src/arm/lithium-codegen-arm.cc - Issue 11498006: Revert 13157, 13145 and 13140: Crankshaft code stubs.

Unified Diff: src/arm/lithium-codegen-arm.cc

Issue 11498006: Revert 13157, 13145 and 13140: Crankshaft code stubs. (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge

Patch Set: Created 8 years ago

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Index: src/arm/lithium-codegen-arm.cc

diff --git a/src/arm/lithium-codegen-arm.cc b/src/arm/lithium-codegen-arm.cc

index 53d99814bb5d56cc10cb7c1aaed206f730ce1c3d..06b021669bd1792e150796f844f135935179dbdc 100644

--- a/src/arm/lithium-codegen-arm.cc

+++ b/src/arm/lithium-codegen-arm.cc

@@ -65,6 +65,8 @@ bool LCodeGen::GenerateCode() {

HPhase phase("Z_Code generation", chunk());

ASSERT(is_unused());

status_ = GENERATING;

+ CpuFeatures::Scope scope1(VFP3);

+ CpuFeatures::Scope scope2(ARMv7);

CodeStub::GenerateFPStubs();

@@ -116,38 +118,37 @@ void LCodeGen::Comment(const char* format, ...) {

bool LCodeGen::GeneratePrologue() {

ASSERT(is_generating());

- if (info()->IsOptimizing()) {

- ProfileEntryHookStub::MaybeCallEntryHook(masm_);

+ ProfileEntryHookStub::MaybeCallEntryHook(masm_);

#ifdef DEBUG

- if (strlen(FLAG_stop_at) > 0 &&

- info_->function()->name()->IsEqualTo(CStrVector(FLAG_stop_at))) {

- __ stop("stop_at");

- }

+ if (strlen(FLAG_stop_at) > 0 &&

+ info_->function()->name()->IsEqualTo(CStrVector(FLAG_stop_at))) {

+ __ stop("stop_at");

+ }

#endif

- // r1: Callee's JS function.

- // cp: Callee's context.

- // fp: Caller's frame pointer.

- // lr: Caller's pc.

+ // r1: Callee's JS function.

+ // cp: Callee's context.

+ // fp: Caller's frame pointer.

+ // lr: Caller's pc.

- // Strict mode functions and builtins need to replace the receiver

- // with undefined when called as functions (without an explicit

- // receiver object). r5 is zero for method calls and non-zero for

- // function calls.

- if (!info_->is_classic_mode() || info_->is_native()) {

- Label ok;

- __ cmp(r5, Operand(0));

- __ b(eq, &ok);

- int receiver_offset = scope()->num_parameters() * kPointerSize;

- __ LoadRoot(r2, Heap::kUndefinedValueRootIndex);

- __ str(r2, MemOperand(sp, receiver_offset));

- __ bind(&ok);

- }

+ // Strict mode functions and builtins need to replace the receiver

+ // with undefined when called as functions (without an explicit

+ // receiver object). r5 is zero for method calls and non-zero for

+ // function calls.

+ if (!info_->is_classic_mode() || info_->is_native()) {

+ Label ok;

+ __ cmp(r5, Operand(0));

+ __ b(eq, &ok);

+ int receiver_offset = scope()->num_parameters() * kPointerSize;

+ __ LoadRoot(r2, Heap::kUndefinedValueRootIndex);

+ __ str(r2, MemOperand(sp, receiver_offset));

+ __ bind(&ok);

}

info()->set_prologue_offset(masm_->pc_offset());

- if (NeedsEagerFrame()) {

+ {

PredictableCodeSizeScope predictible_code_size_scope(

masm_, kNoCodeAgeSequenceLength * Assembler::kInstrSize);

// The following three instructions must remain together and unmodified

@@ -158,7 +159,6 @@ bool LCodeGen::GeneratePrologue() {

__ LoadRoot(ip, Heap::kUndefinedValueRootIndex);

// Adjust FP to point to saved FP.

__ add(fp, sp, Operand(2 * kPointerSize));

- frame_is_built_ = true;

}

// Reserve space for the stack slots needed by the code.

@@ -178,7 +178,7 @@ bool LCodeGen::GeneratePrologue() {

}

// Possibly allocate a local context.

- int heap_slots = info()->num_heap_slots() - Context::MIN_CONTEXT_SLOTS;

+ int heap_slots = scope()->num_heap_slots() - Context::MIN_CONTEXT_SLOTS;

if (heap_slots > 0) {

Comment(";;; Allocate local context");

// Argument to NewContext is the function, which is in r1.

@@ -214,7 +214,7 @@ bool LCodeGen::GeneratePrologue() {

}

// Trace the call.

