| // Copyright 2012 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. |
| |
| #include "v8.h" |
| |
| #include "lithium-allocator-inl.h" |
| #include "mips/lithium-mips.h" |
| #include "mips/lithium-codegen-mips.h" |
| |
| namespace v8 { |
| namespace internal { |
| |
| #define DEFINE_COMPILE(type) \ |
| void L##type::CompileToNative(LCodeGen* generator) { \ |
| generator->Do##type(this); \ |
| } |
| LITHIUM_CONCRETE_INSTRUCTION_LIST(DEFINE_COMPILE) |
| #undef DEFINE_COMPILE |
| |
| LOsrEntry::LOsrEntry() { |
| for (int i = 0; i < Register::kNumAllocatableRegisters; ++i) { |
| register_spills_[i] = NULL; |
| } |
| for (int i = 0; i < DoubleRegister::kNumAllocatableRegisters; ++i) { |
| double_register_spills_[i] = NULL; |
| } |
| } |
| |
| |
| void LOsrEntry::MarkSpilledRegister(int allocation_index, |
| LOperand* spill_operand) { |
| ASSERT(spill_operand->IsStackSlot()); |
| ASSERT(register_spills_[allocation_index] == NULL); |
| register_spills_[allocation_index] = spill_operand; |
| } |
| |
| |
| #ifdef DEBUG |
| void LInstruction::VerifyCall() { |
| // Call instructions can use only fixed registers as temporaries and |
| // outputs because all registers are blocked by the calling convention. |
| // Inputs operands must use a fixed register or use-at-start policy or |
| // a non-register policy. |
| ASSERT(Output() == NULL || |
| LUnallocated::cast(Output())->HasFixedPolicy() || |
| !LUnallocated::cast(Output())->HasRegisterPolicy()); |
| for (UseIterator it(this); !it.Done(); it.Advance()) { |
| LUnallocated* operand = LUnallocated::cast(it.Current()); |
| ASSERT(operand->HasFixedPolicy() || |
| operand->IsUsedAtStart()); |
| } |
| for (TempIterator it(this); !it.Done(); it.Advance()) { |
| LUnallocated* operand = LUnallocated::cast(it.Current()); |
| ASSERT(operand->HasFixedPolicy() ||!operand->HasRegisterPolicy()); |
| } |
| } |
| #endif |
| |
| |
| void LOsrEntry::MarkSpilledDoubleRegister(int allocation_index, |
| LOperand* spill_operand) { |
| ASSERT(spill_operand->IsDoubleStackSlot()); |
| ASSERT(double_register_spills_[allocation_index] == NULL); |
| double_register_spills_[allocation_index] = spill_operand; |
| } |
| |
| |
| void LInstruction::PrintTo(StringStream* stream) { |
| stream->Add("%s ", this->Mnemonic()); |
| |
| PrintOutputOperandTo(stream); |
| |
| PrintDataTo(stream); |
| |
| if (HasEnvironment()) { |
| stream->Add(" "); |
| environment()->PrintTo(stream); |
| } |
| |
| if (HasPointerMap()) { |
| stream->Add(" "); |
| pointer_map()->PrintTo(stream); |
| } |
| } |
| |
| |
| template<int R, int I, int T> |
| void LTemplateInstruction<R, I, T>::PrintDataTo(StringStream* stream) { |
| stream->Add("= "); |
| for (int i = 0; i < inputs_.length(); i++) { |
| if (i > 0) stream->Add(" "); |
| inputs_[i]->PrintTo(stream); |
| } |
| } |
| |
| |
| template<int R, int I, int T> |
| void LTemplateInstruction<R, I, T>::PrintOutputOperandTo(StringStream* stream) { |
| for (int i = 0; i < results_.length(); i++) { |
| if (i > 0) stream->Add(" "); |
| results_[i]->PrintTo(stream); |
| } |
| } |
| |
| |
| void LLabel::PrintDataTo(StringStream* stream) { |
| LGap::PrintDataTo(stream); |
| LLabel* rep = replacement(); |
| if (rep != NULL) { |
| stream->Add(" Dead block replaced with B%d", rep->block_id()); |
| } |
| } |
| |
| |
| bool LGap::IsRedundant() const { |
| for (int i = 0; i < 4; i++) { |
| if (parallel_moves_[i] != NULL && !parallel_moves_[i]->IsRedundant()) { |
| return false; |
| } |
| } |
| |
| return true; |
| } |
| |
| |
| void LGap::PrintDataTo(StringStream* stream) { |
| for (int i = 0; i < 4; i++) { |
| stream->Add("("); |
| if (parallel_moves_[i] != NULL) { |
| parallel_moves_[i]->PrintDataTo(stream); |
| } |
| stream->Add(") "); |
| } |
| } |
| |
| |
| const char* LArithmeticD::Mnemonic() const { |
| switch (op()) { |
| case Token::ADD: return "add-d"; |
| case Token::SUB: return "sub-d"; |
| case Token::MUL: return "mul-d"; |
| case Token::DIV: return "div-d"; |
| case Token::MOD: return "mod-d"; |
| default: |
| UNREACHABLE(); |
| return NULL; |
| } |
| } |
| |
| |
| const char* LArithmeticT::Mnemonic() const { |
| switch (op()) { |
| case Token::ADD: return "add-t"; |
| case Token::SUB: return "sub-t"; |
| case Token::MUL: return "mul-t"; |
| case Token::MOD: return "mod-t"; |
| case Token::DIV: return "div-t"; |
| case Token::BIT_AND: return "bit-and-t"; |
| case Token::BIT_OR: return "bit-or-t"; |
| case Token::BIT_XOR: return "bit-xor-t"; |
| case Token::SHL: return "sll-t"; |
| case Token::SAR: return "sra-t"; |
| case Token::SHR: return "srl-t"; |
| default: |
| UNREACHABLE(); |
| return NULL; |
| } |
| } |
| |
| |
| void LGoto::PrintDataTo(StringStream* stream) { |
| stream->Add("B%d", block_id()); |
| } |
| |
| |
| void LBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("B%d | B%d on ", true_block_id(), false_block_id()); |
| InputAt(0)->PrintTo(stream); |
| } |
| |
| |
| void LCmpIDAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if "); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(" %s ", Token::String(op())); |
| InputAt(1)->PrintTo(stream); |
| stream->Add(" then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LIsNilAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if "); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(kind() == kStrictEquality ? " === " : " == "); |
| stream->Add(nil() == kNullValue ? "null" : "undefined"); |
| stream->Add(" then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LIsObjectAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if is_object("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LIsStringAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if is_string("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LIsSmiAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if is_smi("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LIsUndetectableAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if is_undetectable("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LStringCompareAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if string_compare("); |
| InputAt(0)->PrintTo(stream); |
| InputAt(1)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LHasInstanceTypeAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if has_instance_type("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LHasCachedArrayIndexAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if has_cached_array_index("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(") then B%d else B%d", true_block_id(), false_block_id()); |
| } |
| |
| |
| void LClassOfTestAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if class_of_test("); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(", \"%o\") then B%d else B%d", |
| *hydrogen()->class_name(), |
| true_block_id(), |
| false_block_id()); |
| } |
| |
| |
| void LTypeofIsAndBranch::PrintDataTo(StringStream* stream) { |
| stream->Add("if typeof "); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(" == \"%s\" then B%d else B%d", |
| *hydrogen()->type_literal()->ToCString(), |
| true_block_id(), false_block_id()); |
| } |
| |
| |
| void LCallConstantFunction::PrintDataTo(StringStream* stream) { |
| stream->Add("#%d / ", arity()); |
| } |
| |
| |
| void LUnaryMathOperation::PrintDataTo(StringStream* stream) { |
| stream->Add("/%s ", hydrogen()->OpName()); |
| InputAt(0)->PrintTo(stream); |
| } |
| |
| |
| void LLoadContextSlot::PrintDataTo(StringStream* stream) { |
| InputAt(0)->PrintTo(stream); |
| stream->Add("[%d]", slot_index()); |
| } |
| |
| |
| void LStoreContextSlot::PrintDataTo(StringStream* stream) { |
| InputAt(0)->PrintTo(stream); |
| stream->Add("[%d] <- ", slot_index()); |
| InputAt(1)->PrintTo(stream); |
| } |
| |
| |
| void LInvokeFunction::PrintDataTo(StringStream* stream) { |
| stream->Add("= "); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(" #%d / ", arity()); |
| } |
| |
| |
| void LCallKeyed::PrintDataTo(StringStream* stream) { |
| stream->Add("[a2] #%d / ", arity()); |
| } |
| |
| |
| void LCallNamed::PrintDataTo(StringStream* stream) { |
| SmartArrayPointer<char> name_string = name()->ToCString(); |
| stream->Add("%s #%d / ", *name_string, arity()); |
| } |
| |
| |
| void LCallGlobal::PrintDataTo(StringStream* stream) { |
| SmartArrayPointer<char> name_string = name()->ToCString(); |
| stream->Add("%s #%d / ", *name_string, arity()); |
| } |
| |
| |
| void LCallKnownGlobal::PrintDataTo(StringStream* stream) { |
| stream->Add("#%d / ", arity()); |
| } |
| |
| |
| void LCallNew::PrintDataTo(StringStream* stream) { |
| stream->Add("= "); |
| InputAt(0)->PrintTo(stream); |
| stream->Add(" #%d / ", arity()); |
| } |
| |
| |
| void LAccessArgumentsAt::PrintDataTo(StringStream* stream) { |
| arguments()->PrintTo(stream); |
| |
| stream->Add(" length "); |
| length()->PrintTo(stream); |
| |
| stream->Add(" index "); |
| index()->PrintTo(stream); |
| } |
| |
| |
| void LStoreNamedField::PrintDataTo(StringStream* stream) { |
| object()->PrintTo(stream); |
| stream->Add("."); |
| stream->Add(*String::cast(*name())->ToCString()); |
| stream->Add(" <- "); |
| value()->PrintTo(stream); |
| } |
| |
| |
| void LStoreNamedGeneric::PrintDataTo(StringStream* stream) { |
| object()->PrintTo(stream); |
| stream->Add("."); |
