// Copyright 2013 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.
#include "src/crankshaft/typing.h"
#include "src/ast/compile-time-value.h"
#include "src/ast/scopes.h"
#include "src/ast/variables.h"
#include "src/frames-inl.h"
#include "src/frames.h"
#include "src/ostreams.h"
#include "src/splay-tree-inl.h"
namespace v8 {
namespace internal {
AstTyper::AstTyper(Isolate* isolate, Zone* zone, Handle<JSFunction> closure,
DeclarationScope* scope, BailoutId osr_ast_id,
FunctionLiteral* root, AstTypeBounds* bounds)
: isolate_(isolate),
zone_(zone),
closure_(closure),
scope_(scope),
osr_ast_id_(osr_ast_id),
root_(root),
oracle_(isolate, zone, handle(closure->shared()->code()),
handle(closure->feedback_vector()),
handle(closure->context()->native_context())),
store_(zone),
bounds_(bounds) {
InitializeAstVisitor(isolate);
}
#ifdef OBJECT_PRINT
static void PrintObserved(Variable* var, Object* value, AstType* type) {
OFStream os(stdout);
os << " observed " << (var->IsParameter() ? "param" : "local") << " ";
var->name()->Print(os);
os << " : " << Brief(value) << " -> ";
type->PrintTo(os);
os << std::endl;
}
#endif // OBJECT_PRINT
Effect AstTyper::ObservedOnStack(Object* value) {
AstType* lower = AstType::NowOf(value, zone());
return Effect(AstBounds(lower, AstType::Any()));
}
void AstTyper::ObserveTypesAtOsrEntry(IterationStatement* stmt) {
if (stmt->OsrEntryId() != osr_ast_id_) return;
DisallowHeapAllocation no_gc;
JavaScriptFrameIterator it(isolate_);
JavaScriptFrame* frame = it.frame();
// Assert that the frame on the stack belongs to the function we want to OSR.
DCHECK_EQ(*closure_, frame->function());
int params = scope_->num_parameters();
int locals = scope_->StackLocalCount();
// Use sequential composition to achieve desired narrowing.
// The receiver is a parameter with index -1.
store_.Seq(parameter_index(-1), ObservedOnStack(frame->receiver()));
for (int i = 0; i < params; i++) {
store_.Seq(parameter_index(i), ObservedOnStack(frame->GetParameter(i)));
}
for (int i = 0; i < locals; i++) {
store_.Seq(stack_local_index(i), ObservedOnStack(frame->GetExpression(i)));
}
#ifdef OBJECT_PRINT
if (FLAG_trace_osr && FLAG_print_scopes) {
PrintObserved(scope_->receiver(), frame->receiver(),
store_.LookupBounds(parameter_index(-1)).lower);
for (int i = 0; i < params; i++) {
PrintObserved(scope_->parameter(i), frame->GetParameter(i),
store_.LookupBounds(parameter_index(i)).lower);
}
int local_index = 0;
for (Variable* var : *scope_->locals()) {
if (var->IsStackLocal()) {
PrintObserved(
var, frame->GetExpression(local_index),
store_.LookupBounds(stack_local_index(local_index)).lower);
local_index++;
}
}
}
#endif // OBJECT_PRINT
}
#define RECURSE(call) \
do { \
DCHECK(!HasStackOverflow()); \
call; \
if (HasStackOverflow()) return; \
} while (false)
void AstTyper::Run() {
RECURSE(VisitDeclarations(scope_->declarations()));
RECURSE(VisitStatements(root_->body()));
}
void AstTyper::VisitStatements(ZoneList<Statement*>* stmts) {
for (int i = 0; i < stmts->length(); ++i) {
Statement* stmt = stmts->at(i);
RECURSE(Visit(stmt));
if (stmt->IsJump()) break;
}
}
void AstTyper::VisitBlock(Block* stmt) {
RECURSE(VisitStatements(stmt->statements()));
if (stmt->labels() != NULL) {
store_.Forget(); // Control may transfer here via 'break l'.