- if (FLAG_trace && info()->IsOptimizing()) {

+ if (FLAG_trace) {

__ CallRuntime(Runtime::kTraceEnter, 0);

}

return !is_aborted();

@@ -272,31 +272,10 @@ bool LCodeGen::GenerateDeferredCode() {

for (int i = 0; !is_aborted() && i < deferred_.length(); i++) {

LDeferredCode* code = deferred_[i];

__ bind(code->entry());

- if (NeedsDeferredFrame()) {

- Comment(";;; Deferred build frame",

- code->instruction_index(),

- code->instr()->Mnemonic());

- ASSERT(!frame_is_built_);

- ASSERT(info()->IsStub());

- frame_is_built_ = true;

- __ stm(db_w, sp, cp.bit() | fp.bit() | lr.bit());

- __ mov(scratch0(), Operand(Smi::FromInt(StackFrame::STUB)));

- __ push(scratch0());

- __ add(fp, sp, Operand(2 * kPointerSize));

- }

Comment(";;; Deferred code @%d: %s.",

code->instruction_index(),

code->instr()->Mnemonic());

code->Generate();

- if (NeedsDeferredFrame()) {

- Comment(";;; Deferred destroy frame",

- code->instruction_index(),

- code->instr()->Mnemonic());

- ASSERT(frame_is_built_);

- __ pop(ip);

- __ ldm(ia_w, sp, cp.bit() | fp.bit() | lr.bit());

- frame_is_built_ = false;

- }

__ jmp(code->exit());

}

@@ -318,68 +297,24 @@ bool LCodeGen::GenerateDeoptJumpTable() {

// Each entry in the jump table generates one instruction and inlines one

// 32bit data after it.

if (!is_int24((masm()->pc_offset() / Assembler::kInstrSize) +

- deopt_jump_table_.length() * 7)) {

+ deopt_jump_table_.length() * 2)) {

Abort("Generated code is too large");

}

+ // Block the constant pool emission during the jump table emission.

+ __ BlockConstPoolFor(deopt_jump_table_.length());

__ RecordComment("[ Deoptimisation jump table");

Label table_start;

__ bind(&table_start);

- Label needs_frame_not_call;

- Label needs_frame_is_call;

for (int i = 0; i < deopt_jump_table_.length(); i++) {

__ bind(&deopt_jump_table_[i].label);

- Address entry = deopt_jump_table_[i].address;

- if (deopt_jump_table_[i].needs_frame) {

- __ mov(ip, Operand(ExternalReference::ForDeoptEntry(entry)));

- if (deopt_jump_table_[i].is_lazy_deopt) {

- if (needs_frame_is_call.is_bound()) {

- __ b(&needs_frame_is_call);

- } else {

- __ bind(&needs_frame_is_call);

- __ stm(db_w, sp, cp.bit() | fp.bit() | lr.bit());

- // This variant of deopt can only be used with stubs. Since we don't

- // have a function pointer to install in the stack frame that we're

- // building, install a special marker there instead.

- ASSERT(info()->IsStub());

- __ mov(scratch0(), Operand(Smi::FromInt(StackFrame::STUB)));

- __ push(scratch0());

- __ add(fp, sp, Operand(2 * kPointerSize));

- __ mov(lr, Operand(pc), LeaveCC, al);

- __ mov(pc, ip);

- }

- } else {

- if (needs_frame_not_call.is_bound()) {

- __ b(&needs_frame_not_call);

- } else {

- __ bind(&needs_frame_not_call);

- __ stm(db_w, sp, cp.bit() | fp.bit() | lr.bit());

- // This variant of deopt can only be used with stubs. Since we don't

- // have a function pointer to install in the stack frame that we're

- // building, install a special marker there instead.

- ASSERT(info()->IsStub());

- __ mov(scratch0(), Operand(Smi::FromInt(StackFrame::STUB)));

- __ push(scratch0());

- __ add(fp, sp, Operand(2 * kPointerSize));

- __ mov(pc, ip);

- }

- } else {

- if (deopt_jump_table_[i].is_lazy_deopt) {

- __ mov(lr, Operand(pc), LeaveCC, al);

- __ mov(pc, Operand(ExternalReference::ForDeoptEntry(entry)));

- } else {

- __ mov(pc, Operand(ExternalReference::ForDeoptEntry(entry)));

- }

- masm()->CheckConstPool(false, false);

+ __ ldr(pc, MemOperand(pc, Assembler::kInstrSize - Assembler::kPcLoadDelta));

+ __ dd(reinterpret_cast<uint32_t>(deopt_jump_table_[i].address));

}

+ ASSERT(masm()->InstructionsGeneratedSince(&table_start) ==

+ deopt_jump_table_.length() * 2);

__ RecordComment("]");

- // Force constant pool emission at the end of the deopt jump table to make

- // sure that no constant pools are emitted after.