| stream->Add(*String::cast(*name())->ToCString()); |
| stream->Add(" <- "); |
| value()->PrintTo(stream); |
| } |
| |
| |
| void LStoreKeyedFastElement::PrintDataTo(StringStream* stream) { |
| object()->PrintTo(stream); |
| stream->Add("["); |
| key()->PrintTo(stream); |
| stream->Add("] <- "); |
| value()->PrintTo(stream); |
| } |
| |
| |
| void LStoreKeyedFastDoubleElement::PrintDataTo(StringStream* stream) { |
| elements()->PrintTo(stream); |
| stream->Add("["); |
| key()->PrintTo(stream); |
| stream->Add("] <- "); |
| value()->PrintTo(stream); |
| } |
| |
| |
| void LStoreKeyedGeneric::PrintDataTo(StringStream* stream) { |
| object()->PrintTo(stream); |
| stream->Add("["); |
| key()->PrintTo(stream); |
| stream->Add("] <- "); |
| value()->PrintTo(stream); |
| } |
| |
| |
| void LTransitionElementsKind::PrintDataTo(StringStream* stream) { |
| object()->PrintTo(stream); |
| stream->Add(" %p -> %p", *original_map(), *transitioned_map()); |
| } |
| |
| |
| LChunk::LChunk(CompilationInfo* info, HGraph* graph) |
| : spill_slot_count_(0), |
| info_(info), |
| graph_(graph), |
| instructions_(32), |
| pointer_maps_(8), |
| inlined_closures_(1) { |
| } |
| |
| |
| int LChunk::GetNextSpillIndex(bool is_double) { |
| // Skip a slot if for a double-width slot. |
| if (is_double) spill_slot_count_++; |
| return spill_slot_count_++; |
| } |
| |
| |
| LOperand* LChunk::GetNextSpillSlot(bool is_double) { |
| int index = GetNextSpillIndex(is_double); |
| if (is_double) { |
| return LDoubleStackSlot::Create(index); |
| } else { |
| return LStackSlot::Create(index); |
| } |
| } |
| |
| |
| void LChunk::MarkEmptyBlocks() { |
| HPhase phase("L_Mark empty blocks", this); |
| for (int i = 0; i < graph()->blocks()->length(); ++i) { |
| HBasicBlock* block = graph()->blocks()->at(i); |
| int first = block->first_instruction_index(); |
| int last = block->last_instruction_index(); |
| LInstruction* first_instr = instructions()->at(first); |
| LInstruction* last_instr = instructions()->at(last); |
| |
| LLabel* label = LLabel::cast(first_instr); |
| if (last_instr->IsGoto()) { |
| LGoto* goto_instr = LGoto::cast(last_instr); |
| if (label->IsRedundant() && |
| !label->is_loop_header()) { |
| bool can_eliminate = true; |
| for (int i = first + 1; i < last && can_eliminate; ++i) { |
| LInstruction* cur = instructions()->at(i); |
| if (cur->IsGap()) { |
| LGap* gap = LGap::cast(cur); |
| if (!gap->IsRedundant()) { |
| can_eliminate = false; |
| } |
| } else { |
| can_eliminate = false; |
| } |
| } |
| |
| if (can_eliminate) { |
| label->set_replacement(GetLabel(goto_instr->block_id())); |
| } |
| } |
| } |
| } |
| } |
| |
| |
| void LChunk::AddInstruction(LInstruction* instr, HBasicBlock* block) { |
| LInstructionGap* gap = new(graph_->zone()) LInstructionGap(block); |
| int index = -1; |
| if (instr->IsControl()) { |
| instructions_.Add(gap); |
| index = instructions_.length(); |
| instructions_.Add(instr); |
| } else { |
| index = instructions_.length(); |
| instructions_.Add(instr); |
| instructions_.Add(gap); |
| } |
| if (instr->HasPointerMap()) { |
| pointer_maps_.Add(instr->pointer_map()); |
| instr->pointer_map()->set_lithium_position(index); |
| } |
| } |
| |
| |
| LConstantOperand* LChunk::DefineConstantOperand(HConstant* constant) { |
| return LConstantOperand::Create(constant->id()); |
| } |
| |
| |
| int LChunk::GetParameterStackSlot(int index) const { |
| // The receiver is at index 0, the first parameter at index 1, so we |
| // shift all parameter indexes down by the number of parameters, and |
| // make sure they end up negative so they are distinguishable from |
| // spill slots. |
| int result = index - info()->scope()->num_parameters() - 1; |
| ASSERT(result < 0); |
| return result; |
| } |
| |
| // A parameter relative to ebp in the arguments stub. |
| int LChunk::ParameterAt(int index) { |
| ASSERT(-1 <= index); // -1 is the receiver. |
| return (1 + info()->scope()->num_parameters() - index) * |
| kPointerSize; |
| } |
| |
| |
| LGap* LChunk::GetGapAt(int index) const { |
| return LGap::cast(instructions_[index]); |
| } |
| |
| |
| bool LChunk::IsGapAt(int index) const { |
| return instructions_[index]->IsGap(); |
| } |
| |
| |
| int LChunk::NearestGapPos(int index) const { |
| while (!IsGapAt(index)) index--; |
| return index; |
| } |
| |
| |
| void LChunk::AddGapMove(int index, LOperand* from, LOperand* to) { |
| GetGapAt(index)->GetOrCreateParallelMove(LGap::START)->AddMove(from, to); |
| } |
| |
| |
| Handle<Object> LChunk::LookupLiteral(LConstantOperand* operand) const { |
| return HConstant::cast(graph_->LookupValue(operand->index()))->handle(); |
| } |
| |
| |
| Representation LChunk::LookupLiteralRepresentation( |
| LConstantOperand* operand) const { |
| return graph_->LookupValue(operand->index())->representation(); |
| } |
| |
| |
| LChunk* LChunkBuilder::Build() { |
| ASSERT(is_unused()); |
| chunk_ = new(zone()) LChunk(info(), graph()); |
| HPhase phase("L_Building chunk", chunk_); |
| status_ = BUILDING; |
| const ZoneList<HBasicBlock*>* blocks = graph()->blocks(); |
| for (int i = 0; i < blocks->length(); i++) { |
| HBasicBlock* next = NULL; |
| if (i < blocks->length() - 1) next = blocks->at(i + 1); |
| DoBasicBlock(blocks->at(i), next); |
| if (is_aborted()) return NULL; |
| } |
| status_ = DONE; |
| return chunk_; |
| } |
| |
| |
| void LChunkBuilder::Abort(const char* format, ...) { |
| if (FLAG_trace_bailout) { |
| SmartArrayPointer<char> name( |
| info()->shared_info()->DebugName()->ToCString()); |
| PrintF("Aborting LChunk building in @\"%s\": ", *name); |
| va_list arguments; |
| va_start(arguments, format); |
| OS::VPrint(format, arguments); |
| va_end(arguments); |
| PrintF("\n"); |
| } |
| status_ = ABORTED; |
| } |
| |
| |
| LUnallocated* LChunkBuilder::ToUnallocated(Register reg) { |
| return new(zone()) LUnallocated(LUnallocated::FIXED_REGISTER, |
| Register::ToAllocationIndex(reg)); |
| } |
| |
| |
| LUnallocated* LChunkBuilder::ToUnallocated(DoubleRegister reg) { |
| return new(zone()) LUnallocated(LUnallocated::FIXED_DOUBLE_REGISTER, |
| DoubleRegister::ToAllocationIndex(reg)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseFixed(HValue* value, Register fixed_register) { |
| return Use(value, ToUnallocated(fixed_register)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseFixedDouble(HValue* value, DoubleRegister reg) { |
| return Use(value, ToUnallocated(reg)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseRegister(HValue* value) { |
| return Use(value, new(zone()) LUnallocated(LUnallocated::MUST_HAVE_REGISTER)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseRegisterAtStart(HValue* value) { |
| return Use(value, |
| new(zone()) LUnallocated(LUnallocated::MUST_HAVE_REGISTER, |
| LUnallocated::USED_AT_START)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseTempRegister(HValue* value) { |
| return Use(value, new(zone()) LUnallocated(LUnallocated::WRITABLE_REGISTER)); |
| } |
| |
| |
| LOperand* LChunkBuilder::Use(HValue* value) { |
| return Use(value, new(zone()) LUnallocated(LUnallocated::NONE)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseAtStart(HValue* value) { |
| return Use(value, new(zone()) LUnallocated(LUnallocated::NONE, |
| LUnallocated::USED_AT_START)); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseOrConstant(HValue* value) { |
| return value->IsConstant() |
| ? chunk_->DefineConstantOperand(HConstant::cast(value)) |
| : Use(value); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseOrConstantAtStart(HValue* value) { |
| return value->IsConstant() |
| ? chunk_->DefineConstantOperand(HConstant::cast(value)) |
| : UseAtStart(value); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseRegisterOrConstant(HValue* value) { |
| return value->IsConstant() |
| ? chunk_->DefineConstantOperand(HConstant::cast(value)) |
| : UseRegister(value); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseRegisterOrConstantAtStart(HValue* value) { |
| return value->IsConstant() |
| ? chunk_->DefineConstantOperand(HConstant::cast(value)) |
| : UseRegisterAtStart(value); |
| } |
| |
| |
| LOperand* LChunkBuilder::UseAny(HValue* value) { |
| return value->IsConstant() |
| ? chunk_->DefineConstantOperand(HConstant::cast(value)) |
| : Use(value, new(zone()) LUnallocated(LUnallocated::ANY)); |
| } |
| |
| |
| LOperand* LChunkBuilder::Use(HValue* value, LUnallocated* operand) { |
| if (value->EmitAtUses()) { |
| HInstruction* instr = HInstruction::cast(value); |
| VisitInstruction(instr); |
| } |
| operand->set_virtual_register(value->id()); |
| return operand; |
| } |
| |
| |
| template<int I, int T> |
| LInstruction* LChunkBuilder::Define(LTemplateInstruction<1, I, T>* instr, |
| LUnallocated* result) { |
| result->set_virtual_register(current_instruction_->id()); |
| instr->set_result(result); |
| return instr; |
| } |
| |
| |
| template<int I, int T> |
| LInstruction* LChunkBuilder::DefineAsRegister( |
| LTemplateInstruction<1, I, T>* instr) { |
| return Define(instr, |
| new(zone()) LUnallocated(LUnallocated::MUST_HAVE_REGISTER)); |
| } |
| |
| |
| template<int I, int T> |
| LInstruction* LChunkBuilder::DefineAsSpilled( |
| LTemplateInstruction<1, I, T>* instr, int index) { |
| return Define(instr, |
| new(zone()) LUnallocated(LUnallocated::FIXED_SLOT, index)); |
| } |
| |
