// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info->language_mode()) && !info->is_native() &&
- info->MayUseThis() && info->scope()->has_this_declaration()) {
+ info->MayUseThis()) {
Label ok;
int receiver_offset = info->scope()->num_parameters() * kPointerSize;
__ ldr(r2, MemOperand(sp, receiver_offset));
__ str(r0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
__ ldr(r4, MemOperand(fp, JavaScriptFrameConstants::kFunctionOffset));
// r3: the receiver of the enclosing function.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- __ ldr(r3, VarOperand(this_var, r3));
+ int receiver_offset = 2 + info_->scope()->num_parameters();
+ __ ldr(r3, MemOperand(fp, receiver_offset * kPointerSize));
// r2: language mode.
__ mov(r2, Operand(Smi::FromInt(language_mode())));
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
- !info_->is_native() && info_->scope()->has_this_declaration()) {
+ !info_->is_native()) {
Label ok;
int receiver_offset = info_->scope()->num_parameters() * kPointerSize;
__ ldr(r2, MemOperand(sp, receiver_offset));
__ str(r0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info->language_mode()) && !info->is_native() &&
- info->MayUseThis() && info->scope()->has_this_declaration()) {
+ info->MayUseThis()) {
Label ok;
int receiver_offset = info->scope()->num_parameters() * kXRegSize;
__ Peek(x10, receiver_offset);
__ Str(x0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
__ Ldr(x10, MemOperand(fp, JavaScriptFrameConstants::kFunctionOffset));
// Prepare to push the receiver of the enclosing function.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- __ Ldr(x11, VarOperand(this_var, x11));
+ int receiver_offset = 2 + info_->scope()->num_parameters();
+ __ Ldr(x11, MemOperand(fp, receiver_offset * kPointerSize));
// Prepare to push the language mode.
__ Mov(x12, Smi::FromInt(language_mode()));
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
- !info()->is_native() && info()->scope()->has_this_declaration()) {
+ !info_->is_native()) {
Label ok;
int receiver_offset = info_->scope()->num_parameters() * kXRegSize;
__ Peek(x10, receiver_offset);
__ Str(x0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
Register value = x0;
Register scratch = x3;
bool CompilationInfo::MayUseThis() const {
- return scope()->has_this_declaration() && scope()->receiver()->is_used();
+ return scope()->uses_this() || scope()->inner_uses_this() ||
+ scope()->calls_sloppy_eval();
}
// Build receiver check for sloppy mode if necessary.
// TODO(mstarzinger/verwaest): Should this be moved back into the CallIC?
- Node* patched_receiver = nullptr;
- if (scope->has_this_declaration()) {
- Node* original_receiver = NewNode(common()->Parameter(0), graph()->start());
- patched_receiver = BuildPatchReceiverToGlobalProxy(original_receiver);
- if (scope->receiver()->IsStackAllocated()) {
- env.Bind(scope->receiver(), patched_receiver);
- }
- }
+ Node* original_receiver = env.Lookup(scope->receiver());
+ Node* patched_receiver = BuildPatchReceiverToGlobalProxy(original_receiver);
+ env.Bind(scope->receiver(), patched_receiver);
// Build function context only if there are context allocated variables.
int heap_slots = info()->num_heap_slots() - Context::MIN_CONTEXT_SLOTS;
if (heap_slots > 0) {
// Push a new inner context scope for the function.
- Node* inner_context =
- BuildLocalFunctionContext(function_context_.get(), patched_receiver);
+ Node* inner_context = BuildLocalFunctionContext(function_context_.get());
ContextScope top_context(this, scope, inner_context);
CreateGraphBody(stack_check);
} else {
// Create node to ask for help resolving potential eval call. This will
// provide a fully resolved callee and the corresponding receiver.
Node* function = GetFunctionClosure();
- // TODO(wingo): ResolvePossibleDirectEval doesn't really need a receiver,
- // now that eval scopes don't have "this" declarations. Remove this hack
- // once ResolvePossibleDirectEval changes.
- Node* receiver;
- {
- Variable* variable = info()->scope()->LookupThis();
- if (variable->IsStackAllocated()) {
- receiver = environment()->Lookup(variable);
- } else {
- DCHECK(variable->IsContextSlot());
- int depth = current_scope()->ContextChainLength(variable->scope());
- bool immutable = variable->maybe_assigned() == kNotAssigned;
- const Operator* op =
- javascript()->LoadContext(depth, variable->index(), immutable);
- receiver = NewNode(op, current_context());
- }
- }
+ Node* receiver = environment()->Lookup(info()->scope()->receiver());
Node* language = jsgraph()->Constant(language_mode());
Node* position = jsgraph()->Constant(info()->scope()->start_position());
const Operator* op =
// object). Otherwise there is nothing left to do here.
if (is_strict(language_mode()) || info()->is_native()) return receiver;
- // There is no need to perform patching if the receiver will never be used.
+ // There is no need to perform patching if the receiver is never used. Note
+ // that scope predicates are purely syntactical, a call to eval might still
+ // inspect the receiver value.
if (!info()->MayUseThis()) return receiver;
IfBuilder receiver_check(this);
}
-Node* AstGraphBuilder::BuildLocalFunctionContext(Node* context,
- Node* patched_receiver) {
- Scope* scope = info()->scope();
+Node* AstGraphBuilder::BuildLocalFunctionContext(Node* context) {
Node* closure = GetFunctionClosure();
// Allocate a new local context.
