compiler/optimizing/common_arm64.h - platform/art - Git at Google

 /*
  * Copyright (C) 2015 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_ARM64_H_
 #define ART_COMPILER_OPTIMIZING_COMMON_ARM64_H_

 #include "locations.h"
 #include "nodes.h"
 #include "utils/arm64/assembler_arm64.h"
 #include "a64/disasm-a64.h"
 #include "a64/macro-assembler-a64.h"

 namespace art {
 namespace arm64 {
 namespace helpers {

 constexpr bool IsFPType(Primitive::Type type) {
   return type == Primitive::kPrimFloat || type == Primitive::kPrimDouble;
 }

 static inline bool IsIntegralType(Primitive::Type type) {
   switch (type) {
     case Primitive::kPrimByte:
     case Primitive::kPrimChar:
     case Primitive::kPrimShort:
     case Primitive::kPrimInt:
     case Primitive::kPrimLong:
       return true;
     default:
       return false;
   }
 }

 constexpr bool Is64BitType(Primitive::Type type) {
   return type == Primitive::kPrimLong || type == Primitive::kPrimDouble;
 }

 // Convenience helpers to ease conversion to and from VIXL operands.
 static_assert((SP == 31) && (WSP == 31) && (XZR == 32) && (WZR == 32),
               "Unexpected values for register codes.");

 static inline int VIXLRegCodeFromART(int code) {
   if (code == SP) {
     return vixl::kSPRegInternalCode;
   }
   if (code == XZR) {
     return vixl::kZeroRegCode;
   }
   return code;
 }

 static inline int ARTRegCodeFromVIXL(int code) {
   if (code == vixl::kSPRegInternalCode) {
     return SP;
   }
   if (code == vixl::kZeroRegCode) {
     return XZR;
   }
   return code;
 }

 static inline vixl::Register XRegisterFrom(Location location) {
   DCHECK(location.IsRegister());
   return vixl::Register::XRegFromCode(VIXLRegCodeFromART(location.reg()));
 }

 static inline vixl::Register WRegisterFrom(Location location) {
   DCHECK(location.IsRegister());
   return vixl::Register::WRegFromCode(VIXLRegCodeFromART(location.reg()));
 }

 static inline vixl::Register RegisterFrom(Location location, Primitive::Type type) {
   DCHECK(type != Primitive::kPrimVoid && !IsFPType(type));
   return type == Primitive::kPrimLong ? XRegisterFrom(location) : WRegisterFrom(location);
 }

 static inline vixl::Register OutputRegister(HInstruction* instr) {
   return RegisterFrom(instr->GetLocations()->Out(), instr->GetType());
 }

 static inline vixl::Register InputRegisterAt(HInstruction* instr, int input_index) {
   return RegisterFrom(instr->GetLocations()->InAt(input_index),
                       instr->InputAt(input_index)->GetType());
 }

 static inline vixl::FPRegister DRegisterFrom(Location location) {
   DCHECK(location.IsFpuRegister());
   return vixl::FPRegister::DRegFromCode(location.reg());
 }

 static inline vixl::FPRegister SRegisterFrom(Location location) {
   DCHECK(location.IsFpuRegister());
   return vixl::FPRegister::SRegFromCode(location.reg());
 }

 static inline vixl::FPRegister FPRegisterFrom(Location location, Primitive::Type type) {
   DCHECK(IsFPType(type));
   return type == Primitive::kPrimDouble ? DRegisterFrom(location) : SRegisterFrom(location);
 }

 static inline vixl::FPRegister OutputFPRegister(HInstruction* instr) {
   return FPRegisterFrom(instr->GetLocations()->Out(), instr->GetType());
 }

 static inline vixl::FPRegister InputFPRegisterAt(HInstruction* instr, int input_index) {
   return FPRegisterFrom(instr->GetLocations()->InAt(input_index),
                         instr->InputAt(input_index)->GetType());
 }

 static inline vixl::CPURegister CPURegisterFrom(Location location, Primitive::Type type) {
   return IsFPType(type) ? vixl::CPURegister(FPRegisterFrom(location, type))
                         : vixl::CPURegister(RegisterFrom(location, type));
 }

 static inline vixl::CPURegister OutputCPURegister(HInstruction* instr) {
   return IsFPType(instr->GetType()) ? static_cast<vixl::CPURegister>(OutputFPRegister(instr))
                                     : static_cast<vixl::CPURegister>(OutputRegister(instr));
 }

 static inline vixl::CPURegister InputCPURegisterAt(HInstruction* instr, int index) {
   return IsFPType(instr->InputAt(index)->GetType())
       ? static_cast<vixl::CPURegister>(InputFPRegisterAt(instr, index))
       : static_cast<vixl::CPURegister>(InputRegisterAt(instr, index));
 }

 static inline int64_t Int64ConstantFrom(Location location) {
   HConstant* instr = location.GetConstant();
   return instr->IsIntConstant() ? instr->AsIntConstant()->GetValue()
                                 : instr->AsLongConstant()->GetValue();
 }