| |
| template<int I, int T> |
| LInstruction* LChunkBuilder::DefineSameAsFirst( |
| LTemplateInstruction<1, I, T>* instr) { |
| return Define(instr, |
| new(zone()) LUnallocated(LUnallocated::SAME_AS_FIRST_INPUT)); |
| } |
| |
| |
| template<int I, int T> |
| LInstruction* LChunkBuilder::DefineFixed( |
| LTemplateInstruction<1, I, T>* instr, Register reg) { |
| return Define(instr, ToUnallocated(reg)); |
| } |
| |
| |
| template<int I, int T> |
| LInstruction* LChunkBuilder::DefineFixedDouble( |
| LTemplateInstruction<1, I, T>* instr, DoubleRegister reg) { |
| return Define(instr, ToUnallocated(reg)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::AssignEnvironment(LInstruction* instr) { |
| HEnvironment* hydrogen_env = current_block_->last_environment(); |
| int argument_index_accumulator = 0; |
| instr->set_environment(CreateEnvironment(hydrogen_env, |
| &argument_index_accumulator)); |
| return instr; |
| } |
| |
| |
| LInstruction* LChunkBuilder::SetInstructionPendingDeoptimizationEnvironment( |
| LInstruction* instr, int ast_id) { |
| ASSERT(instruction_pending_deoptimization_environment_ == NULL); |
| ASSERT(pending_deoptimization_ast_id_ == AstNode::kNoNumber); |
| instruction_pending_deoptimization_environment_ = instr; |
| pending_deoptimization_ast_id_ = ast_id; |
| return instr; |
| } |
| |
| |
| void LChunkBuilder::ClearInstructionPendingDeoptimizationEnvironment() { |
| instruction_pending_deoptimization_environment_ = NULL; |
| pending_deoptimization_ast_id_ = AstNode::kNoNumber; |
| } |
| |
| |
| LInstruction* LChunkBuilder::MarkAsCall(LInstruction* instr, |
| HInstruction* hinstr, |
| CanDeoptimize can_deoptimize) { |
| #ifdef DEBUG |
| instr->VerifyCall(); |
| #endif |
| instr->MarkAsCall(); |
| instr = AssignPointerMap(instr); |
| |
| if (hinstr->HasObservableSideEffects()) { |
| ASSERT(hinstr->next()->IsSimulate()); |
| HSimulate* sim = HSimulate::cast(hinstr->next()); |
| instr = SetInstructionPendingDeoptimizationEnvironment( |
| instr, sim->ast_id()); |
| } |
| |
| // If instruction does not have side-effects lazy deoptimization |
| // after the call will try to deoptimize to the point before the call. |
| // Thus we still need to attach environment to this call even if |
| // call sequence can not deoptimize eagerly. |
| bool needs_environment = |
| (can_deoptimize == CAN_DEOPTIMIZE_EAGERLY) || |
| !hinstr->HasObservableSideEffects(); |
| if (needs_environment && !instr->HasEnvironment()) { |
| instr = AssignEnvironment(instr); |
| } |
| |
| return instr; |
| } |
| |
| |
| LInstruction* LChunkBuilder::MarkAsSaveDoubles(LInstruction* instr) { |
| instr->MarkAsSaveDoubles(); |
| return instr; |
| } |
| |
| |
| LInstruction* LChunkBuilder::AssignPointerMap(LInstruction* instr) { |
| ASSERT(!instr->HasPointerMap()); |
| instr->set_pointer_map(new(zone()) LPointerMap(position_)); |
| return instr; |
| } |
| |
| |
| LUnallocated* LChunkBuilder::TempRegister() { |
| LUnallocated* operand = |
| new(zone()) LUnallocated(LUnallocated::MUST_HAVE_REGISTER); |
| operand->set_virtual_register(allocator_->GetVirtualRegister()); |
| if (!allocator_->AllocationOk()) Abort("Not enough virtual registers."); |
| return operand; |
| } |
| |
| |
| LOperand* LChunkBuilder::FixedTemp(Register reg) { |
| LUnallocated* operand = ToUnallocated(reg); |
| ASSERT(operand->HasFixedPolicy()); |
| return operand; |
| } |
| |
| |
| LOperand* LChunkBuilder::FixedTemp(DoubleRegister reg) { |
| LUnallocated* operand = ToUnallocated(reg); |
| ASSERT(operand->HasFixedPolicy()); |
| return operand; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoBlockEntry(HBlockEntry* instr) { |
| return new(zone()) LLabel(instr->block()); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoSoftDeoptimize(HSoftDeoptimize* instr) { |
| return AssignEnvironment(new(zone()) LDeoptimize); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoDeoptimize(HDeoptimize* instr) { |
| return AssignEnvironment(new(zone()) LDeoptimize); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoShift(Token::Value op, |
| HBitwiseBinaryOperation* instr) { |
| if (instr->representation().IsTagged()) { |
| ASSERT(instr->left()->representation().IsTagged()); |
| ASSERT(instr->right()->representation().IsTagged()); |
| |
| LOperand* left = UseFixed(instr->left(), a1); |
| LOperand* right = UseFixed(instr->right(), a0); |
| LArithmeticT* result = new(zone()) LArithmeticT(op, left, right); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| ASSERT(instr->representation().IsInteger32()); |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| LOperand* left = UseRegisterAtStart(instr->left()); |
| |
| HValue* right_value = instr->right(); |
| LOperand* right = NULL; |
| int constant_value = 0; |
| if (right_value->IsConstant()) { |
| HConstant* constant = HConstant::cast(right_value); |
| right = chunk_->DefineConstantOperand(constant); |
| constant_value = constant->Integer32Value() & 0x1f; |
| } else { |
| right = UseRegisterAtStart(right_value); |
| } |
| |
| // Shift operations can only deoptimize if we do a logical shift |
| // by 0 and the result cannot be truncated to int32. |
| bool may_deopt = (op == Token::SHR && constant_value == 0); |
| bool does_deopt = false; |
| if (may_deopt) { |
| for (HUseIterator it(instr->uses()); !it.Done(); it.Advance()) { |
| if (!it.value()->CheckFlag(HValue::kTruncatingToInt32)) { |
| does_deopt = true; |
| break; |
| } |
| } |
| } |
| |
| LInstruction* result = |
| DefineAsRegister(new(zone()) LShiftI(op, left, right, does_deopt)); |
| return does_deopt ? AssignEnvironment(result) : result; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoArithmeticD(Token::Value op, |
| HArithmeticBinaryOperation* instr) { |
| ASSERT(instr->representation().IsDouble()); |
| ASSERT(instr->left()->representation().IsDouble()); |
| ASSERT(instr->right()->representation().IsDouble()); |
| ASSERT(op != Token::MOD); |
| LOperand* left = UseRegisterAtStart(instr->left()); |
| LOperand* right = UseRegisterAtStart(instr->right()); |
| LArithmeticD* result = new(zone()) LArithmeticD(op, left, right); |
| return DefineAsRegister(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoArithmeticT(Token::Value op, |
| HArithmeticBinaryOperation* instr) { |
| ASSERT(op == Token::ADD || |
| op == Token::DIV || |
| op == Token::MOD || |
| op == Token::MUL || |
| op == Token::SUB); |
| HValue* left = instr->left(); |
| HValue* right = instr->right(); |
| ASSERT(left->representation().IsTagged()); |
| ASSERT(right->representation().IsTagged()); |
| LOperand* left_operand = UseFixed(left, a1); |
| LOperand* right_operand = UseFixed(right, a0); |
| LArithmeticT* result = |
| new(zone()) LArithmeticT(op, left_operand, right_operand); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| void LChunkBuilder::DoBasicBlock(HBasicBlock* block, HBasicBlock* next_block) { |
| ASSERT(is_building()); |
| current_block_ = block; |
| next_block_ = next_block; |
| if (block->IsStartBlock()) { |
| block->UpdateEnvironment(graph_->start_environment()); |
| argument_count_ = 0; |
| } else if (block->predecessors()->length() == 1) { |
| // We have a single predecessor => copy environment and outgoing |
| // argument count from the predecessor. |
| ASSERT(block->phis()->length() == 0); |
| HBasicBlock* pred = block->predecessors()->at(0); |
| HEnvironment* last_environment = pred->last_environment(); |
| ASSERT(last_environment != NULL); |
| // Only copy the environment, if it is later used again. |
| if (pred->end()->SecondSuccessor() == NULL) { |
| ASSERT(pred->end()->FirstSuccessor() == block); |
| } else { |
| if (pred->end()->FirstSuccessor()->block_id() > block->block_id() || |
| pred->end()->SecondSuccessor()->block_id() > block->block_id()) { |
| last_environment = last_environment->Copy(); |
| } |
| } |
| block->UpdateEnvironment(last_environment); |
| ASSERT(pred->argument_count() >= 0); |
| argument_count_ = pred->argument_count(); |
| } else { |
| // We are at a state join => process phis. |
| HBasicBlock* pred = block->predecessors()->at(0); |
| // No need to copy the environment, it cannot be used later. |
| HEnvironment* last_environment = pred->last_environment(); |
| for (int i = 0; i < block->phis()->length(); ++i) { |
| HPhi* phi = block->phis()->at(i); |
| last_environment->SetValueAt(phi->merged_index(), phi); |
| } |
| for (int i = 0; i < block->deleted_phis()->length(); ++i) { |
| last_environment->SetValueAt(block->deleted_phis()->at(i), |
| graph_->GetConstantUndefined()); |
| } |
| block->UpdateEnvironment(last_environment); |
| // Pick up the outgoing argument count of one of the predecessors. |
| argument_count_ = pred->argument_count(); |
| } |
| HInstruction* current = block->first(); |
| int start = chunk_->instructions()->length(); |
| while (current != NULL && !is_aborted()) { |
| // Code for constants in registers is generated lazily. |
| if (!current->EmitAtUses()) { |
| VisitInstruction(current); |
| } |
| current = current->next(); |
| } |
| int end = chunk_->instructions()->length() - 1; |
| if (end >= start) { |
| block->set_first_instruction_index(start); |
| block->set_last_instruction_index(end); |
| } |
| block->set_argument_count(argument_count_); |
| next_block_ = NULL; |
| current_block_ = NULL; |
| } |
| |
| |