Node* local_context =
- scope->is_script_scope()
- ? BuildLocalScriptContext(scope)
+ info()->scope()->is_script_scope()
+ ? BuildLocalScriptContext(info()->scope())
: NewNode(javascript()->CreateFunctionContext(), closure);
- if (scope->has_this_declaration() && scope->receiver()->IsContextSlot()) {
- DCHECK_NOT_NULL(patched_receiver);
- // Context variable (at bottom of the context chain).
- Variable* variable = scope->receiver();
- DCHECK_EQ(0, scope->ContextChainLength(variable->scope()));
- const Operator* op = javascript()->StoreContext(0, variable->index());
- NewNode(op, local_context, patched_receiver);
- }
-
// Copy parameters into context if necessary.
- int num_parameters = scope->num_parameters();
+ int num_parameters = info()->scope()->num_parameters();
for (int i = 0; i < num_parameters; i++) {
- Variable* variable = scope->parameter(i);
+ Variable* variable = info()->scope()->parameter(i);
if (!variable->IsContextSlot()) continue;
// Temporary parameter node. The parameter indices are shifted by 1
// (receiver is parameter index -1 but environment index 0).
Node* parameter = NewNode(common()->Parameter(i + 1), graph()->start());
// Context variable (at bottom of the context chain).
- DCHECK_EQ(0, scope->ContextChainLength(variable->scope()));
+ DCHECK_EQ(0, info()->scope()->ContextChainLength(variable->scope()));
const Operator* op = javascript()->StoreContext(0, variable->index());
NewNode(op, local_context, parameter);
}
Node* BuildPatchReceiverToGlobalProxy(Node* receiver);
// Builders to create local function, script and block contexts.
- Node* BuildLocalFunctionContext(Node* context, Node* patched_receiver);
+ Node* BuildLocalFunctionContext(Node* context);
Node* BuildLocalScriptContext(Scope* scope);
Node* BuildLocalBlockContext(Scope* scope);
object->IsJSContextExtensionObject()) {
maybe = JSReceiver::GetOwnPropertyAttributes(object, name);
} else if (context->IsWithContext()) {
- // A with context will never bind "this".
- if (name->Equals(*isolate->factory()->this_string())) {
- maybe = Just(ABSENT);
- } else {
- LookupIterator it(object, name);
- maybe = UnscopableLookup(&it);
- }
+ LookupIterator it(object, name);
+ maybe = UnscopableLookup(&it);
} else {
maybe = JSReceiver::GetPropertyAttributes(object, name);
}
V(source_string, "source") \
V(source_url_string, "source_url") \
V(source_mapping_url_string, "source_mapping_url") \
- V(this_string, "this") \
V(global_string, "global") \
V(ignore_case_string, "ignoreCase") \
V(multiline_string, "multiline") \
// Copy parameters into context if necessary.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
// Push the enclosing function.
__ push(Operand(ebp, JavaScriptFrameConstants::kFunctionOffset));
// Push the receiver of the enclosing function.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- __ push(VarOperand(this_var, ecx));
+ __ push(Operand(ebp, (2 + info_->scope()->num_parameters()) * kPointerSize));
// Push the language mode.
__ push(Immediate(Smi::FromInt(language_mode())));
// Sloppy mode functions and builtins need to replace the receiver with the
// global proxy when called as functions (without an explicit receiver
// object).
- if (is_sloppy(info()->language_mode()) && info()->MayUseThis() &&
- !info()->is_native() && info()->scope()->has_this_declaration()) {
+ if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
+ !info_->is_native()) {
Label ok;
// +1 for return address.
int receiver_offset = (scope()->num_parameters() + 1) * kPointerSize;
// Copy parameters into context if necessary.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info->language_mode()) && !info->is_native() &&
- info->MayUseThis() && info->scope()->has_this_declaration()) {
+ info->MayUseThis()) {
Label ok;
int receiver_offset = info->scope()->num_parameters() * kPointerSize;
__ lw(at, MemOperand(sp, receiver_offset));
__ sw(v0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
__ lw(t2, MemOperand(fp, JavaScriptFrameConstants::kFunctionOffset));
// t1: the receiver of the enclosing function.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- __ lw(t1, VarOperand(this_var, t1));
+ int receiver_offset = 2 + info_->scope()->num_parameters();
+ __ lw(t1, MemOperand(fp, receiver_offset * kPointerSize));
// t0: the language mode.
__ li(t0, Operand(Smi::FromInt(language_mode())));
// Sloppy mode functions and builtins need to replace the receiver with the
// global proxy when called as functions (without an explicit receiver
// object).
- if (is_sloppy(info()->language_mode()) && info()->MayUseThis() &&
- !info()->is_native() && info()->scope()->has_this_declaration()) {
+ if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
+ !info_->is_native()) {
Label ok;
int receiver_offset = info_->scope()->num_parameters() * kPointerSize;
__ LoadRoot(at, Heap::kUndefinedValueRootIndex);
__ sw(v0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info->language_mode()) && !info->is_native() &&
- info->MayUseThis() && info->scope()->has_this_declaration()) {
+ info->MayUseThis()) {
Label ok;
int receiver_offset = info->scope()->num_parameters() * kPointerSize;
__ ld(at, MemOperand(sp, receiver_offset));
__ sd(v0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
__ ld(a6, MemOperand(fp, JavaScriptFrameConstants::kFunctionOffset));
// a5: the receiver of the enclosing function.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- __ ld(a5, VarOperand(this_var, a5));
+ int receiver_offset = 2 + info_->scope()->num_parameters();
+ __ ld(a5, MemOperand(fp, receiver_offset * kPointerSize));
// a4: the language mode.
