176bf48d9SEugene Zelenko //===- llvm/CodeGen/GlobalISel/IRTranslator.cpp - IRTranslator ---*- C++ -*-==//
2105cf2b1SQuentin Colombet //
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
6105cf2b1SQuentin Colombet //
7105cf2b1SQuentin Colombet //===----------------------------------------------------------------------===//
8105cf2b1SQuentin Colombet /// \file
9105cf2b1SQuentin Colombet /// This file implements the IRTranslator class.
10105cf2b1SQuentin Colombet //===----------------------------------------------------------------------===//
11105cf2b1SQuentin Colombet
12105cf2b1SQuentin Colombet #include "llvm/CodeGen/GlobalISel/IRTranslator.h"
136cdfe29dSAmara Emerson #include "llvm/ADT/PostOrderIterator.h"
1476bf48d9SEugene Zelenko #include "llvm/ADT/STLExtras.h"
15eceabddcSAhmed Bougacha #include "llvm/ADT/ScopeExit.h"
16b6636fd3STim Northover #include "llvm/ADT/SmallSet.h"
17fd9d0a07SQuentin Colombet #include "llvm/ADT/SmallVector.h"
188d0383ebSMatt Arsenault #include "llvm/Analysis/AliasAnalysis.h"
19fe4625fbSAmara Emerson #include "llvm/Analysis/BranchProbabilityInfo.h"
200965da20SAdam Nemet #include "llvm/Analysis/OptimizationRemarkEmitter.h"
212e35dc51SJessica Paquette #include "llvm/Analysis/ValueTracking.h"
22a9105be4STim Northover #include "llvm/CodeGen/Analysis.h"
23ed98c1b3Sserge-sans-paille #include "llvm/CodeGen/GlobalISel/CSEInfo.h"
24ed98c1b3Sserge-sans-paille #include "llvm/CodeGen/GlobalISel/CSEMIRBuilder.h"
256bda14b3SChandler Carruth #include "llvm/CodeGen/GlobalISel/CallLowering.h"
26500e3eadSAditya Nandakumar #include "llvm/CodeGen/GlobalISel/GISelChangeObserver.h"
2712030494SKonstantin Schwarz #include "llvm/CodeGen/GlobalISel/InlineAsmLowering.h"
28cfef1803SAmara Emerson #include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h"
2976bf48d9SEugene Zelenko #include "llvm/CodeGen/LowLevelType.h"
3076bf48d9SEugene Zelenko #include "llvm/CodeGen/MachineBasicBlock.h"
31bd505460STim Northover #include "llvm/CodeGen/MachineFrameInfo.h"
326bda14b3SChandler Carruth #include "llvm/CodeGen/MachineFunction.h"
3376bf48d9SEugene Zelenko #include "llvm/CodeGen/MachineInstrBuilder.h"
3476bf48d9SEugene Zelenko #include "llvm/CodeGen/MachineMemOperand.h"
353e16e215SMatt Arsenault #include "llvm/CodeGen/MachineModuleInfo.h"
3676bf48d9SEugene Zelenko #include "llvm/CodeGen/MachineOperand.h"
3717c494b9SQuentin Colombet #include "llvm/CodeGen/MachineRegisterInfo.h"
38cfef1803SAmara Emerson #include "llvm/CodeGen/RuntimeLibcalls.h"
3990ad6835SMatthias Braun #include "llvm/CodeGen/StackProtector.h"
40467a0712SAmara Emerson #include "llvm/CodeGen/SwitchLoweringUtils.h"
41b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetFrameLowering.h"
42469d42fcSJessica Paquette #include "llvm/CodeGen/TargetInstrInfo.h"
43b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetLowering.h"
443bb32cc7SQuentin Colombet #include "llvm/CodeGen/TargetPassConfig.h"
45b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetRegisterInfo.h"
46b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetSubtargetInfo.h"
4776bf48d9SEugene Zelenko #include "llvm/IR/BasicBlock.h"
486cdfe29dSAmara Emerson #include "llvm/IR/CFG.h"
4917c494b9SQuentin Colombet #include "llvm/IR/Constant.h"
5076bf48d9SEugene Zelenko #include "llvm/IR/Constants.h"
5176bf48d9SEugene Zelenko #include "llvm/IR/DataLayout.h"
5276bf48d9SEugene Zelenko #include "llvm/IR/DerivedTypes.h"
53846e562dSNick Desaulniers #include "llvm/IR/DiagnosticInfo.h"
542ecff3bfSQuentin Colombet #include "llvm/IR/Function.h"
55a7653b39STim Northover #include "llvm/IR/GetElementPtrTypeIterator.h"
5676bf48d9SEugene Zelenko #include "llvm/IR/InlineAsm.h"
57467a0712SAmara Emerson #include "llvm/IR/InstrTypes.h"
5876bf48d9SEugene Zelenko #include "llvm/IR/Instructions.h"
595fb414d8STim Northover #include "llvm/IR/IntrinsicInst.h"
6076bf48d9SEugene Zelenko #include "llvm/IR/Intrinsics.h"
6176bf48d9SEugene Zelenko #include "llvm/IR/LLVMContext.h"
6276bf48d9SEugene Zelenko #include "llvm/IR/Metadata.h"
63467a0712SAmara Emerson #include "llvm/IR/PatternMatch.h"
6417c494b9SQuentin Colombet #include "llvm/IR/Type.h"
6576bf48d9SEugene Zelenko #include "llvm/IR/User.h"
6617c494b9SQuentin Colombet #include "llvm/IR/Value.h"
6705da2fe5SReid Kleckner #include "llvm/InitializePasses.h"
6876bf48d9SEugene Zelenko #include "llvm/MC/MCContext.h"
6976bf48d9SEugene Zelenko #include "llvm/Pass.h"
7076bf48d9SEugene Zelenko #include "llvm/Support/Casting.h"
7176bf48d9SEugene Zelenko #include "llvm/Support/CodeGen.h"
7276bf48d9SEugene Zelenko #include "llvm/Support/Debug.h"
7376bf48d9SEugene Zelenko #include "llvm/Support/ErrorHandling.h"
7476bf48d9SEugene Zelenko #include "llvm/Support/LowLevelTypeImpl.h"
7576bf48d9SEugene Zelenko #include "llvm/Support/MathExtras.h"
7676bf48d9SEugene Zelenko #include "llvm/Support/raw_ostream.h"
775fb414d8STim Northover #include "llvm/Target/TargetIntrinsicInfo.h"
7876bf48d9SEugene Zelenko #include "llvm/Target/TargetMachine.h"
79095e91c9SJon Roelofs #include "llvm/Transforms/Utils/MemoryOpRemark.h"
8076bf48d9SEugene Zelenko #include <algorithm>
8176bf48d9SEugene Zelenko #include <cassert>
8276bf48d9SEugene Zelenko #include <cstdint>
8376bf48d9SEugene Zelenko #include <iterator>
8476bf48d9SEugene Zelenko #include <string>
8576bf48d9SEugene Zelenko #include <utility>
8676bf48d9SEugene Zelenko #include <vector>
872ecff3bfSQuentin Colombet
882ecff3bfSQuentin Colombet #define DEBUG_TYPE "irtranslator"
892ecff3bfSQuentin Colombet
90105cf2b1SQuentin Colombet using namespace llvm;
91105cf2b1SQuentin Colombet
92500e3eadSAditya Nandakumar static cl::opt<bool>
93500e3eadSAditya Nandakumar EnableCSEInIRTranslator("enable-cse-in-irtranslator",
94500e3eadSAditya Nandakumar cl::desc("Should enable CSE in irtranslator"),
95500e3eadSAditya Nandakumar cl::Optional, cl::init(false));
96105cf2b1SQuentin Colombet char IRTranslator::ID = 0;
9776bf48d9SEugene Zelenko
983bb32cc7SQuentin Colombet INITIALIZE_PASS_BEGIN(IRTranslator, DEBUG_TYPE, "IRTranslator LLVM IR -> MI",
993bb32cc7SQuentin Colombet false, false)
INITIALIZE_PASS_DEPENDENCY(TargetPassConfig)1003bb32cc7SQuentin Colombet INITIALIZE_PASS_DEPENDENCY(TargetPassConfig)
101500e3eadSAditya Nandakumar INITIALIZE_PASS_DEPENDENCY(GISelCSEAnalysisWrapperPass)
102fd8275e0SQuentin Colombet INITIALIZE_PASS_DEPENDENCY(BlockFrequencyInfoWrapperPass)
103fd8275e0SQuentin Colombet INITIALIZE_PASS_DEPENDENCY(StackProtector)
104095e91c9SJon Roelofs INITIALIZE_PASS_DEPENDENCY(TargetLibraryInfoWrapperPass)
1053bb32cc7SQuentin Colombet INITIALIZE_PASS_END(IRTranslator, DEBUG_TYPE, "IRTranslator LLVM IR -> MI",
106884b47ecSTim Northover false, false)
107105cf2b1SQuentin Colombet
108ae9dadecSAhmed Bougacha static void reportTranslationError(MachineFunction &MF,
109ae9dadecSAhmed Bougacha const TargetPassConfig &TPC,
110ae9dadecSAhmed Bougacha OptimizationRemarkEmitter &ORE,
111ae9dadecSAhmed Bougacha OptimizationRemarkMissed &R) {
112ae9dadecSAhmed Bougacha MF.getProperties().set(MachineFunctionProperties::Property::FailedISel);
113ae9dadecSAhmed Bougacha
114ae9dadecSAhmed Bougacha // Print the function name explicitly if we don't have a debug location (which
115ae9dadecSAhmed Bougacha // makes the diagnostic less useful) or if we're going to emit a raw error.
116ae9dadecSAhmed Bougacha if (!R.getLocation().isValid() || TPC.isGlobalISelAbortEnabled())
117ae9dadecSAhmed Bougacha R << (" (in function: " + MF.getName() + ")").str();
118ae9dadecSAhmed Bougacha
119ae9dadecSAhmed Bougacha if (TPC.isGlobalISelAbortEnabled())
12021661607SSimon Pilgrim report_fatal_error(Twine(R.getMsg()));
121ae9dadecSAhmed Bougacha else
122ae9dadecSAhmed Bougacha ORE.emit(R);
12360f2349bSTim Northover }
12460f2349bSTim Northover
IRTranslator(CodeGenOpt::Level optlevel)125e5784ef8SAmara Emerson IRTranslator::IRTranslator(CodeGenOpt::Level optlevel)
126e5784ef8SAmara Emerson : MachineFunctionPass(ID), OptLevel(optlevel) {}
127a7fae162SQuentin Colombet
1283b39040aSDaniel Sanders #ifndef NDEBUG
129b17d2136SBenjamin Kramer namespace {
1303b39040aSDaniel Sanders /// Verify that every instruction created has the same DILocation as the
1313b39040aSDaniel Sanders /// instruction being translated.
132500e3eadSAditya Nandakumar class DILocationVerifier : public GISelChangeObserver {
1333b39040aSDaniel Sanders const Instruction *CurrInst = nullptr;
1343b39040aSDaniel Sanders
1353b39040aSDaniel Sanders public:
136500e3eadSAditya Nandakumar DILocationVerifier() = default;
137500e3eadSAditya Nandakumar ~DILocationVerifier() = default;
1383b39040aSDaniel Sanders
getCurrentInst() const1393b39040aSDaniel Sanders const Instruction *getCurrentInst() const { return CurrInst; }
setCurrentInst(const Instruction * Inst)1403b39040aSDaniel Sanders void setCurrentInst(const Instruction *Inst) { CurrInst = Inst; }
1413b39040aSDaniel Sanders
erasingInstr(MachineInstr & MI)142500e3eadSAditya Nandakumar void erasingInstr(MachineInstr &MI) override {}
changingInstr(MachineInstr & MI)143500e3eadSAditya Nandakumar void changingInstr(MachineInstr &MI) override {}
changedInstr(MachineInstr & MI)144500e3eadSAditya Nandakumar void changedInstr(MachineInstr &MI) override {}
145500e3eadSAditya Nandakumar
createdInstr(MachineInstr & MI)146500e3eadSAditya Nandakumar void createdInstr(MachineInstr &MI) override {
1473b39040aSDaniel Sanders assert(getCurrentInst() && "Inserted instruction without a current MI");
1483b39040aSDaniel Sanders
1493b39040aSDaniel Sanders // Only print the check message if we're actually checking it.
1503b39040aSDaniel Sanders #ifndef NDEBUG
1513b39040aSDaniel Sanders LLVM_DEBUG(dbgs() << "Checking DILocation from " << *CurrInst
1523b39040aSDaniel Sanders << " was copied to " << MI);
1533b39040aSDaniel Sanders #endif
154*fc93ba06SVladislav Dzhidzhoev // We allow insts in the entry block to have no debug loc because
155fb0a40f0SAmara Emerson // they could have originated from constants, and we don't want a jumpy
156fb0a40f0SAmara Emerson // debug experience.
157fb0a40f0SAmara Emerson assert((CurrInst->getDebugLoc() == MI.getDebugLoc() ||
158*fc93ba06SVladislav Dzhidzhoev (MI.getParent()->isEntryBlock() && !MI.getDebugLoc())) &&
1593b39040aSDaniel Sanders "Line info was not transferred to all instructions");
1603b39040aSDaniel Sanders }
1613b39040aSDaniel Sanders };
162b17d2136SBenjamin Kramer } // namespace
1633b39040aSDaniel Sanders #endif // ifndef NDEBUG
1643b39040aSDaniel Sanders
1653b39040aSDaniel Sanders
getAnalysisUsage(AnalysisUsage & AU) const1663bb32cc7SQuentin Colombet void IRTranslator::getAnalysisUsage(AnalysisUsage &AU) const {
16790ad6835SMatthias Braun AU.addRequired<StackProtector>();
1683bb32cc7SQuentin Colombet AU.addRequired<TargetPassConfig>();
169500e3eadSAditya Nandakumar AU.addRequired<GISelCSEAnalysisWrapperPass>();
1708d0383ebSMatt Arsenault if (OptLevel != CodeGenOpt::None) {
171e5784ef8SAmara Emerson AU.addRequired<BranchProbabilityInfoWrapperPass>();
1728d0383ebSMatt Arsenault AU.addRequired<AAResultsWrapperPass>();
1738d0383ebSMatt Arsenault }
174095e91c9SJon Roelofs AU.addRequired<TargetLibraryInfoWrapperPass>();
175095e91c9SJon Roelofs AU.addPreserved<TargetLibraryInfoWrapperPass>();
17690ad6835SMatthias Braun getSelectionDAGFallbackAnalysisUsage(AU);
1773bb32cc7SQuentin Colombet MachineFunctionPass::getAnalysisUsage(AU);
1783bb32cc7SQuentin Colombet }
1793bb32cc7SQuentin Colombet
1800d6a26dfSAmara Emerson IRTranslator::ValueToVRegInfo::VRegListT &
allocateVRegs(const Value & Val)1810d6a26dfSAmara Emerson IRTranslator::allocateVRegs(const Value &Val) {
18221de99d4SAmara Emerson auto VRegsIt = VMap.findVRegs(Val);
18321de99d4SAmara Emerson if (VRegsIt != VMap.vregs_end())
18421de99d4SAmara Emerson return *VRegsIt->second;
1850d6a26dfSAmara Emerson auto *Regs = VMap.getVRegs(Val);
1860d6a26dfSAmara Emerson auto *Offsets = VMap.getOffsets(Val);
1870d6a26dfSAmara Emerson SmallVector<LLT, 4> SplitTys;
1880d6a26dfSAmara Emerson computeValueLLTs(*DL, *Val.getType(), SplitTys,
1890d6a26dfSAmara Emerson Offsets->empty() ? Offsets : nullptr);
1900d6a26dfSAmara Emerson for (unsigned i = 0; i < SplitTys.size(); ++i)
1910d6a26dfSAmara Emerson Regs->push_back(0);
1920d6a26dfSAmara Emerson return *Regs;
1930d6a26dfSAmara Emerson }
1949e35f1e2STim Northover
getOrCreateVRegs(const Value & Val)195e3a676e9SMatt Arsenault ArrayRef<Register> IRTranslator::getOrCreateVRegs(const Value &Val) {
1960d6a26dfSAmara Emerson auto VRegsIt = VMap.findVRegs(Val);
1970d6a26dfSAmara Emerson if (VRegsIt != VMap.vregs_end())
1980d6a26dfSAmara Emerson return *VRegsIt->second;
1990d6a26dfSAmara Emerson
2000d6a26dfSAmara Emerson if (Val.getType()->isVoidTy())
2010d6a26dfSAmara Emerson return *VMap.getVRegs(Val);
2020d6a26dfSAmara Emerson
2030d6a26dfSAmara Emerson // Create entry for this type.
2040d6a26dfSAmara Emerson auto *VRegs = VMap.getVRegs(Val);
2050d6a26dfSAmara Emerson auto *Offsets = VMap.getOffsets(Val);
2060d6a26dfSAmara Emerson
207e225e254SQuentin Colombet assert(Val.getType()->isSized() &&
20817c494b9SQuentin Colombet "Don't know how to create an empty vreg");
2095ed648e5STim Northover
2100d6a26dfSAmara Emerson SmallVector<LLT, 4> SplitTys;
2110d6a26dfSAmara Emerson computeValueLLTs(*DL, *Val.getType(), SplitTys,
2120d6a26dfSAmara Emerson Offsets->empty() ? Offsets : nullptr);
2130d6a26dfSAmara Emerson
2140d6a26dfSAmara Emerson if (!isa<Constant>(Val)) {
2150d6a26dfSAmara Emerson for (auto Ty : SplitTys)
2160d6a26dfSAmara Emerson VRegs->push_back(MRI->createGenericVirtualRegister(Ty));
2170d6a26dfSAmara Emerson return *VRegs;
2180d6a26dfSAmara Emerson }
2190d6a26dfSAmara Emerson
2200d6a26dfSAmara Emerson if (Val.getType()->isAggregateType()) {
2210d6a26dfSAmara Emerson // UndefValue, ConstantAggregateZero
2220d6a26dfSAmara Emerson auto &C = cast<Constant>(Val);
2230d6a26dfSAmara Emerson unsigned Idx = 0;
2240d6a26dfSAmara Emerson while (auto Elt = C.getAggregateElement(Idx++)) {
2250d6a26dfSAmara Emerson auto EltRegs = getOrCreateVRegs(*Elt);
22675709329SFangrui Song llvm::copy(EltRegs, std::back_inserter(*VRegs));
2270d6a26dfSAmara Emerson }
2280d6a26dfSAmara Emerson } else {
2290d6a26dfSAmara Emerson assert(SplitTys.size() == 1 && "unexpectedly split LLT");
2300d6a26dfSAmara Emerson VRegs->push_back(MRI->createGenericVirtualRegister(SplitTys[0]));
2310d6a26dfSAmara Emerson bool Success = translate(cast<Constant>(Val), VRegs->front());
2323bb32cc7SQuentin Colombet if (!Success) {
233ae9dadecSAhmed Bougacha OptimizationRemarkMissed R("gisel-irtranslator", "GISelFailure",
234f1caa283SMatthias Braun MF->getFunction().getSubprogram(),
235f1caa283SMatthias Braun &MF->getFunction().getEntryBlock());
236ae9dadecSAhmed Bougacha R << "unable to translate constant: " << ore::NV("Type", Val.getType());
237ae9dadecSAhmed Bougacha reportTranslationError(*MF, *TPC, *ORE, R);
2380d6a26dfSAmara Emerson return *VRegs;
2393bb32cc7SQuentin Colombet }
24017c494b9SQuentin Colombet }
2417f3ad2e0STim Northover
2420d6a26dfSAmara Emerson return *VRegs;
24317c494b9SQuentin Colombet }
24417c494b9SQuentin Colombet
getOrCreateFrameIndex(const AllocaInst & AI)245cdf23f1dSTim Northover int IRTranslator::getOrCreateFrameIndex(const AllocaInst &AI) {
2467d0b32c2SMatt Arsenault auto MapEntry = FrameIndices.find(&AI);
2477d0b32c2SMatt Arsenault if (MapEntry != FrameIndices.end())
2487d0b32c2SMatt Arsenault return MapEntry->second;
249cdf23f1dSTim Northover
250965ed1e9SKiran Chandramohan uint64_t ElementSize = DL->getTypeAllocSize(AI.getAllocatedType());
251965ed1e9SKiran Chandramohan uint64_t Size =
252cdf23f1dSTim Northover ElementSize * cast<ConstantInt>(AI.getArraySize())->getZExtValue();
253cdf23f1dSTim Northover
254cdf23f1dSTim Northover // Always allocate at least one byte.
255965ed1e9SKiran Chandramohan Size = std::max<uint64_t>(Size, 1u);
256cdf23f1dSTim Northover
257cdf23f1dSTim Northover int &FI = FrameIndices[&AI];
25828de229bSGuillaume Chatelet FI = MF->getFrameInfo().CreateStackObject(Size, AI.getAlign(), false, &AI);
259cdf23f1dSTim Northover return FI;
260cdf23f1dSTim Northover }
261cdf23f1dSTim Northover
getMemOpAlign(const Instruction & I)262af3c52d5SGuillaume Chatelet Align IRTranslator::getMemOpAlign(const Instruction &I) {
26311aa3707SEli Friedman if (const StoreInst *SI = dyn_cast<StoreInst>(&I))
26411aa3707SEli Friedman return SI->getAlign();
2656de64557SJames Y Knight if (const LoadInst *LI = dyn_cast<LoadInst>(&I))
26652e98f62SNikita Popov return LI->getAlign();
2676de64557SJames Y Knight if (const AtomicCmpXchgInst *AI = dyn_cast<AtomicCmpXchgInst>(&I))
2686de64557SJames Y Knight return AI->getAlign();
2696de64557SJames Y Knight if (const AtomicRMWInst *AI = dyn_cast<AtomicRMWInst>(&I))
2706de64557SJames Y Knight return AI->getAlign();
2716de64557SJames Y Knight
272ae9dadecSAhmed Bougacha OptimizationRemarkMissed R("gisel-irtranslator", "", &I);
273ae9dadecSAhmed Bougacha R << "unable to translate memop: " << ore::NV("Opcode", &I);
274ae9dadecSAhmed Bougacha reportTranslationError(*MF, *TPC, *ORE, R);
275af3c52d5SGuillaume Chatelet return Align(1);
276ad2b717fSTim Northover }
277ad2b717fSTim Northover
getMBB(const BasicBlock & BB)278a61c214fSAhmed Bougacha MachineBasicBlock &IRTranslator::getMBB(const BasicBlock &BB) {
27953237a9eSQuentin Colombet MachineBasicBlock *&MBB = BBToMBB[&BB];
280a61c214fSAhmed Bougacha assert(MBB && "BasicBlock was not encountered before");
28117c494b9SQuentin Colombet return *MBB;
28217c494b9SQuentin Colombet }
28317c494b9SQuentin Colombet
addMachineCFGPred(CFGEdge Edge,MachineBasicBlock * NewPred)284b6636fd3STim Northover void IRTranslator::addMachineCFGPred(CFGEdge Edge, MachineBasicBlock *NewPred) {
285b6636fd3STim Northover assert(NewPred && "new predecessor must be a real MachineBasicBlock");
286b6636fd3STim Northover MachinePreds[Edge].push_back(NewPred);
287b6636fd3STim Northover }
288b6636fd3STim Northover
translateBinaryOp(unsigned Opcode,const User & U,MachineIRBuilder & MIRBuilder)289c53606efSTim Northover bool IRTranslator::translateBinaryOp(unsigned Opcode, const User &U,
290c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
2912ecff3bfSQuentin Colombet // Get or create a virtual register for each value.
2922ecff3bfSQuentin Colombet // Unless the value is a Constant => loadimm cst?
2932ecff3bfSQuentin Colombet // or inline constant each time?
2942ecff3bfSQuentin Colombet // Creation of a virtual register needs to have a size.
295faeaedf8SMatt Arsenault Register Op0 = getOrCreateVReg(*U.getOperand(0));
296faeaedf8SMatt Arsenault Register Op1 = getOrCreateVReg(*U.getOperand(1));
297faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(U);
298f0d81a31SMichael Berg uint16_t Flags = 0;
299894c39f7SMichael Berg if (isa<Instruction>(U)) {
300894c39f7SMichael Berg const Instruction &I = cast<Instruction>(U);
301f0d81a31SMichael Berg Flags = MachineInstr::copyFlagsFromInstruction(I);
302894c39f7SMichael Berg }
303f0d81a31SMichael Berg
304f0d81a31SMichael Berg MIRBuilder.buildInstr(Opcode, {Res}, {Op0, Op1}, Flags);
30517c494b9SQuentin Colombet return true;
306105cf2b1SQuentin Colombet }
307105cf2b1SQuentin Colombet
translateUnaryOp(unsigned Opcode,const User & U,MachineIRBuilder & MIRBuilder)308fa2b836eSJay Foad bool IRTranslator::translateUnaryOp(unsigned Opcode, const User &U,
309fa2b836eSJay Foad MachineIRBuilder &MIRBuilder) {
310faeaedf8SMatt Arsenault Register Op0 = getOrCreateVReg(*U.getOperand(0));
311faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(U);
312f9bff2a5SMichael Berg uint16_t Flags = 0;
313f9bff2a5SMichael Berg if (isa<Instruction>(U)) {
314f9bff2a5SMichael Berg const Instruction &I = cast<Instruction>(U);
315f9bff2a5SMichael Berg Flags = MachineInstr::copyFlagsFromInstruction(I);
316f9bff2a5SMichael Berg }
317fa2b836eSJay Foad MIRBuilder.buildInstr(Opcode, {Res}, {Op0}, Flags);
318cbde0d9cSCameron McInally return true;
319cbde0d9cSCameron McInally }
320cbde0d9cSCameron McInally
translateFNeg(const User & U,MachineIRBuilder & MIRBuilder)321fa2b836eSJay Foad bool IRTranslator::translateFNeg(const User &U, MachineIRBuilder &MIRBuilder) {
322fa2b836eSJay Foad return translateUnaryOp(TargetOpcode::G_FNEG, U, MIRBuilder);
323fa2b836eSJay Foad }
324fa2b836eSJay Foad
translateCompare(const User & U,MachineIRBuilder & MIRBuilder)325c53606efSTim Northover bool IRTranslator::translateCompare(const User &U,
326c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
327944a051eSSimon Pilgrim auto *CI = dyn_cast<CmpInst>(&U);
328faeaedf8SMatt Arsenault Register Op0 = getOrCreateVReg(*U.getOperand(0));
329faeaedf8SMatt Arsenault Register Op1 = getOrCreateVReg(*U.getOperand(1));
330faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(U);
331d5c23bcfSTim Northover CmpInst::Predicate Pred =
332d5c23bcfSTim Northover CI ? CI->getPredicate() : static_cast<CmpInst::Predicate>(
333d5c23bcfSTim Northover cast<ConstantExpr>(U).getPredicate());
334d5c23bcfSTim Northover if (CmpInst::isIntPredicate(Pred))
3350f140c76STim Northover MIRBuilder.buildICmp(Pred, Res, Op0, Op1);
3367596bd7aSTim Northover else if (Pred == CmpInst::FCMP_FALSE)
3372fb80307SAhmed Bougacha MIRBuilder.buildCopy(
338944a051eSSimon Pilgrim Res, getOrCreateVReg(*Constant::getNullValue(U.getType())));
3397596bd7aSTim Northover else if (Pred == CmpInst::FCMP_TRUE)
3402fb80307SAhmed Bougacha MIRBuilder.buildCopy(
341944a051eSSimon Pilgrim Res, getOrCreateVReg(*Constant::getAllOnesValue(U.getType())));
342c6a5245cSMichael Berg else {
343a3446537SKonstantin Schwarz uint16_t Flags = 0;
344a3446537SKonstantin Schwarz if (CI)
345a3446537SKonstantin Schwarz Flags = MachineInstr::copyFlagsFromInstruction(*CI);
346a3446537SKonstantin Schwarz MIRBuilder.buildFCmp(Pred, Res, Op0, Op1, Flags);
347c6a5245cSMichael Berg }
348d5c23bcfSTim Northover
349de3aea04STim Northover return true;
350de3aea04STim Northover }
351de3aea04STim Northover
translateRet(const User & U,MachineIRBuilder & MIRBuilder)352c53606efSTim Northover bool IRTranslator::translateRet(const User &U, MachineIRBuilder &MIRBuilder) {
353357f1be2STim Northover const ReturnInst &RI = cast<ReturnInst>(U);
3540d56e05aSTim Northover const Value *Ret = RI.getReturnValue();
355d78d65c2SAmara Emerson if (Ret && DL->getTypeStoreSize(Ret->getType()) == 0)
356d78d65c2SAmara Emerson Ret = nullptr;
35749168f67SAlexander Ivchenko
358e3a676e9SMatt Arsenault ArrayRef<Register> VRegs;
35949168f67SAlexander Ivchenko if (Ret)
36049168f67SAlexander Ivchenko VRegs = getOrCreateVRegs(*Ret);
36149168f67SAlexander Ivchenko
362e3a676e9SMatt Arsenault Register SwiftErrorVReg = 0;
3633b2157aeSTim Northover if (CLI->supportSwiftError() && SwiftError.getFunctionArg()) {
3643b2157aeSTim Northover SwiftErrorVReg = SwiftError.getOrCreateVRegUseAt(
3653b2157aeSTim Northover &RI, &MIRBuilder.getMBB(), SwiftError.getFunctionArg());
3663b2157aeSTim Northover }
3673b2157aeSTim Northover
36874d7d2f0SQuentin Colombet // The target may mess up with the insertion point, but
36974d7d2f0SQuentin Colombet // this is not important as a return is the last instruction
37074d7d2f0SQuentin Colombet // of the block anyway.
371d68458bdSChristudasan Devadasan return CLI->lowerReturn(MIRBuilder, Ret, VRegs, FuncInfo, SwiftErrorVReg);
37274d7d2f0SQuentin Colombet }
37374d7d2f0SQuentin Colombet
emitBranchForMergedCondition(const Value * Cond,MachineBasicBlock * TBB,MachineBasicBlock * FBB,MachineBasicBlock * CurBB,MachineBasicBlock * SwitchBB,BranchProbability TProb,BranchProbability FProb,bool InvertCond)374467a0712SAmara Emerson void IRTranslator::emitBranchForMergedCondition(
375467a0712SAmara Emerson const Value *Cond, MachineBasicBlock *TBB, MachineBasicBlock *FBB,
376467a0712SAmara Emerson MachineBasicBlock *CurBB, MachineBasicBlock *SwitchBB,
377467a0712SAmara Emerson BranchProbability TProb, BranchProbability FProb, bool InvertCond) {
378467a0712SAmara Emerson // If the leaf of the tree is a comparison, merge the condition into
379467a0712SAmara Emerson // the caseblock.
380467a0712SAmara Emerson if (const CmpInst *BOp = dyn_cast<CmpInst>(Cond)) {
381467a0712SAmara Emerson CmpInst::Predicate Condition;
382467a0712SAmara Emerson if (const ICmpInst *IC = dyn_cast<ICmpInst>(Cond)) {
383467a0712SAmara Emerson Condition = InvertCond ? IC->getInversePredicate() : IC->getPredicate();
384467a0712SAmara Emerson } else {
385467a0712SAmara Emerson const FCmpInst *FC = cast<FCmpInst>(Cond);
386467a0712SAmara Emerson Condition = InvertCond ? FC->getInversePredicate() : FC->getPredicate();
38769c2ba54STim Northover }
38869c2ba54STim Northover
389467a0712SAmara Emerson SwitchCG::CaseBlock CB(Condition, false, BOp->getOperand(0),
390467a0712SAmara Emerson BOp->getOperand(1), nullptr, TBB, FBB, CurBB,
391467a0712SAmara Emerson CurBuilder->getDebugLoc(), TProb, FProb);
392467a0712SAmara Emerson SL->SwitchCases.push_back(CB);
393467a0712SAmara Emerson return;
394467a0712SAmara Emerson }
395e8e1fa3aSAhmed Bougacha
396467a0712SAmara Emerson // Create a CaseBlock record representing this branch.
397467a0712SAmara Emerson CmpInst::Predicate Pred = InvertCond ? CmpInst::ICMP_NE : CmpInst::ICMP_EQ;
398467a0712SAmara Emerson SwitchCG::CaseBlock CB(
399467a0712SAmara Emerson Pred, false, Cond, ConstantInt::getTrue(MF->getFunction().getContext()),
400467a0712SAmara Emerson nullptr, TBB, FBB, CurBB, CurBuilder->getDebugLoc(), TProb, FProb);
401467a0712SAmara Emerson SL->SwitchCases.push_back(CB);
402467a0712SAmara Emerson }
403467a0712SAmara Emerson
isValInBlock(const Value * V,const BasicBlock * BB)404467a0712SAmara Emerson static bool isValInBlock(const Value *V, const BasicBlock *BB) {
405467a0712SAmara Emerson if (const Instruction *I = dyn_cast<Instruction>(V))
406467a0712SAmara Emerson return I->getParent() == BB;
407467a0712SAmara Emerson return true;
408467a0712SAmara Emerson }
409467a0712SAmara Emerson
findMergedConditions(const Value * Cond,MachineBasicBlock * TBB,MachineBasicBlock * FBB,MachineBasicBlock * CurBB,MachineBasicBlock * SwitchBB,Instruction::BinaryOps Opc,BranchProbability TProb,BranchProbability FProb,bool InvertCond)410467a0712SAmara Emerson void IRTranslator::findMergedConditions(
411467a0712SAmara Emerson const Value *Cond, MachineBasicBlock *TBB, MachineBasicBlock *FBB,
412467a0712SAmara Emerson MachineBasicBlock *CurBB, MachineBasicBlock *SwitchBB,
413467a0712SAmara Emerson Instruction::BinaryOps Opc, BranchProbability TProb,
414467a0712SAmara Emerson BranchProbability FProb, bool InvertCond) {
415467a0712SAmara Emerson using namespace PatternMatch;
416467a0712SAmara Emerson assert((Opc == Instruction::And || Opc == Instruction::Or) &&
417467a0712SAmara Emerson "Expected Opc to be AND/OR");
418467a0712SAmara Emerson // Skip over not part of the tree and remember to invert op and operands at
419467a0712SAmara Emerson // next level.
420467a0712SAmara Emerson Value *NotCond;
421467a0712SAmara Emerson if (match(Cond, m_OneUse(m_Not(m_Value(NotCond)))) &&
422467a0712SAmara Emerson isValInBlock(NotCond, CurBB->getBasicBlock())) {
423467a0712SAmara Emerson findMergedConditions(NotCond, TBB, FBB, CurBB, SwitchBB, Opc, TProb, FProb,
424467a0712SAmara Emerson !InvertCond);
425467a0712SAmara Emerson return;
426467a0712SAmara Emerson }
427467a0712SAmara Emerson
428467a0712SAmara Emerson const Instruction *BOp = dyn_cast<Instruction>(Cond);
4295cdf6ed7SJuneyoung Lee const Value *BOpOp0, *BOpOp1;
430467a0712SAmara Emerson // Compute the effective opcode for Cond, taking into account whether it needs
431467a0712SAmara Emerson // to be inverted, e.g.