| void LChunkBuilder::VisitInstruction(HInstruction* current) { |
| HInstruction* old_current = current_instruction_; |
| current_instruction_ = current; |
| if (current->has_position()) position_ = current->position(); |
| LInstruction* instr = current->CompileToLithium(this); |
| |
| if (instr != NULL) { |
| if (FLAG_stress_pointer_maps && !instr->HasPointerMap()) { |
| instr = AssignPointerMap(instr); |
| } |
| if (FLAG_stress_environments && !instr->HasEnvironment()) { |
| instr = AssignEnvironment(instr); |
| } |
| instr->set_hydrogen_value(current); |
| chunk_->AddInstruction(instr, current_block_); |
| } |
| current_instruction_ = old_current; |
| } |
| |
| |
| LEnvironment* LChunkBuilder::CreateEnvironment( |
| HEnvironment* hydrogen_env, |
| int* argument_index_accumulator) { |
| if (hydrogen_env == NULL) return NULL; |
| |
| LEnvironment* outer = |
| CreateEnvironment(hydrogen_env->outer(), argument_index_accumulator); |
| int ast_id = hydrogen_env->ast_id(); |
| ASSERT(ast_id != AstNode::kNoNumber || |
| hydrogen_env->frame_type() != JS_FUNCTION); |
| int value_count = hydrogen_env->length(); |
| LEnvironment* result = new(zone()) LEnvironment( |
| hydrogen_env->closure(), |
| hydrogen_env->frame_type(), |
| ast_id, |
| hydrogen_env->parameter_count(), |
| argument_count_, |
| value_count, |
| outer); |
| int argument_index = *argument_index_accumulator; |
| for (int i = 0; i < value_count; ++i) { |
| if (hydrogen_env->is_special_index(i)) continue; |
| |
| HValue* value = hydrogen_env->values()->at(i); |
| LOperand* op = NULL; |
| if (value->IsArgumentsObject()) { |
| op = NULL; |
| } else if (value->IsPushArgument()) { |
| op = new(zone()) LArgument(argument_index++); |
| } else { |
| op = UseAny(value); |
| } |
| result->AddValue(op, value->representation()); |
| } |
| |
| if (hydrogen_env->frame_type() == JS_FUNCTION) { |
| *argument_index_accumulator = argument_index; |
| } |
| |
| return result; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoGoto(HGoto* instr) { |
| return new(zone()) LGoto(instr->FirstSuccessor()->block_id()); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoBranch(HBranch* instr) { |
| HValue* value = instr->value(); |
| if (value->EmitAtUses()) { |
| HBasicBlock* successor = HConstant::cast(value)->ToBoolean() |
| ? instr->FirstSuccessor() |
| : instr->SecondSuccessor(); |
| return new(zone()) LGoto(successor->block_id()); |
| } |
| |
| LBranch* result = new(zone()) LBranch(UseRegister(value)); |
| // Tagged values that are not known smis or booleans require a |
| // deoptimization environment. |
| Representation rep = value->representation(); |
| HType type = value->type(); |
| if (rep.IsTagged() && !type.IsSmi() && !type.IsBoolean()) { |
| return AssignEnvironment(result); |
| } |
| return result; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCompareMap(HCompareMap* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| LOperand* temp = TempRegister(); |
| return new(zone()) LCmpMapAndBranch(value, temp); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoArgumentsLength(HArgumentsLength* length) { |
| return DefineAsRegister( |
| new(zone()) LArgumentsLength(UseRegister(length->value()))); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoArgumentsElements(HArgumentsElements* elems) { |
| return DefineAsRegister(new(zone()) LArgumentsElements); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoInstanceOf(HInstanceOf* instr) { |
| LInstanceOf* result = |
| new(zone()) LInstanceOf(UseFixed(instr->left(), a0), |
| UseFixed(instr->right(), a1)); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoInstanceOfKnownGlobal( |
| HInstanceOfKnownGlobal* instr) { |
| LInstanceOfKnownGlobal* result = |
| new(zone()) LInstanceOfKnownGlobal(UseFixed(instr->left(), a0), |
| FixedTemp(t0)); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoWrapReceiver(HWrapReceiver* instr) { |
| LOperand* receiver = UseRegisterAtStart(instr->receiver()); |
| LOperand* function = UseRegisterAtStart(instr->function()); |
| LWrapReceiver* result = new(zone()) LWrapReceiver(receiver, function); |
| return AssignEnvironment(DefineSameAsFirst(result)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoApplyArguments(HApplyArguments* instr) { |
| LOperand* function = UseFixed(instr->function(), a1); |
| LOperand* receiver = UseFixed(instr->receiver(), a0); |
| LOperand* length = UseFixed(instr->length(), a2); |
| LOperand* elements = UseFixed(instr->elements(), a3); |
| LApplyArguments* result = new(zone()) LApplyArguments(function, |
| receiver, |
| length, |
| elements); |
| return MarkAsCall(DefineFixed(result, v0), instr, CAN_DEOPTIMIZE_EAGERLY); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoPushArgument(HPushArgument* instr) { |
| ++argument_count_; |
| LOperand* argument = Use(instr->argument()); |
| return new(zone()) LPushArgument(argument); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoThisFunction(HThisFunction* instr) { |
| return instr->HasNoUses() |
| ? NULL |
| : DefineAsRegister(new(zone()) LThisFunction); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoContext(HContext* instr) { |
| return instr->HasNoUses() ? NULL : DefineAsRegister(new(zone()) LContext); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoOuterContext(HOuterContext* instr) { |
| LOperand* context = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LOuterContext(context)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoDeclareGlobals(HDeclareGlobals* instr) { |
| return MarkAsCall(new(zone()) LDeclareGlobals, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoGlobalObject(HGlobalObject* instr) { |
| LOperand* context = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LGlobalObject(context)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoGlobalReceiver(HGlobalReceiver* instr) { |
| LOperand* global_object = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LGlobalReceiver(global_object)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallConstantFunction( |
| HCallConstantFunction* instr) { |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallConstantFunction, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoInvokeFunction(HInvokeFunction* instr) { |
| LOperand* function = UseFixed(instr->function(), a1); |
| argument_count_ -= instr->argument_count(); |
| LInvokeFunction* result = new(zone()) LInvokeFunction(function); |
| return MarkAsCall(DefineFixed(result, v0), instr, CANNOT_DEOPTIMIZE_EAGERLY); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoUnaryMathOperation(HUnaryMathOperation* instr) { |
| BuiltinFunctionId op = instr->op(); |
| if (op == kMathLog || op == kMathSin || op == kMathCos || op == kMathTan) { |
| LOperand* input = UseFixedDouble(instr->value(), f4); |
| LUnaryMathOperation* result = new(zone()) LUnaryMathOperation(input, NULL); |
| return MarkAsCall(DefineFixedDouble(result, f4), instr); |
| } else if (op == kMathPowHalf) { |
| // Input cannot be the same as the result. |
| // See lithium-codegen-mips.cc::DoMathPowHalf. |
| LOperand* input = UseFixedDouble(instr->value(), f8); |
| LOperand* temp = FixedTemp(f6); |
| LUnaryMathOperation* result = new(zone()) LUnaryMathOperation(input, temp); |
| return DefineFixedDouble(result, f4); |
| } else { |
| LOperand* input = UseRegisterAtStart(instr->value()); |
| LOperand* temp = (op == kMathFloor) ? TempRegister() : NULL; |
| LUnaryMathOperation* result = new(zone()) LUnaryMathOperation(input, temp); |
| switch (op) { |
| case kMathAbs: |
| return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
| case kMathFloor: |
| return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
| case kMathSqrt: |
| return DefineAsRegister(result); |
| case kMathRound: |
| return AssignEnvironment(DefineAsRegister(result)); |
| default: |
| UNREACHABLE(); |
| return NULL; |
| } |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallKeyed(HCallKeyed* instr) { |
| ASSERT(instr->key()->representation().IsTagged()); |
| argument_count_ -= instr->argument_count(); |
| LOperand* key = UseFixed(instr->key(), a2); |
| return MarkAsCall(DefineFixed(new(zone()) LCallKeyed(key), v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallNamed(HCallNamed* instr) { |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallNamed, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallGlobal(HCallGlobal* instr) { |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallGlobal, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallKnownGlobal(HCallKnownGlobal* instr) { |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallKnownGlobal, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallNew(HCallNew* instr) { |
| LOperand* constructor = UseFixed(instr->constructor(), a1); |
| argument_count_ -= instr->argument_count(); |
| LCallNew* result = new(zone()) LCallNew(constructor); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallFunction(HCallFunction* instr) { |
| LOperand* function = UseFixed(instr->function(), a1); |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallFunction(function), v0), |
| instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallRuntime(HCallRuntime* instr) { |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallRuntime, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoShr(HShr* instr) { |
