MIPS: Implement inlining of constructor calls.

Port r10849 (b0fe79c).

Also included: Fixed a bug in GenerateRecordCallTarget.

This bug prevented certain functions from being registered as Monomorphic
and thus prevented them from being inlined using the new system (b0fe79c).

BUG=
TEST=

Review URL: https://chromiumcodereview.appspot.com/9511002
Patch from Daniel Kalmar <kalmard@homejinni.com>.

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@10862 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This commit is contained in:
mstarzinger@chromium.org 2012-02-29 09:48:03 +00:00
parent 20f2c9b645
commit 66a94223db
5 changed files with 149 additions and 26 deletions

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@ -1008,6 +1008,11 @@ static void Generate_JSConstructStubHelper(MacroAssembler* masm,
NullCallWrapper(), CALL_AS_METHOD); NullCallWrapper(), CALL_AS_METHOD);
} }
// Store offset of return address for deoptimizer.
if (!is_api_function && !count_constructions) {
masm->isolate()->heap()->SetConstructStubDeoptPCOffset(masm->pc_offset());
}
// Restore context from the frame. // Restore context from the frame.
__ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset)); __ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));
@ -1777,7 +1782,9 @@ void Builtins::Generate_ArgumentsAdaptorTrampoline(MacroAssembler* masm) {
__ Call(a3); __ Call(a3);
// Store offset of return address for deoptimizer.
masm->isolate()->heap()->SetArgumentsAdaptorDeoptPCOffset(masm->pc_offset()); masm->isolate()->heap()->SetArgumentsAdaptorDeoptPCOffset(masm->pc_offset());
// Exit frame and return. // Exit frame and return.
LeaveArgumentsAdaptorFrame(masm); LeaveArgumentsAdaptorFrame(masm);
__ Ret(); __ Ret();

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@ -5363,16 +5363,18 @@ static void GenerateRecordCallTarget(MacroAssembler* masm) {
// A monomorphic miss (i.e, here the cache is not uninitialized) goes // A monomorphic miss (i.e, here the cache is not uninitialized) goes
// megamorphic. // megamorphic.
__ LoadRoot(at, Heap::kTheHoleValueRootIndex); __ LoadRoot(at, Heap::kTheHoleValueRootIndex);
__ Branch(&done, eq, a3, Operand(at));
__ Branch(USE_DELAY_SLOT, &done, eq, a3, Operand(at));
// An uninitialized cache is patched with the function.
// Store a1 in the delay slot. This may or may not get overwritten depending
// on the result of the comparison.
__ sw(a1, FieldMemOperand(a2, JSGlobalPropertyCell::kValueOffset));
// No need for a write barrier here - cells are rescanned.
// MegamorphicSentinel is an immortal immovable object (undefined) so no // MegamorphicSentinel is an immortal immovable object (undefined) so no
// write-barrier is needed. // write-barrier is needed.
__ LoadRoot(at, Heap::kUndefinedValueRootIndex); __ LoadRoot(at, Heap::kUndefinedValueRootIndex);
__ sw(at, FieldMemOperand(a2, JSGlobalPropertyCell::kValueOffset)); __ sw(at, FieldMemOperand(a2, JSGlobalPropertyCell::kValueOffset));
__ Branch(&done);
// An uninitialized cache is patched with the function.
__ sw(a1, FieldMemOperand(a2, JSGlobalPropertyCell::kValueOffset));
// No need for a write barrier here - cells are rescanned.
__ bind(&done); __ bind(&done);
} }

