1629db5d8SDaniel Sanders //===-- lib/CodeGen/GlobalISel/GICombinerHelper.cpp -----------------------===//
281c81b64SAditya Nandakumar //
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
681c81b64SAditya Nandakumar //
781c81b64SAditya Nandakumar //===----------------------------------------------------------------------===//
881c81b64SAditya Nandakumar #include "llvm/CodeGen/GlobalISel/CombinerHelper.h"
95d6d9b63SAmara Emerson #include "llvm/ADT/SetVector.h"
1055e76076SAmara Emerson #include "llvm/ADT/SmallBitVector.h"
11f75d4f32SAditya Nandakumar #include "llvm/CodeGen/GlobalISel/GISelChangeObserver.h"
12c8ac029dSAditya Nandakumar #include "llvm/CodeGen/GlobalISel/GISelKnownBits.h"
134e3dc6b8SAmara Emerson #include "llvm/CodeGen/GlobalISel/GenericMachineInstrs.h"
1436527cbeSMirko Brkusanin #include "llvm/CodeGen/GlobalISel/LegalizerHelper.h"
15a0c90b5bSAmara Emerson #include "llvm/CodeGen/GlobalISel/LegalizerInfo.h"
1663d70ea6SJessica Paquette #include "llvm/CodeGen/GlobalISel/MIPatternMatch.h"
1781c81b64SAditya Nandakumar #include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h"
1881c81b64SAditya Nandakumar #include "llvm/CodeGen/GlobalISel/Utils.h"
19e60ab721SAmara Emerson #include "llvm/CodeGen/LowLevelType.h"
205d6d9b63SAmara Emerson #include "llvm/CodeGen/MachineBasicBlock.h"
2136147adcSTim Northover #include "llvm/CodeGen/MachineDominators.h"
2281c81b64SAditya Nandakumar #include "llvm/CodeGen/MachineInstr.h"
2304a6ea5dSAmara Emerson #include "llvm/CodeGen/MachineMemOperand.h"
2481c81b64SAditya Nandakumar #include "llvm/CodeGen/MachineRegisterInfo.h"
25cb216076SMircea Trofin #include "llvm/CodeGen/RegisterBankInfo.h"
26c973ad18SDaniel Sanders #include "llvm/CodeGen/TargetInstrInfo.h"
2713af1ed8SAmara Emerson #include "llvm/CodeGen/TargetLowering.h"
28e60ab721SAmara Emerson #include "llvm/CodeGen/TargetOpcodes.h"
29eae44c8aSAmara Emerson #include "llvm/IR/DataLayout.h"
30eae44c8aSAmara Emerson #include "llvm/Support/Casting.h"
318bfc0e06SAmara Emerson #include "llvm/Support/DivisionByConstantInfo.h"
32c12f046eSAmara Emerson #include "llvm/Support/MathExtras.h"
33cb216076SMircea Trofin #include "llvm/Target/TargetMachine.h"
3403cdb522SAmara Emerson #include <tuple>
3581c81b64SAditya Nandakumar
36629db5d8SDaniel Sanders #define DEBUG_TYPE "gi-combiner"
3781c81b64SAditya Nandakumar
3881c81b64SAditya Nandakumar using namespace llvm;
3963d70ea6SJessica Paquette using namespace MIPatternMatch;
4081c81b64SAditya Nandakumar
4136147adcSTim Northover // Option to allow testing of the combiner while no targets know about indexed
4236147adcSTim Northover // addressing.
4336147adcSTim Northover static cl::opt<bool>
4436147adcSTim Northover ForceLegalIndexing("force-legal-indexing", cl::Hidden, cl::init(false),
4536147adcSTim Northover cl::desc("Force all indexed operations to be "
4636147adcSTim Northover "legal for the GlobalISel combiner"));
4736147adcSTim Northover
CombinerHelper(GISelChangeObserver & Observer,MachineIRBuilder & B,GISelKnownBits * KB,MachineDominatorTree * MDT,const LegalizerInfo * LI)48f75d4f32SAditya Nandakumar CombinerHelper::CombinerHelper(GISelChangeObserver &Observer,
4936147adcSTim Northover MachineIRBuilder &B, GISelKnownBits *KB,
50a0c90b5bSAmara Emerson MachineDominatorTree *MDT,
51a0c90b5bSAmara Emerson const LegalizerInfo *LI)
52fbae3463SSebastian Neubauer : Builder(B), MRI(Builder.getMF().getRegInfo()), Observer(Observer), KB(KB),
53fbae3463SSebastian Neubauer MDT(MDT), LI(LI), RBI(Builder.getMF().getSubtarget().getRegBankInfo()),
54fbae3463SSebastian Neubauer TRI(Builder.getMF().getSubtarget().getRegisterInfo()) {
55c8ac029dSAditya Nandakumar (void)this->KB;
56c8ac029dSAditya Nandakumar }
57c973ad18SDaniel Sanders
getTargetLowering() const58e1644a37SMatt Arsenault const TargetLowering &CombinerHelper::getTargetLowering() const {
59e1644a37SMatt Arsenault return *Builder.getMF().getSubtarget().getTargetLowering();
60e1644a37SMatt Arsenault }
61e1644a37SMatt Arsenault
62cfc60730SJessica Paquette /// \returns The little endian in-memory byte position of byte \p I in a
63cfc60730SJessica Paquette /// \p ByteWidth bytes wide type.
64cfc60730SJessica Paquette ///
65cfc60730SJessica Paquette /// E.g. Given a 4-byte type x, x[0] -> byte 0
littleEndianByteAt(const unsigned ByteWidth,const unsigned I)66cfc60730SJessica Paquette static unsigned littleEndianByteAt(const unsigned ByteWidth, const unsigned I) {
67cfc60730SJessica Paquette assert(I < ByteWidth && "I must be in [0, ByteWidth)");
68cfc60730SJessica Paquette return I;
69cfc60730SJessica Paquette }
70cfc60730SJessica Paquette
7108b3c0d9SAmara Emerson /// Determines the LogBase2 value for a non-null input value using the
7208b3c0d9SAmara Emerson /// transform: LogBase2(V) = (EltBits - 1) - ctlz(V).
buildLogBase2(Register V,MachineIRBuilder & MIB)7308b3c0d9SAmara Emerson static Register buildLogBase2(Register V, MachineIRBuilder &MIB) {
7408b3c0d9SAmara Emerson auto &MRI = *MIB.getMRI();
7508b3c0d9SAmara Emerson LLT Ty = MRI.getType(V);
7608b3c0d9SAmara Emerson auto Ctlz = MIB.buildCTLZ(Ty, V);
7708b3c0d9SAmara Emerson auto Base = MIB.buildConstant(Ty, Ty.getScalarSizeInBits() - 1);
7808b3c0d9SAmara Emerson return MIB.buildSub(Ty, Base, Ctlz).getReg(0);
7908b3c0d9SAmara Emerson }
8008b3c0d9SAmara Emerson
81cfc60730SJessica Paquette /// \returns The big endian in-memory byte position of byte \p I in a
82cfc60730SJessica Paquette /// \p ByteWidth bytes wide type.
83cfc60730SJessica Paquette ///
84cfc60730SJessica Paquette /// E.g. Given a 4-byte type x, x[0] -> byte 3
bigEndianByteAt(const unsigned ByteWidth,const unsigned I)85cfc60730SJessica Paquette static unsigned bigEndianByteAt(const unsigned ByteWidth, const unsigned I) {
86cfc60730SJessica Paquette assert(I < ByteWidth && "I must be in [0, ByteWidth)");
87cfc60730SJessica Paquette return ByteWidth - I - 1;
88cfc60730SJessica Paquette }
89cfc60730SJessica Paquette
90cfc60730SJessica Paquette /// Given a map from byte offsets in memory to indices in a load/store,
91cfc60730SJessica Paquette /// determine if that map corresponds to a little or big endian byte pattern.
92cfc60730SJessica Paquette ///
93cfc60730SJessica Paquette /// \param MemOffset2Idx maps memory offsets to address offsets.
94cfc60730SJessica Paquette /// \param LowestIdx is the lowest index in \p MemOffset2Idx.
95cfc60730SJessica Paquette ///
96cfc60730SJessica Paquette /// \returns true if the map corresponds to a big endian byte pattern, false
97cfc60730SJessica Paquette /// if it corresponds to a little endian byte pattern, and None otherwise.
98cfc60730SJessica Paquette ///
99cfc60730SJessica Paquette /// E.g. given a 32-bit type x, and x[AddrOffset], the in-memory byte patterns
100cfc60730SJessica Paquette /// are as follows:
101cfc60730SJessica Paquette ///
102cfc60730SJessica Paquette /// AddrOffset Little endian Big endian
103cfc60730SJessica Paquette /// 0 0 3
104cfc60730SJessica Paquette /// 1 1 2
105cfc60730SJessica Paquette /// 2 2 1
106cfc60730SJessica Paquette /// 3 3 0
107cfc60730SJessica Paquette static Optional<bool>
isBigEndian(const SmallDenseMap<int64_t,int64_t,8> & MemOffset2Idx,int64_t LowestIdx)108cfc60730SJessica Paquette isBigEndian(const SmallDenseMap<int64_t, int64_t, 8> &MemOffset2Idx,
109cfc60730SJessica Paquette int64_t LowestIdx) {
110cfc60730SJessica Paquette // Need at least two byte positions to decide on endianness.
111cfc60730SJessica Paquette unsigned Width = MemOffset2Idx.size();
112cfc60730SJessica Paquette if (Width < 2)
113cfc60730SJessica Paquette return None;
114cfc60730SJessica Paquette bool BigEndian = true, LittleEndian = true;
115cfc60730SJessica Paquette for (unsigned MemOffset = 0; MemOffset < Width; ++ MemOffset) {
116cfc60730SJessica Paquette auto MemOffsetAndIdx = MemOffset2Idx.find(MemOffset);
117cfc60730SJessica Paquette if (MemOffsetAndIdx == MemOffset2Idx.end())
118cfc60730SJessica Paquette return None;
119cfc60730SJessica Paquette const int64_t Idx = MemOffsetAndIdx->second - LowestIdx;
120cfc60730SJessica Paquette assert(Idx >= 0 && "Expected non-negative byte offset?");
121cfc60730SJessica Paquette LittleEndian &= Idx == littleEndianByteAt(Width, MemOffset);
122cfc60730SJessica Paquette BigEndian &= Idx == bigEndianByteAt(Width, MemOffset);
123cfc60730SJessica Paquette if (!BigEndian && !LittleEndian)
124cfc60730SJessica Paquette return None;
125cfc60730SJessica Paquette }
126cfc60730SJessica Paquette
127cfc60730SJessica Paquette assert((BigEndian != LittleEndian) &&
128cfc60730SJessica Paquette "Pattern cannot be both big and little endian!");
129cfc60730SJessica Paquette return BigEndian;
130cfc60730SJessica Paquette }
131cfc60730SJessica Paquette
isPreLegalize() const1329a61e731SJessica Paquette bool CombinerHelper::isPreLegalize() const { return !LI; }
1339a61e731SJessica Paquette
isLegal(const LegalityQuery & Query) const1349a61e731SJessica Paquette bool CombinerHelper::isLegal(const LegalityQuery &Query) const {
1359a61e731SJessica Paquette assert(LI && "Must have LegalizerInfo to query isLegal!");
1369a61e731SJessica Paquette return LI->getAction(Query).Action == LegalizeActions::Legal;
1379a61e731SJessica Paquette }
1389a61e731SJessica Paquette
isLegalOrBeforeLegalizer(const LegalityQuery & Query) const139bebe6a64SJessica Paquette bool CombinerHelper::isLegalOrBeforeLegalizer(
140bebe6a64SJessica Paquette const LegalityQuery &Query) const {
1419a61e731SJessica Paquette return isPreLegalize() || isLegal(Query);
1429a61e731SJessica Paquette }
1439a61e731SJessica Paquette
isConstantLegalOrBeforeLegalizer(const LLT Ty) const1449a61e731SJessica Paquette bool CombinerHelper::isConstantLegalOrBeforeLegalizer(const LLT Ty) const {
1459a61e731SJessica Paquette if (!Ty.isVector())
1469a61e731SJessica Paquette return isLegalOrBeforeLegalizer({TargetOpcode::G_CONSTANT, {Ty}});
1479a61e731SJessica Paquette // Vector constants are represented as a G_BUILD_VECTOR of scalar G_CONSTANTs.
