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llvm-mirror/lib/Target/Hexagon/HexagonBlockRanges.h
2020-11-18 08:17:07 -08:00

250 lines
7.1 KiB
C++

//===- HexagonBlockRanges.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_LIB_TARGET_HEXAGON_HEXAGONBLOCKRANGES_H
#define LLVM_LIB_TARGET_HEXAGON_HEXAGONBLOCKRANGES_H
#include "llvm/ADT/BitVector.h"
#include "llvm/CodeGen/Register.h"
#include <cassert>
#include <map>
#include <set>
#include <utility>
#include <vector>
namespace llvm {
class HexagonSubtarget;
class MachineBasicBlock;
class MachineFunction;
class MachineInstr;
class MachineRegisterInfo;
class raw_ostream;
class TargetInstrInfo;
class TargetRegisterInfo;
struct HexagonBlockRanges {
HexagonBlockRanges(MachineFunction &MF);
// FIXME: Consolidate duplicate definitions of RegisterRef
struct RegisterRef {
llvm::Register Reg;
unsigned Sub;
bool operator<(RegisterRef R) const {
return Reg < R.Reg || (Reg == R.Reg && Sub < R.Sub);
}
};
using RegisterSet = std::set<RegisterRef>;
// This is to represent an "index", which is an abstraction of a position
// of an instruction within a basic block.
class IndexType {
public:
enum : unsigned {
None = 0,
Entry = 1,
Exit = 2,
First = 11 // 10th + 1st
};
IndexType() {}
IndexType(unsigned Idx) : Index(Idx) {}
static bool isInstr(IndexType X) { return X.Index >= First; }
operator unsigned() const;
bool operator== (unsigned x) const;
bool operator== (IndexType Idx) const;
bool operator!= (unsigned x) const;
bool operator!= (IndexType Idx) const;
IndexType operator++ ();
bool operator< (unsigned Idx) const;
bool operator< (IndexType Idx) const;
bool operator<= (IndexType Idx) const;
private:
bool operator> (IndexType Idx) const;
bool operator>= (IndexType Idx) const;
unsigned Index = None;
};
// A range of indices, essentially a representation of a live range.
// This is also used to represent "dead ranges", i.e. ranges where a
// register is dead.
class IndexRange : public std::pair<IndexType,IndexType> {
public:
IndexRange() = default;
IndexRange(IndexType Start, IndexType End, bool F = false, bool T = false)
: std::pair<IndexType,IndexType>(Start, End), Fixed(F), TiedEnd(T) {}
IndexType start() const { return first; }
IndexType end() const { return second; }
bool operator< (const IndexRange &A) const {
return start() < A.start();
}
bool overlaps(const IndexRange &A) const;
bool contains(const IndexRange &A) const;
void merge(const IndexRange &A);
bool Fixed = false; // Can be renamed? "Fixed" means "no".
bool TiedEnd = false; // The end is not a use, but a dead def tied to a use.
private:
void setStart(const IndexType &S) { first = S; }
void setEnd(const IndexType &E) { second = E; }
};
// A list of index ranges. This represents liveness of a register
// in a basic block.