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@ -355,7 +355,6 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
} }
unsigned fixed_frame_size = ArgumentsAdaptorFrameConstants::kFrameSize; unsigned fixed_frame_size = ArgumentsAdaptorFrameConstants::kFrameSize;
unsigned input_frame_size = input_->GetFrameSize();
unsigned output_frame_size = height_in_bytes + fixed_frame_size; unsigned output_frame_size = height_in_bytes + fixed_frame_size;
// Allocate and store the output frame description. // Allocate and store the output frame description.
@ -377,16 +376,13 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
// Compute the incoming parameter translation. // Compute the incoming parameter translation.
int parameter_count = height; int parameter_count = height;
unsigned output_offset = output_frame_size; unsigned output_offset = output_frame_size;
unsigned input_offset = input_frame_size;
for (int i = 0; i < parameter_count; ++i) { for (int i = 0; i < parameter_count; ++i) {
output_offset -= kPointerSize; output_offset -= kPointerSize;
DoTranslateCommand(iterator, frame_index, output_offset); DoTranslateCommand(iterator, frame_index, output_offset);
} }
input_offset -= (parameter_count * kPointerSize);
// Read caller's PC from the previous frame. // Read caller's PC from the previous frame.
output_offset -= kPointerSize; output_offset -= kPointerSize;
input_offset -= kPointerSize;
intptr_t callers_pc = output_[frame_index - 1]->GetPc(); intptr_t callers_pc = output_[frame_index - 1]->GetPc();
output_frame->SetFrameSlot(output_offset, callers_pc); output_frame->SetFrameSlot(output_offset, callers_pc);
if (FLAG_trace_deopt) { if (FLAG_trace_deopt) {
@ -396,7 +392,6 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
// Read caller's FP from the previous frame, and set this frame's FP. // Read caller's FP from the previous frame, and set this frame's FP.
output_offset -= kPointerSize; output_offset -= kPointerSize;
input_offset -= kPointerSize;
intptr_t value = output_[frame_index - 1]->GetFp(); intptr_t value = output_[frame_index - 1]->GetFp();
output_frame->SetFrameSlot(output_offset, value); output_frame->SetFrameSlot(output_offset, value);
intptr_t fp_value = top_address + output_offset; intptr_t fp_value = top_address + output_offset;
@ -408,7 +403,6 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
// A marker value is used in place of the context. // A marker value is used in place of the context.
output_offset -= kPointerSize; output_offset -= kPointerSize;
input_offset -= kPointerSize;
intptr_t context = reinterpret_cast<intptr_t>( intptr_t context = reinterpret_cast<intptr_t>(
Smi::FromInt(StackFrame::ARGUMENTS_ADAPTOR)); Smi::FromInt(StackFrame::ARGUMENTS_ADAPTOR));
output_frame->SetFrameSlot(output_offset, context); output_frame->SetFrameSlot(output_offset, context);
@ -419,7 +413,6 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
// The function was mentioned explicitly in the ARGUMENTS_ADAPTOR_FRAME. // The function was mentioned explicitly in the ARGUMENTS_ADAPTOR_FRAME.
output_offset -= kPointerSize; output_offset -= kPointerSize;
input_offset -= kPointerSize;
value = reinterpret_cast<intptr_t>(function); value = reinterpret_cast<intptr_t>(function);
output_frame->SetFrameSlot(output_offset, value); output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) { if (FLAG_trace_deopt) {
@ -429,7 +422,6 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
// Number of incoming arguments. // Number of incoming arguments.
output_offset -= kPointerSize; output_offset -= kPointerSize;
input_offset -= kPointerSize;
value = reinterpret_cast<uint32_t>(Smi::FromInt(height - 1)); value = reinterpret_cast<uint32_t>(Smi::FromInt(height - 1));
output_frame->SetFrameSlot(output_offset, value); output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) { if (FLAG_trace_deopt) {
@ -449,6 +441,119 @@ void Deoptimizer::DoComputeArgumentsAdaptorFrame(TranslationIterator* iterator,
} }
void Deoptimizer::DoComputeConstructStubFrame(TranslationIterator* iterator,
int frame_index) {
JSFunction* function = JSFunction::cast(ComputeLiteral(iterator->Next()));
unsigned height = iterator->Next();
unsigned height_in_bytes = height * kPointerSize;
if (FLAG_trace_deopt) {
PrintF(" translating construct stub => height=%d\n", height_in_bytes);
}
unsigned fixed_frame_size = 7 * kPointerSize;
unsigned output_frame_size = height_in_bytes + fixed_frame_size;
// Allocate and store the output frame description.
FrameDescription* output_frame =
new(output_frame_size) FrameDescription(output_frame_size, function);
output_frame->SetFrameType(StackFrame::CONSTRUCT);
// Construct stub can not be topmost or bottommost.
ASSERT(frame_index > 0 && frame_index < output_count_ - 1);
ASSERT(output_[frame_index] == NULL);
output_[frame_index] = output_frame;
// The top address of the frame is computed from the previous
// frame's top and this frame's size.
uint32_t top_address;
top_address = output_[frame_index - 1]->GetTop() - output_frame_size;
output_frame->SetTop(top_address);
// Compute the incoming parameter translation.
int parameter_count = height;
unsigned output_offset = output_frame_size;
for (int i = 0; i < parameter_count; ++i) {
output_offset -= kPointerSize;
DoTranslateCommand(iterator, frame_index, output_offset);
}
// Read caller's PC from the previous frame.
output_offset -= kPointerSize;
intptr_t callers_pc = output_[frame_index - 1]->GetPc();
output_frame->SetFrameSlot(output_offset, callers_pc);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; caller's pc\n",
top_address + output_offset, output_offset, callers_pc);
}
// Read caller's FP from the previous frame, and set this frame's FP.
output_offset -= kPointerSize;
intptr_t value = output_[frame_index - 1]->GetFp();
output_frame->SetFrameSlot(output_offset, value);
intptr_t fp_value = top_address + output_offset;
output_frame->SetFp(fp_value);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; caller's fp\n",
fp_value, output_offset, value);
}
// The context can be gotten from the previous frame.
output_offset -= kPointerSize;
value = output_[frame_index - 1]->GetContext();
output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; context\n",
top_address + output_offset, output_offset, value);
}
// A marker value is used in place of the function.
output_offset -= kPointerSize;
value = reinterpret_cast<intptr_t>(Smi::FromInt(StackFrame::CONSTRUCT));
output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; function (construct sentinel)\n",
top_address + output_offset, output_offset, value);
}
// Number of incoming arguments.
output_offset -= kPointerSize;
value = reinterpret_cast<uint32_t>(Smi::FromInt(height - 1));
output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; argc (%d)\n",
top_address + output_offset, output_offset, value, height - 1);
}
// Constructor function being invoked by the stub.
output_offset -= kPointerSize;
value = reinterpret_cast<intptr_t>(function);
output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; constructor function\n",
top_address + output_offset, output_offset, value);
}
// The newly allocated object was passed as receiver in the artificial
// constructor stub environment created by HEnvironment::CopyForInlining().
output_offset -= kPointerSize;
value = output_frame->GetFrameSlot(output_frame_size - kPointerSize);
output_frame->SetFrameSlot(output_offset, value);
if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; allocated receiver\n",
top_address + output_offset, output_offset, value);
}
ASSERT(0 == output_offset);
Builtins* builtins = isolate_->builtins();
Code* construct_stub = builtins->builtin(Builtins::kJSConstructStubGeneric);
uint32_t pc = reinterpret_cast<uint32_t>(
construct_stub->instruction_start() +
isolate_->heap()->construct_stub_deopt_pc_offset()->value());
output_frame->SetPc(pc);
}
// This code is very similar to ia32/arm code, but relies on register names // This code is very similar to ia32/arm code, but relies on register names
// (fp, sp) and how the frame is laid out. // (fp, sp) and how the frame is laid out.
void Deoptimizer::DoComputeJSFrame(TranslationIterator* iterator, void Deoptimizer::DoComputeJSFrame(TranslationIterator* iterator,
@ -561,9 +666,8 @@ void Deoptimizer::DoComputeJSFrame(TranslationIterator* iterator,
value = reinterpret_cast<intptr_t>(function->context()); value = reinterpret_cast<intptr_t>(function->context());
} }
output_frame->SetFrameSlot(output_offset, value); output_frame->SetFrameSlot(output_offset, value);
if (is_topmost) { output_frame->SetContext(value);
output_frame->SetRegister(cp.code(), value); if (is_topmost) output_frame->SetRegister(cp.code(), value);
}
if (FLAG_trace_deopt) { if (FLAG_trace_deopt) {
PrintF(" 0x%08x: [top + %d] <- 0x%08x ; context\n", PrintF(" 0x%08x: [top + %d] <- 0x%08x ; context\n",
top_address + output_offset, output_offset, value); top_address + output_offset, output_offset, value);