| return DoShift(Token::SHR, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoSar(HSar* instr) { |
| return DoShift(Token::SAR, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoShl(HShl* instr) { |
| return DoShift(Token::SHL, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoBitwise(HBitwise* instr) { |
| if (instr->representation().IsInteger32()) { |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| |
| LOperand* left = UseRegisterAtStart(instr->LeastConstantOperand()); |
| LOperand* right = UseOrConstantAtStart(instr->MostConstantOperand()); |
| return DefineAsRegister(new(zone()) LBitI(left, right)); |
| } else { |
| ASSERT(instr->representation().IsTagged()); |
| ASSERT(instr->left()->representation().IsTagged()); |
| ASSERT(instr->right()->representation().IsTagged()); |
| |
| LOperand* left = UseFixed(instr->left(), a1); |
| LOperand* right = UseFixed(instr->right(), a0); |
| LArithmeticT* result = new(zone()) LArithmeticT(instr->op(), left, right); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoBitNot(HBitNot* instr) { |
| ASSERT(instr->value()->representation().IsInteger32()); |
| ASSERT(instr->representation().IsInteger32()); |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LBitNotI(value)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoDiv(HDiv* instr) { |
| if (instr->representation().IsDouble()) { |
| return DoArithmeticD(Token::DIV, instr); |
| } else if (instr->representation().IsInteger32()) { |
| // TODO(1042) The fixed register allocation |
| // is needed because we call TypeRecordingBinaryOpStub from |
| // the generated code, which requires registers a0 |
| // and a1 to be used. We should remove that |
| // when we provide a native implementation. |
| LOperand* dividend = UseFixed(instr->left(), a0); |
| LOperand* divisor = UseFixed(instr->right(), a1); |
| return AssignEnvironment(AssignPointerMap( |
| DefineFixed(new(zone()) LDivI(dividend, divisor), v0))); |
| } else { |
| return DoArithmeticT(Token::DIV, instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoMod(HMod* instr) { |
| if (instr->representation().IsInteger32()) { |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| |
| LModI* mod; |
| if (instr->HasPowerOf2Divisor()) { |
| ASSERT(!instr->CheckFlag(HValue::kCanBeDivByZero)); |
| LOperand* value = UseRegisterAtStart(instr->left()); |
| mod = new(zone()) LModI(value, UseOrConstant(instr->right())); |
| } else { |
| LOperand* dividend = UseRegister(instr->left()); |
| LOperand* divisor = UseRegister(instr->right()); |
| mod = new(zone()) LModI(dividend, |
| divisor, |
| TempRegister(), |
| FixedTemp(f20), |
| FixedTemp(f22)); |
| } |
| |
| if (instr->CheckFlag(HValue::kBailoutOnMinusZero) || |
| instr->CheckFlag(HValue::kCanBeDivByZero)) { |
| return AssignEnvironment(DefineAsRegister(mod)); |
| } else { |
| return DefineAsRegister(mod); |
| } |
| } else if (instr->representation().IsTagged()) { |
| return DoArithmeticT(Token::MOD, instr); |
| } else { |
| ASSERT(instr->representation().IsDouble()); |
| // We call a C function for double modulo. It can't trigger a GC. |
| // We need to use fixed result register for the call. |
| // TODO(fschneider): Allow any register as input registers. |
| LOperand* left = UseFixedDouble(instr->left(), f2); |
| LOperand* right = UseFixedDouble(instr->right(), f4); |
| LArithmeticD* result = new(zone()) LArithmeticD(Token::MOD, left, right); |
| return MarkAsCall(DefineFixedDouble(result, f2), instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoMul(HMul* instr) { |
| if (instr->representation().IsInteger32()) { |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| LOperand* left; |
| LOperand* right = UseOrConstant(instr->MostConstantOperand()); |
| LOperand* temp = NULL; |
| if (instr->CheckFlag(HValue::kBailoutOnMinusZero) && |
| (instr->CheckFlag(HValue::kCanOverflow) || |
| !right->IsConstantOperand())) { |
| left = UseRegister(instr->LeastConstantOperand()); |
| temp = TempRegister(); |
| } else { |
| left = UseRegisterAtStart(instr->LeastConstantOperand()); |
| } |
| LMulI* mul = new(zone()) LMulI(left, right, temp); |
| if (instr->CheckFlag(HValue::kCanOverflow) || |
| instr->CheckFlag(HValue::kBailoutOnMinusZero)) { |
| AssignEnvironment(mul); |
| } |
| return DefineAsRegister(mul); |
| |
| } else if (instr->representation().IsDouble()) { |
| return DoArithmeticD(Token::MUL, instr); |
| |
| } else { |
| return DoArithmeticT(Token::MUL, instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoSub(HSub* instr) { |
| if (instr->representation().IsInteger32()) { |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| LOperand* left = UseRegisterAtStart(instr->left()); |
| LOperand* right = UseOrConstantAtStart(instr->right()); |
| LSubI* sub = new(zone()) LSubI(left, right); |
| LInstruction* result = DefineAsRegister(sub); |
| if (instr->CheckFlag(HValue::kCanOverflow)) { |
| result = AssignEnvironment(result); |
| } |
| return result; |
| } else if (instr->representation().IsDouble()) { |
| return DoArithmeticD(Token::SUB, instr); |
| } else { |
| return DoArithmeticT(Token::SUB, instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoAdd(HAdd* instr) { |
| if (instr->representation().IsInteger32()) { |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| LOperand* left = UseRegisterAtStart(instr->LeastConstantOperand()); |
| LOperand* right = UseOrConstantAtStart(instr->MostConstantOperand()); |
| LAddI* add = new(zone()) LAddI(left, right); |
| LInstruction* result = DefineAsRegister(add); |
| if (instr->CheckFlag(HValue::kCanOverflow)) { |
| result = AssignEnvironment(result); |
| } |
| return result; |
| } else if (instr->representation().IsDouble()) { |
| return DoArithmeticD(Token::ADD, instr); |
| } else { |
| ASSERT(instr->representation().IsTagged()); |
| return DoArithmeticT(Token::ADD, instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoPower(HPower* instr) { |
| ASSERT(instr->representation().IsDouble()); |
| // We call a C function for double power. It can't trigger a GC. |
| // We need to use fixed result register for the call. |
| Representation exponent_type = instr->right()->representation(); |
| ASSERT(instr->left()->representation().IsDouble()); |
| LOperand* left = UseFixedDouble(instr->left(), f2); |
| LOperand* right = exponent_type.IsDouble() ? |
| UseFixedDouble(instr->right(), f4) : |
| UseFixed(instr->right(), a2); |
| LPower* result = new(zone()) LPower(left, right); |
| return MarkAsCall(DefineFixedDouble(result, f0), |
| instr, |
| CAN_DEOPTIMIZE_EAGERLY); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoRandom(HRandom* instr) { |
| ASSERT(instr->representation().IsDouble()); |
| ASSERT(instr->global_object()->representation().IsTagged()); |
| LOperand* global_object = UseFixed(instr->global_object(), a0); |
| LRandom* result = new(zone()) LRandom(global_object); |
| return MarkAsCall(DefineFixedDouble(result, f0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCompareGeneric(HCompareGeneric* instr) { |
| ASSERT(instr->left()->representation().IsTagged()); |
| ASSERT(instr->right()->representation().IsTagged()); |
| LOperand* left = UseFixed(instr->left(), a1); |
| LOperand* right = UseFixed(instr->right(), a0); |
| LCmpT* result = new(zone()) LCmpT(left, right); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCompareIDAndBranch( |
| HCompareIDAndBranch* instr) { |
| Representation r = instr->GetInputRepresentation(); |
| if (r.IsInteger32()) { |
| ASSERT(instr->left()->representation().IsInteger32()); |
| ASSERT(instr->right()->representation().IsInteger32()); |
| LOperand* left = UseRegisterOrConstantAtStart(instr->left()); |
| LOperand* right = UseRegisterOrConstantAtStart(instr->right()); |
| return new(zone()) LCmpIDAndBranch(left, right); |
| } else { |
| ASSERT(r.IsDouble()); |
| ASSERT(instr->left()->representation().IsDouble()); |
| ASSERT(instr->right()->representation().IsDouble()); |
| LOperand* left = UseRegisterAtStart(instr->left()); |
| LOperand* right = UseRegisterAtStart(instr->right()); |
| return new(zone()) LCmpIDAndBranch(left, right); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCompareObjectEqAndBranch( |
| HCompareObjectEqAndBranch* instr) { |
| LOperand* left = UseRegisterAtStart(instr->left()); |
| LOperand* right = UseRegisterAtStart(instr->right()); |
| return new(zone()) LCmpObjectEqAndBranch(left, right); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCompareConstantEqAndBranch( |
| HCompareConstantEqAndBranch* instr) { |
| return new(zone()) LCmpConstantEqAndBranch( |
| UseRegisterAtStart(instr->value())); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIsNilAndBranch(HIsNilAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| return new(zone()) LIsNilAndBranch(UseRegisterAtStart(instr->value())); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIsObjectAndBranch(HIsObjectAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| LOperand* temp = TempRegister(); |
| return new(zone()) LIsObjectAndBranch(UseRegisterAtStart(instr->value()), |
| temp); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIsStringAndBranch(HIsStringAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| LOperand* temp = TempRegister(); |
| return new(zone()) LIsStringAndBranch(UseRegisterAtStart(instr->value()), |