}
}
void AstTyper::VisitExpressionStatement(ExpressionStatement* stmt) {
RECURSE(Visit(stmt->expression()));
}
void AstTyper::VisitEmptyStatement(EmptyStatement* stmt) {
}
void AstTyper::VisitSloppyBlockFunctionStatement(
SloppyBlockFunctionStatement* stmt) {
Visit(stmt->statement());
}
void AstTyper::VisitIfStatement(IfStatement* stmt) {
// Collect type feedback.
if (!stmt->condition()->ToBooleanIsTrue() &&
!stmt->condition()->ToBooleanIsFalse()) {
stmt->condition()->RecordToBooleanTypeFeedback(oracle());
}
RECURSE(Visit(stmt->condition()));
Effects then_effects = EnterEffects();
RECURSE(Visit(stmt->then_statement()));
ExitEffects();
Effects else_effects = EnterEffects();
RECURSE(Visit(stmt->else_statement()));
ExitEffects();
then_effects.Alt(else_effects);
store_.Seq(then_effects);
}
void AstTyper::VisitContinueStatement(ContinueStatement* stmt) {
// TODO(rossberg): is it worth having a non-termination effect?
}
void AstTyper::VisitBreakStatement(BreakStatement* stmt) {
// TODO(rossberg): is it worth having a non-termination effect?
}
void AstTyper::VisitReturnStatement(ReturnStatement* stmt) {
// Collect type feedback.
// TODO(rossberg): we only need this for inlining into test contexts...
stmt->expression()->RecordToBooleanTypeFeedback(oracle());
RECURSE(Visit(stmt->expression()));
// TODO(rossberg): is it worth having a non-termination effect?
}
void AstTyper::VisitWithStatement(WithStatement* stmt) {
RECURSE(stmt->expression());
RECURSE(stmt->statement());
}
void AstTyper::VisitSwitchStatement(SwitchStatement* stmt) {
RECURSE(Visit(stmt->tag()));
ZoneList<CaseClause*>* clauses = stmt->cases();
Effects local_effects(zone());
bool complex_effects = false; // True for label effects or fall-through.
for (int i = 0; i < clauses->length(); ++i) {
CaseClause* clause = clauses->at(i);
Effects clause_effects = EnterEffects();
if (!clause->is_default()) {
Expression* label = clause->label();
// Collect type feedback.
AstType* tag_type;
AstType* label_type;
AstType* combined_type;
oracle()->CompareType(clause->CompareId(),
clause->CompareOperationFeedbackSlot(), &tag_type,
&label_type, &combined_type);
NarrowLowerType(stmt->tag(), tag_type);
NarrowLowerType(label, label_type);
clause->set_compare_type(combined_type);
RECURSE(Visit(label));
if (!clause_effects.IsEmpty()) complex_effects = true;
}
ZoneList<Statement*>* stmts = clause->statements();
RECURSE(VisitStatements(stmts));
ExitEffects();
if (stmts->is_empty() || stmts->last()->IsJump()) {
local_effects.Alt(clause_effects);
} else {
complex_effects = true;
}
}
if (complex_effects) {
store_.Forget(); // Reached this in unknown state.
} else {
store_.Seq(local_effects);
}
}
void AstTyper::VisitCaseClause(CaseClause* clause) {
UNREACHABLE();
}
void AstTyper::VisitDoWhileStatement(DoWhileStatement* stmt) {
// Collect type feedback.
if (!stmt->cond()->ToBooleanIsTrue()) {
stmt->cond()->RecordToBooleanTypeFeedback(oracle());
}
// TODO(rossberg): refine the unconditional Forget (here and elsewhere) by
// computing the set of variables assigned in only some of the origins of the
// control transfer (such as the loop body here).
store_.Forget(); // Control may transfer here via looping or 'continue'.
ObserveTypesAtOsrEntry(stmt);
RECURSE(Visit(stmt->body()));
RECURSE(Visit(stmt->cond()));
store_.Forget(); // Control may transfer here via 'break'.
}
void AstTyper::VisitWhileStatement(WhileStatement* stmt) {
// Collect type feedback.
if (!stmt->cond()->ToBooleanIsTrue()) {
stmt->cond()->RecordToBooleanTypeFeedback(oracle());
}
store_.Forget(); // Control may transfer here via looping or 'continue'.
RECURSE(Visit(stmt->cond()));
ObserveTypesAtOsrEntry(stmt);
RECURSE(Visit(stmt->body()));
store_.Forget(); // Control may transfer here via termination or 'break'.
