/// in one of several ways: if the register is available in a physical
/// register already, it uses that physical register. If the value is not
/// in a physical register, and if there are physical registers available,
- /// it loads it into a register. If register pressure is high, and it is
- /// possible, it tries to fold the load of the virtual register into the
- /// instruction itself. It avoids doing this if register pressure is low to
- /// improve the chance that subsequent instructions can use the reloaded
- /// value. This method returns the modified instruction.
+ /// it loads it into a register: PhysReg if that is an available physical
+ /// register, otherwise any physical register of the right class.
+ /// If register pressure is high, and it is possible, it tries to fold the
+ /// load of the virtual register into the instruction itself. It avoids
+ /// doing this if register pressure is low to improve the chance that
+ /// subsequent instructions can use the reloaded value. This method
+ /// returns the modified instruction.
///
MachineInstr *reloadVirtReg(MachineBasicBlock &MBB, MachineInstr *MI,
- unsigned OpNum, SmallSet<unsigned, 4> &RRegs);
+ unsigned OpNum, SmallSet<unsigned, 4> &RRegs,
+ unsigned PhysReg);
/// ComputeLocalLiveness - Computes liveness of registers within a basic
/// block, setting the killed/dead flags as appropriate.
assert(VirtReg && "Spilling a physical register is illegal!"
" Must not have appropriate kill for the register or use exists beyond"
" the intended one.");
- DEBUG(errs() << " Spilling register " << TRI->getName(PhysReg)
+ DEBUG(dbgs() << " Spilling register " << TRI->getName(PhysReg)
<< " containing %reg" << VirtReg);
if (!isVirtRegModified(VirtReg)) {
- DEBUG(errs() << " which has not been modified, so no store necessary!");
+ DEBUG(dbgs() << " which has not been modified, so no store necessary!");
std::pair<MachineInstr*, unsigned> &LastUse = getVirtRegLastUse(VirtReg);
if (LastUse.first)
LastUse.first->getOperand(LastUse.second).setIsKill();
// modified.
const TargetRegisterClass *RC = MF->getRegInfo().getRegClass(VirtReg);
int FrameIndex = getStackSpaceFor(VirtReg, RC);
- DEBUG(errs() << " to stack slot #" << FrameIndex);
+ DEBUG(dbgs() << " to stack slot #" << FrameIndex);
// If the instruction reads the register that's spilled, (e.g. this can
// happen if it is a move to a physical register), then the spill
// instruction is not a kill.
getVirt2PhysRegMapSlot(VirtReg) = 0; // VirtReg no longer available
- DEBUG(errs() << '\n');
+ DEBUG(dbgs() << '\n');
removePhysReg(PhysReg);
}
/// one of several ways: if the register is available in a physical register
/// already, it uses that physical register. If the value is not in a physical
/// register, and if there are physical registers available, it loads it into a
+/// register: PhysReg if that is an available physical register, otherwise any
/// register. If register pressure is high, and it is possible, it tries to
/// fold the load of the virtual register into the instruction itself. It
/// avoids doing this if register pressure is low to improve the chance that
-/// subsequent instructions can use the reloaded value. This method returns the
-/// modified instruction.
+/// subsequent instructions can use the reloaded value. This method returns
+/// the modified instruction.
///
MachineInstr *RALocal::reloadVirtReg(MachineBasicBlock &MBB, MachineInstr *MI,
unsigned OpNum,
- SmallSet<unsigned, 4> &ReloadedRegs) {
+ SmallSet<unsigned, 4> &ReloadedRegs,
+ unsigned PhysReg) {
unsigned VirtReg = MI->getOperand(OpNum).getReg();
// If the virtual register is already available, just update the instruction
// Otherwise, we need to fold it into the current instruction, or reload it.
// If we have registers available to hold the value, use them.
const TargetRegisterClass *RC = MF->getRegInfo().getRegClass(VirtReg);
- unsigned PhysReg = getFreeReg(RC);
+ // If we already have a PhysReg (this happens when the instruction is a
+ // reg-to-reg copy with a PhysReg destination) use that.
+ if (!PhysReg || !TargetRegisterInfo::isPhysicalRegister(PhysReg) ||
+ !isPhysRegAvailable(PhysReg))
+ PhysReg = getFreeReg(RC);
int FrameIndex = getStackSpaceFor(VirtReg, RC);
if (PhysReg) { // Register is available, allocate it!
markVirtRegModified(VirtReg, false); // Note that this reg was just reloaded
- DEBUG(errs() << " Reloading %reg" << VirtReg << " into "
+ DEBUG(dbgs() << " Reloading %reg" << VirtReg << " into "
<< TRI->getName(PhysReg) << "\n");
// Add move instruction(s)
DEBUG({
const BasicBlock *LBB = MBB.getBasicBlock();
if (LBB)
- errs() << "\nStarting RegAlloc of BB: " << LBB->getName();
+ dbgs() << "\nStarting RegAlloc of BB: " << LBB->getName();
});
// Add live-in registers as active.
MachineInstr *MI = MII++;
const TargetInstrDesc &TID = MI->getDesc();
DEBUG({
- errs() << "\nStarting RegAlloc of: " << *MI;
- errs() << " Regs have values: ";
+ dbgs() << "\nStarting RegAlloc of: " << *MI;
+ dbgs() << " Regs have values: ";
for (unsigned i = 0; i != TRI->getNumRegs(); ++i)
if (PhysRegsUsed[i] != -1 && PhysRegsUsed[i] != -2)
- errs() << "[" << TRI->getName(i)
+ dbgs() << "[" << TRI->getName(i)
<< ",%reg" << PhysRegsUsed[i] << "] ";
- errs() << '\n';
+ dbgs() << '\n';
});
+ // Determine whether this is a copy instruction. The cases where the
+ // source or destination are phys regs are handled specially.
