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Commit dbe99e40 authored by fschneider@chromium.org's avatar fschneider@chromium.org
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Introduce number type information in the virtual frame. 

Each frame element gets a new attribute with number type information. A frame element can be: 

- smi 
- heap number 
- number (i.e. either of the above) 
- or something else. 

The type information is propagated along with all virtual frame operations. 
Results popped from the frame carry the number information with them.

Two optimizations in the code generator make use of the new 
information: 
- GenericBinaryOpSyub omits map checks if input operands are numbers. 
- Boolean conversion for numbers: Emit inline code for converting a number (smi or heap number) to boolean. Do not emit call to ToBoolean stub in this case.


Review URL: http://codereview.chromium.org/545007

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@3861 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent d3ce4347
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Showing with 663 additions and 172 deletions
src/frame-element.cc
View file @ dbe99e40
......@@ -35,6 +35,17 @@ namespace internal {
// -------------------------------------------------------------------------
// FrameElement implementation.
NumberInfo::Type FrameElement::number_info() {
// Copied elements do not have number info. Instead
// we have to inspect their backing element in the frame.
ASSERT(!is_copy());
if (!is_constant()) return NumberInfoField::decode(value_);
Handle<Object> value = handle();
if (value->IsSmi()) return NumberInfo::kSmi;
if (value->IsHeapNumber()) return NumberInfo::kHeapNumber;
return NumberInfo::kUnknown;
}
FrameElement::ZoneObjectList* FrameElement::ConstantList() {
static ZoneObjectList list(10);
......
src/frame-element.h
View file @ dbe99e40
......@@ -28,6 +28,7 @@
#ifndef V8_FRAME_ELEMENT_H_
#define V8_FRAME_ELEMENT_H_
#include "number-info.h"
#include "macro-assembler.h"
namespace v8 {
......@@ -52,11 +53,18 @@ class FrameElement BASE_EMBEDDED {
SYNCED
};
NumberInfo::Type number_info();
void set_number_info(NumberInfo::Type info) {
value_ = value_ & ~NumberInfoField::mask();
value_ = value_ | NumberInfoField::encode(info);
}
// The default constructor creates an invalid frame element.
FrameElement() {
value_ = TypeField::encode(INVALID)
| CopiedField::encode(false)
| SyncedField::encode(false)
| NumberInfoField::encode(NumberInfo::kUninitialized)
| DataField::encode(0);
}
......@@ -67,15 +75,16 @@ class FrameElement BASE_EMBEDDED {
}
// Factory function to construct an in-memory frame element.
static FrameElement MemoryElement() {
FrameElement result(MEMORY, no_reg, SYNCED);
static FrameElement MemoryElement(NumberInfo::Type info) {
FrameElement result(MEMORY, no_reg, SYNCED, info);
return result;
}
// Factory function to construct an in-register frame element.
static FrameElement RegisterElement(Register reg,
SyncFlag is_synced) {
return FrameElement(REGISTER, reg, is_synced);
SyncFlag is_synced,
NumberInfo::Type info) {
return FrameElement(REGISTER, reg, is_synced, info);
}
// Factory function to construct a frame element whose value is known at
......@@ -185,10 +194,14 @@ class FrameElement BASE_EMBEDDED {
};
// Used to construct memory and register elements.
FrameElement(Type type, Register reg, SyncFlag is_synced) {
FrameElement(Type type,
Register reg,
SyncFlag is_synced,
NumberInfo::Type info) {
value_ = TypeField::encode(type)
| CopiedField::encode(false)
| SyncedField::encode(is_synced != NOT_SYNCED)
| NumberInfoField::encode(info)
| DataField::encode(reg.code_ > 0 ? reg.code_ : 0);
}
......@@ -197,6 +210,7 @@ class FrameElement BASE_EMBEDDED {
value_ = TypeField::encode(CONSTANT)
| CopiedField::encode(false)
| SyncedField::encode(is_synced != NOT_SYNCED)
| NumberInfoField::encode(NumberInfo::kUninitialized)
| DataField::encode(ConstantList()->length());
ConstantList()->Add(value);
}
......@@ -223,9 +237,10 @@ class FrameElement BASE_EMBEDDED {
uint32_t value_;
class TypeField: public BitField<Type, 0, 3> {};
class CopiedField: public BitField<uint32_t, 3, 1> {};
class SyncedField: public BitField<uint32_t, 4, 1> {};
class DataField: public BitField<uint32_t, 5, 32 - 6> {};
class CopiedField: public BitField<bool, 3, 1> {};
class SyncedField: public BitField<bool, 4, 1> {};
class NumberInfoField: public BitField<NumberInfo::Type, 5, 3> {};
class DataField: public BitField<uint32_t, 8, 32 - 9> {};
friend class VirtualFrame;
};
......
src/ia32/codegen-ia32.cc
View file @ dbe99e40
This diff is collapsed.
src/ia32/codegen-ia32.h
View file @ dbe99e40
......@@ -658,13 +658,15 @@ class GenericBinaryOpStub: public CodeStub {
public:
GenericBinaryOpStub(Token::Value op,
OverwriteMode mode,
GenericBinaryFlags flags)
GenericBinaryFlags flags,
bool only_numbers = false)
: op_(op),
mode_(mode),
flags_(flags),
args_in_registers_(false),
args_reversed_(false),
name_(NULL) {
name_(NULL),
only_numbers_in_stub_(only_numbers) {
use_sse3_ = CpuFeatures::IsSupported(SSE3);
ASSERT(OpBits::is_valid(Token::NUM_TOKENS));
}
......@@ -689,28 +691,32 @@ class GenericBinaryOpStub: public CodeStub {
bool args_reversed_; // Left and right argument are swapped.
bool use_sse3_;
char* name_;
bool only_numbers_in_stub_; // Arguments are only numbers.
const char* GetName();
#ifdef DEBUG
void Print() {
PrintF("GenericBinaryOpStub (op %s), "
"(mode %d, flags %d, registers %d, reversed %d)\n",
PrintF("GenericBinaryOpStub %d (op %s), "
"(mode %d, flags %d, registers %d, reversed %d, only_numbers %d)\n",
MinorKey(),
Token::String(op_),
static_cast<int>(mode_),
static_cast<int>(flags_),
static_cast<int>(args_in_registers_),
static_cast<int>(args_reversed_));
static_cast<int>(args_reversed_),
static_cast<int>(only_numbers_in_stub_));
}
#endif
// Minor key encoding in 16 bits FRASOOOOOOOOOOMM.