class RangeList : public std::vector<IndexRange> {
public:
void add(IndexType Start, IndexType End, bool Fixed, bool TiedEnd) {
push_back(IndexRange(Start, End, Fixed, TiedEnd));
}
void add(const IndexRange &Range) {
push_back(Range);
}
void include(const RangeList &RL);
void unionize(bool MergeAdjacent = false);
void subtract(const IndexRange &Range);
private:
void addsub(const IndexRange &A, const IndexRange &B);
};
class InstrIndexMap {
public:
InstrIndexMap(MachineBasicBlock &B);
MachineInstr *getInstr(IndexType Idx) const;
IndexType getIndex(MachineInstr *MI) const;
MachineBasicBlock &getBlock() const { return Block; }
IndexType getPrevIndex(IndexType Idx) const;
IndexType getNextIndex(IndexType Idx) const;
void replaceInstr(MachineInstr *OldMI, MachineInstr *NewMI);
friend raw_ostream &operator<< (raw_ostream &OS, const InstrIndexMap &Map);
IndexType First, Last;
private:
MachineBasicBlock &Block;
std::map<IndexType,MachineInstr*> Map;
};
using RegToRangeMap = std::map<RegisterRef, RangeList>;
RegToRangeMap computeLiveMap(InstrIndexMap &IndexMap);
RegToRangeMap computeDeadMap(InstrIndexMap &IndexMap, RegToRangeMap &LiveMap);
static RegisterSet expandToSubRegs(RegisterRef R,
const MachineRegisterInfo &MRI, const TargetRegisterInfo &TRI);
struct PrintRangeMap {
PrintRangeMap(const RegToRangeMap &M, const TargetRegisterInfo &I)
: Map(M), TRI(I) {}
friend raw_ostream &operator<< (raw_ostream &OS, const PrintRangeMap &P);
private:
const RegToRangeMap &Map;
const TargetRegisterInfo &TRI;
};
private:
RegisterSet getLiveIns(const MachineBasicBlock &B,
const MachineRegisterInfo &MRI, const TargetRegisterInfo &TRI);
void computeInitialLiveRanges(InstrIndexMap &IndexMap,
RegToRangeMap &LiveMap);
MachineFunction &MF;
const HexagonSubtarget &HST;
const TargetInstrInfo &TII;
const TargetRegisterInfo &TRI;
BitVector Reserved;
};
inline HexagonBlockRanges::IndexType::operator unsigned() const {
assert(Index >= First);
return Index;
}
inline bool HexagonBlockRanges::IndexType::operator== (unsigned x) const {
return Index == x;
}
inline bool HexagonBlockRanges::IndexType::operator== (IndexType Idx) const {
return Index == Idx.Index;
}
inline bool HexagonBlockRanges::IndexType::operator!= (unsigned x) const {
return Index != x;
}
inline bool HexagonBlockRanges::IndexType::operator!= (IndexType Idx) const {
return Index != Idx.Index;
}
inline
HexagonBlockRanges::IndexType HexagonBlockRanges::IndexType::operator++ () {
assert(Index != None);
assert(Index != Exit);
if (Index == Entry)
Index = First;
else
++Index;
return *this;
}
inline bool HexagonBlockRanges::IndexType::operator< (unsigned Idx) const {
return operator< (IndexType(Idx));
}
inline bool HexagonBlockRanges::IndexType::operator< (IndexType Idx) const {
// !(x < x).
if (Index == Idx.Index)
return false;
// !(None < x) for all x.
// !(x < None) for all x.
if (Index == None || Idx.Index == None)
return false;
// !(Exit < x) for all x.
// !(x < Entry) for all x.
if (Index == Exit || Idx.Index == Entry)
return false;
// Entry < x for all x != Entry.
// x < Exit for all x != Exit.
if (Index == Entry || Idx.Index == Exit)
return true;
return Index < Idx.Index;
}
inline bool HexagonBlockRanges::IndexType::operator<= (IndexType Idx) const {
return operator==(Idx) || operator<(Idx);
}
raw_ostream &operator<< (raw_ostream &OS, HexagonBlockRanges::IndexType Idx);
raw_ostream &operator<< (raw_ostream &OS,
const HexagonBlockRanges::IndexRange &IR);
raw_ostream &operator<< (raw_ostream &OS,
const HexagonBlockRanges::RangeList &RL);
raw_ostream &operator<< (raw_ostream &OS,
const HexagonBlockRanges::InstrIndexMap &M);
raw_ostream &operator<< (raw_ostream &OS,
const HexagonBlockRanges::PrintRangeMap &P);
} // end namespace llvm
#endif // LLVM_LIB_TARGET_HEXAGON_HEXAGONBLOCKRANGES_H