}
void AstTyper::VisitForStatement(ForStatement* stmt) {
if (stmt->init() != NULL) {
RECURSE(Visit(stmt->init()));
}
store_.Forget(); // Control may transfer here via looping.
if (stmt->cond() != NULL) {
// Collect type feedback.
stmt->cond()->RecordToBooleanTypeFeedback(oracle());
RECURSE(Visit(stmt->cond()));
}
ObserveTypesAtOsrEntry(stmt);
RECURSE(Visit(stmt->body()));
if (stmt->next() != NULL) {
store_.Forget(); // Control may transfer here via 'continue'.
RECURSE(Visit(stmt->next()));
}
store_.Forget(); // Control may transfer here via termination or 'break'.
}
void AstTyper::VisitForInStatement(ForInStatement* stmt) {
// Collect type feedback.
stmt->set_for_in_type(static_cast<ForInStatement::ForInType>(
oracle()->ForInType(stmt->ForInFeedbackSlot())));
RECURSE(Visit(stmt->enumerable()));
store_.Forget(); // Control may transfer here via looping or 'continue'.
ObserveTypesAtOsrEntry(stmt);
RECURSE(Visit(stmt->body()));
store_.Forget(); // Control may transfer here via 'break'.
}
void AstTyper::VisitForOfStatement(ForOfStatement* stmt) {}
void AstTyper::VisitTryCatchStatement(TryCatchStatement* stmt) {
Effects try_effects = EnterEffects();
RECURSE(Visit(stmt->try_block()));
ExitEffects();
Effects catch_effects = EnterEffects();
store_.Forget(); // Control may transfer here via 'throw'.
RECURSE(Visit(stmt->catch_block()));
ExitEffects();
try_effects.Alt(catch_effects);
store_.Seq(try_effects);
// At this point, only variables that were reassigned in the catch block are
// still remembered.
}
void AstTyper::VisitTryFinallyStatement(TryFinallyStatement* stmt) {
RECURSE(Visit(stmt->try_block()));
store_.Forget(); // Control may transfer here via 'throw'.
RECURSE(Visit(stmt->finally_block()));
}
void AstTyper::VisitDebuggerStatement(DebuggerStatement* stmt) {
store_.Forget(); // May do whatever.
}
void AstTyper::VisitFunctionLiteral(FunctionLiteral* expr) {}
void AstTyper::VisitClassLiteral(ClassLiteral* expr) {}
void AstTyper::VisitNativeFunctionLiteral(NativeFunctionLiteral* expr) {
}
void AstTyper::VisitDoExpression(DoExpression* expr) {
RECURSE(VisitBlock(expr->block()));
RECURSE(VisitVariableProxy(expr->result()));
NarrowType(expr, bounds_->get(expr->result()));
}
void AstTyper::VisitConditional(Conditional* expr) {
// Collect type feedback.
expr->condition()->RecordToBooleanTypeFeedback(oracle());
RECURSE(Visit(expr->condition()));
Effects then_effects = EnterEffects();
RECURSE(Visit(expr->then_expression()));
ExitEffects();
Effects else_effects = EnterEffects();
RECURSE(Visit(expr->else_expression()));
ExitEffects();
then_effects.Alt(else_effects);
store_.Seq(then_effects);
NarrowType(expr,
AstBounds::Either(bounds_->get(expr->then_expression()),
bounds_->get(expr->else_expression()), zone()));
}
void AstTyper::VisitVariableProxy(VariableProxy* expr) {
Variable* var = expr->var();
if (var->IsStackAllocated()) {
NarrowType(expr, store_.LookupBounds(variable_index(var)));
}
}
void AstTyper::VisitLiteral(Literal* expr) {
AstType* type = AstType::Constant(expr->value(), zone());
NarrowType(expr, AstBounds(type));
}
void AstTyper::VisitRegExpLiteral(RegExpLiteral* expr) {
// TODO(rossberg): Reintroduce RegExp type.
NarrowType(expr, AstBounds(AstType::Object()));
}
void AstTyper::VisitObjectLiteral(ObjectLiteral* expr) {
ZoneList<ObjectLiteral::Property*>* properties = expr->properties();
for (int i = 0; i < properties->length(); ++i) {
ObjectLiteral::Property* prop = properties->at(i);
// Collect type feedback.
if ((prop->kind() == ObjectLiteral::Property::MATERIALIZED_LITERAL &&
!CompileTimeValue::IsCompileTimeValue(prop->value())) ||
prop->kind() == ObjectLiteral::Property::COMPUTED) {
if (!prop->is_computed_name() &&
prop->key()->AsLiteral()->value()->IsInternalizedString() &&
prop->emit_store()) {
// Record type feed back for the property.