1489a61e731SJessica Paquette if (isPreLegalize())
1499a61e731SJessica Paquette return true;
1509a61e731SJessica Paquette LLT EltTy = Ty.getElementType();
1519a61e731SJessica Paquette return isLegal({TargetOpcode::G_BUILD_VECTOR, {Ty, EltTy}}) &&
1529a61e731SJessica Paquette isLegal({TargetOpcode::G_CONSTANT, {EltTy}});
153bebe6a64SJessica Paquette }
154bebe6a64SJessica Paquette
replaceRegWith(MachineRegisterInfo & MRI,Register FromReg,Register ToReg) const155faeaedf8SMatt Arsenault void CombinerHelper::replaceRegWith(MachineRegisterInfo &MRI, Register FromReg,
156faeaedf8SMatt Arsenault Register ToReg) const {
157629db5d8SDaniel Sanders Observer.changingAllUsesOfReg(MRI, FromReg);
158629db5d8SDaniel Sanders
159629db5d8SDaniel Sanders if (MRI.constrainRegAttrs(ToReg, FromReg))
160629db5d8SDaniel Sanders MRI.replaceRegWith(FromReg, ToReg);
161629db5d8SDaniel Sanders else
162629db5d8SDaniel Sanders Builder.buildCopy(ToReg, FromReg);
163629db5d8SDaniel Sanders
164629db5d8SDaniel Sanders Observer.finishedChangingAllUsesOfReg();
165629db5d8SDaniel Sanders }
166629db5d8SDaniel Sanders
replaceRegOpWith(MachineRegisterInfo & MRI,MachineOperand & FromRegOp,Register ToReg) const167629db5d8SDaniel Sanders void CombinerHelper::replaceRegOpWith(MachineRegisterInfo &MRI,
168629db5d8SDaniel Sanders MachineOperand &FromRegOp,
169faeaedf8SMatt Arsenault Register ToReg) const {
170629db5d8SDaniel Sanders assert(FromRegOp.getParent() && "Expected an operand in an MI");
171629db5d8SDaniel Sanders Observer.changingInstr(*FromRegOp.getParent());
172629db5d8SDaniel Sanders
173629db5d8SDaniel Sanders FromRegOp.setReg(ToReg);
174629db5d8SDaniel Sanders
175629db5d8SDaniel Sanders Observer.changedInstr(*FromRegOp.getParent());
176c973ad18SDaniel Sanders }
17781c81b64SAditya Nandakumar
replaceOpcodeWith(MachineInstr & FromMI,unsigned ToOpcode) const178db6bc2abSMirko Brkusanin void CombinerHelper::replaceOpcodeWith(MachineInstr &FromMI,
179db6bc2abSMirko Brkusanin unsigned ToOpcode) const {
180db6bc2abSMirko Brkusanin Observer.changingInstr(FromMI);
181db6bc2abSMirko Brkusanin
182db6bc2abSMirko Brkusanin FromMI.setDesc(Builder.getTII().get(ToOpcode));
183db6bc2abSMirko Brkusanin
184db6bc2abSMirko Brkusanin Observer.changedInstr(FromMI);
185db6bc2abSMirko Brkusanin }
186db6bc2abSMirko Brkusanin
getRegBank(Register Reg) const187fbae3463SSebastian Neubauer const RegisterBank *CombinerHelper::getRegBank(Register Reg) const {
188fbae3463SSebastian Neubauer return RBI->getRegBank(Reg, MRI, *TRI);
189fbae3463SSebastian Neubauer }
190fbae3463SSebastian Neubauer
setRegBank(Register Reg,const RegisterBank * RegBank)191fbae3463SSebastian Neubauer void CombinerHelper::setRegBank(Register Reg, const RegisterBank *RegBank) {
192fbae3463SSebastian Neubauer if (RegBank)
193fbae3463SSebastian Neubauer MRI.setRegBank(Reg, *RegBank);
194fbae3463SSebastian Neubauer }
195fbae3463SSebastian Neubauer
tryCombineCopy(MachineInstr & MI)19681c81b64SAditya Nandakumar bool CombinerHelper::tryCombineCopy(MachineInstr &MI) {
197dfa0f556SDaniel Sanders if (matchCombineCopy(MI)) {
198dfa0f556SDaniel Sanders applyCombineCopy(MI);
199dfa0f556SDaniel Sanders return true;
200dfa0f556SDaniel Sanders }
201dfa0f556SDaniel Sanders return false;
202dfa0f556SDaniel Sanders }
matchCombineCopy(MachineInstr & MI)203dfa0f556SDaniel Sanders bool CombinerHelper::matchCombineCopy(MachineInstr &MI) {
20481c81b64SAditya Nandakumar if (MI.getOpcode() != TargetOpcode::COPY)
20581c81b64SAditya Nandakumar return false;
2060c476111SDaniel Sanders Register DstReg = MI.getOperand(0).getReg();
2070c476111SDaniel Sanders Register SrcReg = MI.getOperand(1).getReg();
208187686a2SVolkan Keles return canReplaceReg(DstReg, SrcReg, MRI);
209dfa0f556SDaniel Sanders }
applyCombineCopy(MachineInstr & MI)210dfa0f556SDaniel Sanders void CombinerHelper::applyCombineCopy(MachineInstr &MI) {
2110c476111SDaniel Sanders Register DstReg = MI.getOperand(0).getReg();
2120c476111SDaniel Sanders Register SrcReg = MI.getOperand(1).getReg();
21381c81b64SAditya Nandakumar MI.eraseFromParent();
214629db5d8SDaniel Sanders replaceRegWith(MRI, DstReg, SrcReg);
21581c81b64SAditya Nandakumar }
21681c81b64SAditya Nandakumar
tryCombineConcatVectors(MachineInstr & MI)217c319afc9SQuentin Colombet bool CombinerHelper::tryCombineConcatVectors(MachineInstr &MI) {
218c319afc9SQuentin Colombet bool IsUndef = false;
219c319afc9SQuentin Colombet SmallVector<Register, 4> Ops;
220c319afc9SQuentin Colombet if (matchCombineConcatVectors(MI, IsUndef, Ops)) {
221c319afc9SQuentin Colombet applyCombineConcatVectors(MI, IsUndef, Ops);
222c319afc9SQuentin Colombet return true;
223c319afc9SQuentin Colombet }
224c319afc9SQuentin Colombet return false;
225c319afc9SQuentin Colombet }
226c319afc9SQuentin Colombet
matchCombineConcatVectors(MachineInstr & MI,bool & IsUndef,SmallVectorImpl<Register> & Ops)227c319afc9SQuentin Colombet bool CombinerHelper::matchCombineConcatVectors(MachineInstr &MI, bool &IsUndef,
228c319afc9SQuentin Colombet SmallVectorImpl<Register> &Ops) {
229c319afc9SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_CONCAT_VECTORS &&
230c319afc9SQuentin Colombet "Invalid instruction");
231c319afc9SQuentin Colombet IsUndef = true;
232c319afc9SQuentin Colombet MachineInstr *Undef = nullptr;
233c319afc9SQuentin Colombet
234c319afc9SQuentin Colombet // Walk over all the operands of concat vectors and check if they are
235c319afc9SQuentin Colombet // build_vector themselves or undef.
236c319afc9SQuentin Colombet // Then collect their operands in Ops.
23798ceac49SQuentin Colombet for (const MachineOperand &MO : MI.uses()) {
238c319afc9SQuentin Colombet Register Reg = MO.getReg();
239c319afc9SQuentin Colombet MachineInstr *Def = MRI.getVRegDef(Reg);
240c319afc9SQuentin Colombet assert(Def && "Operand not defined");
241c319afc9SQuentin Colombet switch (Def->getOpcode()) {
242c319afc9SQuentin Colombet case TargetOpcode::G_BUILD_VECTOR:
243c319afc9SQuentin Colombet IsUndef = false;
244c319afc9SQuentin Colombet // Remember the operands of the build_vector to fold
245c319afc9SQuentin Colombet // them into the yet-to-build flattened concat vectors.
24698ceac49SQuentin Colombet for (const MachineOperand &BuildVecMO : Def->uses())
247c319afc9SQuentin Colombet Ops.push_back(BuildVecMO.getReg());
248c319afc9SQuentin Colombet break;
249c319afc9SQuentin Colombet case TargetOpcode::G_IMPLICIT_DEF: {
250c319afc9SQuentin Colombet LLT OpType = MRI.getType(Reg);
251c319afc9SQuentin Colombet // Keep one undef value for all the undef operands.
252c319afc9SQuentin Colombet if (!Undef) {
253c319afc9SQuentin Colombet Builder.setInsertPt(*MI.getParent(), MI);
254c319afc9SQuentin Colombet Undef = Builder.buildUndef(OpType.getScalarType());
255c319afc9SQuentin Colombet }
256149a0204SDaniel Sanders assert(MRI.getType(Undef->getOperand(0).getReg()) ==
257149a0204SDaniel Sanders OpType.getScalarType() &&
258c319afc9SQuentin Colombet "All undefs should have the same type");
259c319afc9SQuentin Colombet // Break the undef vector in as many scalar elements as needed
260c319afc9SQuentin Colombet // for the flattening.
261c319afc9SQuentin Colombet for (unsigned EltIdx = 0, EltEnd = OpType.getNumElements();
262c319afc9SQuentin Colombet EltIdx != EltEnd; ++EltIdx)
263c319afc9SQuentin Colombet Ops.push_back(Undef->getOperand(0).getReg());
264c319afc9SQuentin Colombet break;
265c319afc9SQuentin Colombet }
266c319afc9SQuentin Colombet default:
267c319afc9SQuentin Colombet return false;
268c319afc9SQuentin Colombet }
269c319afc9SQuentin Colombet }
270c319afc9SQuentin Colombet return true;
271c319afc9SQuentin Colombet }
applyCombineConcatVectors(MachineInstr & MI,bool IsUndef,const ArrayRef<Register> Ops)272c319afc9SQuentin Colombet void CombinerHelper::applyCombineConcatVectors(
273c319afc9SQuentin Colombet MachineInstr &MI, bool IsUndef, const ArrayRef<Register> Ops) {
274c319afc9SQuentin Colombet // We determined that the concat_vectors can be flatten.
275c319afc9SQuentin Colombet // Generate the flattened build_vector.
276c319afc9SQuentin Colombet Register DstReg = MI.getOperand(0).getReg();
277c319afc9SQuentin Colombet Builder.setInsertPt(*MI.getParent(), MI);
278c319afc9SQuentin Colombet Register NewDstReg = MRI.cloneVirtualRegister(DstReg);
279c319afc9SQuentin Colombet
280c319afc9SQuentin Colombet // Note: IsUndef is sort of redundant. We could have determine it by
281c319afc9SQuentin Colombet // checking that at all Ops are undef. Alternatively, we could have
282c319afc9SQuentin Colombet // generate a build_vector of undefs and rely on another combine to
283c319afc9SQuentin Colombet // clean that up. For now, given we already gather this information
284c319afc9SQuentin Colombet // in tryCombineConcatVectors, just save compile time and issue the
285c319afc9SQuentin Colombet // right thing.
286c319afc9SQuentin Colombet if (IsUndef)
287c319afc9SQuentin Colombet Builder.buildUndef(NewDstReg);
288c319afc9SQuentin Colombet else
289c319afc9SQuentin Colombet Builder.buildBuildVector(NewDstReg, Ops);
290c319afc9SQuentin Colombet MI.eraseFromParent();
291c319afc9SQuentin Colombet replaceRegWith(MRI, DstReg, NewDstReg);
292c319afc9SQuentin Colombet }
293c319afc9SQuentin Colombet
tryCombineShuffleVector(MachineInstr & MI)2946f0ae815SQuentin Colombet bool CombinerHelper::tryCombineShuffleVector(MachineInstr &MI) {
2956f0ae815SQuentin Colombet SmallVector<Register, 4> Ops;
2966f0ae815SQuentin Colombet if (matchCombineShuffleVector(MI, Ops)) {
2976f0ae815SQuentin Colombet applyCombineShuffleVector(MI, Ops);
2986f0ae815SQuentin Colombet return true;
2996f0ae815SQuentin Colombet }
3006f0ae815SQuentin Colombet return false;
3016f0ae815SQuentin Colombet }
3026f0ae815SQuentin Colombet
matchCombineShuffleVector(MachineInstr & MI,SmallVectorImpl<Register> & Ops)3036f0ae815SQuentin Colombet bool CombinerHelper::matchCombineShuffleVector(MachineInstr &MI,
3046f0ae815SQuentin Colombet SmallVectorImpl<Register> &Ops) {
3056f0ae815SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_SHUFFLE_VECTOR &&
3066f0ae815SQuentin Colombet "Invalid instruction kind");
3076f0ae815SQuentin Colombet LLT DstType = MRI.getType(MI.getOperand(0).getReg());
3086f0ae815SQuentin Colombet Register Src1 = MI.getOperand(1).getReg();
3096f0ae815SQuentin Colombet LLT SrcType = MRI.getType(Src1);
310304abde0SQuentin Colombet // As bizarre as it may look, shuffle vector can actually produce
311304abde0SQuentin Colombet // scalar! This is because at the IR level a <1 x ty> shuffle
312304abde0SQuentin Colombet // vector is perfectly valid.
313304abde0SQuentin Colombet unsigned DstNumElts = DstType.isVector() ? DstType.getNumElements() : 1;
314f0eeb3c7SQuentin Colombet unsigned SrcNumElts = SrcType.isVector() ? SrcType.getNumElements() : 1;
3156f0ae815SQuentin Colombet
3166f0ae815SQuentin Colombet // If the resulting vector is smaller than the size of the source
3176f0ae815SQuentin Colombet // vectors being concatenated, we won't be able to replace the
3186f0ae815SQuentin Colombet // shuffle vector into a concat_vectors.
3196f0ae815SQuentin Colombet //
3206f0ae815SQuentin Colombet // Note: We may still be able to produce a concat_vectors fed by
3216f0ae815SQuentin Colombet // extract_vector_elt and so on. It is less clear that would
3226f0ae815SQuentin Colombet // be better though, so don't bother for now.
323304abde0SQuentin Colombet //
324304abde0SQuentin Colombet // If the destination is a scalar, the size of the sources doesn't
325304abde0SQuentin Colombet // matter. we will lower the shuffle to a plain copy. This will
326304abde0SQuentin Colombet // work only if the source and destination have the same size. But
327304abde0SQuentin Colombet // that's covered by the next condition.
328304abde0SQuentin Colombet //
329304abde0SQuentin Colombet // TODO: If the size between the source and destination don't match
330304abde0SQuentin Colombet // we could still emit an extract vector element in that case.
331304abde0SQuentin Colombet if (DstNumElts < 2 * SrcNumElts && DstNumElts != 1)
3326f0ae815SQuentin Colombet return false;
3336f0ae815SQuentin Colombet
3346f0ae815SQuentin Colombet // Check that the shuffle mask can be broken evenly between the
3356f0ae815SQuentin Colombet // different sources.
3366f0ae815SQuentin Colombet if (DstNumElts % SrcNumElts != 0)
3376f0ae815SQuentin Colombet return false;
3386f0ae815SQuentin Colombet
3396f0ae815SQuentin Colombet // Mask length is a multiple of the source vector length.
3406f0ae815SQuentin Colombet // Check if the shuffle is some kind of concatenation of the input
3416f0ae815SQuentin Colombet // vectors.
3426f0ae815SQuentin Colombet unsigned NumConcat = DstNumElts / SrcNumElts;
3436f0ae815SQuentin Colombet SmallVector<int, 8> ConcatSrcs(NumConcat, -1);
344e68e4cbcSEli Friedman ArrayRef<int> Mask = MI.getOperand(3).getShuffleMask();
3456f0ae815SQuentin Colombet for (unsigned i = 0; i != DstNumElts; ++i) {
3466f0ae815SQuentin Colombet int Idx = Mask[i];
3476f0ae815SQuentin Colombet // Undef value.
3486f0ae815SQuentin Colombet if (Idx < 0)
3496f0ae815SQuentin Colombet continue;
3506f0ae815SQuentin Colombet // Ensure the indices in each SrcType sized piece are sequential and that
3516f0ae815SQuentin Colombet // the same source is used for the whole piece.
3526f0ae815SQuentin Colombet if ((Idx % SrcNumElts != (i % SrcNumElts)) ||
3536f0ae815SQuentin Colombet (ConcatSrcs[i / SrcNumElts] >= 0 &&
3546f0ae815SQuentin Colombet ConcatSrcs[i / SrcNumElts] != (int)(Idx / SrcNumElts)))
3556f0ae815SQuentin Colombet return false;
3566f0ae815SQuentin Colombet // Remember which source this index came from.