- masm()->CheckConstPool(true, false);

// The deoptimization jump table is the last part of the instruction

// sequence. Mark the generated code as done unless we bailed out.

if (!is_aborted()) status_ = DONE;

@@ -399,8 +334,8 @@ Register LCodeGen::ToRegister(int index) const {

}

-DwVfpRegister LCodeGen::ToDoubleRegister(int index) const {

- return DwVfpRegister::FromAllocationIndex(index);

+DoubleRegister LCodeGen::ToDoubleRegister(int index) const {

+ return DoubleRegister::FromAllocationIndex(index);

}

@@ -441,15 +376,15 @@ Register LCodeGen::EmitLoadRegister(LOperand* op, Register scratch) {

}

-DwVfpRegister LCodeGen::ToDoubleRegister(LOperand* op) const {

+DoubleRegister LCodeGen::ToDoubleRegister(LOperand* op) const {

ASSERT(op->IsDoubleRegister());

return ToDoubleRegister(op->index());

}

-DwVfpRegister LCodeGen::EmitLoadDoubleRegister(LOperand* op,

- SwVfpRegister flt_scratch,

- DwVfpRegister dbl_scratch) {

+DoubleRegister LCodeGen::EmitLoadDoubleRegister(LOperand* op,

+ SwVfpRegister flt_scratch,

+ DoubleRegister dbl_scratch) {

if (op->IsDoubleRegister()) {

return ToDoubleRegister(op->index());

} else if (op->IsConstantOperand()) {

@@ -585,9 +520,7 @@ void LCodeGen::WriteTranslation(LEnvironment* environment,

translation,

arguments_index,

arguments_count);

- bool has_closure_id = !info()->closure().is_null() &&

- *info()->closure() != *environment->closure();

- int closure_id = has_closure_id

+ int closure_id = *info()->closure() != *environment->closure()

? DefineDeoptimizationLiteral(environment->closure())

: Translation::kSelfLiteralId;

@@ -608,9 +541,6 @@ void LCodeGen::WriteTranslation(LEnvironment* environment,

ASSERT(height == 0);

translation->BeginSetterStubFrame(closure_id);

break;

- case STUB:

- translation->BeginCompiledStubFrame();

- break;

case ARGUMENTS_ADAPTOR:

translation->BeginArgumentsAdaptorFrame(closure_id, translation_size);

break;

@@ -806,11 +736,7 @@ void LCodeGen::DeoptimizeIf(Condition cc, LEnvironment* environment) {

RegisterEnvironmentForDeoptimization(environment, Safepoint::kNoLazyDeopt);

ASSERT(environment->HasBeenRegistered());

int id = environment->deoptimization_index();

- Deoptimizer::BailoutType bailout_type = info()->IsStub()

- ? Deoptimizer::LAZY

- : Deoptimizer::EAGER;

- Address entry = Deoptimizer::GetDeoptimizationEntry(id, bailout_type);

+ Address entry = Deoptimizer::GetDeoptimizationEntry(id, Deoptimizer::EAGER);

if (entry == NULL) {

Abort("bailout was not prepared");

return;

@@ -826,19 +752,14 @@ void LCodeGen::DeoptimizeIf(Condition cc, LEnvironment* environment) {

if (FLAG_trap_on_deopt) __ stop("trap_on_deopt", cc);

- bool needs_lazy_deopt = info()->IsStub();

- ASSERT(info()->IsStub() || frame_is_built_);

- if (cc == al && !needs_lazy_deopt) {

+ if (cc == al) {

__ Jump(entry, RelocInfo::RUNTIME_ENTRY);

} else {

// We often have several deopts to the same entry, reuse the last

// jump entry if this is the case.

if (deopt_jump_table_.is_empty() ||

- (deopt_jump_table_.last().address != entry) ||

- (deopt_jump_table_.last().is_lazy_deopt != needs_lazy_deopt) ||

- (deopt_jump_table_.last().needs_frame != !frame_is_built_)) {

- JumpTableEntry table_entry(entry, !frame_is_built_, needs_lazy_deopt);

- deopt_jump_table_.Add(table_entry, zone());

+ (deopt_jump_table_.last().address != entry)) {

+ deopt_jump_table_.Add(JumpTableEntry(entry), zone());

}

__ b(cc, &deopt_jump_table_.last().label);

}

@@ -1447,7 +1368,6 @@ void LCodeGen::DoDeferredBinaryOpStub(LPointerMap* pointer_map,

LOperand* left_argument,

LOperand* right_argument,

Token::Value op) {

- CpuFeatures::Scope vfp_scope(VFP2);

@@ -1733,7 +1653,6 @@ void LCodeGen::DoConstantI(LConstantI* instr) {

void LCodeGen::DoConstantD(LConstantD* instr) {

ASSERT(instr->result()->IsDoubleRegister());

DwVfpRegister result = ToDoubleRegister(instr->result());

- CpuFeatures::Scope scope(VFP2);

double v = instr->value();