// Minor key encoding in 16 bits NFRASOOOOOOOOOMM.
class ModeBits: public BitField<OverwriteMode, 0, 2> {};
class OpBits: public BitField<Token::Value, 2, 10> {};
class SSE3Bits: public BitField<bool, 12, 1> {};
class ArgsInRegistersBits: public BitField<bool, 13, 1> {};
class ArgsReversedBits: public BitField<bool, 14, 1> {};
class FlagBits: public BitField<GenericBinaryFlags, 15, 1> {};
class OpBits: public BitField<Token::Value, 2, 9> {};
class SSE3Bits: public BitField<bool, 11, 1> {};
class ArgsInRegistersBits: public BitField<bool, 12, 1> {};
class ArgsReversedBits: public BitField<bool, 13, 1> {};
class FlagBits: public BitField<GenericBinaryFlags, 14, 1> {};
class OnlyNumbersBits: public BitField<bool, 15, 1> {};
Major MajorKey() { return GenericBinaryOp; }
int MinorKey() {
......@@ -720,7 +726,8 @@ class GenericBinaryOpStub: public CodeStub {
| FlagBits::encode(flags_)
| SSE3Bits::encode(use_sse3_)
| ArgsInRegistersBits::encode(args_in_registers_)
| ArgsReversedBits::encode(args_reversed_);
| ArgsReversedBits::encode(args_reversed_)
| OnlyNumbersBits::encode(only_numbers_in_stub_);
}
void Generate(MacroAssembler* masm);
......
src/ia32/macro-assembler-ia32.cc
View file @ dbe99e40
......@@ -383,6 +383,17 @@ void MacroAssembler::FCmp() {
}
void MacroAssembler::AbortIfNotNumber(Register object, const char* msg) {
Label ok;
test(object, Immediate(kSmiTagMask));
j(zero, &ok);
cmp(FieldOperand(object, HeapObject::kMapOffset),
Factory::heap_number_map());
Assert(equal, msg);
bind(&ok);
}
void MacroAssembler::EnterFrame(StackFrame::Type type) {
push(ebp);
mov(ebp, Operand(esp));
......
src/ia32/macro-assembler-ia32.h
View file @ dbe99e40
......@@ -176,6 +176,9 @@ class MacroAssembler: public Assembler {
sar(reg, kSmiTagSize);
}
// Abort execution if argument is not a number. Used in debug code.
void AbortIfNotNumber(Register object, const char* msg);
// ---------------------------------------------------------------------------
// Exception handling
......
src/ia32/virtual-frame-ia32.cc
View file @ dbe99e40
......@@ -45,7 +45,7 @@ VirtualFrame::VirtualFrame()
: elements_(parameter_count() + local_count() + kPreallocatedElements),
stack_pointer_(parameter_count() + 1) { // 0-based index of TOS.
for (int i = 0; i <= stack_pointer_; i++) {
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(NumberInfo::kUnknown));
}
for (int i = 0; i < RegisterAllocator::kNumRegisters; i++) {
register_locations_[i] = kIllegalIndex;
......@@ -173,10 +173,12 @@ void VirtualFrame::MakeMergable() {
for (int i = 0; i < element_count(); i++) {
FrameElement element = elements_[i];
// All number type information is reset to unknown for a mergable frame
// because of incoming back edges.
if (element.is_constant() || element.is_copy()) {
if (element.is_synced()) {
// Just spill.
elements_[i] = FrameElement::MemoryElement();
elements_[i] = FrameElement::MemoryElement(NumberInfo::kUnknown);
} else {
// Allocate to a register.
FrameElement backing_element; // Invalid if not a copy.
......@@ -187,7 +189,8 @@ void VirtualFrame::MakeMergable() {
ASSERT(fresh.is_valid()); // A register was spilled if all were in use.
elements_[i] =
FrameElement::RegisterElement(fresh.reg(),
FrameElement::NOT_SYNCED);
FrameElement::NOT_SYNCED,
NumberInfo::kUnknown);
Use(fresh.reg(), i);
// Emit a move.
......@@ -220,6 +223,7 @@ void VirtualFrame::MakeMergable() {
// The copy flag is not relied on before the end of this loop,
// including when registers are spilled.
elements_[i].clear_copied();
elements_[i].set_number_info(NumberInfo::kUnknown);
}
}
}
......@@ -607,10 +611,14 @@ int VirtualFrame::InvalidateFrameSlotAt(int index) {
// Set the new backing element.
if (elements_[new_backing_index].is_synced()) {
elements_[new_backing_index] =
FrameElement::RegisterElement(backing_reg, FrameElement::SYNCED);
FrameElement::RegisterElement(backing_reg,
FrameElement::SYNCED,
original.number_info());
} else {
elements_[new_backing_index] =
FrameElement::RegisterElement(backing_reg, FrameElement::NOT_SYNCED);
FrameElement::RegisterElement(backing_reg,
FrameElement::NOT_SYNCED,
original.number_info());
}
// Update the other copies.
for (int i = new_backing_index + 1; i < element_count(); i++) {
......@@ -641,7 +649,8 @@ void VirtualFrame::TakeFrameSlotAt(int index) {
ASSERT(fresh.is_valid());
FrameElement new_element =
FrameElement::RegisterElement(fresh.reg(),
FrameElement::NOT_SYNCED);
FrameElement::NOT_SYNCED,
original.number_info());
Use(fresh.reg(), element_count());
elements_.Add(new_element);
__ mov(fresh.reg(), Operand(ebp, fp_relative(index)));
......@@ -1051,6 +1060,14 @@ Result VirtualFrame::Pop() {
int index = element_count();
ASSERT(element.is_valid());
// Get number type information of the result.
