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/*
* Copyright (C) 2011 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_UTILS_X86_MANAGED_REGISTER_X86_H_
#define ART_COMPILER_UTILS_X86_MANAGED_REGISTER_X86_H_
#include "base/macros.h"
#include "constants_x86.h"
#include "utils/managed_register.h"
namespace art HIDDEN {
namespace x86 {
// Values for register pairs.
// The registers in kReservedCpuRegistersArray in x86.cc are not used in pairs.
// The table kRegisterPairs in x86.cc must be kept in sync with this enum.
enum RegisterPair {
EAX_EDX = 0,
EAX_ECX = 1,
EAX_EBX = 2,
EAX_EDI = 3,
EDX_ECX = 4,
EDX_EBX = 5,
EDX_EDI = 6,
ECX_EBX = 7,
ECX_EDI = 8,
EBX_EDI = 9,
ECX_EDX = 10, // Dalvik style passing
kNumberOfRegisterPairs = 11,
kNoRegisterPair = -1,
};
std::ostream& operator<<(std::ostream& os, const RegisterPair& reg);
const int kNumberOfCpuRegIds = kNumberOfCpuRegisters;
const int kNumberOfCpuAllocIds = kNumberOfCpuRegisters;
const int kNumberOfXmmRegIds = kNumberOfXmmRegisters;
const int kNumberOfXmmAllocIds = kNumberOfXmmRegisters;
const int kNumberOfX87RegIds = kNumberOfX87Registers;
const int kNumberOfX87AllocIds = kNumberOfX87Registers;
const int kNumberOfPairRegIds = kNumberOfRegisterPairs;
const int kNumberOfRegIds = kNumberOfCpuRegIds + kNumberOfXmmRegIds +
kNumberOfX87RegIds + kNumberOfPairRegIds;
const int kNumberOfAllocIds = kNumberOfCpuAllocIds + kNumberOfXmmAllocIds +
kNumberOfX87RegIds;
// Register ids map:
// [0..R[ cpu registers (enum Register)
// [R..X[ xmm registers (enum XmmRegister)
// [X..S[ x87 registers (enum X87Register)
// [S..P[ register pairs (enum RegisterPair)
// where
// R = kNumberOfCpuRegIds
// X = R + kNumberOfXmmRegIds
// S = X + kNumberOfX87RegIds
// P = X + kNumberOfRegisterPairs
// Allocation ids map:
// [0..R[ cpu registers (enum Register)
// [R..X[ xmm registers (enum XmmRegister)
// [X..S[ x87 registers (enum X87Register)
// where
// R = kNumberOfCpuRegIds
// X = R + kNumberOfXmmRegIds
// S = X + kNumberOfX87RegIds
// An instance of class 'ManagedRegister' represents a single cpu register (enum
// Register), an xmm register (enum XmmRegister), or a pair of cpu registers
// (enum RegisterPair).
// 'ManagedRegister::NoRegister()' provides an invalid register.
// There is a one-to-one mapping between ManagedRegister and register id.
class X86ManagedRegister : public ManagedRegister {
public:
constexpr ByteRegister AsByteRegister() const {
CHECK(IsCpuRegister());
CHECK_LT(AsCpuRegister(), ESP); // ESP, EBP, ESI and EDI cannot be encoded as byte registers.
return static_cast<ByteRegister>(id_);
}
constexpr Register AsCpuRegister() const {
CHECK(IsCpuRegister());
return static_cast<Register>(id_);
}
constexpr XmmRegister AsXmmRegister() const {
CHECK(IsXmmRegister());
return static_cast<XmmRegister>(id_ - kNumberOfCpuRegIds);
}
constexpr X87Register AsX87Register() const {
CHECK(IsX87Register());
return static_cast<X87Register>(id_ -
(kNumberOfCpuRegIds + kNumberOfXmmRegIds));
}
constexpr Register AsRegisterPairLow() const {
CHECK(IsRegisterPair());
// Appropriate mapping of register ids allows to use AllocIdLow().