__ Vmov(result, v, scratch0());

}

@@ -1911,10 +1830,9 @@ void LCodeGen::DoMathMinMax(LMathMinMax* instr) {

__ mov(result_reg, right_op, LeaveCC, NegateCondition(condition));

} else {

ASSERT(instr->hydrogen()->representation().IsDouble());

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister left_reg = ToDoubleRegister(left);

- DwVfpRegister right_reg = ToDoubleRegister(right);

- DwVfpRegister result_reg = ToDoubleRegister(instr->result());

+ DoubleRegister left_reg = ToDoubleRegister(left);

+ DoubleRegister right_reg = ToDoubleRegister(right);

+ DoubleRegister result_reg = ToDoubleRegister(instr->result());

Label check_nan_left, check_zero, return_left, return_right, done;

__ VFPCompareAndSetFlags(left_reg, right_reg);

__ b(vs, &check_nan_left);

@@ -1957,10 +1875,9 @@ void LCodeGen::DoMathMinMax(LMathMinMax* instr) {

void LCodeGen::DoArithmeticD(LArithmeticD* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister left = ToDoubleRegister(instr->left());

- DwVfpRegister right = ToDoubleRegister(instr->right());

- DwVfpRegister result = ToDoubleRegister(instr->result());

+ DoubleRegister left = ToDoubleRegister(instr->left());

+ DoubleRegister right = ToDoubleRegister(instr->right());

+ DoubleRegister result = ToDoubleRegister(instr->result());

switch (instr->op()) {

case Token::ADD:

__ vadd(result, left, right);

@@ -2048,8 +1965,7 @@ void LCodeGen::DoBranch(LBranch* instr) {

__ cmp(reg, Operand(0));

EmitBranch(true_block, false_block, ne);

} else if (r.IsDouble()) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister reg = ToDoubleRegister(instr->value());

+ DoubleRegister reg = ToDoubleRegister(instr->value());

// Test the double value. Zero and NaN are false.

@@ -2134,9 +2050,8 @@ void LCodeGen::DoBranch(LBranch* instr) {

}

if (expected.Contains(ToBooleanStub::HEAP_NUMBER)) {

- CpuFeatures::Scope scope(VFP2);

// heap number -> false iff +0, -0, or NaN.

- DwVfpRegister dbl_scratch = double_scratch0();

+ DoubleRegister dbl_scratch = double_scratch0();

Label not_heap_number;

__ CompareRoot(map, Heap::kHeapNumberMapRootIndex);

__ b(ne, &not_heap_number);

@@ -2214,7 +2129,6 @@ void LCodeGen::DoCmpIDAndBranch(LCmpIDAndBranch* instr) {

EmitGoto(next_block);

} else {

if (instr->is_double()) {

- CpuFeatures::Scope scope(VFP2);

// Compare left and right operands as doubles and load the

// resulting flags into the normal status register.

__ VFPCompareAndSetFlags(ToDoubleRegister(left), ToDoubleRegister(right));

@@ -2753,21 +2667,16 @@ void LCodeGen::DoCmpT(LCmpT* instr) {

void LCodeGen::DoReturn(LReturn* instr) {

- if (FLAG_trace && info()->IsOptimizing()) {

+ if (FLAG_trace) {

// Push the return value on the stack as the parameter.

// Runtime::TraceExit returns its parameter in r0.

__ push(r0);

__ CallRuntime(Runtime::kTraceExit, 1);

}

- if (NeedsEagerFrame()) {

- int32_t sp_delta = (GetParameterCount() + 1) * kPointerSize;

- __ mov(sp, fp);

- __ ldm(ia_w, sp, fp.bit() | lr.bit());

- __ add(sp, sp, Operand(sp_delta));

- }

- if (info()->IsStub()) {

- __ ldr(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));

- }

+ int32_t sp_delta = (GetParameterCount() + 1) * kPointerSize;

+ __ mov(sp, fp);

+ __ ldm(ia_w, sp, fp.bit() | lr.bit());

+ __ add(sp, sp, Operand(sp_delta));

__ Jump(lr);

}

@@ -3117,63 +3026,17 @@ void LCodeGen::DoLoadKeyedExternalArray(LLoadKeyed* instr) {

if (elements_kind == EXTERNAL_FLOAT_ELEMENTS ||

elements_kind == EXTERNAL_DOUBLE_ELEMENTS) {

+ CpuFeatures::Scope scope(VFP3);

DwVfpRegister result = ToDoubleRegister(instr->result());

Operand operand = key_is_constant

? Operand(constant_key << element_size_shift)

: Operand(key, LSL, shift_size);

__ add(scratch0(), external_pointer, operand);

- if (CpuFeatures::IsSupported(VFP2)) {

- CpuFeatures::Scope scope(VFP2);

- if (elements_kind == EXTERNAL_FLOAT_ELEMENTS) {

- __ vldr(result.low(), scratch0(), additional_offset);