3576f0ae815SQuentin Colombet ConcatSrcs[i / SrcNumElts] = Idx / SrcNumElts;
3586f0ae815SQuentin Colombet }
3596f0ae815SQuentin Colombet
3606f0ae815SQuentin Colombet // The shuffle is concatenating multiple vectors together.
3616f0ae815SQuentin Colombet // Collect the different operands for that.
3626f0ae815SQuentin Colombet Register UndefReg;
3636f0ae815SQuentin Colombet Register Src2 = MI.getOperand(2).getReg();
3646f0ae815SQuentin Colombet for (auto Src : ConcatSrcs) {
3656f0ae815SQuentin Colombet if (Src < 0) {
3666f0ae815SQuentin Colombet if (!UndefReg) {
3676f0ae815SQuentin Colombet Builder.setInsertPt(*MI.getParent(), MI);
3686f0ae815SQuentin Colombet UndefReg = Builder.buildUndef(SrcType).getReg(0);
3696f0ae815SQuentin Colombet }
3706f0ae815SQuentin Colombet Ops.push_back(UndefReg);
3716f0ae815SQuentin Colombet } else if (Src == 0)
3726f0ae815SQuentin Colombet Ops.push_back(Src1);
3736f0ae815SQuentin Colombet else
3746f0ae815SQuentin Colombet Ops.push_back(Src2);
3756f0ae815SQuentin Colombet }
3766f0ae815SQuentin Colombet return true;
3776f0ae815SQuentin Colombet }
3786f0ae815SQuentin Colombet
applyCombineShuffleVector(MachineInstr & MI,const ArrayRef<Register> Ops)3796f0ae815SQuentin Colombet void CombinerHelper::applyCombineShuffleVector(MachineInstr &MI,
3806f0ae815SQuentin Colombet const ArrayRef<Register> Ops) {
3816f0ae815SQuentin Colombet Register DstReg = MI.getOperand(0).getReg();
3826f0ae815SQuentin Colombet Builder.setInsertPt(*MI.getParent(), MI);
3836f0ae815SQuentin Colombet Register NewDstReg = MRI.cloneVirtualRegister(DstReg);
3846f0ae815SQuentin Colombet
385304abde0SQuentin Colombet if (Ops.size() == 1)
386304abde0SQuentin Colombet Builder.buildCopy(NewDstReg, Ops[0]);
387304abde0SQuentin Colombet else
388f0eeb3c7SQuentin Colombet Builder.buildMerge(NewDstReg, Ops);
3896f0ae815SQuentin Colombet
3906f0ae815SQuentin Colombet MI.eraseFromParent();
3916f0ae815SQuentin Colombet replaceRegWith(MRI, DstReg, NewDstReg);
3926f0ae815SQuentin Colombet }
3936f0ae815SQuentin Colombet
394c973ad18SDaniel Sanders namespace {
395c973ad18SDaniel Sanders
396c973ad18SDaniel Sanders /// Select a preference between two uses. CurrentUse is the current preference
397c973ad18SDaniel Sanders /// while *ForCandidate is attributes of the candidate under consideration.
ChoosePreferredUse(PreferredTuple & CurrentUse,const LLT TyForCandidate,unsigned OpcodeForCandidate,MachineInstr * MIForCandidate)398c973ad18SDaniel Sanders PreferredTuple ChoosePreferredUse(PreferredTuple &CurrentUse,
399de256478SMatt Arsenault const LLT TyForCandidate,
400c973ad18SDaniel Sanders unsigned OpcodeForCandidate,
401c973ad18SDaniel Sanders MachineInstr *MIForCandidate) {
402c973ad18SDaniel Sanders if (!CurrentUse.Ty.isValid()) {
403ab358bfdSDaniel Sanders if (CurrentUse.ExtendOpcode == OpcodeForCandidate ||
404ab358bfdSDaniel Sanders CurrentUse.ExtendOpcode == TargetOpcode::G_ANYEXT)
405c973ad18SDaniel Sanders return {TyForCandidate, OpcodeForCandidate, MIForCandidate};
406c973ad18SDaniel Sanders return CurrentUse;
407c973ad18SDaniel Sanders }
408c973ad18SDaniel Sanders
409c973ad18SDaniel Sanders // We permit the extend to hoist through basic blocks but this is only
410c973ad18SDaniel Sanders // sensible if the target has extending loads. If you end up lowering back
411c973ad18SDaniel Sanders // into a load and extend during the legalizer then the end result is
412c973ad18SDaniel Sanders // hoisting the extend up to the load.
413c973ad18SDaniel Sanders
414c973ad18SDaniel Sanders // Prefer defined extensions to undefined extensions as these are more
415c973ad18SDaniel Sanders // likely to reduce the number of instructions.
416c973ad18SDaniel Sanders if (OpcodeForCandidate == TargetOpcode::G_ANYEXT &&
417c973ad18SDaniel Sanders CurrentUse.ExtendOpcode != TargetOpcode::G_ANYEXT)
418c973ad18SDaniel Sanders return CurrentUse;
419c973ad18SDaniel Sanders else if (CurrentUse.ExtendOpcode == TargetOpcode::G_ANYEXT &&
420c973ad18SDaniel Sanders OpcodeForCandidate != TargetOpcode::G_ANYEXT)
421c973ad18SDaniel Sanders return {TyForCandidate, OpcodeForCandidate, MIForCandidate};
422c973ad18SDaniel Sanders
423c973ad18SDaniel Sanders // Prefer sign extensions to zero extensions as sign-extensions tend to be
424c973ad18SDaniel Sanders // more expensive.
425c973ad18SDaniel Sanders if (CurrentUse.Ty == TyForCandidate) {
426c973ad18SDaniel Sanders if (CurrentUse.ExtendOpcode == TargetOpcode::G_SEXT &&
427c973ad18SDaniel Sanders OpcodeForCandidate == TargetOpcode::G_ZEXT)
428c973ad18SDaniel Sanders return CurrentUse;
429c973ad18SDaniel Sanders else if (CurrentUse.ExtendOpcode == TargetOpcode::G_ZEXT &&
430c973ad18SDaniel Sanders OpcodeForCandidate == TargetOpcode::G_SEXT)
431c973ad18SDaniel Sanders return {TyForCandidate, OpcodeForCandidate, MIForCandidate};
432c973ad18SDaniel Sanders }
433c973ad18SDaniel Sanders
434c973ad18SDaniel Sanders // This is potentially target specific. We've chosen the largest type
435c973ad18SDaniel Sanders // because G_TRUNC is usually free. One potential catch with this is that
436c973ad18SDaniel Sanders // some targets have a reduced number of larger registers than smaller
437c973ad18SDaniel Sanders // registers and this choice potentially increases the live-range for the
438c973ad18SDaniel Sanders // larger value.
439c973ad18SDaniel Sanders if (TyForCandidate.getSizeInBits() > CurrentUse.Ty.getSizeInBits()) {
440c973ad18SDaniel Sanders return {TyForCandidate, OpcodeForCandidate, MIForCandidate};
441c973ad18SDaniel Sanders }
442c973ad18SDaniel Sanders return CurrentUse;
443602e3a64SJonas Toth }
444a05c7583SDaniel Sanders
445a05c7583SDaniel Sanders /// Find a suitable place to insert some instructions and insert them. This
446a05c7583SDaniel Sanders /// function accounts for special cases like inserting before a PHI node.
447a05c7583SDaniel Sanders /// The current strategy for inserting before PHI's is to duplicate the
448a05c7583SDaniel Sanders /// instructions for each predecessor. However, while that's ok for G_TRUNC
449a05c7583SDaniel Sanders /// on most targets since it generally requires no code, other targets/cases may
450a05c7583SDaniel Sanders /// want to try harder to find a dominating block.
InsertInsnsWithoutSideEffectsBeforeUse(MachineIRBuilder & Builder,MachineInstr & DefMI,MachineOperand & UseMO,std::function<void (MachineBasicBlock *,MachineBasicBlock::iterator,MachineOperand & UseMO)> Inserter)451a05c7583SDaniel Sanders static void InsertInsnsWithoutSideEffectsBeforeUse(
452a05c7583SDaniel Sanders MachineIRBuilder &Builder, MachineInstr &DefMI, MachineOperand &UseMO,
453184c8ee9SDaniel Sanders std::function<void(MachineBasicBlock *, MachineBasicBlock::iterator,
454184c8ee9SDaniel Sanders MachineOperand &UseMO)>
455a464ffd5SDaniel Sanders Inserter) {
456a05c7583SDaniel Sanders MachineInstr &UseMI = *UseMO.getParent();
457a05c7583SDaniel Sanders
458a05c7583SDaniel Sanders MachineBasicBlock *InsertBB = UseMI.getParent();
459a05c7583SDaniel Sanders
460a05c7583SDaniel Sanders // If the use is a PHI then we want the predecessor block instead.
461a05c7583SDaniel Sanders if (UseMI.isPHI()) {
462a05c7583SDaniel Sanders MachineOperand *PredBB = std::next(&UseMO);
463a05c7583SDaniel Sanders InsertBB = PredBB->getMBB();
464a05c7583SDaniel Sanders }
465a05c7583SDaniel Sanders
466a05c7583SDaniel Sanders // If the block is the same block as the def then we want to insert just after
467a05c7583SDaniel Sanders // the def instead of at the start of the block.
468a05c7583SDaniel Sanders if (InsertBB == DefMI.getParent()) {
469a05c7583SDaniel Sanders MachineBasicBlock::iterator InsertPt = &DefMI;
470184c8ee9SDaniel Sanders Inserter(InsertBB, std::next(InsertPt), UseMO);
471a05c7583SDaniel Sanders return;
472a05c7583SDaniel Sanders }
473a05c7583SDaniel Sanders
474a05c7583SDaniel Sanders // Otherwise we want the start of the BB
475184c8ee9SDaniel Sanders Inserter(InsertBB, InsertBB->getFirstNonPHI(), UseMO);
476a05c7583SDaniel Sanders }
477c973ad18SDaniel Sanders } // end anonymous namespace
478c973ad18SDaniel Sanders
tryCombineExtendingLoads(MachineInstr & MI)479c973ad18SDaniel Sanders bool CombinerHelper::tryCombineExtendingLoads(MachineInstr &MI) {
480dfa0f556SDaniel Sanders PreferredTuple Preferred;
481dfa0f556SDaniel Sanders if (matchCombineExtendingLoads(MI, Preferred)) {
482dfa0f556SDaniel Sanders applyCombineExtendingLoads(MI, Preferred);
483dfa0f556SDaniel Sanders return true;
484a464ffd5SDaniel Sanders }
485dfa0f556SDaniel Sanders return false;
486dfa0f556SDaniel Sanders }
487a464ffd5SDaniel Sanders
matchCombineExtendingLoads(MachineInstr & MI,PreferredTuple & Preferred)488dfa0f556SDaniel Sanders bool CombinerHelper::matchCombineExtendingLoads(MachineInstr &MI,
489dfa0f556SDaniel Sanders PreferredTuple &Preferred) {
490c973ad18SDaniel Sanders // We match the loads and follow the uses to the extend instead of matching
491c973ad18SDaniel Sanders // the extends and following the def to the load. This is because the load
492c973ad18SDaniel Sanders // must remain in the same position for correctness (unless we also add code
493c973ad18SDaniel Sanders // to find a safe place to sink it) whereas the extend is freely movable.
494c973ad18SDaniel Sanders // It also prevents us from duplicating the load for the volatile case or just
495c973ad18SDaniel Sanders // for performance.
4964e3dc6b8SAmara Emerson GAnyLoad *LoadMI = dyn_cast<GAnyLoad>(&MI);
4974e3dc6b8SAmara Emerson if (!LoadMI)
498c973ad18SDaniel Sanders return false;
499c973ad18SDaniel Sanders
5004e3dc6b8SAmara Emerson Register LoadReg = LoadMI->getDstReg();
501c973ad18SDaniel Sanders
5024e3dc6b8SAmara Emerson LLT LoadValueTy = MRI.getType(LoadReg);
503c973ad18SDaniel Sanders if (!LoadValueTy.isScalar())
504c973ad18SDaniel Sanders return false;
505c973ad18SDaniel Sanders
506bf43004fSAmara Emerson // Most architectures are going to legalize <s8 loads into at least a 1 byte
507bf43004fSAmara Emerson // load, and the MMOs can only describe memory accesses in multiples of bytes.
508bf43004fSAmara Emerson // If we try to perform extload combining on those, we can end up with
509bf43004fSAmara Emerson // %a(s8) = extload %ptr (load 1 byte from %ptr)
510bf43004fSAmara Emerson // ... which is an illegal extload instruction.
511bf43004fSAmara Emerson if (LoadValueTy.getSizeInBits() < 8)
512bf43004fSAmara Emerson return false;
513bf43004fSAmara Emerson
51402a90ea7SAmara Emerson // For non power-of-2 types, they will very likely be legalized into multiple
51502a90ea7SAmara Emerson // loads. Don't bother trying to match them into extending loads.
51602a90ea7SAmara Emerson if (!isPowerOf2_32(LoadValueTy.getSizeInBits()))
51702a90ea7SAmara Emerson return false;
51802a90ea7SAmara Emerson
519c973ad18SDaniel Sanders // Find the preferred type aside from the any-extends (unless it's the only
520c973ad18SDaniel Sanders // one) and non-extending ops. We'll emit an extending load to that type and
521c973ad18SDaniel Sanders // and emit a variant of (extend (trunc X)) for the others according to the
522c973ad18SDaniel Sanders // relative type sizes. At the same time, pick an extend to use based on the
523c973ad18SDaniel Sanders // extend involved in the chosen type.
5244e3dc6b8SAmara Emerson unsigned PreferredOpcode =
5254e3dc6b8SAmara Emerson isa<GLoad>(&MI)
526c973ad18SDaniel Sanders ? TargetOpcode::G_ANYEXT
5274e3dc6b8SAmara Emerson : isa<GSExtLoad>(&MI) ? TargetOpcode::G_SEXT : TargetOpcode::G_ZEXT;
528dfa0f556SDaniel Sanders Preferred = {LLT(), PreferredOpcode, nullptr};
5294e3dc6b8SAmara Emerson for (auto &UseMI : MRI.use_nodbg_instructions(LoadReg)) {
530c973ad18SDaniel Sanders if (UseMI.getOpcode() == TargetOpcode::G_SEXT ||
531ab358bfdSDaniel Sanders UseMI.getOpcode() == TargetOpcode::G_ZEXT ||
532a0c90b5bSAmara Emerson (UseMI.getOpcode() == TargetOpcode::G_ANYEXT)) {
5334e3dc6b8SAmara Emerson const auto &MMO = LoadMI->getMMO();
534808bc11dSAmara Emerson // For atomics, only form anyextending loads.