432467a0712SAmara Emerson // and (not (or A, B)), C
433467a0712SAmara Emerson // gets lowered as
434467a0712SAmara Emerson // and (and (not A, not B), C)
4355cdf6ed7SJuneyoung Lee Instruction::BinaryOps BOpc = (Instruction::BinaryOps)0;
436467a0712SAmara Emerson if (BOp) {
4375cdf6ed7SJuneyoung Lee BOpc = match(BOp, m_LogicalAnd(m_Value(BOpOp0), m_Value(BOpOp1)))
4385cdf6ed7SJuneyoung Lee ? Instruction::And
4395cdf6ed7SJuneyoung Lee : (match(BOp, m_LogicalOr(m_Value(BOpOp0), m_Value(BOpOp1)))
4405cdf6ed7SJuneyoung Lee ? Instruction::Or
4415cdf6ed7SJuneyoung Lee : (Instruction::BinaryOps)0);
442467a0712SAmara Emerson if (InvertCond) {
443467a0712SAmara Emerson if (BOpc == Instruction::And)
444467a0712SAmara Emerson BOpc = Instruction::Or;
445467a0712SAmara Emerson else if (BOpc == Instruction::Or)
446467a0712SAmara Emerson BOpc = Instruction::And;
447467a0712SAmara Emerson }
448467a0712SAmara Emerson }
449467a0712SAmara Emerson
450467a0712SAmara Emerson // If this node is not part of the or/and tree, emit it as a branch.
4515cdf6ed7SJuneyoung Lee // Note that all nodes in the tree should have same opcode.
4525cdf6ed7SJuneyoung Lee bool BOpIsInOrAndTree = BOpc && BOpc == Opc && BOp->hasOneUse();
4535cdf6ed7SJuneyoung Lee if (!BOpIsInOrAndTree || BOp->getParent() != CurBB->getBasicBlock() ||
4545cdf6ed7SJuneyoung Lee !isValInBlock(BOpOp0, CurBB->getBasicBlock()) ||
4555cdf6ed7SJuneyoung Lee !isValInBlock(BOpOp1, CurBB->getBasicBlock())) {
456467a0712SAmara Emerson emitBranchForMergedCondition(Cond, TBB, FBB, CurBB, SwitchBB, TProb, FProb,
457467a0712SAmara Emerson InvertCond);
458467a0712SAmara Emerson return;
459467a0712SAmara Emerson }
460467a0712SAmara Emerson
461467a0712SAmara Emerson // Create TmpBB after CurBB.
462467a0712SAmara Emerson MachineFunction::iterator BBI(CurBB);
463467a0712SAmara Emerson MachineBasicBlock *TmpBB =
464467a0712SAmara Emerson MF->CreateMachineBasicBlock(CurBB->getBasicBlock());
465467a0712SAmara Emerson CurBB->getParent()->insert(++BBI, TmpBB);
466467a0712SAmara Emerson
467467a0712SAmara Emerson if (Opc == Instruction::Or) {
468467a0712SAmara Emerson // Codegen X | Y as:
469467a0712SAmara Emerson // BB1:
470467a0712SAmara Emerson // jmp_if_X TBB
471467a0712SAmara Emerson // jmp TmpBB
472467a0712SAmara Emerson // TmpBB:
473467a0712SAmara Emerson // jmp_if_Y TBB
474467a0712SAmara Emerson // jmp FBB
475467a0712SAmara Emerson //
476467a0712SAmara Emerson
477467a0712SAmara Emerson // We have flexibility in setting Prob for BB1 and Prob for TmpBB.
478467a0712SAmara Emerson // The requirement is that
479467a0712SAmara Emerson // TrueProb for BB1 + (FalseProb for BB1 * TrueProb for TmpBB)
480467a0712SAmara Emerson // = TrueProb for original BB.
481467a0712SAmara Emerson // Assuming the original probabilities are A and B, one choice is to set
482467a0712SAmara Emerson // BB1's probabilities to A/2 and A/2+B, and set TmpBB's probabilities to
483467a0712SAmara Emerson // A/(1+B) and 2B/(1+B). This choice assumes that
484467a0712SAmara Emerson // TrueProb for BB1 == FalseProb for BB1 * TrueProb for TmpBB.
485467a0712SAmara Emerson // Another choice is to assume TrueProb for BB1 equals to TrueProb for
486467a0712SAmara Emerson // TmpBB, but the math is more complicated.
487467a0712SAmara Emerson
488467a0712SAmara Emerson auto NewTrueProb = TProb / 2;
489467a0712SAmara Emerson auto NewFalseProb = TProb / 2 + FProb;
490467a0712SAmara Emerson // Emit the LHS condition.
4915cdf6ed7SJuneyoung Lee findMergedConditions(BOpOp0, TBB, TmpBB, CurBB, SwitchBB, Opc, NewTrueProb,
4925cdf6ed7SJuneyoung Lee NewFalseProb, InvertCond);
493467a0712SAmara Emerson
494467a0712SAmara Emerson // Normalize A/2 and B to get A/(1+B) and 2B/(1+B).
495467a0712SAmara Emerson SmallVector<BranchProbability, 2> Probs{TProb / 2, FProb};
496467a0712SAmara Emerson BranchProbability::normalizeProbabilities(Probs.begin(), Probs.end());
497467a0712SAmara Emerson // Emit the RHS condition into TmpBB.
4985cdf6ed7SJuneyoung Lee findMergedConditions(BOpOp1, TBB, FBB, TmpBB, SwitchBB, Opc, Probs[0],
4995cdf6ed7SJuneyoung Lee Probs[1], InvertCond);
500467a0712SAmara Emerson } else {
501467a0712SAmara Emerson assert(Opc == Instruction::And && "Unknown merge op!");
502467a0712SAmara Emerson // Codegen X & Y as:
503467a0712SAmara Emerson // BB1:
504467a0712SAmara Emerson // jmp_if_X TmpBB
505467a0712SAmara Emerson // jmp FBB
506467a0712SAmara Emerson // TmpBB:
507467a0712SAmara Emerson // jmp_if_Y TBB
508467a0712SAmara Emerson // jmp FBB
509467a0712SAmara Emerson //
510467a0712SAmara Emerson // This requires creation of TmpBB after CurBB.
511467a0712SAmara Emerson
512467a0712SAmara Emerson // We have flexibility in setting Prob for BB1 and Prob for TmpBB.
513467a0712SAmara Emerson // The requirement is that
514467a0712SAmara Emerson // FalseProb for BB1 + (TrueProb for BB1 * FalseProb for TmpBB)
515467a0712SAmara Emerson // = FalseProb for original BB.
516467a0712SAmara Emerson // Assuming the original probabilities are A and B, one choice is to set
517467a0712SAmara Emerson // BB1's probabilities to A+B/2 and B/2, and set TmpBB's probabilities to
518467a0712SAmara Emerson // 2A/(1+A) and B/(1+A). This choice assumes that FalseProb for BB1 ==
519467a0712SAmara Emerson // TrueProb for BB1 * FalseProb for TmpBB.
520467a0712SAmara Emerson
521467a0712SAmara Emerson auto NewTrueProb = TProb + FProb / 2;
522467a0712SAmara Emerson auto NewFalseProb = FProb / 2;
523467a0712SAmara Emerson // Emit the LHS condition.
5245cdf6ed7SJuneyoung Lee findMergedConditions(BOpOp0, TmpBB, FBB, CurBB, SwitchBB, Opc, NewTrueProb,
5255cdf6ed7SJuneyoung Lee NewFalseProb, InvertCond);
526467a0712SAmara Emerson
527467a0712SAmara Emerson // Normalize A and B/2 to get 2A/(1+A) and B/(1+A).
528467a0712SAmara Emerson SmallVector<BranchProbability, 2> Probs{TProb, FProb / 2};
529467a0712SAmara Emerson BranchProbability::normalizeProbabilities(Probs.begin(), Probs.end());
530467a0712SAmara Emerson // Emit the RHS condition into TmpBB.
5315cdf6ed7SJuneyoung Lee findMergedConditions(BOpOp1, TBB, FBB, TmpBB, SwitchBB, Opc, Probs[0],
5325cdf6ed7SJuneyoung Lee Probs[1], InvertCond);
533467a0712SAmara Emerson }
534467a0712SAmara Emerson }
535467a0712SAmara Emerson
shouldEmitAsBranches(const std::vector<SwitchCG::CaseBlock> & Cases)536467a0712SAmara Emerson bool IRTranslator::shouldEmitAsBranches(
537467a0712SAmara Emerson const std::vector<SwitchCG::CaseBlock> &Cases) {
538467a0712SAmara Emerson // For multiple cases, it's better to emit as branches.
539467a0712SAmara Emerson if (Cases.size() != 2)
540467a0712SAmara Emerson return true;
541467a0712SAmara Emerson
542467a0712SAmara Emerson // If this is two comparisons of the same values or'd or and'd together, they
543467a0712SAmara Emerson // will get folded into a single comparison, so don't emit two blocks.
544467a0712SAmara Emerson if ((Cases[0].CmpLHS == Cases[1].CmpLHS &&
545467a0712SAmara Emerson Cases[0].CmpRHS == Cases[1].CmpRHS) ||
546467a0712SAmara Emerson (Cases[0].CmpRHS == Cases[1].CmpLHS &&
547467a0712SAmara Emerson Cases[0].CmpLHS == Cases[1].CmpRHS)) {
548467a0712SAmara Emerson return false;
549467a0712SAmara Emerson }
550467a0712SAmara Emerson
551467a0712SAmara Emerson // Handle: (X != null) | (Y != null) --> (X|Y) != 0
552467a0712SAmara Emerson // Handle: (X == null) & (Y == null) --> (X|Y) == 0
553467a0712SAmara Emerson if (Cases[0].CmpRHS == Cases[1].CmpRHS &&
554467a0712SAmara Emerson Cases[0].PredInfo.Pred == Cases[1].PredInfo.Pred &&
555467a0712SAmara Emerson isa<Constant>(Cases[0].CmpRHS) &&
556467a0712SAmara Emerson cast<Constant>(Cases[0].CmpRHS)->isNullValue()) {
557467a0712SAmara Emerson if (Cases[0].PredInfo.Pred == CmpInst::ICMP_EQ &&
558467a0712SAmara Emerson Cases[0].TrueBB == Cases[1].ThisBB)
559467a0712SAmara Emerson return false;
560467a0712SAmara Emerson if (Cases[0].PredInfo.Pred == CmpInst::ICMP_NE &&
561467a0712SAmara Emerson Cases[0].FalseBB == Cases[1].ThisBB)
562467a0712SAmara Emerson return false;
563467a0712SAmara Emerson }
564467a0712SAmara Emerson
565467a0712SAmara Emerson return true;
566467a0712SAmara Emerson }
567467a0712SAmara Emerson
translateBr(const User & U,MachineIRBuilder & MIRBuilder)568467a0712SAmara Emerson bool IRTranslator::translateBr(const User &U, MachineIRBuilder &MIRBuilder) {
569467a0712SAmara Emerson const BranchInst &BrInst = cast<BranchInst>(U);
570467a0712SAmara Emerson auto &CurMBB = MIRBuilder.getMBB();
571467a0712SAmara Emerson auto *Succ0MBB = &getMBB(*BrInst.getSuccessor(0));
572467a0712SAmara Emerson
573467a0712SAmara Emerson if (BrInst.isUnconditional()) {
574e8e1fa3aSAhmed Bougacha // If the unconditional target is the layout successor, fallthrough.
575c5d84d2eSAdrian Prantl if (OptLevel == CodeGenOpt::None || !CurMBB.isLayoutSuccessor(Succ0MBB))
576467a0712SAmara Emerson MIRBuilder.buildBr(*Succ0MBB);
57769c2ba54STim Northover
578dd4b1373SQuentin Colombet // Link successors.
57996fc1de7SChandler Carruth for (const BasicBlock *Succ : successors(&BrInst))
580467a0712SAmara Emerson CurMBB.addSuccessor(&getMBB(*Succ));
581467a0712SAmara Emerson return true;
582467a0712SAmara Emerson }
583467a0712SAmara Emerson
584467a0712SAmara Emerson // If this condition is one of the special cases we handle, do special stuff
585467a0712SAmara Emerson // now.
586467a0712SAmara Emerson const Value *CondVal = BrInst.getCondition();
587467a0712SAmara Emerson MachineBasicBlock *Succ1MBB = &getMBB(*BrInst.getSuccessor(1));
588467a0712SAmara Emerson
589467a0712SAmara Emerson const auto &TLI = *MF->getSubtarget().getTargetLowering();
590467a0712SAmara Emerson
591467a0712SAmara Emerson // If this is a series of conditions that are or'd or and'd together, emit
592467a0712SAmara Emerson // this as a sequence of branches instead of setcc's with and/or operations.
593467a0712SAmara Emerson // As long as jumps are not expensive (exceptions for multi-use logic ops,
594467a0712SAmara Emerson // unpredictable branches, and vector extracts because those jumps are likely
595467a0712SAmara Emerson // expensive for any target), this should improve performance.
596467a0712SAmara Emerson // For example, instead of something like:
597467a0712SAmara Emerson // cmp A, B
598467a0712SAmara Emerson // C = seteq
599467a0712SAmara Emerson // cmp D, E
600467a0712SAmara Emerson // F = setle
601467a0712SAmara Emerson // or C, F
602467a0712SAmara Emerson // jnz foo
603467a0712SAmara Emerson // Emit:
604467a0712SAmara Emerson // cmp A, B
605467a0712SAmara Emerson // je foo
606467a0712SAmara Emerson // cmp D, E
607467a0712SAmara Emerson // jle foo
608467a0712SAmara Emerson using namespace PatternMatch;
6095cdf6ed7SJuneyoung Lee const Instruction *CondI = dyn_cast<Instruction>(CondVal);
6105cdf6ed7SJuneyoung Lee if (!TLI.isJumpExpensive() && CondI && CondI->hasOneUse() &&
6115cdf6ed7SJuneyoung Lee !BrInst.hasMetadata(LLVMContext::MD_unpredictable)) {
6125cdf6ed7SJuneyoung Lee Instruction::BinaryOps Opcode = (Instruction::BinaryOps)0;
6135cdf6ed7SJuneyoung Lee Value *Vec;
6145cdf6ed7SJuneyoung Lee const Value *BOp0, *BOp1;
6155cdf6ed7SJuneyoung Lee if (match(CondI, m_LogicalAnd(m_Value(BOp0), m_Value(BOp1))))
6165cdf6ed7SJuneyoung Lee Opcode = Instruction::And;
6175cdf6ed7SJuneyoung Lee else if (match(CondI, m_LogicalOr(m_Value(BOp0), m_Value(BOp1))))
6185cdf6ed7SJuneyoung Lee Opcode = Instruction::Or;
6195cdf6ed7SJuneyoung Lee
6205cdf6ed7SJuneyoung Lee if (Opcode && !(match(BOp0, m_ExtractElt(m_Value(Vec), m_Value())) &&
621467a0712SAmara Emerson match(BOp1, m_ExtractElt(m_Specific(Vec), m_Value())))) {
6225cdf6ed7SJuneyoung Lee findMergedConditions(CondI, Succ0MBB, Succ1MBB, &CurMBB, &CurMBB, Opcode,
623467a0712SAmara Emerson getEdgeProbability(&CurMBB, Succ0MBB),
624467a0712SAmara Emerson getEdgeProbability(&CurMBB, Succ1MBB),
625467a0712SAmara Emerson /*InvertCond=*/false);
626467a0712SAmara Emerson assert(SL->SwitchCases[0].ThisBB == &CurMBB && "Unexpected lowering!");
627467a0712SAmara Emerson
628467a0712SAmara Emerson // Allow some cases to be rejected.
629467a0712SAmara Emerson if (shouldEmitAsBranches(SL->SwitchCases)) {
630467a0712SAmara Emerson // Emit the branch for this block.
631467a0712SAmara Emerson emitSwitchCase(SL->SwitchCases[0], &CurMBB, *CurBuilder);
632467a0712SAmara Emerson SL->SwitchCases.erase(SL->SwitchCases.begin());
633467a0712SAmara Emerson return true;
634467a0712SAmara Emerson }
635467a0712SAmara Emerson
636467a0712SAmara Emerson // Okay, we decided not to do this, remove any inserted MBB's and clear
637467a0712SAmara Emerson // SwitchCases.
638467a0712SAmara Emerson for (unsigned I = 1, E = SL->SwitchCases.size(); I != E; ++I)
639467a0712SAmara Emerson MF->erase(SL->SwitchCases[I].ThisBB);
640467a0712SAmara Emerson
641467a0712SAmara Emerson SL->SwitchCases.clear();
642467a0712SAmara Emerson }
643467a0712SAmara Emerson }
644467a0712SAmara Emerson
645467a0712SAmara Emerson // Create a CaseBlock record representing this branch.
646467a0712SAmara Emerson SwitchCG::CaseBlock CB(CmpInst::ICMP_EQ, false, CondVal,
647467a0712SAmara Emerson ConstantInt::getTrue(MF->getFunction().getContext()),
648467a0712SAmara Emerson nullptr, Succ0MBB, Succ1MBB, &CurMBB,
649467a0712SAmara Emerson CurBuilder->getDebugLoc());
650467a0712SAmara Emerson
651467a0712SAmara Emerson // Use emitSwitchCase to actually insert the fast branch sequence for this
652467a0712SAmara Emerson // cond branch.
653467a0712SAmara Emerson emitSwitchCase(CB, &CurMBB, *CurBuilder);
654dd4b1373SQuentin Colombet return true;
655dd4b1373SQuentin Colombet }
656dd4b1373SQuentin Colombet
addSuccessorWithProb(MachineBasicBlock * Src,MachineBasicBlock * Dst,BranchProbability Prob)657fe4625fbSAmara Emerson void IRTranslator::addSuccessorWithProb(MachineBasicBlock *Src,
658fe4625fbSAmara Emerson MachineBasicBlock *Dst,
659fe4625fbSAmara Emerson BranchProbability Prob) {
660fe4625fbSAmara Emerson if (!FuncInfo.BPI) {
661fe4625fbSAmara Emerson Src->addSuccessorWithoutProb(Dst);
662fe4625fbSAmara Emerson return;
663eced071eSKristof Beyls }
664fe4625fbSAmara Emerson if (Prob.isUnknown())
665fe4625fbSAmara Emerson Prob = getEdgeProbability(Src, Dst);
666fe4625fbSAmara Emerson Src->addSuccessor(Dst, Prob);
667fe4625fbSAmara Emerson }
668fe4625fbSAmara Emerson
669fe4625fbSAmara Emerson BranchProbability
getEdgeProbability(const MachineBasicBlock * Src,const MachineBasicBlock * Dst) const670fe4625fbSAmara Emerson IRTranslator::getEdgeProbability(const MachineBasicBlock *Src,
671fe4625fbSAmara Emerson const MachineBasicBlock *Dst) const {
672fe4625fbSAmara Emerson const BasicBlock *SrcBB = Src->getBasicBlock();
673fe4625fbSAmara Emerson const BasicBlock *DstBB = Dst->getBasicBlock();
674fe4625fbSAmara Emerson if (!FuncInfo.BPI) {
675fe4625fbSAmara Emerson // If BPI is not available, set the default probability as 1 / N, where N is
676fe4625fbSAmara Emerson // the number of successors.
677fe4625fbSAmara Emerson auto SuccSize = std::max<uint32_t>(succ_size(SrcBB), 1);
678fe4625fbSAmara Emerson return BranchProbability(1, SuccSize);
679fe4625fbSAmara Emerson }
680fe4625fbSAmara Emerson return FuncInfo.BPI->getEdgeProbability(SrcBB, DstBB);
681fe4625fbSAmara Emerson }
682fe4625fbSAmara Emerson
translateSwitch(const User & U,MachineIRBuilder & MIB)683fe4625fbSAmara Emerson bool IRTranslator::translateSwitch(const User &U, MachineIRBuilder &MIB) {
684fe4625fbSAmara Emerson using namespace SwitchCG;
685fe4625fbSAmara Emerson // Extract cases from the switch.
686fe4625fbSAmara Emerson const SwitchInst &SI = cast<SwitchInst>(U);
687fe4625fbSAmara Emerson BranchProbabilityInfo *BPI = FuncInfo.BPI;
688fe4625fbSAmara Emerson CaseClusterVector Clusters;
689fe4625fbSAmara Emerson Clusters.reserve(SI.getNumCases());
6909e6d1f4bSKazu Hirata for (const auto &I : SI.cases()) {
691fe4625fbSAmara Emerson MachineBasicBlock *Succ = &getMBB(*I.getCaseSuccessor());
692fe4625fbSAmara Emerson assert(Succ && "Could not find successor mbb in mapping");
693fe4625fbSAmara Emerson const ConstantInt *CaseVal = I.getCaseValue();
694fe4625fbSAmara Emerson BranchProbability Prob =
695fe4625fbSAmara Emerson BPI ? BPI->getEdgeProbability(SI.getParent(), I.getSuccessorIndex())
696fe4625fbSAmara Emerson : BranchProbability(1, SI.getNumCases() + 1);
697fe4625fbSAmara Emerson Clusters.push_back(CaseCluster::range(CaseVal, CaseVal, Succ, Prob));
698fe4625fbSAmara Emerson }
699fe4625fbSAmara Emerson
700fe4625fbSAmara Emerson MachineBasicBlock *DefaultMBB = &getMBB(*SI.getDefaultDest());
701fe4625fbSAmara Emerson
702fe4625fbSAmara Emerson // Cluster adjacent cases with the same destination. We do this at all
703fe4625fbSAmara Emerson // optimization levels because it's cheap to do and will make codegen faster
704fe4625fbSAmara Emerson // if there are many clusters.
705fe4625fbSAmara Emerson sortAndRangeify(Clusters);
706fe4625fbSAmara Emerson
707fe4625fbSAmara Emerson MachineBasicBlock *SwitchMBB = &getMBB(*SI.getParent());
708fe4625fbSAmara Emerson
709fe4625fbSAmara Emerson // If there is only the default destination, jump there directly.
710fe4625fbSAmara Emerson if (Clusters.empty()) {
711fe4625fbSAmara Emerson SwitchMBB->addSuccessor(DefaultMBB);
712fe4625fbSAmara Emerson if (DefaultMBB != SwitchMBB->getNextNode())
713fe4625fbSAmara Emerson MIB.buildBr(*DefaultMBB);
714fe4625fbSAmara Emerson return true;
715fe4625fbSAmara Emerson }
716fe4625fbSAmara Emerson
7170d987e41SHiroshi Yamauchi SL->findJumpTables(Clusters, &SI, DefaultMBB, nullptr, nullptr);
7182ff14957SAmara Emerson SL->findBitTestClusters(Clusters, &SI);
719fe4625fbSAmara Emerson
720fe4625fbSAmara Emerson LLVM_DEBUG({
721fe4625fbSAmara Emerson dbgs() << "Case clusters: ";
722fe4625fbSAmara Emerson for (const CaseCluster &C : Clusters) {
723fe4625fbSAmara Emerson if (C.Kind == CC_JumpTable)
724fe4625fbSAmara Emerson dbgs() << "JT:";
725fe4625fbSAmara Emerson if (C.Kind == CC_BitTests)
726fe4625fbSAmara Emerson dbgs() << "BT:";
727fe4625fbSAmara Emerson
728fe4625fbSAmara Emerson C.Low->getValue().print(dbgs(), true);
729fe4625fbSAmara Emerson if (C.Low != C.High) {
730fe4625fbSAmara Emerson dbgs() << '-';
731fe4625fbSAmara Emerson C.High->getValue().print(dbgs(), true);
732fe4625fbSAmara Emerson }
733fe4625fbSAmara Emerson dbgs() << ' ';
734fe4625fbSAmara Emerson }
735fe4625fbSAmara Emerson dbgs() << '\n';
736fe4625fbSAmara Emerson });
737fe4625fbSAmara Emerson
738fe4625fbSAmara Emerson assert(!Clusters.empty());
739fe4625fbSAmara Emerson SwitchWorkList WorkList;
740fe4625fbSAmara Emerson CaseClusterIt First = Clusters.begin();
741fe4625fbSAmara Emerson CaseClusterIt Last = Clusters.end() - 1;
742fe4625fbSAmara Emerson auto DefaultProb = getEdgeProbability(SwitchMBB, DefaultMBB);
743fe4625fbSAmara Emerson WorkList.push_back({SwitchMBB, First, Last, nullptr, nullptr, DefaultProb});
744fe4625fbSAmara Emerson
745fe4625fbSAmara Emerson // FIXME: At the moment we don't do any splitting optimizations here like
746fe4625fbSAmara Emerson // SelectionDAG does, so this worklist only has one entry.
747fe4625fbSAmara Emerson while (!WorkList.empty()) {
74884b07c9bSKazu Hirata SwitchWorkListItem W = WorkList.pop_back_val();
749fe4625fbSAmara Emerson if (!lowerSwitchWorkItem(W, SI.getCondition(), SwitchMBB, DefaultMBB, MIB))
750fe4625fbSAmara Emerson return false;
751fe4625fbSAmara Emerson }
752fe4625fbSAmara Emerson return true;
753fe4625fbSAmara Emerson }
754fe4625fbSAmara Emerson
emitJumpTable(SwitchCG::JumpTable & JT,MachineBasicBlock * MBB)755fe4625fbSAmara Emerson void IRTranslator::emitJumpTable(SwitchCG::JumpTable &JT,
756fe4625fbSAmara Emerson MachineBasicBlock *MBB) {
757fe4625fbSAmara Emerson // Emit the code for the jump table
758fe4625fbSAmara Emerson assert(JT.Reg != -1U && "Should lower JT Header first!");
759fe4625fbSAmara Emerson MachineIRBuilder MIB(*MBB->getParent());
760fe4625fbSAmara Emerson MIB.setMBB(*MBB);
761fe4625fbSAmara Emerson MIB.setDebugLoc(CurBuilder->getDebugLoc());
762fe4625fbSAmara Emerson
763fe4625fbSAmara Emerson Type *PtrIRTy = Type::getInt8PtrTy(MF->getFunction().getContext());
764fe4625fbSAmara Emerson const LLT PtrTy = getLLTForType(*PtrIRTy, *DL);
765fe4625fbSAmara Emerson
766fe4625fbSAmara Emerson auto Table = MIB.buildJumpTable(PtrTy, JT.JTI);
767fe4625fbSAmara Emerson MIB.buildBrJT(Table.getReg(0), JT.JTI, JT.Reg);
768fe4625fbSAmara Emerson }
769fe4625fbSAmara Emerson
emitJumpTableHeader(SwitchCG::JumpTable & JT,SwitchCG::JumpTableHeader & JTH,MachineBasicBlock * HeaderBB)770fe4625fbSAmara Emerson bool IRTranslator::emitJumpTableHeader(SwitchCG::JumpTable &JT,
771fe4625fbSAmara Emerson SwitchCG::JumpTableHeader &JTH,
772ecb7ac35SAmara Emerson MachineBasicBlock *HeaderBB) {
773ecb7ac35SAmara Emerson MachineIRBuilder MIB(*HeaderBB->getParent());
774ecb7ac35SAmara Emerson MIB.setMBB(*HeaderBB);
775ecb7ac35SAmara Emerson MIB.setDebugLoc(CurBuilder->getDebugLoc());
776fe4625fbSAmara Emerson
777fe4625fbSAmara Emerson const Value &SValue = *JTH.SValue;
778fe4625fbSAmara Emerson // Subtract the lowest switch case value from the value being switched on.
779fe4625fbSAmara Emerson const LLT SwitchTy = getLLTForType(*SValue.getType(), *DL);
780faeaedf8SMatt Arsenault Register SwitchOpReg = getOrCreateVReg(SValue);
781fe4625fbSAmara Emerson auto FirstCst = MIB.buildConstant(SwitchTy, JTH.First);
782fe4625fbSAmara Emerson auto Sub = MIB.buildSub({SwitchTy}, SwitchOpReg, FirstCst);
783fe4625fbSAmara Emerson
784fe4625fbSAmara Emerson // This value may be smaller or larger than the target's pointer type, and
785fe4625fbSAmara Emerson // therefore require extension or truncating.
786fe4625fbSAmara Emerson Type *PtrIRTy = SValue.getType()->getPointerTo();
787fe4625fbSAmara Emerson const LLT PtrScalarTy = LLT::scalar(DL->getTypeSizeInBits(PtrIRTy));
788fe4625fbSAmara Emerson Sub = MIB.buildZExtOrTrunc(PtrScalarTy, Sub);
789fe4625fbSAmara Emerson
790fe4625fbSAmara Emerson JT.Reg = Sub.getReg(0);
791fe4625fbSAmara Emerson
792e69d4020SNick Desaulniers if (JTH.FallthroughUnreachable) {
793ecb7ac35SAmara Emerson if (JT.MBB != HeaderBB->getNextNode())
794fe4625fbSAmara Emerson MIB.buildBr(*JT.MBB);
795fe4625fbSAmara Emerson return true;
796fe4625fbSAmara Emerson }
797fe4625fbSAmara Emerson
798fe4625fbSAmara Emerson // Emit the range check for the jump table, and branch to the default block
799fe4625fbSAmara Emerson // for the switch statement if the value being switched on exceeds the
800fe4625fbSAmara Emerson // largest case in the switch.
801fe4625fbSAmara Emerson auto Cst = getOrCreateVReg(
802fe4625fbSAmara Emerson *ConstantInt::get(SValue.getType(), JTH.Last - JTH.First));
803fe4625fbSAmara Emerson Cst = MIB.buildZExtOrTrunc(PtrScalarTy, Cst).getReg(0);
804fe4625fbSAmara Emerson auto Cmp = MIB.buildICmp(CmpInst::ICMP_UGT, LLT::scalar(1), Sub, Cst);
805fe4625fbSAmara Emerson
806fe4625fbSAmara Emerson auto BrCond = MIB.buildBrCond(Cmp.getReg(0), *JT.Default);
807fe4625fbSAmara Emerson
808fe4625fbSAmara Emerson // Avoid emitting unnecessary branches to the next block.
809ecb7ac35SAmara Emerson if (JT.MBB != HeaderBB->getNextNode())
810fe4625fbSAmara Emerson BrCond = MIB.buildBr(*JT.MBB);
811fe4625fbSAmara Emerson return true;
812fe4625fbSAmara Emerson }
813fe4625fbSAmara Emerson
emitSwitchCase(SwitchCG::CaseBlock & CB,MachineBasicBlock * SwitchBB,MachineIRBuilder & MIB)814fe4625fbSAmara Emerson void IRTranslator::emitSwitchCase(SwitchCG::CaseBlock &CB,
815fe4625fbSAmara Emerson MachineBasicBlock *SwitchBB,
816fe4625fbSAmara Emerson MachineIRBuilder &MIB) {
817faeaedf8SMatt Arsenault Register CondLHS = getOrCreateVReg(*CB.CmpLHS);
818faeaedf8SMatt Arsenault Register Cond;
819fe4625fbSAmara Emerson DebugLoc OldDbgLoc = MIB.getDebugLoc();
820fe4625fbSAmara Emerson MIB.setDebugLoc(CB.DbgLoc);
821fe4625fbSAmara Emerson MIB.setMBB(*CB.ThisBB);
822fe4625fbSAmara Emerson
823fe4625fbSAmara Emerson if (CB.PredInfo.NoCmp) {
824fe4625fbSAmara Emerson // Branch or fall through to TrueBB.
825fe4625fbSAmara Emerson addSuccessorWithProb(CB.ThisBB, CB.TrueBB, CB.TrueProb);
826fe4625fbSAmara Emerson addMachineCFGPred({SwitchBB->getBasicBlock(), CB.TrueBB->getBasicBlock()},
827fe4625fbSAmara Emerson CB.ThisBB);
828fe4625fbSAmara Emerson CB.ThisBB->normalizeSuccProbs();
829fe4625fbSAmara Emerson if (CB.TrueBB != CB.ThisBB->getNextNode())
830fe4625fbSAmara Emerson MIB.buildBr(*CB.TrueBB);
831fe4625fbSAmara Emerson MIB.setDebugLoc(OldDbgLoc);
832fe4625fbSAmara Emerson return;
833fe4625fbSAmara Emerson }
834fe4625fbSAmara Emerson
835fe4625fbSAmara Emerson const LLT i1Ty = LLT::scalar(1);
836fe4625fbSAmara Emerson // Build the compare.
837fe4625fbSAmara Emerson if (!CB.CmpMHS) {
838467a0712SAmara Emerson const auto *CI = dyn_cast<ConstantInt>(CB.CmpRHS);
839467a0712SAmara Emerson // For conditional branch lowering, we might try to do something silly like
840467a0712SAmara Emerson // emit an G_ICMP to compare an existing G_ICMP i1 result with true. If so,
841467a0712SAmara Emerson // just re-use the existing condition vreg.
842c2b322fcSTim Northover if (MRI->getType(CondLHS).getSizeInBits() == 1 && CI &&
843c2b322fcSTim Northover CI->getZExtValue() == 1 && CB.PredInfo.Pred == CmpInst::ICMP_EQ) {
844467a0712SAmara Emerson Cond = CondLHS;
845467a0712SAmara Emerson } else {
846faeaedf8SMatt Arsenault Register CondRHS = getOrCreateVReg(*CB.CmpRHS);
847467a0712SAmara Emerson if (CmpInst::isFPPredicate(CB.PredInfo.Pred))
848467a0712SAmara Emerson Cond =
849467a0712SAmara Emerson MIB.buildFCmp(CB.PredInfo.Pred, i1Ty, CondLHS, CondRHS).getReg(0);
850467a0712SAmara Emerson else
851467a0712SAmara Emerson Cond =
852467a0712SAmara Emerson MIB.buildICmp(CB.PredInfo.Pred, i1Ty, CondLHS, CondRHS).getReg(0);
853467a0712SAmara Emerson }
854fe4625fbSAmara Emerson } else {
855adec1209SAmara Emerson assert(CB.PredInfo.Pred == CmpInst::ICMP_SLE &&
856adec1209SAmara Emerson "Can only handle SLE ranges");
857fe4625fbSAmara Emerson
858fe4625fbSAmara Emerson const APInt& Low = cast<ConstantInt>(CB.CmpLHS)->getValue();
859fe4625fbSAmara Emerson const APInt& High = cast<ConstantInt>(CB.CmpRHS)->getValue();
860fe4625fbSAmara Emerson
861faeaedf8SMatt Arsenault Register CmpOpReg = getOrCreateVReg(*CB.CmpMHS);
862fe4625fbSAmara Emerson if (cast<ConstantInt>(CB.CmpLHS)->isMinValue(true)) {
863faeaedf8SMatt Arsenault Register CondRHS = getOrCreateVReg(*CB.CmpRHS);
864fe4625fbSAmara Emerson Cond =
865adec1209SAmara Emerson MIB.buildICmp(CmpInst::ICMP_SLE, i1Ty, CmpOpReg, CondRHS).getReg(0);
866fe4625fbSAmara Emerson } else {
867de256478SMatt Arsenault const LLT CmpTy = MRI->getType(CmpOpReg);
868fe4625fbSAmara Emerson auto Sub = MIB.buildSub({CmpTy}, CmpOpReg, CondLHS);
869fe4625fbSAmara Emerson auto Diff = MIB.buildConstant(CmpTy, High - Low);
870fe4625fbSAmara Emerson Cond = MIB.buildICmp(CmpInst::ICMP_ULE, i1Ty, Sub, Diff).getReg(0);
871fe4625fbSAmara Emerson }
872fe4625fbSAmara Emerson }
873fe4625fbSAmara Emerson
874fe4625fbSAmara Emerson // Update successor info
875fe4625fbSAmara Emerson addSuccessorWithProb(CB.ThisBB, CB.TrueBB, CB.TrueProb);
876fe4625fbSAmara Emerson
877fe4625fbSAmara Emerson addMachineCFGPred({SwitchBB->getBasicBlock(), CB.TrueBB->getBasicBlock()},
878fe4625fbSAmara Emerson CB.ThisBB);
879fe4625fbSAmara Emerson
880fe4625fbSAmara Emerson // TrueBB and FalseBB are always different unless the incoming IR is
881fe4625fbSAmara Emerson // degenerate. This only happens when running llc on weird IR.
