKind::TURBOFAN_JS, outer_loop_osr_offset);
USE(result);
}
}
if (deopt_reason == DeoptimizeReason::kPrepareForOnStackReplacement &&
function->ActiveTierIsMaglev(isolate)) {
isolate->tiering_manager()->MarkForTurboFanOptimization(*function);
}
return ReadOnlyRoots(isolate).undefined_value();
}
USE(deopt_kind);
DCHECK_EQ(deopt_kind, DeoptimizeKind::kEager);
DCHECK(!IsDeoptimizationWithoutCodeInvalidation(deopt_reason));
bool any_marked = false;
if (!optimized_code->marked_for_deoptimization()) {
optimized_code->SetMarkedForDeoptimization(
isolate, LazyDeoptimizeReason::kEagerDeopt);
any_marked = true;
}
if (osr_offset.IsNone()) {
if (DeoptAllOsrLoopsContainingDeoptExit(isolate, *function,
deopt_exit_offset)) {
any_marked = true;
}
}
if (any_marked) {
Deoptimizer::DeoptimizeMarkedCode(isolate);
}
return ReadOnlyRoots(isolate).undefined_value();
}
RUNTIME_FUNCTION(Runtime_ObserveNode) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<Object> obj = args.at(0);
return *obj;
}
RUNTIME_FUNCTION(Runtime_VerifyType) {
HandleScope scope(isolate);
DCHECK_EQ(1, args.length());
DirectHandle<Object> obj = args.at(0);
return *obj;
}
RUNTIME_FUNCTION(Runtime_CheckTurboshaftTypeOf) {
HandleScope scope(isolate);
DCHECK_EQ(2, args.length());
DirectHandle<Object> obj = args.at(0);
return *obj;
}
RUNTIME_FUNCTION(Runtime_CompileOptimizedOSR) {
HandleScope handle_scope(isolate);
DCHECK_EQ(0, args.length());
DCHECK(v8_flags.use_osr);
BytecodeOffset osr_offset = BytecodeOffset::None();
Handle<JSFunction> function;
GetOsrOffsetAndFunctionForOSR(isolate, &osr_offset, &function);
return CompileOptimizedOSR(isolate, function, CodeKind::MAGLEV, osr_offset);
}
namespace {
Tagged<Object> CompileOptimizedOSRFromMaglev(Isolate* isolate,
DirectHandle<JSFunction> function,
BytecodeOffset osr_offset) {
if (V8_UNLIKELY(!isolate->concurrent_recompilation_enabled() ||
!v8_flags.concurrent_osr)) {
if (v8_flags.trace_osr) {
CodeTracer::Scope scope(isolate->GetCodeTracer());
PrintF(scope.file(),
"[OSR - Tiering from Maglev to Turbofan failed because "
"concurrent_osr is disabled. function: %s, osr offset: %d]\n",
function->DebugNameCStr().get(), osr_offset.ToInt());
}
return Smi::zero();
}
if (V8_UNLIKELY(isolate->EfficiencyModeEnabled() ||
isolate->BatterySaverModeEnabled())) {
function->feedback_vector()->reset_osr_urgency();
function->SetInterruptBudget(isolate, BudgetModification::kRaise);
return Smi::zero();
}
return CompileOptimizedOSR(isolate, function, CodeKind::TURBOFAN_JS,
osr_offset);
}
}
RUNTIME_FUNCTION(Runtime_CompileOptimizedOSRFromMaglev) {
HandleScope handle_scope(isolate);
DCHECK_EQ(1, args.length());
DCHECK(v8_flags.use_osr);
const BytecodeOffset osr_offset(args.positive_smi_value_at(0));
JavaScriptStackFrameIterator it(isolate);
MaglevFrame* frame = MaglevFrame::cast(it.frame());
DCHECK_EQ(frame->LookupCode()->kind(), CodeKind::MAGLEV);
DirectHandle<JSFunction> function = direct_handle(frame->function(), isolate);
return CompileOptimizedOSRFromMaglev(isolate, function, osr_offset);
}
RUNTIME_FUNCTION(Runtime_CompileOptimizedOSRFromMaglevInlined) {
HandleScope handle_scope(isolate);
DCHECK_EQ(2, args.length());
DCHECK(v8_flags.use_osr);
const BytecodeOffset osr_offset(args.positive_smi_value_at(0));
