15df3d890SEugene Zelenko //===- LiveRangeShrink.cpp - Move instructions to shrink live range -------===//
26b737ddcSDehao Chen //
32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
66b737ddcSDehao Chen //
76b737ddcSDehao Chen ///===---------------------------------------------------------------------===//
86b737ddcSDehao Chen ///
96b737ddcSDehao Chen /// \file
106b737ddcSDehao Chen /// This pass moves instructions close to the definition of its operands to
116b737ddcSDehao Chen /// shrink live range of the def instruction. The code motion is limited within
126b737ddcSDehao Chen /// the basic block. The moved instruction should have 1 def, and more than one
136b737ddcSDehao Chen /// uses, all of which are the only use of the def.
146b737ddcSDehao Chen ///
156b737ddcSDehao Chen ///===---------------------------------------------------------------------===//
165df3d890SEugene Zelenko
175df3d890SEugene Zelenko #include "llvm/ADT/DenseMap.h"
186b737ddcSDehao Chen #include "llvm/ADT/Statistic.h"
195df3d890SEugene Zelenko #include "llvm/ADT/iterator_range.h"
205df3d890SEugene Zelenko #include "llvm/CodeGen/MachineBasicBlock.h"
215df3d890SEugene Zelenko #include "llvm/CodeGen/MachineFunction.h"
226b737ddcSDehao Chen #include "llvm/CodeGen/MachineFunctionPass.h"
235df3d890SEugene Zelenko #include "llvm/CodeGen/MachineInstr.h"
245df3d890SEugene Zelenko #include "llvm/CodeGen/MachineOperand.h"
25b3bde2eaSDavid Blaikie #include "llvm/CodeGen/MachineRegisterInfo.h"
2605da2fe5SReid Kleckner #include "llvm/InitializePasses.h"
275df3d890SEugene Zelenko #include "llvm/Pass.h"
286b737ddcSDehao Chen #include "llvm/Support/Debug.h"
295df3d890SEugene Zelenko #include "llvm/Support/raw_ostream.h"
305df3d890SEugene Zelenko #include <iterator>
315df3d890SEugene Zelenko #include <utility>
325df3d890SEugene Zelenko
335df3d890SEugene Zelenko using namespace llvm;
346b737ddcSDehao Chen
356b737ddcSDehao Chen #define DEBUG_TYPE "lrshrink"
366b737ddcSDehao Chen
376b737ddcSDehao Chen STATISTIC(NumInstrsHoistedToShrinkLiveRange,
386b737ddcSDehao Chen "Number of insructions hoisted to shrink live range.");
396b737ddcSDehao Chen
406b737ddcSDehao Chen namespace {
415df3d890SEugene Zelenko
426b737ddcSDehao Chen class LiveRangeShrink : public MachineFunctionPass {
436b737ddcSDehao Chen public:
446b737ddcSDehao Chen static char ID;
456b737ddcSDehao Chen
LiveRangeShrink()466b737ddcSDehao Chen LiveRangeShrink() : MachineFunctionPass(ID) {
476b737ddcSDehao Chen initializeLiveRangeShrinkPass(*PassRegistry::getPassRegistry());
486b737ddcSDehao Chen }
496b737ddcSDehao Chen
getAnalysisUsage(AnalysisUsage & AU) const506b737ddcSDehao Chen void getAnalysisUsage(AnalysisUsage &AU) const override {
516b737ddcSDehao Chen AU.setPreservesCFG();
526b737ddcSDehao Chen MachineFunctionPass::getAnalysisUsage(AU);
536b737ddcSDehao Chen }
546b737ddcSDehao Chen
getPassName() const556b737ddcSDehao Chen StringRef getPassName() const override { return "Live Range Shrink"; }
566b737ddcSDehao Chen
576b737ddcSDehao Chen bool runOnMachineFunction(MachineFunction &MF) override;
586b737ddcSDehao Chen };
595df3d890SEugene Zelenko
605df3d890SEugene Zelenko } // end anonymous namespace
616b737ddcSDehao Chen
626b737ddcSDehao Chen char LiveRangeShrink::ID = 0;
635df3d890SEugene Zelenko
646b737ddcSDehao Chen char &llvm::LiveRangeShrinkID = LiveRangeShrink::ID;
656b737ddcSDehao Chen
666b737ddcSDehao Chen INITIALIZE_PASS(LiveRangeShrink, "lrshrink", "Live Range Shrink Pass", false,
676b737ddcSDehao Chen false)
685df3d890SEugene Zelenko
695df3d890SEugene Zelenko using InstOrderMap = DenseMap<MachineInstr *, unsigned>;
706b737ddcSDehao Chen
716b737ddcSDehao Chen /// Returns \p New if it's dominated by \p Old, otherwise return \p Old.