535808bc11dSAmara Emerson if (MMO.isAtomic() && UseMI.getOpcode() != TargetOpcode::G_ANYEXT)
536808bc11dSAmara Emerson continue;
537a0c90b5bSAmara Emerson // Check for legality.
538a0c90b5bSAmara Emerson if (LI) {
53990d52987SKonstantin Schwarz LegalityQuery::MemDesc MMDesc(MMO);
540a0c90b5bSAmara Emerson LLT UseTy = MRI.getType(UseMI.getOperand(0).getReg());
5414e3dc6b8SAmara Emerson LLT SrcTy = MRI.getType(LoadMI->getPointerReg());
5424e3dc6b8SAmara Emerson if (LI->getAction({LoadMI->getOpcode(), {UseTy, SrcTy}, {MMDesc}})
5434e3dc6b8SAmara Emerson .Action != LegalizeActions::Legal)
544a0c90b5bSAmara Emerson continue;
545a0c90b5bSAmara Emerson }
546c973ad18SDaniel Sanders Preferred = ChoosePreferredUse(Preferred,
547c973ad18SDaniel Sanders MRI.getType(UseMI.getOperand(0).getReg()),
548c973ad18SDaniel Sanders UseMI.getOpcode(), &UseMI);
549c973ad18SDaniel Sanders }
550ab358bfdSDaniel Sanders }
551c973ad18SDaniel Sanders
552c973ad18SDaniel Sanders // There were no extends
553c973ad18SDaniel Sanders if (!Preferred.MI)
554c973ad18SDaniel Sanders return false;
555c973ad18SDaniel Sanders // It should be impossible to chose an extend without selecting a different
556c973ad18SDaniel Sanders // type since by definition the result of an extend is larger.
557c973ad18SDaniel Sanders assert(Preferred.Ty != LoadValueTy && "Extending to same type?");
558c973ad18SDaniel Sanders
559629db5d8SDaniel Sanders LLVM_DEBUG(dbgs() << "Preferred use is: " << *Preferred.MI);
560dfa0f556SDaniel Sanders return true;
561dfa0f556SDaniel Sanders }
562dfa0f556SDaniel Sanders
applyCombineExtendingLoads(MachineInstr & MI,PreferredTuple & Preferred)563dfa0f556SDaniel Sanders void CombinerHelper::applyCombineExtendingLoads(MachineInstr &MI,
564dfa0f556SDaniel Sanders PreferredTuple &Preferred) {
565c973ad18SDaniel Sanders // Rewrite the load to the chosen extending load.
566faeaedf8SMatt Arsenault Register ChosenDstReg = Preferred.MI->getOperand(0).getReg();
567184c8ee9SDaniel Sanders
568184c8ee9SDaniel Sanders // Inserter to insert a truncate back to the original type at a given point
569184c8ee9SDaniel Sanders // with some basic CSE to limit truncate duplication to one per BB.
570184c8ee9SDaniel Sanders DenseMap<MachineBasicBlock *, MachineInstr *> EmittedInsns;
571184c8ee9SDaniel Sanders auto InsertTruncAt = [&](MachineBasicBlock *InsertIntoBB,
572184c8ee9SDaniel Sanders MachineBasicBlock::iterator InsertBefore,
573184c8ee9SDaniel Sanders MachineOperand &UseMO) {
574184c8ee9SDaniel Sanders MachineInstr *PreviouslyEmitted = EmittedInsns.lookup(InsertIntoBB);
575184c8ee9SDaniel Sanders if (PreviouslyEmitted) {
576184c8ee9SDaniel Sanders Observer.changingInstr(*UseMO.getParent());
577184c8ee9SDaniel Sanders UseMO.setReg(PreviouslyEmitted->getOperand(0).getReg());
578184c8ee9SDaniel Sanders Observer.changedInstr(*UseMO.getParent());
579184c8ee9SDaniel Sanders return;
580184c8ee9SDaniel Sanders }
581184c8ee9SDaniel Sanders
582184c8ee9SDaniel Sanders Builder.setInsertPt(*InsertIntoBB, InsertBefore);
583faeaedf8SMatt Arsenault Register NewDstReg = MRI.cloneVirtualRegister(MI.getOperand(0).getReg());
584184c8ee9SDaniel Sanders MachineInstr *NewMI = Builder.buildTrunc(NewDstReg, ChosenDstReg);
585184c8ee9SDaniel Sanders EmittedInsns[InsertIntoBB] = NewMI;
586184c8ee9SDaniel Sanders replaceRegOpWith(MRI, UseMO, NewDstReg);
587184c8ee9SDaniel Sanders };
588184c8ee9SDaniel Sanders
589629db5d8SDaniel Sanders Observer.changingInstr(MI);
590c973ad18SDaniel Sanders MI.setDesc(
591c973ad18SDaniel Sanders Builder.getTII().get(Preferred.ExtendOpcode == TargetOpcode::G_SEXT
592c973ad18SDaniel Sanders ? TargetOpcode::G_SEXTLOAD
593c973ad18SDaniel Sanders : Preferred.ExtendOpcode == TargetOpcode::G_ZEXT
594c973ad18SDaniel Sanders ? TargetOpcode::G_ZEXTLOAD
595c973ad18SDaniel Sanders : TargetOpcode::G_LOAD));
596c973ad18SDaniel Sanders
597c973ad18SDaniel Sanders // Rewrite all the uses to fix up the types.
598dfa0f556SDaniel Sanders auto &LoadValue = MI.getOperand(0);
599184c8ee9SDaniel Sanders SmallVector<MachineOperand *, 4> Uses;
600184c8ee9SDaniel Sanders for (auto &UseMO : MRI.use_operands(LoadValue.getReg()))
601184c8ee9SDaniel Sanders Uses.push_back(&UseMO);
602184c8ee9SDaniel Sanders
603184c8ee9SDaniel Sanders for (auto *UseMO : Uses) {
604184c8ee9SDaniel Sanders MachineInstr *UseMI = UseMO->getParent();
605c973ad18SDaniel Sanders
606c973ad18SDaniel Sanders // If the extend is compatible with the preferred extend then we should fix
607c973ad18SDaniel Sanders // up the type and extend so that it uses the preferred use.
608c973ad18SDaniel Sanders if (UseMI->getOpcode() == Preferred.ExtendOpcode ||
609c973ad18SDaniel Sanders UseMI->getOpcode() == TargetOpcode::G_ANYEXT) {
6100c476111SDaniel Sanders Register UseDstReg = UseMI->getOperand(0).getReg();
611629db5d8SDaniel Sanders MachineOperand &UseSrcMO = UseMI->getOperand(1);
612de256478SMatt Arsenault const LLT UseDstTy = MRI.getType(UseDstReg);
613c973ad18SDaniel Sanders if (UseDstReg != ChosenDstReg) {
614c973ad18SDaniel Sanders if (Preferred.Ty == UseDstTy) {
615c973ad18SDaniel Sanders // If the use has the same type as the preferred use, then merge
616c973ad18SDaniel Sanders // the vregs and erase the extend. For example:
617c973ad18SDaniel Sanders // %1:_(s8) = G_LOAD ...
618c973ad18SDaniel Sanders // %2:_(s32) = G_SEXT %1(s8)
619c973ad18SDaniel Sanders // %3:_(s32) = G_ANYEXT %1(s8)
620c973ad18SDaniel Sanders // ... = ... %3(s32)
621c973ad18SDaniel Sanders // rewrites to:
622c973ad18SDaniel Sanders // %2:_(s32) = G_SEXTLOAD ...
623c973ad18SDaniel Sanders // ... = ... %2(s32)
624629db5d8SDaniel Sanders replaceRegWith(MRI, UseDstReg, ChosenDstReg);
625184c8ee9SDaniel Sanders Observer.erasingInstr(*UseMO->getParent());
626184c8ee9SDaniel Sanders UseMO->getParent()->eraseFromParent();
627c973ad18SDaniel Sanders } else if (Preferred.Ty.getSizeInBits() < UseDstTy.getSizeInBits()) {
628c973ad18SDaniel Sanders // If the preferred size is smaller, then keep the extend but extend
629c973ad18SDaniel Sanders // from the result of the extending load. For example:
630c973ad18SDaniel Sanders // %1:_(s8) = G_LOAD ...
631c973ad18SDaniel Sanders // %2:_(s32) = G_SEXT %1(s8)
632c973ad18SDaniel Sanders // %3:_(s64) = G_ANYEXT %1(s8)
633c973ad18SDaniel Sanders // ... = ... %3(s64)
634c973ad18SDaniel Sanders /// rewrites to:
635c973ad18SDaniel Sanders // %2:_(s32) = G_SEXTLOAD ...
636c973ad18SDaniel Sanders // %3:_(s64) = G_ANYEXT %2:_(s32)
637c973ad18SDaniel Sanders // ... = ... %3(s64)
638629db5d8SDaniel Sanders replaceRegOpWith(MRI, UseSrcMO, ChosenDstReg);
639c973ad18SDaniel Sanders } else {
640c973ad18SDaniel Sanders // If the preferred size is large, then insert a truncate. For
641c973ad18SDaniel Sanders // example:
642c973ad18SDaniel Sanders // %1:_(s8) = G_LOAD ...
643c973ad18SDaniel Sanders // %2:_(s64) = G_SEXT %1(s8)
644c973ad18SDaniel Sanders // %3:_(s32) = G_ZEXT %1(s8)
645c973ad18SDaniel Sanders // ... = ... %3(s32)
646c973ad18SDaniel Sanders /// rewrites to:
647c973ad18SDaniel Sanders // %2:_(s64) = G_SEXTLOAD ...
648c973ad18SDaniel Sanders // %4:_(s8) = G_TRUNC %2:_(s32)
649c973ad18SDaniel Sanders // %3:_(s64) = G_ZEXT %2:_(s8)
650c973ad18SDaniel Sanders // ... = ... %3(s64)
651184c8ee9SDaniel Sanders InsertInsnsWithoutSideEffectsBeforeUse(Builder, MI, *UseMO,
652184c8ee9SDaniel Sanders InsertTruncAt);
653c973ad18SDaniel Sanders }
654c973ad18SDaniel Sanders continue;
655c973ad18SDaniel Sanders }
656c973ad18SDaniel Sanders // The use is (one of) the uses of the preferred use we chose earlier.
657c973ad18SDaniel Sanders // We're going to update the load to def this value later so just erase
658c973ad18SDaniel Sanders // the old extend.
659184c8ee9SDaniel Sanders Observer.erasingInstr(*UseMO->getParent());
660184c8ee9SDaniel Sanders UseMO->getParent()->eraseFromParent();
661c973ad18SDaniel Sanders continue;
662c973ad18SDaniel Sanders }
663c973ad18SDaniel Sanders
664c973ad18SDaniel Sanders // The use isn't an extend. Truncate back to the type we originally loaded.
665c973ad18SDaniel Sanders // This is free on many targets.
666184c8ee9SDaniel Sanders InsertInsnsWithoutSideEffectsBeforeUse(Builder, MI, *UseMO, InsertTruncAt);
667c973ad18SDaniel Sanders }
668a05c7583SDaniel Sanders
669c973ad18SDaniel Sanders MI.getOperand(0).setReg(ChosenDstReg);
670629db5d8SDaniel Sanders Observer.changedInstr(MI);
671c973ad18SDaniel Sanders }
672c973ad18SDaniel Sanders
matchCombineLoadWithAndMask(MachineInstr & MI,BuildFnTy & MatchInfo)673d2e66d7fSKonstantin Schwarz bool CombinerHelper::matchCombineLoadWithAndMask(MachineInstr &MI,
674d2e66d7fSKonstantin Schwarz BuildFnTy &MatchInfo) {
675d2e66d7fSKonstantin Schwarz assert(MI.getOpcode() == TargetOpcode::G_AND);
676d2e66d7fSKonstantin Schwarz
677d2e66d7fSKonstantin Schwarz // If we have the following code:
678d2e66d7fSKonstantin Schwarz // %mask = G_CONSTANT 255
679d2e66d7fSKonstantin Schwarz // %ld = G_LOAD %ptr, (load s16)
680d2e66d7fSKonstantin Schwarz // %and = G_AND %ld, %mask
681d2e66d7fSKonstantin Schwarz //
682d2e66d7fSKonstantin Schwarz // Try to fold it into
683d2e66d7fSKonstantin Schwarz // %ld = G_ZEXTLOAD %ptr, (load s8)
684d2e66d7fSKonstantin Schwarz
685d2e66d7fSKonstantin Schwarz Register Dst = MI.getOperand(0).getReg();
686d2e66d7fSKonstantin Schwarz if (MRI.getType(Dst).isVector())
687d2e66d7fSKonstantin Schwarz return false;
688d2e66d7fSKonstantin Schwarz
689d2e66d7fSKonstantin Schwarz auto MaybeMask =
690d477a7c2SPetar Avramovic getIConstantVRegValWithLookThrough(MI.getOperand(2).getReg(), MRI);
691d2e66d7fSKonstantin Schwarz if (!MaybeMask)
692d2e66d7fSKonstantin Schwarz return false;
693d2e66d7fSKonstantin Schwarz
694d2e66d7fSKonstantin Schwarz APInt MaskVal = MaybeMask->Value;
695d2e66d7fSKonstantin Schwarz
696d2e66d7fSKonstantin Schwarz if (!MaskVal.isMask())
697d2e66d7fSKonstantin Schwarz return false;
698d2e66d7fSKonstantin Schwarz
699d2e66d7fSKonstantin Schwarz Register SrcReg = MI.getOperand(1).getReg();
7002824bdd9SAmara Emerson // Don't use getOpcodeDef() here since intermediate instructions may have
7012824bdd9SAmara Emerson // multiple users.
