1053fce9aSEric Christopher //===- X86AvoidStoreForwardingBlocks.cpp - Avoid HW Store Forward Block ---===//
292746830SLama Saba //
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
692746830SLama Saba //
792746830SLama Saba //===----------------------------------------------------------------------===//
892746830SLama Saba //
992746830SLama Saba // If a load follows a store and reloads data that the store has written to
1092746830SLama Saba // memory, Intel microarchitectures can in many cases forward the data directly
1192746830SLama Saba // from the store to the load, This "store forwarding" saves cycles by enabling
1292746830SLama Saba // the load to directly obtain the data instead of accessing the data from
1392746830SLama Saba // cache or memory.
1492746830SLama Saba // A "store forward block" occurs in cases that a store cannot be forwarded to
1592746830SLama Saba // the load. The most typical case of store forward block on Intel Core
1692746830SLama Saba // microarchitecture that a small store cannot be forwarded to a large load.
1792746830SLama Saba // The estimated penalty for a store forward block is ~13 cycles.
1892746830SLama Saba //
1992746830SLama Saba // This pass tries to recognize and handle cases where "store forward block"
2092746830SLama Saba // is created by the compiler when lowering memcpy calls to a sequence
2192746830SLama Saba // of a load and a store.
2292746830SLama Saba //
2392746830SLama Saba // The pass currently only handles cases where memcpy is lowered to
2492746830SLama Saba // XMM/YMM registers, it tries to break the memcpy into smaller copies.
2592746830SLama Saba // breaking the memcpy should be possible since there is no atomicity
2692746830SLama Saba // guarantee for loads and stores to XMM/YMM.
2792746830SLama Saba //
2892746830SLama Saba // It could be better for performance to solve the problem by loading
2992746830SLama Saba // to XMM/YMM then inserting the partial store before storing back from XMM/YMM
3092746830SLama Saba // to memory, but this will result in a more conservative optimization since it
3192746830SLama Saba // requires we prove that all memory accesses between the blocking store and the
3292746830SLama Saba // load must alias/don't alias before we can move the store, whereas the
3392746830SLama Saba // transformation done here is correct regardless to other memory accesses.
3492746830SLama Saba //===----------------------------------------------------------------------===//
3592746830SLama Saba
3695595570SSimon Pilgrim #include "X86.h"
3792746830SLama Saba #include "X86InstrInfo.h"
3892746830SLama Saba #include "X86Subtarget.h"
390ad6c191SReid Kleckner #include "llvm/Analysis/AliasAnalysis.h"
4092746830SLama Saba #include "llvm/CodeGen/MachineBasicBlock.h"
4192746830SLama Saba #include "llvm/CodeGen/MachineFunction.h"
4292746830SLama Saba #include "llvm/CodeGen/MachineFunctionPass.h"
4392746830SLama Saba #include "llvm/CodeGen/MachineInstr.h"
4492746830SLama Saba #include "llvm/CodeGen/MachineInstrBuilder.h"
4592746830SLama Saba #include "llvm/CodeGen/MachineOperand.h"
4692746830SLama Saba #include "llvm/CodeGen/MachineRegisterInfo.h"
4792746830SLama Saba #include "llvm/IR/DebugInfoMetadata.h"
4892746830SLama Saba #include "llvm/IR/DebugLoc.h"
4992746830SLama Saba #include "llvm/IR/Function.h"
5005da2fe5SReid Kleckner #include "llvm/InitializePasses.h"
5192746830SLama Saba #include "llvm/MC/MCInstrDesc.h"
5292746830SLama Saba
5392746830SLama Saba using namespace llvm;
5492746830SLama Saba
5592746830SLama Saba #define DEBUG_TYPE "x86-avoid-SFB"
5692746830SLama Saba
5792746830SLama Saba static cl::opt<bool> DisableX86AvoidStoreForwardBlocks(
5892746830SLama Saba "x86-disable-avoid-SFB", cl::Hidden,
5992746830SLama Saba cl::desc("X86: Disable Store Forwarding Blocks fixup."), cl::init(false));
6092746830SLama Saba
6192746830SLama Saba static cl::opt<unsigned> X86AvoidSFBInspectionLimit(
6292746830SLama Saba "x86-sfb-inspection-limit",
6392746830SLama Saba cl::desc("X86: Number of instructions backward to "
6492746830SLama Saba "inspect for store forwarding blocks."),
6592746830SLama Saba cl::init(20), cl::Hidden);
6692746830SLama Saba
6792746830SLama Saba namespace {
6892746830SLama Saba
6992746830SLama Saba using DisplacementSizeMap = std::map<int64_t, unsigned>;
7092746830SLama Saba
7192746830SLama Saba class X86AvoidSFBPass : public MachineFunctionPass {
7292746830SLama Saba public:
7392746830SLama Saba static char ID;
X86AvoidSFBPass()74f3356722STom Stellard X86AvoidSFBPass() : MachineFunctionPass(ID) { }
7592746830SLama Saba
getPassName() const7692746830SLama Saba StringRef getPassName() const override {
7792746830SLama Saba return "X86 Avoid Store Forwarding Blocks";
7892746830SLama Saba }
7992746830SLama Saba
8092746830SLama Saba bool runOnMachineFunction(MachineFunction &MF) override;
8192746830SLama Saba
getAnalysisUsage(AnalysisUsage & AU) const8292746830SLama Saba void getAnalysisUsage(AnalysisUsage &AU) const override {
8392746830SLama Saba MachineFunctionPass::getAnalysisUsage(AU);
8492746830SLama Saba AU.addRequired<AAResultsWrapperPass>();
8592746830SLama Saba }
8692746830SLama Saba
8792746830SLama Saba private:
88a8653da4SSimon Pilgrim MachineRegisterInfo *MRI = nullptr;
89a8653da4SSimon Pilgrim const X86InstrInfo *TII = nullptr;
90a8653da4SSimon Pilgrim const X86RegisterInfo *TRI = nullptr;
9192746830SLama Saba SmallVector<std::pair<MachineInstr *, MachineInstr *>, 2>
9292746830SLama Saba BlockedLoadsStoresPairs;
9392746830SLama Saba SmallVector<MachineInstr *, 2> ForRemoval;
94a8653da4SSimon Pilgrim AliasAnalysis *AA = nullptr;
9592746830SLama Saba
965f8f34e4SAdrian Prantl /// Returns couples of Load then Store to memory which look
9792746830SLama Saba /// like a memcpy.
9892746830SLama Saba void findPotentiallylBlockedCopies(MachineFunction &MF);
995f8f34e4SAdrian Prantl /// Break the memcpy's load and store into smaller copies
10092746830SLama Saba /// such that each memory load that was blocked by a smaller store
10192746830SLama Saba /// would now be copied separately.