726b737ddcSDehao Chen /// \p M maintains a map from instruction to its dominating order that satisfies
736b737ddcSDehao Chen /// M[A] > M[B] guarantees that A is dominated by B.
746b737ddcSDehao Chen /// If \p New is not in \p M, return \p Old. Otherwise if \p Old is null, return
756b737ddcSDehao Chen /// \p New.
FindDominatedInstruction(MachineInstr & New,MachineInstr * Old,const InstOrderMap & M)765df3d890SEugene Zelenko static MachineInstr *FindDominatedInstruction(MachineInstr &New,
775df3d890SEugene Zelenko MachineInstr *Old,
786b737ddcSDehao Chen const InstOrderMap &M) {
796b737ddcSDehao Chen auto NewIter = M.find(&New);
806b737ddcSDehao Chen if (NewIter == M.end())
816b737ddcSDehao Chen return Old;
826b737ddcSDehao Chen if (Old == nullptr)
836b737ddcSDehao Chen return &New;
846b737ddcSDehao Chen unsigned OrderOld = M.find(Old)->second;
856b737ddcSDehao Chen unsigned OrderNew = NewIter->second;
866b737ddcSDehao Chen if (OrderOld != OrderNew)
876b737ddcSDehao Chen return OrderOld < OrderNew ? &New : Old;
886b737ddcSDehao Chen // OrderOld == OrderNew, we need to iterate down from Old to see if it
896b737ddcSDehao Chen // can reach New, if yes, New is dominated by Old.
906b737ddcSDehao Chen for (MachineInstr *I = Old->getNextNode(); M.find(I)->second == OrderNew;
916b737ddcSDehao Chen I = I->getNextNode())
926b737ddcSDehao Chen if (I == &New)
936b737ddcSDehao Chen return &New;
946b737ddcSDehao Chen return Old;
956b737ddcSDehao Chen }
966b737ddcSDehao Chen
976b737ddcSDehao Chen /// Builds Instruction to its dominating order number map \p M by traversing
986b737ddcSDehao Chen /// from instruction \p Start.
BuildInstOrderMap(MachineBasicBlock::iterator Start,InstOrderMap & M)995df3d890SEugene Zelenko static void BuildInstOrderMap(MachineBasicBlock::iterator Start,
1005df3d890SEugene Zelenko InstOrderMap &M) {
1016b737ddcSDehao Chen M.clear();
1026b737ddcSDehao Chen unsigned i = 0;
1036b737ddcSDehao Chen for (MachineInstr &I : make_range(Start, Start->getParent()->end()))
1046b737ddcSDehao Chen M[&I] = i++;
1056b737ddcSDehao Chen }
1066b737ddcSDehao Chen
runOnMachineFunction(MachineFunction & MF)1076b737ddcSDehao Chen bool LiveRangeShrink::runOnMachineFunction(MachineFunction &MF) {
108f1caa283SMatthias Braun if (skipFunction(MF.getFunction()))
1096b737ddcSDehao Chen return false;
1106b737ddcSDehao Chen
1116b737ddcSDehao Chen MachineRegisterInfo &MRI = MF.getRegInfo();
1126b737ddcSDehao Chen
113d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "**** Analysing " << MF.getName() << '\n');
1146b737ddcSDehao Chen
1156b737ddcSDehao Chen InstOrderMap IOM;
1166b737ddcSDehao Chen // Map from register to instruction order (value of IOM) where the
1176b737ddcSDehao Chen // register is used last. When moving instructions up, we need to
1186b737ddcSDehao Chen // make sure all its defs (including dead def) will not cross its
1196b737ddcSDehao Chen // last use when moving up.
