/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef ART_COMPILER_OPTIMIZING_COMMON_ARM_H_ #define ART_COMPILER_OPTIMIZING_COMMON_ARM_H_ #include "dwarf/register.h" #include "instruction_simplifier_shared.h" #include "locations.h" #include "nodes.h" #include "utils/arm/constants_arm.h" // TODO(VIXL): Make VIXL compile with -Wshadow. #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wshadow" #include "aarch32/macro-assembler-aarch32.h" #pragma GCC diagnostic pop namespace art { using helpers::HasShifterOperand; namespace arm { namespace helpers { static_assert(vixl::aarch32::kSpCode == SP, "vixl::aarch32::kSpCode must equal ART's SP"); inline dwarf::Reg DWARFReg(vixl::aarch32::Register reg) { return dwarf::Reg::ArmCore(static_cast(reg.GetCode())); } inline dwarf::Reg DWARFReg(vixl::aarch32::SRegister reg) { return dwarf::Reg::ArmFp(static_cast(reg.GetCode())); } inline vixl::aarch32::Register HighRegisterFrom(Location location) { DCHECK(location.IsRegisterPair()) << location; return vixl::aarch32::Register(location.AsRegisterPairHigh()); } inline vixl::aarch32::DRegister HighDRegisterFrom(Location location) { DCHECK(location.IsFpuRegisterPair()) << location; return vixl::aarch32::DRegister(location.AsFpuRegisterPairHigh()); } inline vixl::aarch32::Register LowRegisterFrom(Location location) { DCHECK(location.IsRegisterPair()) << location; return vixl::aarch32::Register(location.AsRegisterPairLow()); } inline vixl::aarch32::SRegister LowSRegisterFrom(Location location) { DCHECK(location.IsFpuRegisterPair()) << location; return vixl::aarch32::SRegister(location.AsFpuRegisterPairLow()); } inline vixl::aarch32::SRegister HighSRegisterFrom(Location location) { DCHECK(location.IsFpuRegisterPair()) << location; return vixl::aarch32::SRegister(location.AsFpuRegisterPairHigh()); } inline vixl::aarch32::Register RegisterFrom(Location location) { DCHECK(location.IsRegister()) << location; return vixl::aarch32::Register(location.reg()); } inline vixl::aarch32::Register RegisterFrom(Location location, DataType::Type type) { DCHECK(type != DataType::Type::kVoid && !DataType::IsFloatingPointType(type)) << type; return RegisterFrom(location); } inline vixl::aarch32::DRegister DRegisterFrom(Location location) { DCHECK(location.IsFpuRegisterPair()) << location; int reg_code = location.low(); DCHECK_EQ(reg_code % 2, 0) << reg_code; return vixl::aarch32::DRegister(reg_code / 2); } inline vixl::aarch32::SRegister SRegisterFrom(Location location) { DCHECK(location.IsFpuRegister()) << location; return vixl::aarch32::SRegister(location.reg()); } inline vixl::aarch32::SRegister OutputSRegister(HInstruction* instr) { DataType::Type type = instr->GetType(); DCHECK_EQ(type, DataType::Type::kFloat32) << type; return SRegisterFrom(instr->GetLocations()->Out()); } inline vixl::aarch32::DRegister OutputDRegister(HInstruction* instr) { DataType::Type type = instr->GetType(); DCHECK_EQ(type, DataType::Type::kFloat64) << type; return DRegisterFrom(instr->GetLocations()->Out()); } inline vixl::aarch32::VRegister OutputVRegister(HInstruction* instr) { DataType::Type type = instr->GetType(); if (type == DataType::Type::kFloat32) { return OutputSRegister(instr); } else { return OutputDRegister(instr); } } inline vixl::aarch32::SRegister InputSRegisterAt(HInstruction* instr, int input_index) { DataType::Type type = instr->InputAt(input_index)->GetType(); DCHECK_EQ(type, DataType::Type::kFloat32) << type; return SRegisterFrom(instr->GetLocations()->InAt(input_index)); } inline vixl::aarch32::DRegister