10292746830SLama Saba void breakBlockedCopies(MachineInstr *LoadInst, MachineInstr *StoreInst,
10392746830SLama Saba const DisplacementSizeMap &BlockingStoresDispSizeMap);
1045f8f34e4SAdrian Prantl /// Break a copy of size Size to smaller copies.
10592746830SLama Saba void buildCopies(int Size, MachineInstr *LoadInst, int64_t LdDispImm,
10692746830SLama Saba MachineInstr *StoreInst, int64_t StDispImm,
10792746830SLama Saba int64_t LMMOffset, int64_t SMMOffset);
10892746830SLama Saba
10992746830SLama Saba void buildCopy(MachineInstr *LoadInst, unsigned NLoadOpcode, int64_t LoadDisp,
11092746830SLama Saba MachineInstr *StoreInst, unsigned NStoreOpcode,
11192746830SLama Saba int64_t StoreDisp, unsigned Size, int64_t LMMOffset,
11292746830SLama Saba int64_t SMMOffset);
11392746830SLama Saba
11492746830SLama Saba bool alias(const MachineMemOperand &Op1, const MachineMemOperand &Op2) const;
11592746830SLama Saba
11692746830SLama Saba unsigned getRegSizeInBytes(MachineInstr *Inst);
11792746830SLama Saba };
11892746830SLama Saba
11992746830SLama Saba } // end anonymous namespace
12092746830SLama Saba
12192746830SLama Saba char X86AvoidSFBPass::ID = 0;
12292746830SLama Saba
12392746830SLama Saba INITIALIZE_PASS_BEGIN(X86AvoidSFBPass, DEBUG_TYPE, "Machine code sinking",
12492746830SLama Saba false, false)
INITIALIZE_PASS_DEPENDENCY(AAResultsWrapperPass)12592746830SLama Saba INITIALIZE_PASS_DEPENDENCY(AAResultsWrapperPass)
12692746830SLama Saba INITIALIZE_PASS_END(X86AvoidSFBPass, DEBUG_TYPE, "Machine code sinking", false,
12792746830SLama Saba false)
12892746830SLama Saba
12992746830SLama Saba FunctionPass *llvm::createX86AvoidStoreForwardingBlocks() {
13092746830SLama Saba return new X86AvoidSFBPass();
13192746830SLama Saba }
13292746830SLama Saba
isXMMLoadOpcode(unsigned Opcode)13392746830SLama Saba static bool isXMMLoadOpcode(unsigned Opcode) {
13492746830SLama Saba return Opcode == X86::MOVUPSrm || Opcode == X86::MOVAPSrm ||
13592746830SLama Saba Opcode == X86::VMOVUPSrm || Opcode == X86::VMOVAPSrm ||
13692746830SLama Saba Opcode == X86::VMOVUPDrm || Opcode == X86::VMOVAPDrm ||
13792746830SLama Saba Opcode == X86::VMOVDQUrm || Opcode == X86::VMOVDQArm ||
13892746830SLama Saba Opcode == X86::VMOVUPSZ128rm || Opcode == X86::VMOVAPSZ128rm ||
13992746830SLama Saba Opcode == X86::VMOVUPDZ128rm || Opcode == X86::VMOVAPDZ128rm ||
14092746830SLama Saba Opcode == X86::VMOVDQU64Z128rm || Opcode == X86::VMOVDQA64Z128rm ||
14192746830SLama Saba Opcode == X86::VMOVDQU32Z128rm || Opcode == X86::VMOVDQA32Z128rm;
14292746830SLama Saba }
isYMMLoadOpcode(unsigned Opcode)14392746830SLama Saba static bool isYMMLoadOpcode(unsigned Opcode) {
14492746830SLama Saba return Opcode == X86::VMOVUPSYrm || Opcode == X86::VMOVAPSYrm ||
14592746830SLama Saba Opcode == X86::VMOVUPDYrm || Opcode == X86::VMOVAPDYrm ||
14692746830SLama Saba Opcode == X86::VMOVDQUYrm || Opcode == X86::VMOVDQAYrm ||
14792746830SLama Saba Opcode == X86::VMOVUPSZ256rm || Opcode == X86::VMOVAPSZ256rm ||
14892746830SLama Saba Opcode == X86::VMOVUPDZ256rm || Opcode == X86::VMOVAPDZ256rm ||
14992746830SLama Saba Opcode == X86::VMOVDQU64Z256rm || Opcode == X86::VMOVDQA64Z256rm ||
15092746830SLama Saba Opcode == X86::VMOVDQU32Z256rm || Opcode == X86::VMOVDQA32Z256rm;
15192746830SLama Saba }
15292746830SLama Saba
isPotentialBlockedMemCpyLd(unsigned Opcode)15392746830SLama Saba static bool isPotentialBlockedMemCpyLd(unsigned Opcode) {
15492746830SLama Saba return isXMMLoadOpcode(Opcode) || isYMMLoadOpcode(Opcode);
15592746830SLama Saba }
15692746830SLama Saba
isPotentialBlockedMemCpyPair(unsigned LdOpcode,unsigned StOpcode)1575bb27e73SSimon Pilgrim static bool isPotentialBlockedMemCpyPair(unsigned LdOpcode, unsigned StOpcode) {
15892746830SLama Saba switch (LdOpcode) {
15992746830SLama Saba case X86::MOVUPSrm:
16092746830SLama Saba case X86::MOVAPSrm:
16192746830SLama Saba return StOpcode == X86::MOVUPSmr || StOpcode == X86::MOVAPSmr;
16292746830SLama Saba case X86::VMOVUPSrm:
16392746830SLama Saba case X86::VMOVAPSrm:
16492746830SLama Saba return StOpcode == X86::VMOVUPSmr || StOpcode == X86::VMOVAPSmr;
16592746830SLama Saba case X86::VMOVUPDrm:
16692746830SLama Saba case X86::VMOVAPDrm:
16792746830SLama Saba return StOpcode == X86::VMOVUPDmr || StOpcode == X86::VMOVAPDmr;
16892746830SLama Saba case X86::VMOVDQUrm:
16992746830SLama Saba case X86::VMOVDQArm:
17092746830SLama Saba return StOpcode == X86::VMOVDQUmr || StOpcode == X86::VMOVDQAmr;
17192746830SLama Saba case X86::VMOVUPSZ128rm:
17292746830SLama Saba case X86::VMOVAPSZ128rm:
17392746830SLama Saba return StOpcode == X86::VMOVUPSZ128mr || StOpcode == X86::VMOVAPSZ128mr;
17492746830SLama Saba case X86::VMOVUPDZ128rm:
17592746830SLama Saba case X86::VMOVAPDZ128rm:
17692746830SLama Saba return StOpcode == X86::VMOVUPDZ128mr || StOpcode == X86::VMOVAPDZ128mr;
17792746830SLama Saba case X86::VMOVUPSYrm:
17892746830SLama Saba case X86::VMOVAPSYrm:
17992746830SLama Saba return StOpcode == X86::VMOVUPSYmr || StOpcode == X86::VMOVAPSYmr;
18092746830SLama Saba case X86::VMOVUPDYrm:
18192746830SLama Saba case X86::VMOVAPDYrm:
18292746830SLama Saba return StOpcode == X86::VMOVUPDYmr || StOpcode == X86::VMOVAPDYmr;
18392746830SLama Saba case X86::VMOVDQUYrm:
18492746830SLama Saba case X86::VMOVDQAYrm:
18592746830SLama Saba return StOpcode == X86::VMOVDQUYmr || StOpcode == X86::VMOVDQAYmr;
18692746830SLama Saba case X86::VMOVUPSZ256rm:
18792746830SLama Saba case X86::VMOVAPSZ256rm:
18892746830SLama Saba return StOpcode == X86::VMOVUPSZ256mr || StOpcode == X86::VMOVAPSZ256mr;
18992746830SLama Saba case X86::VMOVUPDZ256rm:
19092746830SLama Saba case X86::VMOVAPDZ256rm:
19192746830SLama Saba return StOpcode == X86::VMOVUPDZ256mr || StOpcode == X86::VMOVAPDZ256mr;
19292746830SLama Saba case X86::VMOVDQU64Z128rm:
19392746830SLama Saba case X86::VMOVDQA64Z128rm:
19492746830SLama Saba return StOpcode == X86::VMOVDQU64Z128mr || StOpcode == X86::VMOVDQA64Z128mr;
19592746830SLama Saba case X86::VMOVDQU32Z128rm:
19692746830SLama Saba case X86::VMOVDQA32Z128rm:
19792746830SLama Saba return StOpcode == X86::VMOVDQU32Z128mr || StOpcode == X86::VMOVDQA32Z128mr;
19892746830SLama Saba case X86::VMOVDQU64Z256rm:
19992746830SLama Saba case X86::VMOVDQA64Z256rm:
20092746830SLama Saba return StOpcode == X86::VMOVDQU64Z256mr || StOpcode == X86::VMOVDQA64Z256mr;
20192746830SLama Saba case X86::VMOVDQU32Z256rm:
20292746830SLama Saba case X86::VMOVDQA32Z256rm:
20392746830SLama Saba return StOpcode == X86::VMOVDQU32Z256mr || StOpcode == X86::VMOVDQA32Z256mr;
20492746830SLama Saba default:
20592746830SLama Saba return false;
20692746830SLama Saba }
20792746830SLama Saba }
20892746830SLama Saba
isPotentialBlockingStoreInst(unsigned Opcode,unsigned LoadOpcode)2095bb27e73SSimon Pilgrim static bool isPotentialBlockingStoreInst(unsigned Opcode, unsigned LoadOpcode) {
21092746830SLama Saba bool PBlock = false;
21192746830SLama Saba PBlock |= Opcode == X86::MOV64mr || Opcode == X86::MOV64mi32 ||
21292746830SLama Saba Opcode == X86::MOV32mr || Opcode == X86::MOV32mi ||
21392746830SLama Saba Opcode == X86::MOV16mr || Opcode == X86::MOV16mi ||
21492746830SLama Saba Opcode == X86::MOV8mr || Opcode == X86::MOV8mi;
21592746830SLama Saba if (isYMMLoadOpcode(LoadOpcode))
21692746830SLama Saba PBlock |= Opcode == X86::VMOVUPSmr || Opcode == X86::VMOVAPSmr ||
21792746830SLama Saba Opcode == X86::VMOVUPDmr || Opcode == X86::VMOVAPDmr ||
21892746830SLama Saba Opcode == X86::VMOVDQUmr || Opcode == X86::VMOVDQAmr ||
21992746830SLama Saba Opcode == X86::VMOVUPSZ128mr || Opcode == X86::VMOVAPSZ128mr ||
22092746830SLama Saba Opcode == X86::VMOVUPDZ128mr || Opcode == X86::VMOVAPDZ128mr ||
22192746830SLama Saba Opcode == X86::VMOVDQU64Z128mr ||
22292746830SLama Saba Opcode == X86::VMOVDQA64Z128mr ||
22392746830SLama Saba Opcode == X86::VMOVDQU32Z128mr || Opcode == X86::VMOVDQA32Z128mr;
22492746830SLama Saba return PBlock;
22592746830SLama Saba }
22692746830SLama Saba
22792746830SLama Saba static const int MOV128SZ = 16;
22892746830SLama Saba static const int MOV64SZ = 8;
22992746830SLama Saba static const int MOV32SZ = 4;
23092746830SLama Saba static const int MOV16SZ = 2;
23192746830SLama Saba static const int MOV8SZ = 1;
23292746830SLama Saba
getYMMtoXMMLoadOpcode(unsigned LoadOpcode)23392746830SLama Saba static unsigned getYMMtoXMMLoadOpcode(unsigned LoadOpcode) {
23492746830SLama Saba switch (LoadOpcode) {
23592746830SLama Saba case X86::VMOVUPSYrm:
23692746830SLama Saba case X86::VMOVAPSYrm:
23792746830SLama Saba return X86::VMOVUPSrm;
23892746830SLama Saba case X86::VMOVUPDYrm:
23992746830SLama Saba case X86::VMOVAPDYrm:
24092746830SLama Saba return X86::VMOVUPDrm;
24192746830SLama Saba case X86::VMOVDQUYrm:
24292746830SLama Saba case X86::VMOVDQAYrm:
24392746830SLama Saba return X86::VMOVDQUrm;
24492746830SLama Saba case X86::VMOVUPSZ256rm:
24592746830SLama Saba case X86::VMOVAPSZ256rm:
24692746830SLama Saba return X86::VMOVUPSZ128rm;
24792746830SLama Saba case X86::VMOVUPDZ256rm:
24892746830SLama Saba case X86::VMOVAPDZ256rm:
24992746830SLama Saba return X86::VMOVUPDZ128rm;
25092746830SLama Saba case X86::VMOVDQU64Z256rm:
25192746830SLama Saba case X86::VMOVDQA64Z256rm:
25292746830SLama Saba return X86::VMOVDQU64Z128rm;
25392746830SLama Saba case X86::VMOVDQU32Z256rm:
25492746830SLama Saba case X86::VMOVDQA32Z256rm:
25592746830SLama Saba return X86::VMOVDQU32Z128rm;
25692746830SLama Saba default:
25792746830SLama Saba llvm_unreachable("Unexpected Load Instruction Opcode");
25892746830SLama Saba }
25992746830SLama Saba return 0;
26092746830SLama Saba }
26192746830SLama Saba
getYMMtoXMMStoreOpcode(unsigned StoreOpcode)26292746830SLama Saba static unsigned getYMMtoXMMStoreOpcode(unsigned StoreOpcode) {
26392746830SLama Saba switch (StoreOpcode) {
26492746830SLama Saba case X86::VMOVUPSYmr:
26592746830SLama Saba case X86::VMOVAPSYmr:
26692746830SLama Saba return X86::VMOVUPSmr;
26792746830SLama Saba case X86::VMOVUPDYmr:
26892746830SLama Saba case X86::VMOVAPDYmr:
26992746830SLama Saba return X86::VMOVUPDmr;
27092746830SLama Saba case X86::VMOVDQUYmr:
27192746830SLama Saba case X86::VMOVDQAYmr:
27292746830SLama Saba return X86::VMOVDQUmr;
27392746830SLama Saba case X86::VMOVUPSZ256mr:
27492746830SLama Saba case X86::VMOVAPSZ256mr:
27592746830SLama Saba return X86::VMOVUPSZ128mr;
27692746830SLama Saba case X86::VMOVUPDZ256mr:
27792746830SLama Saba case X86::VMOVAPDZ256mr:
27892746830SLama Saba return X86::VMOVUPDZ128mr;
27992746830SLama Saba case X86::VMOVDQU64Z256mr:
28092746830SLama Saba case X86::VMOVDQA64Z256mr:
28192746830SLama Saba return X86::VMOVDQU64Z128mr;
28292746830SLama Saba case X86::VMOVDQU32Z256mr:
28392746830SLama Saba case X86::VMOVDQA32Z256mr:
28492746830SLama Saba return X86::VMOVDQU32Z128mr;
28592746830SLama Saba default:
28692746830SLama Saba llvm_unreachable("Unexpected Load Instruction Opcode");
28792746830SLama Saba }
28892746830SLama Saba return 0;
28992746830SLama Saba }
29092746830SLama Saba
getAddrOffset(const MachineInstr * MI)29121a7b8a7SEric Christopher static int getAddrOffset(const MachineInstr *MI) {
29292746830SLama Saba const MCInstrDesc &Descl = MI->getDesc();
29392746830SLama Saba int AddrOffset = X86II::getMemoryOperandNo(Descl.TSFlags);
29492746830SLama Saba assert(AddrOffset != -1 && "Expected Memory Operand");
29592746830SLama Saba AddrOffset += X86II::getOperandBias(Descl);
29692746830SLama Saba return AddrOffset;
29792746830SLama Saba }
29892746830SLama Saba
getBaseOperand(MachineInstr * MI)29992746830SLama Saba static MachineOperand &getBaseOperand(MachineInstr *MI) {
30092746830SLama Saba int AddrOffset = getAddrOffset(MI);
30192746830SLama Saba return MI->getOperand(AddrOffset + X86::AddrBaseReg);
30292746830SLama Saba }
30392746830SLama Saba
getDispOperand(MachineInstr * MI)30492746830SLama Saba static MachineOperand &getDispOperand(MachineInstr *MI) {
30592746830SLama Saba int AddrOffset = getAddrOffset(MI);
30692746830SLama Saba return MI->getOperand(AddrOffset + X86::AddrDisp);
30792746830SLama Saba }
30892746830SLama Saba
30992746830SLama Saba // Relevant addressing modes contain only base register and immediate
31092746830SLama Saba // displacement or frameindex and immediate displacement.
31192746830SLama Saba // TODO: Consider expanding to other addressing modes in the future
isRelevantAddressingMode(MachineInstr * MI)31292746830SLama Saba static bool isRelevantAddressingMode(MachineInstr *MI) {
31392746830SLama Saba int AddrOffset = getAddrOffset(MI);
31421a7b8a7SEric Christopher const MachineOperand &Base = getBaseOperand(MI);
31521a7b8a7SEric Christopher const MachineOperand &Disp = getDispOperand(MI);
31621a7b8a7SEric Christopher const MachineOperand &Scale = MI->getOperand(AddrOffset + X86::AddrScaleAmt);
31721a7b8a7SEric Christopher const MachineOperand &Index = MI->getOperand(AddrOffset + X86::AddrIndexReg);
31821a7b8a7SEric Christopher const MachineOperand &Segment = MI->getOperand(AddrOffset + X86::AddrSegmentReg);
31992746830SLama Saba
32092746830SLama Saba if (!((Base.isReg() && Base.getReg() != X86::NoRegister) || Base.isFI()))
32192746830SLama Saba return false;
32292746830SLama Saba if (!Disp.isImm())
32392746830SLama Saba return false;
32492746830SLama Saba if (Scale.getImm() != 1)
32592746830SLama Saba return false;
32692746830SLama Saba if (!(Index.isReg() && Index.getReg() == X86::NoRegister))
32792746830SLama Saba return false;
32892746830SLama Saba if (!(Segment.isReg() && Segment.getReg() == X86::NoRegister))
32992746830SLama Saba return false;
33092746830SLama Saba return true;
33192746830SLama Saba }
33292746830SLama Saba
33392746830SLama Saba // Collect potentially blocking stores.
33492746830SLama Saba // Limit the number of instructions backwards we want to inspect
33592746830SLama Saba // since the effect of store block won't be visible if the store
33692746830SLama Saba // and load instructions have enough instructions in between to
33792746830SLama Saba // keep the core busy.
33892746830SLama Saba static SmallVector<MachineInstr *, 2>
findPotentialBlockers(MachineInstr * LoadInst)33992746830SLama Saba findPotentialBlockers(MachineInstr *LoadInst) {
34092746830SLama Saba SmallVector<MachineInstr *, 2> PotentialBlockers;
34192746830SLama Saba unsigned BlockCount = 0;
34292746830SLama Saba const unsigned InspectionLimit = X86AvoidSFBInspectionLimit;
34392746830SLama Saba for (auto PBInst = std::next(MachineBasicBlock::reverse_iterator(LoadInst)),
34492746830SLama Saba E = LoadInst->getParent()->rend();
34592746830SLama Saba PBInst != E; ++PBInst) {
346e20030f6SRobert Lougher if (PBInst->isMetaInstruction())
347e20030f6SRobert Lougher continue;
34892746830SLama Saba BlockCount++;
34992746830SLama Saba if (BlockCount >= InspectionLimit)
35092746830SLama Saba break;
35192746830SLama Saba MachineInstr &MI = *PBInst;
35292746830SLama Saba if (MI.getDesc().isCall())
35392746830SLama Saba return PotentialBlockers;
35492746830SLama Saba PotentialBlockers.push_back(&MI);
35592746830SLama Saba }
35692746830SLama Saba // If we didn't get to the instructions limit try predecessing blocks.
35792746830SLama Saba // Ideally we should traverse the predecessor blocks in depth with some
35892746830SLama Saba // coloring algorithm, but for now let's just look at the first order
35992746830SLama Saba // predecessors.