__ li(a4, Operand(Smi::FromInt(language_mode())));
// Sloppy mode functions and builtins need to replace the receiver with the
// global proxy when called as functions (without an explicit receiver
// object).
- if (is_sloppy(info()->language_mode()) && info()->MayUseThis() &&
- !info()->is_native() && info()->scope()->has_this_declaration()) {
+ if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
+ !info_->is_native()) {
Label ok;
int receiver_offset = info_->scope()->num_parameters() * kPointerSize;
__ LoadRoot(at, Heap::kUndefinedValueRootIndex);
__ sd(v0, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
Expression* ParserTraits::ThisExpression(Scope* scope, AstNodeFactory* factory,
int pos) {
- return scope->NewUnresolved(factory,
- parser_->ast_value_factory()->this_string(),
- Variable::THIS, pos, pos + 4);
+ return factory->NewVariableProxy(scope->receiver(), pos);
}
Expression* ParserTraits::SuperReference(Scope* scope, AstNodeFactory* factory,
Scope* scope,
AstNodeFactory* factory) {
if (parser_->fni_ != NULL) parser_->fni_->PushVariableName(name);
- return scope->NewUnresolved(factory, name, Variable::NORMAL, start_position,
- end_position);
+ return scope->NewUnresolved(factory, name, start_position, end_position);
}
FunctionLiteral* result = NULL;
{
- // TODO(wingo): Add an outer GLOBAL_SCOPE corresponding to the native
- // context, which will have the "this" binding for script scopes.
Scope* scope = NewScope(scope_, SCRIPT_SCOPE);
info->set_script_scope(scope);
if (!info->context().is_null() && !info->context()->IsNativeContext()) {
// scope.
// Let/const variables in harmony mode are always added to the immediately
// enclosing scope.
- return DeclarationScope(mode)->NewUnresolved(
- factory(), name, Variable::NORMAL, scanner()->location().beg_pos,
- scanner()->location().end_pos);
+ return DeclarationScope(mode)->NewUnresolved(factory(), name,
+ scanner()->location().beg_pos,
+ scanner()->location().end_pos);
}
Expression* enumerable = ParseExpression(true, CHECK_OK);
Expect(Token::RPAREN, CHECK_OK);
- VariableProxy* each =
- scope_->NewUnresolved(factory(), parsing_result.SingleName(),
- Variable::NORMAL, each_beg_pos, each_end_pos);
+ VariableProxy* each = scope_->NewUnresolved(
+ factory(), parsing_result.SingleName(), each_beg_pos, each_end_pos);
Statement* body = ParseSubStatement(NULL, CHECK_OK);
InitializeForEachStatement(loop, each, enumerable, body);
Block* result =
scope_ = for_scope;
Expect(Token::RPAREN, CHECK_OK);
- VariableProxy* each =
- scope_->NewUnresolved(factory(), parsing_result.SingleName(),
- Variable::NORMAL, each_end_pos);
+ VariableProxy* each = scope_->NewUnresolved(
+ factory(), parsing_result.SingleName(), each_end_pos);
Statement* body = ParseSubStatement(NULL, CHECK_OK);
Block* body_block =
factory()->NewBlock(NULL, 3, false, RelocInfo::kNoPosition);
if (function->IsProperty()) {
// Method calls
if (function->AsProperty()->IsSuperAccess()) {
- Expression* home = ThisExpression(scope_, factory(),
- RelocInfo::kNoPosition);
+ VariableProxy* original_home =
+ function->AsProperty()->obj()->AsSuperReference()->this_var();
+ VariableProxy* home = factory()->NewVariableProxy(original_home->var());
args->InsertAt(0, function, zone());
args->InsertAt(1, home, zone());
} else {
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info->language_mode()) && !info->is_native() &&
- info->MayUseThis() && info->scope()->has_this_declaration()) {
+ info->MayUseThis()) {
Label ok;
int receiver_offset = info->scope()->num_parameters() * kPointerSize;
__ LoadP(r5, MemOperand(sp, receiver_offset), r0);
__ StoreP(r3, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
__ LoadP(r7, MemOperand(fp, JavaScriptFrameConstants::kFunctionOffset));
// r6: the receiver of the enclosing function.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- GetVar(r6, this_var);
+ int receiver_offset = 2 + info_->scope()->num_parameters();
+ __ LoadP(r6, MemOperand(fp, receiver_offset * kPointerSize), r0);
// r5: language mode.
__ LoadSmiLiteral(r5, Smi::FromInt(language_mode()));
// Sloppy mode functions and builtins need to replace the receiver with the
// global proxy when called as functions (without an explicit receiver
// object).