- __ vcvt_f64_f32(result, result.low());

- } else { // i.e. elements_kind == EXTERNAL_DOUBLE_ELEMENTS

- __ vldr(result, scratch0(), additional_offset);

- }

- } else {

- if (elements_kind == EXTERNAL_FLOAT_ELEMENTS) {

- Register value = external_pointer;

- __ ldr(value, MemOperand(scratch0(), additional_offset));

- __ and_(sfpd_lo, value, Operand(kBinary32MantissaMask));

- __ mov(scratch0(), Operand(value, LSR, kBinary32MantissaBits));

- __ and_(scratch0(), scratch0(),

- Operand(kBinary32ExponentMask >> kBinary32MantissaBits));

- Label exponent_rebiased;

- __ teq(scratch0(), Operand(0x00));

- __ b(eq, &exponent_rebiased);

- __ teq(scratch0(), Operand(0xff));

- __ mov(scratch0(), Operand(0x7ff), LeaveCC, eq);

- __ b(eq, &exponent_rebiased);

- // Rebias exponent.

- __ add(scratch0(),

- scratch0(),

- Operand(-kBinary32ExponentBias + HeapNumber::kExponentBias));

- __ bind(&exponent_rebiased);

- __ and_(sfpd_hi, value, Operand(kBinary32SignMask));

- __ orr(sfpd_hi, sfpd_hi,

- Operand(scratch0(), LSL, HeapNumber::kMantissaBitsInTopWord));

- // Shift mantissa.

- static const int kMantissaShiftForHiWord =

- kBinary32MantissaBits - HeapNumber::kMantissaBitsInTopWord;

- static const int kMantissaShiftForLoWord =

- kBitsPerInt - kMantissaShiftForHiWord;

- __ orr(sfpd_hi, sfpd_hi,

- Operand(sfpd_lo, LSR, kMantissaShiftForHiWord));

- __ mov(sfpd_lo, Operand(sfpd_lo, LSL, kMantissaShiftForLoWord));

- } else {

- __ ldr(sfpd_lo, MemOperand(scratch0(), additional_offset));

- __ ldr(sfpd_hi, MemOperand(scratch0(),

- additional_offset + kPointerSize));

- }

+ if (elements_kind == EXTERNAL_FLOAT_ELEMENTS) {

+ __ vldr(result.low(), scratch0(), additional_offset);

+ __ vcvt_f64_f32(result, result.low());

+ } else { // i.e. elements_kind == EXTERNAL_DOUBLE_ELEMENTS

+ __ vldr(result, scratch0(), additional_offset);

}

} else {

@@ -3242,28 +3105,23 @@ void LCodeGen::DoLoadKeyedFixedDoubleArray(LLoadKeyed* instr) {

key = ToRegister(instr->key());

}

- int base_offset = (FixedDoubleArray::kHeaderSize - kHeapObjectTag) +

- ((constant_key + instr->additional_index()) << element_size_shift);

+ Operand operand = key_is_constant

+ ? Operand(((constant_key + instr->additional_index()) <<

+ element_size_shift) +

+ FixedDoubleArray::kHeaderSize - kHeapObjectTag)

+ : Operand(key, LSL, shift_size);

+ __ add(elements, elements, operand);

if (!key_is_constant) {

- __ add(elements, elements, Operand(key, LSL, shift_size));

- }

- if (CpuFeatures::IsSupported(VFP2)) {

- CpuFeatures::Scope scope(VFP2);

- __ add(elements, elements, Operand(base_offset));

- __ vldr(result, elements, 0);

- if (instr->hydrogen()->RequiresHoleCheck()) {

- __ ldr(scratch, MemOperand(elements, sizeof(kHoleNanLower32)));

- __ cmp(scratch, Operand(kHoleNanUpper32));

- DeoptimizeIf(eq, instr->environment());

- }

- } else {

- __ ldr(sfpd_hi, MemOperand(elements, base_offset + kPointerSize));

- __ ldr(sfpd_lo, MemOperand(elements, base_offset));

- if (instr->hydrogen()->RequiresHoleCheck()) {

- ASSERT(kPointerSize == sizeof(kHoleNanLower32));

- __ cmp(sfpd_hi, Operand(kHoleNanUpper32));

- DeoptimizeIf(eq, instr->environment());

- }

+ __ add(elements, elements,

+ Operand((FixedDoubleArray::kHeaderSize - kHeapObjectTag) +

+ (instr->additional_index() << element_size_shift)));

+ }

+ __ vldr(result, elements, 0);

+ if (instr->hydrogen()->RequiresHoleCheck()) {

+ __ ldr(scratch, MemOperand(elements, sizeof(kHoleNanLower32)));

+ __ cmp(scratch, Operand(kHoleNanUpper32));