FeedbackSlot slot = prop->GetSlot();
SmallMapList maps;
oracle()->CollectReceiverTypes(slot, &maps);
prop->set_receiver_type(maps.length() == 1 ? maps.at(0)
: Handle<Map>::null());
}
}
RECURSE(Visit(prop->value()));
}
NarrowType(expr, AstBounds(AstType::Object()));
}
void AstTyper::VisitArrayLiteral(ArrayLiteral* expr) {
ZoneList<Expression*>* values = expr->values();
for (int i = 0; i < values->length(); ++i) {
Expression* value = values->at(i);
RECURSE(Visit(value));
}
NarrowType(expr, AstBounds(AstType::Object()));
}
void AstTyper::VisitAssignment(Assignment* expr) {
// Collect type feedback.
Property* prop = expr->target()->AsProperty();
if (prop != NULL) {
FeedbackSlot slot = expr->AssignmentSlot();
expr->set_is_uninitialized(oracle()->StoreIsUninitialized(slot));
if (!expr->IsUninitialized()) {
SmallMapList* receiver_types = expr->GetReceiverTypes();
if (prop->key()->IsPropertyName()) {
Literal* lit_key = prop->key()->AsLiteral();
DCHECK(lit_key != NULL && lit_key->value()->IsString());
Handle<String> name = Handle<String>::cast(lit_key->value());
oracle()->AssignmentReceiverTypes(slot, name, receiver_types);
} else {
KeyedAccessStoreMode store_mode;
IcCheckType key_type;
oracle()->KeyedAssignmentReceiverTypes(slot, receiver_types,
&store_mode, &key_type);
expr->set_store_mode(store_mode);
expr->set_key_type(key_type);
}
}
}
Expression* rhs =
expr->is_compound() ? expr->binary_operation() : expr->value();
RECURSE(Visit(expr->target()));
RECURSE(Visit(rhs));
NarrowType(expr, bounds_->get(rhs));
VariableProxy* proxy = expr->target()->AsVariableProxy();
if (proxy != NULL && proxy->var()->IsStackAllocated()) {
store_.Seq(variable_index(proxy->var()), Effect(bounds_->get(expr)));
}
}
void AstTyper::VisitYield(Yield* expr) {
RECURSE(Visit(expr->generator_object()));
RECURSE(Visit(expr->expression()));
// We don't know anything about the result type.
}
void AstTyper::VisitThrow(Throw* expr) {
RECURSE(Visit(expr->exception()));
// TODO(rossberg): is it worth having a non-termination effect?
NarrowType(expr, AstBounds(AstType::None()));
}
void AstTyper::VisitProperty(Property* expr) {
// Collect type feedback.
FeedbackSlot slot = expr->PropertyFeedbackSlot();
expr->set_inline_cache_state(oracle()->LoadInlineCacheState(slot));
if (!expr->IsUninitialized()) {
if (expr->key()->IsPropertyName()) {
Literal* lit_key = expr->key()->AsLiteral();
DCHECK(lit_key != NULL && lit_key->value()->IsString());
Handle<String> name = Handle<String>::cast(lit_key->value());
oracle()->PropertyReceiverTypes(slot, name, expr->GetReceiverTypes());
} else {
bool is_string;
IcCheckType key_type;
oracle()->KeyedPropertyReceiverTypes(slot, expr->GetReceiverTypes(),
&is_string, &key_type);
expr->set_is_string_access(is_string);
expr->set_key_type(key_type);
}
}
RECURSE(Visit(expr->obj()));
RECURSE(Visit(expr->key()));
// We don't know anything about the result type.
}
void AstTyper::VisitCall(Call* expr) {
// Collect type feedback.
RECURSE(Visit(expr->expression()));
FeedbackSlot slot = expr->CallFeedbackICSlot();
bool is_uninitialized = oracle()->CallIsUninitialized(slot);
if (!expr->expression()->IsProperty() && oracle()->CallIsMonomorphic(slot)) {
expr->set_target(oracle()->GetCallTarget(slot));
Handle<AllocationSite> site = oracle()->GetCallAllocationSite(slot);
expr->set_allocation_site(site);
}
expr->set_is_uninitialized(is_uninitialized);
ZoneList<Expression*>* args = expr->arguments();
for (int i = 0; i < args->length(); ++i) {
Expression* arg = args->at(i);
RECURSE(Visit(arg));
}
if (expr->is_possibly_eval()) {
store_.Forget(); // Eval could do whatever to local variables.
