X87: The IC exposes a register definition.

port r22011

original commit message:
  Centralize a register definition in an IC that provides:
  1) symbolic names for the register (like, edx == receiver)
  2) defines ordering when passed on the stack

  Code that implements or uses the IC should use this definition instead of "knowing" what the registers are. Or at least have the definition to validate it's assumptions.

  As a side effect of avoiding runtime static initializers (enforced by tools/check-static-initializers.sh, neat), I gave ownership of the registers array to CodeStubInterfaceDescriptor. This prompted a cleanup of that struct

BUG=
R=weiliang.lin@intel.com

Review URL: https://codereview.chromium.org/358773002

Patch from Chunyang Dai <chunyang.dai@intel.com>.

git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22028 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This commit is contained in:
weiliang.lin@intel.com 2014-06-26 05:43:16 +00:00
parent 8313c523b3
commit 8ff53a8d62
4 changed files with 130 additions and 170 deletions

View File

@ -21,169 +21,120 @@ namespace internal {
void FastNewClosureStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { ebx };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kNewClosureFromStubFailure)->entry;
Register registers[] = { ebx };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(Runtime::kNewClosureFromStubFailure)->entry);
}
void FastNewContextStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edi };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
Register registers[] = { edi };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void ToNumberStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
Register registers[] = { eax };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void NumberToStringStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kNumberToStringRT)->entry;
Register registers[] = { eax };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(Runtime::kNumberToStringRT)->entry);
}
void FastCloneShallowArrayStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax, ebx, ecx };
descriptor->register_param_count_ = 3;
descriptor->register_params_ = registers;
static Representation representations[] = {
Representation::Tagged(),
Representation::Smi(),
Representation::Tagged() };
descriptor->register_param_representations_ = representations;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kCreateArrayLiteralStubBailout)->entry;
Register registers[] = { eax, ebx, ecx };
Representation representations[] = {
Representation::Tagged(),
Representation::Smi(),
Representation::Tagged() };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(
Runtime::kCreateArrayLiteralStubBailout)->entry,
representations);
}
void FastCloneShallowObjectStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax, ebx, ecx, edx };
descriptor->register_param_count_ = 4;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kCreateObjectLiteral)->entry;
Register registers[] = { eax, ebx, ecx, edx };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(Runtime::kCreateObjectLiteral)->entry);
}
void CreateAllocationSiteStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { ebx, edx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
}
void KeyedLoadFastElementStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(KeyedLoadIC_MissFromStubFailure);
}
void KeyedLoadDictionaryElementStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(KeyedLoadIC_MissFromStubFailure);
Register registers[] = { ebx, edx };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void RegExpConstructResultStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { ecx, ebx, eax };
descriptor->register_param_count_ = 3;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kRegExpConstructResult)->entry;
}
void KeyedLoadGenericElementStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kKeyedGetProperty)->entry;
Register registers[] = { ecx, ebx, eax };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(Runtime::kRegExpConstructResult)->entry);
}
void LoadFieldStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
Register registers[] = { edx };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void KeyedLoadFieldStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
Register registers[] = { edx };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void StringLengthStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
Register registers[] = { edx, ecx };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void KeyedStringLengthStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = NULL;
Register registers[] = { edx, ecx };
descriptor->Initialize(ARRAY_SIZE(registers), registers);
}
void KeyedStoreFastElementStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx, eax };
descriptor->register_param_count_ = 3;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(KeyedStoreIC_MissFromStubFailure);
Register registers[] = { edx, ecx, eax };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(KeyedStoreIC_MissFromStubFailure));
}
void TransitionElementsKindStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax, ebx };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kTransitionElementsKind)->entry;
Register registers[] = { eax, ebx };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(Runtime::kTransitionElementsKind)->entry);
}
@ -195,29 +146,31 @@ static void InitializeArrayConstructorDescriptor(
// eax -- number of arguments
// edi -- function
// ebx -- allocation site with elements kind
static Register registers_variable_args[] = { edi, ebx, eax };
static Register registers_no_args[] = { edi, ebx };
Address deopt_handler = Runtime::FunctionForId(
Runtime::kArrayConstructor)->entry;
if (constant_stack_parameter_count == 0) {
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers_no_args;
Register registers[] = { edi, ebx };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
deopt_handler,
NULL,
constant_stack_parameter_count,
JS_FUNCTION_STUB_MODE);
} else {
// stack param count needs (constructor pointer, and single argument)