7022824bdd9SAmara Emerson GAnyLoad *LoadMI = dyn_cast<GAnyLoad>(MRI.getVRegDef(SrcReg));
7031ee6ce9bSMatt Arsenault if (!LoadMI || !MRI.hasOneNonDBGUse(LoadMI->getDstReg()))
704d2e66d7fSKonstantin Schwarz return false;
705d2e66d7fSKonstantin Schwarz
706d2e66d7fSKonstantin Schwarz Register LoadReg = LoadMI->getDstReg();
7071ee6ce9bSMatt Arsenault LLT RegTy = MRI.getType(LoadReg);
708d2e66d7fSKonstantin Schwarz Register PtrReg = LoadMI->getPointerReg();
7091ee6ce9bSMatt Arsenault unsigned RegSize = RegTy.getSizeInBits();
710d2e66d7fSKonstantin Schwarz uint64_t LoadSizeBits = LoadMI->getMemSizeInBits();
711d2e66d7fSKonstantin Schwarz unsigned MaskSizeBits = MaskVal.countTrailingOnes();
712d2e66d7fSKonstantin Schwarz
713d2e66d7fSKonstantin Schwarz // The mask may not be larger than the in-memory type, as it might cover sign
714d2e66d7fSKonstantin Schwarz // extended bits
715d2e66d7fSKonstantin Schwarz if (MaskSizeBits > LoadSizeBits)
716d2e66d7fSKonstantin Schwarz return false;
717d2e66d7fSKonstantin Schwarz
718d2e66d7fSKonstantin Schwarz // If the mask covers the whole destination register, there's nothing to
719d2e66d7fSKonstantin Schwarz // extend
7201ee6ce9bSMatt Arsenault if (MaskSizeBits >= RegSize)
721d2e66d7fSKonstantin Schwarz return false;
722d2e66d7fSKonstantin Schwarz
723d2e66d7fSKonstantin Schwarz // Most targets cannot deal with loads of size < 8 and need to re-legalize to
724d2e66d7fSKonstantin Schwarz // at least byte loads. Avoid creating such loads here
725d2e66d7fSKonstantin Schwarz if (MaskSizeBits < 8 || !isPowerOf2_32(MaskSizeBits))
726d2e66d7fSKonstantin Schwarz return false;
727d2e66d7fSKonstantin Schwarz
728d2e66d7fSKonstantin Schwarz const MachineMemOperand &MMO = LoadMI->getMMO();
729d2e66d7fSKonstantin Schwarz LegalityQuery::MemDesc MemDesc(MMO);
7301ee6ce9bSMatt Arsenault
7311ee6ce9bSMatt Arsenault // Don't modify the memory access size if this is atomic/volatile, but we can
7321ee6ce9bSMatt Arsenault // still adjust the opcode to indicate the high bit behavior.
7331ee6ce9bSMatt Arsenault if (LoadMI->isSimple())
734d2e66d7fSKonstantin Schwarz MemDesc.MemoryTy = LLT::scalar(MaskSizeBits);
7351ee6ce9bSMatt Arsenault else if (LoadSizeBits > MaskSizeBits || LoadSizeBits == RegSize)
7361ee6ce9bSMatt Arsenault return false;
7371ee6ce9bSMatt Arsenault
738e9a45d45SMatt Arsenault // TODO: Could check if it's legal with the reduced or original memory size.
739d2e66d7fSKonstantin Schwarz if (!isLegalOrBeforeLegalizer(
7401ee6ce9bSMatt Arsenault {TargetOpcode::G_ZEXTLOAD, {RegTy, MRI.getType(PtrReg)}, {MemDesc}}))
741d2e66d7fSKonstantin Schwarz return false;
742d2e66d7fSKonstantin Schwarz
743d2e66d7fSKonstantin Schwarz MatchInfo = [=](MachineIRBuilder &B) {
744d2e66d7fSKonstantin Schwarz B.setInstrAndDebugLoc(*LoadMI);
745d2e66d7fSKonstantin Schwarz auto &MF = B.getMF();
746d2e66d7fSKonstantin Schwarz auto PtrInfo = MMO.getPointerInfo();
7471ee6ce9bSMatt Arsenault auto *NewMMO = MF.getMachineMemOperand(&MMO, PtrInfo, MemDesc.MemoryTy);
748d2e66d7fSKonstantin Schwarz B.buildLoadInstr(TargetOpcode::G_ZEXTLOAD, Dst, PtrReg, *NewMMO);
7491ee6ce9bSMatt Arsenault LoadMI->eraseFromParent();
750d2e66d7fSKonstantin Schwarz };
751d2e66d7fSKonstantin Schwarz return true;
752d2e66d7fSKonstantin Schwarz }
753d2e66d7fSKonstantin Schwarz
isPredecessor(const MachineInstr & DefMI,const MachineInstr & UseMI)7545c04274dSVedant Kumar bool CombinerHelper::isPredecessor(const MachineInstr &DefMI,
7555c04274dSVedant Kumar const MachineInstr &UseMI) {
7565c04274dSVedant Kumar assert(!DefMI.isDebugInstr() && !UseMI.isDebugInstr() &&
7575c04274dSVedant Kumar "shouldn't consider debug uses");
75836147adcSTim Northover assert(DefMI.getParent() == UseMI.getParent());
75936147adcSTim Northover if (&DefMI == &UseMI)
76094a2f9cdSAhmed Bougacha return true;
761cfc60730SJessica Paquette const MachineBasicBlock &MBB = *DefMI.getParent();
762cbf52463SJessica Paquette auto DefOrUse = find_if(MBB, [&DefMI, &UseMI](const MachineInstr &MI) {
763cfc60730SJessica Paquette return &MI == &DefMI || &MI == &UseMI;
764cfc60730SJessica Paquette });
765cbf52463SJessica Paquette if (DefOrUse == MBB.end())
766cfc60730SJessica Paquette llvm_unreachable("Block must contain both DefMI and UseMI!");
767cfc60730SJessica Paquette return &*DefOrUse == &DefMI;
76836147adcSTim Northover }
76936147adcSTim Northover
dominates(const MachineInstr & DefMI,const MachineInstr & UseMI)7705c04274dSVedant Kumar bool CombinerHelper::dominates(const MachineInstr &DefMI,
7715c04274dSVedant Kumar const MachineInstr &UseMI) {
7725c04274dSVedant Kumar assert(!DefMI.isDebugInstr() && !UseMI.isDebugInstr() &&
7735c04274dSVedant Kumar "shouldn't consider debug uses");
77436147adcSTim Northover if (MDT)
77536147adcSTim Northover return MDT->dominates(&DefMI, &UseMI);
77636147adcSTim Northover else if (DefMI.getParent() != UseMI.getParent())
77736147adcSTim Northover return false;
77836147adcSTim Northover
77936147adcSTim Northover return isPredecessor(DefMI, UseMI);
78036147adcSTim Northover }
78136147adcSTim Northover
matchSextTruncSextLoad(MachineInstr & MI)7823b10e42bSAmara Emerson bool CombinerHelper::matchSextTruncSextLoad(MachineInstr &MI) {
7833b10e42bSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_SEXT_INREG);
7843b10e42bSAmara Emerson Register SrcReg = MI.getOperand(1).getReg();
7853b10e42bSAmara Emerson Register LoadUser = SrcReg;
7863b10e42bSAmara Emerson
7873b10e42bSAmara Emerson if (MRI.getType(SrcReg).isVector())
7883b10e42bSAmara Emerson return false;
7893b10e42bSAmara Emerson
7903b10e42bSAmara Emerson Register TruncSrc;
7913b10e42bSAmara Emerson if (mi_match(SrcReg, MRI, m_GTrunc(m_Reg(TruncSrc))))
7923b10e42bSAmara Emerson LoadUser = TruncSrc;
7933b10e42bSAmara Emerson
7943b10e42bSAmara Emerson uint64_t SizeInBits = MI.getOperand(2).getImm();
7953b10e42bSAmara Emerson // If the source is a G_SEXTLOAD from the same bit width, then we don't
7963b10e42bSAmara Emerson // need any extend at all, just a truncate.
7974e3dc6b8SAmara Emerson if (auto *LoadMI = getOpcodeDef<GSExtLoad>(LoadUser, MRI)) {
7983b10e42bSAmara Emerson // If truncating more than the original extended value, abort.
7994e3dc6b8SAmara Emerson auto LoadSizeBits = LoadMI->getMemSizeInBits();
8004e3dc6b8SAmara Emerson if (TruncSrc && MRI.getType(TruncSrc).getSizeInBits() < LoadSizeBits)
8013b10e42bSAmara Emerson return false;
8024e3dc6b8SAmara Emerson if (LoadSizeBits == SizeInBits)
8033b10e42bSAmara Emerson return true;
8043b10e42bSAmara Emerson }
8053b10e42bSAmara Emerson return false;
8063b10e42bSAmara Emerson }
8073b10e42bSAmara Emerson
applySextTruncSextLoad(MachineInstr & MI)808f30251f5SAmara Emerson void CombinerHelper::applySextTruncSextLoad(MachineInstr &MI) {
8093b10e42bSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_SEXT_INREG);
810645e7fc5SAmara Emerson Builder.setInstrAndDebugLoc(MI);
811645e7fc5SAmara Emerson Builder.buildCopy(MI.getOperand(0).getReg(), MI.getOperand(1).getReg());
8123b10e42bSAmara Emerson MI.eraseFromParent();
8133b10e42bSAmara Emerson }
8143b10e42bSAmara Emerson
matchSextInRegOfLoad(MachineInstr & MI,std::tuple<Register,unsigned> & MatchInfo)81504a6ea5dSAmara Emerson bool CombinerHelper::matchSextInRegOfLoad(
81604a6ea5dSAmara Emerson MachineInstr &MI, std::tuple<Register, unsigned> &MatchInfo) {
81704a6ea5dSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_SEXT_INREG);
81804a6ea5dSAmara Emerson
819e9a45d45SMatt Arsenault Register DstReg = MI.getOperand(0).getReg();
820e9a45d45SMatt Arsenault LLT RegTy = MRI.getType(DstReg);
821e9a45d45SMatt Arsenault
82204a6ea5dSAmara Emerson // Only supports scalars for now.
823e9a45d45SMatt Arsenault if (RegTy.isVector())
82404a6ea5dSAmara Emerson return false;
82504a6ea5dSAmara Emerson
82604a6ea5dSAmara Emerson Register SrcReg = MI.getOperand(1).getReg();
8274e3dc6b8SAmara Emerson auto *LoadDef = getOpcodeDef<GLoad>(SrcReg, MRI);
828e9a45d45SMatt Arsenault if (!LoadDef || !MRI.hasOneNonDBGUse(DstReg))
82904a6ea5dSAmara Emerson return false;
83004a6ea5dSAmara Emerson
831e9a45d45SMatt Arsenault uint64_t MemBits = LoadDef->getMemSizeInBits();
832e9a45d45SMatt Arsenault
83304a6ea5dSAmara Emerson // If the sign extend extends from a narrower width than the load's width,
83404a6ea5dSAmara Emerson // then we can narrow the load width when we combine to a G_SEXTLOAD.
83504a6ea5dSAmara Emerson // Avoid widening the load at all.
836e9a45d45SMatt Arsenault unsigned NewSizeBits = std::min((uint64_t)MI.getOperand(2).getImm(), MemBits);
83704a6ea5dSAmara Emerson
83804a6ea5dSAmara Emerson // Don't generate G_SEXTLOADs with a < 1 byte width.
83904a6ea5dSAmara Emerson if (NewSizeBits < 8)
84004a6ea5dSAmara Emerson return false;
84104a6ea5dSAmara Emerson // Don't bother creating a non-power-2 sextload, it will likely be broken up
84204a6ea5dSAmara Emerson // anyway for most targets.
84304a6ea5dSAmara Emerson if (!isPowerOf2_32(NewSizeBits))
84404a6ea5dSAmara Emerson return false;
8454b4bc1eaSKonstantin Schwarz
8464b4bc1eaSKonstantin Schwarz const MachineMemOperand &MMO = LoadDef->getMMO();
84790d52987SKonstantin Schwarz LegalityQuery::MemDesc MMDesc(MMO);
848e9a45d45SMatt Arsenault
849e9a45d45SMatt Arsenault // Don't modify the memory access size if this is atomic/volatile, but we can
850e9a45d45SMatt Arsenault // still adjust the opcode to indicate the high bit behavior.
851e9a45d45SMatt Arsenault if (LoadDef->isSimple())
8524b4bc1eaSKonstantin Schwarz MMDesc.MemoryTy = LLT::scalar(NewSizeBits);
853e9a45d45SMatt Arsenault else if (MemBits > NewSizeBits || MemBits == RegTy.getSizeInBits())
854e9a45d45SMatt Arsenault return false;
855e9a45d45SMatt Arsenault
856e9a45d45SMatt Arsenault // TODO: Could check if it's legal with the reduced or original memory size.
8574b4bc1eaSKonstantin Schwarz if (!isLegalOrBeforeLegalizer({TargetOpcode::G_SEXTLOAD,
8584b4bc1eaSKonstantin Schwarz {MRI.getType(LoadDef->getDstReg()),
8594b4bc1eaSKonstantin Schwarz MRI.getType(LoadDef->getPointerReg())},
8604b4bc1eaSKonstantin Schwarz {MMDesc}}))
8614b4bc1eaSKonstantin Schwarz return false;
8624b4bc1eaSKonstantin Schwarz
8634e3dc6b8SAmara Emerson MatchInfo = std::make_tuple(LoadDef->getDstReg(), NewSizeBits);
86404a6ea5dSAmara Emerson return true;
86504a6ea5dSAmara Emerson }
86604a6ea5dSAmara Emerson
applySextInRegOfLoad(MachineInstr & MI,std::tuple<Register,unsigned> & MatchInfo)867f30251f5SAmara Emerson void CombinerHelper::applySextInRegOfLoad(
86804a6ea5dSAmara Emerson MachineInstr &MI, std::tuple<Register, unsigned> &MatchInfo) {
86904a6ea5dSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_SEXT_INREG);
87004a6ea5dSAmara Emerson Register LoadReg;
87104a6ea5dSAmara Emerson unsigned ScalarSizeBits;
87204a6ea5dSAmara Emerson std::tie(LoadReg, ScalarSizeBits) = MatchInfo;
8734e3dc6b8SAmara Emerson GLoad *LoadDef = cast<GLoad>(MRI.getVRegDef(LoadReg));
87404a6ea5dSAmara Emerson
87504a6ea5dSAmara Emerson // If we have the following:
87604a6ea5dSAmara Emerson // %ld = G_LOAD %ptr, (load 2)
87704a6ea5dSAmara Emerson // %ext = G_SEXT_INREG %ld, 8
87804a6ea5dSAmara Emerson // ==>
87904a6ea5dSAmara Emerson // %ld = G_SEXTLOAD %ptr (load 1)
88004a6ea5dSAmara Emerson
8814e3dc6b8SAmara Emerson auto &MMO = LoadDef->getMMO();
882de035c18SAmara Emerson Builder.setInstrAndDebugLoc(*LoadDef);
88304a6ea5dSAmara Emerson auto &MF = Builder.getMF();
88404a6ea5dSAmara Emerson auto PtrInfo = MMO.getPointerInfo();
88504a6ea5dSAmara Emerson auto *NewMMO = MF.getMachineMemOperand(&MMO, PtrInfo, ScalarSizeBits / 8);
88604a6ea5dSAmara Emerson Builder.buildLoadInstr(TargetOpcode::G_SEXTLOAD, MI.getOperand(0).getReg(),
8874e3dc6b8SAmara Emerson LoadDef->getPointerReg(), *NewMMO);
88804a6ea5dSAmara Emerson MI.eraseFromParent();
88904a6ea5dSAmara Emerson }
89004a6ea5dSAmara Emerson
findPostIndexCandidate(MachineInstr & MI,Register & Addr,Register & Base,Register & Offset)89136147adcSTim Northover bool CombinerHelper::findPostIndexCandidate(MachineInstr &MI, Register &Addr,
89236147adcSTim Northover Register &Base, Register &Offset) {
89336147adcSTim Northover auto &MF = *MI.getParent()->getParent();
89436147adcSTim Northover const auto &TLI = *MF.getSubtarget().getTargetLowering();
89536147adcSTim Northover
89606d93e0aSTim Northover #ifndef NDEBUG
89736147adcSTim Northover unsigned Opcode = MI.getOpcode();
89836147adcSTim Northover assert(Opcode == TargetOpcode::G_LOAD || Opcode == TargetOpcode::G_SEXTLOAD ||
89936147adcSTim Northover Opcode == TargetOpcode::G_ZEXTLOAD || Opcode == TargetOpcode::G_STORE);
90006d93e0aSTim Northover #endif
90136147adcSTim Northover
90236147adcSTim Northover Base = MI.getOperand(1).getReg();
90336147adcSTim Northover MachineInstr *BaseDef = MRI.getUniqueVRegDef(Base);
90436147adcSTim Northover if (BaseDef && BaseDef->getOpcode() == TargetOpcode::G_FRAME_INDEX)
90536147adcSTim Northover return false;
90636147adcSTim Northover
90736147adcSTim Northover LLVM_DEBUG(dbgs() << "Searching for post-indexing opportunity for: " << MI);
908d0abc757SAmara Emerson // FIXME: The following use traversal needs a bail out for patholigical cases.