882fe4625fbSAmara Emerson if (CB.TrueBB != CB.FalseBB)
883fe4625fbSAmara Emerson addSuccessorWithProb(CB.ThisBB, CB.FalseBB, CB.FalseProb);
884fe4625fbSAmara Emerson CB.ThisBB->normalizeSuccProbs();
885fe4625fbSAmara Emerson
886fe4625fbSAmara Emerson addMachineCFGPred({SwitchBB->getBasicBlock(), CB.FalseBB->getBasicBlock()},
887fe4625fbSAmara Emerson CB.ThisBB);
888ecb7ac35SAmara Emerson
889fe4625fbSAmara Emerson MIB.buildBrCond(Cond, *CB.TrueBB);
890fe4625fbSAmara Emerson MIB.buildBr(*CB.FalseBB);
891fe4625fbSAmara Emerson MIB.setDebugLoc(OldDbgLoc);
892fe4625fbSAmara Emerson }
893fe4625fbSAmara Emerson
lowerJumpTableWorkItem(SwitchCG::SwitchWorkListItem W,MachineBasicBlock * SwitchMBB,MachineBasicBlock * CurMBB,MachineBasicBlock * DefaultMBB,MachineIRBuilder & MIB,MachineFunction::iterator BBI,BranchProbability UnhandledProbs,SwitchCG::CaseClusterIt I,MachineBasicBlock * Fallthrough,bool FallthroughUnreachable)894fe4625fbSAmara Emerson bool IRTranslator::lowerJumpTableWorkItem(SwitchCG::SwitchWorkListItem W,
895fe4625fbSAmara Emerson MachineBasicBlock *SwitchMBB,
896ecb7ac35SAmara Emerson MachineBasicBlock *CurMBB,
897fe4625fbSAmara Emerson MachineBasicBlock *DefaultMBB,
898fe4625fbSAmara Emerson MachineIRBuilder &MIB,
899fe4625fbSAmara Emerson MachineFunction::iterator BBI,
900fe4625fbSAmara Emerson BranchProbability UnhandledProbs,
901fe4625fbSAmara Emerson SwitchCG::CaseClusterIt I,
902fe4625fbSAmara Emerson MachineBasicBlock *Fallthrough,
903fe4625fbSAmara Emerson bool FallthroughUnreachable) {
904fe4625fbSAmara Emerson using namespace SwitchCG;
905fe4625fbSAmara Emerson MachineFunction *CurMF = SwitchMBB->getParent();
906fe4625fbSAmara Emerson // FIXME: Optimize away range check based on pivot comparisons.
907fe4625fbSAmara Emerson JumpTableHeader *JTH = &SL->JTCases[I->JTCasesIndex].first;
908fe4625fbSAmara Emerson SwitchCG::JumpTable *JT = &SL->JTCases[I->JTCasesIndex].second;
909fe4625fbSAmara Emerson BranchProbability DefaultProb = W.DefaultProb;
910fe4625fbSAmara Emerson
911fe4625fbSAmara Emerson // The jump block hasn't been inserted yet; insert it here.
912fe4625fbSAmara Emerson MachineBasicBlock *JumpMBB = JT->MBB;
913fe4625fbSAmara Emerson CurMF->insert(BBI, JumpMBB);
914fe4625fbSAmara Emerson
915fe4625fbSAmara Emerson // Since the jump table block is separate from the switch block, we need
916fe4625fbSAmara Emerson // to keep track of it as a machine predecessor to the default block,
917fe4625fbSAmara Emerson // otherwise we lose the phi edges.
918fe4625fbSAmara Emerson addMachineCFGPred({SwitchMBB->getBasicBlock(), DefaultMBB->getBasicBlock()},
919ecb7ac35SAmara Emerson CurMBB);
920fe4625fbSAmara Emerson addMachineCFGPred({SwitchMBB->getBasicBlock(), DefaultMBB->getBasicBlock()},
921fe4625fbSAmara Emerson JumpMBB);
922fe4625fbSAmara Emerson
923fe4625fbSAmara Emerson auto JumpProb = I->Prob;
924fe4625fbSAmara Emerson auto FallthroughProb = UnhandledProbs;
925fe4625fbSAmara Emerson
926fe4625fbSAmara Emerson // If the default statement is a target of the jump table, we evenly
927fe4625fbSAmara Emerson // distribute the default probability to successors of CurMBB. Also
928fe4625fbSAmara Emerson // update the probability on the edge from JumpMBB to Fallthrough.
929fe4625fbSAmara Emerson for (MachineBasicBlock::succ_iterator SI = JumpMBB->succ_begin(),
930fe4625fbSAmara Emerson SE = JumpMBB->succ_end();
931fe4625fbSAmara Emerson SI != SE; ++SI) {
932fe4625fbSAmara Emerson if (*SI == DefaultMBB) {
933fe4625fbSAmara Emerson JumpProb += DefaultProb / 2;
934fe4625fbSAmara Emerson FallthroughProb -= DefaultProb / 2;
935fe4625fbSAmara Emerson JumpMBB->setSuccProbability(SI, DefaultProb / 2);
936fe4625fbSAmara Emerson JumpMBB->normalizeSuccProbs();
937ecb7ac35SAmara Emerson } else {
938ecb7ac35SAmara Emerson // Also record edges from the jump table block to it's successors.
939ecb7ac35SAmara Emerson addMachineCFGPred({SwitchMBB->getBasicBlock(), (*SI)->getBasicBlock()},
940ecb7ac35SAmara Emerson JumpMBB);
941fe4625fbSAmara Emerson }
942fe4625fbSAmara Emerson }
943fe4625fbSAmara Emerson
944fe4625fbSAmara Emerson if (FallthroughUnreachable)
945e69d4020SNick Desaulniers JTH->FallthroughUnreachable = true;
946fe4625fbSAmara Emerson
947e69d4020SNick Desaulniers if (!JTH->FallthroughUnreachable)
948fe4625fbSAmara Emerson addSuccessorWithProb(CurMBB, Fallthrough, FallthroughProb);
949fe4625fbSAmara Emerson addSuccessorWithProb(CurMBB, JumpMBB, JumpProb);
950fe4625fbSAmara Emerson CurMBB->normalizeSuccProbs();
951fe4625fbSAmara Emerson
952fe4625fbSAmara Emerson // The jump table header will be inserted in our current block, do the
953fe4625fbSAmara Emerson // range check, and fall through to our fallthrough block.
954fe4625fbSAmara Emerson JTH->HeaderBB = CurMBB;
955fe4625fbSAmara Emerson JT->Default = Fallthrough; // FIXME: Move Default to JumpTableHeader.
956fe4625fbSAmara Emerson
957fe4625fbSAmara Emerson // If we're in the right place, emit the jump table header right now.
958fe4625fbSAmara Emerson if (CurMBB == SwitchMBB) {
959ecb7ac35SAmara Emerson if (!emitJumpTableHeader(*JT, *JTH, CurMBB))
960fe4625fbSAmara Emerson return false;
961fe4625fbSAmara Emerson JTH->Emitted = true;
962fe4625fbSAmara Emerson }
963fe4625fbSAmara Emerson return true;
964fe4625fbSAmara Emerson }
lowerSwitchRangeWorkItem(SwitchCG::CaseClusterIt I,Value * Cond,MachineBasicBlock * Fallthrough,bool FallthroughUnreachable,BranchProbability UnhandledProbs,MachineBasicBlock * CurMBB,MachineIRBuilder & MIB,MachineBasicBlock * SwitchMBB)965fe4625fbSAmara Emerson bool IRTranslator::lowerSwitchRangeWorkItem(SwitchCG::CaseClusterIt I,
966fe4625fbSAmara Emerson Value *Cond,
967fe4625fbSAmara Emerson MachineBasicBlock *Fallthrough,
968fe4625fbSAmara Emerson bool FallthroughUnreachable,
969fe4625fbSAmara Emerson BranchProbability UnhandledProbs,
970fe4625fbSAmara Emerson MachineBasicBlock *CurMBB,
971fe4625fbSAmara Emerson MachineIRBuilder &MIB,
972fe4625fbSAmara Emerson MachineBasicBlock *SwitchMBB) {
973fe4625fbSAmara Emerson using namespace SwitchCG;
974fe4625fbSAmara Emerson const Value *RHS, *LHS, *MHS;
975fe4625fbSAmara Emerson CmpInst::Predicate Pred;
976fe4625fbSAmara Emerson if (I->Low == I->High) {
977fe4625fbSAmara Emerson // Check Cond == I->Low.
978fe4625fbSAmara Emerson Pred = CmpInst::ICMP_EQ;
979fe4625fbSAmara Emerson LHS = Cond;
980fe4625fbSAmara Emerson RHS = I->Low;
981fe4625fbSAmara Emerson MHS = nullptr;
982fe4625fbSAmara Emerson } else {
983fe4625fbSAmara Emerson // Check I->Low <= Cond <= I->High.
984adec1209SAmara Emerson Pred = CmpInst::ICMP_SLE;
985fe4625fbSAmara Emerson LHS = I->Low;
986fe4625fbSAmara Emerson MHS = Cond;
987fe4625fbSAmara Emerson RHS = I->High;
988fe4625fbSAmara Emerson }
989fe4625fbSAmara Emerson
990fe4625fbSAmara Emerson // If Fallthrough is unreachable, fold away the comparison.
991fe4625fbSAmara Emerson // The false probability is the sum of all unhandled cases.
992fe4625fbSAmara Emerson CaseBlock CB(Pred, FallthroughUnreachable, LHS, RHS, MHS, I->MBB, Fallthrough,
993fe4625fbSAmara Emerson CurMBB, MIB.getDebugLoc(), I->Prob, UnhandledProbs);
994fe4625fbSAmara Emerson
995fe4625fbSAmara Emerson emitSwitchCase(CB, SwitchMBB, MIB);
996fe4625fbSAmara Emerson return true;
997fe4625fbSAmara Emerson }
998fe4625fbSAmara Emerson
emitBitTestHeader(SwitchCG::BitTestBlock & B,MachineBasicBlock * SwitchBB)9992ff14957SAmara Emerson void IRTranslator::emitBitTestHeader(SwitchCG::BitTestBlock &B,
10002ff14957SAmara Emerson MachineBasicBlock *SwitchBB) {
10012ff14957SAmara Emerson MachineIRBuilder &MIB = *CurBuilder;
10022ff14957SAmara Emerson MIB.setMBB(*SwitchBB);
10032ff14957SAmara Emerson
10042ff14957SAmara Emerson // Subtract the minimum value.
10052ff14957SAmara Emerson Register SwitchOpReg = getOrCreateVReg(*B.SValue);
10062ff14957SAmara Emerson
10072ff14957SAmara Emerson LLT SwitchOpTy = MRI->getType(SwitchOpReg);
10082ff14957SAmara Emerson Register MinValReg = MIB.buildConstant(SwitchOpTy, B.First).getReg(0);
10092ff14957SAmara Emerson auto RangeSub = MIB.buildSub(SwitchOpTy, SwitchOpReg, MinValReg);
10102ff14957SAmara Emerson
10119f773b17SAmara Emerson Type *PtrIRTy = Type::getInt8PtrTy(MF->getFunction().getContext());
10129f773b17SAmara Emerson const LLT PtrTy = getLLTForType(*PtrIRTy, *DL);
10139f773b17SAmara Emerson
10142ff14957SAmara Emerson LLT MaskTy = SwitchOpTy;
10159f773b17SAmara Emerson if (MaskTy.getSizeInBits() > PtrTy.getSizeInBits() ||
10169f773b17SAmara Emerson !isPowerOf2_32(MaskTy.getSizeInBits()))
10179f773b17SAmara Emerson MaskTy = LLT::scalar(PtrTy.getSizeInBits());
10189f773b17SAmara Emerson else {
10199f773b17SAmara Emerson // Ensure that the type will fit the mask value.
10202ff14957SAmara Emerson for (unsigned I = 0, E = B.Cases.size(); I != E; ++I) {
10212ff14957SAmara Emerson if (!isUIntN(SwitchOpTy.getSizeInBits(), B.Cases[I].Mask)) {
10222ff14957SAmara Emerson // Switch table case range are encoded into series of masks.
10232ff14957SAmara Emerson // Just use pointer type, it's guaranteed to fit.
10249f773b17SAmara Emerson MaskTy = LLT::scalar(PtrTy.getSizeInBits());
10252ff14957SAmara Emerson break;
10262ff14957SAmara Emerson }
10272ff14957SAmara Emerson }
10289f773b17SAmara Emerson }
10292ff14957SAmara Emerson Register SubReg = RangeSub.getReg(0);
10302ff14957SAmara Emerson if (SwitchOpTy != MaskTy)
10312ff14957SAmara Emerson SubReg = MIB.buildZExtOrTrunc(MaskTy, SubReg).getReg(0);
10322ff14957SAmara Emerson
10332ff14957SAmara Emerson B.RegVT = getMVTForLLT(MaskTy);
10342ff14957SAmara Emerson B.Reg = SubReg;
10352ff14957SAmara Emerson
10362ff14957SAmara Emerson MachineBasicBlock *MBB = B.Cases[0].ThisBB;
10372ff14957SAmara Emerson
1038e69d4020SNick Desaulniers if (!B.FallthroughUnreachable)
10392ff14957SAmara Emerson addSuccessorWithProb(SwitchBB, B.Default, B.DefaultProb);
10402ff14957SAmara Emerson addSuccessorWithProb(SwitchBB, MBB, B.Prob);
10412ff14957SAmara Emerson
10422ff14957SAmara Emerson SwitchBB->normalizeSuccProbs();
10432ff14957SAmara Emerson
1044e69d4020SNick Desaulniers if (!B.FallthroughUnreachable) {
10452ff14957SAmara Emerson // Conditional branch to the default block.
10462ff14957SAmara Emerson auto RangeCst = MIB.buildConstant(SwitchOpTy, B.Range);
10472ff14957SAmara Emerson auto RangeCmp = MIB.buildICmp(CmpInst::Predicate::ICMP_UGT, LLT::scalar(1),
10482ff14957SAmara Emerson RangeSub, RangeCst);
10492ff14957SAmara Emerson MIB.buildBrCond(RangeCmp, *B.Default);
10502ff14957SAmara Emerson }
10512ff14957SAmara Emerson
10522ff14957SAmara Emerson // Avoid emitting unnecessary branches to the next block.
10532ff14957SAmara Emerson if (MBB != SwitchBB->getNextNode())
10542ff14957SAmara Emerson MIB.buildBr(*MBB);
10552ff14957SAmara Emerson }
10562ff14957SAmara Emerson
emitBitTestCase(SwitchCG::BitTestBlock & BB,MachineBasicBlock * NextMBB,BranchProbability BranchProbToNext,Register Reg,SwitchCG::BitTestCase & B,MachineBasicBlock * SwitchBB)10572ff14957SAmara Emerson void IRTranslator::emitBitTestCase(SwitchCG::BitTestBlock &BB,
10582ff14957SAmara Emerson MachineBasicBlock *NextMBB,
10592ff14957SAmara Emerson BranchProbability BranchProbToNext,
10602ff14957SAmara Emerson Register Reg, SwitchCG::BitTestCase &B,
10612ff14957SAmara Emerson MachineBasicBlock *SwitchBB) {
10622ff14957SAmara Emerson MachineIRBuilder &MIB = *CurBuilder;
10632ff14957SAmara Emerson MIB.setMBB(*SwitchBB);
10642ff14957SAmara Emerson
10652ff14957SAmara Emerson LLT SwitchTy = getLLTForMVT(BB.RegVT);
10662ff14957SAmara Emerson Register Cmp;
10672ff14957SAmara Emerson unsigned PopCount = countPopulation(B.Mask);
10682ff14957SAmara Emerson if (PopCount == 1) {
10692ff14957SAmara Emerson // Testing for a single bit; just compare the shift count with what it
10702ff14957SAmara Emerson // would need to be to shift a 1 bit in that position.
10712ff14957SAmara Emerson auto MaskTrailingZeros =
10722ff14957SAmara Emerson MIB.buildConstant(SwitchTy, countTrailingZeros(B.Mask));
10732ff14957SAmara Emerson Cmp =
10742ff14957SAmara Emerson MIB.buildICmp(ICmpInst::ICMP_EQ, LLT::scalar(1), Reg, MaskTrailingZeros)
10752ff14957SAmara Emerson .getReg(0);
10762ff14957SAmara Emerson } else if (PopCount == BB.Range) {
10772ff14957SAmara Emerson // There is only one zero bit in the range, test for it directly.
10782ff14957SAmara Emerson auto MaskTrailingOnes =
10792ff14957SAmara Emerson MIB.buildConstant(SwitchTy, countTrailingOnes(B.Mask));
10802ff14957SAmara Emerson Cmp = MIB.buildICmp(CmpInst::ICMP_NE, LLT::scalar(1), Reg, MaskTrailingOnes)
10812ff14957SAmara Emerson .getReg(0);
10822ff14957SAmara Emerson } else {
10832ff14957SAmara Emerson // Make desired shift.
10842ff14957SAmara Emerson auto CstOne = MIB.buildConstant(SwitchTy, 1);
10852ff14957SAmara Emerson auto SwitchVal = MIB.buildShl(SwitchTy, CstOne, Reg);
10862ff14957SAmara Emerson
10872ff14957SAmara Emerson // Emit bit tests and jumps.
10882ff14957SAmara Emerson auto CstMask = MIB.buildConstant(SwitchTy, B.Mask);
10892ff14957SAmara Emerson auto AndOp = MIB.buildAnd(SwitchTy, SwitchVal, CstMask);
10902ff14957SAmara Emerson auto CstZero = MIB.buildConstant(SwitchTy, 0);
10912ff14957SAmara Emerson Cmp = MIB.buildICmp(CmpInst::ICMP_NE, LLT::scalar(1), AndOp, CstZero)
10922ff14957SAmara Emerson .getReg(0);
10932ff14957SAmara Emerson }
10942ff14957SAmara Emerson
10952ff14957SAmara Emerson // The branch probability from SwitchBB to B.TargetBB is B.ExtraProb.
10962ff14957SAmara Emerson addSuccessorWithProb(SwitchBB, B.TargetBB, B.ExtraProb);
10972ff14957SAmara Emerson // The branch probability from SwitchBB to NextMBB is BranchProbToNext.
10982ff14957SAmara Emerson addSuccessorWithProb(SwitchBB, NextMBB, BranchProbToNext);
10992ff14957SAmara Emerson // It is not guaranteed that the sum of B.ExtraProb and BranchProbToNext is
11002ff14957SAmara Emerson // one as they are relative probabilities (and thus work more like weights),
11012ff14957SAmara Emerson // and hence we need to normalize them to let the sum of them become one.
11022ff14957SAmara Emerson SwitchBB->normalizeSuccProbs();
11032ff14957SAmara Emerson
11042ff14957SAmara Emerson // Record the fact that the IR edge from the header to the bit test target
11052ff14957SAmara Emerson // will go through our new block. Neeeded for PHIs to have nodes added.
11062ff14957SAmara Emerson addMachineCFGPred({BB.Parent->getBasicBlock(), B.TargetBB->getBasicBlock()},
11072ff14957SAmara Emerson SwitchBB);
11082ff14957SAmara Emerson
11092ff14957SAmara Emerson MIB.buildBrCond(Cmp, *B.TargetBB);
11102ff14957SAmara Emerson
11112ff14957SAmara Emerson // Avoid emitting unnecessary branches to the next block.
11122ff14957SAmara Emerson if (NextMBB != SwitchBB->getNextNode())
11132ff14957SAmara Emerson MIB.buildBr(*NextMBB);
11142ff14957SAmara Emerson }
11152ff14957SAmara Emerson
lowerBitTestWorkItem(SwitchCG::SwitchWorkListItem W,MachineBasicBlock * SwitchMBB,MachineBasicBlock * CurMBB,MachineBasicBlock * DefaultMBB,MachineIRBuilder & MIB,MachineFunction::iterator BBI,BranchProbability DefaultProb,BranchProbability UnhandledProbs,SwitchCG::CaseClusterIt I,MachineBasicBlock * Fallthrough,bool FallthroughUnreachable)11162ff14957SAmara Emerson bool IRTranslator::lowerBitTestWorkItem(
11172ff14957SAmara Emerson SwitchCG::SwitchWorkListItem W, MachineBasicBlock *SwitchMBB,
11182ff14957SAmara Emerson MachineBasicBlock *CurMBB, MachineBasicBlock *DefaultMBB,
11192ff14957SAmara Emerson MachineIRBuilder &MIB, MachineFunction::iterator BBI,
11202ff14957SAmara Emerson BranchProbability DefaultProb, BranchProbability UnhandledProbs,
11212ff14957SAmara Emerson SwitchCG::CaseClusterIt I, MachineBasicBlock *Fallthrough,
11222ff14957SAmara Emerson bool FallthroughUnreachable) {
11232ff14957SAmara Emerson using namespace SwitchCG;
11242ff14957SAmara Emerson MachineFunction *CurMF = SwitchMBB->getParent();
11252ff14957SAmara Emerson // FIXME: Optimize away range check based on pivot comparisons.
11262ff14957SAmara Emerson BitTestBlock *BTB = &SL->BitTestCases[I->BTCasesIndex];
11272ff14957SAmara Emerson // The bit test blocks haven't been inserted yet; insert them here.
11282ff14957SAmara Emerson for (BitTestCase &BTC : BTB->Cases)
11292ff14957SAmara Emerson CurMF->insert(BBI, BTC.ThisBB);
11302ff14957SAmara Emerson
11312ff14957SAmara Emerson // Fill in fields of the BitTestBlock.
11322ff14957SAmara Emerson BTB->Parent = CurMBB;
11332ff14957SAmara Emerson BTB->Default = Fallthrough;
11342ff14957SAmara Emerson
11352ff14957SAmara Emerson BTB->DefaultProb = UnhandledProbs;
11362ff14957SAmara Emerson // If the cases in bit test don't form a contiguous range, we evenly
11372ff14957SAmara Emerson // distribute the probability on the edge to Fallthrough to two
11382ff14957SAmara Emerson // successors of CurMBB.
11392ff14957SAmara Emerson if (!BTB->ContiguousRange) {
11402ff14957SAmara Emerson BTB->Prob += DefaultProb / 2;
11412ff14957SAmara Emerson BTB->DefaultProb -= DefaultProb / 2;
11422ff14957SAmara Emerson }
11432ff14957SAmara Emerson
1144e69d4020SNick Desaulniers if (FallthroughUnreachable)
1145e69d4020SNick Desaulniers BTB->FallthroughUnreachable = true;
11462ff14957SAmara Emerson
11472ff14957SAmara Emerson // If we're in the right place, emit the bit test header right now.
11482ff14957SAmara Emerson if (CurMBB == SwitchMBB) {
11492ff14957SAmara Emerson emitBitTestHeader(*BTB, SwitchMBB);
11502ff14957SAmara Emerson BTB->Emitted = true;
11512ff14957SAmara Emerson }
11522ff14957SAmara Emerson return true;
11532ff14957SAmara Emerson }
11542ff14957SAmara Emerson
lowerSwitchWorkItem(SwitchCG::SwitchWorkListItem W,Value * Cond,MachineBasicBlock * SwitchMBB,MachineBasicBlock * DefaultMBB,MachineIRBuilder & MIB)1155fe4625fbSAmara Emerson bool IRTranslator::lowerSwitchWorkItem(SwitchCG::SwitchWorkListItem W,
1156fe4625fbSAmara Emerson Value *Cond,
1157fe4625fbSAmara Emerson MachineBasicBlock *SwitchMBB,
1158fe4625fbSAmara Emerson MachineBasicBlock *DefaultMBB,
1159fe4625fbSAmara Emerson MachineIRBuilder &MIB) {
1160fe4625fbSAmara Emerson using namespace SwitchCG;
1161fe4625fbSAmara Emerson MachineFunction *CurMF = FuncInfo.MF;
1162fe4625fbSAmara Emerson MachineBasicBlock *NextMBB = nullptr;
1163fe4625fbSAmara Emerson MachineFunction::iterator BBI(W.MBB);
1164fe4625fbSAmara Emerson if (++BBI != FuncInfo.MF->end())
1165fe4625fbSAmara Emerson NextMBB = &*BBI;
1166fe4625fbSAmara Emerson
1167fe4625fbSAmara Emerson if (EnableOpts) {
1168fe4625fbSAmara Emerson // Here, we order cases by probability so the most likely case will be
1169fe4625fbSAmara Emerson // checked first. However, two clusters can have the same probability in
1170fe4625fbSAmara Emerson // which case their relative ordering is non-deterministic. So we use Low
1171fe4625fbSAmara Emerson // as a tie-breaker as clusters are guaranteed to never overlap.
1172fe4625fbSAmara Emerson llvm::sort(W.FirstCluster, W.LastCluster + 1,
1173fe4625fbSAmara Emerson [](const CaseCluster &a, const CaseCluster &b) {
1174fe4625fbSAmara Emerson return a.Prob != b.Prob
1175fe4625fbSAmara Emerson ? a.Prob > b.Prob
1176fe4625fbSAmara Emerson : a.Low->getValue().slt(b.Low->getValue());
1177fe4625fbSAmara Emerson });
1178fe4625fbSAmara Emerson
1179fe4625fbSAmara Emerson // Rearrange the case blocks so that the last one falls through if possible
1180fe4625fbSAmara Emerson // without changing the order of probabilities.
1181fe4625fbSAmara Emerson for (CaseClusterIt I = W.LastCluster; I > W.FirstCluster;) {
1182fe4625fbSAmara Emerson --I;
1183fe4625fbSAmara Emerson if (I->Prob > W.LastCluster->Prob)
1184fe4625fbSAmara Emerson break;
1185fe4625fbSAmara Emerson if (I->Kind == CC_Range && I->MBB == NextMBB) {
1186fe4625fbSAmara Emerson std::swap(*I, *W.LastCluster);
1187fe4625fbSAmara Emerson break;
1188fe4625fbSAmara Emerson }
1189fe4625fbSAmara Emerson }
1190fe4625fbSAmara Emerson }
1191fe4625fbSAmara Emerson
1192fe4625fbSAmara Emerson // Compute total probability.
1193fe4625fbSAmara Emerson BranchProbability DefaultProb = W.DefaultProb;
1194fe4625fbSAmara Emerson BranchProbability UnhandledProbs = DefaultProb;
1195fe4625fbSAmara Emerson for (CaseClusterIt I = W.FirstCluster; I <= W.LastCluster; ++I)
1196fe4625fbSAmara Emerson UnhandledProbs += I->Prob;
1197fe4625fbSAmara Emerson
1198fe4625fbSAmara Emerson MachineBasicBlock *CurMBB = W.MBB;
1199fe4625fbSAmara Emerson for (CaseClusterIt I = W.FirstCluster, E = W.LastCluster; I <= E; ++I) {
1200fe4625fbSAmara Emerson bool FallthroughUnreachable = false;
1201fe4625fbSAmara Emerson MachineBasicBlock *Fallthrough;
1202fe4625fbSAmara Emerson if (I == W.LastCluster) {
1203fe4625fbSAmara Emerson // For the last cluster, fall through to the default destination.
1204fe4625fbSAmara Emerson Fallthrough = DefaultMBB;
1205fe4625fbSAmara Emerson FallthroughUnreachable = isa<UnreachableInst>(
1206fe4625fbSAmara Emerson DefaultMBB->getBasicBlock()->getFirstNonPHIOrDbg());
1207fe4625fbSAmara Emerson } else {
1208fe4625fbSAmara Emerson Fallthrough = CurMF->CreateMachineBasicBlock(CurMBB->getBasicBlock());
1209fe4625fbSAmara Emerson CurMF->insert(BBI, Fallthrough);
1210fe4625fbSAmara Emerson }
1211fe4625fbSAmara Emerson UnhandledProbs -= I->Prob;
1212fe4625fbSAmara Emerson
1213fe4625fbSAmara Emerson switch (I->Kind) {
1214fe4625fbSAmara Emerson case CC_BitTests: {
12152ff14957SAmara Emerson if (!lowerBitTestWorkItem(W, SwitchMBB, CurMBB, DefaultMBB, MIB, BBI,
12162ff14957SAmara Emerson DefaultProb, UnhandledProbs, I, Fallthrough,
12172ff14957SAmara Emerson FallthroughUnreachable)) {
12182ff14957SAmara Emerson LLVM_DEBUG(dbgs() << "Failed to lower bit test for switch");
12192ff14957SAmara Emerson return false;
1220fe4625fbSAmara Emerson }
12212ff14957SAmara Emerson break;
12222ff14957SAmara Emerson }
12232ff14957SAmara Emerson
1224fe4625fbSAmara Emerson case CC_JumpTable: {
1225ecb7ac35SAmara Emerson if (!lowerJumpTableWorkItem(W, SwitchMBB, CurMBB, DefaultMBB, MIB, BBI,
1226fe4625fbSAmara Emerson UnhandledProbs, I, Fallthrough,
1227fe4625fbSAmara Emerson FallthroughUnreachable)) {
1228fe4625fbSAmara Emerson LLVM_DEBUG(dbgs() << "Failed to lower jump table");
1229fe4625fbSAmara Emerson return false;
1230fe4625fbSAmara Emerson }
1231fe4625fbSAmara Emerson break;
1232fe4625fbSAmara Emerson }
1233fe4625fbSAmara Emerson case CC_Range: {
1234fe4625fbSAmara Emerson if (!lowerSwitchRangeWorkItem(I, Cond, Fallthrough,
1235fe4625fbSAmara Emerson FallthroughUnreachable, UnhandledProbs,
1236fe4625fbSAmara Emerson CurMBB, MIB, SwitchMBB)) {
1237fe4625fbSAmara Emerson LLVM_DEBUG(dbgs() << "Failed to lower switch range");
1238fe4625fbSAmara Emerson return false;
1239fe4625fbSAmara Emerson }
1240fe4625fbSAmara Emerson break;
1241fe4625fbSAmara Emerson }
1242fe4625fbSAmara Emerson }
1243fe4625fbSAmara Emerson CurMBB = Fallthrough;
1244fe4625fbSAmara Emerson }
1245eced071eSKristof Beyls
1246eced071eSKristof Beyls return true;
1247eced071eSKristof Beyls }
1248eced071eSKristof Beyls
translateIndirectBr(const User & U,MachineIRBuilder & MIRBuilder)124965a12c01SKristof Beyls bool IRTranslator::translateIndirectBr(const User &U,
125065a12c01SKristof Beyls MachineIRBuilder &MIRBuilder) {
125165a12c01SKristof Beyls const IndirectBrInst &BrInst = cast<IndirectBrInst>(U);
125265a12c01SKristof Beyls
1253faeaedf8SMatt Arsenault const Register Tgt = getOrCreateVReg(*BrInst.getAddress());
125465a12c01SKristof Beyls MIRBuilder.buildBrIndirect(Tgt);
125565a12c01SKristof Beyls
125665a12c01SKristof Beyls // Link successors.
1257f66309deSJessica Paquette SmallPtrSet<const BasicBlock *, 32> AddedSuccessors;
125865a12c01SKristof Beyls MachineBasicBlock &CurBB = MIRBuilder.getMBB();
1259f66309deSJessica Paquette for (const BasicBlock *Succ : successors(&BrInst)) {
1260f66309deSJessica Paquette // It's legal for indirectbr instructions to have duplicate blocks in the
1261f66309deSJessica Paquette // destination list. We don't allow this in MIR. Skip anything that's
1262f66309deSJessica Paquette // already a successor.
1263f66309deSJessica Paquette if (!AddedSuccessors.insert(Succ).second)
1264f66309deSJessica Paquette continue;
1265a61c214fSAhmed Bougacha CurBB.addSuccessor(&getMBB(*Succ));
1266f66309deSJessica Paquette }
126765a12c01SKristof Beyls
126865a12c01SKristof Beyls return true;
126965a12c01SKristof Beyls }
127065a12c01SKristof Beyls
isSwiftError(const Value * V)12713b2157aeSTim Northover static bool isSwiftError(const Value *V) {
12723b2157aeSTim Northover if (auto Arg = dyn_cast<Argument>(V))
12733b2157aeSTim Northover return Arg->hasSwiftErrorAttr();
12743b2157aeSTim Northover if (auto AI = dyn_cast<AllocaInst>(V))
12753b2157aeSTim Northover return AI->isSwiftError();
12763b2157aeSTim Northover return false;
12773b2157aeSTim Northover }
12783b2157aeSTim Northover
translateLoad(const User & U,MachineIRBuilder & MIRBuilder)1279c53606efSTim Northover bool IRTranslator::translateLoad(const User &U, MachineIRBuilder &MIRBuilder) {
1280357f1be2STim Northover const LoadInst &LI = cast<LoadInst>(U);
12818d0383ebSMatt Arsenault
12828d0383ebSMatt Arsenault unsigned StoreSize = DL->getTypeStoreSize(LI.getType());
12838d0383ebSMatt Arsenault if (StoreSize == 0)
1284d78d65c2SAmara Emerson return true;
1285d78d65c2SAmara Emerson
1286e3a676e9SMatt Arsenault ArrayRef<Register> Regs = getOrCreateVRegs(LI);
12870d6a26dfSAmara Emerson ArrayRef<uint64_t> Offsets = *VMap.getOffsets(LI);
1288faeaedf8SMatt Arsenault Register Base = getOrCreateVReg(*LI.getPointerOperand());
12898d0383ebSMatt Arsenault AAMDNodes AAInfo = LI.getAAMetadata();
129052b4ce72SDaniel Sanders
12918d0383ebSMatt Arsenault const Value *Ptr = LI.getPointerOperand();
12928d0383ebSMatt Arsenault Type *OffsetIRTy = DL->getIntPtrType(Ptr->getType());
1293a568222dSDiana Picus LLT OffsetTy = getLLTForType(*OffsetIRTy, *DL);
1294a568222dSDiana Picus
12958d0383ebSMatt Arsenault if (CLI->supportSwiftError() && isSwiftError(Ptr)) {
12963b2157aeSTim Northover assert(Regs.size() == 1 && "swifterror should be single pointer");
12978d0383ebSMatt Arsenault Register VReg =
12988d0383ebSMatt Arsenault SwiftError.getOrCreateVRegUseAt(&LI, &MIRBuilder.getMBB(), Ptr);
12993b2157aeSTim Northover MIRBuilder.buildCopy(Regs[0], VReg);
13003b2157aeSTim Northover return true;
13013b2157aeSTim Northover }
13023b2157aeSTim Northover
13030d0fce42SMatt Arsenault auto &TLI = *MF->getSubtarget().getTargetLowering();
13040d0fce42SMatt Arsenault MachineMemOperand::Flags Flags = TLI.getLoadMemOperandFlags(LI, *DL);
13058d0383ebSMatt Arsenault if (AA && !(Flags & MachineMemOperand::MOInvariant)) {
13068d0383ebSMatt Arsenault if (AA->pointsToConstantMemory(
13078d0383ebSMatt Arsenault MemoryLocation(Ptr, LocationSize::precise(StoreSize), AAInfo))) {
13088d0383ebSMatt Arsenault Flags |= MachineMemOperand::MOInvariant;
13098d0383ebSMatt Arsenault
13108d0383ebSMatt Arsenault // FIXME: pointsToConstantMemory probably does not imply dereferenceable,
13118d0383ebSMatt Arsenault // but the previous usage implied it did. Probably should check
13128d0383ebSMatt Arsenault // isDereferenceableAndAlignedPointer.