+ DeoptimizeIf(eq, instr->environment());

}

@@ -3699,7 +3557,6 @@ void LCodeGen::EmitIntegerMathAbs(LUnaryMathOperation* instr) {

void LCodeGen::DoMathAbs(LUnaryMathOperation* instr) {

- CpuFeatures::Scope scope(VFP2);

// Class for deferred case.

class DeferredMathAbsTaggedHeapNumber: public LDeferredCode {

public:

@@ -3736,8 +3593,7 @@ void LCodeGen::DoMathAbs(LUnaryMathOperation* instr) {

void LCodeGen::DoMathFloor(LUnaryMathOperation* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister input = ToDoubleRegister(instr->value());

+ DoubleRegister input = ToDoubleRegister(instr->value());

@@ -3762,8 +3618,7 @@ void LCodeGen::DoMathFloor(LUnaryMathOperation* instr) {

void LCodeGen::DoMathRound(LUnaryMathOperation* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister input = ToDoubleRegister(instr->value());

+ DoubleRegister input = ToDoubleRegister(instr->value());

DwVfpRegister double_scratch1 = ToDoubleRegister(instr->temp());

@@ -3828,18 +3683,16 @@ void LCodeGen::DoMathRound(LUnaryMathOperation* instr) {

void LCodeGen::DoMathSqrt(LUnaryMathOperation* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister input = ToDoubleRegister(instr->value());

- DwVfpRegister result = ToDoubleRegister(instr->result());

+ DoubleRegister input = ToDoubleRegister(instr->value());

+ DoubleRegister result = ToDoubleRegister(instr->result());

__ vsqrt(result, input);

}

void LCodeGen::DoMathPowHalf(LUnaryMathOperation* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister input = ToDoubleRegister(instr->value());

- DwVfpRegister result = ToDoubleRegister(instr->result());

- DwVfpRegister temp = ToDoubleRegister(instr->temp());

+ DoubleRegister input = ToDoubleRegister(instr->value());

+ DoubleRegister result = ToDoubleRegister(instr->result());

+ DoubleRegister temp = ToDoubleRegister(instr->temp());

// Note that according to ECMA-262 15.8.2.13:

// Math.pow(-Infinity, 0.5) == Infinity

@@ -3858,7 +3711,6 @@ void LCodeGen::DoMathPowHalf(LUnaryMathOperation* instr) {

void LCodeGen::DoPower(LPower* instr) {

- CpuFeatures::Scope scope(VFP2);

Representation exponent_type = instr->hydrogen()->right()->representation();

// Having marked this as a call, we can use any registers.

// Just make sure that the input/output registers are the expected ones.

@@ -3891,7 +3743,6 @@ void LCodeGen::DoPower(LPower* instr) {

void LCodeGen::DoRandom(LRandom* instr) {

- CpuFeatures::Scope scope(VFP2);

class DeferredDoRandom: public LDeferredCode {

public:

DeferredDoRandom(LCodeGen* codegen, LRandom* instr)

@@ -3970,11 +3821,10 @@ void LCodeGen::DoDeferredRandom(LRandom* instr) {

void LCodeGen::DoMathExp(LMathExp* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister input = ToDoubleRegister(instr->value());

- DwVfpRegister result = ToDoubleRegister(instr->result());

- DwVfpRegister double_scratch1 = ToDoubleRegister(instr->double_temp());

- DwVfpRegister double_scratch2 = double_scratch0();

+ DoubleRegister input = ToDoubleRegister(instr->value());

+ DoubleRegister result = ToDoubleRegister(instr->result());

+ DoubleRegister double_scratch1 = ToDoubleRegister(instr->double_temp());

+ DoubleRegister double_scratch2 = double_scratch0();

@@ -4260,7 +4110,6 @@ void LCodeGen::DoBoundsCheck(LBoundsCheck* instr) {

void LCodeGen::DoStoreKeyedExternalArray(LStoreKeyed* instr) {

- CpuFeatures::Scope scope(VFP2);

ElementsKind elements_kind = instr->elements_kind();

@@ -4331,7 +4180,6 @@ void LCodeGen::DoStoreKeyedExternalArray(LStoreKeyed* instr) {

void LCodeGen::DoStoreKeyedFixedDoubleArray(LStoreKeyed* instr) {

- CpuFeatures::Scope scope(VFP2);

DwVfpRegister value = ToDoubleRegister(instr->value());

@@ -4608,7 +4456,6 @@ void LCodeGen::DoStringLength(LStringLength* instr) {

void LCodeGen::DoInteger32ToDouble(LInteger32ToDouble* instr) {

- CpuFeatures::Scope scope(VFP2);

LOperand* input = instr->value();

ASSERT(input->IsRegister() || input->IsStackSlot());

LOperand* output = instr->result();

@@ -4626,7 +4473,6 @@ void LCodeGen::DoInteger32ToDouble(LInteger32ToDouble* instr) {

void LCodeGen::DoUint32ToDouble(LUint32ToDouble* instr) {

- CpuFeatures::Scope scope(VFP2);

LOperand* input = instr->value();

LOperand* output = instr->result();

@@ -4688,49 +4534,13 @@ void LCodeGen::DoNumberTagU(LNumberTagU* instr) {

}

-// Convert unsigned integer with specified number of leading zeroes in binary

-// representation to IEEE 754 double.