9095c04274dSVedant Kumar for (auto &Use : MRI.use_nodbg_instructions(Base)) {
910e74c5b96SDaniel Sanders if (Use.getOpcode() != TargetOpcode::G_PTR_ADD)
91136147adcSTim Northover continue;
91236147adcSTim Northover
91336147adcSTim Northover Offset = Use.getOperand(2).getReg();
91436147adcSTim Northover if (!ForceLegalIndexing &&
91536147adcSTim Northover !TLI.isIndexingLegal(MI, Base, Offset, /*IsPre*/ false, MRI)) {
91636147adcSTim Northover LLVM_DEBUG(dbgs() << " Ignoring candidate with illegal addrmode: "
91736147adcSTim Northover << Use);
91836147adcSTim Northover continue;
91936147adcSTim Northover }
92036147adcSTim Northover
92136147adcSTim Northover // Make sure the offset calculation is before the potentially indexed op.
92236147adcSTim Northover // FIXME: we really care about dependency here. The offset calculation might
92336147adcSTim Northover // be movable.
92436147adcSTim Northover MachineInstr *OffsetDef = MRI.getUniqueVRegDef(Offset);
92536147adcSTim Northover if (!OffsetDef || !dominates(*OffsetDef, MI)) {
92636147adcSTim Northover LLVM_DEBUG(dbgs() << " Ignoring candidate with offset after mem-op: "
92736147adcSTim Northover << Use);
92836147adcSTim Northover continue;
92936147adcSTim Northover }
93036147adcSTim Northover
93136147adcSTim Northover // FIXME: check whether all uses of Base are load/store with foldable
93236147adcSTim Northover // addressing modes. If so, using the normal addr-modes is better than
93336147adcSTim Northover // forming an indexed one.
93436147adcSTim Northover
93536147adcSTim Northover bool MemOpDominatesAddrUses = true;
9365c04274dSVedant Kumar for (auto &PtrAddUse :
9375c04274dSVedant Kumar MRI.use_nodbg_instructions(Use.getOperand(0).getReg())) {
938e74c5b96SDaniel Sanders if (!dominates(MI, PtrAddUse)) {
93936147adcSTim Northover MemOpDominatesAddrUses = false;
94036147adcSTim Northover break;
94136147adcSTim Northover }
94236147adcSTim Northover }
94336147adcSTim Northover
94436147adcSTim Northover if (!MemOpDominatesAddrUses) {
94536147adcSTim Northover LLVM_DEBUG(
94636147adcSTim Northover dbgs() << " Ignoring candidate as memop does not dominate uses: "
94736147adcSTim Northover << Use);
94836147adcSTim Northover continue;
94936147adcSTim Northover }
95036147adcSTim Northover
95136147adcSTim Northover LLVM_DEBUG(dbgs() << " Found match: " << Use);
95236147adcSTim Northover Addr = Use.getOperand(0).getReg();
95336147adcSTim Northover return true;
95436147adcSTim Northover }
95536147adcSTim Northover
95636147adcSTim Northover return false;
95736147adcSTim Northover }
95836147adcSTim Northover
findPreIndexCandidate(MachineInstr & MI,Register & Addr,Register & Base,Register & Offset)95936147adcSTim Northover bool CombinerHelper::findPreIndexCandidate(MachineInstr &MI, Register &Addr,
96036147adcSTim Northover Register &Base, Register &Offset) {
96136147adcSTim Northover auto &MF = *MI.getParent()->getParent();
96236147adcSTim Northover const auto &TLI = *MF.getSubtarget().getTargetLowering();
96336147adcSTim Northover
96406d93e0aSTim Northover #ifndef NDEBUG
96536147adcSTim Northover unsigned Opcode = MI.getOpcode();
96636147adcSTim Northover assert(Opcode == TargetOpcode::G_LOAD || Opcode == TargetOpcode::G_SEXTLOAD ||
96736147adcSTim Northover Opcode == TargetOpcode::G_ZEXTLOAD || Opcode == TargetOpcode::G_STORE);
96806d93e0aSTim Northover #endif
96936147adcSTim Northover
97036147adcSTim Northover Addr = MI.getOperand(1).getReg();
971e74c5b96SDaniel Sanders MachineInstr *AddrDef = getOpcodeDef(TargetOpcode::G_PTR_ADD, Addr, MRI);
972ba9db545SVedant Kumar if (!AddrDef || MRI.hasOneNonDBGUse(Addr))
97336147adcSTim Northover return false;
97436147adcSTim Northover
97536147adcSTim Northover Base = AddrDef->getOperand(1).getReg();
97636147adcSTim Northover Offset = AddrDef->getOperand(2).getReg();
97736147adcSTim Northover
97836147adcSTim Northover LLVM_DEBUG(dbgs() << "Found potential pre-indexed load_store: " << MI);
97936147adcSTim Northover
98036147adcSTim Northover if (!ForceLegalIndexing &&
98136147adcSTim Northover !TLI.isIndexingLegal(MI, Base, Offset, /*IsPre*/ true, MRI)) {
98236147adcSTim Northover LLVM_DEBUG(dbgs() << " Skipping, not legal for target");
98336147adcSTim Northover return false;
98436147adcSTim Northover }
98536147adcSTim Northover
98636147adcSTim Northover MachineInstr *BaseDef = getDefIgnoringCopies(Base, MRI);
98736147adcSTim Northover if (BaseDef->getOpcode() == TargetOpcode::G_FRAME_INDEX) {
98836147adcSTim Northover LLVM_DEBUG(dbgs() << " Skipping, frame index would need copy anyway.");
98936147adcSTim Northover return false;
99036147adcSTim Northover }
99136147adcSTim Northover
99236147adcSTim Northover if (MI.getOpcode() == TargetOpcode::G_STORE) {
99336147adcSTim Northover // Would require a copy.
99436147adcSTim Northover if (Base == MI.getOperand(0).getReg()) {
99536147adcSTim Northover LLVM_DEBUG(dbgs() << " Skipping, storing base so need copy anyway.");
99636147adcSTim Northover return false;
99736147adcSTim Northover }
99836147adcSTim Northover
99936147adcSTim Northover // We're expecting one use of Addr in MI, but it could also be the
100036147adcSTim Northover // value stored, which isn't actually dominated by the instruction.
100136147adcSTim Northover if (MI.getOperand(0).getReg() == Addr) {
100236147adcSTim Northover LLVM_DEBUG(dbgs() << " Skipping, does not dominate all addr uses");
100336147adcSTim Northover return false;
100436147adcSTim Northover }
100536147adcSTim Northover }
100636147adcSTim Northover
1007e74c5b96SDaniel Sanders // FIXME: check whether all uses of the base pointer are constant PtrAdds.
1008e74c5b96SDaniel Sanders // That might allow us to end base's liveness here by adjusting the constant.
100936147adcSTim Northover
10105c04274dSVedant Kumar for (auto &UseMI : MRI.use_nodbg_instructions(Addr)) {
101136147adcSTim Northover if (!dominates(MI, UseMI)) {
101236147adcSTim Northover LLVM_DEBUG(dbgs() << " Skipping, does not dominate all addr uses.");
101336147adcSTim Northover return false;
101436147adcSTim Northover }
101536147adcSTim Northover }
101636147adcSTim Northover
101736147adcSTim Northover return true;
101836147adcSTim Northover }
101936147adcSTim Northover
tryCombineIndexedLoadStore(MachineInstr & MI)102036147adcSTim Northover bool CombinerHelper::tryCombineIndexedLoadStore(MachineInstr &MI) {
1021c3cb089aSDaniel Sanders IndexedLoadStoreMatchInfo MatchInfo;
1022c3cb089aSDaniel Sanders if (matchCombineIndexedLoadStore(MI, MatchInfo)) {
1023c3cb089aSDaniel Sanders applyCombineIndexedLoadStore(MI, MatchInfo);
1024c3cb089aSDaniel Sanders return true;
1025c3cb089aSDaniel Sanders }
1026c3cb089aSDaniel Sanders return false;
1027c3cb089aSDaniel Sanders }
1028c3cb089aSDaniel Sanders
matchCombineIndexedLoadStore(MachineInstr & MI,IndexedLoadStoreMatchInfo & MatchInfo)1029c3cb089aSDaniel Sanders bool CombinerHelper::matchCombineIndexedLoadStore(MachineInstr &MI, IndexedLoadStoreMatchInfo &MatchInfo) {
103036147adcSTim Northover unsigned Opcode = MI.getOpcode();
103136147adcSTim Northover if (Opcode != TargetOpcode::G_LOAD && Opcode != TargetOpcode::G_SEXTLOAD &&
103236147adcSTim Northover Opcode != TargetOpcode::G_ZEXTLOAD && Opcode != TargetOpcode::G_STORE)
103336147adcSTim Northover return false;
103436147adcSTim Northover
1035d0abc757SAmara Emerson // For now, no targets actually support these opcodes so don't waste time
1036d0abc757SAmara Emerson // running these unless we're forced to for testing.