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@ -447,10 +447,18 @@ void LCodeGen::WriteTranslation(LEnvironment* environment,
WriteTranslation(environment->outer(), translation); WriteTranslation(environment->outer(), translation);
int closure_id = DefineDeoptimizationLiteral(environment->closure()); int closure_id = DefineDeoptimizationLiteral(environment->closure());
if (environment->is_arguments_adaptor()) { switch (environment->frame_type()) {
translation->BeginArgumentsAdaptorFrame(closure_id, translation_size); case JS_FUNCTION:
} else { translation->BeginJSFrame(environment->ast_id(), closure_id, height);
translation->BeginJSFrame(environment->ast_id(), closure_id, height); break;
case JS_CONSTRUCT:
translation->BeginConstructStubFrame(closure_id, translation_size);
break;
case ARGUMENTS_ADAPTOR:
translation->BeginArgumentsAdaptorFrame(closure_id, translation_size);
break;
default:
UNREACHABLE();
} }
for (int i = 0; i < translation_size; ++i) { for (int i = 0; i < translation_size; ++i) {
LOperand* value = environment->values()->at(i); LOperand* value = environment->values()->at(i);
@ -580,7 +588,7 @@ void LCodeGen::RegisterEnvironmentForDeoptimization(LEnvironment* environment,
int jsframe_count = 0; int jsframe_count = 0;
for (LEnvironment* e = environment; e != NULL; e = e->outer()) { for (LEnvironment* e = environment; e != NULL; e = e->outer()) {
++frame_count; ++frame_count;
if (!e->is_arguments_adaptor()) { if (e->frame_type() == JS_FUNCTION) {
++jsframe_count; ++jsframe_count;
} }
} }