- if (is_sloppy(info_->language_mode()) && info_->MayUseThis() &&
- !info_->is_native() && info_->scope()->has_this_declaration()) {
+ if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
+ !info_->is_native()) {
Label ok;
int receiver_offset = info_->scope()->num_parameters() * kPointerSize;
__ LoadP(r5, MemOperand(sp, receiver_offset));
__ StoreP(r3, MemOperand(fp, StandardFrameConstants::kContextOffset));
// Copy any necessary parameters into the context.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
break;
}
}
+ scope_->RecordThisUsage();
result = this->ThisExpression(scope_, factory(), beg_pos);
break;
}
Consume(Token::THIS);
int pos = position();
function_state_->set_this_location(scanner()->location());
+ scope_->RecordThisUsage();
ExpressionT this_expr = this->ThisExpression(scope_, factory(), pos);
ExpressionT left = this->EmptyExpression();
}
-MUST_USE_RESULT
-static MaybeHandle<Context> MaterializeReceiver(
- Isolate* isolate, Handle<Context> target, Handle<JSFunction> function,
- JavaScriptFrame* frame) {
- Handle<SharedFunctionInfo> shared(function->shared());
- Handle<ScopeInfo> scope_info(shared->scope_info());
- Handle<Object> receiver;
- switch (scope_info->scope_type()) {
- case FUNCTION_SCOPE: {
- VariableMode variable_mode;
- InitializationFlag init_flag;
- MaybeAssignedFlag maybe_assigned_flag;
-
- // Don't bother creating a fake context node if "this" is in the context
- // already.
- if (ScopeInfo::ContextSlotIndex(scope_info,
- isolate->factory()->this_string(), &variable_mode, &init_flag,
- &maybe_assigned_flag) >= 0) {
- return target;
- }
- receiver = Handle<Object>(frame->receiver(), isolate);
- break;
- }
- case MODULE_SCOPE:
- receiver = isolate->factory()->undefined_value();
- break;
- case SCRIPT_SCOPE:
- receiver = Handle<Object>(function->global_proxy(), isolate);
- break;
- default:
- // For eval code, arrow functions, and the like, there's no "this" binding
- // to materialize.
- return target;
- }
-
- return isolate->factory()->NewCatchContext(function, target,
- isolate->factory()->this_string(), receiver);
-}
-
-
// Create a plain JSObject which materializes the local scope for the specified
// frame.
MUST_USE_RESULT
context_ = Handle<Context>();
return;
}
- if (scope_type == ScopeTypeScript) {
- seen_script_scope_ = true;
- if (context_->IsScriptContext()) {
+ if (scope_type == ScopeTypeScript) seen_script_scope_ = true;
+ if (nested_scope_chain_.is_empty()) {
+ if (scope_type == ScopeTypeScript) {
+ if (context_->IsScriptContext()) {
+ context_ = Handle<Context>(context_->previous(), isolate_);
+ }
+ CHECK(context_->IsNativeContext());
+ } else {
context_ = Handle<Context>(context_->previous(), isolate_);
}
- if (!nested_scope_chain_.is_empty()) {
- DCHECK_EQ(nested_scope_chain_.last()->scope_type(), SCRIPT_SCOPE);
- nested_scope_chain_.RemoveLast();
- DCHECK(nested_scope_chain_.is_empty());
- }
- CHECK(context_->IsNativeContext());
- return;
- }
- if (nested_scope_chain_.is_empty()) {
- context_ = Handle<Context>(context_->previous(), isolate_);
} else {
if (nested_scope_chain_.last()->HasContext()) {
DCHECK(context_->previous() != NULL);
outer_info_ = handle(function->shared());
Handle<Context> inner_context;
- // The "this" binding, if any, can't be bound via "with". If we need to,
- // add another node onto the outer context to bind "this".
- if (!MaterializeReceiver(isolate, outer_context, function, frame)
- .ToHandle(&outer_context))
- return;
-
bool stop = false;
for (ScopeIterator it(isolate, frame, inlined_jsframe_index);
!it.Failed() && !it.Done() && !stop; it.Next()) {
JSGlobalObject::cast(context_arg->extension()), isolate);
return DeclareGlobals(isolate, global, name, value, attr, is_var, is_const,
is_function);
- } else if (context->IsScriptContext()) {
- DCHECK(context->global_object()->IsJSGlobalObject());
- Handle<JSGlobalObject> global(
- JSGlobalObject::cast(context->global_object()), isolate);
- return DeclareGlobals(isolate, global, name, value, attr, is_var, is_const,
- is_function);
}
if (attributes != ABSENT) {
// meanwhile. If so, re-introduce the variable in the context extension.
if (attributes == ABSENT) {
Handle<Context> declaration_context(context_arg->declaration_context());
- if (declaration_context->IsScriptContext()) {
- holder = handle(declaration_context->global_object(), isolate);
- } else {
- DCHECK(declaration_context->has_extension());
- holder = handle(declaration_context->extension(), isolate);
- }
+ DCHECK(declaration_context->has_extension());
+ holder = handle(declaration_context->extension(), isolate);
CHECK(holder->IsJSObject());
} else {
// For JSContextExtensionObjects, the initializer can be run multiple times
FindNameClash(scope_info, global_object, script_context_table);
if (isolate->has_pending_exception()) return name_clash_result;
- // Script contexts have a canonical empty function as their closure, not the
- // anonymous closure containing the global code. See
- // FullCodeGenerator::PushFunctionArgumentForContextAllocation.