1037d0abc757SAmara Emerson if (!ForceLegalIndexing)
1038d0abc757SAmara Emerson return false;
1039d0abc757SAmara Emerson
1040c3cb089aSDaniel Sanders MatchInfo.IsPre = findPreIndexCandidate(MI, MatchInfo.Addr, MatchInfo.Base,
1041c3cb089aSDaniel Sanders MatchInfo.Offset);
1042c3cb089aSDaniel Sanders if (!MatchInfo.IsPre &&
1043c3cb089aSDaniel Sanders !findPostIndexCandidate(MI, MatchInfo.Addr, MatchInfo.Base,
1044c3cb089aSDaniel Sanders MatchInfo.Offset))
104536147adcSTim Northover return false;
104636147adcSTim Northover
1047c3cb089aSDaniel Sanders return true;
1048c3cb089aSDaniel Sanders }
104936147adcSTim Northover
applyCombineIndexedLoadStore(MachineInstr & MI,IndexedLoadStoreMatchInfo & MatchInfo)1050c3cb089aSDaniel Sanders void CombinerHelper::applyCombineIndexedLoadStore(
1051c3cb089aSDaniel Sanders MachineInstr &MI, IndexedLoadStoreMatchInfo &MatchInfo) {
1052c3cb089aSDaniel Sanders MachineInstr &AddrDef = *MRI.getUniqueVRegDef(MatchInfo.Addr);
1053c3cb089aSDaniel Sanders MachineIRBuilder MIRBuilder(MI);
1054c3cb089aSDaniel Sanders unsigned Opcode = MI.getOpcode();
1055c3cb089aSDaniel Sanders bool IsStore = Opcode == TargetOpcode::G_STORE;
105636147adcSTim Northover unsigned NewOpcode;
105736147adcSTim Northover switch (Opcode) {
105836147adcSTim Northover case TargetOpcode::G_LOAD:
105936147adcSTim Northover NewOpcode = TargetOpcode::G_INDEXED_LOAD;
106036147adcSTim Northover break;
106136147adcSTim Northover case TargetOpcode::G_SEXTLOAD:
106236147adcSTim Northover NewOpcode = TargetOpcode::G_INDEXED_SEXTLOAD;
106336147adcSTim Northover break;
106436147adcSTim Northover case TargetOpcode::G_ZEXTLOAD:
106536147adcSTim Northover NewOpcode = TargetOpcode::G_INDEXED_ZEXTLOAD;
106636147adcSTim Northover break;
106736147adcSTim Northover case TargetOpcode::G_STORE:
106836147adcSTim Northover NewOpcode = TargetOpcode::G_INDEXED_STORE;
106936147adcSTim Northover break;
107036147adcSTim Northover default:
107136147adcSTim Northover llvm_unreachable("Unknown load/store opcode");
107236147adcSTim Northover }
107336147adcSTim Northover
107436147adcSTim Northover auto MIB = MIRBuilder.buildInstr(NewOpcode);
107536147adcSTim Northover if (IsStore) {
1076c3cb089aSDaniel Sanders MIB.addDef(MatchInfo.Addr);
107736147adcSTim Northover MIB.addUse(MI.getOperand(0).getReg());
107836147adcSTim Northover } else {
107936147adcSTim Northover MIB.addDef(MI.getOperand(0).getReg());
1080c3cb089aSDaniel Sanders MIB.addDef(MatchInfo.Addr);
108136147adcSTim Northover }
108236147adcSTim Northover
1083c3cb089aSDaniel Sanders MIB.addUse(MatchInfo.Base);
1084c3cb089aSDaniel Sanders MIB.addUse(MatchInfo.Offset);
1085c3cb089aSDaniel Sanders MIB.addImm(MatchInfo.IsPre);
108636147adcSTim Northover MI.eraseFromParent();
108736147adcSTim Northover AddrDef.eraseFromParent();
108836147adcSTim Northover
108936147adcSTim Northover LLVM_DEBUG(dbgs() << " Combinined to indexed operation");
109036147adcSTim Northover }
109136147adcSTim Northover
matchCombineDivRem(MachineInstr & MI,MachineInstr * & OtherMI)10924c6ab48fSChristudasan Devadasan bool CombinerHelper::matchCombineDivRem(MachineInstr &MI,
10934c6ab48fSChristudasan Devadasan MachineInstr *&OtherMI) {
10944c6ab48fSChristudasan Devadasan unsigned Opcode = MI.getOpcode();
10954c6ab48fSChristudasan Devadasan bool IsDiv, IsSigned;
10964c6ab48fSChristudasan Devadasan
10974c6ab48fSChristudasan Devadasan switch (Opcode) {
10984c6ab48fSChristudasan Devadasan default:
10994c6ab48fSChristudasan Devadasan llvm_unreachable("Unexpected opcode!");
11004c6ab48fSChristudasan Devadasan case TargetOpcode::G_SDIV:
11014c6ab48fSChristudasan Devadasan case TargetOpcode::G_UDIV: {
11024c6ab48fSChristudasan Devadasan IsDiv = true;
11034c6ab48fSChristudasan Devadasan IsSigned = Opcode == TargetOpcode::G_SDIV;
11044c6ab48fSChristudasan Devadasan break;
11054c6ab48fSChristudasan Devadasan }
11064c6ab48fSChristudasan Devadasan case TargetOpcode::G_SREM:
11074c6ab48fSChristudasan Devadasan case TargetOpcode::G_UREM: {
11084c6ab48fSChristudasan Devadasan IsDiv = false;
11094c6ab48fSChristudasan Devadasan IsSigned = Opcode == TargetOpcode::G_SREM;
11104c6ab48fSChristudasan Devadasan break;
11114c6ab48fSChristudasan Devadasan }
11124c6ab48fSChristudasan Devadasan }
11134c6ab48fSChristudasan Devadasan
11144c6ab48fSChristudasan Devadasan Register Src1 = MI.getOperand(1).getReg();
11154c6ab48fSChristudasan Devadasan unsigned DivOpcode, RemOpcode, DivremOpcode;
11164c6ab48fSChristudasan Devadasan if (IsSigned) {
11174c6ab48fSChristudasan Devadasan DivOpcode = TargetOpcode::G_SDIV;
11184c6ab48fSChristudasan Devadasan RemOpcode = TargetOpcode::G_SREM;
11194c6ab48fSChristudasan Devadasan DivremOpcode = TargetOpcode::G_SDIVREM;
11204c6ab48fSChristudasan Devadasan } else {
11214c6ab48fSChristudasan Devadasan DivOpcode = TargetOpcode::G_UDIV;
11224c6ab48fSChristudasan Devadasan RemOpcode = TargetOpcode::G_UREM;
11234c6ab48fSChristudasan Devadasan DivremOpcode = TargetOpcode::G_UDIVREM;
11244c6ab48fSChristudasan Devadasan }
11254c6ab48fSChristudasan Devadasan
11264c6ab48fSChristudasan Devadasan if (!isLegalOrBeforeLegalizer({DivremOpcode, {MRI.getType(Src1)}}))
11274c6ab48fSChristudasan Devadasan return false;
11284c6ab48fSChristudasan Devadasan
11294c6ab48fSChristudasan Devadasan // Combine:
11304c6ab48fSChristudasan Devadasan // %div:_ = G_[SU]DIV %src1:_, %src2:_
11314c6ab48fSChristudasan Devadasan // %rem:_ = G_[SU]REM %src1:_, %src2:_
11324c6ab48fSChristudasan Devadasan // into:
11334c6ab48fSChristudasan Devadasan // %div:_, %rem:_ = G_[SU]DIVREM %src1:_, %src2:_
11344c6ab48fSChristudasan Devadasan
11354c6ab48fSChristudasan Devadasan // Combine:
11364c6ab48fSChristudasan Devadasan // %rem:_ = G_[SU]REM %src1:_, %src2:_
11374c6ab48fSChristudasan Devadasan // %div:_ = G_[SU]DIV %src1:_, %src2:_
11384c6ab48fSChristudasan Devadasan // into:
11394c6ab48fSChristudasan Devadasan // %div:_, %rem:_ = G_[SU]DIVREM %src1:_, %src2:_
11404c6ab48fSChristudasan Devadasan
11414c6ab48fSChristudasan Devadasan for (auto &UseMI : MRI.use_nodbg_instructions(Src1)) {
11424c6ab48fSChristudasan Devadasan if (MI.getParent() == UseMI.getParent() &&
11434c6ab48fSChristudasan Devadasan ((IsDiv && UseMI.getOpcode() == RemOpcode) ||
11444c6ab48fSChristudasan Devadasan (!IsDiv && UseMI.getOpcode() == DivOpcode)) &&
1145*5ae04726SAmara Emerson matchEqualDefs(MI.getOperand(2), UseMI.getOperand(2)) &&
1146*5ae04726SAmara Emerson matchEqualDefs(MI.getOperand(1), UseMI.getOperand(1))) {
11474c6ab48fSChristudasan Devadasan OtherMI = &UseMI;
11484c6ab48fSChristudasan Devadasan return true;
11494c6ab48fSChristudasan Devadasan }
11504c6ab48fSChristudasan Devadasan }
11514c6ab48fSChristudasan Devadasan
11524c6ab48fSChristudasan Devadasan return false;
11534c6ab48fSChristudasan Devadasan }
11544c6ab48fSChristudasan Devadasan
applyCombineDivRem(MachineInstr & MI,MachineInstr * & OtherMI)11554c6ab48fSChristudasan Devadasan void CombinerHelper::applyCombineDivRem(MachineInstr &MI,
11564c6ab48fSChristudasan Devadasan MachineInstr *&OtherMI) {
11574c6ab48fSChristudasan Devadasan unsigned Opcode = MI.getOpcode();
11584c6ab48fSChristudasan Devadasan assert(OtherMI && "OtherMI shouldn't be empty.");
11594c6ab48fSChristudasan Devadasan
11604c6ab48fSChristudasan Devadasan Register DestDivReg, DestRemReg;
11614c6ab48fSChristudasan Devadasan if (Opcode == TargetOpcode::G_SDIV || Opcode == TargetOpcode::G_UDIV) {
11624c6ab48fSChristudasan Devadasan DestDivReg = MI.getOperand(0).getReg();
11634c6ab48fSChristudasan Devadasan DestRemReg = OtherMI->getOperand(0).getReg();
11644c6ab48fSChristudasan Devadasan } else {
11654c6ab48fSChristudasan Devadasan DestDivReg = OtherMI->getOperand(0).getReg();
11664c6ab48fSChristudasan Devadasan DestRemReg = MI.getOperand(0).getReg();
11674c6ab48fSChristudasan Devadasan }
11684c6ab48fSChristudasan Devadasan
11694c6ab48fSChristudasan Devadasan bool IsSigned =
11704c6ab48fSChristudasan Devadasan Opcode == TargetOpcode::G_SDIV || Opcode == TargetOpcode::G_SREM;
117157ea5d4fSAmara Emerson
117257ea5d4fSAmara Emerson // Check which instruction is first in the block so we don't break def-use
117357ea5d4fSAmara Emerson // deps by "moving" the instruction incorrectly.
117457ea5d4fSAmara Emerson if (dominates(MI, *OtherMI))
11754c6ab48fSChristudasan Devadasan Builder.setInstrAndDebugLoc(MI);
117657ea5d4fSAmara Emerson else
117757ea5d4fSAmara Emerson Builder.setInstrAndDebugLoc(*OtherMI);
117857ea5d4fSAmara Emerson
11794c6ab48fSChristudasan Devadasan Builder.buildInstr(IsSigned ? TargetOpcode::G_SDIVREM
11804c6ab48fSChristudasan Devadasan : TargetOpcode::G_UDIVREM,
11814c6ab48fSChristudasan Devadasan {DestDivReg, DestRemReg},
11824c6ab48fSChristudasan Devadasan {MI.getOperand(1).getReg(), MI.getOperand(2).getReg()});
11834c6ab48fSChristudasan Devadasan MI.eraseFromParent();
11844c6ab48fSChristudasan Devadasan OtherMI->eraseFromParent();
11854c6ab48fSChristudasan Devadasan }
11864c6ab48fSChristudasan Devadasan
matchOptBrCondByInvertingCond(MachineInstr & MI,MachineInstr * & BrCond)11871ccebb18SAmara Emerson bool CombinerHelper::matchOptBrCondByInvertingCond(MachineInstr &MI,
11881ccebb18SAmara Emerson MachineInstr *&BrCond) {
11891ccebb18SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_BR);
1190ec5208fdSDaniel Sanders
11916616e269SAmara Emerson // Try to match the following:
11926616e269SAmara Emerson // bb1:
11936616e269SAmara Emerson // G_BRCOND %c1, %bb2
11946616e269SAmara Emerson // G_BR %bb3
11956616e269SAmara Emerson // bb2:
11966616e269SAmara Emerson // ...
11976616e269SAmara Emerson // bb3:
11986616e269SAmara Emerson
11996616e269SAmara Emerson // The above pattern does not have a fall through to the successor bb2, always
12006616e269SAmara Emerson // resulting in a branch no matter which path is taken. Here we try to find
12016616e269SAmara Emerson // and replace that pattern with conditional branch to bb3 and otherwise
1202cc76da7aSAmara Emerson // fallthrough to bb2. This is generally better for branch predictors.
12036616e269SAmara Emerson
12046616e269SAmara Emerson MachineBasicBlock *MBB = MI.getParent();
12056616e269SAmara Emerson MachineBasicBlock::iterator BrIt(MI);
12066616e269SAmara Emerson if (BrIt == MBB->begin())
12076616e269SAmara Emerson return false;
12086616e269SAmara Emerson assert(std::next(BrIt) == MBB->end() && "expected G_BR to be a terminator");
12096616e269SAmara Emerson
12101ccebb18SAmara Emerson BrCond = &*std::prev(BrIt);
12116616e269SAmara Emerson if (BrCond->getOpcode() != TargetOpcode::G_BRCOND)
12126616e269SAmara Emerson return false;
12136616e269SAmara Emerson
121402d4b365SJessica Paquette // Check that the next block is the conditional branch target. Also make sure
121502d4b365SJessica Paquette // that it isn't the same as the G_BR's target (otherwise, this will loop.)
121602d4b365SJessica Paquette MachineBasicBlock *BrCondTarget = BrCond->getOperand(1).getMBB();
121702d4b365SJessica Paquette return BrCondTarget != MI.getOperand(0).getMBB() &&
121802d4b365SJessica Paquette MBB->isLayoutSuccessor(BrCondTarget);
12196616e269SAmara Emerson }
12206616e269SAmara Emerson
applyOptBrCondByInvertingCond(MachineInstr & MI,MachineInstr * & BrCond)12211ccebb18SAmara Emerson void CombinerHelper::applyOptBrCondByInvertingCond(MachineInstr &MI,
12221ccebb18SAmara Emerson MachineInstr *&BrCond) {
12236616e269SAmara Emerson MachineBasicBlock *BrTarget = MI.getOperand(0).getMBB();
1224cc76da7aSAmara Emerson Builder.setInstrAndDebugLoc(*BrCond);
1225cc76da7aSAmara Emerson LLT Ty = MRI.getType(BrCond->getOperand(0).getReg());
1226cc76da7aSAmara Emerson // FIXME: Does int/fp matter for this? If so, we might need to restrict
1227cc76da7aSAmara Emerson // this to i1 only since we might not know for sure what kind of
1228cc76da7aSAmara Emerson // compare generated the condition value.
1229cc76da7aSAmara Emerson auto True = Builder.buildConstant(
1230cc76da7aSAmara Emerson Ty, getICmpTrueVal(getTargetLowering(), false, false));
1231cc76da7aSAmara Emerson auto Xor = Builder.buildXor(Ty, BrCond->getOperand(0), True);
12326616e269SAmara Emerson
1233cc76da7aSAmara Emerson auto *FallthroughBB = BrCond->getOperand(1).getMBB();
1234cc76da7aSAmara Emerson Observer.changingInstr(MI);
1235cc76da7aSAmara Emerson MI.getOperand(0).setMBB(FallthroughBB);
1236cc76da7aSAmara Emerson Observer.changedInstr(MI);
12376616e269SAmara Emerson
1238cc76da7aSAmara Emerson // Change the conditional branch to use the inverted condition and
1239cc76da7aSAmara Emerson // new target block.