 static inline vixl::Operand OperandFrom(Location location, Primitive::Type type) {
   if (location.IsRegister()) {
     return vixl::Operand(RegisterFrom(location, type));
   } else {
     return vixl::Operand(Int64ConstantFrom(location));
   }
 }

 static inline vixl::Operand InputOperandAt(HInstruction* instr, int input_index) {
   return OperandFrom(instr->GetLocations()->InAt(input_index),
                      instr->InputAt(input_index)->GetType());
 }

 static inline vixl::MemOperand StackOperandFrom(Location location) {
   return vixl::MemOperand(vixl::sp, location.GetStackIndex());
 }

 static inline vixl::MemOperand HeapOperand(const vixl::Register& base, size_t offset = 0) {
   // A heap reference must be 32bit, so fit in a W register.
   DCHECK(base.IsW());
   return vixl::MemOperand(base.X(), offset);
 }

 static inline vixl::MemOperand HeapOperand(const vixl::Register& base, Offset offset) {
   return HeapOperand(base, offset.SizeValue());
 }

 static inline vixl::MemOperand HeapOperandFrom(Location location, Offset offset) {
   return HeapOperand(RegisterFrom(location, Primitive::kPrimNot), offset);
 }

 static inline Location LocationFrom(const vixl::Register& reg) {
   return Location::RegisterLocation(ARTRegCodeFromVIXL(reg.code()));
 }

 static inline Location LocationFrom(const vixl::FPRegister& fpreg) {
   return Location::FpuRegisterLocation(fpreg.code());
 }

 static inline vixl::Operand OperandFromMemOperand(const vixl::MemOperand& mem_op) {
   if (mem_op.IsImmediateOffset()) {
     return vixl::Operand(mem_op.offset());
   } else {
     DCHECK(mem_op.IsRegisterOffset());
     if (mem_op.extend() != vixl::NO_EXTEND) {
       return vixl::Operand(mem_op.regoffset(), mem_op.extend(), mem_op.shift_amount());
     } else if (mem_op.shift() != vixl::NO_SHIFT) {
       return vixl::Operand(mem_op.regoffset(), mem_op.shift(), mem_op.shift_amount());
     } else {
       LOG(FATAL) << "Should not reach here";
       UNREACHABLE();
     }
   }
 }

 }  // namespace helpers
 }  // namespace arm64
 }  // namespace art

 #endif  // ART_COMPILER_OPTIMIZING_COMMON_ARM64_H_
	/*
	* Copyright (C) 2015 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_ARM64_H_
	#define ART_COMPILER_OPTIMIZING_COMMON_ARM64_H_

	#include "locations.h"
	#include "nodes.h"
	#include "utils/arm64/assembler_arm64.h"
	#include "a64/disasm-a64.h"
	#include "a64/macro-assembler-a64.h"

	namespace art {
	namespace arm64 {
	namespace helpers {

	constexpr bool IsFPType(Primitive::Type type) {
	return type == Primitive::kPrimFloat \|\| type == Primitive::kPrimDouble;
	}

	static inline bool IsIntegralType(Primitive::Type type) {
	switch (type) {
	case Primitive::kPrimByte:
	case Primitive::kPrimChar:
	case Primitive::kPrimShort:
	case Primitive::kPrimInt:
	case Primitive::kPrimLong:
	return true;
	default:
	return false;
	}
	}

	constexpr bool Is64BitType(Primitive::Type type) {
	return type == Primitive::kPrimLong \|\| type == Primitive::kPrimDouble;
	}

	// Convenience helpers to ease conversion to and from VIXL operands.
	static_assert((SP == 31) && (WSP == 31) && (XZR == 32) && (WZR == 32),
	"Unexpected values for register codes.");

	static inline int VIXLRegCodeFromART(int code) {
	if (code == SP) {
	return vixl::kSPRegInternalCode;
	}
	if (code == XZR) {
	return vixl::kZeroRegCode;
	}
	return code;
	}

	static inline int ARTRegCodeFromVIXL(int code) {
	if (code == vixl::kSPRegInternalCode) {
	return SP;
	}
	if (code == vixl::kZeroRegCode) {
	return XZR;
	}
	return code;
	}

	static inline vixl::Register XRegisterFrom(Location location) {
	DCHECK(location.IsRegister());
	return vixl::Register::XRegFromCode(VIXLRegCodeFromART(location.reg()));
	}

	static inline vixl::Register WRegisterFrom(Location location) {
	DCHECK(location.IsRegister());
	return vixl::Register::WRegFromCode(VIXLRegCodeFromART(location.reg()));
	}

	static inline vixl::Register RegisterFrom(Location location, Primitive::Type type) {
	DCHECK(type != Primitive::kPrimVoid && !IsFPType(type));
	return type == Primitive::kPrimLong ? XRegisterFrom(location) : WRegisterFrom(location);
	}