-// Integer to convert is passed in register hiword.

-// Resulting double is returned in registers hiword:loword.

-// This functions does not work correctly for 0.

-static void GenerateUInt2Double(MacroAssembler* masm,

- Register hiword,

- Register loword,

- Register scratch,

- int leading_zeroes) {

- const int meaningful_bits = kBitsPerInt - leading_zeroes - 1;

- const int biased_exponent = HeapNumber::kExponentBias + meaningful_bits;

- const int mantissa_shift_for_hi_word =

- meaningful_bits - HeapNumber::kMantissaBitsInTopWord;

- const int mantissa_shift_for_lo_word =

- kBitsPerInt - mantissa_shift_for_hi_word;

- masm->mov(scratch, Operand(biased_exponent << HeapNumber::kExponentShift));

- if (mantissa_shift_for_hi_word > 0) {

- masm->mov(loword, Operand(hiword, LSL, mantissa_shift_for_lo_word));

- masm->orr(hiword, scratch,

- Operand(hiword, LSR, mantissa_shift_for_hi_word));

- } else {

- masm->mov(loword, Operand(0, RelocInfo::NONE));

- masm->orr(hiword, scratch,

- Operand(hiword, LSL, -mantissa_shift_for_hi_word));

- }

- // If least significant bit of biased exponent was not 1 it was corrupted

- // by most significant bit of mantissa so we should fix that.

- if (!(biased_exponent & 1)) {

- masm->bic(hiword, hiword, Operand(1 << HeapNumber::kExponentShift));

- }

void LCodeGen::DoDeferredNumberTagI(LInstruction* instr,

LOperand* value,

IntegerSignedness signedness) {

Label slow;

- DwVfpRegister dbl_scratch = double_scratch0();

+ DoubleRegister dbl_scratch = double_scratch0();

SwVfpRegister flt_scratch = dbl_scratch.low();

// Preserve the value of all registers.

@@ -4745,40 +4555,16 @@ void LCodeGen::DoDeferredNumberTagI(LInstruction* instr,

__ SmiUntag(src, dst);

__ eor(src, src, Operand(0x80000000));

}

- if (CpuFeatures::IsSupported(VFP2)) {

- CpuFeatures::Scope scope(VFP2);

- __ vmov(flt_scratch, src);

- __ vcvt_f64_s32(dbl_scratch, flt_scratch);

- } else {

- FloatingPointHelper::Destination dest =

- FloatingPointHelper::kCoreRegisters;

- FloatingPointHelper::ConvertIntToDouble(masm(), src, dest, d0,

- sfpd_lo, sfpd_hi,

- scratch0(), s0);

- }

+ __ vmov(flt_scratch, src);

+ __ vcvt_f64_s32(dbl_scratch, flt_scratch);

} else {

- if (CpuFeatures::IsSupported(VFP2)) {

- CpuFeatures::Scope scope(VFP2);

- __ vmov(flt_scratch, src);

- __ vcvt_f64_u32(dbl_scratch, flt_scratch);

- } else {

- Label no_leading_zero, done;

- __ tst(src, Operand(0x80000000));

- __ b(ne, &no_leading_zero);

- // Integer has one leading zeros.

- GenerateUInt2Double(masm(), sfpd_hi, sfpd_lo, r9, 1);

- __ b(&done);

- __ bind(&no_leading_zero);

- GenerateUInt2Double(masm(), sfpd_hi, sfpd_lo, r9, 0);

- __ b(&done);

- }

+ __ vmov(flt_scratch, src);

+ __ vcvt_f64_u32(dbl_scratch, flt_scratch);

}

if (FLAG_inline_new) {

- __ LoadRoot(scratch0(), Heap::kHeapNumberMapRootIndex);

- __ AllocateHeapNumber(r5, r3, r4, scratch0(), &slow, DONT_TAG_RESULT);

+ __ LoadRoot(r6, Heap::kHeapNumberMapRootIndex);

+ __ AllocateHeapNumber(r5, r3, r4, r6, &slow, DONT_TAG_RESULT);

__ Move(dst, r5);

__ b(&done);

}

@@ -4798,13 +4584,7 @@ void LCodeGen::DoDeferredNumberTagI(LInstruction* instr,

// Done. Put the value in dbl_scratch into the value of the allocated heap

// number.