- Handle<JSFunction> closure(native_context->closure());
Handle<Context> result =
- isolate->factory()->NewScriptContext(closure, scope_info);
+ isolate->factory()->NewScriptContext(function, scope_info);
DCHECK(function->context() == isolate->context());
DCHECK(function->context()->global_object() == result->global_object());
// with user declarations, the current temporaries like .generator_object and
// .result start with a dot, so we can use that as a flag. It's a hack!
Handle<String> name(LocalName(var));
- return (name->length() > 0 && name->Get(0) == '.') ||
- name->Equals(*GetIsolate()->factory()->this_string());
+ return name->length() > 0 && name->Get(0) == '.';
}
scope_calls_eval_ = false;
scope_uses_arguments_ = false;
scope_uses_super_property_ = false;
+ scope_uses_this_ = false;
asm_module_ = false;
asm_function_ = outer_scope != NULL && outer_scope->asm_module_;
// Inherit the language mode from the parent scope.
outer_scope_calls_sloppy_eval_ = false;
inner_scope_calls_eval_ = false;
inner_scope_uses_arguments_ = false;
+ inner_scope_uses_this_ = false;
inner_scope_uses_super_property_ = false;
force_eager_compilation_ = false;
force_context_allocation_ = (outer_scope != NULL && !is_function_scope())
scope_inside_with_ = is_with_scope();
}
- // Declare convenience variables and the receiver.
+ // Declare convenience variables.
+ // Declare and allocate receiver (even for the script scope, and even
+ // if naccesses_ == 0).
+ // NOTE: When loading parameters in the script scope, we must take
+ // care not to access them as properties of the global object, but
+ // instead load them directly from the stack. Currently, the only
+ // such parameter is 'this' which is passed on the stack when
+ // invoking scripts
if (is_declaration_scope()) {
DCHECK(!subclass_constructor || is_function_scope());
- if (has_this_declaration()) {
- Variable* var = variables_.Declare(
- this, ast_value_factory_->this_string(),
- subclass_constructor ? CONST : VAR, Variable::THIS,
- subclass_constructor ? kNeedsInitialization : kCreatedInitialized);
- receiver_ = var;
- }
+ Variable* var = variables_.Declare(
+ this, ast_value_factory_->this_string(),
+ subclass_constructor ? CONST : VAR, Variable::THIS,
+ subclass_constructor ? kNeedsInitialization : kCreatedInitialized);
+ var->AllocateTo(Variable::PARAMETER, -1);
+ receiver_ = var;
if (subclass_constructor) {
new_target_ =
new_target_->AllocateTo(Variable::PARAMETER, -2);
new_target_->set_is_used();
}
+ } else {
+ DCHECK(outer_scope() != NULL);
+ receiver_ = outer_scope()->receiver();
}
if (is_function_scope() && !is_arrow_scope()) {
// Propagate usage flags to outer scope.
if (uses_arguments()) outer_scope_->RecordArgumentsUsage();
if (uses_super_property()) outer_scope_->RecordSuperPropertyUsage();
+ if (uses_this()) outer_scope_->RecordThisUsage();
if (scope_calls_eval_) outer_scope_->RecordEvalCall();
return NULL;
if (scope_uses_arguments_) Indent(n1, "// scope uses 'arguments'\n");
if (scope_uses_super_property_)
Indent(n1, "// scope uses 'super' property\n");
+ if (scope_uses_this_) Indent(n1, "// scope uses 'this'\n");
if (inner_scope_uses_arguments_) {
Indent(n1, "// inner scope uses 'arguments'\n");
}
if (inner_scope_uses_super_property_)
Indent(n1, "// inner scope uses 'super' property\n");
+ if (inner_scope_uses_this_) Indent(n1, "// inner scope uses 'this'\n");
if (outer_scope_calls_sloppy_eval_) {
Indent(n1, "// outer scope calls 'eval' in sloppy context\n");
}
DCHECK(is_script_scope());
}
- // "this" can't be shadowed by "eval"-introduced bindings or by "with" scopes.
- // TODO(wingo): There are other variables in this category; add them.
- bool name_can_be_shadowed = var == nullptr || !var->is_this();
-
- if (is_with_scope() && name_can_be_shadowed) {
+ if (is_with_scope()) {
DCHECK(!already_resolved());
// The current scope is a with scope, so the variable binding can not be
// statically resolved. However, note that it was necessary to do a lookup
if (var != NULL && proxy->is_assigned()) var->set_maybe_assigned();
*binding_kind = DYNAMIC_LOOKUP;
return NULL;
- } else if (calls_sloppy_eval() && name_can_be_shadowed) {
+ } else if (calls_sloppy_eval()) {
// A variable binding may have been found in an outer scope, but the current
// scope makes a sloppy 'eval' call, so the found variable may not be
// the correct one (the 'eval' may introduce a binding with the same name).
inner->inner_scope_uses_super_property_) {
inner_scope_uses_super_property_ = true;
}
+ if (inner->scope_uses_this_ || inner->inner_scope_uses_this_) {
+ inner_scope_uses_this_ = true;
+ }
}
if (inner->force_eager_compilation_) {
force_eager_compilation_ = true;
// Force context allocation of the parameter.