return FromRegId(AllocIdLow()).AsCpuRegister();
}
constexpr Register AsRegisterPairHigh() const {
CHECK(IsRegisterPair());
// Appropriate mapping of register ids allows to use AllocIdHigh().
return FromRegId(AllocIdHigh()).AsCpuRegister();
}
constexpr RegisterPair AsRegisterPair() const {
CHECK(IsRegisterPair());
return static_cast<RegisterPair>(id_ -
(kNumberOfCpuRegIds + kNumberOfXmmRegIds + kNumberOfX87RegIds));
}
constexpr bool IsCpuRegister() const {
CHECK(IsValidManagedRegister());
return (0 <= id_) && (id_ < kNumberOfCpuRegIds);
}
constexpr bool IsXmmRegister() const {
CHECK(IsValidManagedRegister());
const int test = id_ - kNumberOfCpuRegIds;
return (0 <= test) && (test < kNumberOfXmmRegIds);
}
constexpr bool IsX87Register() const {
CHECK(IsValidManagedRegister());
const int test = id_ - (kNumberOfCpuRegIds + kNumberOfXmmRegIds);
return (0 <= test) && (test < kNumberOfX87RegIds);
}
constexpr bool IsRegisterPair() const {
CHECK(IsValidManagedRegister());
const int test = id_ -
(kNumberOfCpuRegIds + kNumberOfXmmRegIds + kNumberOfX87RegIds);
return (0 <= test) && (test < kNumberOfPairRegIds);
}
void Print(std::ostream& os) const;
// Returns true if the two managed-registers ('this' and 'other') overlap.
// Either managed-register may be the NoRegister. If both are the NoRegister
// then false is returned.
bool Overlaps(const X86ManagedRegister& other) const;
static constexpr X86ManagedRegister FromCpuRegister(Register r) {
CHECK_NE(r, kNoRegister);
return FromRegId(r);
}
static constexpr X86ManagedRegister FromXmmRegister(XmmRegister r) {
CHECK_NE(r, kNoXmmRegister);
return FromRegId(r + kNumberOfCpuRegIds);
}
static constexpr X86ManagedRegister FromX87Register(X87Register r) {
CHECK_NE(r, kNoX87Register);
return FromRegId(r + kNumberOfCpuRegIds + kNumberOfXmmRegIds);
}
static constexpr X86ManagedRegister FromRegisterPair(RegisterPair r) {
CHECK_NE(r, kNoRegisterPair);
return FromRegId(r + (kNumberOfCpuRegIds + kNumberOfXmmRegIds +
kNumberOfX87RegIds));
}
private:
constexpr bool IsValidManagedRegister() const {
return (0 <= id_) && (id_ < kNumberOfRegIds);
}
constexpr int RegId() const {
CHECK(!IsNoRegister());
return id_;
}
int AllocId() const {
CHECK(IsValidManagedRegister() && !IsRegisterPair());
CHECK_LT(id_, kNumberOfAllocIds);
return id_;
}
int AllocIdLow() const;
int AllocIdHigh() const;
friend class ManagedRegister;
explicit constexpr X86ManagedRegister(int reg_id) : ManagedRegister(reg_id) {}
static constexpr X86ManagedRegister FromRegId(int reg_id) {
X86ManagedRegister reg(reg_id);
CHECK(reg.IsValidManagedRegister());
return reg;
}
};
std::ostream& operator<<(std::ostream& os, const X86ManagedRegister& reg);
} // namespace x86
constexpr x86::X86ManagedRegister ManagedRegister::AsX86() const {
x86::X86ManagedRegister reg(id_);
CHECK(reg.IsNoRegister() || reg.IsValidManagedRegister());
return reg;
}
} // namespace art
#endif // ART_COMPILER_UTILS_X86_MANAGED_REGISTER_X86_H_