InputDRegisterAt(HInstruction* instr, int input_index) { DataType::Type type = instr->InputAt(input_index)->GetType(); DCHECK_EQ(type, DataType::Type::kFloat64) << type; return DRegisterFrom(instr->GetLocations()->InAt(input_index)); } inline vixl::aarch32::VRegister InputVRegisterAt(HInstruction* instr, int input_index) { DataType::Type type = instr->InputAt(input_index)->GetType(); if (type == DataType::Type::kFloat32) { return InputSRegisterAt(instr, input_index); } else { DCHECK_EQ(type, DataType::Type::kFloat64); return InputDRegisterAt(instr, input_index); } } inline vixl::aarch32::VRegister InputVRegister(HInstruction* instr) { DCHECK_EQ(instr->InputCount(), 1u); return InputVRegisterAt(instr, 0); } inline vixl::aarch32::Register OutputRegister(HInstruction* instr) { return RegisterFrom(instr->GetLocations()->Out(), instr->GetType()); } inline vixl::aarch32::Register InputRegisterAt(HInstruction* instr, int input_index) { return RegisterFrom(instr->GetLocations()->InAt(input_index), instr->InputAt(input_index)->GetType()); } inline vixl::aarch32::Register InputRegister(HInstruction* instr) { DCHECK_EQ(instr->InputCount(), 1u); return InputRegisterAt(instr, 0); } inline vixl::aarch32::DRegister DRegisterFromS(vixl::aarch32::SRegister s) { vixl::aarch32::DRegister d = vixl::aarch32::DRegister(s.GetCode() / 2); DCHECK(s.Is(d.GetLane(0)) || s.Is(d.GetLane(1))); return d; } inline int32_t Int32ConstantFrom(HInstruction* instr) { if (instr->IsIntConstant()) { return instr->AsIntConstant()->GetValue(); } else if (instr->IsNullConstant()) { return 0; } else { DCHECK(instr->IsLongConstant()) << instr->DebugName(); const int64_t ret = instr->AsLongConstant()->GetValue(); DCHECK_GE(ret, std::numeric_limits::min()); DCHECK_LE(ret, std::numeric_limits::max()); return ret; } } inline int32_t Int32ConstantFrom(Location location) { return Int32ConstantFrom(location.GetConstant()); } inline int64_t Int64ConstantFrom(Location location) { HConstant* instr = location.GetConstant(); if (instr->IsIntConstant()) { return instr->AsIntConstant()->GetValue(); } else if (instr->IsNullConstant()) { return 0; } else { DCHECK(instr->IsLongConstant()) << instr->DebugName(); return instr->AsLongConstant()->GetValue(); } } inline uint64_t Uint64ConstantFrom(HInstruction* instr) { DCHECK(instr->IsConstant()) << instr->DebugName(); return instr->AsConstant()->GetValueAsUint64(); } inline vixl::aarch32::Operand OperandFrom(Location location, DataType::Type type) { if (location.IsRegister()) { return vixl::aarch32::Operand(RegisterFrom(location, type)); } else { return vixl::aarch32::Operand(Int32ConstantFrom(location)); } } inline vixl::aarch32::Operand InputOperandAt(HInstruction* instr, int input_index) { return OperandFrom(instr->GetLocations()->InAt(input_index), instr->InputAt(input_index)->GetType()); } inline Location LocationFrom(const vixl::aarch32::Register& reg) { return Location::RegisterLocation(reg.GetCode()); } inline Location LocationFrom(const vixl::aarch32::SRegister& reg) { return Location::FpuRegisterLocation(reg.GetCode()); } inline Location LocationFrom(const vixl::aarch32::Register& low, const vixl::aarch32::Register& high) { return Location::RegisterPairLocation(low.GetCode(), high.GetCode()); } inline Location LocationFrom(const vixl::aarch32::SRegister& low, const vixl::aarch32::SRegister& high) { return Location::FpuRegisterPairLocation(low.GetCode(), high.GetCode()); } } // namespace helpers } // namespace arm } // namespace art #endif // ART_COMPILER_OPTIMIZING_COMMON_ARM_H_