36092746830SLama Saba if (BlockCount < InspectionLimit) {
36192746830SLama Saba MachineBasicBlock *MBB = LoadInst->getParent();
36292746830SLama Saba int LimitLeft = InspectionLimit - BlockCount;
363*41ef3187SKazu Hirata for (MachineBasicBlock *PMBB : MBB->predecessors()) {
36492746830SLama Saba int PredCount = 0;
36514d656b3SKazu Hirata for (MachineInstr &PBInst : llvm::reverse(*PMBB)) {
36614d656b3SKazu Hirata if (PBInst.isMetaInstruction())
367e20030f6SRobert Lougher continue;
36892746830SLama Saba PredCount++;
36992746830SLama Saba if (PredCount >= LimitLeft)
37092746830SLama Saba break;
37114d656b3SKazu Hirata if (PBInst.getDesc().isCall())
37292746830SLama Saba break;
37314d656b3SKazu Hirata PotentialBlockers.push_back(&PBInst);
37492746830SLama Saba }
37592746830SLama Saba }
37692746830SLama Saba }
37792746830SLama Saba return PotentialBlockers;
37892746830SLama Saba }
37992746830SLama Saba
buildCopy(MachineInstr * LoadInst,unsigned NLoadOpcode,int64_t LoadDisp,MachineInstr * StoreInst,unsigned NStoreOpcode,int64_t StoreDisp,unsigned Size,int64_t LMMOffset,int64_t SMMOffset)38092746830SLama Saba void X86AvoidSFBPass::buildCopy(MachineInstr *LoadInst, unsigned NLoadOpcode,
38192746830SLama Saba int64_t LoadDisp, MachineInstr *StoreInst,
38292746830SLama Saba unsigned NStoreOpcode, int64_t StoreDisp,
38392746830SLama Saba unsigned Size, int64_t LMMOffset,
38492746830SLama Saba int64_t SMMOffset) {
38592746830SLama Saba MachineOperand &LoadBase = getBaseOperand(LoadInst);
38692746830SLama Saba MachineOperand &StoreBase = getBaseOperand(StoreInst);
38792746830SLama Saba MachineBasicBlock *MBB = LoadInst->getParent();
38892746830SLama Saba MachineMemOperand *LMMO = *LoadInst->memoperands_begin();
38992746830SLama Saba MachineMemOperand *SMMO = *StoreInst->memoperands_begin();
39092746830SLama Saba
3910c476111SDaniel Sanders Register Reg1 = MRI->createVirtualRegister(
39292746830SLama Saba TII->getRegClass(TII->get(NLoadOpcode), 0, TRI, *(MBB->getParent())));
393a331f918SLama Saba MachineInstr *NewLoad =
394a331f918SLama Saba BuildMI(*MBB, LoadInst, LoadInst->getDebugLoc(), TII->get(NLoadOpcode),
395a331f918SLama Saba Reg1)
39692746830SLama Saba .add(LoadBase)
39792746830SLama Saba .addImm(1)
39892746830SLama Saba .addReg(X86::NoRegister)
39992746830SLama Saba .addImm(LoadDisp)
40092746830SLama Saba .addReg(X86::NoRegister)
40192746830SLama Saba .addMemOperand(
40292746830SLama Saba MBB->getParent()->getMachineMemOperand(LMMO, LMMOffset, Size));
403a331f918SLama Saba if (LoadBase.isReg())
404a331f918SLama Saba getBaseOperand(NewLoad).setIsKill(false);
405d34e60caSNicola Zaghen LLVM_DEBUG(NewLoad->dump());
40692746830SLama Saba // If the load and store are consecutive, use the loadInst location to
40792746830SLama Saba // reduce register pressure.
40892746830SLama Saba MachineInstr *StInst = StoreInst;
40910ce1bc8SVedant Kumar auto PrevInstrIt = prev_nodbg(MachineBasicBlock::instr_iterator(StoreInst),
410170dfeb2SRobert Lougher MBB->instr_begin());
411170dfeb2SRobert Lougher if (PrevInstrIt.getNodePtr() == LoadInst)
41292746830SLama Saba StInst = LoadInst;
413a331f918SLama Saba MachineInstr *NewStore =
41492746830SLama Saba BuildMI(*MBB, StInst, StInst->getDebugLoc(), TII->get(NStoreOpcode))
41592746830SLama Saba .add(StoreBase)
41692746830SLama Saba .addImm(1)
41792746830SLama Saba .addReg(X86::NoRegister)
41892746830SLama Saba .addImm(StoreDisp)
41992746830SLama Saba .addReg(X86::NoRegister)
42092746830SLama Saba .addReg(Reg1)
42192746830SLama Saba .addMemOperand(
42292746830SLama Saba MBB->getParent()->getMachineMemOperand(SMMO, SMMOffset, Size));
423a331f918SLama Saba if (StoreBase.isReg())
424a331f918SLama Saba getBaseOperand(NewStore).setIsKill(false);
425a331f918SLama Saba MachineOperand &StoreSrcVReg = StoreInst->getOperand(X86::AddrNumOperands);
426a331f918SLama Saba assert(StoreSrcVReg.isReg() && "Expected virtual register");
427a331f918SLama Saba NewStore->getOperand(X86::AddrNumOperands).setIsKill(StoreSrcVReg.isKill());
428d34e60caSNicola Zaghen LLVM_DEBUG(NewStore->dump());
42992746830SLama Saba }
43092746830SLama Saba
buildCopies(int Size,MachineInstr * LoadInst,int64_t LdDispImm,MachineInstr * StoreInst,int64_t StDispImm,int64_t LMMOffset,int64_t SMMOffset)43192746830SLama Saba void X86AvoidSFBPass::buildCopies(int Size, MachineInstr *LoadInst,
43292746830SLama Saba int64_t LdDispImm, MachineInstr *StoreInst,
43392746830SLama Saba int64_t StDispImm, int64_t LMMOffset,
43492746830SLama Saba int64_t SMMOffset) {
43592746830SLama Saba int LdDisp = LdDispImm;
43692746830SLama Saba int StDisp = StDispImm;
43792746830SLama Saba while (Size > 0) {
43892746830SLama Saba if ((Size - MOV128SZ >= 0) && isYMMLoadOpcode(LoadInst->getOpcode())) {
43992746830SLama Saba Size = Size - MOV128SZ;
44092746830SLama Saba buildCopy(LoadInst, getYMMtoXMMLoadOpcode(LoadInst->getOpcode()), LdDisp,
44192746830SLama Saba StoreInst, getYMMtoXMMStoreOpcode(StoreInst->getOpcode()),
44292746830SLama Saba StDisp, MOV128SZ, LMMOffset, SMMOffset);
44392746830SLama Saba LdDisp += MOV128SZ;
44492746830SLama Saba StDisp += MOV128SZ;
44592746830SLama Saba LMMOffset += MOV128SZ;
44692746830SLama Saba SMMOffset += MOV128SZ;
44792746830SLama Saba continue;
44892746830SLama Saba }
