Index: src/mips/lithium-mips.cc |
diff --git a/src/mips/lithium-mips.cc b/src/mips/lithium-mips.cc |
index ccdbcdb5db37017d1bab9f593e62fa1182e8d940..5e53e253cfe0e015f1c9de5efbfcbdf7fa17e5ef 100644 |
--- a/src/mips/lithium-mips.cc |
+++ b/src/mips/lithium-mips.cc |
@@ -939,18 +939,20 @@ LInstruction* LChunkBuilder::DoBranch(HBranch* instr) { |
if (goto_instr != NULL) return goto_instr; |
HValue* value = instr->value(); |
- LBranch* result = new(zone()) LBranch(UseRegister(value)); |
- // Tagged values that are not known smis or booleans require a |
- // deoptimization environment. If the instruction is generic no |
- // environment is needed since all cases are handled. |
- Representation rep = value->representation(); |
+ Representation r = value->representation(); |
HType type = value->type(); |
ToBooleanStub::Types expected = instr->expected_input_types(); |
- if (rep.IsTagged() && !type.IsSmi() && !type.IsBoolean() && |
- !expected.IsGeneric()) { |
- return AssignEnvironment(result); |
+ if (expected.IsEmpty()) expected = ToBooleanStub::Types::Generic(); |
+ |
+ bool easy_case = !r.IsTagged() || type.IsBoolean() || type.IsSmi() || |
+ type.IsJSArray() || type.IsHeapNumber() || type.IsString(); |
+ LInstruction* branch = new(zone()) LBranch(UseRegister(value)); |
+ if (!easy_case && |
+ ((!expected.Contains(ToBooleanStub::SMI) && expected.NeedsMap()) || |
+ !expected.IsGeneric())) { |
+ branch = AssignEnvironment(branch); |
} |
- return result; |
+ return branch; |
} |
@@ -1162,8 +1164,11 @@ LInstruction* LChunkBuilder::DoMathAbs(HUnaryMathOperation* instr) { |
? NULL |
: UseFixed(instr->context(), cp); |
LOperand* input = UseRegister(instr->value()); |
- LMathAbs* result = new(zone()) LMathAbs(context, input); |
- return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
+ LInstruction* result = |
+ DefineAsRegister(new(zone()) LMathAbs(context, input)); |
+ if (!r.IsDouble() && !r.IsSmiOrInteger32()) result = AssignPointerMap(result); |
+ if (!r.IsDouble()) result = AssignEnvironment(result); |
+ return result; |
} |
@@ -1296,8 +1301,17 @@ LInstruction* LChunkBuilder::DoDivI(HBinaryOperation* instr) { |
ASSERT(instr->right()->representation().Equals(instr->representation())); |
LOperand* dividend = UseRegister(instr->left()); |
LOperand* divisor = UseRegister(instr->right()); |
- LDivI* div = new(zone()) LDivI(dividend, divisor); |
- return AssignEnvironment(DefineAsRegister(div)); |
+ LInstruction* result = |
+ DefineAsRegister(new(zone()) LDivI(dividend, divisor)); |
+ if (instr->CheckFlag(HValue::kCanBeDivByZero) || |
+ instr->CheckFlag(HValue::kBailoutOnMinusZero) || |
+ (instr->CheckFlag(HValue::kCanOverflow) && |
+ !instr->CheckFlag(HValue::kAllUsesTruncatingToInt32)) || |
+ (!instr->IsMathFloorOfDiv() && |
+ !instr->CheckFlag(HValue::kAllUsesTruncatingToInt32))) { |
+ result = AssignEnvironment(result); |
+ } |
+ return result; |
} |
@@ -1789,20 +1803,21 @@ LInstruction* LChunkBuilder::DoForceRepresentation(HForceRepresentation* bad) { |
LInstruction* LChunkBuilder::DoChange(HChange* instr) { |
Representation from = instr->from(); |