var->ForceContextAllocation();
}
- AllocateParameter(var, i);
- }
-}
-
-void Scope::AllocateParameter(Variable* var, int index) {
- if (MustAllocate(var)) {
- if (MustAllocateInContext(var)) {
- DCHECK(var->IsUnallocated() || var->IsContextSlot());
- if (var->IsUnallocated()) {
- AllocateHeapSlot(var);
- }
- } else {
- DCHECK(var->IsUnallocated() || var->IsParameter());
- if (var->IsUnallocated()) {
- var->AllocateTo(Variable::PARAMETER, index);
+ if (MustAllocate(var)) {
+ if (MustAllocateInContext(var)) {
+ DCHECK(var->IsUnallocated() || var->IsContextSlot());
+ if (var->IsUnallocated()) {
+ AllocateHeapSlot(var);
+ }
+ } else {
+ DCHECK(var->IsUnallocated() || var->IsParameter());
+ if (var->IsUnallocated()) {
+ var->AllocateTo(Variable::PARAMETER, i);
+ }
}
}
}
}
-void Scope::AllocateReceiver() {
- DCHECK_NOT_NULL(receiver());
- DCHECK_EQ(receiver()->scope(), this);
-
- if (has_forced_context_allocation()) {
- // Force context allocation of the receiver.
- receiver()->ForceContextAllocation();
- }
- AllocateParameter(receiver(), -1);
-}
-
-
void Scope::AllocateNonParameterLocal(Isolate* isolate, Variable* var) {
DCHECK(var->scope() == this);
DCHECK(!var->IsVariable(isolate->factory()->dot_result_string()) ||
// Allocate variables for this scope.
// Parameters must be allocated first, if any.
if (is_function_scope()) AllocateParameterLocals(isolate);
- if (has_this_declaration()) AllocateReceiver();
AllocateNonParameterLocals(isolate);
// Force allocation of a context for this scope if necessary. For a 'with'
// Create a new unresolved variable.
VariableProxy* NewUnresolved(AstNodeFactory* factory,
const AstRawString* name,
- Variable::Kind kind = Variable::NORMAL,
int start_position = RelocInfo::kNoPosition,
int end_position = RelocInfo::kNoPosition) {
// Note that we must not share the unresolved variables with
// the same name because they may be removed selectively via
// RemoveUnresolved().
DCHECK(!already_resolved());
- VariableProxy* proxy =
- factory->NewVariableProxy(name, kind, start_position, end_position);
+ VariableProxy* proxy = factory->NewVariableProxy(
+ name, Variable::NORMAL, start_position, end_position);
unresolved_.Add(proxy, zone_);
return proxy;
}
// Inform the scope that the corresponding code uses "super".
void RecordSuperPropertyUsage() { scope_uses_super_property_ = true; }
+ // Inform the scope that the corresponding code uses "this".
+ void RecordThisUsage() { scope_uses_this_ = true; }
+
// Set the language mode flag (unless disabled by a global flag).
void SetLanguageMode(LanguageMode language_mode) {
language_mode_ = language_mode;
bool inner_uses_super_property() const {
return inner_scope_uses_super_property_;
}
+ // Does this scope access "this".
+ bool uses_this() const { return scope_uses_this_; }
+ // Does any inner scope access "this".
+ bool inner_uses_this() const { return inner_scope_uses_this_; }
const Scope* NearestOuterEvalScope() const {
if (is_eval_scope()) return this;
LanguageMode language_mode() const { return language_mode_; }
// The variable corresponding to the 'this' value.
- Variable* receiver() {
- DCHECK(has_this_declaration());
- DCHECK_NOT_NULL(receiver_);
- return receiver_;
- }
-
- Variable* LookupThis() { return Lookup(ast_value_factory_->this_string()); }
-
- // TODO(wingo): Add a GLOBAL_SCOPE scope type which will lexically allocate
- // "this" (and no other variable) on the native context. Script scopes then
- // will not have a "this" declaration.
- bool has_this_declaration() const {
- return (is_function_scope() && !is_arrow_scope()) || is_module_scope() ||
- is_script_scope();
- }
+ Variable* receiver() { return receiver_; }
// The variable corresponding to the 'new.target' value.
Variable* new_target_var() { return new_target_; }
bool scope_uses_arguments_;
// This scope uses "super" property ('super.foo').
bool scope_uses_super_property_;
+ // This scope uses "this".
+ bool scope_uses_this_;
// This scope contains an "use asm" annotation.
bool asm_module_;
// This scope's outer context is an asm module.
bool inner_scope_calls_eval_;
bool inner_scope_uses_arguments_;
bool inner_scope_uses_super_property_;
+ bool inner_scope_uses_this_;
bool force_eager_compilation_;
bool force_context_allocation_;
void AllocateNonParameterLocal(Isolate* isolate, Variable* var);
void AllocateNonParameterLocals(Isolate* isolate);
void AllocateVariablesRecursively(Isolate* isolate);
- void AllocateParameter(Variable* var, int index);
- void AllocateReceiver();
void AllocateModules();
// Resolve and fill in the allocation information for all variables
// Temporaries are never global, they must always be allocated in the
// activation frame.
return (IsDynamicVariableMode(mode_) ||
- (IsDeclaredVariableMode(mode_) && !IsLexicalVariableMode(mode_))) &&
- scope_ != NULL && scope_->is_script_scope() && !is_this();
+ (IsDeclaredVariableMode(mode_) && !IsLexicalVariableMode(mode_)))
+ && scope_ != NULL && scope_->is_script_scope();
}
// global proxy when called as functions (without an explicit receiver
// object).
if (is_sloppy(info->language_mode()) && !info->is_native() &&
- info->MayUseThis() && info->scope()->has_this_declaration()) {
+ info->MayUseThis()) {
Label ok;
// +1 for return address.