44992746830SLama Saba if (Size - MOV64SZ >= 0) {
45092746830SLama Saba Size = Size - MOV64SZ;
45192746830SLama Saba buildCopy(LoadInst, X86::MOV64rm, LdDisp, StoreInst, X86::MOV64mr, StDisp,
45292746830SLama Saba MOV64SZ, LMMOffset, SMMOffset);
45392746830SLama Saba LdDisp += MOV64SZ;
45492746830SLama Saba StDisp += MOV64SZ;
45592746830SLama Saba LMMOffset += MOV64SZ;
45692746830SLama Saba SMMOffset += MOV64SZ;
45792746830SLama Saba continue;
45892746830SLama Saba }
45992746830SLama Saba if (Size - MOV32SZ >= 0) {
46092746830SLama Saba Size = Size - MOV32SZ;
46192746830SLama Saba buildCopy(LoadInst, X86::MOV32rm, LdDisp, StoreInst, X86::MOV32mr, StDisp,
46292746830SLama Saba MOV32SZ, LMMOffset, SMMOffset);
46392746830SLama Saba LdDisp += MOV32SZ;
46492746830SLama Saba StDisp += MOV32SZ;
46592746830SLama Saba LMMOffset += MOV32SZ;
46692746830SLama Saba SMMOffset += MOV32SZ;
46792746830SLama Saba continue;
46892746830SLama Saba }
46992746830SLama Saba if (Size - MOV16SZ >= 0) {
47092746830SLama Saba Size = Size - MOV16SZ;
47192746830SLama Saba buildCopy(LoadInst, X86::MOV16rm, LdDisp, StoreInst, X86::MOV16mr, StDisp,
47292746830SLama Saba MOV16SZ, LMMOffset, SMMOffset);
47392746830SLama Saba LdDisp += MOV16SZ;
47492746830SLama Saba StDisp += MOV16SZ;
47592746830SLama Saba LMMOffset += MOV16SZ;
47692746830SLama Saba SMMOffset += MOV16SZ;
47792746830SLama Saba continue;
47892746830SLama Saba }
47992746830SLama Saba if (Size - MOV8SZ >= 0) {
48092746830SLama Saba Size = Size - MOV8SZ;
48192746830SLama Saba buildCopy(LoadInst, X86::MOV8rm, LdDisp, StoreInst, X86::MOV8mr, StDisp,
48292746830SLama Saba MOV8SZ, LMMOffset, SMMOffset);
48392746830SLama Saba LdDisp += MOV8SZ;
48492746830SLama Saba StDisp += MOV8SZ;
48592746830SLama Saba LMMOffset += MOV8SZ;
48692746830SLama Saba SMMOffset += MOV8SZ;
48792746830SLama Saba continue;
48892746830SLama Saba }
48992746830SLama Saba }
49092746830SLama Saba assert(Size == 0 && "Wrong size division");
49192746830SLama Saba }
49292746830SLama Saba
updateKillStatus(MachineInstr * LoadInst,MachineInstr * StoreInst)49392746830SLama Saba static void updateKillStatus(MachineInstr *LoadInst, MachineInstr *StoreInst) {
49492746830SLama Saba MachineOperand &LoadBase = getBaseOperand(LoadInst);
49592746830SLama Saba MachineOperand &StoreBase = getBaseOperand(StoreInst);
49621a7b8a7SEric Christopher auto *StorePrevNonDbgInstr =
49710ce1bc8SVedant Kumar prev_nodbg(MachineBasicBlock::instr_iterator(StoreInst),
49810ce1bc8SVedant Kumar LoadInst->getParent()->instr_begin())
49910ce1bc8SVedant Kumar .getNodePtr();
50092746830SLama Saba if (LoadBase.isReg()) {
50192746830SLama Saba MachineInstr *LastLoad = LoadInst->getPrevNode();
50292746830SLama Saba // If the original load and store to xmm/ymm were consecutive
50392746830SLama Saba // then the partial copies were also created in
50492746830SLama Saba // a consecutive order to reduce register pressure,
50592746830SLama Saba // and the location of the last load is before the last store.
5069dcfbbaeSRobert Lougher if (StorePrevNonDbgInstr == LoadInst)
50792746830SLama Saba LastLoad = LoadInst->getPrevNode()->getPrevNode();
50892746830SLama Saba getBaseOperand(LastLoad).setIsKill(LoadBase.isKill());
50992746830SLama Saba }
51092746830SLama Saba if (StoreBase.isReg()) {
51192746830SLama Saba MachineInstr *StInst = StoreInst;
5129dcfbbaeSRobert Lougher if (StorePrevNonDbgInstr == LoadInst)
51392746830SLama Saba StInst = LoadInst;
51492746830SLama Saba getBaseOperand(StInst->getPrevNode()).setIsKill(StoreBase.isKill());
51592746830SLama Saba }
51692746830SLama Saba }
51792746830SLama Saba
alias(const MachineMemOperand & Op1,const MachineMemOperand & Op2) const51892746830SLama Saba bool X86AvoidSFBPass::alias(const MachineMemOperand &Op1,
51992746830SLama Saba const MachineMemOperand &Op2) const {
52092746830SLama Saba if (!Op1.getValue() || !Op2.getValue())
52192746830SLama Saba return true;
52292746830SLama Saba
52392746830SLama Saba int64_t MinOffset = std::min(Op1.getOffset(), Op2.getOffset());
52492746830SLama Saba int64_t Overlapa = Op1.getSize() + Op1.getOffset() - MinOffset;
52592746830SLama Saba int64_t Overlapb = Op2.getSize() + Op2.getOffset() - MinOffset;
52692746830SLama Saba
527d0660797Sdfukalov return !AA->isNoAlias(
528d0660797Sdfukalov MemoryLocation(Op1.getValue(), Overlapa, Op1.getAAInfo()),
52992746830SLama Saba MemoryLocation(Op2.getValue(), Overlapb, Op2.getAAInfo()));
53092746830SLama Saba }
53192746830SLama Saba
findPotentiallylBlockedCopies(MachineFunction & MF)53292746830SLama Saba void X86AvoidSFBPass::findPotentiallylBlockedCopies(MachineFunction &MF) {
53392746830SLama Saba for (auto &MBB : MF)
53492746830SLama Saba for (auto &MI : MBB) {
53592746830SLama Saba if (!isPotentialBlockedMemCpyLd(MI.getOpcode()))
53692746830SLama Saba continue;
53792746830SLama Saba int DefVR = MI.getOperand(0).getReg();
538170dfeb2SRobert Lougher if (!MRI->hasOneNonDBGUse(DefVR))
53992746830SLama Saba continue;
54085b4b21cSKazu Hirata for (MachineOperand &StoreMO :
54185b4b21cSKazu Hirata llvm::make_early_inc_range(MRI->use_nodbg_operands(DefVR))) {
54292746830SLama Saba MachineInstr &StoreMI = *StoreMO.getParent();
54392746830SLama Saba // Skip cases where the memcpy may overlap.