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@ -995,10 +995,11 @@ LEnvironment* LChunkBuilder::CreateEnvironment(
LEnvironment* outer = LEnvironment* outer =
CreateEnvironment(hydrogen_env->outer(), argument_index_accumulator); CreateEnvironment(hydrogen_env->outer(), argument_index_accumulator);
int ast_id = hydrogen_env->ast_id(); int ast_id = hydrogen_env->ast_id();
ASSERT(ast_id != AstNode::kNoNumber || hydrogen_env->is_arguments_adaptor()); ASSERT(ast_id != AstNode::kNoNumber ||
hydrogen_env->frame_type() != JS_FUNCTION);
int value_count = hydrogen_env->length(); int value_count = hydrogen_env->length();
LEnvironment* result = new LEnvironment(hydrogen_env->closure(), LEnvironment* result = new LEnvironment(hydrogen_env->closure(),
hydrogen_env->is_arguments_adaptor(), hydrogen_env->frame_type(),
ast_id, ast_id,
hydrogen_env->parameter_count(), hydrogen_env->parameter_count(),
argument_count_, argument_count_,
@ -1020,7 +1021,7 @@ LEnvironment* LChunkBuilder::CreateEnvironment(
result->AddValue(op, value->representation()); result->AddValue(op, value->representation());
} }
if (!hydrogen_env->is_arguments_adaptor()) { if (hydrogen_env->frame_type() == JS_FUNCTION) {
*argument_index_accumulator = argument_index; *argument_index_accumulator = argument_index;
} }
@ -2256,7 +2257,8 @@ LInstruction* LChunkBuilder::DoEnterInlined(HEnterInlined* instr) {
instr->arguments_count(), instr->arguments_count(),
instr->function(), instr->function(),
undefined, undefined,
instr->call_kind()); instr->call_kind(),
instr->is_construct());
current_block_->UpdateEnvironment(inner); current_block_->UpdateEnvironment(inner);
chunk_->AddInlinedClosure(instr->closure()); chunk_->AddInlinedClosure(instr->closure());
return NULL; return NULL;