13138d0383ebSMatt Arsenault Flags |= MachineMemOperand::MODereferenceable;
13148d0383ebSMatt Arsenault }
13158d0383ebSMatt Arsenault }
13160d0fce42SMatt Arsenault
1317d7504a15SAditya Nandakumar const MDNode *Ranges =
1318d7504a15SAditya Nandakumar Regs.size() == 1 ? LI.getMetadata(LLVMContext::MD_range) : nullptr;
13190d6a26dfSAmara Emerson for (unsigned i = 0; i < Regs.size(); ++i) {
1320e3a676e9SMatt Arsenault Register Addr;
1321e74c5b96SDaniel Sanders MIRBuilder.materializePtrAdd(Addr, Base, OffsetTy, Offsets[i] / 8);
13220d6a26dfSAmara Emerson
13230d6a26dfSAmara Emerson MachinePointerInfo Ptr(LI.getPointerOperand(), Offsets[i] / 8);
1324b9810988SGuillaume Chatelet Align BaseAlign = getMemOpAlign(LI);
13250d6a26dfSAmara Emerson auto MMO = MF->getMachineMemOperand(
1326990278d0SMatt Arsenault Ptr, Flags, MRI->getType(Regs[i]),
13278d0383ebSMatt Arsenault commonAlignment(BaseAlign, Offsets[i] / 8), AAInfo, Ranges,
13280d6a26dfSAmara Emerson LI.getSyncScopeID(), LI.getOrdering());
13290d6a26dfSAmara Emerson MIRBuilder.buildLoad(Regs[i], Addr, *MMO);
13300d6a26dfSAmara Emerson }
13310d6a26dfSAmara Emerson
1332ad2b717fSTim Northover return true;
1333ad2b717fSTim Northover }
1334ad2b717fSTim Northover
translateStore(const User & U,MachineIRBuilder & MIRBuilder)1335c53606efSTim Northover bool IRTranslator::translateStore(const User &U, MachineIRBuilder &MIRBuilder) {
1336357f1be2STim Northover const StoreInst &SI = cast<StoreInst>(U);
1337d78d65c2SAmara Emerson if (DL->getTypeStoreSize(SI.getValueOperand()->getType()) == 0)
1338d78d65c2SAmara Emerson return true;
1339d78d65c2SAmara Emerson
1340e3a676e9SMatt Arsenault ArrayRef<Register> Vals = getOrCreateVRegs(*SI.getValueOperand());
13410d6a26dfSAmara Emerson ArrayRef<uint64_t> Offsets = *VMap.getOffsets(*SI.getValueOperand());
1342faeaedf8SMatt Arsenault Register Base = getOrCreateVReg(*SI.getPointerOperand());
1343ad2b717fSTim Northover
1344a568222dSDiana Picus Type *OffsetIRTy = DL->getIntPtrType(SI.getPointerOperandType());
1345a568222dSDiana Picus LLT OffsetTy = getLLTForType(*OffsetIRTy, *DL);
1346a568222dSDiana Picus
13473b2157aeSTim Northover if (CLI->supportSwiftError() && isSwiftError(SI.getPointerOperand())) {
13483b2157aeSTim Northover assert(Vals.size() == 1 && "swifterror should be single pointer");
13493b2157aeSTim Northover
1350faeaedf8SMatt Arsenault Register VReg = SwiftError.getOrCreateVRegDefAt(&SI, &MIRBuilder.getMBB(),
13513b2157aeSTim Northover SI.getPointerOperand());
13523b2157aeSTim Northover MIRBuilder.buildCopy(VReg, Vals[0]);
13533b2157aeSTim Northover return true;
13543b2157aeSTim Northover }
13553b2157aeSTim Northover
13560d0fce42SMatt Arsenault auto &TLI = *MF->getSubtarget().getTargetLowering();
13570d0fce42SMatt Arsenault MachineMemOperand::Flags Flags = TLI.getStoreMemOperandFlags(SI, *DL);
13580d0fce42SMatt Arsenault
13590d6a26dfSAmara Emerson for (unsigned i = 0; i < Vals.size(); ++i) {
1360e3a676e9SMatt Arsenault Register Addr;
1361e74c5b96SDaniel Sanders MIRBuilder.materializePtrAdd(Addr, Base, OffsetTy, Offsets[i] / 8);
13620d6a26dfSAmara Emerson
13630d6a26dfSAmara Emerson MachinePointerInfo Ptr(SI.getPointerOperand(), Offsets[i] / 8);
1364b9810988SGuillaume Chatelet Align BaseAlign = getMemOpAlign(SI);
13650d6a26dfSAmara Emerson auto MMO = MF->getMachineMemOperand(
1366990278d0SMatt Arsenault Ptr, Flags, MRI->getType(Vals[i]),
13670fc624f0SNikita Popov commonAlignment(BaseAlign, Offsets[i] / 8), SI.getAAMetadata(), nullptr,
13680d6a26dfSAmara Emerson SI.getSyncScopeID(), SI.getOrdering());
13690d6a26dfSAmara Emerson MIRBuilder.buildStore(Vals[i], Addr, *MMO);
13700d6a26dfSAmara Emerson }
1371ad2b717fSTim Northover return true;
1372ad2b717fSTim Northover }
1373ad2b717fSTim Northover
getOffsetFromIndices(const User & U,const DataLayout & DL)13740d6a26dfSAmara Emerson static uint64_t getOffsetFromIndices(const User &U, const DataLayout &DL) {
1375b604622bSTim Northover const Value *Src = U.getOperand(0);
1376b604622bSTim Northover Type *Int32Ty = Type::getInt32Ty(U.getContext());
13776a36c647SVolkan Keles
13786f80b08cSTim Northover // getIndexedOffsetInType is designed for GEPs, so the first index is the
13796f80b08cSTim Northover // usual array element rather than looking into the actual aggregate.
13800d6a26dfSAmara Emerson SmallVector<Value *, 1> Indices;
13816f80b08cSTim Northover Indices.push_back(ConstantInt::get(Int32Ty, 0));
1382b604622bSTim Northover
1383b604622bSTim Northover if (const ExtractValueInst *EVI = dyn_cast<ExtractValueInst>(&U)) {
1384b604622bSTim Northover for (auto Idx : EVI->indices())
13856f80b08cSTim Northover Indices.push_back(ConstantInt::get(Int32Ty, Idx));
13860d6a26dfSAmara Emerson } else if (const InsertValueInst *IVI = dyn_cast<InsertValueInst>(&U)) {
13870d6a26dfSAmara Emerson for (auto Idx : IVI->indices())
13880d6a26dfSAmara Emerson Indices.push_back(ConstantInt::get(Int32Ty, Idx));
1389b604622bSTim Northover } else {
1390b604622bSTim Northover for (unsigned i = 1; i < U.getNumOperands(); ++i)
1391b604622bSTim Northover Indices.push_back(U.getOperand(i));
1392b604622bSTim Northover }
13936f80b08cSTim Northover
13940d6a26dfSAmara Emerson return 8 * static_cast<uint64_t>(
13950d6a26dfSAmara Emerson DL.getIndexedOffsetInType(Src->getType(), Indices));
13960d6a26dfSAmara Emerson }
13976f80b08cSTim Northover
translateExtractValue(const User & U,MachineIRBuilder & MIRBuilder)13980d6a26dfSAmara Emerson bool IRTranslator::translateExtractValue(const User &U,
13990d6a26dfSAmara Emerson MachineIRBuilder &MIRBuilder) {
14000d6a26dfSAmara Emerson const Value *Src = U.getOperand(0);
14010d6a26dfSAmara Emerson uint64_t Offset = getOffsetFromIndices(U, *DL);
1402e3a676e9SMatt Arsenault ArrayRef<Register> SrcRegs = getOrCreateVRegs(*Src);
14030d6a26dfSAmara Emerson ArrayRef<uint64_t> Offsets = *VMap.getOffsets(*Src);
1404cecc4352SFangrui Song unsigned Idx = llvm::lower_bound(Offsets, Offset) - Offsets.begin();
14050d6a26dfSAmara Emerson auto &DstRegs = allocateVRegs(U);
14060d6a26dfSAmara Emerson
14070d6a26dfSAmara Emerson for (unsigned i = 0; i < DstRegs.size(); ++i)
14080d6a26dfSAmara Emerson DstRegs[i] = SrcRegs[Idx++];
14096f80b08cSTim Northover
14106f80b08cSTim Northover return true;
14116f80b08cSTim Northover }
14126f80b08cSTim Northover
translateInsertValue(const User & U,MachineIRBuilder & MIRBuilder)1413c53606efSTim Northover bool IRTranslator::translateInsertValue(const User &U,
1414c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
1415b604622bSTim Northover const Value *Src = U.getOperand(0);
14160d6a26dfSAmara Emerson uint64_t Offset = getOffsetFromIndices(U, *DL);
14170d6a26dfSAmara Emerson auto &DstRegs = allocateVRegs(U);
14180d6a26dfSAmara Emerson ArrayRef<uint64_t> DstOffsets = *VMap.getOffsets(U);
1419e3a676e9SMatt Arsenault ArrayRef<Register> SrcRegs = getOrCreateVRegs(*Src);
1420e3a676e9SMatt Arsenault ArrayRef<Register> InsertedRegs = getOrCreateVRegs(*U.getOperand(1));
14219e6d1f4bSKazu Hirata auto *InsertedIt = InsertedRegs.begin();
1422bbbfb1cfSTim Northover
14230d6a26dfSAmara Emerson for (unsigned i = 0; i < DstRegs.size(); ++i) {
14240d6a26dfSAmara Emerson if (DstOffsets[i] >= Offset && InsertedIt != InsertedRegs.end())
14250d6a26dfSAmara Emerson DstRegs[i] = *InsertedIt++;
14260d6a26dfSAmara Emerson else
14270d6a26dfSAmara Emerson DstRegs[i] = SrcRegs[i];
1428b604622bSTim Northover }
1429bbbfb1cfSTim Northover
1430bbbfb1cfSTim Northover return true;
1431bbbfb1cfSTim Northover }
1432bbbfb1cfSTim Northover
translateSelect(const User & U,MachineIRBuilder & MIRBuilder)1433c53606efSTim Northover bool IRTranslator::translateSelect(const User &U,
1434c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
1435faeaedf8SMatt Arsenault Register Tst = getOrCreateVReg(*U.getOperand(0));
1436e3a676e9SMatt Arsenault ArrayRef<Register> ResRegs = getOrCreateVRegs(U);
1437e3a676e9SMatt Arsenault ArrayRef<Register> Op0Regs = getOrCreateVRegs(*U.getOperand(1));
1438e3a676e9SMatt Arsenault ArrayRef<Register> Op1Regs = getOrCreateVRegs(*U.getOperand(2));
14390d6a26dfSAmara Emerson
1440f0d81a31SMichael Berg uint16_t Flags = 0;
144108ae9453SMatt Arsenault if (const SelectInst *SI = dyn_cast<SelectInst>(&U))
144208ae9453SMatt Arsenault Flags = MachineInstr::copyFlagsFromInstruction(*SI);
1443f0d81a31SMichael Berg
1444c6a5245cSMichael Berg for (unsigned i = 0; i < ResRegs.size(); ++i) {
144528bb43bdSJay Foad MIRBuilder.buildSelect(ResRegs[i], Tst, Op0Regs[i], Op1Regs[i], Flags);
1446c6a5245cSMichael Berg }
14470d6a26dfSAmara Emerson
14485a28c364STim Northover return true;
14495a28c364STim Northover }
14505a28c364STim Northover
translateCopy(const User & U,const Value & V,MachineIRBuilder & MIRBuilder)1451bd80a8bbSJay Foad bool IRTranslator::translateCopy(const User &U, const Value &V,
1452bd80a8bbSJay Foad MachineIRBuilder &MIRBuilder) {
1453bd80a8bbSJay Foad Register Src = getOrCreateVReg(V);
1454bd80a8bbSJay Foad auto &Regs = *VMap.getVRegs(U);
1455bd80a8bbSJay Foad if (Regs.empty()) {
1456bd80a8bbSJay Foad Regs.push_back(Src);
1457bd80a8bbSJay Foad VMap.getOffsets(U)->push_back(0);
1458bd80a8bbSJay Foad } else {
1459bd80a8bbSJay Foad // If we already assigned a vreg for this instruction, we can't change that.
1460bd80a8bbSJay Foad // Emit a copy to satisfy the users we already emitted.
1461bd80a8bbSJay Foad MIRBuilder.buildCopy(Regs[0], Src);
1462bd80a8bbSJay Foad }
1463bd80a8bbSJay Foad return true;
1464bd80a8bbSJay Foad }
1465bd80a8bbSJay Foad
translateBitCast(const User & U,MachineIRBuilder & MIRBuilder)1466c53606efSTim Northover bool IRTranslator::translateBitCast(const User &U,
1467c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
14685c7924fcSAhmed Bougacha // If we're bitcasting to the source type, we can reuse the source vreg.
146952b4ce72SDaniel Sanders if (getLLTForType(*U.getOperand(0)->getType(), *DL) ==
1470bd80a8bbSJay Foad getLLTForType(*U.getType(), *DL))
1471bd80a8bbSJay Foad return translateCopy(U, *U.getOperand(0), MIRBuilder);
1472bd80a8bbSJay Foad
1473c53606efSTim Northover return translateCast(TargetOpcode::G_BITCAST, U, MIRBuilder);
14747c9eba90STim Northover }
14757c9eba90STim Northover
translateCast(unsigned Opcode,const User & U,MachineIRBuilder & MIRBuilder)1476c53606efSTim Northover bool IRTranslator::translateCast(unsigned Opcode, const User &U,
1477c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
1478faeaedf8SMatt Arsenault Register Op = getOrCreateVReg(*U.getOperand(0));
1479faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(U);
148092663376SAditya Nandakumar MIRBuilder.buildInstr(Opcode, {Res}, {Op});
14817c9eba90STim Northover return true;
14827c9eba90STim Northover }
14837c9eba90STim Northover
translateGetElementPtr(const User & U,MachineIRBuilder & MIRBuilder)1484c53606efSTim Northover bool IRTranslator::translateGetElementPtr(const User &U,
1485c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
1486a7653b39STim Northover Value &Op0 = *U.getOperand(0);
1487faeaedf8SMatt Arsenault Register BaseReg = getOrCreateVReg(Op0);
14882fb80307SAhmed Bougacha Type *PtrIRTy = Op0.getType();
14892fb80307SAhmed Bougacha LLT PtrTy = getLLTForType(*PtrIRTy, *DL);
14902fb80307SAhmed Bougacha Type *OffsetIRTy = DL->getIntPtrType(PtrIRTy);
14912fb80307SAhmed Bougacha LLT OffsetTy = getLLTForType(*OffsetIRTy, *DL);
1492a7653b39STim Northover
149306d9230fSMatt Arsenault // Normalize Vector GEP - all scalar operands should be converted to the
149406d9230fSMatt Arsenault // splat vector.
149506d9230fSMatt Arsenault unsigned VectorWidth = 0;
1496e59f0221SJessica Paquette
1497e59f0221SJessica Paquette // True if we should use a splat vector; using VectorWidth alone is not
1498e59f0221SJessica Paquette // sufficient.
1499e59f0221SJessica Paquette bool WantSplatVector = false;
1500e59f0221SJessica Paquette if (auto *VT = dyn_cast<VectorType>(U.getType())) {
1501ff5b9a7bSChristopher Tetreault VectorWidth = cast<FixedVectorType>(VT)->getNumElements();
1502e59f0221SJessica Paquette // We don't produce 1 x N vectors; those are treated as scalars.
1503e59f0221SJessica Paquette WantSplatVector = VectorWidth > 1;
1504e59f0221SJessica Paquette }
150506d9230fSMatt Arsenault
150684bd8511SAmara Emerson // We might need to splat the base pointer into a vector if the offsets
150784bd8511SAmara Emerson // are vectors.
1508e59f0221SJessica Paquette if (WantSplatVector && !PtrTy.isVector()) {
150984bd8511SAmara Emerson BaseReg =
1510d5e14ba8SSander de Smalen MIRBuilder
1511d5e14ba8SSander de Smalen .buildSplatVector(LLT::fixed_vector(VectorWidth, PtrTy), BaseReg)
151284bd8511SAmara Emerson .getReg(0);
1513caa2fddcSChristopher Tetreault PtrIRTy = FixedVectorType::get(PtrIRTy, VectorWidth);
151484bd8511SAmara Emerson PtrTy = getLLTForType(*PtrIRTy, *DL);
151584bd8511SAmara Emerson OffsetIRTy = DL->getIntPtrType(PtrIRTy);
151684bd8511SAmara Emerson OffsetTy = getLLTForType(*OffsetIRTy, *DL);
151784bd8511SAmara Emerson }
151884bd8511SAmara Emerson
1519a7653b39STim Northover int64_t Offset = 0;
1520a7653b39STim Northover for (gep_type_iterator GTI = gep_type_begin(&U), E = gep_type_end(&U);
1521a7653b39STim Northover GTI != E; ++GTI) {
1522a7653b39STim Northover const Value *Idx = GTI.getOperand();
152325a40759SPeter Collingbourne if (StructType *StTy = GTI.getStructTypeOrNull()) {
1524a7653b39STim Northover unsigned Field = cast<Constant>(Idx)->getUniqueInteger().getZExtValue();
1525a7653b39STim Northover Offset += DL->getStructLayout(StTy)->getElementOffset(Field);
1526a7653b39STim Northover continue;
1527a7653b39STim Northover } else {
1528a7653b39STim Northover uint64_t ElementSize = DL->getTypeAllocSize(GTI.getIndexedType());
1529a7653b39STim Northover
1530a7653b39STim Northover // If this is a scalar constant or a splat vector of constants,
1531a7653b39STim Northover // handle it quickly.
1532a7653b39STim Northover if (const auto *CI = dyn_cast<ConstantInt>(Idx)) {
1533a7653b39STim Northover Offset += ElementSize * CI->getSExtValue();
1534a7653b39STim Northover continue;
1535a7653b39STim Northover }
1536a7653b39STim Northover
1537a7653b39STim Northover if (Offset != 0) {
1538946b1246SAmara Emerson auto OffsetMIB = MIRBuilder.buildConstant({OffsetTy}, Offset);
1539e74c5b96SDaniel Sanders BaseReg = MIRBuilder.buildPtrAdd(PtrTy, BaseReg, OffsetMIB.getReg(0))
1540e74c5b96SDaniel Sanders .getReg(0);
1541a7653b39STim Northover Offset = 0;
1542a7653b39STim Northover }
1543a7653b39STim Northover
1544faeaedf8SMatt Arsenault Register IdxReg = getOrCreateVReg(*Idx);
154506d9230fSMatt Arsenault LLT IdxTy = MRI->getType(IdxReg);
154606d9230fSMatt Arsenault if (IdxTy != OffsetTy) {
1547e59f0221SJessica Paquette if (!IdxTy.isVector() && WantSplatVector) {
154806d9230fSMatt Arsenault IdxReg = MIRBuilder.buildSplatVector(
154906d9230fSMatt Arsenault OffsetTy.changeElementType(IdxTy), IdxReg).getReg(0);
155006d9230fSMatt Arsenault }
155106d9230fSMatt Arsenault
15520ae6006bSVolkan Keles IdxReg = MIRBuilder.buildSExtOrTrunc(OffsetTy, IdxReg).getReg(0);
155306d9230fSMatt Arsenault }
1554a7653b39STim Northover
15555710c44eSAditya Nandakumar // N = N + Idx * ElementSize;
15565710c44eSAditya Nandakumar // Avoid doing it for ElementSize of 1.
1557faeaedf8SMatt Arsenault Register GepOffsetReg;
15585710c44eSAditya Nandakumar if (ElementSize != 1) {
1559946b1246SAmara Emerson auto ElementSizeMIB = MIRBuilder.buildConstant(
1560946b1246SAmara Emerson getLLTForType(*OffsetIRTy, *DL), ElementSize);
15610ae6006bSVolkan Keles GepOffsetReg =
15620da937bbSAmara Emerson MIRBuilder.buildMul(OffsetTy, IdxReg, ElementSizeMIB).getReg(0);
15635710c44eSAditya Nandakumar } else
15645710c44eSAditya Nandakumar GepOffsetReg = IdxReg;
1565a7653b39STim Northover
1566e74c5b96SDaniel Sanders BaseReg = MIRBuilder.buildPtrAdd(PtrTy, BaseReg, GepOffsetReg).getReg(0);
1567a7653b39STim Northover }
1568a7653b39STim Northover }
1569a7653b39STim Northover
1570a7653b39STim Northover if (Offset != 0) {
1571946b1246SAmara Emerson auto OffsetMIB =
157206d9230fSMatt Arsenault MIRBuilder.buildConstant(OffsetTy, Offset);
1573e74c5b96SDaniel Sanders MIRBuilder.buildPtrAdd(getOrCreateVReg(U), BaseReg, OffsetMIB.getReg(0));
1574a7653b39STim Northover return true;
1575a7653b39STim Northover }
1576a7653b39STim Northover
1577a7653b39STim Northover MIRBuilder.buildCopy(getOrCreateVReg(U), BaseReg);
1578a7653b39STim Northover return true;
1579a7653b39STim Northover }
1580a7653b39STim Northover
translateMemFunc(const CallInst & CI,MachineIRBuilder & MIRBuilder,unsigned Opcode)1581cf12c781SAmara Emerson bool IRTranslator::translateMemFunc(const CallInst &CI,
158279f43f19STim Northover MachineIRBuilder &MIRBuilder,
15830b7f6cc7SMatt Arsenault unsigned Opcode) {
15848d0383ebSMatt Arsenault const Value *SrcPtr = CI.getArgOperand(1);
1585b2295438SJessica Paquette // If the source is undef, then just emit a nop.
15868d0383ebSMatt Arsenault if (isa<UndefValue>(SrcPtr))
1587b2295438SJessica Paquette return true;
1588cf12c781SAmara Emerson
15895207545aSMatt Arsenault SmallVector<Register, 3> SrcRegs;
15905207545aSMatt Arsenault
15915207545aSMatt Arsenault unsigned MinPtrSize = UINT_MAX;
15925207545aSMatt Arsenault for (auto AI = CI.arg_begin(), AE = CI.arg_end(); std::next(AI) != AE; ++AI) {
15935207545aSMatt Arsenault Register SrcReg = getOrCreateVReg(**AI);
15945207545aSMatt Arsenault LLT SrcTy = MRI->getType(SrcReg);
15955207545aSMatt Arsenault if (SrcTy.isPointer())
15960e09d18cSSander de Smalen MinPtrSize = std::min<unsigned>(SrcTy.getSizeInBits(), MinPtrSize);
15975207545aSMatt Arsenault SrcRegs.push_back(SrcReg);
15985207545aSMatt Arsenault }
15995207545aSMatt Arsenault
16005207545aSMatt Arsenault LLT SizeTy = LLT::scalar(MinPtrSize);
16015207545aSMatt Arsenault
16025207545aSMatt Arsenault // The size operand should be the minimum of the pointer sizes.
16035207545aSMatt Arsenault Register &SizeOpReg = SrcRegs[SrcRegs.size() - 1];
16045207545aSMatt Arsenault if (MRI->getType(SizeOpReg) != SizeTy)
16055207545aSMatt Arsenault SizeOpReg = MIRBuilder.buildZExtOrTrunc(SizeTy, SizeOpReg).getReg(0);
16065207545aSMatt Arsenault
16070b7f6cc7SMatt Arsenault auto ICall = MIRBuilder.buildInstr(Opcode);
16085207545aSMatt Arsenault for (Register SrcReg : SrcRegs)
16095207545aSMatt Arsenault ICall.addUse(SrcReg);
1610cf12c781SAmara Emerson
1611b9810988SGuillaume Chatelet Align DstAlign;
1612b9810988SGuillaume Chatelet Align SrcAlign;
1613cf12c781SAmara Emerson unsigned IsVol =
1614d34cd75dSKazu Hirata cast<ConstantInt>(CI.getArgOperand(CI.arg_size() - 1))->getZExtValue();
1615cf12c781SAmara Emerson
16168d0383ebSMatt Arsenault ConstantInt *CopySize = nullptr;
16178d0383ebSMatt Arsenault
1618cf12c781SAmara Emerson if (auto *MCI = dyn_cast<MemCpyInst>(&CI)) {
1619b9810988SGuillaume Chatelet DstAlign = MCI->getDestAlign().valueOrOne();
1620b9810988SGuillaume Chatelet SrcAlign = MCI->getSourceAlign().valueOrOne();
16218d0383ebSMatt Arsenault CopySize = dyn_cast<ConstantInt>(MCI->getArgOperand(2));
1622a6428724SJon Roelofs } else if (auto *MCI = dyn_cast<MemCpyInlineInst>(&CI)) {
1623a6428724SJon Roelofs DstAlign = MCI->getDestAlign().valueOrOne();
1624a6428724SJon Roelofs SrcAlign = MCI->getSourceAlign().valueOrOne();
16258d0383ebSMatt Arsenault CopySize = dyn_cast<ConstantInt>(MCI->getArgOperand(2));
1626cf12c781SAmara Emerson } else if (auto *MMI = dyn_cast<MemMoveInst>(&CI)) {
1627b9810988SGuillaume Chatelet DstAlign = MMI->getDestAlign().valueOrOne();
1628b9810988SGuillaume Chatelet SrcAlign = MMI->getSourceAlign().valueOrOne();
16298d0383ebSMatt Arsenault CopySize = dyn_cast<ConstantInt>(MMI->getArgOperand(2));
1630cf12c781SAmara Emerson } else {
1631cf12c781SAmara Emerson auto *MSI = cast<MemSetInst>(&CI);
1632b9810988SGuillaume Chatelet DstAlign = MSI->getDestAlign().valueOrOne();
1633b2295438SJessica Paquette }
1634b2295438SJessica Paquette
1635a6428724SJon Roelofs if (Opcode != TargetOpcode::G_MEMCPY_INLINE) {
1636509a4947SAmara Emerson // We need to propagate the tail call flag from the IR inst as an argument.
1637509a4947SAmara Emerson // Otherwise, we have to pessimize and assume later that we cannot tail call
1638509a4947SAmara Emerson // any memory intrinsics.
1639509a4947SAmara Emerson ICall.addImm(CI.isTailCall() ? 1 : 0);
1640a6428724SJon Roelofs }
1641509a4947SAmara Emerson
1642cf12c781SAmara Emerson // Create mem operands to store the alignment and volatile info.
16438d0383ebSMatt Arsenault MachineMemOperand::Flags LoadFlags = MachineMemOperand::MOLoad;
16448d0383ebSMatt Arsenault MachineMemOperand::Flags StoreFlags = MachineMemOperand::MOStore;
16458d0383ebSMatt Arsenault if (IsVol) {
16468d0383ebSMatt Arsenault LoadFlags |= MachineMemOperand::MOVolatile;
16478d0383ebSMatt Arsenault StoreFlags |= MachineMemOperand::MOVolatile;
16488d0383ebSMatt Arsenault }
16498d0383ebSMatt Arsenault
16508d0383ebSMatt Arsenault AAMDNodes AAInfo = CI.getAAMetadata();
16518d0383ebSMatt Arsenault if (AA && CopySize &&
16528d0383ebSMatt Arsenault AA->pointsToConstantMemory(MemoryLocation(
16538d0383ebSMatt Arsenault SrcPtr, LocationSize::precise(CopySize->getZExtValue()), AAInfo))) {
16548d0383ebSMatt Arsenault LoadFlags |= MachineMemOperand::MOInvariant;
16558d0383ebSMatt Arsenault
16568d0383ebSMatt Arsenault // FIXME: pointsToConstantMemory probably does not imply dereferenceable,
16578d0383ebSMatt Arsenault // but the previous usage implied it did. Probably should check
16588d0383ebSMatt Arsenault // isDereferenceableAndAlignedPointer.
16598d0383ebSMatt Arsenault LoadFlags |= MachineMemOperand::MODereferenceable;
16608d0383ebSMatt Arsenault }
16618d0383ebSMatt Arsenault
16628d0383ebSMatt Arsenault ICall.addMemOperand(
16638d0383ebSMatt Arsenault MF->getMachineMemOperand(MachinePointerInfo(CI.getArgOperand(0)),
16648d0383ebSMatt Arsenault StoreFlags, 1, DstAlign, AAInfo));
16650b7f6cc7SMatt Arsenault if (Opcode != TargetOpcode::G_MEMSET)
1666cf12c781SAmara Emerson ICall.addMemOperand(MF->getMachineMemOperand(
16678d0383ebSMatt Arsenault MachinePointerInfo(SrcPtr), LoadFlags, 1, SrcAlign, AAInfo));
16683f18603cSTim Northover
1669cf12c781SAmara Emerson return true;
16703f18603cSTim Northover }
1671a7653b39STim Northover
getStackGuard(Register DstReg,MachineIRBuilder & MIRBuilder)16724ae254e4SKai Nacke void IRTranslator::getStackGuard(Register DstReg,
16734ae254e4SKai Nacke MachineIRBuilder &MIRBuilder) {
1674d8b85584STim Northover const TargetRegisterInfo *TRI = MF->getSubtarget().getRegisterInfo();
1675d8b85584STim Northover MRI->setRegClass(DstReg, TRI->getPointerRegClass(*MF));
167628bb43bdSJay Foad auto MIB =
167728bb43bdSJay Foad MIRBuilder.buildInstr(TargetOpcode::LOAD_STACK_GUARD, {DstReg}, {});
1678cdf23f1dSTim Northover
167950db7f41STim Northover auto &TLI = *MF->getSubtarget().getTargetLowering();
16804ae254e4SKai Nacke Value *Global = TLI.getSDagStackGuard(*MF->getFunction().getParent());
16814ae254e4SKai Nacke if (!Global)
16824ae254e4SKai Nacke return;
16834ae254e4SKai Nacke
1684990278d0SMatt Arsenault unsigned AddrSpace = Global->getType()->getPointerAddressSpace();
1685990278d0SMatt Arsenault LLT PtrTy = LLT::pointer(AddrSpace, DL->getPointerSizeInBits(AddrSpace));
1686990278d0SMatt Arsenault
1687cdf23f1dSTim Northover MachinePointerInfo MPInfo(Global);
1688cdf23f1dSTim Northover auto Flags = MachineMemOperand::MOLoad | MachineMemOperand::MOInvariant |
1689cdf23f1dSTim Northover MachineMemOperand::MODereferenceable;
1690990278d0SMatt Arsenault MachineMemOperand *MemRef = MF->getMachineMemOperand(
1691990278d0SMatt Arsenault MPInfo, Flags, PtrTy, DL->getPointerABIAlignment(AddrSpace));
1692c73c0307SChandler Carruth MIB.setMemRefs({MemRef});
1693cdf23f1dSTim Northover }
1694cdf23f1dSTim Northover
translateOverflowIntrinsic(const CallInst & CI,unsigned Op,MachineIRBuilder & MIRBuilder)16951e656ec1STim Northover bool IRTranslator::translateOverflowIntrinsic(const CallInst &CI, unsigned Op,
16961e656ec1STim Northover MachineIRBuilder &MIRBuilder) {
1697e3a676e9SMatt Arsenault ArrayRef<Register> ResRegs = getOrCreateVRegs(CI);
169828bb43bdSJay Foad MIRBuilder.buildInstr(
169928bb43bdSJay Foad Op, {ResRegs[0], ResRegs[1]},
170028bb43bdSJay Foad {getOrCreateVReg(*CI.getOperand(0)), getOrCreateVReg(*CI.getOperand(1))});
17011e656ec1STim Northover
17021e656ec1STim Northover return true;
17031e656ec1STim Northover }
17041e656ec1STim Northover
translateFixedPointIntrinsic(unsigned Op,const CallInst & CI,MachineIRBuilder & MIRBuilder)17054b53072eSMatt Arsenault bool IRTranslator::translateFixedPointIntrinsic(unsigned Op, const CallInst &CI,
17064b53072eSMatt Arsenault MachineIRBuilder &MIRBuilder) {
17074b53072eSMatt Arsenault Register Dst = getOrCreateVReg(CI);
17084b53072eSMatt Arsenault Register Src0 = getOrCreateVReg(*CI.getOperand(0));
17094b53072eSMatt Arsenault Register Src1 = getOrCreateVReg(*CI.getOperand(1));
17104b53072eSMatt Arsenault uint64_t Scale = cast<ConstantInt>(CI.getOperand(2))->getZExtValue();
17114b53072eSMatt Arsenault MIRBuilder.buildInstr(Op, {Dst}, { Src0, Src1, Scale });
17124b53072eSMatt Arsenault return true;
17134b53072eSMatt Arsenault }
17144b53072eSMatt Arsenault
getSimpleIntrinsicOpcode(Intrinsic::ID ID)1715acbb7ca2SJessica Paquette unsigned IRTranslator::getSimpleIntrinsicOpcode(Intrinsic::ID ID) {
1716e288c526SJessica Paquette switch (ID) {
1717e288c526SJessica Paquette default:
1718e288c526SJessica Paquette break;
17190e71e73fSJessica Paquette case Intrinsic::bswap:
17200e71e73fSJessica Paquette return TargetOpcode::G_BSWAP;
172170becc20SMatt Arsenault case Intrinsic::bitreverse:
172270becc20SMatt Arsenault return TargetOpcode::G_BITREVERSE;
172323da702dSMatt Arsenault case Intrinsic::fshl:
172423da702dSMatt Arsenault return TargetOpcode::G_FSHL;
172523da702dSMatt Arsenault case Intrinsic::fshr:
172623da702dSMatt Arsenault return TargetOpcode::G_FSHR;
1727e288c526SJessica Paquette case Intrinsic::ceil:
1728e288c526SJessica Paquette return TargetOpcode::G_FCEIL;
1729e288c526SJessica Paquette case Intrinsic::cos:
1730e288c526SJessica Paquette return TargetOpcode::G_FCOS;
1731e288c526SJessica Paquette case Intrinsic::ctpop:
1732e288c526SJessica Paquette return TargetOpcode::G_CTPOP;
1733e288c526SJessica Paquette case Intrinsic::exp:
1734e288c526SJessica Paquette return TargetOpcode::G_FEXP;
1735e288c526SJessica Paquette case Intrinsic::exp2:
1736e288c526SJessica Paquette return TargetOpcode::G_FEXP2;
1737e288c526SJessica Paquette case Intrinsic::fabs:
1738e288c526SJessica Paquette return TargetOpcode::G_FABS;
173955146d31SMatt Arsenault case Intrinsic::copysign:
174055146d31SMatt Arsenault return TargetOpcode::G_FCOPYSIGN;
1741e595a2c9SMatt Arsenault case Intrinsic::minnum:
1742e595a2c9SMatt Arsenault return TargetOpcode::G_FMINNUM;
1743e595a2c9SMatt Arsenault case Intrinsic::maxnum:
1744e595a2c9SMatt Arsenault return TargetOpcode::G_FMAXNUM;
1745e595a2c9SMatt Arsenault case Intrinsic::minimum:
1746e595a2c9SMatt Arsenault return TargetOpcode::G_FMINIMUM;
1747e595a2c9SMatt Arsenault case Intrinsic::maximum:
1748e595a2c9SMatt Arsenault return TargetOpcode::G_FMAXIMUM;
17499dba67f4SMatt Arsenault case Intrinsic::canonicalize:
17509dba67f4SMatt Arsenault return TargetOpcode::G_FCANONICALIZE;
1751f472f318SJessica Paquette case Intrinsic::floor:
1752f472f318SJessica Paquette return TargetOpcode::G_FFLOOR;
1753acbb7ca2SJessica Paquette case Intrinsic::fma:
1754acbb7ca2SJessica Paquette return TargetOpcode::G_FMA;
1755e288c526SJessica Paquette case Intrinsic::log:
1756e288c526SJessica Paquette return TargetOpcode::G_FLOG;
1757e288c526SJessica Paquette case Intrinsic::log2:
1758e288c526SJessica Paquette return TargetOpcode::G_FLOG2;
1759e288c526SJessica Paquette case Intrinsic::log10:
1760e288c526SJessica Paquette return TargetOpcode::G_FLOG10;
1761bd7ac30bSJessica Paquette case Intrinsic::nearbyint:
1762bd7ac30bSJessica Paquette return TargetOpcode::G_FNEARBYINT;
1763acbb7ca2SJessica Paquette case Intrinsic::pow:
1764acbb7ca2SJessica Paquette return TargetOpcode::G_FPOW;
17657941dc50SMatt Arsenault case Intrinsic::powi:
17667941dc50SMatt Arsenault return TargetOpcode::G_FPOWI;
1767ad69af3eSJessica Paquette case Intrinsic::rint:
1768ad69af3eSJessica Paquette return TargetOpcode::G_FRINT;
1769e288c526SJessica Paquette case Intrinsic::round:
1770e288c526SJessica Paquette return TargetOpcode::G_INTRINSIC_ROUND;
17710da582d9SMatt Arsenault case Intrinsic::roundeven:
17720da582d9SMatt Arsenault return TargetOpcode::G_INTRINSIC_ROUNDEVEN;
1773e288c526SJessica Paquette case Intrinsic::sin:
1774e288c526SJessica Paquette return TargetOpcode::G_FSIN;
1775e288c526SJessica Paquette case Intrinsic::sqrt:
1776e288c526SJessica Paquette return TargetOpcode::G_FSQRT;
1777e288c526SJessica Paquette case Intrinsic::trunc:
1778e288c526SJessica Paquette return TargetOpcode::G_INTRINSIC_TRUNC;
17791f950cedSMatt Arsenault case Intrinsic::readcyclecounter:
17801f950cedSMatt Arsenault return TargetOpcode::G_READCYCLECOUNTER;
17818bc03d21SMatt Arsenault case Intrinsic::ptrmask:
17828bc03d21SMatt Arsenault return TargetOpcode::G_PTRMASK;
17830c0e3606SAmara Emerson case Intrinsic::lrint:
17840c0e3606SAmara Emerson return TargetOpcode::G_INTRINSIC_LRINT;
17856042c25bSAmara Emerson // FADD/FMUL require checking the FMF, so are handled elsewhere.
