Commit 4732c219 authored by klaasb's avatar klaasb Committed by Commit bot

[interpreter] Remove redundant code in ForInPrepare

ForInPrepare checked whether the receiver object was null, undefined or
converted to a JSObject. This is already done by the generated bytecode.

BUG=v8:4820
LOG=n

Review-Url: https://codereview.chromium.org/2208043002
Cr-Commit-Position: refs/heads/master@{#38394}
parent 3651bff0
......@@ -66,6 +66,7 @@ namespace internal {
V(kExpectedBooleanValue, "Expected boolean value") \
V(kExpectedFunctionObject, "Expected function object in register") \
V(kExpectedHeapNumber, "Expected HeapNumber") \
V(kExpectedJSReceiver, "Expected object to have receiver type") \
V(kExpectedNativeContext, "Expected native context") \
V(kExpectedNonIdenticalObjects, "Expected non-identical objects") \
V(kExpectedNonNullContext, "Expected non-null context") \
......
......@@ -1902,67 +1902,45 @@ void Interpreter::BuildForInPrepareResult(Node* output_register,
__ StoreRegister(cache_length, output_register);
}
// ForInPrepare <cache_info_triple>
// ForInPrepare <receiver> <cache_info_triple>
//
// Returns state for for..in loop execution based on the object in the
// accumulator. The result is output in registers |cache_info_triple| to
// Returns state for for..in loop execution based on the object in the register
// |receiver|. The object must not be null or undefined and must have been
// converted to a receiver already.
// The result is output in registers |cache_info_triple| to
// |cache_info_triple + 2|, with the registers holding cache_type, cache_array,
// and cache_length respectively.
void Interpreter::DoForInPrepare(InterpreterAssembler* assembler) {
Node* object_reg = __ BytecodeOperandReg(0);
Node* object = __ LoadRegister(object_reg);
Node* receiver = __ LoadRegister(object_reg);
Node* context = __ GetContext();
Node* const zero_smi = __ SmiConstant(Smi::FromInt(0));
Label test_if_null(assembler), test_if_undefined(assembler),
nothing_to_iterate(assembler, Label::kDeferred),
convert_to_receiver(assembler, Label::kDeferred),
already_receiver(assembler), check_enum_cache(assembler);
Label nothing_to_iterate(assembler, Label::kDeferred),
use_enum_cache(assembler), use_runtime(assembler, Label::kDeferred);
Variable receiver(assembler, MachineRepresentation::kTagged);
// Test if object is already a receiver, no conversion necessary if so.
Node* instance_type = __ LoadInstanceType(object);
Node* first_receiver_type = __ Int32Constant(FIRST_JS_RECEIVER_TYPE);
__ BranchIfInt32GreaterThanOrEqual(instance_type, first_receiver_type,
&already_receiver, &test_if_null);
__ Bind(&test_if_null);
{
__ BranchIfWordEqual(object, assembler->NullConstant(), &nothing_to_iterate,
&test_if_undefined);
}
__ Bind(&test_if_undefined);
{
__ BranchIfWordEqual(object, assembler->UndefinedConstant(),
&nothing_to_iterate, &convert_to_receiver);
}
__ Bind(&convert_to_receiver);
{
Callable callable = CodeFactory::ToObject(assembler->isolate());
Node* target = __ HeapConstant(callable.code());
Node* result = __ CallStub(callable.descriptor(), target, context, object);
receiver.Bind(result);
__ Goto(&check_enum_cache);
}
__ Bind(&already_receiver);
{
receiver.Bind(object);
__ Goto(&check_enum_cache);
if (FLAG_debug_code) {
Label already_receiver(assembler), abort(assembler);
Node* instance_type = __ LoadInstanceType(receiver);
Node* first_receiver_type = __ Int32Constant(FIRST_JS_RECEIVER_TYPE);
__ BranchIfInt32GreaterThanOrEqual(instance_type, first_receiver_type,
&already_receiver, &abort);
__ Bind(&abort);
{
__ Abort(kExpectedJSReceiver);
// TODO(klaasb) remove this unreachable Goto once Abort ends the block
__ Goto(&already_receiver);
}
__ Bind(&already_receiver);
}
Label use_enum_cache(assembler), use_runtime(assembler, Label::kDeferred);
__ Bind(&check_enum_cache);
{ __ CheckEnumCache(receiver.value(), &use_enum_cache, &use_runtime); }
__ CheckEnumCache(receiver, &use_enum_cache, &use_runtime);
__ Bind(&use_enum_cache);
{
// The enum cache is valid. Load the map of the object being
// iterated over and use the cache for the iteration.
Node* cache_type = __ LoadMap(receiver.value());
Node* cache_type = __ LoadMap(receiver);
Node* cache_length = __ EnumLength(cache_type);
__ GotoIf(assembler->WordEqual(cache_length, zero_smi),
&nothing_to_iterate);
......@@ -1980,7 +1958,7 @@ void Interpreter::DoForInPrepare(InterpreterAssembler* assembler) {
__ Bind(&use_runtime);
{
Node* result_triple =
__ CallRuntime(Runtime::kForInPrepare, context, object);
__ CallRuntime(Runtime::kForInPrepare, context, receiver);
Node* cache_type = __ Projection(0, result_triple);
Node* cache_array = __ Projection(1, result_triple);
Node* cache_length = __ Projection(2, result_triple);
......
......@@ -24,7 +24,7 @@ bytecodes: [
B(LdaZero),
B(TestEqualStrict), R(1),
B(JumpIfTrue), U8(53),
B(LdaSmi), U8(75),
B(LdaSmi), U8(76),
B(Star), R(2),
B(CallRuntime), U16(Runtime::kAbort), R(2), U8(1),
B(CreateFunctionContext), U8(2),
......@@ -130,7 +130,7 @@ bytecodes: [
B(LdaSmi), U8(1),
B(TestEqualStrict), R(1),
B(JumpIfTrueConstant), U8(0),
B(LdaSmi), U8(75),
B(LdaSmi), U8(76),
B(Star), R(2),
B(CallRuntime), U16(Runtime::kAbort), R(2), U8(1),
B(CreateFunctionContext), U8(2),
......@@ -276,7 +276,7 @@ bytecodes: [
B(LdaSmi), U8(1),
B(TestEqualStrict), R(4),
B(JumpIfTrueConstant), U8(3),
B(LdaSmi), U8(75),
B(LdaSmi), U8(76),
B(Star), R(5),
B(CallRuntime), U16(Runtime::kAbort), R(5), U8(1),
B(CreateFunctionContext), U8(9),
......@@ -342,7 +342,7 @@ bytecodes: [
B(LdaSmi), U8(1),
B(TestEqualStrict), R(4),
B(JumpIfTrueConstant), U8(9),
B(LdaSmi), U8(75),
B(LdaSmi), U8(76),
B(Star), R(12),
B(CallRuntime), U16(Runtime::kAbort), R(12), U8(1),
/* 27 S> */ B(LdrContextSlot), R(1), U8(7), R(14),
......
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