54492746830SLama Saba if (StoreMI.getParent() == MI.getParent() &&
54592746830SLama Saba isPotentialBlockedMemCpyPair(MI.getOpcode(), StoreMI.getOpcode()) &&
54692746830SLama Saba isRelevantAddressingMode(&MI) &&
5478172ed91SCraig Topper isRelevantAddressingMode(&StoreMI) &&
5488172ed91SCraig Topper MI.hasOneMemOperand() && StoreMI.hasOneMemOperand()) {
54992746830SLama Saba if (!alias(**MI.memoperands_begin(), **StoreMI.memoperands_begin()))
55092746830SLama Saba BlockedLoadsStoresPairs.push_back(std::make_pair(&MI, &StoreMI));
55192746830SLama Saba }
55292746830SLama Saba }
55392746830SLama Saba }
55492746830SLama Saba }
55592746830SLama Saba
getRegSizeInBytes(MachineInstr * LoadInst)55692746830SLama Saba unsigned X86AvoidSFBPass::getRegSizeInBytes(MachineInstr *LoadInst) {
55721a7b8a7SEric Christopher const auto *TRC = TII->getRegClass(TII->get(LoadInst->getOpcode()), 0, TRI,
55892746830SLama Saba *LoadInst->getParent()->getParent());
55992746830SLama Saba return TRI->getRegSizeInBits(*TRC) / 8;
56092746830SLama Saba }
56192746830SLama Saba
breakBlockedCopies(MachineInstr * LoadInst,MachineInstr * StoreInst,const DisplacementSizeMap & BlockingStoresDispSizeMap)56292746830SLama Saba void X86AvoidSFBPass::breakBlockedCopies(
56392746830SLama Saba MachineInstr *LoadInst, MachineInstr *StoreInst,
56492746830SLama Saba const DisplacementSizeMap &BlockingStoresDispSizeMap) {
56592746830SLama Saba int64_t LdDispImm = getDispOperand(LoadInst).getImm();
56692746830SLama Saba int64_t StDispImm = getDispOperand(StoreInst).getImm();
5679417f7ffSLama Saba int64_t LMMOffset = 0;
5689417f7ffSLama Saba int64_t SMMOffset = 0;
56992746830SLama Saba
57092746830SLama Saba int64_t LdDisp1 = LdDispImm;
57192746830SLama Saba int64_t LdDisp2 = 0;
57292746830SLama Saba int64_t StDisp1 = StDispImm;
57392746830SLama Saba int64_t StDisp2 = 0;
57492746830SLama Saba unsigned Size1 = 0;
57592746830SLama Saba unsigned Size2 = 0;
57692746830SLama Saba int64_t LdStDelta = StDispImm - LdDispImm;
57792746830SLama Saba
57892746830SLama Saba for (auto DispSizePair : BlockingStoresDispSizeMap) {
57992746830SLama Saba LdDisp2 = DispSizePair.first;
58092746830SLama Saba StDisp2 = DispSizePair.first + LdStDelta;
58192746830SLama Saba Size2 = DispSizePair.second;
58292746830SLama Saba // Avoid copying overlapping areas.
58392746830SLama Saba if (LdDisp2 < LdDisp1) {
58492746830SLama Saba int OverlapDelta = LdDisp1 - LdDisp2;
58592746830SLama Saba LdDisp2 += OverlapDelta;
58692746830SLama Saba StDisp2 += OverlapDelta;
58792746830SLama Saba Size2 -= OverlapDelta;
58892746830SLama Saba }
589e7947789SNikita Popov Size1 = LdDisp2 - LdDisp1;
59092746830SLama Saba
59192746830SLama Saba // Build a copy for the point until the current blocking store's
59292746830SLama Saba // displacement.
59392746830SLama Saba buildCopies(Size1, LoadInst, LdDisp1, StoreInst, StDisp1, LMMOffset,
59492746830SLama Saba SMMOffset);
59592746830SLama Saba // Build a copy for the current blocking store.
59692746830SLama Saba buildCopies(Size2, LoadInst, LdDisp2, StoreInst, StDisp2, LMMOffset + Size1,
59792746830SLama Saba SMMOffset + Size1);
59892746830SLama Saba LdDisp1 = LdDisp2 + Size2;
59992746830SLama Saba StDisp1 = StDisp2 + Size2;
60092746830SLama Saba LMMOffset += Size1 + Size2;
60192746830SLama Saba SMMOffset += Size1 + Size2;
60292746830SLama Saba }
60392746830SLama Saba unsigned Size3 = (LdDispImm + getRegSizeInBytes(LoadInst)) - LdDisp1;
60492746830SLama Saba buildCopies(Size3, LoadInst, LdDisp1, StoreInst, StDisp1, LMMOffset,
60592746830SLama Saba LMMOffset);
60692746830SLama Saba }
60792746830SLama Saba
hasSameBaseOpValue(MachineInstr * LoadInst,MachineInstr * StoreInst)60892746830SLama Saba static bool hasSameBaseOpValue(MachineInstr *LoadInst,
60992746830SLama Saba MachineInstr *StoreInst) {
61021a7b8a7SEric Christopher const MachineOperand &LoadBase = getBaseOperand(LoadInst);
61121a7b8a7SEric Christopher const MachineOperand &StoreBase = getBaseOperand(StoreInst);
61292746830SLama Saba if (LoadBase.isReg() != StoreBase.isReg())
61392746830SLama Saba return false;
61492746830SLama Saba if (LoadBase.isReg())
61592746830SLama Saba return LoadBase.getReg() == StoreBase.getReg();
61692746830SLama Saba return LoadBase.getIndex() == StoreBase.getIndex();
61792746830SLama Saba }
61892746830SLama Saba
isBlockingStore(int64_t LoadDispImm,unsigned LoadSize,int64_t StoreDispImm,unsigned StoreSize)61992746830SLama Saba static bool isBlockingStore(int64_t LoadDispImm, unsigned LoadSize,
62092746830SLama Saba int64_t StoreDispImm, unsigned StoreSize) {
62192746830SLama Saba return ((StoreDispImm >= LoadDispImm) &&
62292746830SLama Saba (StoreDispImm <= LoadDispImm + (LoadSize - StoreSize)));
62392746830SLama Saba }
62492746830SLama Saba
62592746830SLama Saba // Keep track of all stores blocking a load
62692746830SLama Saba static void
updateBlockingStoresDispSizeMap(DisplacementSizeMap & BlockingStoresDispSizeMap,int64_t DispImm,unsigned Size)62792746830SLama Saba updateBlockingStoresDispSizeMap(DisplacementSizeMap &BlockingStoresDispSizeMap,
62892746830SLama Saba int64_t DispImm, unsigned Size) {
62992746830SLama Saba if (BlockingStoresDispSizeMap.count(DispImm)) {
63092746830SLama Saba // Choose the smallest blocking store starting at this displacement.