+ unsigned SrcCopyReg, DstCopyReg, SrcCopySubReg, DstCopySubReg;
+ bool isCopy = TII->isMoveInstr(*MI, SrcCopyReg, DstCopyReg,
+ SrcCopySubReg, DstCopySubReg);
+
// Loop over the implicit uses, making sure that they are at the head of the
// use order list, so they don't get reallocated.
if (TID.ImplicitUses) {
markVirtRegModified(DestVirtReg);
getVirtRegLastUse(DestVirtReg) =
std::make_pair((MachineInstr*)0, 0);
- DEBUG(errs() << " Assigning " << TRI->getName(DestPhysReg)
+ DEBUG(dbgs() << " Assigning " << TRI->getName(DestPhysReg)
<< " to %reg" << DestVirtReg << "\n");
MO.setReg(DestPhysReg); // Assign the earlyclobber register
} else {
// here we are looking for only used operands (never def&use)
if (MO.isReg() && !MO.isDef() && MO.getReg() && !MO.isImplicit() &&
TargetRegisterInfo::isVirtualRegister(MO.getReg()))
- MI = reloadVirtReg(MBB, MI, i, ReloadedRegs);
+ MI = reloadVirtReg(MBB, MI, i, ReloadedRegs,
+ isCopy ? DstCopyReg : 0);
}
// If this instruction is the last user of this register, kill the
}
if (PhysReg) {
- DEBUG(errs() << " Last use of " << TRI->getName(PhysReg)
+ DEBUG(dbgs() << " Last use of " << TRI->getName(PhysReg)
<< "[%reg" << VirtReg <<"], removing it from live set\n");
removePhysReg(PhysReg);
for (const unsigned *SubRegs = TRI->getSubRegisters(PhysReg);
*SubRegs; ++SubRegs) {
if (PhysRegsUsed[*SubRegs] != -2) {
- DEBUG(errs() << " Last use of "
+ DEBUG(dbgs() << " Last use of "
<< TRI->getName(*SubRegs) << "[%reg" << VirtReg
<<"], removing it from live set\n");
removePhysReg(*SubRegs);
unsigned DestPhysReg;
// If DestVirtReg already has a value, use it.
- if (!(DestPhysReg = getVirt2PhysRegMapSlot(DestVirtReg)))
- DestPhysReg = getReg(MBB, MI, DestVirtReg);
+ if (!(DestPhysReg = getVirt2PhysRegMapSlot(DestVirtReg))) {
+ // If this is a copy, the source reg is a phys reg, and
+ // that reg is available, use that phys reg for DestPhysReg.
+ if (isCopy &&
+ TargetRegisterInfo::isPhysicalRegister(SrcCopyReg) &&
+ isPhysRegAvailable(SrcCopyReg)) {
+ DestPhysReg = SrcCopyReg;
+ assignVirtToPhysReg(DestVirtReg, DestPhysReg);
+ } else
+ DestPhysReg = getReg(MBB, MI, DestVirtReg);
+ }
MF->getRegInfo().setPhysRegUsed(DestPhysReg);
markVirtRegModified(DestVirtReg);
getVirtRegLastUse(DestVirtReg) = std::make_pair((MachineInstr*)0, 0);
- DEBUG(errs() << " Assigning " << TRI->getName(DestPhysReg)
+ DEBUG(dbgs() << " Assigning " << TRI->getName(DestPhysReg)
<< " to %reg" << DestVirtReg << "\n");
MO.setReg(DestPhysReg); // Assign the output register
}
}
if (PhysReg) {
- DEBUG(errs() << " Register " << TRI->getName(PhysReg)
+ DEBUG(dbgs() << " Register " << TRI->getName(PhysReg)
<< " [%reg" << VirtReg
<< "] is never used, removing it from live set\n");
removePhysReg(PhysReg);
for (const unsigned *AliasSet = TRI->getAliasSet(PhysReg);
*AliasSet; ++AliasSet) {
if (PhysRegsUsed[*AliasSet] != -2) {
- DEBUG(errs() << " Register " << TRI->getName(*AliasSet)
+ DEBUG(dbgs() << " Register " << TRI->getName(*AliasSet)
<< " [%reg" << *AliasSet
<< "] is never used, removing it from live set\n");
removePhysReg(*AliasSet);
// Finally, if this is a noop copy instruction, zap it. (Except that if
// the copy is dead, it must be kept to avoid messing up liveness info for
// the register scavenger. See pr4100.)
- unsigned SrcReg, DstReg, SrcSubReg, DstSubReg;
- if (TII->isMoveInstr(*MI, SrcReg, DstReg, SrcSubReg, DstSubReg) &&
- SrcReg == DstReg && DeadDefs.empty())
+ if (TII->isMoveInstr(*MI, SrcCopyReg, DstCopyReg,
+ SrcCopySubReg, DstCopySubReg) &&
+ SrcCopyReg == DstCopyReg && DeadDefs.empty())
MBB.erase(MI);
}
/// runOnMachineFunction - Register allocate the whole function
///
bool RALocal::runOnMachineFunction(MachineFunction &Fn) {
- DEBUG(errs() << "Machine Function\n");
+ DEBUG(dbgs() << "Machine Function\n");
MF = &Fn;
TM = &Fn.getTarget();
TRI = TM->getRegisterInfo();