Representation to = instr->to(); |
+ HValue* val = instr->value(); |
if (from.IsSmi()) { |
if (to.IsTagged()) { |
- LOperand* value = UseRegister(instr->value()); |
+ LOperand* value = UseRegister(val); |
return DefineSameAsFirst(new(zone()) LDummyUse(value)); |
} |
from = Representation::Tagged(); |
} |
if (from.IsTagged()) { |
if (to.IsDouble()) { |
- LOperand* value = UseRegister(instr->value()); |
- LNumberUntagD* res = new(zone()) LNumberUntagD(value); |
- return AssignEnvironment(DefineAsRegister(res)); |
+ LOperand* value = UseRegister(val); |
+ LInstruction* result = DefineAsRegister(new(zone()) LNumberUntagD(value)); |
+ if (!val->representation().IsSmi()) result = AssignEnvironment(result); |
+ return result; |
} else if (to.IsSmi()) { |
- HValue* val = instr->value(); |
LOperand* value = UseRegister(val); |
if (val->type().IsSmi()) { |
return DefineSameAsFirst(new(zone()) LDummyUse(value)); |
@@ -1810,66 +1825,62 @@ LInstruction* LChunkBuilder::DoChange(HChange* instr) { |
return AssignEnvironment(DefineSameAsFirst(new(zone()) LCheckSmi(value))); |
} else { |
ASSERT(to.IsInteger32()); |
- LOperand* value = NULL; |
- LInstruction* res = NULL; |
- HValue* val = instr->value(); |
if (val->type().IsSmi() || val->representation().IsSmi()) { |
- value = UseRegisterAtStart(val); |
- res = DefineAsRegister(new(zone()) LSmiUntag(value, false)); |
+ LOperand* value = UseRegisterAtStart(val); |
+ return DefineAsRegister(new(zone()) LSmiUntag(value, false)); |
} else { |
- value = UseRegister(val); |
+ LOperand* value = UseRegister(val); |
LOperand* temp1 = TempRegister(); |
LOperand* temp2 = FixedTemp(f22); |
- res = DefineSameAsFirst(new(zone()) LTaggedToI(value, |
- temp1, |
- temp2)); |
- res = AssignEnvironment(res); |
+ LInstruction* result = |
+ DefineSameAsFirst(new(zone()) LTaggedToI(value, temp1, temp2)); |
+ if (!val->representation().IsSmi()) { |
+ // Note: Only deopts in deferred code. |
+ result = AssignEnvironment(result); |
+ } |
+ return result; |
} |
- return res; |
} |
} else if (from.IsDouble()) { |
if (to.IsTagged()) { |
info()->MarkAsDeferredCalling(); |
- LOperand* value = UseRegister(instr->value()); |
+ LOperand* value = UseRegister(val); |
LOperand* temp1 = TempRegister(); |
LOperand* temp2 = TempRegister(); |
- |
- // Make sure that the temp and result_temp registers are |
- // different. |
LUnallocated* result_temp = TempRegister(); |
LNumberTagD* result = new(zone()) LNumberTagD(value, temp1, temp2); |
- Define(result, result_temp); |
- return AssignPointerMap(result); |
+ return AssignPointerMap(Define(result, result_temp)); |
} else if (to.IsSmi()) { |
- LOperand* value = UseRegister(instr->value()); |
+ LOperand* value = UseRegister(val); |
return AssignEnvironment( |
DefineAsRegister(new(zone()) LDoubleToSmi(value))); |
} else { |
ASSERT(to.IsInteger32()); |
- LOperand* value = UseRegister(instr->value()); |
- LDoubleToI* res = new(zone()) LDoubleToI(value); |
- return AssignEnvironment(DefineAsRegister(res)); |
+ LOperand* value = UseRegister(val); |
+ LInstruction* result = DefineAsRegister(new(zone()) LDoubleToI(value)); |