descriptor->handler_arguments_mode_ = PASS_ARGUMENTS;
descriptor->stack_parameter_count_ = eax;
descriptor->register_param_count_ = 3;
descriptor->register_params_ = registers_variable_args;
static Representation representations[] = {
Register registers[] = { edi, ebx, eax };
Representation representations[] = {
Representation::Tagged(),
Representation::Tagged(),
Representation::Integer32() };
descriptor->register_param_representations_ = representations;
descriptor->Initialize(ARRAY_SIZE(registers), registers,
eax,
deopt_handler,
representations,
constant_stack_parameter_count,
JS_FUNCTION_STUB_MODE,
PASS_ARGUMENTS);
}
descriptor->hint_stack_parameter_count_ = constant_stack_parameter_count;
descriptor->function_mode_ = JS_FUNCTION_STUB_MODE;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kArrayConstructor)->entry;
}
@ -227,28 +180,30 @@ static void InitializeInternalArrayConstructorDescriptor(
// register state
// eax -- number of arguments
// edi -- constructor function
static Register registers_variable_args[] = { edi, eax };
static Register registers_no_args[] = { edi };
Address deopt_handler = Runtime::FunctionForId(
Runtime::kInternalArrayConstructor)->entry;
if (constant_stack_parameter_count == 0) {
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers_no_args;
Register registers[] = { edi };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
deopt_handler,
NULL,
constant_stack_parameter_count,
JS_FUNCTION_STUB_MODE);
} else {
// stack param count needs (constructor pointer, and single argument)
descriptor->handler_arguments_mode_ = PASS_ARGUMENTS;
descriptor->stack_parameter_count_ = eax;
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers_variable_args;
static Representation representations[] = {
Register registers[] = { edi, eax };
Representation representations[] = {
Representation::Tagged(),
Representation::Integer32() };
descriptor->register_param_representations_ = representations;
descriptor->Initialize(ARRAY_SIZE(registers), registers,
eax,
deopt_handler,
representations,
constant_stack_parameter_count,
JS_FUNCTION_STUB_MODE,
PASS_ARGUMENTS);
}
descriptor->hint_stack_parameter_count_ = constant_stack_parameter_count;
descriptor->function_mode_ = JS_FUNCTION_STUB_MODE;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kInternalArrayConstructor)->entry;
}
@ -290,22 +245,18 @@ void InternalArrayNArgumentsConstructorStub::InitializeInterfaceDescriptor(
void CompareNilICStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(CompareNilIC_Miss);
Register registers[] = { eax };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(CompareNilIC_Miss));
descriptor->SetMissHandler(
ExternalReference(IC_Utility(IC::kCompareNilIC_Miss), isolate()));
}
void ToBooleanStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax };
descriptor->register_param_count_ = 1;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(ToBooleanIC_Miss);
Register registers[] = { eax };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(ToBooleanIC_Miss));
descriptor->SetMissHandler(
ExternalReference(IC_Utility(IC::kToBooleanIC_Miss), isolate()));
}
@ -313,30 +264,25 @@ void ToBooleanStub::InitializeInterfaceDescriptor(
void StoreGlobalStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, ecx, eax };
descriptor->register_param_count_ = 3;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(StoreIC_MissFromStubFailure);
Register registers[] = { edx, ecx, eax };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(StoreIC_MissFromStubFailure));
}
void ElementsTransitionAndStoreStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { eax, ebx, ecx, edx };
descriptor->register_param_count_ = 4;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(ElementsTransitionAndStoreIC_Miss);
Register registers[] = { eax, ebx, ecx, edx };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(ElementsTransitionAndStoreIC_Miss));
}
void BinaryOpICStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, eax };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ = FUNCTION_ADDR(BinaryOpIC_Miss);
Register registers[] = { edx, eax };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(BinaryOpIC_Miss));
descriptor->SetMissHandler(
ExternalReference(IC_Utility(IC::kBinaryOpIC_Miss), isolate()));
}
@ -344,21 +290,18 @@ void BinaryOpICStub::InitializeInterfaceDescriptor(
void BinaryOpWithAllocationSiteStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { ecx, edx, eax };
descriptor->register_param_count_ = 3;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
FUNCTION_ADDR(BinaryOpIC_MissWithAllocationSite);
Register registers[] = { ecx, edx, eax };
descriptor->Initialize(ARRAY_SIZE(registers), registers,
FUNCTION_ADDR(BinaryOpIC_MissWithAllocationSite));
}
void StringAddStub::InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) {
static Register registers[] = { edx, eax };
descriptor->register_param_count_ = 2;
descriptor->register_params_ = registers;
descriptor->deoptimization_handler_ =
Runtime::FunctionForId(Runtime::kStringAdd)->entry;
Register registers[] = { edx, eax };
descriptor->Initialize(
ARRAY_SIZE(registers), registers,
Runtime::FunctionForId(Runtime::kStringAdd)->entry);
}
@ -454,18 +397,18 @@ void HydrogenCodeStub::GenerateLightweightMiss(MacroAssembler* masm) {
isolate()->counters()->code_stubs()->Increment();
CodeStubInterfaceDescriptor* descriptor = GetInterfaceDescriptor();
int param_count = descriptor->register_param_count_;
int param_count = descriptor->register_param_count();
{
// Call the runtime system in a fresh internal frame.
FrameScope scope(masm, StackFrame::INTERNAL);
ASSERT(descriptor->register_param_count_ == 0 ||
eax.is(descriptor->register_params_[param_count - 1]));
ASSERT(descriptor->register_param_count() == 0 ||
eax.is(descriptor->GetParameterRegister(param_count - 1)));
// Push arguments
for (int i = 0; i < param_count; ++i) {
__ push(descriptor->register_params_[i]);
__ push(descriptor->GetParameterRegister(i));
}
ExternalReference miss = descriptor->miss_handler();
__ CallExternalReference(miss, descriptor->register_param_count_);
__ CallExternalReference(miss, descriptor->register_param_count());
}
__ ret(0);