1206b737ddcSDehao Chen DenseMap<unsigned, std::pair<unsigned, MachineInstr *>> UseMap;
1216b737ddcSDehao Chen
1226b737ddcSDehao Chen for (MachineBasicBlock &MBB : MF) {
1236b737ddcSDehao Chen if (MBB.empty())
1246b737ddcSDehao Chen continue;
1256b737ddcSDehao Chen bool SawStore = false;
1266b737ddcSDehao Chen BuildInstOrderMap(MBB.begin(), IOM);
1276b737ddcSDehao Chen UseMap.clear();
1286b737ddcSDehao Chen
1296b737ddcSDehao Chen for (MachineBasicBlock::iterator Next = MBB.begin(); Next != MBB.end();) {
1306b737ddcSDehao Chen MachineInstr &MI = *Next;
1316b737ddcSDehao Chen ++Next;
132*b98807dfSHongtao Yu if (MI.isPHI() || MI.isDebugOrPseudoInstr())
1336b737ddcSDehao Chen continue;
1346b737ddcSDehao Chen if (MI.mayStore())
1356b737ddcSDehao Chen SawStore = true;
1366b737ddcSDehao Chen
1376b737ddcSDehao Chen unsigned CurrentOrder = IOM[&MI];
1386b737ddcSDehao Chen unsigned Barrier = 0;
1396b737ddcSDehao Chen MachineInstr *BarrierMI = nullptr;
1406b737ddcSDehao Chen for (const MachineOperand &MO : MI.operands()) {
1416b737ddcSDehao Chen if (!MO.isReg() || MO.isDebug())
1426b737ddcSDehao Chen continue;
1436b737ddcSDehao Chen if (MO.isUse())
1446b737ddcSDehao Chen UseMap[MO.getReg()] = std::make_pair(CurrentOrder, &MI);
1456b737ddcSDehao Chen else if (MO.isDead() && UseMap.count(MO.getReg()))
1466b737ddcSDehao Chen // Barrier is the last instruction where MO get used. MI should not
1476b737ddcSDehao Chen // be moved above Barrier.
1486b737ddcSDehao Chen if (Barrier < UseMap[MO.getReg()].first) {
1496b737ddcSDehao Chen Barrier = UseMap[MO.getReg()].first;
1506b737ddcSDehao Chen BarrierMI = UseMap[MO.getReg()].second;
1516b737ddcSDehao Chen }
1526b737ddcSDehao Chen }
1536b737ddcSDehao Chen
1546b737ddcSDehao Chen if (!MI.isSafeToMove(nullptr, SawStore)) {
1556b737ddcSDehao Chen // If MI has side effects, it should become a barrier for code motion.
1566b737ddcSDehao Chen // IOM is rebuild from the next instruction to prevent later
1576b737ddcSDehao Chen // instructions from being moved before this MI.
1581cb47a06SHongtao Yu if (MI.hasUnmodeledSideEffects() && !MI.isPseudoProbe() &&
1591cb47a06SHongtao Yu Next != MBB.end()) {
1606b737ddcSDehao Chen BuildInstOrderMap(Next, IOM);
1616b737ddcSDehao Chen SawStore = false;
1626b737ddcSDehao Chen }
1636b737ddcSDehao Chen continue;
1646b737ddcSDehao Chen }
1656b737ddcSDehao Chen
1666b737ddcSDehao Chen const MachineOperand *DefMO = nullptr;
1676b737ddcSDehao Chen MachineInstr *Insert = nullptr;
1686b737ddcSDehao Chen
1696b737ddcSDehao Chen // Number of live-ranges that will be shortened. We do not count
1706b737ddcSDehao Chen // live-ranges that are defined by a COPY as it could be coalesced later.
1716b737ddcSDehao Chen unsigned NumEligibleUse = 0;
1726b737ddcSDehao Chen
1736b737ddcSDehao Chen for (const MachineOperand &MO : MI.operands()) {
1746b737ddcSDehao Chen if (!MO.isReg() || MO.isDead() || MO.isDebug())
1756b737ddcSDehao Chen continue;
1760c476111SDaniel Sanders Register Reg = MO.getReg();
1776b737ddcSDehao Chen // Do not move the instruction if it def/uses a physical register,
1786b737ddcSDehao Chen // unless it is a constant physical register or a noreg.
1792bea69bfSDaniel Sanders if (!Register::isVirtualRegister(Reg)) {
1806b737ddcSDehao Chen if (!Reg || MRI.isConstantPhysReg(Reg))
1816b737ddcSDehao Chen continue;
1826b737ddcSDehao Chen Insert = nullptr;
1836b737ddcSDehao Chen break;
1846b737ddcSDehao Chen }
1856b737ddcSDehao Chen if (MO.isDef()) {
1866b737ddcSDehao Chen // Do not move if there is more than one def.