+ if (!instr->CanTruncateToInt32()) result = AssignEnvironment(result); |
+ return result; |
} |
} else if (from.IsInteger32()) { |
info()->MarkAsDeferredCalling(); |
if (to.IsTagged()) { |
- HValue* val = instr->value(); |
- LOperand* value = UseRegisterAtStart(val); |
if (!instr->CheckFlag(HValue::kCanOverflow)) { |
+ LOperand* value = UseRegisterAtStart(val); |
return DefineAsRegister(new(zone()) LSmiTag(value)); |
} else if (val->CheckFlag(HInstruction::kUint32)) { |
+ LOperand* value = UseRegisterAtStart(val); |
LOperand* temp1 = TempRegister(); |
LOperand* temp2 = TempRegister(); |
LNumberTagU* result = new(zone()) LNumberTagU(value, temp1, temp2); |
- return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
+ return AssignPointerMap(DefineAsRegister(result)); |
} else { |
+ LOperand* value = UseRegisterAtStart(val); |
LOperand* temp1 = TempRegister(); |
LOperand* temp2 = TempRegister(); |
LNumberTagI* result = new(zone()) LNumberTagI(value, temp1, temp2); |
- return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
+ return AssignPointerMap(DefineAsRegister(result)); |
} |
} else if (to.IsSmi()) { |
- HValue* val = instr->value(); |
LOperand* value = UseRegister(val); |
LInstruction* result = DefineAsRegister(new(zone()) LSmiTag(value)); |
if (instr->CheckFlag(HValue::kCanOverflow)) { |
@@ -1878,12 +1889,10 @@ LInstruction* LChunkBuilder::DoChange(HChange* instr) { |
return result; |
} else { |
ASSERT(to.IsDouble()); |
- if (instr->value()->CheckFlag(HInstruction::kUint32)) { |
- return DefineAsRegister( |
- new(zone()) LUint32ToDouble(UseRegister(instr->value()))); |
+ if (val->CheckFlag(HInstruction::kUint32)) { |
+ return DefineAsRegister(new(zone()) LUint32ToDouble(UseRegister(val))); |
} else { |
- return DefineAsRegister( |
- new(zone()) LInteger32ToDouble(Use(instr->value()))); |
+ return DefineAsRegister(new(zone()) LInteger32ToDouble(Use(val))); |
} |
} |
} |
@@ -1925,6 +1934,7 @@ LInstruction* LChunkBuilder::DoCheckMaps(HCheckMaps* instr) { |
} |
LCheckMaps* result = new(zone()) LCheckMaps(value); |
if (!instr->CanOmitMapChecks()) { |
+ // Note: Only deopts in deferred code. |
AssignEnvironment(result); |
if (instr->has_migration_target()) return AssignPointerMap(result); |
} |
@@ -2025,7 +2035,10 @@ LInstruction* LChunkBuilder::DoLoadContextSlot(HLoadContextSlot* instr) { |
LOperand* context = UseRegisterAtStart(instr->value()); |
LInstruction* result = |
DefineAsRegister(new(zone()) LLoadContextSlot(context)); |
- return instr->RequiresHoleCheck() ? AssignEnvironment(result) : result; |
+ if (instr->RequiresHoleCheck() && instr->DeoptimizesOnHole()) { |
+ result = AssignEnvironment(result); |
+ } |
+ return result; |
} |
@@ -2040,7 +2053,10 @@ LInstruction* LChunkBuilder::DoStoreContextSlot(HStoreContextSlot* instr) { |
value = UseRegister(instr->value()); |
} |
LInstruction* result = new(zone()) LStoreContextSlot(context, value); |
- return instr->RequiresHoleCheck() ? AssignEnvironment(result) : result; |
+ if (instr->RequiresHoleCheck() && instr->DeoptimizesOnHole()) { |
+ result = AssignEnvironment(result); |
+ } |
+ return result; |
} |