| temp); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIsSmiAndBranch(HIsSmiAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| return new(zone()) LIsSmiAndBranch(Use(instr->value())); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIsUndetectableAndBranch( |
| HIsUndetectableAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| return new(zone()) LIsUndetectableAndBranch( |
| UseRegisterAtStart(instr->value()), TempRegister()); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStringCompareAndBranch( |
| HStringCompareAndBranch* instr) { |
| ASSERT(instr->left()->representation().IsTagged()); |
| ASSERT(instr->right()->representation().IsTagged()); |
| LOperand* left = UseFixed(instr->left(), a1); |
| LOperand* right = UseFixed(instr->right(), a0); |
| LStringCompareAndBranch* result = |
| new(zone()) LStringCompareAndBranch(left, right); |
| return MarkAsCall(result, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoHasInstanceTypeAndBranch( |
| HHasInstanceTypeAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| return new(zone()) LHasInstanceTypeAndBranch(value); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoGetCachedArrayIndex( |
| HGetCachedArrayIndex* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| |
| return DefineAsRegister(new(zone()) LGetCachedArrayIndex(value)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoHasCachedArrayIndexAndBranch( |
| HHasCachedArrayIndexAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| return new(zone()) LHasCachedArrayIndexAndBranch( |
| UseRegisterAtStart(instr->value())); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoClassOfTestAndBranch( |
| HClassOfTestAndBranch* instr) { |
| ASSERT(instr->value()->representation().IsTagged()); |
| return new(zone()) LClassOfTestAndBranch(UseRegister(instr->value()), |
| TempRegister()); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoJSArrayLength(HJSArrayLength* instr) { |
| LOperand* array = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LJSArrayLength(array)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoFixedArrayBaseLength( |
| HFixedArrayBaseLength* instr) { |
| LOperand* array = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LFixedArrayBaseLength(array)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoElementsKind(HElementsKind* instr) { |
| LOperand* object = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LElementsKind(object)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoValueOf(HValueOf* instr) { |
| LOperand* object = UseRegister(instr->value()); |
| LValueOf* result = new(zone()) LValueOf(object, TempRegister()); |
| return DefineAsRegister(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoDateField(HDateField* instr) { |
| LOperand* object = UseFixed(instr->value(), a0); |
| LDateField* result = new LDateField(object, FixedTemp(a1), instr->index()); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoBoundsCheck(HBoundsCheck* instr) { |
| LOperand* value = UseRegisterAtStart(instr->index()); |
| LOperand* length = UseRegister(instr->length()); |
| return AssignEnvironment(new(zone()) LBoundsCheck(value, length)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoAbnormalExit(HAbnormalExit* instr) { |
| // The control instruction marking the end of a block that completed |
| // abruptly (e.g., threw an exception). There is nothing specific to do. |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoThrow(HThrow* instr) { |
| LOperand* value = UseFixed(instr->value(), a0); |
| return MarkAsCall(new(zone()) LThrow(value), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoUseConst(HUseConst* instr) { |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoForceRepresentation(HForceRepresentation* bad) { |
| // All HForceRepresentation instructions should be eliminated in the |
| // representation change phase of Hydrogen. |
| UNREACHABLE(); |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoChange(HChange* instr) { |
| Representation from = instr->from(); |
| Representation to = instr->to(); |
| if (from.IsTagged()) { |
| if (to.IsDouble()) { |
| LOperand* value = UseRegister(instr->value()); |
| LNumberUntagD* res = new(zone()) LNumberUntagD(value); |
| return AssignEnvironment(DefineAsRegister(res)); |
| } else { |
| ASSERT(to.IsInteger32()); |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| bool needs_check = !instr->value()->type().IsSmi(); |
| LInstruction* res = NULL; |
| if (!needs_check) { |
| res = DefineAsRegister(new(zone()) LSmiUntag(value, needs_check)); |
| } else { |
| LOperand* temp1 = TempRegister(); |
| LOperand* temp2 = instr->CanTruncateToInt32() ? TempRegister() |
| : NULL; |
| LOperand* temp3 = instr->CanTruncateToInt32() ? FixedTemp(f22) |
| : NULL; |
| res = DefineSameAsFirst(new(zone()) LTaggedToI(value, |
| temp1, |
| temp2, |
| temp3)); |
| res = AssignEnvironment(res); |
| } |
| return res; |
| } |
| } else if (from.IsDouble()) { |
| if (to.IsTagged()) { |
| LOperand* value = UseRegister(instr->value()); |
| 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); |
| } else { |
| ASSERT(to.IsInteger32()); |
| LOperand* value = UseRegister(instr->value()); |
| LOperand* temp1 = TempRegister(); |
| LOperand* temp2 = instr->CanTruncateToInt32() ? TempRegister() : NULL; |
| LDoubleToI* res = new(zone()) LDoubleToI(value, temp1, temp2); |
| return AssignEnvironment(DefineAsRegister(res)); |
| } |
| } else if (from.IsInteger32()) { |
| if (to.IsTagged()) { |
| HValue* val = instr->value(); |
| LOperand* value = UseRegisterAtStart(val); |
| if (val->HasRange() && val->range()->IsInSmiRange()) { |
| return DefineAsRegister(new(zone()) LSmiTag(value)); |
| } else { |
| LNumberTagI* result = new(zone()) LNumberTagI(value); |
| return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
| } |
| } else { |
| ASSERT(to.IsDouble()); |
| LOperand* value = Use(instr->value()); |
| return DefineAsRegister(new(zone()) LInteger32ToDouble(value)); |
| } |
| } |
| UNREACHABLE(); |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckNonSmi(HCheckNonSmi* instr) { |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| return AssignEnvironment(new(zone()) LCheckNonSmi(value)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckInstanceType(HCheckInstanceType* instr) { |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| LInstruction* result = new(zone()) LCheckInstanceType(value); |
| return AssignEnvironment(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckPrototypeMaps(HCheckPrototypeMaps* instr) { |
| LOperand* temp1 = TempRegister(); |
| LOperand* temp2 = TempRegister(); |
| LInstruction* result = new(zone()) LCheckPrototypeMaps(temp1, temp2); |
| return AssignEnvironment(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckSmi(HCheckSmi* instr) { |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| return AssignEnvironment(new(zone()) LCheckSmi(value)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckFunction(HCheckFunction* instr) { |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| return AssignEnvironment(new(zone()) LCheckFunction(value)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckMap(HCheckMap* instr) { |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| LInstruction* result = new(zone()) LCheckMap(value); |
| return AssignEnvironment(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoClampToUint8(HClampToUint8* instr) { |
| HValue* value = instr->value(); |
| Representation input_rep = value->representation(); |
| LOperand* reg = UseRegister(value); |
| if (input_rep.IsDouble()) { |
| // Revisit this decision, here and 8 lines below. |
| return DefineAsRegister(new(zone()) LClampDToUint8(reg, FixedTemp(f22))); |
| } else if (input_rep.IsInteger32()) { |
| return DefineAsRegister(new(zone()) LClampIToUint8(reg)); |
| } else { |
| ASSERT(input_rep.IsTagged()); |
| // Register allocator doesn't (yet) support allocation of double |
| // temps. Reserve f22 explicitly. |
| LClampTToUint8* result = new(zone()) LClampTToUint8(reg, FixedTemp(f22)); |
| return AssignEnvironment(DefineAsRegister(result)); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoReturn(HReturn* instr) { |
| return new(zone()) LReturn(UseFixed(instr->value(), v0)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoConstant(HConstant* instr) { |
| Representation r = instr->representation(); |
| if (r.IsInteger32()) { |
| return DefineAsRegister(new(zone()) LConstantI); |
| } else if (r.IsDouble()) { |
| return DefineAsRegister(new(zone()) LConstantD); |
| } else if (r.IsTagged()) { |
| return DefineAsRegister(new(zone()) LConstantT); |
| } else { |
| UNREACHABLE(); |
| return NULL; |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadGlobalCell(HLoadGlobalCell* instr) { |
| LLoadGlobalCell* result = new(zone()) LLoadGlobalCell; |
| return instr->RequiresHoleCheck() |
| ? AssignEnvironment(DefineAsRegister(result)) |
| : DefineAsRegister(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadGlobalGeneric(HLoadGlobalGeneric* instr) { |
| LOperand* global_object = UseFixed(instr->global_object(), a0); |
| LLoadGlobalGeneric* result = new(zone()) LLoadGlobalGeneric(global_object); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreGlobalCell(HStoreGlobalCell* instr) { |