	static inline vixl::Register OutputRegister(HInstruction* instr) {
	return RegisterFrom(instr->GetLocations()->Out(), instr->GetType());
	}

	static inline vixl::Register InputRegisterAt(HInstruction* instr, int input_index) {
	return RegisterFrom(instr->GetLocations()->InAt(input_index),
	instr->InputAt(input_index)->GetType());
	}

	static inline vixl::FPRegister DRegisterFrom(Location location) {
	DCHECK(location.IsFpuRegister());
	return vixl::FPRegister::DRegFromCode(location.reg());
	}

	static inline vixl::FPRegister SRegisterFrom(Location location) {
	DCHECK(location.IsFpuRegister());
	return vixl::FPRegister::SRegFromCode(location.reg());
	}

	static inline vixl::FPRegister FPRegisterFrom(Location location, Primitive::Type type) {
	DCHECK(IsFPType(type));
	return type == Primitive::kPrimDouble ? DRegisterFrom(location) : SRegisterFrom(location);
	}

	static inline vixl::FPRegister OutputFPRegister(HInstruction* instr) {
	return FPRegisterFrom(instr->GetLocations()->Out(), instr->GetType());
	}

	static inline vixl::FPRegister InputFPRegisterAt(HInstruction* instr, int input_index) {
	return FPRegisterFrom(instr->GetLocations()->InAt(input_index),
	instr->InputAt(input_index)->GetType());
	}

	static inline vixl::CPURegister CPURegisterFrom(Location location, Primitive::Type type) {
	return IsFPType(type) ? vixl::CPURegister(FPRegisterFrom(location, type))
	: vixl::CPURegister(RegisterFrom(location, type));
	}

	static inline vixl::CPURegister OutputCPURegister(HInstruction* instr) {
	return IsFPType(instr->GetType()) ? static_cast<vixl::CPURegister>(OutputFPRegister(instr))
	: static_cast<vixl::CPURegister>(OutputRegister(instr));
	}

	static inline vixl::CPURegister InputCPURegisterAt(HInstruction* instr, int index) {
	return IsFPType(instr->InputAt(index)->GetType())
	? static_cast<vixl::CPURegister>(InputFPRegisterAt(instr, index))
	: static_cast<vixl::CPURegister>(InputRegisterAt(instr, index));
	}

	static inline int64_t Int64ConstantFrom(Location location) {
	HConstant* instr = location.GetConstant();
	return instr->IsIntConstant() ? instr->AsIntConstant()->GetValue()
	: instr->AsLongConstant()->GetValue();
	}

	static inline vixl::Operand OperandFrom(Location location, Primitive::Type type) {
	if (location.IsRegister()) {
	return vixl::Operand(RegisterFrom(location, type));
	} else {
	return vixl::Operand(Int64ConstantFrom(location));
	}
	}

	static inline vixl::Operand InputOperandAt(HInstruction* instr, int input_index) {
	return OperandFrom(instr->GetLocations()->InAt(input_index),
	instr->InputAt(input_index)->GetType());
	}

	static inline vixl::MemOperand StackOperandFrom(Location location) {
	return vixl::MemOperand(vixl::sp, location.GetStackIndex());
	}

	static inline vixl::MemOperand HeapOperand(const vixl::Register& base, size_t offset = 0) {
	// A heap reference must be 32bit, so fit in a W register.
	DCHECK(base.IsW());
	return vixl::MemOperand(base.X(), offset);
	}

	static inline vixl::MemOperand HeapOperand(const vixl::Register& base, Offset offset) {
	return HeapOperand(base, offset.SizeValue());
	}

	static inline vixl::MemOperand HeapOperandFrom(Location location, Offset offset) {
	return HeapOperand(RegisterFrom(location, Primitive::kPrimNot), offset);
	}

	static inline Location LocationFrom(const vixl::Register& reg) {
	return Location::RegisterLocation(ARTRegCodeFromVIXL(reg.code()));
	}

	static inline Location LocationFrom(const vixl::FPRegister& fpreg) {
	return Location::FpuRegisterLocation(fpreg.code());
	}

	static inline vixl::Operand OperandFromMemOperand(const vixl::MemOperand& mem_op) {
	if (mem_op.IsImmediateOffset()) {
	return vixl::Operand(mem_op.offset());
	} else {
	DCHECK(mem_op.IsRegisterOffset());
	if (mem_op.extend() != vixl::NO_EXTEND) {
	return vixl::Operand(mem_op.regoffset(), mem_op.extend(), mem_op.shift_amount());
	} else if (mem_op.shift() != vixl::NO_SHIFT) {
	return vixl::Operand(mem_op.regoffset(), mem_op.shift(), mem_op.shift_amount());
	} else {
	LOG(FATAL) << "Should not reach here";
	UNREACHABLE();
	}
	}
	}

	} // namespace helpers
	} // namespace arm64
	} // namespace art

	#endif // ART_COMPILER_OPTIMIZING_COMMON_ARM64_H_