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llvm-mirror/include/llvm/CodeGen/RegisterCoalescer.h
Jakob Stoklund Olesen f86de96f78 Be more forgiving when calculating alias interference for physreg coalescing.
It is OK for an alias live range to overlap if there is a copy to or from the
physical register. CoalescerPair can work out if the copy is coalescable
independently of the alias.

This means that we can join with the actual destination interval instead of
using the getOrigDstReg() hack. It is no longer necessary to merge clobber
ranges into subregisters.

llvm-svn: 107695
2010-07-06 20:31:51 +00:00

245 lines
9.3 KiB
C++

//===-- RegisterCoalescer.h - Register Coalescing Interface ------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file contains the abstract interface for register coalescers,
// allowing them to interact with and query register allocators.
//
//===----------------------------------------------------------------------===//
#include "llvm/System/IncludeFile.h"
#include "llvm/CodeGen/LiveInterval.h"
#include "llvm/ADT/SmallPtrSet.h"
#ifndef LLVM_CODEGEN_REGISTER_COALESCER_H
#define LLVM_CODEGEN_REGISTER_COALESCER_H
namespace llvm {
class MachineFunction;
class RegallocQuery;
class AnalysisUsage;
class MachineInstr;
class TargetRegisterInfo;
class TargetRegisterClass;
class TargetInstrInfo;
/// An abstract interface for register coalescers. Coalescers must
/// implement this interface to be part of the coalescer analysis
/// group.
class RegisterCoalescer {
public:
static char ID; // Class identification, replacement for typeinfo
RegisterCoalescer() {}
virtual ~RegisterCoalescer(); // We want to be subclassed
/// Run the coalescer on this function, providing interference
/// data to query. Return whether we removed any copies.
virtual bool coalesceFunction(MachineFunction &mf,
RegallocQuery &ifd) = 0;
/// Reset state. Can be used to allow a coalescer run by
/// PassManager to be run again by the register allocator.
virtual void reset(MachineFunction &mf) {}
/// Register allocators must call this from their own
/// getAnalysisUsage to cover the case where the coalescer is not
/// a Pass in the proper sense and isn't managed by PassManager.
/// PassManager needs to know which analyses to make available and
/// which to invalidate when running the register allocator or any
/// pass that might call coalescing. The long-term solution is to
/// allow hierarchies of PassManagers.
virtual void getAnalysisUsage(AnalysisUsage &AU) const {}
};
/// An abstract interface for register allocators to interact with
/// coalescers
///
/// Example:
///
/// This is simply an example of how to use the RegallocQuery
/// interface. It is not meant to be used in production.
///
/// class LinearScanRegallocQuery : public RegallocQuery {
/// private:
/// const LiveIntervals \&li;
///
/// public:
/// LinearScanRegallocQuery(LiveIntervals &intervals)
/// : li(intervals) {}
///
/// /// This is pretty slow and conservative, but since linear scan
/// /// allocation doesn't pre-compute interference information it's
/// /// the best we can do. Coalescers are always free to ignore this
/// /// and implement their own discovery strategy. See
/// /// SimpleRegisterCoalescing for an example.
/// void getInterferences(IntervalSet &interferences,
/// const LiveInterval &a) const {
/// for(LiveIntervals::const_iterator iv = li.begin(),
/// ivend = li.end();
/// iv != ivend;
/// ++iv) {
/// if (interfere(a, iv->second)) {
/// interferences.insert(&iv->second);
/// }
/// }
/// }
///
/// /// This is *really* slow and stupid. See above.
/// int getNumberOfInterferences(const LiveInterval &a) const {
/// IntervalSet intervals;
/// getInterferences(intervals, a);
/// return intervals.size();
/// }
/// };
///
/// In the allocator:
///
/// RegisterCoalescer &coalescer = getAnalysis<RegisterCoalescer>();
///
/// // We don't reset the coalescer so if it's already been run this
/// // takes almost no time.
/// LinearScanRegallocQuery ifd(*li_);
/// coalescer.coalesceFunction(fn, ifd);
///
class RegallocQuery {
public:
typedef SmallPtrSet<const LiveInterval *, 8> IntervalSet;
virtual ~RegallocQuery() {}
/// Return whether two live ranges interfere.
virtual bool interfere(const LiveInterval &a,
const LiveInterval &b) const {
// A naive test
return a.overlaps(b);
}
/// Return the set of intervals that interfere with this one.
virtual void getInterferences(IntervalSet &interferences,