NumberInfo::Type info;
if (!element.is_copy()) {
info = element.number_info();
} else {
info = elements_[element.index()].number_info();
}
bool pop_needed = (stack_pointer_ == index);
if (pop_needed) {
stack_pointer_--;
......@@ -1058,6 +1075,7 @@ Result VirtualFrame::Pop() {
Result temp = cgen()->allocator()->Allocate();
ASSERT(temp.is_valid());
__ pop(temp.reg());
temp.set_number_info(info);
return temp;
}
......@@ -1085,14 +1103,16 @@ Result VirtualFrame::Pop() {
ASSERT(temp.is_valid());
Use(temp.reg(), index);
FrameElement new_element =
FrameElement::RegisterElement(temp.reg(), FrameElement::SYNCED);
FrameElement::RegisterElement(temp.reg(),
FrameElement::SYNCED,
element.number_info());
// Preserve the copy flag on the element.
if (element.is_copied()) new_element.set_copied();
elements_[index] = new_element;
__ mov(temp.reg(), Operand(ebp, fp_relative(index)));
return Result(temp.reg());
return Result(temp.reg(), info);
} else if (element.is_register()) {
return Result(element.reg());
return Result(element.reg(), info);
} else {
ASSERT(element.is_constant());
return Result(element.handle());
......@@ -1116,25 +1136,25 @@ void VirtualFrame::EmitPop(Operand operand) {
}
void VirtualFrame::EmitPush(Register reg) {
void VirtualFrame::EmitPush(Register reg, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ push(reg);
}
void VirtualFrame::EmitPush(Operand operand) {
void VirtualFrame::EmitPush(Operand operand, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ push(operand);
}
void VirtualFrame::EmitPush(Immediate immediate) {
void VirtualFrame::EmitPush(Immediate immediate, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ push(immediate);
}
......
src/ia32/virtual-frame-ia32.h
View file @ dbe99e40
......@@ -28,6 +28,7 @@
#ifndef V8_IA32_VIRTUAL_FRAME_IA32_H_
#define V8_IA32_VIRTUAL_FRAME_IA32_H_
#include "number-info.h"
#include "register-allocator.h"
#include "scopes.h"
......@@ -82,7 +83,8 @@ class VirtualFrame: public ZoneObject {
MacroAssembler* masm() { return cgen()->masm(); }
// Create a duplicate of an existing valid frame element.
FrameElement CopyElementAt(int index);
FrameElement CopyElementAt(int index,
NumberInfo::Type info = NumberInfo::kUninitialized);
// The number of elements on the virtual frame.
int element_count() { return elements_.length(); }
......@@ -385,12 +387,15 @@ class VirtualFrame: public ZoneObject {
// Push an element on top of the expression stack and emit a
// corresponding push instruction.
void EmitPush(Register reg);
void EmitPush(Operand operand);
void EmitPush(Immediate immediate);
void EmitPush(Register reg,
NumberInfo::Type info = NumberInfo::kUnknown);
void EmitPush(Operand operand,
NumberInfo::Type info = NumberInfo::kUnknown);
void EmitPush(Immediate immediate,
NumberInfo::Type info = NumberInfo::kUnknown);
// Push an element on the virtual frame.
void Push(Register reg);
void Push(Register reg, NumberInfo::Type info = NumberInfo::kUnknown);
void Push(Handle<Object> value);
void Push(Smi* value) {
Push(Handle<Object> (value));
......@@ -402,7 +407,7 @@ class VirtualFrame: public ZoneObject {
// This assert will trigger if you try to push the same value twice.
ASSERT(result->is_valid());
if (result->is_register()) {
Push(result->reg());
Push(result->reg(), result->number_info());
} else {
ASSERT(result->is_constant());
Push(result->handle());
......
src/jump-target-inl.h
View file @ dbe99e40
......@@ -42,6 +42,9 @@ void JumpTarget::InitializeEntryElement(int index, FrameElement* target) {
} else if (target->is_copy()) {
entry_frame_->elements_[target->index()].set_copied();
}
if (direction_ == BIDIRECTIONAL) {
entry_frame_->elements_[index].set_number_info(NumberInfo::kUnknown);
}
}
} } // namespace v8::internal
......
src/jump-target.cc
View file @ dbe99e40
......@@ -101,6 +101,17 @@ void JumpTarget::ComputeEntryFrame() {
if (element == NULL || !element->is_valid()) break;
element = element->Combine(&reaching_frames_[j]->elements_[i]);
FrameElement* other = &reaching_frames_[j]->elements_[i];
if (element != NULL && !element->is_copy()) {
ASSERT(other != NULL);
ASSERT(!other->is_copy());
// We overwrite the number information of one of the incoming frames.
// This is safe because we only use the frame for emitting merge code.
// The number information of incoming frames is not used anymore.
element->set_number_info(NumberInfo::Combine(element->number_info(),
other->number_info()));
}
}
elements[i] = element;
}
......@@ -117,6 +128,7 @@ void JumpTarget::ComputeEntryFrame() {
// elements as copied exactly when they have a copy. Undetermined
// elements are initially recorded as if in memory.
if (target != NULL) {
ASSERT(!target->is_copy()); // These initial elements are never copies.
entry_frame_->elements_[index] = *target;
InitializeEntryElement(index, target);
}
......@@ -125,7 +137,8 @@ void JumpTarget::ComputeEntryFrame() {
for (; index < length; index++) {
FrameElement* target = elements[index];
if (target == NULL) {
entry_frame_->elements_.Add(FrameElement::MemoryElement());
entry_frame_->elements_.Add(
FrameElement::MemoryElement(NumberInfo::kUninitialized));
} else {
entry_frame_->elements_.Add(*target);
InitializeEntryElement(index, target);
......@@ -142,9 +155,20 @@ void JumpTarget::ComputeEntryFrame() {
RegisterFile candidate_registers;
int best_count = kMinInt;
int best_reg_num = RegisterAllocator::kInvalidRegister;
NumberInfo::Type info = NumberInfo::kUninitialized;
for (int j = 0; j < reaching_frames_.length(); j++) {
FrameElement element = reaching_frames_[j]->elements_[i];
if (direction_ == BIDIRECTIONAL) {
info = NumberInfo::kUnknown;
} else if (!element.is_copy()) {
info = NumberInfo::Combine(info, element.number_info());
} else {
// New elements will not be copies, so get number information from
// backing element in the reaching frame.
info = NumberInfo::Combine(info,
reaching_frames_[j]->elements_[element.index()].number_info());
}
is_synced = is_synced && element.is_synced();
if (element.is_register() && !entry_frame_->is_used(element.reg())) {
// Count the register occurrence and remember it if better
......@@ -158,11 +182,17 @@ void JumpTarget::ComputeEntryFrame() {
}
}
// We must have a number type information now (not for copied elements).