17866042c25bSAmara Emerson case Intrinsic::vector_reduce_fmin:
17876042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_FMIN;
17886042c25bSAmara Emerson case Intrinsic::vector_reduce_fmax:
17896042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_FMAX;
17906042c25bSAmara Emerson case Intrinsic::vector_reduce_add:
17916042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_ADD;
17926042c25bSAmara Emerson case Intrinsic::vector_reduce_mul:
17936042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_MUL;
17946042c25bSAmara Emerson case Intrinsic::vector_reduce_and:
17956042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_AND;
17966042c25bSAmara Emerson case Intrinsic::vector_reduce_or:
17976042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_OR;
17986042c25bSAmara Emerson case Intrinsic::vector_reduce_xor:
17996042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_XOR;
18006042c25bSAmara Emerson case Intrinsic::vector_reduce_smax:
18016042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_SMAX;
18026042c25bSAmara Emerson case Intrinsic::vector_reduce_smin:
18036042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_SMIN;
18046042c25bSAmara Emerson case Intrinsic::vector_reduce_umax:
18056042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_UMAX;
18066042c25bSAmara Emerson case Intrinsic::vector_reduce_umin:
18076042c25bSAmara Emerson return TargetOpcode::G_VECREDUCE_UMIN;
18083207ed19SJessica Paquette case Intrinsic::lround:
18093207ed19SJessica Paquette return TargetOpcode::G_LROUND;
18106760e2a7SJessica Paquette case Intrinsic::llround:
18116760e2a7SJessica Paquette return TargetOpcode::G_LLROUND;
1812e288c526SJessica Paquette }
1813e288c526SJessica Paquette return Intrinsic::not_intrinsic;
1814e288c526SJessica Paquette }
1815e288c526SJessica Paquette
translateSimpleIntrinsic(const CallInst & CI,Intrinsic::ID ID,MachineIRBuilder & MIRBuilder)1816acbb7ca2SJessica Paquette bool IRTranslator::translateSimpleIntrinsic(const CallInst &CI,
1817acbb7ca2SJessica Paquette Intrinsic::ID ID,
1818acbb7ca2SJessica Paquette MachineIRBuilder &MIRBuilder) {
1819e288c526SJessica Paquette
1820acbb7ca2SJessica Paquette unsigned Op = getSimpleIntrinsicOpcode(ID);
1821e288c526SJessica Paquette
1822acbb7ca2SJessica Paquette // Is this a simple intrinsic?
1823e288c526SJessica Paquette if (Op == Intrinsic::not_intrinsic)
1824e288c526SJessica Paquette return false;
1825e288c526SJessica Paquette
1826e288c526SJessica Paquette // Yes. Let's translate it.
1827acbb7ca2SJessica Paquette SmallVector<llvm::SrcOp, 4> VRegs;
18289e6d1f4bSKazu Hirata for (const auto &Arg : CI.args())
1829acbb7ca2SJessica Paquette VRegs.push_back(getOrCreateVReg(*Arg));
1830acbb7ca2SJessica Paquette
1831acbb7ca2SJessica Paquette MIRBuilder.buildInstr(Op, {getOrCreateVReg(CI)}, VRegs,
1832f0d81a31SMichael Berg MachineInstr::copyFlagsFromInstruction(CI));
1833e288c526SJessica Paquette return true;
1834e288c526SJessica Paquette }
1835e288c526SJessica Paquette
1836ed5017e1SMatt Arsenault // TODO: Include ConstainedOps.def when all strict instructions are defined.
getConstrainedOpcode(Intrinsic::ID ID)1837ed5017e1SMatt Arsenault static unsigned getConstrainedOpcode(Intrinsic::ID ID) {
1838ed5017e1SMatt Arsenault switch (ID) {
1839ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_fadd:
1840ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FADD;
1841ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_fsub:
1842ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FSUB;
1843ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_fmul:
1844ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FMUL;
1845ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_fdiv:
1846ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FDIV;
1847ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_frem:
1848ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FREM;
1849ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_fma:
1850ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FMA;
1851ed5017e1SMatt Arsenault case Intrinsic::experimental_constrained_sqrt:
1852ed5017e1SMatt Arsenault return TargetOpcode::G_STRICT_FSQRT;
1853ed5017e1SMatt Arsenault default:
1854ed5017e1SMatt Arsenault return 0;
1855ed5017e1SMatt Arsenault }
1856ed5017e1SMatt Arsenault }
1857ed5017e1SMatt Arsenault
translateConstrainedFPIntrinsic(const ConstrainedFPIntrinsic & FPI,MachineIRBuilder & MIRBuilder)1858ed5017e1SMatt Arsenault bool IRTranslator::translateConstrainedFPIntrinsic(
1859ed5017e1SMatt Arsenault const ConstrainedFPIntrinsic &FPI, MachineIRBuilder &MIRBuilder) {
18607a47ee51SKazu Hirata fp::ExceptionBehavior EB = *FPI.getExceptionBehavior();
1861ed5017e1SMatt Arsenault
1862ed5017e1SMatt Arsenault unsigned Opcode = getConstrainedOpcode(FPI.getIntrinsicID());
1863ed5017e1SMatt Arsenault if (!Opcode)
1864ed5017e1SMatt Arsenault return false;
1865ed5017e1SMatt Arsenault
1866ed5017e1SMatt Arsenault unsigned Flags = MachineInstr::copyFlagsFromInstruction(FPI);
1867ed5017e1SMatt Arsenault if (EB == fp::ExceptionBehavior::ebIgnore)
1868ed5017e1SMatt Arsenault Flags |= MachineInstr::NoFPExcept;
1869ed5017e1SMatt Arsenault
1870ed5017e1SMatt Arsenault SmallVector<llvm::SrcOp, 4> VRegs;
1871ed5017e1SMatt Arsenault VRegs.push_back(getOrCreateVReg(*FPI.getArgOperand(0)));
1872ed5017e1SMatt Arsenault if (!FPI.isUnaryOp())
1873ed5017e1SMatt Arsenault VRegs.push_back(getOrCreateVReg(*FPI.getArgOperand(1)));
1874ed5017e1SMatt Arsenault if (FPI.isTernaryOp())
1875ed5017e1SMatt Arsenault VRegs.push_back(getOrCreateVReg(*FPI.getArgOperand(2)));
1876ed5017e1SMatt Arsenault
1877ed5017e1SMatt Arsenault MIRBuilder.buildInstr(Opcode, {getOrCreateVReg(FPI)}, VRegs, Flags);
1878ed5017e1SMatt Arsenault return true;
1879ed5017e1SMatt Arsenault }
1880ed5017e1SMatt Arsenault
translateKnownIntrinsic(const CallInst & CI,Intrinsic::ID ID,MachineIRBuilder & MIRBuilder)1881c53606efSTim Northover bool IRTranslator::translateKnownIntrinsic(const CallInst &CI, Intrinsic::ID ID,
1882c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
1883095e91c9SJon Roelofs if (auto *MI = dyn_cast<AnyMemIntrinsic>(&CI)) {
1884095e91c9SJon Roelofs if (ORE->enabled()) {
1885095e91c9SJon Roelofs const Function &F = *MI->getParent()->getParent();
1886095e91c9SJon Roelofs auto &TLI = getAnalysis<TargetLibraryInfoWrapperPass>().getTLI(F);
1887095e91c9SJon Roelofs if (MemoryOpRemark::canHandle(MI, TLI)) {
1888493d6928SJon Roelofs MemoryOpRemark R(*ORE, "gisel-irtranslator-memsize", *DL, TLI);
1889095e91c9SJon Roelofs R.visit(MI);
1890095e91c9SJon Roelofs }
1891095e91c9SJon Roelofs }
1892095e91c9SJon Roelofs }
1893e288c526SJessica Paquette
1894acbb7ca2SJessica Paquette // If this is a simple intrinsic (that is, we just need to add a def of
1895acbb7ca2SJessica Paquette // a vreg, and uses for each arg operand, then translate it.
1896acbb7ca2SJessica Paquette if (translateSimpleIntrinsic(CI, ID, MIRBuilder))
1897e288c526SJessica Paquette return true;
1898e288c526SJessica Paquette
189991c81730STim Northover switch (ID) {
19001e656ec1STim Northover default:
19011e656ec1STim Northover break;
19020e01170cSTim Northover case Intrinsic::lifetime_start:
19032e35dc51SJessica Paquette case Intrinsic::lifetime_end: {
19042e35dc51SJessica Paquette // No stack colouring in O0, discard region information.
19052e35dc51SJessica Paquette if (MF->getTarget().getOptLevel() == CodeGenOpt::None)
19060e01170cSTim Northover return true;
19072e35dc51SJessica Paquette
19082e35dc51SJessica Paquette unsigned Op = ID == Intrinsic::lifetime_start ? TargetOpcode::LIFETIME_START
19092e35dc51SJessica Paquette : TargetOpcode::LIFETIME_END;
19102e35dc51SJessica Paquette
19112e35dc51SJessica Paquette // Get the underlying objects for the location passed on the lifetime
19122e35dc51SJessica Paquette // marker.
191371e8c6f2SBjorn Pettersson SmallVector<const Value *, 4> Allocas;
1914b0eb40caSVitaly Buka getUnderlyingObjects(CI.getArgOperand(1), Allocas);
19152e35dc51SJessica Paquette
19162e35dc51SJessica Paquette // Iterate over each underlying object, creating lifetime markers for each
19172e35dc51SJessica Paquette // static alloca. Quit if we find a non-static alloca.
191871e8c6f2SBjorn Pettersson for (const Value *V : Allocas) {
191971e8c6f2SBjorn Pettersson const AllocaInst *AI = dyn_cast<AllocaInst>(V);
19202e35dc51SJessica Paquette if (!AI)
19212e35dc51SJessica Paquette continue;
19222e35dc51SJessica Paquette
19232e35dc51SJessica Paquette if (!AI->isStaticAlloca())
19242e35dc51SJessica Paquette return true;
19252e35dc51SJessica Paquette
19262e35dc51SJessica Paquette MIRBuilder.buildInstr(Op).addFrameIndex(getOrCreateFrameIndex(*AI));
19272e35dc51SJessica Paquette }
19282e35dc51SJessica Paquette return true;
19292e35dc51SJessica Paquette }
193009aac4adSTim Northover case Intrinsic::dbg_declare: {
193109aac4adSTim Northover const DbgDeclareInst &DI = cast<DbgDeclareInst>(CI);
193209aac4adSTim Northover assert(DI.getVariable() && "Missing variable");
193309aac4adSTim Northover
193409aac4adSTim Northover const Value *Address = DI.getAddress();
193509aac4adSTim Northover if (!Address || isa<UndefValue>(Address)) {
1936d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Dropping debug info for " << DI << "\n");
1937b58346f2STim Northover return true;
193809aac4adSTim Northover }
193909aac4adSTim Northover
194009aac4adSTim Northover assert(DI.getVariable()->isValidLocationForIntrinsic(
194109aac4adSTim Northover MIRBuilder.getDebugLoc()) &&
194209aac4adSTim Northover "Expected inlined-at fields to agree");
19437a9ea8f6STim Northover auto AI = dyn_cast<AllocaInst>(Address);
19447a9ea8f6STim Northover if (AI && AI->isStaticAlloca()) {
19457a9ea8f6STim Northover // Static allocas are tracked at the MF level, no need for DBG_VALUE
19467a9ea8f6STim Northover // instructions (in fact, they get ignored if they *do* exist).
19477a9ea8f6STim Northover MF->setVariableDbgInfo(DI.getVariable(), DI.getExpression(),
19487a9ea8f6STim Northover getOrCreateFrameIndex(*AI), DI.getDebugLoc());
1949f446facaSJosh Stone } else {
1950f446facaSJosh Stone // A dbg.declare describes the address of a source variable, so lower it
1951f446facaSJosh Stone // into an indirect DBG_VALUE.
1952f446facaSJosh Stone MIRBuilder.buildIndirectDbgValue(getOrCreateVReg(*Address),
19537a9ea8f6STim Northover DI.getVariable(), DI.getExpression());
1954f446facaSJosh Stone }
195509aac4adSTim Northover return true;
195609aac4adSTim Northover }
19572532ac88SHsiangkai Wang case Intrinsic::dbg_label: {
19582532ac88SHsiangkai Wang const DbgLabelInst &DI = cast<DbgLabelInst>(CI);
19592532ac88SHsiangkai Wang assert(DI.getLabel() && "Missing label");
19602532ac88SHsiangkai Wang
19612532ac88SHsiangkai Wang assert(DI.getLabel()->isValidLocationForIntrinsic(
19622532ac88SHsiangkai Wang MIRBuilder.getDebugLoc()) &&
19632532ac88SHsiangkai Wang "Expected inlined-at fields to agree");
19642532ac88SHsiangkai Wang
19652532ac88SHsiangkai Wang MIRBuilder.buildDbgLabel(DI.getLabel());
19662532ac88SHsiangkai Wang return true;
19672532ac88SHsiangkai Wang }
1968d0d025aeSTim Northover case Intrinsic::vaend:
1969d0d025aeSTim Northover // No target I know of cares about va_end. Certainly no in-tree target
1970d0d025aeSTim Northover // does. Simplest intrinsic ever!
1971d0d025aeSTim Northover return true;
1972f19d467fSTim Northover case Intrinsic::vastart: {
1973f19d467fSTim Northover auto &TLI = *MF->getSubtarget().getTargetLowering();
1974f19d467fSTim Northover Value *Ptr = CI.getArgOperand(0);
1975f19d467fSTim Northover unsigned ListSize = TLI.getVaListSizeInBits(*DL) / 8;
1976f19d467fSTim Northover
19772a64598eSMatt Arsenault // FIXME: Get alignment
197828bb43bdSJay Foad MIRBuilder.buildInstr(TargetOpcode::G_VASTART, {}, {getOrCreateVReg(*Ptr)})
1979bdf77209SGuillaume Chatelet .addMemOperand(MF->getMachineMemOperand(MachinePointerInfo(Ptr),
1980bdf77209SGuillaume Chatelet MachineMemOperand::MOStore,
1981bdf77209SGuillaume Chatelet ListSize, Align(1)));
1982f19d467fSTim Northover return true;
1983f19d467fSTim Northover }
198409aac4adSTim Northover case Intrinsic::dbg_value: {
198509aac4adSTim Northover // This form of DBG_VALUE is target-independent.
198609aac4adSTim Northover const DbgValueInst &DI = cast<DbgValueInst>(CI);
198709aac4adSTim Northover const Value *V = DI.getValue();
198809aac4adSTim Northover assert(DI.getVariable()->isValidLocationForIntrinsic(
198909aac4adSTim Northover MIRBuilder.getDebugLoc()) &&
199009aac4adSTim Northover "Expected inlined-at fields to agree");
1991cf725ddeSStephen Tozer if (!V || DI.hasArgList()) {
1992cf725ddeSStephen Tozer // DI cannot produce a valid DBG_VALUE, so produce an undef DBG_VALUE to
1993cf725ddeSStephen Tozer // terminate any prior location.
19946531a78aSJeremy Morse MIRBuilder.buildIndirectDbgValue(0, DI.getVariable(), DI.getExpression());
199509aac4adSTim Northover } else if (const auto *CI = dyn_cast<Constant>(V)) {
1996d92ac5a2SAdrian Prantl MIRBuilder.buildConstDbgValue(*CI, DI.getVariable(), DI.getExpression());
199709aac4adSTim Northover } else {
199808bd0808SAditya Nandakumar for (Register Reg : getOrCreateVRegs(*V)) {
199909aac4adSTim Northover // FIXME: This does not handle register-indirect values at offset 0. The
200009aac4adSTim Northover // direct/indirect thing shouldn't really be handled by something as
200108bd0808SAditya Nandakumar // implicit as reg+noreg vs reg+imm in the first place, but it seems
200209aac4adSTim Northover // pretty baked in right now.
2003abe04759SAdrian Prantl MIRBuilder.buildDirectDbgValue(Reg, DI.getVariable(), DI.getExpression());
200409aac4adSTim Northover }
200508bd0808SAditya Nandakumar }
200609aac4adSTim Northover return true;
200709aac4adSTim Northover }
20081e656ec1STim Northover case Intrinsic::uadd_with_overflow:
20096b4d343eSAditya Nandakumar return translateOverflowIntrinsic(CI, TargetOpcode::G_UADDO, MIRBuilder);
20101e656ec1STim Northover case Intrinsic::sadd_with_overflow:
20111e656ec1STim Northover return translateOverflowIntrinsic(CI, TargetOpcode::G_SADDO, MIRBuilder);
20121e656ec1STim Northover case Intrinsic::usub_with_overflow:
20136b4d343eSAditya Nandakumar return translateOverflowIntrinsic(CI, TargetOpcode::G_USUBO, MIRBuilder);
20141e656ec1STim Northover case Intrinsic::ssub_with_overflow:
20151e656ec1STim Northover return translateOverflowIntrinsic(CI, TargetOpcode::G_SSUBO, MIRBuilder);
20161e656ec1STim Northover case Intrinsic::umul_with_overflow:
20171e656ec1STim Northover return translateOverflowIntrinsic(CI, TargetOpcode::G_UMULO, MIRBuilder);
20181e656ec1STim Northover case Intrinsic::smul_with_overflow:
20191e656ec1STim Northover return translateOverflowIntrinsic(CI, TargetOpcode::G_SMULO, MIRBuilder);
20200444d16aSJay Foad case Intrinsic::uadd_sat:
20210444d16aSJay Foad return translateBinaryOp(TargetOpcode::G_UADDSAT, CI, MIRBuilder);
20220444d16aSJay Foad case Intrinsic::sadd_sat:
20230444d16aSJay Foad return translateBinaryOp(TargetOpcode::G_SADDSAT, CI, MIRBuilder);
20240444d16aSJay Foad case Intrinsic::usub_sat:
20250444d16aSJay Foad return translateBinaryOp(TargetOpcode::G_USUBSAT, CI, MIRBuilder);
20260444d16aSJay Foad case Intrinsic::ssub_sat:
20270444d16aSJay Foad return translateBinaryOp(TargetOpcode::G_SSUBSAT, CI, MIRBuilder);
20285de6c56fSBevin Hansson case Intrinsic::ushl_sat:
20295de6c56fSBevin Hansson return translateBinaryOp(TargetOpcode::G_USHLSAT, CI, MIRBuilder);
20305de6c56fSBevin Hansson case Intrinsic::sshl_sat:
20315de6c56fSBevin Hansson return translateBinaryOp(TargetOpcode::G_SSHLSAT, CI, MIRBuilder);
2032deb4bb2bSNikita Popov case Intrinsic::umin:
2033deb4bb2bSNikita Popov return translateBinaryOp(TargetOpcode::G_UMIN, CI, MIRBuilder);
2034deb4bb2bSNikita Popov case Intrinsic::umax:
2035deb4bb2bSNikita Popov return translateBinaryOp(TargetOpcode::G_UMAX, CI, MIRBuilder);
2036deb4bb2bSNikita Popov case Intrinsic::smin:
2037deb4bb2bSNikita Popov return translateBinaryOp(TargetOpcode::G_SMIN, CI, MIRBuilder);
2038deb4bb2bSNikita Popov case Intrinsic::smax:
2039deb4bb2bSNikita Popov return translateBinaryOp(TargetOpcode::G_SMAX, CI, MIRBuilder);
2040fa2b836eSJay Foad case Intrinsic::abs:
2041fa2b836eSJay Foad // TODO: Preserve "int min is poison" arg in GMIR?
2042fa2b836eSJay Foad return translateUnaryOp(TargetOpcode::G_ABS, CI, MIRBuilder);
20434b53072eSMatt Arsenault case Intrinsic::smul_fix:
20444b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_SMULFIX, CI, MIRBuilder);
20454b53072eSMatt Arsenault case Intrinsic::umul_fix:
20464b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_UMULFIX, CI, MIRBuilder);
20474b53072eSMatt Arsenault case Intrinsic::smul_fix_sat:
20484b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_SMULFIXSAT, CI, MIRBuilder);
20494b53072eSMatt Arsenault case Intrinsic::umul_fix_sat:
20504b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_UMULFIXSAT, CI, MIRBuilder);
20514b53072eSMatt Arsenault case Intrinsic::sdiv_fix:
20524b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_SDIVFIX, CI, MIRBuilder);
20534b53072eSMatt Arsenault case Intrinsic::udiv_fix:
20544b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_UDIVFIX, CI, MIRBuilder);
20554b53072eSMatt Arsenault case Intrinsic::sdiv_fix_sat:
20564b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_SDIVFIXSAT, CI, MIRBuilder);
20574b53072eSMatt Arsenault case Intrinsic::udiv_fix_sat:
20584b53072eSMatt Arsenault return translateFixedPointIntrinsic(TargetOpcode::G_UDIVFIXSAT, CI, MIRBuilder);
205992837638SVolkan Keles case Intrinsic::fmuladd: {
206092837638SVolkan Keles const TargetMachine &TM = MF->getTarget();
206192837638SVolkan Keles const TargetLowering &TLI = *MF->getSubtarget().getTargetLowering();
2062faeaedf8SMatt Arsenault Register Dst = getOrCreateVReg(CI);
2063faeaedf8SMatt Arsenault Register Op0 = getOrCreateVReg(*CI.getArgOperand(0));
2064faeaedf8SMatt Arsenault Register Op1 = getOrCreateVReg(*CI.getArgOperand(1));
2065faeaedf8SMatt Arsenault Register Op2 = getOrCreateVReg(*CI.getArgOperand(2));
206692837638SVolkan Keles if (TM.Options.AllowFPOpFusion != FPOpFusion::Strict &&
2067b696b9dbSMatt Arsenault TLI.isFMAFasterThanFMulAndFAdd(*MF,
2068b696b9dbSMatt Arsenault TLI.getValueType(*DL, CI.getType()))) {
206992837638SVolkan Keles // TODO: Revisit this to see if we should move this part of the
207092837638SVolkan Keles // lowering to the combiner.
207128bb43bdSJay Foad MIRBuilder.buildFMA(Dst, Op0, Op1, Op2,
2072f0d81a31SMichael Berg MachineInstr::copyFlagsFromInstruction(CI));
207392837638SVolkan Keles } else {
207492837638SVolkan Keles LLT Ty = getLLTForType(*CI.getType(), *DL);
207528bb43bdSJay Foad auto FMul = MIRBuilder.buildFMul(
207628bb43bdSJay Foad Ty, Op0, Op1, MachineInstr::copyFlagsFromInstruction(CI));
207728bb43bdSJay Foad MIRBuilder.buildFAdd(Dst, FMul, Op2,
2078f0d81a31SMichael Berg MachineInstr::copyFlagsFromInstruction(CI));
207992837638SVolkan Keles }
208092837638SVolkan Keles return true;
208192837638SVolkan Keles }
208297b5fb78SMatt Arsenault case Intrinsic::convert_from_fp16:
208397b5fb78SMatt Arsenault // FIXME: This intrinsic should probably be removed from the IR.
208497b5fb78SMatt Arsenault MIRBuilder.buildFPExt(getOrCreateVReg(CI),
208597b5fb78SMatt Arsenault getOrCreateVReg(*CI.getArgOperand(0)),
208697b5fb78SMatt Arsenault MachineInstr::copyFlagsFromInstruction(CI));
208797b5fb78SMatt Arsenault return true;
208897b5fb78SMatt Arsenault case Intrinsic::convert_to_fp16:
208997b5fb78SMatt Arsenault // FIXME: This intrinsic should probably be removed from the IR.
209097b5fb78SMatt Arsenault MIRBuilder.buildFPTrunc(getOrCreateVReg(CI),
209197b5fb78SMatt Arsenault getOrCreateVReg(*CI.getArgOperand(0)),
209297b5fb78SMatt Arsenault MachineInstr::copyFlagsFromInstruction(CI));
209397b5fb78SMatt Arsenault return true;
2094a6428724SJon Roelofs case Intrinsic::memcpy_inline:
2095a6428724SJon Roelofs return translateMemFunc(CI, MIRBuilder, TargetOpcode::G_MEMCPY_INLINE);
20963f18603cSTim Northover case Intrinsic::memcpy:
20970b7f6cc7SMatt Arsenault return translateMemFunc(CI, MIRBuilder, TargetOpcode::G_MEMCPY);
209879f43f19STim Northover case Intrinsic::memmove:
20990b7f6cc7SMatt Arsenault return translateMemFunc(CI, MIRBuilder, TargetOpcode::G_MEMMOVE);
210079f43f19STim Northover case Intrinsic::memset:
21010b7f6cc7SMatt Arsenault return translateMemFunc(CI, MIRBuilder, TargetOpcode::G_MEMSET);
2102a9105be4STim Northover case Intrinsic::eh_typeid_for: {
2103a9105be4STim Northover GlobalValue *GV = ExtractTypeInfo(CI.getArgOperand(0));
2104faeaedf8SMatt Arsenault Register Reg = getOrCreateVReg(CI);
210550db7f41STim Northover unsigned TypeID = MF->getTypeIDFor(GV);
2106a9105be4STim Northover MIRBuilder.buildConstant(Reg, TypeID);
2107a9105be4STim Northover return true;
2108a9105be4STim Northover }
21099681ea95SJoerg Sonnenberger case Intrinsic::objectsize:
21109681ea95SJoerg Sonnenberger llvm_unreachable("llvm.objectsize.* should have been lowered already");
21116e904300STim Northover
211272f76bf2SJames Y Knight case Intrinsic::is_constant:
21139681ea95SJoerg Sonnenberger llvm_unreachable("llvm.is.constant.* should have been lowered already");
21149681ea95SJoerg Sonnenberger
2115cdf23f1dSTim Northover case Intrinsic::stackguard:
21164ae254e4SKai Nacke getStackGuard(getOrCreateVReg(CI), MIRBuilder);
2117cdf23f1dSTim Northover return true;
2118cdf23f1dSTim Northover case Intrinsic::stackprotector: {
211942f7364fSKai Nacke const TargetLowering &TLI = *MF->getSubtarget().getTargetLowering();
212052b4ce72SDaniel Sanders LLT PtrTy = getLLTForType(*CI.getArgOperand(0)->getType(), *DL);
21214ae254e4SKai Nacke Register GuardVal;
21224ae254e4SKai Nacke if (TLI.useLoadStackGuardNode()) {
21234ae254e4SKai Nacke GuardVal = MRI->createGenericVirtualRegister(PtrTy);
21244ae254e4SKai Nacke getStackGuard(GuardVal, MIRBuilder);
21254ae254e4SKai Nacke } else
21264ae254e4SKai Nacke GuardVal = getOrCreateVReg(*CI.getArgOperand(0)); // The guard's value.
2127cdf23f1dSTim Northover
2128cdf23f1dSTim Northover AllocaInst *Slot = cast<AllocaInst>(CI.getArgOperand(1));
212984e89ff0SPetr Pavlu int FI = getOrCreateFrameIndex(*Slot);
213084e89ff0SPetr Pavlu MF->getFrameInfo().setStackProtectorIndex(FI);
213184e89ff0SPetr Pavlu
2132cdf23f1dSTim Northover MIRBuilder.buildStore(
2133cdf23f1dSTim Northover GuardVal, getOrCreateVReg(*Slot),
213484e89ff0SPetr Pavlu *MF->getMachineMemOperand(MachinePointerInfo::getFixedStack(*MF, FI),
213584e89ff0SPetr Pavlu MachineMemOperand::MOStore |
213684e89ff0SPetr Pavlu MachineMemOperand::MOVolatile,
2137990278d0SMatt Arsenault PtrTy, Align(8)));
2138cdf23f1dSTim Northover return true;
2139cdf23f1dSTim Northover }
2140ed233523SJessica Paquette case Intrinsic::stacksave: {
2141ed233523SJessica Paquette // Save the stack pointer to the location provided by the intrinsic.
2142faeaedf8SMatt Arsenault Register Reg = getOrCreateVReg(CI);
2143faeaedf8SMatt Arsenault Register StackPtr = MF->getSubtarget()
2144ed233523SJessica Paquette .getTargetLowering()
2145ed233523SJessica Paquette ->getStackPointerRegisterToSaveRestore();
2146ed233523SJessica Paquette
2147ed233523SJessica Paquette // If the target doesn't specify a stack pointer, then fall back.
2148ed233523SJessica Paquette if (!StackPtr)
2149ed233523SJessica Paquette return false;
2150ed233523SJessica Paquette
2151ed233523SJessica Paquette MIRBuilder.buildCopy(Reg, StackPtr);
2152ed233523SJessica Paquette return true;
2153ed233523SJessica Paquette }
2154ed233523SJessica Paquette case Intrinsic::stackrestore: {
2155ed233523SJessica Paquette // Restore the stack pointer from the location provided by the intrinsic.
2156faeaedf8SMatt Arsenault Register Reg = getOrCreateVReg(*CI.getArgOperand(0));
2157faeaedf8SMatt Arsenault Register StackPtr = MF->getSubtarget()
2158ed233523SJessica Paquette .getTargetLowering()
2159ed233523SJessica Paquette ->getStackPointerRegisterToSaveRestore();
2160ed233523SJessica Paquette
2161ed233523SJessica Paquette // If the target doesn't specify a stack pointer, then fall back.
2162ed233523SJessica Paquette if (!StackPtr)
2163ed233523SJessica Paquette return false;
2164ed233523SJessica Paquette
2165ed233523SJessica Paquette MIRBuilder.buildCopy(StackPtr, Reg);
2166ed233523SJessica Paquette return true;
2167ed233523SJessica Paquette }
2168e07b3b73SAditya Nandakumar case Intrinsic::cttz:
2169e07b3b73SAditya Nandakumar case Intrinsic::ctlz: {
2170e07b3b73SAditya Nandakumar ConstantInt *Cst = cast<ConstantInt>(CI.getArgOperand(1));
2171e07b3b73SAditya Nandakumar bool isTrailing = ID == Intrinsic::cttz;
2172e07b3b73SAditya Nandakumar unsigned Opcode = isTrailing
2173e07b3b73SAditya Nandakumar ? Cst->isZero() ? TargetOpcode::G_CTTZ
2174e07b3b73SAditya Nandakumar : TargetOpcode::G_CTTZ_ZERO_UNDEF
2175e07b3b73SAditya Nandakumar : Cst->isZero() ? TargetOpcode::G_CTLZ
2176e07b3b73SAditya Nandakumar : TargetOpcode::G_CTLZ_ZERO_UNDEF;
217728bb43bdSJay Foad MIRBuilder.buildInstr(Opcode, {getOrCreateVReg(CI)},
217828bb43bdSJay Foad {getOrCreateVReg(*CI.getArgOperand(0))});
2179e07b3b73SAditya Nandakumar return true;
2180e07b3b73SAditya Nandakumar }
2181b328d953SJessica Paquette case Intrinsic::invariant_start: {
2182b328d953SJessica Paquette LLT PtrTy = getLLTForType(*CI.getArgOperand(0)->getType(), *DL);
2183faeaedf8SMatt Arsenault Register Undef = MRI->createGenericVirtualRegister(PtrTy);
2184b328d953SJessica Paquette MIRBuilder.buildUndef(Undef);
2185b328d953SJessica Paquette return true;
2186b328d953SJessica Paquette }
2187b328d953SJessica Paquette case Intrinsic::invariant_end:
2188b328d953SJessica Paquette return true;
218966c572afSMatt Arsenault case Intrinsic::expect:
219066c572afSMatt Arsenault case Intrinsic::annotation:
219166c572afSMatt Arsenault case Intrinsic::ptr_annotation:
219266c572afSMatt Arsenault case Intrinsic::launder_invariant_group:
219366c572afSMatt Arsenault case Intrinsic::strip_invariant_group: {
219466c572afSMatt Arsenault // Drop the intrinsic, but forward the value.
219566c572afSMatt Arsenault MIRBuilder.buildCopy(getOrCreateVReg(CI),
219666c572afSMatt Arsenault getOrCreateVReg(*CI.getArgOperand(0)));
219766c572afSMatt Arsenault return true;
219866c572afSMatt Arsenault }
219997204a67SVolkan Keles case Intrinsic::assume:
2200cbed865eSAmara Emerson case Intrinsic::experimental_noalias_scope_decl:
220197204a67SVolkan Keles case Intrinsic::var_annotation:
220297204a67SVolkan Keles case Intrinsic::sideeffect:
220397204a67SVolkan Keles // Discard annotate attributes, assumptions, and artificial side-effects.
220497204a67SVolkan Keles return true;
22055165b2b5STim Northover case Intrinsic::read_volatile_register:
22060ea3c729SMatt Arsenault case Intrinsic::read_register: {
22070ea3c729SMatt Arsenault Value *Arg = CI.getArgOperand(0);
220828bb43bdSJay Foad MIRBuilder
220928bb43bdSJay Foad .buildInstr(TargetOpcode::G_READ_REGISTER, {getOrCreateVReg(CI)}, {})
22100ea3c729SMatt Arsenault .addMetadata(cast<MDNode>(cast<MetadataAsValue>(Arg)->getMetadata()));
22110ea3c729SMatt Arsenault return true;
22120ea3c729SMatt Arsenault }
2213c5c1bb33SMatt Arsenault case Intrinsic::write_register: {
2214c5c1bb33SMatt Arsenault Value *Arg = CI.getArgOperand(0);
2215c5c1bb33SMatt Arsenault MIRBuilder.buildInstr(TargetOpcode::G_WRITE_REGISTER)
2216c5c1bb33SMatt Arsenault .addMetadata(cast<MDNode>(cast<MetadataAsValue>(Arg)->getMetadata()))
2217c5c1bb33SMatt Arsenault .addUse(getOrCreateVReg(*CI.getArgOperand(1)));
2218c5c1bb33SMatt Arsenault return true;
2219c5c1bb33SMatt Arsenault }
22203e16e215SMatt Arsenault case Intrinsic::localescape: {
22213e16e215SMatt Arsenault MachineBasicBlock &EntryMBB = MF->front();
22223e16e215SMatt Arsenault StringRef EscapedName = GlobalValue::dropLLVMManglingEscape(MF->getName());
22233e16e215SMatt Arsenault
22243e16e215SMatt Arsenault // Directly emit some LOCAL_ESCAPE machine instrs. Label assignment emission
22253e16e215SMatt Arsenault // is the same on all targets.