1876b737ddcSDehao Chen if (DefMO) {
1886b737ddcSDehao Chen Insert = nullptr;
1896b737ddcSDehao Chen break;
1906b737ddcSDehao Chen }
1916b737ddcSDehao Chen DefMO = &MO;
1926b737ddcSDehao Chen } else if (MRI.hasOneNonDBGUse(Reg) && MRI.hasOneDef(Reg) && DefMO &&
1936b737ddcSDehao Chen MRI.getRegClass(DefMO->getReg()) ==
1946b737ddcSDehao Chen MRI.getRegClass(MO.getReg())) {
1956b737ddcSDehao Chen // The heuristic does not handle different register classes yet
1966b737ddcSDehao Chen // (registers of different sizes, looser/tighter constraints). This
1976b737ddcSDehao Chen // is because it needs more accurate model to handle register
1986b737ddcSDehao Chen // pressure correctly.
1996b737ddcSDehao Chen MachineInstr &DefInstr = *MRI.def_instr_begin(Reg);
2006b737ddcSDehao Chen if (!DefInstr.isCopy())
2016b737ddcSDehao Chen NumEligibleUse++;
2026b737ddcSDehao Chen Insert = FindDominatedInstruction(DefInstr, Insert, IOM);
2036b737ddcSDehao Chen } else {
2046b737ddcSDehao Chen Insert = nullptr;
2056b737ddcSDehao Chen break;
2066b737ddcSDehao Chen }
2076b737ddcSDehao Chen }
2086b737ddcSDehao Chen
2096b737ddcSDehao Chen // If Barrier equals IOM[I], traverse forward to find if BarrierMI is
2106b737ddcSDehao Chen // after Insert, if yes, then we should not hoist.
2116b737ddcSDehao Chen for (MachineInstr *I = Insert; I && IOM[I] == Barrier;
2126b737ddcSDehao Chen I = I->getNextNode())
2136b737ddcSDehao Chen if (I == BarrierMI) {
2146b737ddcSDehao Chen Insert = nullptr;
2156b737ddcSDehao Chen break;
2166b737ddcSDehao Chen }
2176b737ddcSDehao Chen // Move the instruction when # of shrunk live range > 1.
2186b737ddcSDehao Chen if (DefMO && Insert && NumEligibleUse > 1 && Barrier <= IOM[Insert]) {
2196b737ddcSDehao Chen MachineBasicBlock::iterator I = std::next(Insert->getIterator());
2206b737ddcSDehao Chen // Skip all the PHI and debug instructions.
221*b98807dfSHongtao Yu while (I != MBB.end() && (I->isPHI() || I->isDebugOrPseudoInstr()))
2226b737ddcSDehao Chen I = std::next(I);
2236b737ddcSDehao Chen if (I == MI.getIterator())
2246b737ddcSDehao Chen continue;
2256b737ddcSDehao Chen
2266b737ddcSDehao Chen // Update the dominator order to be the same as the insertion point.
2276b737ddcSDehao Chen // We do this to maintain a non-decreasing order without need to update
2286b737ddcSDehao Chen // all instruction orders after the insertion point.
2296b737ddcSDehao Chen unsigned NewOrder = IOM[&*I];
2306b737ddcSDehao Chen IOM[&MI] = NewOrder;
2316b737ddcSDehao Chen NumInstrsHoistedToShrinkLiveRange++;
2326b737ddcSDehao Chen
2336b737ddcSDehao Chen // Find MI's debug value following MI.
2346b737ddcSDehao Chen MachineBasicBlock::iterator EndIter = std::next(MI.getIterator());
2356b737ddcSDehao Chen if (MI.getOperand(0).isReg())
2366b737ddcSDehao Chen for (; EndIter != MBB.end() && EndIter->isDebugValue() &&
237f6774130SStephen Tozer EndIter->hasDebugOperandForReg(MI.getOperand(0).getReg());
2386b737ddcSDehao Chen ++EndIter, ++Next)
2396b737ddcSDehao Chen IOM[&*EndIter] = NewOrder;
2406b737ddcSDehao Chen MBB.splice(I, &MBB, MI.getIterator(), EndIter);
2416b737ddcSDehao Chen }
2426b737ddcSDehao Chen }
2436b737ddcSDehao Chen }
2446b737ddcSDehao Chen return false;
2456b737ddcSDehao Chen }
246