ASSERT(entry_frame_->elements_[i].is_copy()
|| info != NumberInfo::kUninitialized);
// If the value is synced on all frames, put it in memory. This
// costs nothing at the merge code but will incur a
// memory-to-register move when the value is needed later.
if (is_synced) {
// Already recorded as a memory element.
// Set combined number info.
entry_frame_->elements_[i].set_number_info(info);
continue;
}
......@@ -183,13 +213,27 @@ void JumpTarget::ComputeEntryFrame() {
bool is_copied = entry_frame_->elements_[i].is_copied();
Register reg = RegisterAllocator::ToRegister(best_reg_num);
entry_frame_->elements_[i] =
FrameElement::RegisterElement(reg,
FrameElement::NOT_SYNCED);
FrameElement::RegisterElement(reg, FrameElement::NOT_SYNCED,
NumberInfo::kUninitialized);
if (is_copied) entry_frame_->elements_[i].set_copied();
entry_frame_->set_register_location(reg, i);
}
// Set combined number info.
entry_frame_->elements_[i].set_number_info(info);
}
}
// If we have incoming backward edges assert we forget all number information.
#ifdef DEBUG
if (direction_ == BIDIRECTIONAL) {
for (int i = 0; i < length; ++i) {
if (!entry_frame_->elements_[i].is_copy()) {
ASSERT(entry_frame_->elements_[i].number_info() ==
NumberInfo::kUnknown);
}
}
}
#endif
// The stack pointer is at the highest synced element or the base of
// the expression stack.
......
src/number-info.h 0 → 100644
View file @ dbe99e40
// Copyright 2010 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#ifndef V8_NUMBER_INFO_H_
#define V8_NUMBER_INFO_H_
namespace v8 {
namespace internal {
class NumberInfo : public AllStatic {
public:
enum Type {
kUnknown = 0,
kNumber = 1,
kSmi = 3,
kHeapNumber = 5,
kUninitialized = 7
};
// Return the weakest (least precise) common type.
static Type Combine(Type a, Type b) {
// Make use of the order of enum values.
return static_cast<Type>(a & b);
}
};
} } // namespace v8::internal
#endif // V8_NUMBER_INFO_H_
src/register-allocator.cc
View file @ dbe99e40
......@@ -37,10 +37,12 @@ namespace internal {
// Result implementation.
Result::Result(Register reg) {
Result::Result(Register reg, NumberInfo::Type info) {
ASSERT(reg.is_valid() && !RegisterAllocator::IsReserved(reg));
CodeGeneratorScope::Current()->allocator()->Use(reg);
value_ = TypeField::encode(REGISTER) | DataField::encode(reg.code_);
value_ = TypeField::encode(REGISTER)
| NumberInfoField::encode(info)
| DataField::encode(reg.code_);
}
......@@ -50,6 +52,23 @@ Result::ZoneObjectList* Result::ConstantList() {
}
NumberInfo::Type Result::number_info() {
ASSERT(is_valid());
if (!is_constant()) return NumberInfoField::decode(value_);
Handle<Object> value = handle();
if (value->IsSmi()) return NumberInfo::kSmi;
if (value->IsHeapNumber()) return NumberInfo::kHeapNumber;
return NumberInfo::kUnknown;
}
void Result::set_number_info(NumberInfo::Type info) {
ASSERT(is_valid());
value_ = value_ & ~NumberInfoField::mask();
value_ = value_ | NumberInfoField::encode(info);
}
// -------------------------------------------------------------------------
// RegisterAllocator implementation.
......
src/register-allocator.h
View file @ dbe99e40
......@@ -29,6 +29,7 @@
#define V8_REGISTER_ALLOCATOR_H_
#include "macro-assembler.h"
#include "number-info.h"
#if V8_TARGET_ARCH_IA32
#include "ia32/register-allocator-ia32.h"
......@@ -64,11 +65,12 @@ class Result BASE_EMBEDDED {
Result() { invalidate(); }
// Construct a register Result.
explicit Result(Register reg);
explicit Result(Register reg, NumberInfo::Type info = NumberInfo::kUnknown);
// Construct a Result whose value is a compile-time constant.
explicit Result(Handle<Object> value) {
value_ = TypeField::encode(CONSTANT)
| NumberInfoField::encode(NumberInfo::kUninitialized)
| DataField::encode(ConstantList()->length());
ConstantList()->Add(value);
}
......@@ -99,6 +101,14 @@ class Result BASE_EMBEDDED {
void invalidate() { value_ = TypeField::encode(INVALID); }
NumberInfo::Type number_info();
void set_number_info(NumberInfo::Type info);
bool is_number() {
return (number_info() & NumberInfo::kNumber) != 0;
}
bool is_smi() { return number_info() == NumberInfo::kSmi; }
bool is_heap_number() { return number_info() == NumberInfo::kHeapNumber; }
bool is_valid() const { return type() != INVALID; }
bool is_register() const { return type() == REGISTER; }
bool is_constant() const { return type() == CONSTANT; }
......@@ -130,7 +140,8 @@ class Result BASE_EMBEDDED {
uint32_t value_;
class TypeField: public BitField<Type, 0, 2> {};
class DataField: public BitField<uint32_t, 2, 32 - 3> {};
class NumberInfoField : public BitField<NumberInfo::Type, 2, 3> {};
class DataField: public BitField<uint32_t, 5, 32 - 6> {};
inline void CopyTo(Result* destination) const;
......
src/virtual-frame.cc
View file @ dbe99e40
......@@ -48,7 +48,13 @@ VirtualFrame::VirtualFrame(VirtualFrame* original)
}
FrameElement VirtualFrame::CopyElementAt(int index) {
// Create a duplicate of an existing valid frame element.
// We can pass an optional number type information that will override the
// existing information about the backing element. The new information must
// not conflict with the existing type information and must be equally or
// more precise. The default parameter value kUninitialized means that there
// is no additional information.
FrameElement VirtualFrame::CopyElementAt(int index, NumberInfo::Type info) {
ASSERT(index >= 0);
ASSERT(index < element_count());
......@@ -71,15 +77,26 @@ FrameElement VirtualFrame::CopyElementAt(int index) {
// Fall through.
case FrameElement::MEMORY: // Fall through.
case FrameElement::REGISTER:
case FrameElement::REGISTER: {
// All copies are backed by memory or register locations.
result.set_type(FrameElement::COPY);
result.clear_copied();
result.clear_sync();
result.set_index(index);
elements_[index].set_copied();
// Update backing element's number information.