2226d34cd75dSKazu Hirata for (unsigned Idx = 0, E = CI.arg_size(); Idx < E; ++Idx) {
22273e16e215SMatt Arsenault Value *Arg = CI.getArgOperand(Idx)->stripPointerCasts();
22283e16e215SMatt Arsenault if (isa<ConstantPointerNull>(Arg))
22293e16e215SMatt Arsenault continue; // Skip null pointers. They represent a hole in index space.
22303e16e215SMatt Arsenault
22313e16e215SMatt Arsenault int FI = getOrCreateFrameIndex(*cast<AllocaInst>(Arg));
22323e16e215SMatt Arsenault MCSymbol *FrameAllocSym =
22333e16e215SMatt Arsenault MF->getMMI().getContext().getOrCreateFrameAllocSymbol(EscapedName,
22343e16e215SMatt Arsenault Idx);
22353e16e215SMatt Arsenault
22363e16e215SMatt Arsenault // This should be inserted at the start of the entry block.
22373e16e215SMatt Arsenault auto LocalEscape =
22383e16e215SMatt Arsenault MIRBuilder.buildInstrNoInsert(TargetOpcode::LOCAL_ESCAPE)
22393e16e215SMatt Arsenault .addSym(FrameAllocSym)
22403e16e215SMatt Arsenault .addFrameIndex(FI);
22413e16e215SMatt Arsenault
22423e16e215SMatt Arsenault EntryMBB.insert(EntryMBB.begin(), LocalEscape);
22433e16e215SMatt Arsenault }
22443e16e215SMatt Arsenault
22453e16e215SMatt Arsenault return true;
22463e16e215SMatt Arsenault }
22476042c25bSAmara Emerson case Intrinsic::vector_reduce_fadd:
22486042c25bSAmara Emerson case Intrinsic::vector_reduce_fmul: {
22496042c25bSAmara Emerson // Need to check for the reassoc flag to decide whether we want a
22506042c25bSAmara Emerson // sequential reduction opcode or not.
22516042c25bSAmara Emerson Register Dst = getOrCreateVReg(CI);
22526042c25bSAmara Emerson Register ScalarSrc = getOrCreateVReg(*CI.getArgOperand(0));
22536042c25bSAmara Emerson Register VecSrc = getOrCreateVReg(*CI.getArgOperand(1));
22546042c25bSAmara Emerson unsigned Opc = 0;
22556042c25bSAmara Emerson if (!CI.hasAllowReassoc()) {
22566042c25bSAmara Emerson // The sequential ordering case.
22576042c25bSAmara Emerson Opc = ID == Intrinsic::vector_reduce_fadd
22586042c25bSAmara Emerson ? TargetOpcode::G_VECREDUCE_SEQ_FADD
22596042c25bSAmara Emerson : TargetOpcode::G_VECREDUCE_SEQ_FMUL;
22606042c25bSAmara Emerson MIRBuilder.buildInstr(Opc, {Dst}, {ScalarSrc, VecSrc},
22616042c25bSAmara Emerson MachineInstr::copyFlagsFromInstruction(CI));
22626042c25bSAmara Emerson return true;
22636042c25bSAmara Emerson }
22646042c25bSAmara Emerson // We split the operation into a separate G_FADD/G_FMUL + the reduce,
22656042c25bSAmara Emerson // since the associativity doesn't matter.
22666042c25bSAmara Emerson unsigned ScalarOpc;
22676042c25bSAmara Emerson if (ID == Intrinsic::vector_reduce_fadd) {
22686042c25bSAmara Emerson Opc = TargetOpcode::G_VECREDUCE_FADD;
22696042c25bSAmara Emerson ScalarOpc = TargetOpcode::G_FADD;
22706042c25bSAmara Emerson } else {
22716042c25bSAmara Emerson Opc = TargetOpcode::G_VECREDUCE_FMUL;
22726042c25bSAmara Emerson ScalarOpc = TargetOpcode::G_FMUL;
22736042c25bSAmara Emerson }
22746042c25bSAmara Emerson LLT DstTy = MRI->getType(Dst);
22756042c25bSAmara Emerson auto Rdx = MIRBuilder.buildInstr(
22766042c25bSAmara Emerson Opc, {DstTy}, {VecSrc}, MachineInstr::copyFlagsFromInstruction(CI));
22776042c25bSAmara Emerson MIRBuilder.buildInstr(ScalarOpc, {Dst}, {ScalarSrc, Rdx},
22786042c25bSAmara Emerson MachineInstr::copyFlagsFromInstruction(CI));
22796042c25bSAmara Emerson
22806042c25bSAmara Emerson return true;
22816042c25bSAmara Emerson }
2282f9d69a0aSAmara Emerson case Intrinsic::trap:
2283f9d69a0aSAmara Emerson case Intrinsic::debugtrap:
2284f9d69a0aSAmara Emerson case Intrinsic::ubsantrap: {
2285f9d69a0aSAmara Emerson StringRef TrapFuncName =
2286f9d69a0aSAmara Emerson CI.getAttributes().getFnAttr("trap-func-name").getValueAsString();
2287f9d69a0aSAmara Emerson if (TrapFuncName.empty())
2288f9d69a0aSAmara Emerson break; // Use the default handling.
2289f9d69a0aSAmara Emerson CallLowering::CallLoweringInfo Info;
2290f9d69a0aSAmara Emerson if (ID == Intrinsic::ubsantrap) {
2291f9d69a0aSAmara Emerson Info.OrigArgs.push_back({getOrCreateVRegs(*CI.getArgOperand(0)),
2292f9d69a0aSAmara Emerson CI.getArgOperand(0)->getType(), 0});
2293f9d69a0aSAmara Emerson }
229472ce310bSAmara Emerson Info.Callee = MachineOperand::CreateES(TrapFuncName.data());
2295f9d69a0aSAmara Emerson Info.CB = &CI;
2296f9d69a0aSAmara Emerson Info.OrigRet = {Register(), Type::getVoidTy(CI.getContext()), 0};
2297f9d69a0aSAmara Emerson return CLI->lowerCall(MIRBuilder, Info);
2298f9d69a0aSAmara Emerson }
2299dcb2da13SJulien Pages case Intrinsic::fptrunc_round: {
2300dcb2da13SJulien Pages unsigned Flags = MachineInstr::copyFlagsFromInstruction(CI);
2301dcb2da13SJulien Pages
2302dcb2da13SJulien Pages // Convert the metadata argument to a constant integer
2303dcb2da13SJulien Pages Metadata *MD = cast<MetadataAsValue>(CI.getArgOperand(1))->getMetadata();
2304dcb2da13SJulien Pages Optional<RoundingMode> RoundMode =
2305dcb2da13SJulien Pages convertStrToRoundingMode(cast<MDString>(MD)->getString());
2306dcb2da13SJulien Pages
2307dcb2da13SJulien Pages // Add the Rounding mode as an integer
2308dcb2da13SJulien Pages MIRBuilder
2309dcb2da13SJulien Pages .buildInstr(TargetOpcode::G_INTRINSIC_FPTRUNC_ROUND,
2310dcb2da13SJulien Pages {getOrCreateVReg(CI)},
2311dcb2da13SJulien Pages {getOrCreateVReg(*CI.getArgOperand(0))}, Flags)
23127a47ee51SKazu Hirata .addImm((int)*RoundMode);
2313dcb2da13SJulien Pages
2314dcb2da13SJulien Pages return true;
2315dcb2da13SJulien Pages }
2316ed5017e1SMatt Arsenault #define INSTRUCTION(NAME, NARG, ROUND_MODE, INTRINSIC) \
2317ed5017e1SMatt Arsenault case Intrinsic::INTRINSIC:
2318ed5017e1SMatt Arsenault #include "llvm/IR/ConstrainedOps.def"
2319ed5017e1SMatt Arsenault return translateConstrainedFPIntrinsic(cast<ConstrainedFPIntrinsic>(CI),
2320ed5017e1SMatt Arsenault MIRBuilder);
2321ed5017e1SMatt Arsenault
232291c81730STim Northover }
23231e656ec1STim Northover return false;
232491c81730STim Northover }
232591c81730STim Northover
translateInlineAsm(const CallBase & CB,MachineIRBuilder & MIRBuilder)232612030494SKonstantin Schwarz bool IRTranslator::translateInlineAsm(const CallBase &CB,
2327aa995c98STim Northover MachineIRBuilder &MIRBuilder) {
232828d22c2cSAmara Emerson
232912030494SKonstantin Schwarz const InlineAsmLowering *ALI = MF->getSubtarget().getInlineAsmLowering();
233012030494SKonstantin Schwarz
233112030494SKonstantin Schwarz if (!ALI) {
233212030494SKonstantin Schwarz LLVM_DEBUG(
233312030494SKonstantin Schwarz dbgs() << "Inline asm lowering is not supported for this target yet\n");
2334aa995c98STim Northover return false;
233528d22c2cSAmara Emerson }
2336aa995c98STim Northover
2337e82b0e9aSKonstantin Schwarz return ALI->lowerInlineAsm(
2338e82b0e9aSKonstantin Schwarz MIRBuilder, CB, [&](const Value &Val) { return getOrCreateVRegs(Val); });
2339aa995c98STim Northover }
2340aa995c98STim Northover
translateCallBase(const CallBase & CB,MachineIRBuilder & MIRBuilder)234168eb0864SCraig Topper bool IRTranslator::translateCallBase(const CallBase &CB,
23423c10f346STim Northover MachineIRBuilder &MIRBuilder) {
234368eb0864SCraig Topper ArrayRef<Register> Res = getOrCreateVRegs(CB);
23443c10f346STim Northover
23453c10f346STim Northover SmallVector<ArrayRef<Register>, 8> Args;
23463c10f346STim Northover Register SwiftInVReg = 0;
23473c10f346STim Northover Register SwiftErrorVReg = 0;
23489e6d1f4bSKazu Hirata for (const auto &Arg : CB.args()) {
23493c10f346STim Northover if (CLI->supportSwiftError() && isSwiftError(Arg)) {
23503c10f346STim Northover assert(SwiftInVReg == 0 && "Expected only one swift error argument");
23513c10f346STim Northover LLT Ty = getLLTForType(*Arg->getType(), *DL);
23523c10f346STim Northover SwiftInVReg = MRI->createGenericVirtualRegister(Ty);
23533c10f346STim Northover MIRBuilder.buildCopy(SwiftInVReg, SwiftError.getOrCreateVRegUseAt(
235468eb0864SCraig Topper &CB, &MIRBuilder.getMBB(), Arg));
23553c10f346STim Northover Args.emplace_back(makeArrayRef(SwiftInVReg));
23563c10f346STim Northover SwiftErrorVReg =
235768eb0864SCraig Topper SwiftError.getOrCreateVRegDefAt(&CB, &MIRBuilder.getMBB(), Arg);
23583c10f346STim Northover continue;
23593c10f346STim Northover }
23603c10f346STim Northover Args.push_back(getOrCreateVRegs(*Arg));
23613c10f346STim Northover }
23623c10f346STim Northover
2363095e91c9SJon Roelofs if (auto *CI = dyn_cast<CallInst>(&CB)) {
2364095e91c9SJon Roelofs if (ORE->enabled()) {
2365095e91c9SJon Roelofs const Function &F = *CI->getParent()->getParent();
2366095e91c9SJon Roelofs auto &TLI = getAnalysis<TargetLibraryInfoWrapperPass>().getTLI(F);
2367095e91c9SJon Roelofs if (MemoryOpRemark::canHandle(CI, TLI)) {
2368493d6928SJon Roelofs MemoryOpRemark R(*ORE, "gisel-irtranslator-memsize", *DL, TLI);
2369095e91c9SJon Roelofs R.visit(CI);
2370095e91c9SJon Roelofs }
2371095e91c9SJon Roelofs }
2372095e91c9SJon Roelofs }
2373095e91c9SJon Roelofs
23747ac10399SAmara Emerson // We don't set HasCalls on MFI here yet because call lowering may decide to
23757ac10399SAmara Emerson // optimize into tail calls. Instead, we defer that to selection where a final
23767ac10399SAmara Emerson // scan is done to check if any instructions are calls.
23773c10f346STim Northover bool Success =
237868eb0864SCraig Topper CLI->lowerCall(MIRBuilder, CB, Res, Args, SwiftErrorVReg,
2379a58b62b4SCraig Topper [&]() { return getOrCreateVReg(*CB.getCalledOperand()); });
23803c10f346STim Northover
2381469d42fcSJessica Paquette // Check if we just inserted a tail call.
2382469d42fcSJessica Paquette if (Success) {
2383469d42fcSJessica Paquette assert(!HasTailCall && "Can't tail call return twice from block?");
2384469d42fcSJessica Paquette const TargetInstrInfo *TII = MF->getSubtarget().getInstrInfo();
2385469d42fcSJessica Paquette HasTailCall = TII->isTailCall(*std::prev(MIRBuilder.getInsertPt()));
2386469d42fcSJessica Paquette }
2387469d42fcSJessica Paquette
23883c10f346STim Northover return Success;
23893c10f346STim Northover }
23903c10f346STim Northover
translateCall(const User & U,MachineIRBuilder & MIRBuilder)2391c53606efSTim Northover bool IRTranslator::translateCall(const User &U, MachineIRBuilder &MIRBuilder) {
2392357f1be2STim Northover const CallInst &CI = cast<CallInst>(U);
239350db7f41STim Northover auto TII = MF->getTarget().getIntrinsicInfo();
2394406024a1STim Northover const Function *F = CI.getCalledFunction();
23955fb414d8STim Northover
2396cc981d28SMartin Storsjo // FIXME: support Windows dllimport function calls.
23975a751e74SMartin Storsjö if (F && (F->hasDLLImportStorageClass() ||
23985a751e74SMartin Storsjö (MF->getTarget().getTargetTriple().isOSWindows() &&
23995a751e74SMartin Storsjö F->hasExternalWeakLinkage())))
2400cc981d28SMartin Storsjo return false;
2401cc981d28SMartin Storsjo
2402d157a9bcSAndrew Paverd // FIXME: support control flow guard targets.
2403d157a9bcSAndrew Paverd if (CI.countOperandBundlesOfType(LLVMContext::OB_cfguardtarget))
2404d157a9bcSAndrew Paverd return false;
2405d157a9bcSAndrew Paverd
24063babfef1STim Northover if (CI.isInlineAsm())
2407aa995c98STim Northover return translateInlineAsm(CI, MIRBuilder);
24083babfef1STim Northover
2409aa53785fSArthur Eubanks diagnoseDontCall(CI);
2410846e562dSNick Desaulniers
2411913918cbSAmara Emerson Intrinsic::ID ID = Intrinsic::not_intrinsic;
2412913918cbSAmara Emerson if (F && F->isIntrinsic()) {
2413913918cbSAmara Emerson ID = F->getIntrinsicID();
2414913918cbSAmara Emerson if (TII && ID == Intrinsic::not_intrinsic)
2415913918cbSAmara Emerson ID = static_cast<Intrinsic::ID>(TII->getIntrinsicID(F));
2416913918cbSAmara Emerson }
2417913918cbSAmara Emerson
24183c10f346STim Northover if (!F || !F->isIntrinsic() || ID == Intrinsic::not_intrinsic)
241968eb0864SCraig Topper return translateCallBase(CI, MIRBuilder);
2420406024a1STim Northover
2421406024a1STim Northover assert(ID != Intrinsic::not_intrinsic && "unknown intrinsic");
24225fb414d8STim Northover
2423c53606efSTim Northover if (translateKnownIntrinsic(CI, ID, MIRBuilder))
242491c81730STim Northover return true;
242591c81730STim Northover
2426e3a676e9SMatt Arsenault ArrayRef<Register> ResultRegs;
242713371692SMatt Arsenault if (!CI.getType()->isVoidTy())
242813371692SMatt Arsenault ResultRegs = getOrCreateVRegs(CI);
242913371692SMatt Arsenault
24303e140066SMatt Arsenault // Ignore the callsite attributes. Backend code is most likely not expecting
24313e140066SMatt Arsenault // an intrinsic to sometimes have side effects and sometimes not.
24325fb414d8STim Northover MachineInstrBuilder MIB =
24333e140066SMatt Arsenault MIRBuilder.buildIntrinsic(ID, ResultRegs, !F->doesNotAccessMemory());
2434d573aa01SMichael Berg if (isa<FPMathOperator>(CI))
2435d573aa01SMichael Berg MIB->copyIRFlags(CI);
24365fb414d8STim Northover
24379e6d1f4bSKazu Hirata for (const auto &Arg : enumerate(CI.args())) {
24383ecab8e4SMatt Arsenault // If this is required to be an immediate, don't materialize it in a
24393ecab8e4SMatt Arsenault // register.
24403ecab8e4SMatt Arsenault if (CI.paramHasAttr(Arg.index(), Attribute::ImmArg)) {
24413ecab8e4SMatt Arsenault if (ConstantInt *CI = dyn_cast<ConstantInt>(Arg.value())) {
24423ecab8e4SMatt Arsenault // imm arguments are more convenient than cimm (and realistically
24433ecab8e4SMatt Arsenault // probably sufficient), so use them.
24443ecab8e4SMatt Arsenault assert(CI->getBitWidth() <= 64 &&
24453ecab8e4SMatt Arsenault "large intrinsic immediates not handled");
24463ecab8e4SMatt Arsenault MIB.addImm(CI->getSExtValue());
24473ecab8e4SMatt Arsenault } else {
24483ecab8e4SMatt Arsenault MIB.addFPImm(cast<ConstantFP>(Arg.value()));
24493ecab8e4SMatt Arsenault }
2450624e4d08SAleksandr Bezzubikov } else if (auto *MDVal = dyn_cast<MetadataAsValue>(Arg.value())) {
2451624e4d08SAleksandr Bezzubikov auto *MD = MDVal->getMetadata();
2452624e4d08SAleksandr Bezzubikov auto *MDN = dyn_cast<MDNode>(MD);
2453624e4d08SAleksandr Bezzubikov if (!MDN) {
2454624e4d08SAleksandr Bezzubikov if (auto *ConstMD = dyn_cast<ConstantAsMetadata>(MD))
2455624e4d08SAleksandr Bezzubikov MDN = MDNode::get(MF->getFunction().getContext(), ConstMD);
2456624e4d08SAleksandr Bezzubikov else // This was probably an MDString.
24575f802be4SMatt Arsenault return false;
2458624e4d08SAleksandr Bezzubikov }
24595f802be4SMatt Arsenault MIB.addMetadata(MDN);
24603ecab8e4SMatt Arsenault } else {
24613ecab8e4SMatt Arsenault ArrayRef<Register> VRegs = getOrCreateVRegs(*Arg.value());
246274a50a72SDiana Picus if (VRegs.size() > 1)
246374a50a72SDiana Picus return false;
246474a50a72SDiana Picus MIB.addUse(VRegs[0]);
24655fb414d8STim Northover }
24663ecab8e4SMatt Arsenault }
2467ebe6bb90SVolkan Keles
2468ebe6bb90SVolkan Keles // Add a MachineMemOperand if it is a target mem intrinsic.
2469ebe6bb90SVolkan Keles const TargetLowering &TLI = *MF->getSubtarget().getTargetLowering();
2470ebe6bb90SVolkan Keles TargetLowering::IntrinsicInfo Info;
2471ebe6bb90SVolkan Keles // TODO: Add a GlobalISel version of getTgtMemIntrinsic.
24727d7adf4fSMatt Arsenault if (TLI.getTgtMemIntrinsic(Info, CI, *MF, ID)) {
2473129b531cSKazu Hirata Align Alignment = Info.align.value_or(
2474bdf77209SGuillaume Chatelet DL->getABITypeAlign(Info.memVT.getTypeForEVT(F->getContext())));
2475990278d0SMatt Arsenault LLT MemTy = Info.memVT.isSimple()
2476990278d0SMatt Arsenault ? getLLTForMVT(Info.memVT.getSimpleVT())
2477990278d0SMatt Arsenault : LLT::scalar(Info.memVT.getStoreSizeInBits());
2478bdf77209SGuillaume Chatelet MIB.addMemOperand(MF->getMachineMemOperand(MachinePointerInfo(Info.ptrVal),
2479990278d0SMatt Arsenault Info.flags, MemTy, Alignment));
2480ebe6bb90SVolkan Keles }
2481ebe6bb90SVolkan Keles
24825fb414d8STim Northover return true;
24835fb414d8STim Northover }
24845fb414d8STim Northover
findUnwindDestinations(const BasicBlock * EHPadBB,BranchProbability Prob,SmallVectorImpl<std::pair<MachineBasicBlock *,BranchProbability>> & UnwindDests)2485a69b76c5SAmara Emerson bool IRTranslator::findUnwindDestinations(
2486a69b76c5SAmara Emerson const BasicBlock *EHPadBB,
2487a69b76c5SAmara Emerson BranchProbability Prob,
2488a69b76c5SAmara Emerson SmallVectorImpl<std::pair<MachineBasicBlock *, BranchProbability>>
2489a69b76c5SAmara Emerson &UnwindDests) {
2490a69b76c5SAmara Emerson EHPersonality Personality = classifyEHPersonality(
2491a69b76c5SAmara Emerson EHPadBB->getParent()->getFunction().getPersonalityFn());
2492a69b76c5SAmara Emerson bool IsMSVCCXX = Personality == EHPersonality::MSVC_CXX;
2493a69b76c5SAmara Emerson bool IsCoreCLR = Personality == EHPersonality::CoreCLR;
2494a69b76c5SAmara Emerson bool IsWasmCXX = Personality == EHPersonality::Wasm_CXX;
2495a69b76c5SAmara Emerson bool IsSEH = isAsynchronousEHPersonality(Personality);
2496a69b76c5SAmara Emerson
2497a69b76c5SAmara Emerson if (IsWasmCXX) {
2498a69b76c5SAmara Emerson // Ignore this for now.
2499a69b76c5SAmara Emerson return false;
2500a69b76c5SAmara Emerson }
2501a69b76c5SAmara Emerson
2502a69b76c5SAmara Emerson while (EHPadBB) {
2503a69b76c5SAmara Emerson const Instruction *Pad = EHPadBB->getFirstNonPHI();
2504a69b76c5SAmara Emerson BasicBlock *NewEHPadBB = nullptr;
2505a69b76c5SAmara Emerson if (isa<LandingPadInst>(Pad)) {
2506a69b76c5SAmara Emerson // Stop on landingpads. They are not funclets.
2507a69b76c5SAmara Emerson UnwindDests.emplace_back(&getMBB(*EHPadBB), Prob);
2508a69b76c5SAmara Emerson break;
2509a69b76c5SAmara Emerson }
2510a69b76c5SAmara Emerson if (isa<CleanupPadInst>(Pad)) {
2511a69b76c5SAmara Emerson // Stop on cleanup pads. Cleanups are always funclet entries for all known
2512a69b76c5SAmara Emerson // personalities.
2513a69b76c5SAmara Emerson UnwindDests.emplace_back(&getMBB(*EHPadBB), Prob);
2514a69b76c5SAmara Emerson UnwindDests.back().first->setIsEHScopeEntry();
2515a69b76c5SAmara Emerson UnwindDests.back().first->setIsEHFuncletEntry();
2516a69b76c5SAmara Emerson break;
2517a69b76c5SAmara Emerson }
2518a69b76c5SAmara Emerson if (auto *CatchSwitch = dyn_cast<CatchSwitchInst>(Pad)) {
2519a69b76c5SAmara Emerson // Add the catchpad handlers to the possible destinations.
2520a69b76c5SAmara Emerson for (const BasicBlock *CatchPadBB : CatchSwitch->handlers()) {
2521a69b76c5SAmara Emerson UnwindDests.emplace_back(&getMBB(*CatchPadBB), Prob);
2522a69b76c5SAmara Emerson // For MSVC++ and the CLR, catchblocks are funclets and need prologues.
2523a69b76c5SAmara Emerson if (IsMSVCCXX || IsCoreCLR)
2524a69b76c5SAmara Emerson UnwindDests.back().first->setIsEHFuncletEntry();
2525a69b76c5SAmara Emerson if (!IsSEH)
2526a69b76c5SAmara Emerson UnwindDests.back().first->setIsEHScopeEntry();
2527a69b76c5SAmara Emerson }
2528a69b76c5SAmara Emerson NewEHPadBB = CatchSwitch->getUnwindDest();
2529a69b76c5SAmara Emerson } else {
2530a69b76c5SAmara Emerson continue;
2531a69b76c5SAmara Emerson }
2532a69b76c5SAmara Emerson
2533a69b76c5SAmara Emerson BranchProbabilityInfo *BPI = FuncInfo.BPI;
2534a69b76c5SAmara Emerson if (BPI && NewEHPadBB)
2535a69b76c5SAmara Emerson Prob *= BPI->getEdgeProbability(EHPadBB, NewEHPadBB);
2536a69b76c5SAmara Emerson EHPadBB = NewEHPadBB;
2537a69b76c5SAmara Emerson }
2538a69b76c5SAmara Emerson return true;
2539a69b76c5SAmara Emerson }
2540a69b76c5SAmara Emerson
translateInvoke(const User & U,MachineIRBuilder & MIRBuilder)2541c53606efSTim Northover bool IRTranslator::translateInvoke(const User &U,
2542c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
2543a9105be4STim Northover const InvokeInst &I = cast<InvokeInst>(U);
254450db7f41STim Northover MCContext &Context = MF->getContext();
2545a9105be4STim Northover
2546a9105be4STim Northover const BasicBlock *ReturnBB = I.getSuccessor(0);
2547a9105be4STim Northover const BasicBlock *EHPadBB = I.getSuccessor(1);
2548a9105be4STim Northover
2549a58b62b4SCraig Topper const Function *Fn = I.getCalledFunction();
2550a9105be4STim Northover
2551a9105be4STim Northover // FIXME: support invoking patchpoint and statepoint intrinsics.
2552a9105be4STim Northover if (Fn && Fn->isIntrinsic())
2553a9105be4STim Northover return false;
2554a9105be4STim Northover
2555a9105be4STim Northover // FIXME: support whatever these are.
2556a9105be4STim Northover if (I.countOperandBundlesOfType(LLVMContext::OB_deopt))
2557a9105be4STim Northover return false;
2558a9105be4STim Northover
2559d157a9bcSAndrew Paverd // FIXME: support control flow guard targets.
2560d157a9bcSAndrew Paverd if (I.countOperandBundlesOfType(LLVMContext::OB_cfguardtarget))
2561d157a9bcSAndrew Paverd return false;
2562d157a9bcSAndrew Paverd
2563a9105be4STim Northover // FIXME: support Windows exception handling.
25647497b861SKonstantin Schwarz if (!isa<LandingPadInst>(EHPadBB->getFirstNonPHI()))
2565a9105be4STim Northover return false;
2566a9105be4STim Northover
25673eabcda8SJessica Paquette bool LowerInlineAsm = I.isInlineAsm();
25683eabcda8SJessica Paquette bool NeedEHLabel = true;
25693eabcda8SJessica Paquette // If it can't throw then use a fast-path without emitting EH labels.
25703eabcda8SJessica Paquette if (LowerInlineAsm)
25713eabcda8SJessica Paquette NeedEHLabel = (cast<InlineAsm>(I.getCalledOperand()))->canThrow();
25728ec9fd48Scynecx
2573d0ee66c2SMatthias Braun // Emit the actual call, bracketed by EH_LABELs so that the MF knows about
2574a9105be4STim Northover // the region covered by the try.
25753eabcda8SJessica Paquette MCSymbol *BeginSymbol = nullptr;
25763eabcda8SJessica Paquette if (NeedEHLabel) {
25773eabcda8SJessica Paquette BeginSymbol = Context.createTempSymbol();
2578a9105be4STim Northover MIRBuilder.buildInstr(TargetOpcode::EH_LABEL).addSym(BeginSymbol);
25793eabcda8SJessica Paquette }
2580a9105be4STim Northover
25818ec9fd48Scynecx if (LowerInlineAsm) {
25828ec9fd48Scynecx if (!translateInlineAsm(I, MIRBuilder))
25838ec9fd48Scynecx return false;
25848ec9fd48Scynecx } else if (!translateCallBase(I, MIRBuilder))
25854ec6d5abSAhmed Bougacha return false;
2586a9105be4STim Northover
25873eabcda8SJessica Paquette MCSymbol *EndSymbol = nullptr;
25883eabcda8SJessica Paquette if (NeedEHLabel) {
25893eabcda8SJessica Paquette EndSymbol = Context.createTempSymbol();
2590a9105be4STim Northover MIRBuilder.buildInstr(TargetOpcode::EH_LABEL).addSym(EndSymbol);
25913eabcda8SJessica Paquette }
2592a9105be4STim Northover
2593a69b76c5SAmara Emerson SmallVector<std::pair<MachineBasicBlock *, BranchProbability>, 1> UnwindDests;
2594a69b76c5SAmara Emerson BranchProbabilityInfo *BPI = FuncInfo.BPI;
2595a69b76c5SAmara Emerson MachineBasicBlock *InvokeMBB = &MIRBuilder.getMBB();
2596a69b76c5SAmara Emerson BranchProbability EHPadBBProb =
2597a69b76c5SAmara Emerson BPI ? BPI->getEdgeProbability(InvokeMBB->getBasicBlock(), EHPadBB)
2598a69b76c5SAmara Emerson : BranchProbability::getZero();
2599a69b76c5SAmara Emerson
2600a69b76c5SAmara Emerson if (!findUnwindDestinations(EHPadBB, EHPadBBProb, UnwindDests))
2601a69b76c5SAmara Emerson return false;
2602a69b76c5SAmara Emerson
2603a61c214fSAhmed Bougacha MachineBasicBlock &EHPadMBB = getMBB(*EHPadBB),
2604a61c214fSAhmed Bougacha &ReturnMBB = getMBB(*ReturnBB);
2605a69b76c5SAmara Emerson // Update successor info.
2606a69b76c5SAmara Emerson addSuccessorWithProb(InvokeMBB, &ReturnMBB);
2607a69b76c5SAmara Emerson for (auto &UnwindDest : UnwindDests) {
2608a69b76c5SAmara Emerson UnwindDest.first->setIsEHPad();
2609a69b76c5SAmara Emerson addSuccessorWithProb(InvokeMBB, UnwindDest.first, UnwindDest.second);
2610a69b76c5SAmara Emerson }
2611a69b76c5SAmara Emerson InvokeMBB->normalizeSuccProbs();
2612a9105be4STim Northover
26133eabcda8SJessica Paquette if (NeedEHLabel) {
26143eabcda8SJessica Paquette assert(BeginSymbol && "Expected a begin symbol!");
26153eabcda8SJessica Paquette assert(EndSymbol && "Expected an end symbol!");
2616a69b76c5SAmara Emerson MF->addInvoke(&EHPadMBB, BeginSymbol, EndSymbol);
26173eabcda8SJessica Paquette }
26183eabcda8SJessica Paquette
2619a69b76c5SAmara Emerson MIRBuilder.buildBr(ReturnMBB);
2620a9105be4STim Northover return true;
2621a9105be4STim Northover }
2622a9105be4STim Northover
translateCallBr(const User & U,MachineIRBuilder & MIRBuilder)2623784929d0SCraig Topper bool IRTranslator::translateCallBr(const User &U,
2624784929d0SCraig Topper MachineIRBuilder &MIRBuilder) {
2625784929d0SCraig Topper // FIXME: Implement this.
2626784929d0SCraig Topper return false;
2627784929d0SCraig Topper }
2628784929d0SCraig Topper
translateLandingPad(const User & U,MachineIRBuilder & MIRBuilder)2629c53606efSTim Northover bool IRTranslator::translateLandingPad(const User &U,
2630c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
2631a9105be4STim Northover const LandingPadInst &LP = cast<LandingPadInst>(U);
2632a9105be4STim Northover
2633a9105be4STim Northover MachineBasicBlock &MBB = MIRBuilder.getMBB();
2634a9105be4STim Northover
2635a9105be4STim Northover MBB.setIsEHPad();
2636a9105be4STim Northover
2637a9105be4STim Northover // If there aren't registers to copy the values into (e.g., during SjLj
2638a9105be4STim Northover // exceptions), then don't bother.
263950db7f41STim Northover auto &TLI = *MF->getSubtarget().getTargetLowering();
2640f1caa283SMatthias Braun const Constant *PersonalityFn = MF->getFunction().getPersonalityFn();
2641a9105be4STim Northover if (TLI.getExceptionPointerRegister(PersonalityFn) == 0 &&
2642a9105be4STim Northover TLI.getExceptionSelectorRegister(PersonalityFn) == 0)
2643a9105be4STim Northover return true;
2644a9105be4STim Northover
2645a9105be4STim Northover // If landingpad's return type is token type, we don't create DAG nodes
2646a9105be4STim Northover // for its exception pointer and selector value. The extraction of exception
2647a9105be4STim Northover // pointer or selector value from token type landingpads is not currently
2648a9105be4STim Northover // supported.
2649a9105be4STim Northover if (LP.getType()->isTokenTy())
2650a9105be4STim Northover return true;
2651a9105be4STim Northover
2652a9105be4STim Northover // Add a label to mark the beginning of the landing pad. Deletion of the
2653a9105be4STim Northover // landing pad can thus be detected via the MachineModuleInfo.
2654a9105be4STim Northover MIRBuilder.buildInstr(TargetOpcode::EH_LABEL)
265550db7f41STim Northover .addSym(MF->addLandingPad(&MBB));
2656a9105be4STim Northover
2657f13beac5SSander de Smalen // If the unwinder does not preserve all registers, ensure that the
2658f13beac5SSander de Smalen // function marks the clobbered registers as used.
2659f13beac5SSander de Smalen const TargetRegisterInfo &TRI = *MF->getSubtarget().getRegisterInfo();
2660f13beac5SSander de Smalen if (auto *RegMask = TRI.getCustomEHPadPreservedMask(*MF))
2661f13beac5SSander de Smalen MF->getRegInfo().addPhysRegsUsedFromRegMask(RegMask);
2662f13beac5SSander de Smalen
26631351db49SDaniel Sanders LLT Ty = getLLTForType(*LP.getType(), *DL);
2664faeaedf8SMatt Arsenault Register Undef = MRI->createGenericVirtualRegister(Ty);
2665542d1c14STim Northover MIRBuilder.buildUndef(Undef);
2666542d1c14STim Northover
2667a029531eSJustin Bogner SmallVector<LLT, 2> Tys;
2668a029531eSJustin Bogner for (Type *Ty : cast<StructType>(LP.getType())->elements())
266952b4ce72SDaniel Sanders Tys.push_back(getLLTForType(*Ty, *DL));
2670a029531eSJustin Bogner assert(Tys.size() == 2 && "Only two-valued landingpads are supported");
2671a029531eSJustin Bogner
2672a9105be4STim Northover // Mark exception register as live in.