63192746830SLama Saba if (BlockingStoresDispSizeMap[DispImm] > Size)
63292746830SLama Saba BlockingStoresDispSizeMap[DispImm] = Size;
63392746830SLama Saba
63492746830SLama Saba } else
63592746830SLama Saba BlockingStoresDispSizeMap[DispImm] = Size;
63692746830SLama Saba }
63792746830SLama Saba
63892746830SLama Saba // Remove blocking stores contained in each other.
63992746830SLama Saba static void
removeRedundantBlockingStores(DisplacementSizeMap & BlockingStoresDispSizeMap)64092746830SLama Saba removeRedundantBlockingStores(DisplacementSizeMap &BlockingStoresDispSizeMap) {
64192746830SLama Saba if (BlockingStoresDispSizeMap.size() <= 1)
64292746830SLama Saba return;
64392746830SLama Saba
64429147034SCraig Topper SmallVector<std::pair<int64_t, unsigned>, 0> DispSizeStack;
64529147034SCraig Topper for (auto DispSizePair : BlockingStoresDispSizeMap) {
64629147034SCraig Topper int64_t CurrDisp = DispSizePair.first;
64729147034SCraig Topper unsigned CurrSize = DispSizePair.second;
64829147034SCraig Topper while (DispSizeStack.size()) {
64929147034SCraig Topper int64_t PrevDisp = DispSizeStack.back().first;
65029147034SCraig Topper unsigned PrevSize = DispSizeStack.back().second;
65129147034SCraig Topper if (CurrDisp + CurrSize > PrevDisp + PrevSize)
65229147034SCraig Topper break;
65329147034SCraig Topper DispSizeStack.pop_back();
65492746830SLama Saba }
65529147034SCraig Topper DispSizeStack.push_back(DispSizePair);
65692746830SLama Saba }
65729147034SCraig Topper BlockingStoresDispSizeMap.clear();
65829147034SCraig Topper for (auto Disp : DispSizeStack)
65929147034SCraig Topper BlockingStoresDispSizeMap.insert(Disp);
66092746830SLama Saba }
66192746830SLama Saba
runOnMachineFunction(MachineFunction & MF)66292746830SLama Saba bool X86AvoidSFBPass::runOnMachineFunction(MachineFunction &MF) {
66392746830SLama Saba bool Changed = false;
66492746830SLama Saba
66592746830SLama Saba if (DisableX86AvoidStoreForwardBlocks || skipFunction(MF.getFunction()) ||
66692746830SLama Saba !MF.getSubtarget<X86Subtarget>().is64Bit())
66792746830SLama Saba return false;
66892746830SLama Saba
66992746830SLama Saba MRI = &MF.getRegInfo();
67092746830SLama Saba assert(MRI->isSSA() && "Expected MIR to be in SSA form");
67192746830SLama Saba TII = MF.getSubtarget<X86Subtarget>().getInstrInfo();
67292746830SLama Saba TRI = MF.getSubtarget<X86Subtarget>().getRegisterInfo();
67392746830SLama Saba AA = &getAnalysis<AAResultsWrapperPass>().getAAResults();
674d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Start X86AvoidStoreForwardBlocks\n";);
67592746830SLama Saba // Look for a load then a store to XMM/YMM which look like a memcpy
67692746830SLama Saba findPotentiallylBlockedCopies(MF);
67792746830SLama Saba
67892746830SLama Saba for (auto LoadStoreInstPair : BlockedLoadsStoresPairs) {
67992746830SLama Saba MachineInstr *LoadInst = LoadStoreInstPair.first;
68092746830SLama Saba int64_t LdDispImm = getDispOperand(LoadInst).getImm();
68192746830SLama Saba DisplacementSizeMap BlockingStoresDispSizeMap;
68292746830SLama Saba
68392746830SLama Saba SmallVector<MachineInstr *, 2> PotentialBlockers =
68492746830SLama Saba findPotentialBlockers(LoadInst);
68521a7b8a7SEric Christopher for (auto *PBInst : PotentialBlockers) {
68692746830SLama Saba if (!isPotentialBlockingStoreInst(PBInst->getOpcode(),
68792746830SLama Saba LoadInst->getOpcode()) ||
6888172ed91SCraig Topper !isRelevantAddressingMode(PBInst) || !PBInst->hasOneMemOperand())
68992746830SLama Saba continue;
69092746830SLama Saba int64_t PBstDispImm = getDispOperand(PBInst).getImm();
69192746830SLama Saba unsigned PBstSize = (*PBInst->memoperands_begin())->getSize();
69292746830SLama Saba // This check doesn't cover all cases, but it will suffice for now.
69392746830SLama Saba // TODO: take branch probability into consideration, if the blocking
69492746830SLama Saba // store is in an unreached block, breaking the memcopy could lose
69592746830SLama Saba // performance.
69692746830SLama Saba if (hasSameBaseOpValue(LoadInst, PBInst) &&
69792746830SLama Saba isBlockingStore(LdDispImm, getRegSizeInBytes(LoadInst), PBstDispImm,
69892746830SLama Saba PBstSize))
69992746830SLama Saba updateBlockingStoresDispSizeMap(BlockingStoresDispSizeMap, PBstDispImm,
70092746830SLama Saba PBstSize);
70192746830SLama Saba }
70292746830SLama Saba
70392746830SLama Saba if (BlockingStoresDispSizeMap.empty())
70492746830SLama Saba continue;
70592746830SLama Saba
70692746830SLama Saba // We found a store forward block, break the memcpy's load and store
70792746830SLama Saba // into smaller copies such that each smaller store that was causing
70892746830SLama Saba // a store block would now be copied separately.
70992746830SLama Saba MachineInstr *StoreInst = LoadStoreInstPair.second;
710d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Blocked load and store instructions: \n");
711d34e60caSNicola Zaghen LLVM_DEBUG(LoadInst->dump());
712d34e60caSNicola Zaghen LLVM_DEBUG(StoreInst->dump());
713d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Replaced with:\n");
71492746830SLama Saba removeRedundantBlockingStores(BlockingStoresDispSizeMap);
71592746830SLama Saba breakBlockedCopies(LoadInst, StoreInst, BlockingStoresDispSizeMap);
71692746830SLama Saba updateKillStatus(LoadInst, StoreInst);
71792746830SLama Saba ForRemoval.push_back(LoadInst);
71892746830SLama Saba ForRemoval.push_back(StoreInst);
71992746830SLama Saba }
72021a7b8a7SEric Christopher for (auto *RemovedInst : ForRemoval) {
72192746830SLama Saba RemovedInst->eraseFromParent();
72292746830SLama Saba }
72392746830SLama Saba ForRemoval.clear();
72492746830SLama Saba BlockedLoadsStoresPairs.clear();
725d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "End X86AvoidStoreForwardBlocks\n";);
72692746830SLama Saba
72792746830SLama Saba return Changed;
72892746830SLama Saba }
729