}
// We don't know anything about the result type.
}
void AstTyper::VisitCallNew(CallNew* expr) {
// Collect type feedback.
FeedbackSlot allocation_site_feedback_slot = expr->CallNewFeedbackSlot();
expr->set_allocation_site(
oracle()->GetCallNewAllocationSite(allocation_site_feedback_slot));
bool monomorphic =
oracle()->CallNewIsMonomorphic(expr->CallNewFeedbackSlot());
expr->set_is_monomorphic(monomorphic);
if (monomorphic) {
expr->set_target(oracle()->GetCallNewTarget(expr->CallNewFeedbackSlot()));
}
RECURSE(Visit(expr->expression()));
ZoneList<Expression*>* args = expr->arguments();
for (int i = 0; i < args->length(); ++i) {
Expression* arg = args->at(i);
RECURSE(Visit(arg));
}
NarrowType(expr, AstBounds(AstType::None(), AstType::Receiver()));
}
void AstTyper::VisitCallRuntime(CallRuntime* expr) {
ZoneList<Expression*>* args = expr->arguments();
for (int i = 0; i < args->length(); ++i) {
Expression* arg = args->at(i);
RECURSE(Visit(arg));
}
// We don't know anything about the result type.
}
void AstTyper::VisitUnaryOperation(UnaryOperation* expr) {
// Collect type feedback.
if (expr->op() == Token::NOT) {
// TODO(rossberg): only do in test or value context.
expr->expression()->RecordToBooleanTypeFeedback(oracle());
}
RECURSE(Visit(expr->expression()));
switch (expr->op()) {
case Token::NOT:
case Token::DELETE:
NarrowType(expr, AstBounds(AstType::Boolean()));
break;
case Token::VOID:
NarrowType(expr, AstBounds(AstType::Undefined()));
break;
case Token::TYPEOF:
NarrowType(expr, AstBounds(AstType::InternalizedString()));
break;
default:
UNREACHABLE();
}
}
void AstTyper::VisitCountOperation(CountOperation* expr) {
// Collect type feedback.
FeedbackSlot slot = expr->CountSlot();
KeyedAccessStoreMode store_mode;
IcCheckType key_type;
oracle()->GetStoreModeAndKeyType(slot, &store_mode, &key_type);
oracle()->CountReceiverTypes(slot, expr->GetReceiverTypes());
expr->set_store_mode(store_mode);
expr->set_key_type(key_type);
expr->set_type(oracle()->CountType(expr->CountBinOpFeedbackId(),
expr->CountBinaryOpFeedbackSlot()));
// TODO(rossberg): merge the count type with the generic expression type.
RECURSE(Visit(expr->expression()));
NarrowType(expr, AstBounds(AstType::SignedSmall(), AstType::Number()));
VariableProxy* proxy = expr->expression()->AsVariableProxy();
if (proxy != NULL && proxy->var()->IsStackAllocated()) {
store_.Seq(variable_index(proxy->var()), Effect(bounds_->get(expr)));
}
}
void AstTyper::VisitBinaryOperation(BinaryOperation* expr) {
// Collect type feedback.