2673faeaedf8SMatt Arsenault Register ExceptionReg = TLI.getExceptionPointerRegister(PersonalityFn);
2674542d1c14STim Northover if (!ExceptionReg)
2675542d1c14STim Northover return false;
2676a9105be4STim Northover
2677542d1c14STim Northover MBB.addLiveIn(ExceptionReg);
2678e3a676e9SMatt Arsenault ArrayRef<Register> ResRegs = getOrCreateVRegs(LP);
26790d6a26dfSAmara Emerson MIRBuilder.buildCopy(ResRegs[0], ExceptionReg);
2680542d1c14STim Northover
2681faeaedf8SMatt Arsenault Register SelectorReg = TLI.getExceptionSelectorRegister(PersonalityFn);
2682542d1c14STim Northover if (!SelectorReg)
2683542d1c14STim Northover return false;
2684542d1c14STim Northover
2685542d1c14STim Northover MBB.addLiveIn(SelectorReg);
2686faeaedf8SMatt Arsenault Register PtrVReg = MRI->createGenericVirtualRegister(Tys[0]);
2687542d1c14STim Northover MIRBuilder.buildCopy(PtrVReg, SelectorReg);
26880d6a26dfSAmara Emerson MIRBuilder.buildCast(ResRegs[1], PtrVReg);
2689c9449704STim Northover
2690a9105be4STim Northover return true;
2691a9105be4STim Northover }
2692a9105be4STim Northover
translateAlloca(const User & U,MachineIRBuilder & MIRBuilder)2693c3e3f59dSTim Northover bool IRTranslator::translateAlloca(const User &U,
2694c53606efSTim Northover MachineIRBuilder &MIRBuilder) {
2695c3e3f59dSTim Northover auto &AI = cast<AllocaInst>(U);
26963bb32cc7SQuentin Colombet
2697fdd089aaSAmara Emerson if (AI.isSwiftError())
26983b2157aeSTim Northover return true;
2699fdd089aaSAmara Emerson
2700c3e3f59dSTim Northover if (AI.isStaticAlloca()) {
2701faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(AI);
2702cdf23f1dSTim Northover int FI = getOrCreateFrameIndex(AI);
27030f140c76STim Northover MIRBuilder.buildFrameIndex(Res, FI);
2704bd505460STim Northover return true;
2705bd505460STim Northover }
2706bd505460STim Northover
2707a63a5b99SMartin Storsjo // FIXME: support stack probing for Windows.
2708a63a5b99SMartin Storsjo if (MF->getTarget().getTargetTriple().isOSWindows())
2709a63a5b99SMartin Storsjo return false;
2710a63a5b99SMartin Storsjo
2711c3e3f59dSTim Northover // Now we're in the harder dynamic case.
2712faeaedf8SMatt Arsenault Register NumElts = getOrCreateVReg(*AI.getArraySize());
27132fb80307SAhmed Bougacha Type *IntPtrIRTy = DL->getIntPtrType(AI.getType());
27142fb80307SAhmed Bougacha LLT IntPtrTy = getLLTForType(*IntPtrIRTy, *DL);
2715c3e3f59dSTim Northover if (MRI->getType(NumElts) != IntPtrTy) {
2716faeaedf8SMatt Arsenault Register ExtElts = MRI->createGenericVirtualRegister(IntPtrTy);
2717c3e3f59dSTim Northover MIRBuilder.buildZExtOrTrunc(ExtElts, NumElts);
2718c3e3f59dSTim Northover NumElts = ExtElts;
2719c3e3f59dSTim Northover }
2720c3e3f59dSTim Northover
272196cae168SGuillaume Chatelet Type *Ty = AI.getAllocatedType();
272296cae168SGuillaume Chatelet
2723faeaedf8SMatt Arsenault Register AllocSize = MRI->createGenericVirtualRegister(IntPtrTy);
2724faeaedf8SMatt Arsenault Register TySize =
2725e20b91c2SAmara Emerson getOrCreateVReg(*ConstantInt::get(IntPtrIRTy, DL->getTypeAllocSize(Ty)));
2726c3e3f59dSTim Northover MIRBuilder.buildMul(AllocSize, NumElts, TySize);
2727c3e3f59dSTim Northover
2728c3e3f59dSTim Northover // Round the size of the allocation up to the stack alignment size
2729c3e3f59dSTim Northover // by add SA-1 to the size. This doesn't overflow because we're computing
2730c3e3f59dSTim Northover // an address inside an alloca.
2731ca11c480SGuillaume Chatelet Align StackAlign = MF->getSubtarget().getFrameLowering()->getStackAlign();
2732ca11c480SGuillaume Chatelet auto SAMinusOne = MIRBuilder.buildConstant(IntPtrTy, StackAlign.value() - 1);
2733e20b91c2SAmara Emerson auto AllocAdd = MIRBuilder.buildAdd(IntPtrTy, AllocSize, SAMinusOne,
2734e20b91c2SAmara Emerson MachineInstr::NoUWrap);
2735e20b91c2SAmara Emerson auto AlignCst =
2736ca11c480SGuillaume Chatelet MIRBuilder.buildConstant(IntPtrTy, ~(uint64_t)(StackAlign.value() - 1));
2737e20b91c2SAmara Emerson auto AlignedAlloc = MIRBuilder.buildAnd(IntPtrTy, AllocAdd, AlignCst);
2738c3e3f59dSTim Northover
27394f04db4bSEli Friedman Align Alignment = std::max(AI.getAlign(), DL->getPrefTypeAlign(Ty));
2740ca11c480SGuillaume Chatelet if (Alignment <= StackAlign)
2741ca11c480SGuillaume Chatelet Alignment = Align(1);
2742ca11c480SGuillaume Chatelet MIRBuilder.buildDynStackAlloc(getOrCreateVReg(AI), AlignedAlloc, Alignment);
2743c3e3f59dSTim Northover
2744ca11c480SGuillaume Chatelet MF->getFrameInfo().CreateVariableSizedObject(Alignment, &AI);
2745c3e3f59dSTim Northover assert(MF->getFrameInfo().hasVarSizedObjects());
2746c3e3f59dSTim Northover return true;
2747c3e3f59dSTim Northover }
2748c3e3f59dSTim Northover
translateVAArg(const User & U,MachineIRBuilder & MIRBuilder)27494a652227STim Northover bool IRTranslator::translateVAArg(const User &U, MachineIRBuilder &MIRBuilder) {
27504a652227STim Northover // FIXME: We may need more info about the type. Because of how LLT works,
27514a652227STim Northover // we're completely discarding the i64/double distinction here (amongst
27524a652227STim Northover // others). Fortunately the ABIs I know of where that matters don't use va_arg
27534a652227STim Northover // anyway but that's not guaranteed.
275428bb43bdSJay Foad MIRBuilder.buildInstr(TargetOpcode::G_VAARG, {getOrCreateVReg(U)},
275528bb43bdSJay Foad {getOrCreateVReg(*U.getOperand(0)),
2756d3085c25SGuillaume Chatelet DL->getABITypeAlign(U.getType()).value()});
27574a652227STim Northover return true;
27584a652227STim Northover }
27594a652227STim Northover
translateUnreachable(const User & U,MachineIRBuilder & MIRBuilder)276079d13bf2SAmara Emerson bool IRTranslator::translateUnreachable(const User &U, MachineIRBuilder &MIRBuilder) {
276179d13bf2SAmara Emerson if (!MF->getTarget().Options.TrapUnreachable)
276279d13bf2SAmara Emerson return true;
276379d13bf2SAmara Emerson
276479d13bf2SAmara Emerson auto &UI = cast<UnreachableInst>(U);
276579d13bf2SAmara Emerson // We may be able to ignore unreachable behind a noreturn call.
276679d13bf2SAmara Emerson if (MF->getTarget().Options.NoTrapAfterNoreturn) {
276779d13bf2SAmara Emerson const BasicBlock &BB = *UI.getParent();
276879d13bf2SAmara Emerson if (&UI != &BB.front()) {
276979d13bf2SAmara Emerson BasicBlock::const_iterator PredI =
277079d13bf2SAmara Emerson std::prev(BasicBlock::const_iterator(UI));
277179d13bf2SAmara Emerson if (const CallInst *Call = dyn_cast<CallInst>(&*PredI)) {
277279d13bf2SAmara Emerson if (Call->doesNotReturn())
277379d13bf2SAmara Emerson return true;
277479d13bf2SAmara Emerson }
277579d13bf2SAmara Emerson }
277679d13bf2SAmara Emerson }
277779d13bf2SAmara Emerson
277879d13bf2SAmara Emerson MIRBuilder.buildIntrinsic(Intrinsic::trap, ArrayRef<Register>(), true);
277979d13bf2SAmara Emerson return true;
278079d13bf2SAmara Emerson }
278179d13bf2SAmara Emerson
translateInsertElement(const User & U,MachineIRBuilder & MIRBuilder)278204cb08ccSVolkan Keles bool IRTranslator::translateInsertElement(const User &U,
278304cb08ccSVolkan Keles MachineIRBuilder &MIRBuilder) {
278404cb08ccSVolkan Keles // If it is a <1 x Ty> vector, use the scalar as it is
278504cb08ccSVolkan Keles // not a legal vector type in LLT.
2786ff5b9a7bSChristopher Tetreault if (cast<FixedVectorType>(U.getType())->getNumElements() == 1)
2787bd80a8bbSJay Foad return translateCopy(U, *U.getOperand(1), MIRBuilder);
27880d6a26dfSAmara Emerson
2789faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(U);
2790faeaedf8SMatt Arsenault Register Val = getOrCreateVReg(*U.getOperand(0));
2791faeaedf8SMatt Arsenault Register Elt = getOrCreateVReg(*U.getOperand(1));
2792faeaedf8SMatt Arsenault Register Idx = getOrCreateVReg(*U.getOperand(2));
27937a713503SKristof Beyls MIRBuilder.buildInsertVectorElement(Res, Val, Elt, Idx);
279404cb08ccSVolkan Keles return true;
279504cb08ccSVolkan Keles }
279604cb08ccSVolkan Keles
translateExtractElement(const User & U,MachineIRBuilder & MIRBuilder)279704cb08ccSVolkan Keles bool IRTranslator::translateExtractElement(const User &U,
279804cb08ccSVolkan Keles MachineIRBuilder &MIRBuilder) {
279904cb08ccSVolkan Keles // If it is a <1 x Ty> vector, use the scalar as it is
280004cb08ccSVolkan Keles // not a legal vector type in LLT.
2801ff5b9a7bSChristopher Tetreault if (cast<FixedVectorType>(U.getOperand(0)->getType())->getNumElements() == 1)
2802bd80a8bbSJay Foad return translateCopy(U, *U.getOperand(0), MIRBuilder);
2803bd80a8bbSJay Foad
2804faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(U);
2805faeaedf8SMatt Arsenault Register Val = getOrCreateVReg(*U.getOperand(0));
2806cbd86d84SAmara Emerson const auto &TLI = *MF->getSubtarget().getTargetLowering();
2807cbd86d84SAmara Emerson unsigned PreferredVecIdxWidth = TLI.getVectorIdxTy(*DL).getSizeInBits();
2808faeaedf8SMatt Arsenault Register Idx;
2809cbd86d84SAmara Emerson if (auto *CI = dyn_cast<ConstantInt>(U.getOperand(1))) {
2810cbd86d84SAmara Emerson if (CI->getBitWidth() != PreferredVecIdxWidth) {
2811cbd86d84SAmara Emerson APInt NewIdx = CI->getValue().sextOrTrunc(PreferredVecIdxWidth);
2812cbd86d84SAmara Emerson auto *NewIdxCI = ConstantInt::get(CI->getContext(), NewIdx);
2813cbd86d84SAmara Emerson Idx = getOrCreateVReg(*NewIdxCI);
2814cbd86d84SAmara Emerson }
2815cbd86d84SAmara Emerson }
2816cbd86d84SAmara Emerson if (!Idx)
2817cbd86d84SAmara Emerson Idx = getOrCreateVReg(*U.getOperand(1));
2818cbd86d84SAmara Emerson if (MRI->getType(Idx).getSizeInBits() != PreferredVecIdxWidth) {
2819de256478SMatt Arsenault const LLT VecIdxTy = LLT::scalar(PreferredVecIdxWidth);
2820b482e1bfSJay Foad Idx = MIRBuilder.buildSExtOrTrunc(VecIdxTy, Idx).getReg(0);
2821cbd86d84SAmara Emerson }
28227a713503SKristof Beyls MIRBuilder.buildExtractVectorElement(Res, Val, Idx);
282304cb08ccSVolkan Keles return true;
282404cb08ccSVolkan Keles }
282504cb08ccSVolkan Keles
translateShuffleVector(const User & U,MachineIRBuilder & MIRBuilder)282675bdc769SVolkan Keles bool IRTranslator::translateShuffleVector(const User &U,
282775bdc769SVolkan Keles MachineIRBuilder &MIRBuilder) {
28281ee6ec2bSEli Friedman ArrayRef<int> Mask;
28291ee6ec2bSEli Friedman if (auto *SVI = dyn_cast<ShuffleVectorInst>(&U))
28301ee6ec2bSEli Friedman Mask = SVI->getShuffleMask();
28311ee6ec2bSEli Friedman else
28321ee6ec2bSEli Friedman Mask = cast<ConstantExpr>(U).getShuffleMask();
2833e68e4cbcSEli Friedman ArrayRef<int> MaskAlloc = MF->allocateShuffleMask(Mask);
283428bb43bdSJay Foad MIRBuilder
283528bb43bdSJay Foad .buildInstr(TargetOpcode::G_SHUFFLE_VECTOR, {getOrCreateVReg(U)},
283628bb43bdSJay Foad {getOrCreateVReg(*U.getOperand(0)),
283728bb43bdSJay Foad getOrCreateVReg(*U.getOperand(1))})
2838e68e4cbcSEli Friedman .addShuffleMask(MaskAlloc);
283975bdc769SVolkan Keles return true;
284075bdc769SVolkan Keles }
284175bdc769SVolkan Keles
translatePHI(const User & U,MachineIRBuilder & MIRBuilder)2842c53606efSTim Northover bool IRTranslator::translatePHI(const User &U, MachineIRBuilder &MIRBuilder) {
2843357f1be2STim Northover const PHINode &PI = cast<PHINode>(U);
284497d0cb31STim Northover
28450d6a26dfSAmara Emerson SmallVector<MachineInstr *, 4> Insts;
28460d6a26dfSAmara Emerson for (auto Reg : getOrCreateVRegs(PI)) {
2847cef44a23SAditya Nandakumar auto MIB = MIRBuilder.buildInstr(TargetOpcode::G_PHI, {Reg}, {});
28480d6a26dfSAmara Emerson Insts.push_back(MIB.getInstr());
28490d6a26dfSAmara Emerson }
28500d6a26dfSAmara Emerson
28510d6a26dfSAmara Emerson PendingPHIs.emplace_back(&PI, std::move(Insts));
285297d0cb31STim Northover return true;
285397d0cb31STim Northover }
285497d0cb31STim Northover
translateAtomicCmpXchg(const User & U,MachineIRBuilder & MIRBuilder)28559481399cSDaniel Sanders bool IRTranslator::translateAtomicCmpXchg(const User &U,
28569481399cSDaniel Sanders MachineIRBuilder &MIRBuilder) {
28579481399cSDaniel Sanders const AtomicCmpXchgInst &I = cast<AtomicCmpXchgInst>(U);
28589481399cSDaniel Sanders
2859d0943537SMatt Arsenault auto &TLI = *MF->getSubtarget().getTargetLowering();
2860d0943537SMatt Arsenault auto Flags = TLI.getAtomicMemOperandFlags(I, *DL);
28619481399cSDaniel Sanders
28629481399cSDaniel Sanders auto Res = getOrCreateVRegs(I);
2863faeaedf8SMatt Arsenault Register OldValRes = Res[0];
2864faeaedf8SMatt Arsenault Register SuccessRes = Res[1];
2865faeaedf8SMatt Arsenault Register Addr = getOrCreateVReg(*I.getPointerOperand());
2866faeaedf8SMatt Arsenault Register Cmp = getOrCreateVReg(*I.getCompareOperand());
2867faeaedf8SMatt Arsenault Register NewVal = getOrCreateVReg(*I.getNewValOperand());
28689481399cSDaniel Sanders
28699481399cSDaniel Sanders MIRBuilder.buildAtomicCmpXchgWithSuccess(
28709481399cSDaniel Sanders OldValRes, SuccessRes, Addr, Cmp, NewVal,
2871b9810988SGuillaume Chatelet *MF->getMachineMemOperand(
2872990278d0SMatt Arsenault MachinePointerInfo(I.getPointerOperand()), Flags, MRI->getType(Cmp),
28730fc624f0SNikita Popov getMemOpAlign(I), I.getAAMetadata(), nullptr, I.getSyncScopeID(),
2874990278d0SMatt Arsenault I.getSuccessOrdering(), I.getFailureOrdering()));
28759481399cSDaniel Sanders return true;
28769481399cSDaniel Sanders }
28779481399cSDaniel Sanders
translateAtomicRMW(const User & U,MachineIRBuilder & MIRBuilder)28789481399cSDaniel Sanders bool IRTranslator::translateAtomicRMW(const User &U,
28799481399cSDaniel Sanders MachineIRBuilder &MIRBuilder) {
28809481399cSDaniel Sanders const AtomicRMWInst &I = cast<AtomicRMWInst>(U);
2881d0943537SMatt Arsenault auto &TLI = *MF->getSubtarget().getTargetLowering();
2882d0943537SMatt Arsenault auto Flags = TLI.getAtomicMemOperandFlags(I, *DL);
28839481399cSDaniel Sanders
2884faeaedf8SMatt Arsenault Register Res = getOrCreateVReg(I);
2885faeaedf8SMatt Arsenault Register Addr = getOrCreateVReg(*I.getPointerOperand());
2886faeaedf8SMatt Arsenault Register Val = getOrCreateVReg(*I.getValOperand());
28879481399cSDaniel Sanders
28889481399cSDaniel Sanders unsigned Opcode = 0;
28899481399cSDaniel Sanders switch (I.getOperation()) {
28909481399cSDaniel Sanders default:
28919481399cSDaniel Sanders return false;
28929481399cSDaniel Sanders case AtomicRMWInst::Xchg:
28939481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_XCHG;
28949481399cSDaniel Sanders break;
28959481399cSDaniel Sanders case AtomicRMWInst::Add:
28969481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_ADD;
28979481399cSDaniel Sanders break;
28989481399cSDaniel Sanders case AtomicRMWInst::Sub:
28999481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_SUB;
29009481399cSDaniel Sanders break;
29019481399cSDaniel Sanders case AtomicRMWInst::And:
29029481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_AND;
29039481399cSDaniel Sanders break;
29049481399cSDaniel Sanders case AtomicRMWInst::Nand:
29059481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_NAND;
29069481399cSDaniel Sanders break;
29079481399cSDaniel Sanders case AtomicRMWInst::Or:
29089481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_OR;
29099481399cSDaniel Sanders break;
29109481399cSDaniel Sanders case AtomicRMWInst::Xor:
29119481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_XOR;
29129481399cSDaniel Sanders break;
29139481399cSDaniel Sanders case AtomicRMWInst::Max:
29149481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_MAX;
29159481399cSDaniel Sanders break;
29169481399cSDaniel Sanders case AtomicRMWInst::Min:
29179481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_MIN;
29189481399cSDaniel Sanders break;
29199481399cSDaniel Sanders case AtomicRMWInst::UMax:
29209481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_UMAX;
29219481399cSDaniel Sanders break;
29229481399cSDaniel Sanders case AtomicRMWInst::UMin:
29239481399cSDaniel Sanders Opcode = TargetOpcode::G_ATOMICRMW_UMIN;
29249481399cSDaniel Sanders break;
29259cf980d4SMatt Arsenault case AtomicRMWInst::FAdd:
29269cf980d4SMatt Arsenault Opcode = TargetOpcode::G_ATOMICRMW_FADD;
29279cf980d4SMatt Arsenault break;
29289cf980d4SMatt Arsenault case AtomicRMWInst::FSub:
29299cf980d4SMatt Arsenault Opcode = TargetOpcode::G_ATOMICRMW_FSUB;
29309cf980d4SMatt Arsenault break;
29311023ddafSShilei Tian case AtomicRMWInst::FMax:
29321023ddafSShilei Tian Opcode = TargetOpcode::G_ATOMICRMW_FMAX;
29331023ddafSShilei Tian break;
29341023ddafSShilei Tian case AtomicRMWInst::FMin:
29351023ddafSShilei Tian Opcode = TargetOpcode::G_ATOMICRMW_FMIN;
29361023ddafSShilei Tian break;
29379481399cSDaniel Sanders }
29389481399cSDaniel Sanders
29399481399cSDaniel Sanders MIRBuilder.buildAtomicRMW(
29409481399cSDaniel Sanders Opcode, Res, Addr, Val,
29419481399cSDaniel Sanders *MF->getMachineMemOperand(MachinePointerInfo(I.getPointerOperand()),
2942990278d0SMatt Arsenault Flags, MRI->getType(Val), getMemOpAlign(I),
29430fc624f0SNikita Popov I.getAAMetadata(), nullptr, I.getSyncScopeID(),
2944990278d0SMatt Arsenault I.getOrdering()));
29459481399cSDaniel Sanders return true;
29469481399cSDaniel Sanders }
29479481399cSDaniel Sanders
translateFence(const User & U,MachineIRBuilder & MIRBuilder)2948ce690544SMatt Arsenault bool IRTranslator::translateFence(const User &U,
2949ce690544SMatt Arsenault MachineIRBuilder &MIRBuilder) {
2950ce690544SMatt Arsenault const FenceInst &Fence = cast<FenceInst>(U);
2951ce690544SMatt Arsenault MIRBuilder.buildFence(static_cast<unsigned>(Fence.getOrdering()),
2952ce690544SMatt Arsenault Fence.getSyncScopeID());
2953ce690544SMatt Arsenault return true;
2954ce690544SMatt Arsenault }
2955ce690544SMatt Arsenault
translateFreeze(const User & U,MachineIRBuilder & MIRBuilder)2956443c244cSDominik Montada bool IRTranslator::translateFreeze(const User &U,
2957443c244cSDominik Montada MachineIRBuilder &MIRBuilder) {
2958443c244cSDominik Montada const ArrayRef<Register> DstRegs = getOrCreateVRegs(U);
2959443c244cSDominik Montada const ArrayRef<Register> SrcRegs = getOrCreateVRegs(*U.getOperand(0));
2960443c244cSDominik Montada
2961443c244cSDominik Montada assert(DstRegs.size() == SrcRegs.size() &&
2962443c244cSDominik Montada "Freeze with different source and destination type?");
2963443c244cSDominik Montada
2964443c244cSDominik Montada for (unsigned I = 0; I < DstRegs.size(); ++I) {
2965443c244cSDominik Montada MIRBuilder.buildFreeze(DstRegs[I], SrcRegs[I]);
2966443c244cSDominik Montada }
2967443c244cSDominik Montada
2968443c244cSDominik Montada return true;
2969443c244cSDominik Montada }
2970443c244cSDominik Montada
finishPendingPhis()297197d0cb31STim Northover void IRTranslator::finishPendingPhis() {
29723b39040aSDaniel Sanders #ifndef NDEBUG
2973500e3eadSAditya Nandakumar DILocationVerifier Verifier;
2974500e3eadSAditya Nandakumar GISelObserverWrapper WrapperObserver(&Verifier);
2975500e3eadSAditya Nandakumar RAIIDelegateInstaller DelInstall(*MF, &WrapperObserver);
29763b39040aSDaniel Sanders #endif // ifndef NDEBUG
29770d6a26dfSAmara Emerson for (auto &Phi : PendingPHIs) {
297897d0cb31STim Northover const PHINode *PI = Phi.first;
29790d6a26dfSAmara Emerson ArrayRef<MachineInstr *> ComponentPHIs = Phi.second;
2980ecb7ac35SAmara Emerson MachineBasicBlock *PhiMBB = ComponentPHIs[0]->getParent();
2981500e3eadSAditya Nandakumar EntryBuilder->setDebugLoc(PI->getDebugLoc());
29823b39040aSDaniel Sanders #ifndef NDEBUG
29833b39040aSDaniel Sanders Verifier.setCurrentInst(PI);
29843b39040aSDaniel Sanders #endif // ifndef NDEBUG
298597d0cb31STim Northover
2986fe4625fbSAmara Emerson SmallSet<const MachineBasicBlock *, 16> SeenPreds;
298797d0cb31STim Northover for (unsigned i = 0; i < PI->getNumIncomingValues(); ++i) {
2988b6636fd3STim Northover auto IRPred = PI->getIncomingBlock(i);
2989e3a676e9SMatt Arsenault ArrayRef<Register> ValRegs = getOrCreateVRegs(*PI->getIncomingValue(i));
29909e6d1f4bSKazu Hirata for (auto *Pred : getMachinePredBBs({IRPred, PI->getParent()})) {
2991ecb7ac35SAmara Emerson if (SeenPreds.count(Pred) || !PhiMBB->isPredecessor(Pred))
2992fe4625fbSAmara Emerson continue;
2993fe4625fbSAmara Emerson SeenPreds.insert(Pred);
29940d6a26dfSAmara Emerson for (unsigned j = 0; j < ValRegs.size(); ++j) {
29950d6a26dfSAmara Emerson MachineInstrBuilder MIB(*MF, ComponentPHIs[j]);
29960d6a26dfSAmara Emerson MIB.addUse(ValRegs[j]);
2997b6636fd3STim Northover MIB.addMBB(Pred);
2998b6636fd3STim Northover }
299997d0cb31STim Northover }
300097d0cb31STim Northover }
300197d0cb31STim Northover }
30020d6a26dfSAmara Emerson }
30030d6a26dfSAmara Emerson
translate(const Instruction & Inst)30042ecff3bfSQuentin Colombet bool IRTranslator::translate(const Instruction &Inst) {
3005500e3eadSAditya Nandakumar CurBuilder->setDebugLoc(Inst.getDebugLoc());
3006fb0a40f0SAmara Emerson
3007584d0d5cSDavid Sherwood auto &TLI = *MF->getSubtarget().getTargetLowering();
3008584d0d5cSDavid Sherwood if (TLI.fallBackToDAGISel(Inst))
3009584d0d5cSDavid Sherwood return false;
3010584d0d5cSDavid Sherwood
30112ecff3bfSQuentin Colombet switch (Inst.getOpcode()) {
3012357f1be2STim Northover #define HANDLE_INST(NUM, OPCODE, CLASS) \
3013500e3eadSAditya Nandakumar case Instruction::OPCODE: \
3014500e3eadSAditya Nandakumar return translate##OPCODE(Inst, *CurBuilder.get());
3015357f1be2STim Northover #include "llvm/IR/Instruction.def"
30162ecff3bfSQuentin Colombet default:
30173bb32cc7SQuentin Colombet return false;
30182ecff3bfSQuentin Colombet }
30192ecff3bfSQuentin Colombet }
3020105cf2b1SQuentin Colombet
translate(const Constant & C,Register Reg)3021faeaedf8SMatt Arsenault bool IRTranslator::translate(const Constant &C, Register Reg) {
3022aa0b9200SAmara Emerson // We only emit constants into the entry block from here. To prevent jumpy
3023*fc93ba06SVladislav Dzhidzhoev // debug behaviour remove debug line.
3024aa0b9200SAmara Emerson if (auto CurrInstDL = CurBuilder->getDL())
3025*fc93ba06SVladislav Dzhidzhoev EntryBuilder->setDebugLoc(DebugLoc());
3026aa0b9200SAmara Emerson
3027d403a3d8STim Northover if (auto CI = dyn_cast<ConstantInt>(&C))
3028500e3eadSAditya Nandakumar EntryBuilder->buildConstant(Reg, *CI);
3029b16734fbSTim Northover else if (auto CF = dyn_cast<ConstantFP>(&C))
3030500e3eadSAditya Nandakumar EntryBuilder->buildFConstant(Reg, *CF);
3031d403a3d8STim Northover else if (isa<UndefValue>(C))
3032500e3eadSAditya Nandakumar EntryBuilder->buildUndef(Reg);
3033b8fc192dSMatt Arsenault else if (isa<ConstantPointerNull>(C))
3034b8fc192dSMatt Arsenault EntryBuilder->buildConstant(Reg, 0);
3035b8fc192dSMatt Arsenault else if (auto GV = dyn_cast<GlobalValue>(&C))
3036500e3eadSAditya Nandakumar EntryBuilder->buildGlobalValue(Reg, GV);
3037970fee4bSVolkan Keles else if (auto CAZ = dyn_cast<ConstantAggregateZero>(&C)) {
30383212a08aSFraser Cormack if (!isa<FixedVectorType>(CAZ->getType()))
3039970fee4bSVolkan Keles return false;
30404862c635SVolkan Keles // Return the scalar if it is a <1 x Ty> vector.
30413212a08aSFraser Cormack unsigned NumElts = CAZ->getElementCount().getFixedValue();
30423212a08aSFraser Cormack if (NumElts == 1)
30431eada2adSKazu Hirata return translateCopy(C, *CAZ->getElementValue(0u), *EntryBuilder);
3044e3a676e9SMatt Arsenault SmallVector<Register, 4> Ops;
30453212a08aSFraser Cormack for (unsigned I = 0; I < NumElts; ++I) {
30463212a08aSFraser Cormack Constant &Elt = *CAZ->getElementValue(I);
3047970fee4bSVolkan Keles Ops.push_back(getOrCreateVReg(Elt));
3048970fee4bSVolkan Keles }
3049500e3eadSAditya Nandakumar EntryBuilder->buildBuildVector(Reg, Ops);
305038a91a0dSVolkan Keles } else if (auto CV = dyn_cast<ConstantDataVector>(&C)) {
30514862c635SVolkan Keles // Return the scalar if it is a <1 x Ty> vector.
30524862c635SVolkan Keles if (CV->getNumElements() == 1)
30531eada2adSKazu Hirata return translateCopy(C, *CV->getElementAsConstant(0), *EntryBuilder);
3054e3a676e9SMatt Arsenault SmallVector<Register, 4> Ops;
305538a91a0dSVolkan Keles for (unsigned i = 0; i < CV->getNumElements(); ++i) {
305638a91a0dSVolkan Keles Constant &Elt = *CV->getElementAsConstant(i);
305738a91a0dSVolkan Keles Ops.push_back(getOrCreateVReg(Elt));
305838a91a0dSVolkan Keles }
3059500e3eadSAditya Nandakumar EntryBuilder->buildBuildVector(Reg, Ops);
3060970fee4bSVolkan Keles } else if (auto CE = dyn_cast<ConstantExpr>(&C)) {
3061357f1be2STim Northover switch(CE->getOpcode()) {
3062357f1be2STim Northover #define HANDLE_INST(NUM, OPCODE, CLASS) \
3063500e3eadSAditya Nandakumar case Instruction::OPCODE: \
3064500e3eadSAditya Nandakumar return translate##OPCODE(*CE, *EntryBuilder.get());
3065357f1be2STim Northover #include "llvm/IR/Instruction.def"
3066357f1be2STim Northover default:
30673bb32cc7SQuentin Colombet return false;
3068357f1be2STim Northover }
3069117b667bSAditya Nandakumar } else if (auto CV = dyn_cast<ConstantVector>(&C)) {
3070117b667bSAditya Nandakumar if (CV->getNumOperands() == 1)
30711eada2adSKazu Hirata return translateCopy(C, *CV->getOperand(0), *EntryBuilder);
3072e3a676e9SMatt Arsenault SmallVector<Register, 4> Ops;
3073117b667bSAditya Nandakumar for (unsigned i = 0; i < CV->getNumOperands(); ++i) {
3074117b667bSAditya Nandakumar Ops.push_back(getOrCreateVReg(*CV->getOperand(i)));
3075117b667bSAditya Nandakumar }
3076500e3eadSAditya Nandakumar EntryBuilder->buildBuildVector(Reg, Ops);
30776aff5a78SAmara Emerson } else if (auto *BA = dyn_cast<BlockAddress>(&C)) {
3078500e3eadSAditya Nandakumar EntryBuilder->buildBlockAddress(Reg, BA);
3079ee8a4f51SQuentin Colombet } else
30803bb32cc7SQuentin Colombet return false;
3081d403a3d8STim Northover
3082d403a3d8STim Northover return true;
30835ed648e5STim Northover }
30845ed648e5STim Northover
finalizeBasicBlock(const BasicBlock & BB,MachineBasicBlock & MBB)3085cfef1803SAmara Emerson bool IRTranslator::finalizeBasicBlock(const BasicBlock &BB,
3086cfef1803SAmara Emerson MachineBasicBlock &MBB) {
30872ff14957SAmara Emerson for (auto &BTB : SL->BitTestCases) {
30882ff14957SAmara Emerson // Emit header first, if it wasn't already emitted.
30892ff14957SAmara Emerson if (!BTB.Emitted)
30902ff14957SAmara Emerson emitBitTestHeader(BTB, BTB.Parent);
30912ff14957SAmara Emerson
30922ff14957SAmara Emerson BranchProbability UnhandledProb = BTB.Prob;
30932ff14957SAmara Emerson for (unsigned j = 0, ej = BTB.Cases.size(); j != ej; ++j) {
30942ff14957SAmara Emerson UnhandledProb -= BTB.Cases[j].ExtraProb;
30952ff14957SAmara Emerson // Set the current basic block to the mbb we wish to insert the code into
30962ff14957SAmara Emerson MachineBasicBlock *MBB = BTB.Cases[j].ThisBB;
30972ff14957SAmara Emerson // If all cases cover a contiguous range, it is not necessary to jump to
30982ff14957SAmara Emerson // the default block after the last bit test fails. This is because the
30992ff14957SAmara Emerson // range check during bit test header creation has guaranteed that every
31002ff14957SAmara Emerson // case here doesn't go outside the range. In this case, there is no need
31012ff14957SAmara Emerson // to perform the last bit test, as it will always be true. Instead, make
31022ff14957SAmara Emerson // the second-to-last bit-test fall through to the target of the last bit
31032ff14957SAmara Emerson // test, and delete the last bit test.
31042ff14957SAmara Emerson
31052ff14957SAmara Emerson MachineBasicBlock *NextMBB;
3106e69d4020SNick Desaulniers if ((BTB.ContiguousRange || BTB.FallthroughUnreachable) && j + 2 == ej) {
31072ff14957SAmara Emerson // Second-to-last bit-test with contiguous range: fall through to the
31082ff14957SAmara Emerson // target of the final bit test.
31092ff14957SAmara Emerson NextMBB = BTB.Cases[j + 1].TargetBB;
31102ff14957SAmara Emerson } else if (j + 1 == ej) {
31112ff14957SAmara Emerson // For the last bit test, fall through to Default.
31122ff14957SAmara Emerson NextMBB = BTB.Default;
31132ff14957SAmara Emerson } else {
31142ff14957SAmara Emerson // Otherwise, fall through to the next bit test.
31152ff14957SAmara Emerson NextMBB = BTB.Cases[j + 1].ThisBB;
31162ff14957SAmara Emerson }
31172ff14957SAmara Emerson
31182ff14957SAmara Emerson emitBitTestCase(BTB, NextMBB, UnhandledProb, BTB.Reg, BTB.Cases[j], MBB);
31192ff14957SAmara Emerson
3120e69d4020SNick Desaulniers if ((BTB.ContiguousRange || BTB.FallthroughUnreachable) && j + 2 == ej) {
3121dc754999SAmara Emerson // We need to record the replacement phi edge here that normally
3122dc754999SAmara Emerson // happens in emitBitTestCase before we delete the case, otherwise the
3123dc754999SAmara Emerson // phi edge will be lost.
3124dc754999SAmara Emerson addMachineCFGPred({BTB.Parent->getBasicBlock(),
3125dc754999SAmara Emerson BTB.Cases[ej - 1].TargetBB->getBasicBlock()},
3126dc754999SAmara Emerson MBB);
31272ff14957SAmara Emerson // Since we're not going to use the final bit test, remove it.