DirectHandle<JSFunction> function = args.at<JSFunction>(1);
JavaScriptStackFrameIterator it(isolate);
MaglevFrame* frame = MaglevFrame::cast(it.frame());
DCHECK_EQ(frame->LookupCode()->kind(), CodeKind::MAGLEV);
if (*function != frame->function()) {
if (!frame->function()->ActiveTierIsTurbofan(isolate)) {
isolate->tiering_manager()->MarkForTurboFanOptimization(
frame->function());
}
}
return CompileOptimizedOSRFromMaglev(isolate, function, osr_offset);
}
RUNTIME_FUNCTION(Runtime_LogOrTraceOptimizedOSREntry) {
HandleScope handle_scope(isolate);
DCHECK_EQ(0, args.length());
CHECK(v8_flags.trace_osr || v8_flags.log_function_events);
BytecodeOffset osr_offset = BytecodeOffset::None();
Handle<JSFunction> function;
GetOsrOffsetAndFunctionForOSR(isolate, &osr_offset, &function);
if (v8_flags.trace_osr) {
PrintF(CodeTracer::Scope{isolate->GetCodeTracer()}.file(),
"[OSR - entry. function: %s, osr offset: %d]\n",
function->DebugNameCStr().get(), osr_offset.ToInt());
}
return ReadOnlyRoots(isolate).undefined_value();
}
static Tagged<Object> CompileGlobalEval(
Isolate* isolate, Handle<i::Object> source_object,
DirectHandle<SharedFunctionInfo> outer_info, LanguageMode language_mode,
int eval_scope_info_index, int eval_position) {
DirectHandle<NativeContext> native_context = isolate->native_context();
MaybeDirectHandle<String> source;
bool unknown_object;
std::tie(source, unknown_object) = Compiler::ValidateDynamicCompilationSource(
isolate, native_context, source_object);
if (unknown_object) {
return native_context->global_eval_fun();
}
if (source.is_null()) {
Handle<Object> error_message =
native_context->ErrorMessageForCodeGenerationFromStrings();
DirectHandle<Object> error;
MaybeDirectHandle<Object> maybe_error = isolate->factory()->NewEvalError(
MessageTemplate::kCodeGenFromStrings, error_message);
if (maybe_error.ToHandle(&error)) isolate->Throw(*error);
return ReadOnlyRoots(isolate).exception();
}
static const ParseRestriction restriction = NO_PARSE_RESTRICTION;
DirectHandle<JSFunction> compiled;
DirectHandle<Context> context(isolate->context(), isolate);
if (!Is<NativeContext>(*context) && v8_flags.reuse_scope_infos) {
Tagged<WeakFixedArray> array = Cast<Script>(outer_info->script())->infos();
Tagged<ScopeInfo> stored_info;
CHECK(array->get(eval_scope_info_index)
.GetHeapObjectIfWeak(isolate, &stored_info));
CHECK_EQ(stored_info, context->scope_info());
}
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate, compiled,
Compiler::GetFunctionFromEval(
isolate, source.ToHandleChecked(), outer_info, context, language_mode,
restriction, kNoSourcePosition, eval_position),
ReadOnlyRoots(isolate).exception());
return *compiled;
}
RUNTIME_FUNCTION(Runtime_ResolvePossiblyDirectEval) {
HandleScope scope(isolate);
DCHECK_EQ(6, args.length());
DirectHandle<Object> callee = args.at(0);
if (*callee != isolate->native_context()->global_eval_fun()) {
return *callee;
}
DCHECK(is_valid_language_mode(args.smi_value_at(3)));
LanguageMode language_mode = static_cast<LanguageMode>(args.smi_value_at(3));
DirectHandle<SharedFunctionInfo> outer_info(args.at<JSFunction>(2)->shared(),
isolate);
return CompileGlobalEval(isolate, args.at<Object>(1), outer_info,
language_mode, args.smi_value_at(4),
args.smi_value_at(5));
}
}