| LOperand* value = UseRegister(instr->value()); |
| // Use a temp to check the value in the cell in the case where we perform |
| // a hole check. |
| return instr->RequiresHoleCheck() |
| ? AssignEnvironment(new(zone()) LStoreGlobalCell(value, TempRegister())) |
| : new(zone()) LStoreGlobalCell(value, NULL); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreGlobalGeneric(HStoreGlobalGeneric* instr) { |
| LOperand* global_object = UseFixed(instr->global_object(), a1); |
| LOperand* value = UseFixed(instr->value(), a0); |
| LStoreGlobalGeneric* result = |
| new(zone()) LStoreGlobalGeneric(global_object, value); |
| return MarkAsCall(result, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadContextSlot(HLoadContextSlot* instr) { |
| LOperand* context = UseRegisterAtStart(instr->value()); |
| LInstruction* result = |
| DefineAsRegister(new(zone()) LLoadContextSlot(context)); |
| return instr->RequiresHoleCheck() ? AssignEnvironment(result) : result; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreContextSlot(HStoreContextSlot* instr) { |
| LOperand* context; |
| LOperand* value; |
| if (instr->NeedsWriteBarrier()) { |
| context = UseTempRegister(instr->context()); |
| value = UseTempRegister(instr->value()); |
| } else { |
| context = UseRegister(instr->context()); |
| value = UseRegister(instr->value()); |
| } |
| LInstruction* result = new(zone()) LStoreContextSlot(context, value); |
| return instr->RequiresHoleCheck() ? AssignEnvironment(result) : result; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadNamedField(HLoadNamedField* instr) { |
| return DefineAsRegister( |
| new(zone()) LLoadNamedField(UseRegisterAtStart(instr->object()))); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadNamedFieldPolymorphic( |
| HLoadNamedFieldPolymorphic* instr) { |
| ASSERT(instr->representation().IsTagged()); |
| if (instr->need_generic()) { |
| LOperand* obj = UseFixed(instr->object(), a0); |
| LLoadNamedFieldPolymorphic* result = |
| new(zone()) LLoadNamedFieldPolymorphic(obj); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } else { |
| LOperand* obj = UseRegisterAtStart(instr->object()); |
| LLoadNamedFieldPolymorphic* result = |
| new(zone()) LLoadNamedFieldPolymorphic(obj); |
| return AssignEnvironment(DefineAsRegister(result)); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadNamedGeneric(HLoadNamedGeneric* instr) { |
| LOperand* object = UseFixed(instr->object(), a0); |
| LInstruction* result = DefineFixed(new(zone()) LLoadNamedGeneric(object), v0); |
| return MarkAsCall(result, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadFunctionPrototype( |
| HLoadFunctionPrototype* instr) { |
| return AssignEnvironment(DefineAsRegister( |
| new(zone()) LLoadFunctionPrototype(UseRegister(instr->function())))); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadElements(HLoadElements* instr) { |
| LOperand* input = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LLoadElements(input)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadExternalArrayPointer( |
| HLoadExternalArrayPointer* instr) { |
| LOperand* input = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LLoadExternalArrayPointer(input)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadKeyedFastElement( |
| HLoadKeyedFastElement* instr) { |
| ASSERT(instr->representation().IsTagged()); |
| ASSERT(instr->key()->representation().IsInteger32()); |
| LOperand* obj = UseRegisterAtStart(instr->object()); |
| LOperand* key = UseRegisterAtStart(instr->key()); |
| LLoadKeyedFastElement* result = new(zone()) LLoadKeyedFastElement(obj, key); |
| if (instr->RequiresHoleCheck()) AssignEnvironment(result); |
| return DefineAsRegister(result); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadKeyedFastDoubleElement( |
| HLoadKeyedFastDoubleElement* instr) { |
| ASSERT(instr->representation().IsDouble()); |
| ASSERT(instr->key()->representation().IsInteger32()); |
| LOperand* elements = UseTempRegister(instr->elements()); |
| LOperand* key = UseRegisterOrConstantAtStart(instr->key()); |
| LLoadKeyedFastDoubleElement* result = |
| new(zone()) LLoadKeyedFastDoubleElement(elements, key); |
| return AssignEnvironment(DefineAsRegister(result)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadKeyedSpecializedArrayElement( |
| HLoadKeyedSpecializedArrayElement* instr) { |
| ElementsKind elements_kind = instr->elements_kind(); |
| Representation representation(instr->representation()); |
| ASSERT( |
| (representation.IsInteger32() && |
| (elements_kind != EXTERNAL_FLOAT_ELEMENTS) && |
| (elements_kind != EXTERNAL_DOUBLE_ELEMENTS)) || |
| (representation.IsDouble() && |
| ((elements_kind == EXTERNAL_FLOAT_ELEMENTS) || |
| (elements_kind == EXTERNAL_DOUBLE_ELEMENTS)))); |
| ASSERT(instr->key()->representation().IsInteger32()); |
| LOperand* external_pointer = UseRegister(instr->external_pointer()); |
| LOperand* key = UseRegisterOrConstant(instr->key()); |
| LLoadKeyedSpecializedArrayElement* result = |
| new(zone()) LLoadKeyedSpecializedArrayElement(external_pointer, key); |
| LInstruction* load_instr = DefineAsRegister(result); |
| // An unsigned int array load might overflow and cause a deopt, make sure it |
| // has an environment. |
| return (elements_kind == EXTERNAL_UNSIGNED_INT_ELEMENTS) ? |
| AssignEnvironment(load_instr) : load_instr; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadKeyedGeneric(HLoadKeyedGeneric* instr) { |
| LOperand* object = UseFixed(instr->object(), a1); |
| LOperand* key = UseFixed(instr->key(), a0); |
| |
| LInstruction* result = |
| DefineFixed(new(zone()) LLoadKeyedGeneric(object, key), v0); |
| return MarkAsCall(result, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreKeyedFastElement( |
| HStoreKeyedFastElement* instr) { |
| bool needs_write_barrier = instr->NeedsWriteBarrier(); |
| ASSERT(instr->value()->representation().IsTagged()); |
| ASSERT(instr->object()->representation().IsTagged()); |
| ASSERT(instr->key()->representation().IsInteger32()); |
| |
| LOperand* obj = UseTempRegister(instr->object()); |
| LOperand* val = needs_write_barrier |
| ? UseTempRegister(instr->value()) |
| : UseRegisterAtStart(instr->value()); |
| LOperand* key = needs_write_barrier |
| ? UseTempRegister(instr->key()) |
| : UseRegisterOrConstantAtStart(instr->key()); |
| return new(zone()) LStoreKeyedFastElement(obj, key, val); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreKeyedFastDoubleElement( |
| HStoreKeyedFastDoubleElement* instr) { |
| ASSERT(instr->value()->representation().IsDouble()); |
| ASSERT(instr->elements()->representation().IsTagged()); |
| ASSERT(instr->key()->representation().IsInteger32()); |
| |
| LOperand* elements = UseRegisterAtStart(instr->elements()); |
| LOperand* val = UseTempRegister(instr->value()); |
| LOperand* key = UseRegisterOrConstantAtStart(instr->key()); |
| |
| return new(zone()) LStoreKeyedFastDoubleElement(elements, key, val); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreKeyedSpecializedArrayElement( |
| HStoreKeyedSpecializedArrayElement* instr) { |
| Representation representation(instr->value()->representation()); |
| ElementsKind elements_kind = instr->elements_kind(); |
| ASSERT( |
| (representation.IsInteger32() && |
| (elements_kind != EXTERNAL_FLOAT_ELEMENTS) && |
| (elements_kind != EXTERNAL_DOUBLE_ELEMENTS)) || |
| (representation.IsDouble() && |
| ((elements_kind == EXTERNAL_FLOAT_ELEMENTS) || |
| (elements_kind == EXTERNAL_DOUBLE_ELEMENTS)))); |
| ASSERT(instr->external_pointer()->representation().IsExternal()); |
| ASSERT(instr->key()->representation().IsInteger32()); |
| |
| LOperand* external_pointer = UseRegister(instr->external_pointer()); |
| bool val_is_temp_register = |
| elements_kind == EXTERNAL_PIXEL_ELEMENTS || |
| elements_kind == EXTERNAL_FLOAT_ELEMENTS; |
| LOperand* val = val_is_temp_register |
| ? UseTempRegister(instr->value()) |
| : UseRegister(instr->value()); |
| LOperand* key = UseRegisterOrConstant(instr->key()); |
| |
| return new(zone()) LStoreKeyedSpecializedArrayElement(external_pointer, |
| key, |
| val); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreKeyedGeneric(HStoreKeyedGeneric* instr) { |
| LOperand* obj = UseFixed(instr->object(), a2); |
| LOperand* key = UseFixed(instr->key(), a1); |
| LOperand* val = UseFixed(instr->value(), a0); |
| |
| ASSERT(instr->object()->representation().IsTagged()); |
| ASSERT(instr->key()->representation().IsTagged()); |
| ASSERT(instr->value()->representation().IsTagged()); |
| |
| return MarkAsCall(new(zone()) LStoreKeyedGeneric(obj, key, val), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoTransitionElementsKind( |
| HTransitionElementsKind* instr) { |
| if (instr->original_map()->elements_kind() == FAST_SMI_ONLY_ELEMENTS && |
| instr->transitioned_map()->elements_kind() == FAST_ELEMENTS) { |
| LOperand* object = UseRegister(instr->object()); |
| LOperand* new_map_reg = TempRegister(); |
| LTransitionElementsKind* result = |
| new(zone()) LTransitionElementsKind(object, new_map_reg, NULL); |
| return DefineSameAsFirst(result); |
| } else { |
| LOperand* object = UseFixed(instr->object(), a0); |
| LOperand* fixed_object_reg = FixedTemp(a2); |
| LOperand* new_map_reg = FixedTemp(a3); |
| LTransitionElementsKind* result = |
| new(zone()) LTransitionElementsKind(object, |