__ bind(&done);

- if (CpuFeatures::IsSupported(VFP2)) {

- CpuFeatures::Scope scope(VFP2);

- __ vstr(dbl_scratch, dst, HeapNumber::kValueOffset);

- } else {

- __ str(sfpd_lo, MemOperand(dst, HeapNumber::kMantissaOffset));

- __ str(sfpd_hi, MemOperand(dst, HeapNumber::kExponentOffset));

- }

+ __ vstr(dbl_scratch, dst, HeapNumber::kValueOffset);

__ add(dst, dst, Operand(kHeapObjectTag));

__ StoreToSafepointRegisterSlot(dst, dst);

}

@@ -4821,7 +4601,7 @@ void LCodeGen::DoNumberTagD(LNumberTagD* instr) {

LNumberTagD* instr_;

};

- DwVfpRegister input_reg = ToDoubleRegister(instr->value());

+ DoubleRegister input_reg = ToDoubleRegister(instr->value());

@@ -4837,13 +4617,7 @@ void LCodeGen::DoNumberTagD(LNumberTagD* instr) {

__ jmp(deferred->entry());

}

__ bind(deferred->exit());

- if (CpuFeatures::IsSupported(VFP2)) {

- CpuFeatures::Scope scope(VFP2);

- __ vstr(input_reg, reg, HeapNumber::kValueOffset);

- } else {

- __ str(sfpd_lo, MemOperand(reg, HeapNumber::kValueOffset));

- __ str(sfpd_hi, MemOperand(reg, HeapNumber::kValueOffset + kPointerSize));

- }

+ __ vstr(input_reg, reg, HeapNumber::kValueOffset);

// Now that we have finished with the object's real address tag it

__ add(reg, reg, Operand(kHeapObjectTag));

}

@@ -4884,14 +4658,13 @@ void LCodeGen::DoSmiUntag(LSmiUntag* instr) {

void LCodeGen::EmitNumberUntagD(Register input_reg,

- DwVfpRegister result_reg,

+ DoubleRegister result_reg,

bool deoptimize_on_undefined,

bool deoptimize_on_minus_zero,

LEnvironment* env) {

SwVfpRegister flt_scratch = double_scratch0().low();

ASSERT(!result_reg.is(double_scratch0()));

- CpuFeatures::Scope scope(VFP2);

Label load_smi, heap_number, done;

@@ -4966,7 +4739,6 @@ void LCodeGen::DoDeferredTaggedToI(LTaggedToI* instr) {

__ cmp(scratch1, Operand(ip));

if (instr->truncating()) {

- CpuFeatures::Scope scope(VFP2);

ASSERT(!scratch3.is(input_reg) &&

!scratch3.is(scratch1) &&

@@ -5057,7 +4829,7 @@ void LCodeGen::DoNumberUntagD(LNumberUntagD* instr) {

ASSERT(result->IsDoubleRegister());

- DwVfpRegister result_reg = ToDoubleRegister(result);

+ DoubleRegister result_reg = ToDoubleRegister(result);

EmitNumberUntagD(input_reg, result_reg,

instr->hydrogen()->deoptimize_on_undefined(),

@@ -5205,16 +4977,14 @@ void LCodeGen::DoCheckMaps(LCheckMaps* instr) {

void LCodeGen::DoClampDToUint8(LClampDToUint8* instr) {

- CpuFeatures::Scope vfp_scope(VFP2);

- DwVfpRegister value_reg = ToDoubleRegister(instr->unclamped());

+ DoubleRegister value_reg = ToDoubleRegister(instr->unclamped());

- DwVfpRegister temp_reg = ToDoubleRegister(instr->temp());

+ DoubleRegister temp_reg = ToDoubleRegister(instr->temp());

__ ClampDoubleToUint8(result_reg, value_reg, temp_reg);

}

void LCodeGen::DoClampIToUint8(LClampIToUint8* instr) {

- CpuFeatures::Scope scope(VFP2);

__ ClampUint8(result_reg, unclamped_reg);

@@ -5222,11 +4992,10 @@ void LCodeGen::DoClampIToUint8(LClampIToUint8* instr) {

void LCodeGen::DoClampTToUint8(LClampTToUint8* instr) {

- CpuFeatures::Scope scope(VFP2);

- DwVfpRegister temp_reg = ToDoubleRegister(instr->temp());

+ DoubleRegister temp_reg = ToDoubleRegister(instr->temp());

Label is_smi, done, heap_number;

// Both smi and heap number cases are handled.

@@ -5803,7 +5572,6 @@ void LCodeGen::EmitIsConstructCall(Register temp1, Register temp2) {

void LCodeGen::EnsureSpaceForLazyDeopt() {

- if (info()->IsStub()) return;

// Ensure that we have enough space after the previous lazy-bailout

// instruction for patching the code here.

int current_pc = masm()->pc_offset();

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