const LiveInterval &a) const = 0;
/// This can often be cheaper than actually returning the
/// interferences.
virtual int getNumberOfInterferences(const LiveInterval &a) const = 0;
/// Make any data structure updates necessary to reflect
/// coalescing or other modifications.
virtual void updateDataForMerge(const LiveInterval &a,
const LiveInterval &b,
const MachineInstr &copy) {}
/// Allow the register allocator to communicate when it doesn't
/// want a copy coalesced. This may be due to assumptions made by
/// the allocator about various invariants and so this question is
/// a matter of legality, not performance. Performance decisions
/// about which copies to coalesce should be made by the
/// coalescer.
virtual bool isLegalToCoalesce(const MachineInstr &inst) const {
return true;
}
};
/// CoalescerPair - A helper class for register coalescers. When deciding if
/// two registers can be coalesced, CoalescerPair can determine if a copy
/// instruction would become an identity copy after coalescing.
class CoalescerPair {
const TargetInstrInfo &tii_;
const TargetRegisterInfo &tri_;
/// dstReg_ - The register that will be left after coalescing. It can be a
/// virtual or physical register.
unsigned dstReg_;
/// srcReg_ - the virtual register that will be coalesced into dstReg.
unsigned srcReg_;
/// subReg_ - The subregister index of srcReg in dstReg_. It is possible the
/// coalesce srcReg_ into a subreg of the larger dstReg_ when dstReg_ is a
/// virtual register.
unsigned subIdx_;
/// partial_ - True when the original copy was a partial subregister copy.
bool partial_;
/// crossClass_ - True when both regs are virtual, and newRC is constrained.
bool crossClass_;
/// flipped_ - True when DstReg and SrcReg are reversed from the oriignal copy
/// instruction.
bool flipped_;
/// newRC_ - The register class of the coalesced register, or NULL if dstReg_
/// is a physreg.
const TargetRegisterClass *newRC_;
/// compose - Compose subreg indices a and b, either may be 0.
unsigned compose(unsigned, unsigned) const;
/// isMoveInstr - Return true if MI is a move or subreg instruction.
bool isMoveInstr(const MachineInstr *MI, unsigned &Src, unsigned &Dst,
unsigned &SrcSub, unsigned &DstSub) const;
public:
CoalescerPair(const TargetInstrInfo &tii, const TargetRegisterInfo &tri)
: tii_(tii), tri_(tri), dstReg_(0), srcReg_(0), subIdx_(0),
partial_(false), crossClass_(false), flipped_(false), newRC_(0) {}
/// setRegisters - set registers to match the copy instruction MI. Return
/// false if MI is not a coalescable copy instruction.
bool setRegisters(const MachineInstr*);
/// flip - Swap srcReg_ and dstReg_. Return false if swapping is impossible
/// because dstReg_ is a physical register, or subIdx_ is set.
bool flip();
/// isCoalescable - Return true if MI is a copy instruction that will become
/// an identity copy after coalescing.
bool isCoalescable(const MachineInstr*) const;
/// isPhys - Return true if DstReg is a physical register.
bool isPhys() const { return !newRC_; }
/// isPartial - Return true if the original copy instruction did not copy the
/// full register, but was a subreg operation.
bool isPartial() const { return partial_; }
/// isCrossClass - Return true if DstReg is virtual and NewRC is a smaller register class than DstReg's.
bool isCrossClass() const { return crossClass_; }
/// isFlipped - Return true when getSrcReg is the register being defined by
/// the original copy instruction.
bool isFlipped() const { return flipped_; }
/// getDstReg - Return the register (virtual or physical) that will remain
/// after coalescing.
unsigned getDstReg() const { return dstReg_; }
/// getSrcReg - Return the virtual register that will be coalesced away.
unsigned getSrcReg() const { return srcReg_; }
/// getSubIdx - Return the subregister index in DstReg that SrcReg will be
/// coalesced into, or 0.
unsigned getSubIdx() const { return subIdx_; }
/// getNewRC - Return the register class of the coalesced register.
const TargetRegisterClass *getNewRC() const { return newRC_; }
};
}
// Because of the way .a files work, we must force the SimpleRC
// implementation to be pulled in if the RegisterCoalescing header is
// included. Otherwise we run the risk of RegisterCoalescing being
// used, but the default implementation not being linked into the tool
// that uses it.
FORCE_DEFINING_FILE_TO_BE_LINKED(RegisterCoalescer)
FORCE_DEFINING_FILE_TO_BE_LINKED(SimpleRegisterCoalescing)
#endif