@@ -2075,7 +2091,7 @@ LInstruction* LChunkBuilder::DoLoadKeyed(HLoadKeyed* instr) { |
ASSERT(instr->key()->representation().IsSmiOrInteger32()); |
ElementsKind elements_kind = instr->elements_kind(); |
LOperand* key = UseRegisterOrConstantAtStart(instr->key()); |
- LLoadKeyed* result = NULL; |
+ LInstruction* result = NULL; |
if (!instr->is_typed_elements()) { |
LOperand* obj = NULL; |
@@ -2085,24 +2101,28 @@ LInstruction* LChunkBuilder::DoLoadKeyed(HLoadKeyed* instr) { |
ASSERT(instr->representation().IsSmiOrTagged()); |
obj = UseRegisterAtStart(instr->elements()); |
} |
- result = new(zone()) LLoadKeyed(obj, key); |
+ result = DefineAsRegister(new(zone()) LLoadKeyed(obj, key)); |
} else { |
ASSERT( |
(instr->representation().IsInteger32() && |
- !IsDoubleOrFloatElementsKind(instr->elements_kind())) || |
+ !IsDoubleOrFloatElementsKind(elements_kind)) || |
(instr->representation().IsDouble() && |
- IsDoubleOrFloatElementsKind(instr->elements_kind()))); |
+ IsDoubleOrFloatElementsKind(elements_kind))); |
LOperand* backing_store = UseRegister(instr->elements()); |
- result = new(zone()) LLoadKeyed(backing_store, key); |
+ result = DefineAsRegister(new(zone()) LLoadKeyed(backing_store, key)); |
} |
- DefineAsRegister(result); |
- // An unsigned int array load might overflow and cause a deopt, make sure it |
- // has an environment. |
- bool can_deoptimize = instr->RequiresHoleCheck() || |
- elements_kind == EXTERNAL_UINT32_ELEMENTS || |
- elements_kind == UINT32_ELEMENTS; |
- return can_deoptimize ? AssignEnvironment(result) : result; |
+ if ((instr->is_external() || instr->is_fixed_typed_array()) ? |
+ // see LCodeGen::DoLoadKeyedExternalArray |
+ ((elements_kind == EXTERNAL_UINT32_ELEMENTS || |
+ elements_kind == UINT32_ELEMENTS) && |
+ !instr->CheckFlag(HInstruction::kUint32)) : |
+ // see LCodeGen::DoLoadKeyedFixedDoubleArray and |
+ // LCodeGen::DoLoadKeyedFixedArray |
+ instr->RequiresHoleCheck()) { |
+ result = AssignEnvironment(result); |
+ } |
+ return result; |
} |
@@ -2233,11 +2253,11 @@ LInstruction* LChunkBuilder::DoStoreNamedField(HStoreNamedField* instr) { |
// We need a temporary register for write barrier of the map field. |
LOperand* temp = needs_write_barrier_for_map ? TempRegister() : NULL; |
- LStoreNamedField* result = new(zone()) LStoreNamedField(obj, val, temp); |
- if (instr->field_representation().IsHeapObject()) { |
- if (!instr->value()->type().IsHeapObject()) { |
- return AssignEnvironment(result); |
- } |
+ LInstruction* result = new(zone()) LStoreNamedField(obj, val, temp); |
+ if (!instr->access().IsExternalMemory() && |
+ instr->field_representation().IsHeapObject() && |
+ !instr->value()->type().IsHeapObject()) { |
+ result = AssignEnvironment(result); |
} |
return result; |
} |
@@ -2269,7 +2289,7 @@ LInstruction* LChunkBuilder::DoStringCharCodeAt(HStringCharCodeAt* instr) { |
LOperand* context = UseAny(instr->context()); |
LStringCharCodeAt* result = |
new(zone()) LStringCharCodeAt(context, string, index); |
- return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
+ return AssignPointerMap(DefineAsRegister(result)); |
} |