StackArgumentsAccessor args(rsp, info->scope()->num_parameters());
// Copy any necessary parameters into the context.
int num_parameters = info->scope()->num_parameters();
- int first_parameter = info->scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
__ Push(Operand(rbp, JavaScriptFrameConstants::kFunctionOffset));
// Push the receiver of the enclosing function and do runtime call.
- Variable* this_var = scope()->LookupThis();
- DCHECK_NOT_NULL(this_var);
- __ Push(VarOperand(this_var, rcx));
+ StackArgumentsAccessor args(rbp, info_->scope()->num_parameters());
+ __ Push(args.GetReceiverOperand());
// Push the language mode.
__ Push(Smi::FromInt(language_mode()));
// Sloppy mode functions need to replace the receiver with the global proxy
// when called as functions (without an explicit receiver object).
- if (is_sloppy(info()->language_mode()) && info()->MayUseThis() &&
- !info()->is_native() && info()->scope()->has_this_declaration()) {
+ if (is_sloppy(info_->language_mode()) && info()->MayUseThis() &&
+ !info_->is_native()) {
Label ok;
StackArgumentsAccessor args(rsp, scope()->num_parameters());
__ movp(rcx, args.GetReceiverOperand());
// Copy any necessary parameters into the context.
int num_parameters = scope()->num_parameters();
- int first_parameter = scope()->has_this_declaration() ? -1 : 0;
- for (int i = first_parameter; i < num_parameters; i++) {
- Variable* var = (i == -1) ? scope()->receiver() : scope()->parameter(i);
+ for (int i = 0; i < num_parameters; i++) {
+ Variable* var = scope()->parameter(i);
if (var->IsContextSlot()) {
int parameter_offset = StandardFrameConstants::kCallerSPOffset +
(num_parameters - 1 - i) * kPointerSize;
THIS = 1 << 2,
INNER_ARGUMENTS = 1 << 3,
INNER_SUPER_PROPERTY = 1 << 4,
+ INNER_THIS = 1 << 5
};
static const struct {
{"return this + arguments[0]", ARGUMENTS | THIS},
{"return this + arguments[0] + super.x",
ARGUMENTS | SUPER_PROPERTY | THIS},
- {"return x => this + x", THIS},
+ {"return x => this + x", INNER_THIS},
{"return x => super.f() + x", INNER_SUPER_PROPERTY},
{"this.foo = 42;", THIS},
{"this.foo();", THIS},
{"while (true) { while (true) { while (true) return this } }", THIS},
{"while (true) { while (true) { while (true) return super.f() } }",
SUPER_PROPERTY},
- {"if (1) { return () => { while (true) new this() } }", THIS},
+ {"if (1) { return () => { while (true) new this() } }", INNER_THIS},
+ // Note that propagation of the inner_uses_this() value does not
+ // cross boundaries of normal functions onto parent scopes.
{"return function (x) { return this + x }", NONE},
{"return { m(x) { return super.m() + x } }", NONE},
{"var x = function () { this.foo = 42 };", NONE},
{"return { m(x) { return () => super.m() } }", NONE},
// Flags must be correctly set when using block scoping.
{"\"use strict\"; while (true) { let x; this, arguments; }",
- INNER_ARGUMENTS | THIS},
+ INNER_ARGUMENTS | INNER_THIS},
{"\"use strict\"; while (true) { let x; this, super.f(), arguments; }",
- INNER_ARGUMENTS | INNER_SUPER_PROPERTY | THIS},
- {"\"use strict\"; if (foo()) { let x; this.f() }", THIS},
+ INNER_ARGUMENTS | INNER_SUPER_PROPERTY | INNER_THIS},
+ {"\"use strict\"; if (foo()) { let x; this.f() }", INNER_THIS},
{"\"use strict\"; if (foo()) { let x; super.f() }",
INNER_SUPER_PROPERTY},
{"\"use strict\"; if (1) {"
scope->uses_arguments());
CHECK_EQ((source_data[i].expected & SUPER_PROPERTY) != 0,
scope->uses_super_property());
- if ((source_data[i].expected & THIS) != 0) {
- // Currently the is_used() flag is conservative; all variables in a
- // script scope are marked as used.
- CHECK(scope->LookupThis()->is_used());
- }
+ CHECK_EQ((source_data[i].expected & THIS) != 0, scope->uses_this());
CHECK_EQ((source_data[i].expected & INNER_ARGUMENTS) != 0,
scope->inner_uses_arguments());
CHECK_EQ((source_data[i].expected & INNER_SUPER_PROPERTY) != 0,
scope->inner_uses_super_property());
+ CHECK_EQ((source_data[i].expected & INNER_THIS) != 0,
+ scope->inner_uses_this());
}
}
}
root =
deserializer.DeserializePartial(isolate, global_proxy,
&outdated_contexts).ToHandleChecked();
- CHECK_EQ(3, outdated_contexts->length());
+ CHECK_EQ(2, outdated_contexts->length());
CHECK(root->IsContext());
Handle<Context> context = Handle<Context>::cast(root);
CHECK(context->global_proxy() == *global_proxy);
if (!scope.scopeObject().property('arguments').isUndefined()) {
scope_size--;
}
- // Ditto for 'this'.