AstType* type;
AstType* left_type;
AstType* right_type;
Maybe<int> fixed_right_arg = Nothing<int>();
Handle<AllocationSite> allocation_site;
oracle()->BinaryType(expr->BinaryOperationFeedbackId(),
expr->BinaryOperationFeedbackSlot(), &left_type,
&right_type, &type, &fixed_right_arg, &allocation_site,
expr->op());
NarrowLowerType(expr, type);
NarrowLowerType(expr->left(), left_type);
NarrowLowerType(expr->right(), right_type);
expr->set_allocation_site(allocation_site);
expr->set_fixed_right_arg(fixed_right_arg);
if (expr->op() == Token::OR || expr->op() == Token::AND) {
expr->left()->RecordToBooleanTypeFeedback(oracle());
}
switch (expr->op()) {
case Token::COMMA:
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
NarrowType(expr, bounds_->get(expr->right()));
break;
case Token::OR:
case Token::AND: {
Effects left_effects = EnterEffects();
RECURSE(Visit(expr->left()));
ExitEffects();
Effects right_effects = EnterEffects();
RECURSE(Visit(expr->right()));
ExitEffects();
left_effects.Alt(right_effects);
store_.Seq(left_effects);
NarrowType(expr, AstBounds::Either(bounds_->get(expr->left()),
bounds_->get(expr->right()), zone()));
break;
}
case Token::BIT_OR:
case Token::BIT_AND: {
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
AstType* upper =
AstType::Union(bounds_->get(expr->left()).upper,
bounds_->get(expr->right()).upper, zone());
if (!upper->Is(AstType::Signed32())) upper = AstType::Signed32();
AstType* lower =
AstType::Intersect(AstType::SignedSmall(), upper, zone());
NarrowType(expr, AstBounds(lower, upper));
break;
}
case Token::BIT_XOR:
case Token::SHL:
case Token::SAR:
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
NarrowType(expr, AstBounds(AstType::SignedSmall(), AstType::Signed32()));
break;
case Token::SHR:
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
// TODO(rossberg): The upper bound would be Unsigned32, but since there
// is no 'positive Smi' type for the lower bound, we use the smallest
// union of Smi and Unsigned32 as upper bound instead.
NarrowType(expr, AstBounds(AstType::SignedSmall(), AstType::Number()));
break;
case Token::ADD: {
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
AstBounds l = bounds_->get(expr->left());
AstBounds r = bounds_->get(expr->right());
AstType* lower =
!l.lower->IsInhabited() || !r.lower->IsInhabited()
? AstType::None()
: l.lower->Is(AstType::String()) || r.lower->Is(AstType::String())
? AstType::String()
: l.lower->Is(AstType::Number()) &&
r.lower->Is(AstType::Number())
? AstType::SignedSmall()
: AstType::None();
AstType* upper =
l.upper->Is(AstType::String()) || r.upper->Is(AstType::String())
? AstType::String()
: l.upper->Is(AstType::Number()) && r.upper->Is(AstType::Number())
? AstType::Number()
: AstType::NumberOrString();
NarrowType(expr, AstBounds(lower, upper));
break;
}
case Token::SUB:
case Token::MUL:
case Token::DIV:
case Token::MOD:
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
NarrowType(expr, AstBounds(AstType::SignedSmall(), AstType::Number()));
break;
default:
UNREACHABLE();
}
}
void AstTyper::VisitCompareOperation(CompareOperation* expr) {
// Collect type feedback.
AstType* left_type;
AstType* right_type;
AstType* combined_type;
oracle()->CompareType(expr->CompareOperationFeedbackId(),
expr->CompareOperationFeedbackSlot(), &left_type,
&right_type, &combined_type);
NarrowLowerType(expr->left(), left_type);
NarrowLowerType(expr->right(), right_type);
expr->set_combined_type(combined_type);
RECURSE(Visit(expr->left()));
RECURSE(Visit(expr->right()));
NarrowType(expr, AstBounds(AstType::Boolean()));
}
void AstTyper::VisitSpread(Spread* expr) { UNREACHABLE(); }
void AstTyper::VisitEmptyParentheses(EmptyParentheses* expr) {
UNREACHABLE();
}
void AstTyper::VisitGetIterator(GetIterator* expr) { UNREACHABLE(); }
void AstTyper::VisitThisFunction(ThisFunction* expr) {}
void AstTyper::VisitSuperPropertyReference(SuperPropertyReference* expr) {}
void AstTyper::VisitSuperCallReference(SuperCallReference* expr) {}
void AstTyper::VisitRewritableExpression(RewritableExpression* expr) {
Visit(expr->expression());
}
int AstTyper::variable_index(Variable* var) {
// Stack locals have the range [0 .. l]
// Parameters have the range [-1 .. p]
// We map this to [-p-2 .. -1, 0 .. l]
return var->IsStackLocal()
? stack_local_index(var->index())
: var->IsParameter() ? parameter_index(var->index()) : kNoVar;
}
void AstTyper::VisitDeclarations(Declaration::List* decls) {
for (Declaration* decl : *decls) {
RECURSE(Visit(decl));
}
}
void AstTyper::VisitVariableDeclaration(VariableDeclaration* declaration) {
}
void AstTyper::VisitFunctionDeclaration(FunctionDeclaration* declaration) {
RECURSE(Visit(declaration->fun()));
}
} // namespace internal
} // namespace v8