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//===-- InterferenceCache.h - Caching per-block interference ---*- C++ -*--===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// InterferenceCache remembers per-block interference from LiveIntervalUnions,
// fixed RegUnit interference, and register masks.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CODEGEN_INTERFERENCECACHE
#define LLVM_CODEGEN_INTERFERENCECACHE
#include "llvm/CodeGen/LiveIntervalUnion.h"
namespace llvm {
class LiveIntervals;
class InterferenceCache {
const TargetRegisterInfo *TRI;
LiveIntervalUnion *LIUArray;
MachineFunction *MF;
/// BlockInterference - information about the interference in a single basic
/// block.
struct BlockInterference {
BlockInterference() : Tag(0) {}
unsigned Tag;
SlotIndex First;
SlotIndex Last;
};
/// Entry - A cache entry containing interference information for all aliases
/// of PhysReg in all basic blocks.
class Entry {
/// PhysReg - The register currently represented.
unsigned PhysReg;
/// Tag - Cache tag is changed when any of the underlying LiveIntervalUnions
/// change.
unsigned Tag;
/// RefCount - The total number of Cursor instances referring to this Entry.
unsigned RefCount;
/// MF - The current function.
MachineFunction *MF;
/// Indexes - Mapping block numbers to SlotIndex ranges.
SlotIndexes *Indexes;
/// LIS - Used for accessing register mask interference maps.
LiveIntervals *LIS;
/// PrevPos - The previous position the iterators were moved to.
SlotIndex PrevPos;
/// RegUnitInfo - Information tracked about each RegUnit in PhysReg.
/// When PrevPos is set, the iterators are valid as if advanceTo(PrevPos)
/// had just been called.
struct RegUnitInfo {
/// Iterator pointing into the LiveIntervalUnion containing virtual
/// register interference.
LiveIntervalUnion::SegmentIter VirtI;
/// Tag of the LIU last time we looked.
unsigned VirtTag;
/// Fixed interference in RegUnit.
LiveInterval *Fixed;
/// Iterator pointing into the fixed RegUnit interference.
LiveInterval::iterator FixedI;
RegUnitInfo(LiveIntervalUnion &LIU) : VirtTag(LIU.getTag()), Fixed(0) {
VirtI.setMap(LIU.getMap());
}
};
/// Info for each RegUnit in PhysReg. It is very rare ofr a PHysReg to have
/// more than 4 RegUnits.
SmallVector<RegUnitInfo, 4> RegUnits;
/// Blocks - Interference for each block in the function.
SmallVector<BlockInterference, 8> Blocks;
/// update - Recompute Blocks[MBBNum]
void update(unsigned MBBNum);
public:
Entry() : PhysReg(0), Tag(0), RefCount(0), Indexes(0), LIS(0) {}
void clear(MachineFunction *mf, SlotIndexes *indexes, LiveIntervals *lis) {
assert(!hasRefs() && "Cannot clear cache entry with references");
PhysReg = 0;
MF = mf;
Indexes = indexes;
LIS = lis;
}
unsigned getPhysReg() const { return PhysReg; }
void addRef(int Delta) { RefCount += Delta; }
bool hasRefs() const { return RefCount > 0; }
void revalidate(LiveIntervalUnion *LIUArray, const TargetRegisterInfo *TRI);
/// valid - Return true if this is a valid entry for physReg.
bool valid(LiveIntervalUnion *LIUArray, const TargetRegisterInfo *TRI);
/// reset - Initialize entry to represent physReg's aliases.
void reset(unsigned physReg,
LiveIntervalUnion *LIUArray,
const TargetRegisterInfo *TRI,
const MachineFunction *MF);
/// get - Return an up to date BlockInterference.
BlockInterference *get(unsigned MBBNum) {
if (Blocks[MBBNum].Tag != Tag)
update(MBBNum);
return &Blocks[MBBNum];
}
};
// We don't keep a cache entry for every physical register, that would use too
// much memory. Instead, a fixed number of cache entries are used in a round-
// robin manner.
enum { CacheEntries = 32 };
// Point to an entry for each physreg. The entry pointed to may not be up to
// date, and it may have been reused for a different physreg.
SmallVector<unsigned char, 2> PhysRegEntries;
// Next round-robin entry to be picked.
unsigned RoundRobin;
// The actual cache entries.
Entry Entries[CacheEntries];
// get - Get a valid entry for PhysReg.
Entry *get(unsigned PhysReg);
public:
InterferenceCache() : TRI(0), LIUArray(0), MF(0), RoundRobin(0) {}
/// init - Prepare cache for a new function.
void init(MachineFunction*, LiveIntervalUnion*, SlotIndexes*, LiveIntervals*,
const TargetRegisterInfo *);
/// getMaxCursors - Return the maximum number of concurrent cursors that can
/// be supported.
unsigned getMaxCursors() const { return CacheEntries; }
/// Cursor - The primary query interface for the block interference cache.
class Cursor {
Entry *CacheEntry;
BlockInterference *Current;
static BlockInterference NoInterference;
void setEntry(Entry *E) {
Current = 0;
// Update reference counts. Nothing happens when RefCount reaches 0, so
// we don't have to check for E == CacheEntry etc.
if (CacheEntry)
CacheEntry->addRef(-1);
CacheEntry = E;
if (CacheEntry)
CacheEntry->addRef(+1);
}
public:
/// Cursor - Create a dangling cursor.
Cursor() : CacheEntry(0), Current(0) {}
~Cursor() { setEntry(0); }
Cursor(const Cursor &O) : CacheEntry(0), Current(0) {
setEntry(O.CacheEntry);
}
Cursor &operator=(const Cursor &O) {
setEntry(O.CacheEntry);
return *this;
}
/// setPhysReg - Point this cursor to PhysReg's interference.
void setPhysReg(InterferenceCache &Cache, unsigned PhysReg) {
// Release reference before getting a new one. That guarantees we can
// actually have CacheEntries live cursors.
setEntry(0);
if (PhysReg)
setEntry(Cache.get(PhysReg));
}
/// moveTo - Move cursor to basic block MBBNum.
void moveToBlock(unsigned MBBNum) {
Current = CacheEntry ? CacheEntry->get(MBBNum) : &NoInterference;
}
/// hasInterference - Return true if the current block has any interference.
bool hasInterference() {
return Current->First.isValid();
}
/// first - Return the starting index of the first interfering range in the
/// current block.
SlotIndex first() {
return Current->First;
}
/// last - Return the ending index of the last interfering range in the
/// current block.
SlotIndex last() {
return Current->Last;
}
};
friend class Cursor;
};
} // namespace llvm
#endif
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