llvm-mirror/lib/CodeGen/InterferenceCache.h
Jakob Stoklund Olesen 4fe2a13535 Add register mask support to InterferenceCache.
This makes global live range splitting behave identically with and
without register mask operands.

This is not necessarily the best way of using register masks for live
range splitting.  It would be more efficient to first split global live
ranges around calls (i.e., register masks), and reserve the fine grained
per-physreg interference guidance for global live ranges that do not
cross calls.

For now the goal is to produce identical assembly when enabling register
masks.

llvm-svn: 150259
2012-02-10 18:58:34 +00:00

211 lines
6.1 KiB
C++

//===-- 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 in LiveIntervalUnions.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CODEGEN_INTERFERENCECACHE
#define LLVM_CODEGEN_INTERFERENCECACHE
#include "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;
/// AliasTags - A LiveIntervalUnion pointer and tag for each alias of
/// PhysReg.
SmallVector<std::pair<LiveIntervalUnion*, unsigned>, 8> Aliases;
typedef LiveIntervalUnion::SegmentIter Iter;
/// Iters - an iterator for each alias
SmallVector<Iter, 8> Iters;
/// 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();
/// 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