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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===-- llvm/CodeGen/Register.h ---------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CODEGEN_REGISTER_H
#define LLVM_CODEGEN_REGISTER_H
#include "llvm/MC/MCRegister.h"
#include <cassert>
namespace llvm {
/// Wrapper class representing virtual and physical registers. Should be passed
/// by value.
class Register {
unsigned Reg;
public:
constexpr Register(unsigned Val = 0): Reg(Val) {}
constexpr Register(MCRegister Val): Reg(Val) {}
// Register numbers can represent physical registers, virtual registers, and
// sometimes stack slots. The unsigned values are divided into these ranges:
//
// 0 Not a register, can be used as a sentinel.
// [1;2^30) Physical registers assigned by TableGen.
// [2^30;2^31) Stack slots. (Rarely used.)
// [2^31;2^32) Virtual registers assigned by MachineRegisterInfo.
//
// Further sentinels can be allocated from the small negative integers.
// DenseMapInfo<unsigned> uses -1u and -2u.
static_assert(std::numeric_limits<decltype(Reg)>::max() >= 0xFFFFFFFF,
"Reg isn't large enough to hold full range.");
/// isStackSlot - Sometimes it is useful the be able to store a non-negative
/// frame index in a variable that normally holds a register. isStackSlot()
/// returns true if Reg is in the range used for stack slots.
///
/// FIXME: remove in favor of member.
static bool isStackSlot(unsigned Reg) {
return MCRegister::isStackSlot(Reg);
}
/// Return true if this is a stack slot.
bool isStack() const { return MCRegister::isStackSlot(Reg); }
/// Compute the frame index from a register value representing a stack slot.
static int stackSlot2Index(Register Reg) {
assert(Reg.isStack() && "Not a stack slot");
return int(Reg - MCRegister::FirstStackSlot);
}
/// Convert a non-negative frame index to a stack slot register value.
static Register index2StackSlot(int FI) {
assert(FI >= 0 && "Cannot hold a negative frame index.");
return Register(FI + MCRegister::FirstStackSlot);
}
/// Return true if the specified register number is in
/// the physical register namespace.
static bool isPhysicalRegister(unsigned Reg) {
return MCRegister::isPhysicalRegister(Reg);
}
/// Return true if the specified register number is in
/// the virtual register namespace.
static bool isVirtualRegister(unsigned Reg) {
return Reg & MCRegister::VirtualRegFlag && !isStackSlot(Reg);
}
/// Convert a virtual register number to a 0-based index.
/// The first virtual register in a function will get the index 0.
static unsigned virtReg2Index(Register Reg) {
assert(isVirtualRegister(Reg) && "Not a virtual register");
return Reg & ~MCRegister::VirtualRegFlag;
}
/// Convert a 0-based index to a virtual register number.
/// This is the inverse operation of VirtReg2IndexFunctor below.
static Register index2VirtReg(unsigned Index) {
assert(Index < (1u << 31) && "Index too large for virtual register range.");
return Index | MCRegister::VirtualRegFlag;
}
/// Return true if the specified register number is in the virtual register
/// namespace.
bool isVirtual() const {
return isVirtualRegister(Reg);
}
/// Return true if the specified register number is in the physical register
/// namespace.
bool isPhysical() const {
return isPhysicalRegister(Reg);
}
/// Convert a virtual register number to a 0-based index. The first virtual
/// register in a function will get the index 0.
unsigned virtRegIndex() const {
return virtReg2Index(Reg);
}
constexpr operator unsigned() const {
return Reg;
}
unsigned id() const { return Reg; }
operator MCRegister() const {
return MCRegister(Reg);
}
/// Utility to check-convert this value to a MCRegister. The caller is
/// expected to have already validated that this Register is, indeed,
/// physical.
MCRegister asMCReg() const {
assert(Reg == MCRegister::NoRegister ||
MCRegister::isPhysicalRegister(Reg));
return MCRegister(Reg);
}
bool isValid() const { return Reg != MCRegister::NoRegister; }
/// Comparisons between register objects
bool operator==(const Register &Other) const { return Reg == Other.Reg; }
bool operator!=(const Register &Other) const { return Reg != Other.Reg; }
bool operator==(const MCRegister &Other) const { return Reg == Other.id(); }
bool operator!=(const MCRegister &Other) const { return Reg != Other.id(); }
/// Comparisons against register constants. E.g.
/// * R == AArch64::WZR
/// * R == 0
/// * R == VirtRegMap::NO_PHYS_REG
bool operator==(unsigned Other) const { return Reg == Other; }
bool operator!=(unsigned Other) const { return Reg != Other; }
bool operator==(int Other) const { return Reg == unsigned(Other); }
bool operator!=(int Other) const { return Reg != unsigned(Other); }
// MSVC requires that we explicitly declare these two as well.
bool operator==(MCPhysReg Other) const { return Reg == unsigned(Other); }
bool operator!=(MCPhysReg Other) const { return Reg != unsigned(Other); }
};
// Provide DenseMapInfo for Register
template<> struct DenseMapInfo<Register> {
static inline unsigned getEmptyKey() {
return DenseMapInfo<unsigned>::getEmptyKey();
}
static inline unsigned getTombstoneKey() {
return DenseMapInfo<unsigned>::getTombstoneKey();
}
static unsigned getHashValue(const Register &Val) {
return DenseMapInfo<unsigned>::getHashValue(Val.id());
}
static bool isEqual(const Register &LHS, const Register &RHS) {
return DenseMapInfo<unsigned>::isEqual(LHS.id(), RHS.id());
}
};
}
#endif // LLVM_CODEGEN_REGISTER_H
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
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