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@ -199,7 +199,7 @@ void Deoptimizer::FillInputFrame(Address tos, JavaScriptFrame* frame) {
void Deoptimizer::SetPlatformCompiledStubRegisters(
FrameDescription* output_frame, CodeStubInterfaceDescriptor* descriptor) {
intptr_t handler =
reinterpret_cast<intptr_t>(descriptor->deoptimization_handler_);
reinterpret_cast<intptr_t>(descriptor->deoptimization_handler());
int params = descriptor->GetHandlerParameterCount();
output_frame->SetRegister(eax.code(), params);
output_frame->SetRegister(ebx.code(), handler);

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@ -1025,6 +1025,19 @@ void KeyedLoadIC::GenerateMiss(MacroAssembler* masm) {
}
// IC register specifications
const Register LoadIC::ReceiverRegister() { return edx; }
const Register LoadIC::NameRegister() { return ecx; }
const Register KeyedLoadIC::ReceiverRegister() {
return LoadIC::ReceiverRegister();
}
const Register KeyedLoadIC::NameRegister() { return LoadIC::NameRegister(); }
void KeyedLoadIC::GenerateRuntimeGetProperty(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- ecx : key

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@ -1282,14 +1282,18 @@ Handle<Code> LoadStubCompiler::CompileLoadNonexistent(Handle<HeapType> type,
Register* LoadStubCompiler::registers() {
// receiver, name, scratch1, scratch2, scratch3, scratch4.
static Register registers[] = { edx, ecx, ebx, eax, edi, no_reg };
Register receiver = LoadIC::ReceiverRegister();
Register name = LoadIC::NameRegister();
static Register registers[] = { receiver, name, ebx, eax, edi, no_reg };
return registers;
}
Register* KeyedLoadStubCompiler::registers() {
// receiver, name, scratch1, scratch2, scratch3, scratch4.
static Register registers[] = { edx, ecx, ebx, eax, edi, no_reg };
Register receiver = KeyedLoadIC::ReceiverRegister();
Register name = KeyedLoadIC::NameRegister();
static Register registers[] = { receiver, name, ebx, eax, edi, no_reg };
return registers;
}