31282ff14957SAmara Emerson BTB.Cases.pop_back();
31292ff14957SAmara Emerson break;
31302ff14957SAmara Emerson }
31312ff14957SAmara Emerson }
31322ff14957SAmara Emerson // This is "default" BB. We have two jumps to it. From "header" BB and from
31332ff14957SAmara Emerson // last "case" BB, unless the latter was skipped.
31342ff14957SAmara Emerson CFGEdge HeaderToDefaultEdge = {BTB.Parent->getBasicBlock(),
31352ff14957SAmara Emerson BTB.Default->getBasicBlock()};
31362ff14957SAmara Emerson addMachineCFGPred(HeaderToDefaultEdge, BTB.Parent);
31372ff14957SAmara Emerson if (!BTB.ContiguousRange) {
31382ff14957SAmara Emerson addMachineCFGPred(HeaderToDefaultEdge, BTB.Cases.back().ThisBB);
31392ff14957SAmara Emerson }
31402ff14957SAmara Emerson }
31412ff14957SAmara Emerson SL->BitTestCases.clear();
31422ff14957SAmara Emerson
3143ecb7ac35SAmara Emerson for (auto &JTCase : SL->JTCases) {
3144ecb7ac35SAmara Emerson // Emit header first, if it wasn't already emitted.
3145ecb7ac35SAmara Emerson if (!JTCase.first.Emitted)
3146ecb7ac35SAmara Emerson emitJumpTableHeader(JTCase.second, JTCase.first, JTCase.first.HeaderBB);
3147ecb7ac35SAmara Emerson
3148fe4625fbSAmara Emerson emitJumpTable(JTCase.second, JTCase.second.MBB);
3149ecb7ac35SAmara Emerson }
3150fe4625fbSAmara Emerson SL->JTCases.clear();
3151467a0712SAmara Emerson
3152467a0712SAmara Emerson for (auto &SwCase : SL->SwitchCases)
3153467a0712SAmara Emerson emitSwitchCase(SwCase, &CurBuilder->getMBB(), *CurBuilder);
3154467a0712SAmara Emerson SL->SwitchCases.clear();
3155cfef1803SAmara Emerson
3156cfef1803SAmara Emerson // Check if we need to generate stack-protector guard checks.
3157cfef1803SAmara Emerson StackProtector &SP = getAnalysis<StackProtector>();
3158cfef1803SAmara Emerson if (SP.shouldEmitSDCheck(BB)) {
3159cfef1803SAmara Emerson const TargetLowering &TLI = *MF->getSubtarget().getTargetLowering();
3160cfef1803SAmara Emerson bool FunctionBasedInstrumentation =
3161cfef1803SAmara Emerson TLI.getSSPStackGuardCheck(*MF->getFunction().getParent());
3162cfef1803SAmara Emerson SPDescriptor.initialize(&BB, &MBB, FunctionBasedInstrumentation);
3163cfef1803SAmara Emerson }
3164cfef1803SAmara Emerson // Handle stack protector.
3165cfef1803SAmara Emerson if (SPDescriptor.shouldEmitFunctionBasedCheckStackProtector()) {
3166cfef1803SAmara Emerson LLVM_DEBUG(dbgs() << "Unimplemented stack protector case\n");
3167cfef1803SAmara Emerson return false;
3168cfef1803SAmara Emerson } else if (SPDescriptor.shouldEmitStackProtector()) {
3169cfef1803SAmara Emerson MachineBasicBlock *ParentMBB = SPDescriptor.getParentMBB();
3170cfef1803SAmara Emerson MachineBasicBlock *SuccessMBB = SPDescriptor.getSuccessMBB();
3171cfef1803SAmara Emerson
3172cfef1803SAmara Emerson // Find the split point to split the parent mbb. At the same time copy all
3173cfef1803SAmara Emerson // physical registers used in the tail of parent mbb into virtual registers
3174cfef1803SAmara Emerson // before the split point and back into physical registers after the split
3175cfef1803SAmara Emerson // point. This prevents us needing to deal with Live-ins and many other
3176cfef1803SAmara Emerson // register allocation issues caused by us splitting the parent mbb. The
3177cfef1803SAmara Emerson // register allocator will clean up said virtual copies later on.
3178cfef1803SAmara Emerson MachineBasicBlock::iterator SplitPoint = findSplitPointForStackProtector(
3179cfef1803SAmara Emerson ParentMBB, *MF->getSubtarget().getInstrInfo());
3180cfef1803SAmara Emerson
3181cfef1803SAmara Emerson // Splice the terminator of ParentMBB into SuccessMBB.
3182cfef1803SAmara Emerson SuccessMBB->splice(SuccessMBB->end(), ParentMBB, SplitPoint,
3183cfef1803SAmara Emerson ParentMBB->end());
3184cfef1803SAmara Emerson
3185cfef1803SAmara Emerson // Add compare/jump on neq/jump to the parent BB.
3186cfef1803SAmara Emerson if (!emitSPDescriptorParent(SPDescriptor, ParentMBB))
3187cfef1803SAmara Emerson return false;
3188cfef1803SAmara Emerson
3189cfef1803SAmara Emerson // CodeGen Failure MBB if we have not codegened it yet.
3190cfef1803SAmara Emerson MachineBasicBlock *FailureMBB = SPDescriptor.getFailureMBB();
3191cfef1803SAmara Emerson if (FailureMBB->empty()) {
3192cfef1803SAmara Emerson if (!emitSPDescriptorFailure(SPDescriptor, FailureMBB))
3193cfef1803SAmara Emerson return false;
3194cfef1803SAmara Emerson }
3195cfef1803SAmara Emerson
3196cfef1803SAmara Emerson // Clear the Per-BB State.
3197cfef1803SAmara Emerson SPDescriptor.resetPerBBState();
3198cfef1803SAmara Emerson }
3199cfef1803SAmara Emerson return true;
3200cfef1803SAmara Emerson }
3201cfef1803SAmara Emerson
emitSPDescriptorParent(StackProtectorDescriptor & SPD,MachineBasicBlock * ParentBB)3202cfef1803SAmara Emerson bool IRTranslator::emitSPDescriptorParent(StackProtectorDescriptor &SPD,
3203cfef1803SAmara Emerson MachineBasicBlock *ParentBB) {
3204cfef1803SAmara Emerson CurBuilder->setInsertPt(*ParentBB, ParentBB->end());
3205cfef1803SAmara Emerson // First create the loads to the guard/stack slot for the comparison.
3206cfef1803SAmara Emerson const TargetLowering &TLI = *MF->getSubtarget().getTargetLowering();
3207cfef1803SAmara Emerson Type *PtrIRTy = Type::getInt8PtrTy(MF->getFunction().getContext());
3208cfef1803SAmara Emerson const LLT PtrTy = getLLTForType(*PtrIRTy, *DL);
32094ae254e4SKai Nacke LLT PtrMemTy = getLLTForMVT(TLI.getPointerMemTy(*DL));
3210cfef1803SAmara Emerson
3211cfef1803SAmara Emerson MachineFrameInfo &MFI = ParentBB->getParent()->getFrameInfo();
3212cfef1803SAmara Emerson int FI = MFI.getStackProtectorIndex();
3213cfef1803SAmara Emerson
3214cfef1803SAmara Emerson Register Guard;
3215cfef1803SAmara Emerson Register StackSlotPtr = CurBuilder->buildFrameIndex(PtrTy, FI).getReg(0);
3216cfef1803SAmara Emerson const Module &M = *ParentBB->getParent()->getFunction().getParent();
3217cfef1803SAmara Emerson Align Align = DL->getPrefTypeAlign(Type::getInt8PtrTy(M.getContext()));
3218cfef1803SAmara Emerson
3219cfef1803SAmara Emerson // Generate code to load the content of the guard slot.
3220cfef1803SAmara Emerson Register GuardVal =
3221cfef1803SAmara Emerson CurBuilder
32224ae254e4SKai Nacke ->buildLoad(PtrMemTy, StackSlotPtr,
3223cfef1803SAmara Emerson MachinePointerInfo::getFixedStack(*MF, FI), Align,
3224cfef1803SAmara Emerson MachineMemOperand::MOLoad | MachineMemOperand::MOVolatile)
3225cfef1803SAmara Emerson .getReg(0);
3226cfef1803SAmara Emerson
3227cfef1803SAmara Emerson if (TLI.useStackGuardXorFP()) {
3228cfef1803SAmara Emerson LLVM_DEBUG(dbgs() << "Stack protector xor'ing with FP not yet implemented");
3229cfef1803SAmara Emerson return false;
3230cfef1803SAmara Emerson }
3231cfef1803SAmara Emerson
3232cfef1803SAmara Emerson // Retrieve guard check function, nullptr if instrumentation is inlined.
3233cfef1803SAmara Emerson if (const Function *GuardCheckFn = TLI.getSSPStackGuardCheck(M)) {
3234cfef1803SAmara Emerson // This path is currently untestable on GlobalISel, since the only platform
3235cfef1803SAmara Emerson // that needs this seems to be Windows, and we fall back on that currently.
3236cfef1803SAmara Emerson // The code still lives here in case that changes.
32379bf5d913SMikael Holmen // Silence warning about unused variable until the code below that uses
32389bf5d913SMikael Holmen // 'GuardCheckFn' is enabled.
32399bf5d913SMikael Holmen (void)GuardCheckFn;
3240cfef1803SAmara Emerson return false;
3241cfef1803SAmara Emerson #if 0
3242cfef1803SAmara Emerson // The target provides a guard check function to validate the guard value.
3243cfef1803SAmara Emerson // Generate a call to that function with the content of the guard slot as
3244cfef1803SAmara Emerson // argument.
3245cfef1803SAmara Emerson FunctionType *FnTy = GuardCheckFn->getFunctionType();
3246cfef1803SAmara Emerson assert(FnTy->getNumParams() == 1 && "Invalid function signature");
3247cfef1803SAmara Emerson ISD::ArgFlagsTy Flags;
3248cfef1803SAmara Emerson if (GuardCheckFn->hasAttribute(1, Attribute::AttrKind::InReg))
3249cfef1803SAmara Emerson Flags.setInReg();
3250cfef1803SAmara Emerson CallLowering::ArgInfo GuardArgInfo(
3251cfef1803SAmara Emerson {GuardVal, FnTy->getParamType(0), {Flags}});
3252cfef1803SAmara Emerson
3253cfef1803SAmara Emerson CallLowering::CallLoweringInfo Info;
3254cfef1803SAmara Emerson Info.OrigArgs.push_back(GuardArgInfo);
3255cfef1803SAmara Emerson Info.CallConv = GuardCheckFn->getCallingConv();
3256cfef1803SAmara Emerson Info.Callee = MachineOperand::CreateGA(GuardCheckFn, 0);
3257cfef1803SAmara Emerson Info.OrigRet = {Register(), FnTy->getReturnType()};
3258cfef1803SAmara Emerson if (!CLI->lowerCall(MIRBuilder, Info)) {
3259cfef1803SAmara Emerson LLVM_DEBUG(dbgs() << "Failed to lower call to stack protector check\n");
3260cfef1803SAmara Emerson return false;
3261cfef1803SAmara Emerson }
3262cfef1803SAmara Emerson return true;
3263cfef1803SAmara Emerson #endif
3264cfef1803SAmara Emerson }
3265cfef1803SAmara Emerson
3266cfef1803SAmara Emerson // If useLoadStackGuardNode returns true, generate LOAD_STACK_GUARD.
3267cfef1803SAmara Emerson // Otherwise, emit a volatile load to retrieve the stack guard value.
3268cfef1803SAmara Emerson if (TLI.useLoadStackGuardNode()) {
32694ae254e4SKai Nacke Guard =
32704ae254e4SKai Nacke MRI->createGenericVirtualRegister(LLT::scalar(PtrTy.getSizeInBits()));
32714ae254e4SKai Nacke getStackGuard(Guard, *CurBuilder);
3272cfef1803SAmara Emerson } else {
3273cfef1803SAmara Emerson // TODO: test using android subtarget when we support @llvm.thread.pointer.
3274cfef1803SAmara Emerson const Value *IRGuard = TLI.getSDagStackGuard(M);
3275cfef1803SAmara Emerson Register GuardPtr = getOrCreateVReg(*IRGuard);
3276cfef1803SAmara Emerson
3277cfef1803SAmara Emerson Guard = CurBuilder
32784ae254e4SKai Nacke ->buildLoad(PtrMemTy, GuardPtr,
3279cfef1803SAmara Emerson MachinePointerInfo::getFixedStack(*MF, FI), Align,
3280cfef1803SAmara Emerson MachineMemOperand::MOLoad |
3281cfef1803SAmara Emerson MachineMemOperand::MOVolatile)
3282cfef1803SAmara Emerson .getReg(0);
3283cfef1803SAmara Emerson }
3284cfef1803SAmara Emerson
3285cfef1803SAmara Emerson // Perform the comparison.
3286cfef1803SAmara Emerson auto Cmp =
3287cfef1803SAmara Emerson CurBuilder->buildICmp(CmpInst::ICMP_NE, LLT::scalar(1), Guard, GuardVal);
3288cfef1803SAmara Emerson // If the guard/stackslot do not equal, branch to failure MBB.
3289cfef1803SAmara Emerson CurBuilder->buildBrCond(Cmp, *SPD.getFailureMBB());
3290cfef1803SAmara Emerson // Otherwise branch to success MBB.
3291cfef1803SAmara Emerson CurBuilder->buildBr(*SPD.getSuccessMBB());
3292cfef1803SAmara Emerson return true;
3293cfef1803SAmara Emerson }
3294cfef1803SAmara Emerson
emitSPDescriptorFailure(StackProtectorDescriptor & SPD,MachineBasicBlock * FailureBB)3295cfef1803SAmara Emerson bool IRTranslator::emitSPDescriptorFailure(StackProtectorDescriptor &SPD,
3296cfef1803SAmara Emerson MachineBasicBlock *FailureBB) {
3297cfef1803SAmara Emerson CurBuilder->setInsertPt(*FailureBB, FailureBB->end());
3298cfef1803SAmara Emerson const TargetLowering &TLI = *MF->getSubtarget().getTargetLowering();
3299cfef1803SAmara Emerson
3300cfef1803SAmara Emerson const RTLIB::Libcall Libcall = RTLIB::STACKPROTECTOR_CHECK_FAIL;
3301cfef1803SAmara Emerson const char *Name = TLI.getLibcallName(Libcall);
3302cfef1803SAmara Emerson
3303cfef1803SAmara Emerson CallLowering::CallLoweringInfo Info;
3304cfef1803SAmara Emerson Info.CallConv = TLI.getLibcallCallingConv(Libcall);
3305cfef1803SAmara Emerson Info.Callee = MachineOperand::CreateES(Name);
3306cfef1803SAmara Emerson Info.OrigRet = {Register(), Type::getVoidTy(MF->getFunction().getContext()),
3307cfef1803SAmara Emerson 0};
3308cfef1803SAmara Emerson if (!CLI->lowerCall(*CurBuilder, Info)) {
3309cfef1803SAmara Emerson LLVM_DEBUG(dbgs() << "Failed to lower call to stack protector fail\n");
3310cfef1803SAmara Emerson return false;
3311cfef1803SAmara Emerson }
3312cfef1803SAmara Emerson
3313654a835cSPaul Robinson // On PS4/PS5, the "return address" must still be within the calling
3314654a835cSPaul Robinson // function, even if it's at the very end, so emit an explicit TRAP here.
3315cfef1803SAmara Emerson // WebAssembly needs an unreachable instruction after a non-returning call,
3316cfef1803SAmara Emerson // because the function return type can be different from __stack_chk_fail's
3317cfef1803SAmara Emerson // return type (void).
3318cfef1803SAmara Emerson const TargetMachine &TM = MF->getTarget();
3319654a835cSPaul Robinson if (TM.getTargetTriple().isPS() || TM.getTargetTriple().isWasm()) {
3320cfef1803SAmara Emerson LLVM_DEBUG(dbgs() << "Unhandled trap emission for stack protector fail\n");
3321cfef1803SAmara Emerson return false;
3322cfef1803SAmara Emerson }
3323cfef1803SAmara Emerson return true;
3324fe4625fbSAmara Emerson }
3325fe4625fbSAmara Emerson
finalizeFunction()33260d51044bSTim Northover void IRTranslator::finalizeFunction() {
33272ecff3bfSQuentin Colombet // Release the memory used by the different maps we
33282ecff3bfSQuentin Colombet // needed during the translation.
3329800638fdSTim Northover PendingPHIs.clear();
33300d6a26dfSAmara Emerson VMap.reset();
3331cdf23f1dSTim Northover FrameIndices.clear();
3332b6636fd3STim Northover MachinePreds.clear();
3333be929937SAditya Nandakumar // MachineIRBuilder::DebugLoc can outlive the DILocation it holds. Clear it
3334be929937SAditya Nandakumar // to avoid accessing free’d memory (in runOnMachineFunction) and to avoid
3335be929937SAditya Nandakumar // destroying it twice (in ~IRTranslator() and ~LLVMContext())
3336500e3eadSAditya Nandakumar EntryBuilder.reset();
3337500e3eadSAditya Nandakumar CurBuilder.reset();
3338fe4625fbSAmara Emerson FuncInfo.clear();
3339cfef1803SAmara Emerson SPDescriptor.resetPerFunctionState();
3340105cf2b1SQuentin Colombet }
3341105cf2b1SQuentin Colombet
3342b1c1095fSJessica Paquette /// Returns true if a BasicBlock \p BB within a variadic function contains a
3343b1c1095fSJessica Paquette /// variadic musttail call.
checkForMustTailInVarArgFn(bool IsVarArg,const BasicBlock & BB)3344b1c1095fSJessica Paquette static bool checkForMustTailInVarArgFn(bool IsVarArg, const BasicBlock &BB) {
3345b1c1095fSJessica Paquette if (!IsVarArg)
3346b1c1095fSJessica Paquette return false;
3347b1c1095fSJessica Paquette
3348b1c1095fSJessica Paquette // Walk the block backwards, because tail calls usually only appear at the end
3349b1c1095fSJessica Paquette // of a block.
33504bd46501SKazu Hirata return llvm::any_of(llvm::reverse(BB), [](const Instruction &I) {
3351b1c1095fSJessica Paquette const auto *CI = dyn_cast<CallInst>(&I);
3352b1c1095fSJessica Paquette return CI && CI->isMustTailCall();
3353b1c1095fSJessica Paquette });
3354b1c1095fSJessica Paquette }
3355b1c1095fSJessica Paquette
runOnMachineFunction(MachineFunction & CurMF)335650db7f41STim Northover bool IRTranslator::runOnMachineFunction(MachineFunction &CurMF) {
335750db7f41STim Northover MF = &CurMF;
3358f1caa283SMatthias Braun const Function &F = MF->getFunction();
3359500e3eadSAditya Nandakumar GISelCSEAnalysisWrapper &Wrapper =
3360500e3eadSAditya Nandakumar getAnalysis<GISelCSEAnalysisWrapperPass>().getCSEWrapper();
3361500e3eadSAditya Nandakumar // Set the CSEConfig and run the analysis.
3362500e3eadSAditya Nandakumar GISelCSEInfo *CSEInfo = nullptr;
3363500e3eadSAditya Nandakumar TPC = &getAnalysis<TargetPassConfig>();
33643ba0d94bSAditya Nandakumar bool EnableCSE = EnableCSEInIRTranslator.getNumOccurrences()
33653ba0d94bSAditya Nandakumar ? EnableCSEInIRTranslator
33663ba0d94bSAditya Nandakumar : TPC->isGISelCSEEnabled();
33673ba0d94bSAditya Nandakumar
3368500e3eadSAditya Nandakumar if (EnableCSE) {
33690eaee545SJonas Devlieghere EntryBuilder = std::make_unique<CSEMIRBuilder>(CurMF);
3370d189680bSAmara Emerson CSEInfo = &Wrapper.get(TPC->getCSEConfig());
3371500e3eadSAditya Nandakumar EntryBuilder->setCSEInfo(CSEInfo);
33720eaee545SJonas Devlieghere CurBuilder = std::make_unique<CSEMIRBuilder>(CurMF);
3373500e3eadSAditya Nandakumar CurBuilder->setCSEInfo(CSEInfo);
3374500e3eadSAditya Nandakumar } else {
33750eaee545SJonas Devlieghere EntryBuilder = std::make_unique<MachineIRBuilder>();
33760eaee545SJonas Devlieghere CurBuilder = std::make_unique<MachineIRBuilder>();
3377500e3eadSAditya Nandakumar }
337850db7f41STim Northover CLI = MF->getSubtarget().getCallLowering();
3379500e3eadSAditya Nandakumar CurBuilder->setMF(*MF);
3380500e3eadSAditya Nandakumar EntryBuilder->setMF(*MF);
338150db7f41STim Northover MRI = &MF->getRegInfo();
3382bd505460STim Northover DL = &F.getParent()->getDataLayout();
33830eaee545SJonas Devlieghere ORE = std::make_unique<OptimizationRemarkEmitter>(&F);
3384fe4625fbSAmara Emerson const TargetMachine &TM = MF->getTarget();
33859b4fa854SPetar Avramovic TM.resetTargetOptions(F);
3386e5784ef8SAmara Emerson EnableOpts = OptLevel != CodeGenOpt::None && !skipFunction(F);
3387e5784ef8SAmara Emerson FuncInfo.MF = MF;
33888d0383ebSMatt Arsenault if (EnableOpts) {
33898d0383ebSMatt Arsenault AA = &getAnalysis<AAResultsWrapperPass>().getAAResults();
3390e5784ef8SAmara Emerson FuncInfo.BPI = &getAnalysis<BranchProbabilityInfoWrapperPass>().getBPI();
33918d0383ebSMatt Arsenault } else {
33928d0383ebSMatt Arsenault AA = nullptr;
3393e5784ef8SAmara Emerson FuncInfo.BPI = nullptr;
33948d0383ebSMatt Arsenault }
3395e5784ef8SAmara Emerson
3396d68458bdSChristudasan Devadasan FuncInfo.CanLowerReturn = CLI->checkReturnTypeForCallConv(*MF);
3397d68458bdSChristudasan Devadasan
3398e5784ef8SAmara Emerson const auto &TLI = *MF->getSubtarget().getTargetLowering();
3399e5784ef8SAmara Emerson
34000eaee545SJonas Devlieghere SL = std::make_unique<GISelSwitchLowering>(this, FuncInfo);
3401fe4625fbSAmara Emerson SL->init(TLI, TM, *DL);
3402fe4625fbSAmara Emerson
3403e5784ef8SAmara Emerson
3404bd505460STim Northover
340514e7f73aSTim Northover assert(PendingPHIs.empty() && "stale PHIs");
340614e7f73aSTim Northover
34072193347eSSushma Unnibhavi // Targets which want to use big endian can enable it using
34082193347eSSushma Unnibhavi // enableBigEndian()
34092193347eSSushma Unnibhavi if (!DL->isLittleEndian() && !CLI->enableBigEndian()) {
3410df9b529dSAmara Emerson // Currently we don't properly handle big endian code.
3411df9b529dSAmara Emerson OptimizationRemarkMissed R("gisel-irtranslator", "GISelFailure",
3412f1caa283SMatthias Braun F.getSubprogram(), &F.getEntryBlock());
3413df9b529dSAmara Emerson R << "unable to translate in big endian mode";
3414df9b529dSAmara Emerson reportTranslationError(*MF, *TPC, *ORE, R);
3415df9b529dSAmara Emerson }
3416df9b529dSAmara Emerson
3417eceabddcSAhmed Bougacha // Release the per-function state when we return, whether we succeeded or not.
3418eceabddcSAhmed Bougacha auto FinalizeOnReturn = make_scope_exit([this]() { finalizeFunction(); });
3419eceabddcSAhmed Bougacha
3420a61c214fSAhmed Bougacha // Setup a separate basic-block for the arguments and constants
342150db7f41STim Northover MachineBasicBlock *EntryBB = MF->CreateMachineBasicBlock();
342250db7f41STim Northover MF->push_back(EntryBB);
3423500e3eadSAditya Nandakumar EntryBuilder->setMBB(*EntryBB);
342405cc4859STim Northover
34253b2157aeSTim Northover DebugLoc DbgLoc = F.getEntryBlock().getFirstNonPHI()->getDebugLoc();
34263b2157aeSTim Northover SwiftError.setFunction(CurMF);
34273b2157aeSTim Northover SwiftError.createEntriesInEntryBlock(DbgLoc);
34283b2157aeSTim Northover
3429b1c1095fSJessica Paquette bool IsVarArg = F.isVarArg();
3430b1c1095fSJessica Paquette bool HasMustTailInVarArgFn = false;
3431b1c1095fSJessica Paquette
3432a61c214fSAhmed Bougacha // Create all blocks, in IR order, to preserve the layout.
3433a61c214fSAhmed Bougacha for (const BasicBlock &BB: F) {
3434a61c214fSAhmed Bougacha auto *&MBB = BBToMBB[&BB];
3435a61c214fSAhmed Bougacha
3436a61c214fSAhmed Bougacha MBB = MF->CreateMachineBasicBlock(&BB);
3437a61c214fSAhmed Bougacha MF->push_back(MBB);
3438a61c214fSAhmed Bougacha
3439a61c214fSAhmed Bougacha if (BB.hasAddressTaken())
3440a61c214fSAhmed Bougacha MBB->setHasAddressTaken();
3441b1c1095fSJessica Paquette
3442b1c1095fSJessica Paquette if (!HasMustTailInVarArgFn)
3443b1c1095fSJessica Paquette HasMustTailInVarArgFn = checkForMustTailInVarArgFn(IsVarArg, BB);
3444a61c214fSAhmed Bougacha }
3445a61c214fSAhmed Bougacha
3446b1c1095fSJessica Paquette MF->getFrameInfo().setHasMustTailInVarArgFunc(HasMustTailInVarArgFn);
3447b1c1095fSJessica Paquette
3448a61c214fSAhmed Bougacha // Make our arguments/constants entry block fallthrough to the IR entry block.
3449a61c214fSAhmed Bougacha EntryBB->addSuccessor(&getMBB(F.front()));
3450a61c214fSAhmed Bougacha
3451d7fed7b8SAmara Emerson if (CLI->fallBackToDAGISel(*MF)) {
345279d34a5aSDavid Sherwood OptimizationRemarkMissed R("gisel-irtranslator", "GISelFailure",
345379d34a5aSDavid Sherwood F.getSubprogram(), &F.getEntryBlock());
345479d34a5aSDavid Sherwood R << "unable to lower function: " << ore::NV("Prototype", F.getType());
345579d34a5aSDavid Sherwood reportTranslationError(*MF, *TPC, *ORE, R);
345679d34a5aSDavid Sherwood return false;
345779d34a5aSDavid Sherwood }
345879d34a5aSDavid Sherwood
345905cc4859STim Northover // Lower the actual args into this basic block.
3460c3dbe239SDiana Picus SmallVector<ArrayRef<Register>, 8> VRegArgs;
3461d78d65c2SAmara Emerson for (const Argument &Arg: F.args()) {
3462143e324eSSander de Smalen if (DL->getTypeStoreSize(Arg.getType()).isZero())
3463d78d65c2SAmara Emerson continue; // Don't handle zero sized types.
3464c3dbe239SDiana Picus ArrayRef<Register> VRegs = getOrCreateVRegs(Arg);
3465c3dbe239SDiana Picus VRegArgs.push_back(VRegs);
34663b2157aeSTim Northover
3467c3dbe239SDiana Picus if (Arg.hasSwiftErrorAttr()) {
3468c3dbe239SDiana Picus assert(VRegs.size() == 1 && "Too many vregs for Swift error");
3469c3dbe239SDiana Picus SwiftError.setCurrentVReg(EntryBB, SwiftError.getFunctionArg(), VRegs[0]);
3470c3dbe239SDiana Picus }
3471d78d65c2SAmara Emerson }
34720d6a26dfSAmara Emerson
34731eada2adSKazu Hirata if (!CLI->lowerFormalArguments(*EntryBuilder, F, VRegArgs, FuncInfo)) {
34747c88a4e1SAhmed Bougacha OptimizationRemarkMissed R("gisel-irtranslator", "GISelFailure",
3475f1caa283SMatthias Braun F.getSubprogram(), &F.getEntryBlock());
3476ae9dadecSAhmed Bougacha R << "unable to lower arguments: " << ore::NV("Prototype", F.getType());
3477ae9dadecSAhmed Bougacha reportTranslationError(*MF, *TPC, *ORE, R);
34783bb32cc7SQuentin Colombet return false;
34793bb32cc7SQuentin Colombet }
3480fd9d0a07SQuentin Colombet
34816cdfe29dSAmara Emerson // Need to visit defs before uses when translating instructions.
3482500e3eadSAditya Nandakumar GISelObserverWrapper WrapperObserver;
3483500e3eadSAditya Nandakumar if (EnableCSE && CSEInfo)
3484500e3eadSAditya Nandakumar WrapperObserver.addObserver(CSEInfo);
34853b39040aSDaniel Sanders {
34866cdfe29dSAmara Emerson ReversePostOrderTraversal<const Function *> RPOT(&F);
34873b39040aSDaniel Sanders #ifndef NDEBUG
3488500e3eadSAditya Nandakumar DILocationVerifier Verifier;
3489500e3eadSAditya Nandakumar WrapperObserver.addObserver(&Verifier);
34903b39040aSDaniel Sanders #endif // ifndef NDEBUG
3491500e3eadSAditya Nandakumar RAIIDelegateInstaller DelInstall(*MF, &WrapperObserver);
3492b91d9ec0SAditya Nandakumar RAIIMFObserverInstaller ObsInstall(*MF, WrapperObserver);
34936cdfe29dSAmara Emerson for (const BasicBlock *BB : RPOT) {
34946cdfe29dSAmara Emerson MachineBasicBlock &MBB = getMBB(*BB);
349591ebd71eSQuentin Colombet // Set the insertion point of all the following translations to
349691ebd71eSQuentin Colombet // the end of this basic block.
3497500e3eadSAditya Nandakumar CurBuilder->setMBB(MBB);
3498469d42fcSJessica Paquette HasTailCall = false;
34996cdfe29dSAmara Emerson for (const Instruction &Inst : *BB) {
3500469d42fcSJessica Paquette // If we translated a tail call in the last step, then we know
3501469d42fcSJessica Paquette // everything after the call is either a return, or something that is
3502469d42fcSJessica Paquette // handled by the call itself. (E.g. a lifetime marker or assume
3503469d42fcSJessica Paquette // intrinsic.) In this case, we should stop translating the block and
3504469d42fcSJessica Paquette // move on.
3505469d42fcSJessica Paquette if (HasTailCall)
3506469d42fcSJessica Paquette break;
35073b39040aSDaniel Sanders #ifndef NDEBUG
35083b39040aSDaniel Sanders Verifier.setCurrentInst(&Inst);
35093b39040aSDaniel Sanders #endif // ifndef NDEBUG
35108f9e99bcSAhmed Bougacha if (translate(Inst))
35118f9e99bcSAhmed Bougacha continue;
35128f9e99bcSAhmed Bougacha
3513d630a92bSAhmed Bougacha OptimizationRemarkMissed R("gisel-irtranslator", "GISelFailure",
35146cdfe29dSAmara Emerson Inst.getDebugLoc(), BB);
3515d630a92bSAhmed Bougacha R << "unable to translate instruction: " << ore::NV("Opcode", &Inst);
3516d630a92bSAhmed Bougacha
3517d630a92bSAhmed Bougacha if (ORE->allowExtraAnalysis("gisel-irtranslator")) {
3518ae9dadecSAhmed Bougacha std::string InstStrStorage;
3519ae9dadecSAhmed Bougacha raw_string_ostream InstStr(InstStrStorage);
3520ae9dadecSAhmed Bougacha InstStr << Inst;
3521ae9dadecSAhmed Bougacha
3522d630a92bSAhmed Bougacha R << ": '" << InstStr.str() << "'";
3523d630a92bSAhmed Bougacha }
3524d630a92bSAhmed Bougacha
3525ae9dadecSAhmed Bougacha reportTranslationError(*MF, *TPC, *ORE, R);
35264f8dd020SAhmed Bougacha return false;
35272ecff3bfSQuentin Colombet }
3528fe4625fbSAmara Emerson
352996c2a0c9SEli Friedman if (!finalizeBasicBlock(*BB, MBB)) {
353096c2a0c9SEli Friedman OptimizationRemarkMissed R("gisel-irtranslator", "GISelFailure",
353196c2a0c9SEli Friedman BB->getTerminator()->getDebugLoc(), BB);
353296c2a0c9SEli Friedman R << "unable to translate basic block";
353396c2a0c9SEli Friedman reportTranslationError(*MF, *TPC, *ORE, R);
3534cfef1803SAmara Emerson return false;
35352ecff3bfSQuentin Colombet }
353696c2a0c9SEli Friedman }
3537500e3eadSAditya Nandakumar #ifndef NDEBUG
3538500e3eadSAditya Nandakumar WrapperObserver.removeObserver(&Verifier);
3539500e3eadSAditya Nandakumar #endif
35403b39040aSDaniel Sanders }
354172eebfa4STim Northover
3542800638fdSTim Northover finishPendingPhis();
354397d0cb31STim Northover
35443b2157aeSTim Northover SwiftError.propagateVRegs();
35453b2157aeSTim Northover
3546327f9428SQuentin Colombet // Merge the argument lowering and constants block with its single
3547327f9428SQuentin Colombet // successor, the LLVM-IR entry block. We want the basic block to
3548327f9428SQuentin Colombet // be maximal.
3549327f9428SQuentin Colombet assert(EntryBB->succ_size() == 1 &&
3550327f9428SQuentin Colombet "Custom BB used for lowering should have only one successor");
3551327f9428SQuentin Colombet // Get the successor of the current entry block.
3552327f9428SQuentin Colombet MachineBasicBlock &NewEntryBB = **EntryBB->succ_begin();
3553327f9428SQuentin Colombet assert(NewEntryBB.pred_size() == 1 &&
3554327f9428SQuentin Colombet "LLVM-IR entry block has a predecessor!?");
3555327f9428SQuentin Colombet // Move all the instruction from the current entry block to the
3556327f9428SQuentin Colombet // new entry block.
3557327f9428SQuentin Colombet NewEntryBB.splice(NewEntryBB.begin(), EntryBB, EntryBB->begin(),
3558327f9428SQuentin Colombet EntryBB->end());
3559327f9428SQuentin Colombet
3560327f9428SQuentin Colombet // Update the live-in information for the new entry block.
3561327f9428SQuentin Colombet for (const MachineBasicBlock::RegisterMaskPair &LiveIn : EntryBB->liveins())
3562327f9428SQuentin Colombet NewEntryBB.addLiveIn(LiveIn);
3563327f9428SQuentin Colombet NewEntryBB.sortUniqueLiveIns();
3564327f9428SQuentin Colombet
3565327f9428SQuentin Colombet // Get rid of the now empty basic block.
3566327f9428SQuentin Colombet EntryBB->removeSuccessor(&NewEntryBB);
3567327f9428SQuentin Colombet MF->remove(EntryBB);
356891a0da01SMircea Trofin MF->deleteMachineBasicBlock(EntryBB);
3569327f9428SQuentin Colombet
3570327f9428SQuentin Colombet assert(&MF->front() == &NewEntryBB &&
3571327f9428SQuentin Colombet "New entry wasn't next in the list of basic block!");
3572800638fdSTim Northover
357390ad6835SMatthias Braun // Initialize stack protector information.
357490ad6835SMatthias Braun StackProtector &SP = getAnalysis<StackProtector>();
357590ad6835SMatthias Braun SP.copyToMachineFrameInfo(MF->getFrameInfo());
357690ad6835SMatthias Braun
3577105cf2b1SQuentin Colombet return false;
3578105cf2b1SQuentin Colombet }
3579