NumberInfo::Type existing = elements_[index].number_info();
ASSERT(existing != NumberInfo::kUninitialized);
// Assert that the new type information (a) does not conflict with the
// existing one and (b) is equally or more precise.
ASSERT((info == NumberInfo::kUninitialized) ||
(existing | info) != NumberInfo::kUninitialized);
ASSERT(existing <= info);
elements_[index].set_number_info(info != NumberInfo::kUninitialized
? info
: existing);
break;
}
case FrameElement::INVALID:
// We should not try to copy invalid elements.
UNREACHABLE();
......@@ -98,7 +115,7 @@ void VirtualFrame::Adjust(int count) {
ASSERT(stack_pointer_ == element_count() - 1);
for (int i = 0; i < count; i++) {
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(NumberInfo::kUnknown));
}
stack_pointer_ += count;
}
......@@ -144,8 +161,16 @@ void VirtualFrame::SpillElementAt(int index) {
if (!elements_[index].is_valid()) return;
SyncElementAt(index);
// Number type information is preserved.
// Copies get their number information from their backing element.
NumberInfo::Type info;
if (!elements_[index].is_copy()) {
info = elements_[index].number_info();
} else {
info = elements_[elements_[index].index()].number_info();
}
// The element is now in memory. Its copied flag is preserved.
FrameElement new_element = FrameElement::MemoryElement();
FrameElement new_element = FrameElement::MemoryElement(info);
if (elements_[index].is_copied()) {
new_element.set_copied();
}
......@@ -268,7 +293,6 @@ void VirtualFrame::SetElementAt(int index, Result* value) {
InvalidateFrameSlotAt(frame_index);
FrameElement new_element;
if (value->is_register()) {
if (is_used(value->reg())) {
// The register already appears on the frame. Either the existing
......@@ -301,7 +325,8 @@ void VirtualFrame::SetElementAt(int index, Result* value) {
Use(value->reg(), frame_index);
elements_[frame_index] =
FrameElement::RegisterElement(value->reg(),
FrameElement::NOT_SYNCED);
FrameElement::NOT_SYNCED,
value->number_info());
}
} else {
ASSERT(value->is_constant());
......@@ -318,16 +343,15 @@ void VirtualFrame::PushFrameSlotAt(int index) {
}
void VirtualFrame::Push(Register reg) {
void VirtualFrame::Push(Register reg, NumberInfo::Type info) {
if (is_used(reg)) {
int index = register_location(reg);
FrameElement element = CopyElementAt(index);
FrameElement element = CopyElementAt(index, info);
elements_.Add(element);
} else {
Use(reg, element_count());
FrameElement element =
FrameElement::RegisterElement(reg,
FrameElement::NOT_SYNCED);
FrameElement::RegisterElement(reg, FrameElement::NOT_SYNCED, info);
elements_.Add(element);
}
}
......
src/x64/codegen-x64.cc
View file @ dbe99e40
......@@ -4261,34 +4261,52 @@ void CodeGenerator::ToBoolean(ControlDestination* dest) {
// The value to convert should be popped from the frame.
Result value = frame_->Pop();
value.ToRegister();
// Fast case checks.
// 'false' => false.
__ CompareRoot(value.reg(), Heap::kFalseValueRootIndex);
dest->false_target()->Branch(equal);
if (value.is_number()) {
Comment cmnt(masm_, "ONLY_NUMBER");
// Fast case if NumberInfo indicates only numbers.
if (FLAG_debug_code) {
__ AbortIfNotNumber(value.reg(), "ToBoolean operand is not a number.");
}
// Smi => false iff zero.
__ SmiCompare(value.reg(), Smi::FromInt(0));
dest->false_target()->Branch(equal);
Condition is_smi = masm_->CheckSmi(value.reg());
dest->true_target()->Branch(is_smi);
__ fldz();
__ fld_d(FieldOperand(value.reg(), HeapNumber::kValueOffset));
__ FCmp();
value.Unuse();
dest->Split(not_zero);
} else {
// Fast case checks.
// 'false' => false.
__ CompareRoot(value.reg(), Heap::kFalseValueRootIndex);
dest->false_target()->Branch(equal);
// 'true' => true.
__ CompareRoot(value.reg(), Heap::kTrueValueRootIndex);
dest->true_target()->Branch(equal);
// 'true' => true.
__ CompareRoot(value.reg(), Heap::kTrueValueRootIndex);
dest->true_target()->Branch(equal);
// 'undefined' => false.
__ CompareRoot(value.reg(), Heap::kUndefinedValueRootIndex);
dest->false_target()->Branch(equal);
// 'undefined' => false.
__ CompareRoot(value.reg(), Heap::kUndefinedValueRootIndex);
dest->false_target()->Branch(equal);
// Smi => false iff zero.
__ SmiCompare(value.reg(), Smi::FromInt(0));
dest->false_target()->Branch(equal);
Condition is_smi = masm_->CheckSmi(value.reg());
dest->true_target()->Branch(is_smi);
// Smi => false iff zero.
__ SmiCompare(value.reg(), Smi::FromInt(0));
dest->false_target()->Branch(equal);
Condition is_smi = masm_->CheckSmi(value.reg());
dest->true_target()->Branch(is_smi);
// Call the stub for all other cases.
frame_->Push(&value); // Undo the Pop() from above.
ToBooleanStub stub;
Result temp = frame_->CallStub(&stub, 1);
// Convert the result to a condition code.
__ testq(temp.reg(), temp.reg());
temp.Unuse();
dest->Split(not_equal);
// Call the stub for all other cases.
frame_->Push(&value); // Undo the Pop() from above.
ToBooleanStub stub;
Result temp = frame_->CallStub(&stub, 1);
// Convert the result to a condition code.
__ testq(temp.reg(), temp.reg());
temp.Unuse();
dest->Split(not_equal);
}
}
......@@ -5155,26 +5173,34 @@ void CodeGenerator::GenericBinaryOperation(Token::Value op,
// Neither operand is known to be a string.