- if (!scope.scopeObject().property('this').isUndefined()) {
- scope_size--;
- }
// Skip property with empty name.
if (!scope.scopeObject().property('').isUndefined()) {
scope_size--;
+++ /dev/null
-// Copyright 2015 the V8 project authors. All rights reserved.
-// Use of this source code is governed by a BSD-style license that can be
-// found in the LICENSE file.
-
-// Flags: --harmony-arrow-functions
-
-var object = {};
-var global = this;
-var call = Function.call.bind(Function.call);
-
-var globalSloppyArrow = () => this;
-var globalStrictArrow = () => { "use strict"; return this; };
-var globalSloppyArrowEval = (s) => eval(s);
-var globalStrictArrowEval = (s) => { "use strict"; return eval(s); };
-
-var sloppyFunctionArrow = function() {
- return (() => this)();
-};
-var strictFunctionArrow = function() {
- "use strict";
- return (() => this)();
-};
-var sloppyFunctionEvalArrow = function() {
- return eval("(() => this)()");
-};
-var strictFunctionEvalArrow = function() {
- "use strict";
- return eval("(() => this)()");
-};
-var sloppyFunctionArrowEval = function(s) {
- return (() => eval(s))();
-};
-var strictFunctionArrowEval = function(s) {
- "use strict";
- return (() => eval(s))();
-};
-
-var withObject = { 'this': object }
-var arrowInsideWith, arrowInsideWithEval;
-with (withObject) {
- arrowInsideWith = () => this;
- arrowInsideWithEval = (s) => eval(s);
-}
-
-assertEquals(global, call(globalSloppyArrow, object));
-assertEquals(global, call(globalStrictArrow, object));
-assertEquals(global, call(globalSloppyArrowEval, object, "this"));
-assertEquals(global, call(globalStrictArrowEval, object, "this"));
-assertEquals(global, call(globalSloppyArrowEval, object, "(() => this)()"));
-assertEquals(global, call(globalStrictArrowEval, object, "(() => this)()"));
-
-assertEquals(object, call(sloppyFunctionArrow, object));
-assertEquals(global, call(sloppyFunctionArrow, undefined));
-assertEquals(object, call(strictFunctionArrow, object));
-assertEquals(undefined, call(strictFunctionArrow, undefined));
-
-assertEquals(object, call(sloppyFunctionEvalArrow, object));
-assertEquals(global, call(sloppyFunctionEvalArrow, undefined));
-assertEquals(object, call(strictFunctionEvalArrow, object));
-assertEquals(undefined, call(strictFunctionEvalArrow, undefined));
-
-assertEquals(object, call(sloppyFunctionArrowEval, object, "this"));
-assertEquals(global, call(sloppyFunctionArrowEval, undefined, "this"));
-assertEquals(object, call(strictFunctionArrowEval, object, "this"));
-assertEquals(undefined, call(strictFunctionArrowEval, undefined, "this"));
-
-assertEquals(object,
- call(sloppyFunctionArrowEval, object, "(() => this)()"));
-assertEquals(global,
- call(sloppyFunctionArrowEval, undefined, "(() => this)()"));
-assertEquals(object,
- call(strictFunctionArrowEval, object, "(() => this)()"));
-assertEquals(undefined,
- call(strictFunctionArrowEval, undefined, "(() => this)()"));
-
-assertEquals(global, call(arrowInsideWith, undefined));
-assertEquals(global, call(arrowInsideWith, object));
-assertEquals(global, call(arrowInsideWithEval, undefined, "this"));
-assertEquals(global, call(arrowInsideWithEval, object, "this"));
-assertEquals(global, call(arrowInsideWithEval, undefined, "(() => this)()"));
-assertEquals(global, call(arrowInsideWithEval, object, "(() => this)()"));
FILES_PATTERN = re.compile(r"//\s+Files:(.*)")
SELF_SCRIPT_PATTERN = re.compile(r"//\s+Env: TEST_FILE_NAME")
MODULE_PATTERN = re.compile(r"^// MODULE$", flags=re.MULTILINE)
-NO_HARNESS_PATTERN = re.compile(r"^// NO HARNESS$", flags=re.MULTILINE)
class MjsunitTestSuite(testsuite.TestSuite):
env = ["-e", "TEST_FILE_NAME=\"%s\"" % testfilename.replace("\\", "\\\\")]
files = env + files
- if not context.no_harness and not NO_HARNESS_PATTERN.search(source):
+ if not context.no_harness:
files.append(os.path.join(self.root, "mjsunit.js"))
if MODULE_PATTERN.search(source):
+++ /dev/null
-// Copyright 2015 the V8 project authors. All rights reserved.
-// Use of this source code is governed by a BSD-style license that can be
-// found in the LICENSE file.
-
-// Flags: --harmony-arrow-functions
-// NO HARNESS
-
-var globalEval = eval;
-globalEval("this; eval('42')");
-globalEval("eval('42'); this");