| new_map_reg, |
| fixed_object_reg); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreNamedField(HStoreNamedField* instr) { |
| bool needs_write_barrier = instr->NeedsWriteBarrier(); |
| |
| LOperand* obj = needs_write_barrier |
| ? UseTempRegister(instr->object()) |
| : UseRegisterAtStart(instr->object()); |
| |
| LOperand* val = needs_write_barrier |
| ? UseTempRegister(instr->value()) |
| : UseRegister(instr->value()); |
| |
| return new(zone()) LStoreNamedField(obj, val); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStoreNamedGeneric(HStoreNamedGeneric* instr) { |
| LOperand* obj = UseFixed(instr->object(), a1); |
| LOperand* val = UseFixed(instr->value(), a0); |
| |
| LInstruction* result = new(zone()) LStoreNamedGeneric(obj, val); |
| return MarkAsCall(result, instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStringAdd(HStringAdd* instr) { |
| LOperand* left = UseRegisterAtStart(instr->left()); |
| LOperand* right = UseRegisterAtStart(instr->right()); |
| return MarkAsCall(DefineFixed(new(zone()) LStringAdd(left, right), v0), |
| instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStringCharCodeAt(HStringCharCodeAt* instr) { |
| LOperand* string = UseTempRegister(instr->string()); |
| LOperand* index = UseTempRegister(instr->index()); |
| LStringCharCodeAt* result = new(zone()) LStringCharCodeAt(string, index); |
| return AssignEnvironment(AssignPointerMap(DefineAsRegister(result))); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStringCharFromCode(HStringCharFromCode* instr) { |
| LOperand* char_code = UseRegister(instr->value()); |
| LStringCharFromCode* result = new(zone()) LStringCharFromCode(char_code); |
| return AssignPointerMap(DefineAsRegister(result)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStringLength(HStringLength* instr) { |
| LOperand* string = UseRegisterAtStart(instr->value()); |
| return DefineAsRegister(new(zone()) LStringLength(string)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoAllocateObject(HAllocateObject* instr) { |
| LAllocateObject* result = new(zone()) LAllocateObject( |
| TempRegister(), TempRegister()); |
| return AssignPointerMap(DefineAsRegister(result)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoFastLiteral(HFastLiteral* instr) { |
| return MarkAsCall(DefineFixed(new(zone()) LFastLiteral, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoArrayLiteral(HArrayLiteral* instr) { |
| return MarkAsCall(DefineFixed(new(zone()) LArrayLiteral, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoObjectLiteral(HObjectLiteral* instr) { |
| return MarkAsCall(DefineFixed(new(zone()) LObjectLiteral, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoRegExpLiteral(HRegExpLiteral* instr) { |
| return MarkAsCall(DefineFixed(new(zone()) LRegExpLiteral, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoFunctionLiteral(HFunctionLiteral* instr) { |
| return MarkAsCall(DefineFixed(new(zone()) LFunctionLiteral, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoDeleteProperty(HDeleteProperty* instr) { |
| LOperand* object = UseFixed(instr->object(), a0); |
| LOperand* key = UseFixed(instr->key(), a1); |
| LDeleteProperty* result = new(zone()) LDeleteProperty(object, key); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoOsrEntry(HOsrEntry* instr) { |
| allocator_->MarkAsOsrEntry(); |
| current_block_->last_environment()->set_ast_id(instr->ast_id()); |
| return AssignEnvironment(new(zone()) LOsrEntry); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoParameter(HParameter* instr) { |
| int spill_index = chunk()->GetParameterStackSlot(instr->index()); |
| return DefineAsSpilled(new(zone()) LParameter, spill_index); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoUnknownOSRValue(HUnknownOSRValue* instr) { |
| int spill_index = chunk()->GetNextSpillIndex(false); // Not double-width. |
| if (spill_index > LUnallocated::kMaxFixedIndex) { |
| Abort("Too many spill slots needed for OSR"); |
| spill_index = 0; |
| } |
| return DefineAsSpilled(new(zone()) LUnknownOSRValue, spill_index); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCallStub(HCallStub* instr) { |
| argument_count_ -= instr->argument_count(); |
| return MarkAsCall(DefineFixed(new(zone()) LCallStub, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoArgumentsObject(HArgumentsObject* instr) { |
| // There are no real uses of the arguments object. |
| // arguments.length and element access are supported directly on |
| // stack arguments, and any real arguments object use causes a bailout. |
| // So this value is never used. |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoAccessArgumentsAt(HAccessArgumentsAt* instr) { |
| LOperand* arguments = UseRegister(instr->arguments()); |
| LOperand* length = UseTempRegister(instr->length()); |
| LOperand* index = UseRegister(instr->index()); |
| LAccessArgumentsAt* result = |
| new(zone()) LAccessArgumentsAt(arguments, length, index); |
| return AssignEnvironment(DefineAsRegister(result)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoToFastProperties(HToFastProperties* instr) { |
| LOperand* object = UseFixed(instr->value(), a0); |
| LToFastProperties* result = new(zone()) LToFastProperties(object); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoTypeof(HTypeof* instr) { |
| LTypeof* result = new(zone()) LTypeof(UseFixed(instr->value(), a0)); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoTypeofIsAndBranch(HTypeofIsAndBranch* instr) { |
| return new(zone()) LTypeofIsAndBranch(UseTempRegister(instr->value())); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIsConstructCallAndBranch( |
| HIsConstructCallAndBranch* instr) { |
| return new(zone()) LIsConstructCallAndBranch(TempRegister()); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoSimulate(HSimulate* instr) { |
| HEnvironment* env = current_block_->last_environment(); |
| ASSERT(env != NULL); |
| |
| env->set_ast_id(instr->ast_id()); |
| |
| env->Drop(instr->pop_count()); |
| for (int i = 0; i < instr->values()->length(); ++i) { |
| HValue* value = instr->values()->at(i); |
| if (instr->HasAssignedIndexAt(i)) { |
| env->Bind(instr->GetAssignedIndexAt(i), value); |
| } else { |
| env->Push(value); |
| } |
| } |
| |
| // If there is an instruction pending deoptimization environment create a |
| // lazy bailout instruction to capture the environment. |
| if (pending_deoptimization_ast_id_ == instr->ast_id()) { |
| LInstruction* result = new(zone()) LLazyBailout; |
| result = AssignEnvironment(result); |
| instruction_pending_deoptimization_environment_-> |
| set_deoptimization_environment(result->environment()); |
| ClearInstructionPendingDeoptimizationEnvironment(); |
| return result; |
| } |
| |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoStackCheck(HStackCheck* instr) { |
| if (instr->is_function_entry()) { |
| return MarkAsCall(new(zone()) LStackCheck, instr); |
| } else { |
| ASSERT(instr->is_backwards_branch()); |
| return AssignEnvironment(AssignPointerMap(new(zone()) LStackCheck)); |
| } |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoEnterInlined(HEnterInlined* instr) { |
| HEnvironment* outer = current_block_->last_environment(); |
| HConstant* undefined = graph()->GetConstantUndefined(); |
| HEnvironment* inner = outer->CopyForInlining(instr->closure(), |
| instr->arguments_count(), |
| instr->function(), |
| undefined, |
| instr->call_kind(), |
| instr->is_construct()); |
| if (instr->arguments() != NULL) { |
| inner->Bind(instr->arguments(), graph()->GetArgumentsObject()); |
| } |
| current_block_->UpdateEnvironment(inner); |
| chunk_->AddInlinedClosure(instr->closure()); |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLeaveInlined(HLeaveInlined* instr) { |
| HEnvironment* outer = current_block_->last_environment()-> |
| DiscardInlined(false); |
| current_block_->UpdateEnvironment(outer); |
| return NULL; |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoIn(HIn* instr) { |
| LOperand* key = UseRegisterAtStart(instr->key()); |
| LOperand* object = UseRegisterAtStart(instr->object()); |
| LIn* result = new(zone()) LIn(key, object); |
| return MarkAsCall(DefineFixed(result, v0), instr); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoForInPrepareMap(HForInPrepareMap* instr) { |
| LOperand* object = UseFixed(instr->enumerable(), a0); |
| LForInPrepareMap* result = new(zone()) LForInPrepareMap(object); |
| return MarkAsCall(DefineFixed(result, v0), instr, CAN_DEOPTIMIZE_EAGERLY); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoForInCacheArray(HForInCacheArray* instr) { |
| LOperand* map = UseRegister(instr->map()); |
| return AssignEnvironment(DefineAsRegister( |
| new(zone()) LForInCacheArray(map))); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoCheckMapValue(HCheckMapValue* instr) { |
| LOperand* value = UseRegisterAtStart(instr->value()); |
| LOperand* map = UseRegisterAtStart(instr->map()); |
| return AssignEnvironment(new(zone()) LCheckMapValue(value, map)); |
| } |
| |
| |
| LInstruction* LChunkBuilder::DoLoadFieldByIndex(HLoadFieldByIndex* instr) { |
| LOperand* object = UseRegister(instr->object()); |
| LOperand* index = UseRegister(instr->index()); |
| return DefineAsRegister(new(zone()) LLoadFieldByIndex(object, index)); |
| } |
| |
| |
| } } // namespace v8::internal |