}
bool left_is_smi = left.is_constant() && left.handle()->IsSmi();
bool left_is_non_smi = left.is_constant() && !left.handle()->IsSmi();
bool right_is_smi = right.is_constant() && right.handle()->IsSmi();
bool right_is_non_smi = right.is_constant() && !right.handle()->IsSmi();
bool left_is_smi_constant = left.is_constant() && left.handle()->IsSmi();
bool left_is_non_smi_constant = left.is_constant() && !left.handle()->IsSmi();
bool right_is_smi_constant = right.is_constant() && right.handle()->IsSmi();
bool right_is_non_smi_constant =
right.is_constant() && !right.handle()->IsSmi();
if (left_is_smi && right_is_smi) {
if (left_is_smi_constant && right_is_smi_constant) {
// Compute the constant result at compile time, and leave it on the frame.
int left_int = Smi::cast(*left.handle())->value();
int right_int = Smi::cast(*right.handle())->value();
if (FoldConstantSmis(op, left_int, right_int)) return;
}
// Get number type of left and right sub-expressions.
bool only_numbers = left.is_number() && right.is_number();
bool only_smis = left.is_smi() && right.is_smi();
Result answer;
if (left_is_non_smi || right_is_non_smi) {
GenericBinaryOpStub stub(op, overwrite_mode, NO_SMI_CODE_IN_STUB);
if (left_is_non_smi_constant || right_is_non_smi_constant) {
GenericBinaryOpStub stub(op,
overwrite_mode,
NO_SMI_CODE_IN_STUB,
only_numbers);
answer = stub.GenerateCall(masm_, frame_, &left, &right);
} else if (right_is_smi) {
} else if (right_is_smi_constant) {
answer = ConstantSmiBinaryOperation(op, &left, right.handle(),
type, false, overwrite_mode);
} else if (left_is_smi) {
} else if (left_is_smi_constant) {
answer = ConstantSmiBinaryOperation(op, &right, left.handle(),
type, true, overwrite_mode);
} else {
......@@ -5186,10 +5212,53 @@ void CodeGenerator::GenericBinaryOperation(Token::Value op,
if (loop_nesting() > 0 && (Token::IsBitOp(op) || type->IsLikelySmi())) {
answer = LikelySmiBinaryOperation(op, &left, &right, overwrite_mode);
} else {
GenericBinaryOpStub stub(op, overwrite_mode, NO_GENERIC_BINARY_FLAGS);
GenericBinaryOpStub stub(op,
overwrite_mode,
NO_GENERIC_BINARY_FLAGS,
only_numbers);
answer = stub.GenerateCall(masm_, frame_, &left, &right);
}
}
// Set NumberInfo of result according to the operation performed.
NumberInfo::Type info = NumberInfo::kUnknown;
switch (op) {
case Token::COMMA:
info = right.number_info();
break;
case Token::OR:
case Token::AND:
// Could be anything. Check inputs.
if (only_numbers)
info = NumberInfo::kNumber;
break;
case Token::BIT_OR:
case Token::BIT_XOR:
case Token::BIT_AND:
case Token::SAR:
case Token::SHR:
// TODO(fsc): Make use of the fact that smis are 32 bits on x64.
info = only_smis ? NumberInfo::kSmi : NumberInfo::kNumber;
break;
case Token::SHL:
info = NumberInfo::kNumber;
break;
case Token::ADD:
// Could be strings or numbers. Check types of inputs.
if (only_numbers) {
info = NumberInfo::kNumber;
}
break;
case Token::SUB:
case Token::MUL:
case Token::DIV:
case Token::MOD:
info = NumberInfo::kNumber;
break;
default:
UNREACHABLE();
}
answer.set_number_info(info);
frame_->Push(&answer);
}
......@@ -8078,13 +8147,14 @@ const char* GenericBinaryOpStub::GetName() {
}
OS::SNPrintF(Vector<char>(name_, len),
"GenericBinaryOpStub_%s_%s%s_%s%s_%s",
"GenericBinaryOpStub_%s_%s%s_%s%s_%s%s",
op_name,
overwrite_name,
(flags_ & NO_SMI_CODE_IN_STUB) ? "_NoSmiInStub" : "",
args_in_registers_ ? "RegArgs" : "StackArgs",
args_reversed_ ? "_R" : "",
use_sse3_ ? "SSE3" : "SSE2");
use_sse3_ ? "SSE3" : "SSE2",
only_numbers_in_stub_ ? "_OnlyNumbers" : "");
return name_;
}
......@@ -8408,7 +8478,15 @@ void GenericBinaryOpStub::Generate(MacroAssembler* masm) {
case Token::DIV: {
// rax: y
// rdx: x
FloatingPointHelper::CheckNumberOperands(masm, &call_runtime);
if (only_numbers_in_stub_) {
if (FLAG_debug_code) {
// Assert at runtime that inputs are only numbers.
__ AbortIfNotNumber(rdx, "GenericBinaryOpStub operand not a number.");
__ AbortIfNotNumber(rax, "GenericBinaryOpStub operand not a number.");
}
} else {
FloatingPointHelper::CheckNumberOperands(masm, &call_runtime);
}
// Fast-case: Both operands are numbers.
// xmm4 and xmm5 are volatile XMM registers.
FloatingPointHelper::LoadFloatOperands(masm, xmm4, xmm5);
......
src/x64/codegen-x64.h
View file @ dbe99e40
......@@ -655,13 +655,15 @@ class GenericBinaryOpStub: public CodeStub {
public:
GenericBinaryOpStub(Token::Value op,
OverwriteMode mode,
GenericBinaryFlags flags)
GenericBinaryFlags flags,
bool only_numbers = false)
: op_(op),
mode_(mode),
flags_(flags),
args_in_registers_(false),
args_reversed_(false),
name_(NULL) {
name_(NULL),
only_numbers_in_stub_(only_numbers) {
use_sse3_ = CpuFeatures::IsSupported(SSE3);
ASSERT(OpBits::is_valid(Token::NUM_TOKENS));
}
......@@ -686,28 +688,32 @@ class GenericBinaryOpStub: public CodeStub {
bool args_reversed_; // Left and right argument are swapped.
bool use_sse3_;
char* name_;
bool only_numbers_in_stub_;
const char* GetName();
#ifdef DEBUG
void Print() {
PrintF("GenericBinaryOpStub (op %s), "
"(mode %d, flags %d, registers %d, reversed %d)\n",
PrintF("GenericBinaryOpStub %d (op %s), "
"(mode %d, flags %d, registers %d, reversed %d, only_numbers %d)\n",
MinorKey(),
Token::String(op_),
static_cast<int>(mode_),
static_cast<int>(flags_),
static_cast<int>(args_in_registers_),
static_cast<int>(args_reversed_));
static_cast<int>(args_reversed_),
static_cast<int>(only_numbers_in_stub_));
}
#endif
// Minor key encoding in 16 bits FRASOOOOOOOOOOMM.
// Minor key encoding in 16 bits NFRASOOOOOOOOOMM.
class ModeBits: public BitField<OverwriteMode, 0, 2> {};
class OpBits: public BitField<Token::Value, 2, 10> {};
class SSE3Bits: public BitField<bool, 12, 1> {};
class ArgsInRegistersBits: public BitField<bool, 13, 1> {};
class ArgsReversedBits: public BitField<bool, 14, 1> {};
class FlagBits: public BitField<GenericBinaryFlags, 15, 1> {};
class OpBits: public BitField<Token::Value, 2, 9> {};
class SSE3Bits: public BitField<bool, 11, 1> {};
class ArgsInRegistersBits: public BitField<bool, 12, 1> {};
class ArgsReversedBits: public BitField<bool, 13, 1> {};
class FlagBits: public BitField<GenericBinaryFlags, 14, 1> {};
class OnlyNumberBits: public BitField<bool, 15, 1> {};
Major MajorKey() { return GenericBinaryOp; }
int MinorKey() {
......@@ -717,7 +723,8 @@ class GenericBinaryOpStub: public CodeStub {
| FlagBits::encode(flags_)
| SSE3Bits::encode(use_sse3_)
| ArgsInRegistersBits::encode(args_in_registers_)
| ArgsReversedBits::encode(args_reversed_);
| ArgsReversedBits::encode(args_reversed_)
| OnlyNumberBits::encode(only_numbers_in_stub_);
}
void Generate(MacroAssembler* masm);
......
src/x64/macro-assembler-x64.cc
View file @ dbe99e40
......@@ -1598,6 +1598,17 @@ void MacroAssembler::CheckMap(Register obj,
}
void MacroAssembler::AbortIfNotNumber(Register object, const char* msg) {
Label ok;
Condition is_smi = CheckSmi(object);
j(is_smi, &ok);
Cmp(FieldOperand(object, HeapObject::kMapOffset),
Factory::heap_number_map());
Assert(equal, msg);
bind(&ok);
}
Condition MacroAssembler::IsObjectStringType(Register heap_object,
Register map,
Register instance_type) {
......
src/x64/macro-assembler-x64.h
View file @ dbe99e40
......@@ -486,6 +486,9 @@ class MacroAssembler: public Assembler {
// jcc instructions (je, ja, jae, jb, jbe, je, and jz).
void FCmp();
// Abort execution if argument is not a number. Used in debug code.
void AbortIfNotNumber(Register object, const char* msg);
// ---------------------------------------------------------------------------
// Exception handling
......
src/x64/virtual-frame-x64.cc
View file @ dbe99e40
......@@ -45,7 +45,7 @@ VirtualFrame::VirtualFrame()
: elements_(parameter_count() + local_count() + kPreallocatedElements),
stack_pointer_(parameter_count() + 1) { // 0-based index of TOS.
for (int i = 0; i <= stack_pointer_; i++) {
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(NumberInfo::kUnknown));
}
for (int i = 0; i < RegisterAllocator::kNumRegisters; i++) {
register_locations_[i] = kIllegalIndex;
......@@ -193,25 +193,25 @@ void VirtualFrame::EmitPop(const Operand& operand) {
}
void VirtualFrame::EmitPush(Register reg) {
void VirtualFrame::EmitPush(Register reg, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ push(reg);
}
void VirtualFrame::EmitPush(const Operand& operand) {
void VirtualFrame::EmitPush(const Operand& operand, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ push(operand);
}
void VirtualFrame::EmitPush(Immediate immediate) {
void VirtualFrame::EmitPush(Immediate immediate, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ push(immediate);
}
......@@ -219,7 +219,7 @@ void VirtualFrame::EmitPush(Immediate immediate) {
void VirtualFrame::EmitPush(Smi* smi_value) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(NumberInfo::kSmi));
stack_pointer_++;
__ Push(smi_value);
}
......@@ -227,15 +227,21 @@ void VirtualFrame::EmitPush(Smi* smi_value) {
void VirtualFrame::EmitPush(Handle<Object> value) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
NumberInfo::Type info = NumberInfo::kUnknown;
if (value->IsSmi()) {
info = NumberInfo::kSmi;
} else if (value->IsHeapNumber()) {
info = NumberInfo::kHeapNumber;
}
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ Push(value);
}
void VirtualFrame::EmitPush(Heap::RootListIndex index) {
void VirtualFrame::EmitPush(Heap::RootListIndex index, NumberInfo::Type info) {
ASSERT(stack_pointer_ == element_count() - 1);
elements_.Add(FrameElement::MemoryElement());
elements_.Add(FrameElement::MemoryElement(info));
stack_pointer_++;
__ PushRoot(index);
}
......@@ -305,10 +311,14 @@ int VirtualFrame::InvalidateFrameSlotAt(int index) {
// Set the new backing element.
if (elements_[new_backing_index].is_synced()) {
elements_[new_backing_index] =
FrameElement::RegisterElement(backing_reg, FrameElement::SYNCED);
FrameElement::RegisterElement(backing_reg,
FrameElement::SYNCED,
original.number_info());
} else {
elements_[new_backing_index] =
FrameElement::RegisterElement(backing_reg, FrameElement::NOT_SYNCED);
FrameElement::RegisterElement(backing_reg,
FrameElement::NOT_SYNCED,
original.number_info());
}
// Update the other copies.
for (int i = new_backing_index + 1; i < element_count(); i++) {
......@@ -339,7 +349,8 @@ void VirtualFrame::TakeFrameSlotAt(int index) {
ASSERT(fresh.is_valid());
FrameElement new_element =
FrameElement::RegisterElement(fresh.reg(),
FrameElement::NOT_SYNCED);
FrameElement::NOT_SYNCED,
original.number_info());
Use(fresh.reg(), element_count());
elements_.Add(new_element);
__ movq(fresh.reg(), Operand(rbp, fp_relative(index)));
......@@ -480,10 +491,12 @@ void VirtualFrame::MakeMergable() {
for (int i = 0; i < element_count(); i++) {
FrameElement element = elements_[i];
// In all cases we have to reset the number type information
// to unknown for a mergable frame because of incoming back edges.
if (element.is_constant() || element.is_copy()) {
if (element.is_synced()) {
// Just spill.
elements_[i] = FrameElement::MemoryElement();
elements_[i] = FrameElement::MemoryElement(NumberInfo::kUnknown);
} else {
// Allocate to a register.
FrameElement backing_element; // Invalid if not a copy.
......@@ -494,7 +507,8 @@ void VirtualFrame::MakeMergable() {
ASSERT(fresh.is_valid()); // A register was spilled if all were in use.
elements_[i] =
FrameElement::RegisterElement(fresh.reg(),
FrameElement::NOT_SYNCED);
FrameElement::NOT_SYNCED,
NumberInfo::kUnknown);
Use(fresh.reg(), i);
// Emit a move.
......@@ -523,6 +537,7 @@ void VirtualFrame::MakeMergable() {
// The copy flag is not relied on before the end of this loop,
// including when registers are spilled.
elements_[i].clear_copied();
elements_[i].set_number_info(NumberInfo::kUnknown);
}
}
}
......@@ -728,6 +743,14 @@ Result VirtualFrame::Pop() {
int index = element_count();
ASSERT(element.is_valid());
// Get number type information of the result.
NumberInfo::Type info;
if (!element.is_copy()) {
info = element.number_info();
} else {
info = elements_[element.index()].number_info();
}
bool pop_needed = (stack_pointer_ == index);
if (pop_needed) {
stack_pointer_--;
......@@ -735,6 +758,7 @@ Result VirtualFrame::Pop() {
Result temp = cgen()->allocator()->Allocate();
ASSERT(temp.is_valid());
__ pop(temp.reg());
temp.set_number_info(info);
return temp;
}
......@@ -762,14 +786,16 @@ Result VirtualFrame::Pop() {
ASSERT(temp.is_valid());
Use(temp.reg(), index);
FrameElement new_element =
FrameElement::RegisterElement(temp.reg(), FrameElement::SYNCED);
FrameElement::RegisterElement(temp.reg(),
FrameElement::SYNCED,
element.number_info());
// Preserve the copy flag on the element.
if (element.is_copied()) new_element.set_copied();
elements_[index] = new_element;
__ movq(temp.reg(), Operand(rbp, fp_relative(index)));
return Result(temp.reg());
return Result(temp.reg(), info);
} else if (element.is_register()) {
return Result(element.reg());
return Result(element.reg(), info);
} else {
ASSERT(element.is_constant());
return Result(element.handle());
......
src/x64/virtual-frame-x64.h
View file @ dbe99e40
......@@ -28,6 +28,7 @@
#ifndef V8_X64_VIRTUAL_FRAME_X64_H_
#define V8_X64_VIRTUAL_FRAME_X64_H_
#include "number-info.h"
#include "register-allocator.h"
#include "scopes.h"
......@@ -81,7 +82,8 @@ class VirtualFrame : public ZoneObject {
MacroAssembler* masm() { return cgen()->masm(); }
// Create a duplicate of an existing valid frame element.
FrameElement CopyElementAt(int index);
FrameElement CopyElementAt(int index,
NumberInfo::Type info = NumberInfo::kUninitialized);
// The number of elements on the virtual frame.
int element_count() { return elements_.length(); }
......@@ -380,16 +382,20 @@ class VirtualFrame : public ZoneObject {
// Push an element on top of the expression stack and emit a
// corresponding push instruction.
void EmitPush(Register reg);
void EmitPush(const Operand& operand);
void EmitPush(Heap::RootListIndex index);
void EmitPush(Immediate immediate);
void EmitPush(Register reg,
NumberInfo::Type info = NumberInfo::kUnknown);
void EmitPush(const Operand& operand,
NumberInfo::Type info = NumberInfo::kUnknown);
void EmitPush(Heap::RootListIndex index,
NumberInfo::Type info = NumberInfo::kUnknown);
void EmitPush(Immediate immediate,
NumberInfo::Type info = NumberInfo::kUnknown);
void EmitPush(Smi* value);
// Uses kScratchRegister, emits appropriate relocation info.
void EmitPush(Handle<Object> value);
// Push an element on the virtual frame.
void Push(Register reg);
void Push(Register reg, NumberInfo::Type info = NumberInfo::kUnknown);
void Push(Handle<Object> value);
void Push(Smi* value) { Push(Handle<Object>(value)); }
......@@ -397,7 +403,7 @@ class VirtualFrame : public ZoneObject {
// frame).
void Push(Result* result) {
if (result->is_register()) {
Push(result->reg());
Push(result->reg(), result->number_info());
} else {
ASSERT(result->is_constant());
Push(result->handle());
......
tools/gyp/v8.gyp
View file @ dbe99e40
......@@ -320,6 +320,7 @@
'../../src/messages.cc',
'../../src/messages.h',
'../../src/natives.h',
'../../src/number-info.h',
'../../src/objects-debug.cc',
'../../src/objects-inl.h',
'../../src/objects.cc',
......
tools/visual_studio/v8_base.vcproj
View file @ dbe99e40
......@@ -632,6 +632,10 @@
RelativePath="..\..\src\natives.h"
>
</File>
<File
RelativePath="..\..\src\number-info.h"
>
</File>
<File
RelativePath="..\..\src\objects-debug.cc"
>
......
tools/visual_studio/v8_base_arm.vcproj
View file @ dbe99e40
......@@ -636,6 +636,10 @@
RelativePath="..\..\src\natives.h"
>
</File>
<File
RelativePath="..\..\src\number-info.h"
>
</File>
<File
RelativePath="..\..\src\objects-debug.cc"
>
......
tools/visual_studio/v8_base_x64.vcproj
View file @ dbe99e40
......@@ -633,6 +633,10 @@
RelativePath="..\..\src\natives.h"
>
</File>
<File
RelativePath="..\..\src\number-info.h"
>
</File>
<File
RelativePath="..\..\src\objects-debug.cc"
>
......
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