12406616e269SAmara Emerson Observer.changingInstr(*BrCond);
1241cc76da7aSAmara Emerson BrCond->getOperand(0).setReg(Xor.getReg(0));
12426616e269SAmara Emerson BrCond->getOperand(1).setMBB(BrTarget);
12436616e269SAmara Emerson Observer.changedInstr(*BrCond);
12446616e269SAmara Emerson }
12456616e269SAmara Emerson
getTypeForLLT(LLT Ty,LLVMContext & C)124613af1ed8SAmara Emerson static Type *getTypeForLLT(LLT Ty, LLVMContext &C) {
124713af1ed8SAmara Emerson if (Ty.isVector())
1248caa2fddcSChristopher Tetreault return FixedVectorType::get(IntegerType::get(C, Ty.getScalarSizeInBits()),
124913af1ed8SAmara Emerson Ty.getNumElements());
125013af1ed8SAmara Emerson return IntegerType::get(C, Ty.getSizeInBits());
125113af1ed8SAmara Emerson }
125213af1ed8SAmara Emerson
tryEmitMemcpyInline(MachineInstr & MI)1253a6428724SJon Roelofs bool CombinerHelper::tryEmitMemcpyInline(MachineInstr &MI) {
125436527cbeSMirko Brkusanin MachineIRBuilder HelperBuilder(MI);
125536527cbeSMirko Brkusanin GISelObserverWrapper DummyObserver;
125636527cbeSMirko Brkusanin LegalizerHelper Helper(HelperBuilder.getMF(), DummyObserver, HelperBuilder);
125736527cbeSMirko Brkusanin return Helper.lowerMemcpyInline(MI) ==
125836527cbeSMirko Brkusanin LegalizerHelper::LegalizeResult::Legalized;
125913af1ed8SAmara Emerson }
126013af1ed8SAmara Emerson
tryCombineMemCpyFamily(MachineInstr & MI,unsigned MaxLen)126185e5e28aSAmara Emerson bool CombinerHelper::tryCombineMemCpyFamily(MachineInstr &MI, unsigned MaxLen) {
126236527cbeSMirko Brkusanin MachineIRBuilder HelperBuilder(MI);
126336527cbeSMirko Brkusanin GISelObserverWrapper DummyObserver;
126436527cbeSMirko Brkusanin LegalizerHelper Helper(HelperBuilder.getMF(), DummyObserver, HelperBuilder);
126536527cbeSMirko Brkusanin return Helper.lowerMemCpyFamily(MI, MaxLen) ==
126636527cbeSMirko Brkusanin LegalizerHelper::LegalizeResult::Legalized;
126713af1ed8SAmara Emerson }
126813af1ed8SAmara Emerson
constantFoldFpUnary(unsigned Opcode,LLT DstTy,const Register Op,const MachineRegisterInfo & MRI)1269c4e589b7SMichael Kitzan static Optional<APFloat> constantFoldFpUnary(unsigned Opcode, LLT DstTy,
1270c4e589b7SMichael Kitzan const Register Op,
1271c4e589b7SMichael Kitzan const MachineRegisterInfo &MRI) {
1272c4e589b7SMichael Kitzan const ConstantFP *MaybeCst = getConstantFPVRegVal(Op, MRI);
1273c4e589b7SMichael Kitzan if (!MaybeCst)
1274c4e589b7SMichael Kitzan return None;
1275c4e589b7SMichael Kitzan
1276c4e589b7SMichael Kitzan APFloat V = MaybeCst->getValueAPF();
1277c4e589b7SMichael Kitzan switch (Opcode) {
1278c4e589b7SMichael Kitzan default:
1279c4e589b7SMichael Kitzan llvm_unreachable("Unexpected opcode!");
1280c4e589b7SMichael Kitzan case TargetOpcode::G_FNEG: {
1281c4e589b7SMichael Kitzan V.changeSign();
1282c4e589b7SMichael Kitzan return V;
1283c4e589b7SMichael Kitzan }
1284c4e589b7SMichael Kitzan case TargetOpcode::G_FABS: {
1285c4e589b7SMichael Kitzan V.clearSign();
1286c4e589b7SMichael Kitzan return V;
1287c4e589b7SMichael Kitzan }
1288c4e589b7SMichael Kitzan case TargetOpcode::G_FPTRUNC:
1289c4e589b7SMichael Kitzan break;
1290c4e589b7SMichael Kitzan case TargetOpcode::G_FSQRT: {
1291c4e589b7SMichael Kitzan bool Unused;
1292c4e589b7SMichael Kitzan V.convert(APFloat::IEEEdouble(), APFloat::rmNearestTiesToEven, &Unused);
1293c4e589b7SMichael Kitzan V = APFloat(sqrt(V.convertToDouble()));
1294c4e589b7SMichael Kitzan break;
1295c4e589b7SMichael Kitzan }
1296c4e589b7SMichael Kitzan case TargetOpcode::G_FLOG2: {
1297c4e589b7SMichael Kitzan bool Unused;
1298c4e589b7SMichael Kitzan V.convert(APFloat::IEEEdouble(), APFloat::rmNearestTiesToEven, &Unused);
1299c4e589b7SMichael Kitzan V = APFloat(log2(V.convertToDouble()));
1300c4e589b7SMichael Kitzan break;
1301c4e589b7SMichael Kitzan }
1302c4e589b7SMichael Kitzan }
1303c4e589b7SMichael Kitzan // Convert `APFloat` to appropriate IEEE type depending on `DstTy`. Otherwise,
1304c4e589b7SMichael Kitzan // `buildFConstant` will assert on size mismatch. Only `G_FPTRUNC`, `G_FSQRT`,
1305c4e589b7SMichael Kitzan // and `G_FLOG2` reach here.
1306c4e589b7SMichael Kitzan bool Unused;
1307c4e589b7SMichael Kitzan V.convert(getFltSemanticForLLT(DstTy), APFloat::rmNearestTiesToEven, &Unused);
1308c4e589b7SMichael Kitzan return V;
1309c4e589b7SMichael Kitzan }
1310c4e589b7SMichael Kitzan
matchCombineConstantFoldFpUnary(MachineInstr & MI,Optional<APFloat> & Cst)1311c4e589b7SMichael Kitzan bool CombinerHelper::matchCombineConstantFoldFpUnary(MachineInstr &MI,
1312c4e589b7SMichael Kitzan Optional<APFloat> &Cst) {
1313c4e589b7SMichael Kitzan Register DstReg = MI.getOperand(0).getReg();
1314c4e589b7SMichael Kitzan Register SrcReg = MI.getOperand(1).getReg();
1315c4e589b7SMichael Kitzan LLT DstTy = MRI.getType(DstReg);
1316c4e589b7SMichael Kitzan Cst = constantFoldFpUnary(MI.getOpcode(), DstTy, SrcReg, MRI);
1317a81b64a1SKazu Hirata return Cst.has_value();
1318c4e589b7SMichael Kitzan }
1319c4e589b7SMichael Kitzan
applyCombineConstantFoldFpUnary(MachineInstr & MI,Optional<APFloat> & Cst)1320f30251f5SAmara Emerson void CombinerHelper::applyCombineConstantFoldFpUnary(MachineInstr &MI,
1321c4e589b7SMichael Kitzan Optional<APFloat> &Cst) {
1322a7938c74SKazu Hirata assert(Cst && "Optional is unexpectedly empty!");
1323c4e589b7SMichael Kitzan Builder.setInstrAndDebugLoc(MI);
1324c4e589b7SMichael Kitzan MachineFunction &MF = Builder.getMF();
1325c4e589b7SMichael Kitzan auto *FPVal = ConstantFP::get(MF.getFunction().getContext(), *Cst);
1326c4e589b7SMichael Kitzan Register DstReg = MI.getOperand(0).getReg();
1327c4e589b7SMichael Kitzan Builder.buildFConstant(DstReg, *FPVal);
1328c4e589b7SMichael Kitzan MI.eraseFromParent();
1329c4e589b7SMichael Kitzan }
1330c4e589b7SMichael Kitzan
matchPtrAddImmedChain(MachineInstr & MI,PtrAddChain & MatchInfo)1331b6598bcfSAmara Emerson bool CombinerHelper::matchPtrAddImmedChain(MachineInstr &MI,
1332b6598bcfSAmara Emerson PtrAddChain &MatchInfo) {
1333b6598bcfSAmara Emerson // We're trying to match the following pattern:
1334b6598bcfSAmara Emerson // %t1 = G_PTR_ADD %base, G_CONSTANT imm1
1335b6598bcfSAmara Emerson // %root = G_PTR_ADD %t1, G_CONSTANT imm2
1336b6598bcfSAmara Emerson // -->
1337b6598bcfSAmara Emerson // %root = G_PTR_ADD %base, G_CONSTANT (imm1 + imm2)
1338b6598bcfSAmara Emerson
1339b6598bcfSAmara Emerson if (MI.getOpcode() != TargetOpcode::G_PTR_ADD)
1340b6598bcfSAmara Emerson return false;
1341b6598bcfSAmara Emerson
1342b6598bcfSAmara Emerson Register Add2 = MI.getOperand(1).getReg();
1343b6598bcfSAmara Emerson Register Imm1 = MI.getOperand(2).getReg();
1344d477a7c2SPetar Avramovic auto MaybeImmVal = getIConstantVRegValWithLookThrough(Imm1, MRI);
1345b6598bcfSAmara Emerson if (!MaybeImmVal)
1346b6598bcfSAmara Emerson return false;
1347b6598bcfSAmara Emerson
1348fbae3463SSebastian Neubauer MachineInstr *Add2Def = MRI.getVRegDef(Add2);
1349b6598bcfSAmara Emerson if (!Add2Def || Add2Def->getOpcode() != TargetOpcode::G_PTR_ADD)
1350b6598bcfSAmara Emerson return false;
1351b6598bcfSAmara Emerson
1352b6598bcfSAmara Emerson Register Base = Add2Def->getOperand(1).getReg();
1353b6598bcfSAmara Emerson Register Imm2 = Add2Def->getOperand(2).getReg();
1354d477a7c2SPetar Avramovic auto MaybeImm2Val = getIConstantVRegValWithLookThrough(Imm2, MRI);
1355b6598bcfSAmara Emerson if (!MaybeImm2Val)
1356b6598bcfSAmara Emerson return false;
1357b6598bcfSAmara Emerson
13587ec4ce15SAmara Emerson // Check if the new combined immediate forms an illegal addressing mode.
13597ec4ce15SAmara Emerson // Do not combine if it was legal before but would get illegal.
13607ec4ce15SAmara Emerson // To do so, we need to find a load/store user of the pointer to get
13617ec4ce15SAmara Emerson // the access type.
13627ec4ce15SAmara Emerson Type *AccessTy = nullptr;
13637ec4ce15SAmara Emerson auto &MF = *MI.getMF();
13647ec4ce15SAmara Emerson for (auto &UseMI : MRI.use_nodbg_instructions(MI.getOperand(0).getReg())) {
13657ec4ce15SAmara Emerson if (auto *LdSt = dyn_cast<GLoadStore>(&UseMI)) {
13667ec4ce15SAmara Emerson AccessTy = getTypeForLLT(MRI.getType(LdSt->getReg(0)),
13677ec4ce15SAmara Emerson MF.getFunction().getContext());
13687ec4ce15SAmara Emerson break;
13697ec4ce15SAmara Emerson }
13707ec4ce15SAmara Emerson }
13717ec4ce15SAmara Emerson TargetLoweringBase::AddrMode AMNew;
13727ec4ce15SAmara Emerson APInt CombinedImm = MaybeImmVal->Value + MaybeImm2Val->Value;
13737ec4ce15SAmara Emerson AMNew.BaseOffs = CombinedImm.getSExtValue();
13747ec4ce15SAmara Emerson if (AccessTy) {
13757ec4ce15SAmara Emerson AMNew.HasBaseReg = true;
13767ec4ce15SAmara Emerson TargetLoweringBase::AddrMode AMOld;
13777ec4ce15SAmara Emerson AMOld.BaseOffs = MaybeImm2Val->Value.getSExtValue();
13787ec4ce15SAmara Emerson AMOld.HasBaseReg = true;
13797ec4ce15SAmara Emerson unsigned AS = MRI.getType(Add2).getAddressSpace();
13807ec4ce15SAmara Emerson const auto &TLI = *MF.getSubtarget().getTargetLowering();
13817ec4ce15SAmara Emerson if (TLI.isLegalAddressingMode(MF.getDataLayout(), AMOld, AccessTy, AS) &&
13827ec4ce15SAmara Emerson !TLI.isLegalAddressingMode(MF.getDataLayout(), AMNew, AccessTy, AS))
13837ec4ce15SAmara Emerson return false;
13847ec4ce15SAmara Emerson }
13857ec4ce15SAmara Emerson
1386b6598bcfSAmara Emerson // Pass the combined immediate to the apply function.
13877ec4ce15SAmara Emerson MatchInfo.Imm = AMNew.BaseOffs;
1388b6598bcfSAmara Emerson MatchInfo.Base = Base;
1389fbae3463SSebastian Neubauer MatchInfo.Bank = getRegBank(Imm2);
1390b6598bcfSAmara Emerson return true;
1391b6598bcfSAmara Emerson }
1392b6598bcfSAmara Emerson
applyPtrAddImmedChain(MachineInstr & MI,PtrAddChain & MatchInfo)1393f30251f5SAmara Emerson void CombinerHelper::applyPtrAddImmedChain(MachineInstr &MI,
1394b6598bcfSAmara Emerson PtrAddChain &MatchInfo) {
1395b6598bcfSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_PTR_ADD && "Expected G_PTR_ADD");
1396b6598bcfSAmara Emerson MachineIRBuilder MIB(MI);
1397b6598bcfSAmara Emerson LLT OffsetTy = MRI.getType(MI.getOperand(2).getReg());
1398b6598bcfSAmara Emerson auto NewOffset = MIB.buildConstant(OffsetTy, MatchInfo.Imm);
1399fbae3463SSebastian Neubauer setRegBank(NewOffset.getReg(0), MatchInfo.Bank);
1400b6598bcfSAmara Emerson Observer.changingInstr(MI);
1401b6598bcfSAmara Emerson MI.getOperand(1).setReg(MatchInfo.Base);
1402b6598bcfSAmara Emerson MI.getOperand(2).setReg(NewOffset.getReg(0));
1403b6598bcfSAmara Emerson Observer.changedInstr(MI);
1404b6598bcfSAmara Emerson }
1405b6598bcfSAmara Emerson
matchShiftImmedChain(MachineInstr & MI,RegisterImmPair & MatchInfo)1406de719586SMirko Brkusanin bool CombinerHelper::matchShiftImmedChain(MachineInstr &MI,
1407de719586SMirko Brkusanin RegisterImmPair &MatchInfo) {
1408de719586SMirko Brkusanin // We're trying to match the following pattern with any of
1409de719586SMirko Brkusanin // G_SHL/G_ASHR/G_LSHR/G_SSHLSAT/G_USHLSAT shift instructions:
1410de719586SMirko Brkusanin // %t1 = SHIFT %base, G_CONSTANT imm1
1411de719586SMirko Brkusanin // %root = SHIFT %t1, G_CONSTANT imm2
1412de719586SMirko Brkusanin // -->
1413de719586SMirko Brkusanin // %root = SHIFT %base, G_CONSTANT (imm1 + imm2)
1414de719586SMirko Brkusanin
1415de719586SMirko Brkusanin unsigned Opcode = MI.getOpcode();
1416de719586SMirko Brkusanin assert((Opcode == TargetOpcode::G_SHL || Opcode == TargetOpcode::G_ASHR ||
1417de719586SMirko Brkusanin Opcode == TargetOpcode::G_LSHR || Opcode == TargetOpcode::G_SSHLSAT ||
1418de719586SMirko Brkusanin Opcode == TargetOpcode::G_USHLSAT) &&
1419de719586SMirko Brkusanin "Expected G_SHL, G_ASHR, G_LSHR, G_SSHLSAT or G_USHLSAT");
1420de719586SMirko Brkusanin
1421de719586SMirko Brkusanin Register Shl2 = MI.getOperand(1).getReg();
1422de719586SMirko Brkusanin Register Imm1 = MI.getOperand(2).getReg();
1423d477a7c2SPetar Avramovic auto MaybeImmVal = getIConstantVRegValWithLookThrough(Imm1, MRI);
1424de719586SMirko Brkusanin if (!MaybeImmVal)
1425de719586SMirko Brkusanin return false;
1426de719586SMirko Brkusanin
1427de719586SMirko Brkusanin MachineInstr *Shl2Def = MRI.getUniqueVRegDef(Shl2);
1428de719586SMirko Brkusanin if (Shl2Def->getOpcode() != Opcode)
1429de719586SMirko Brkusanin return false;
1430de719586SMirko Brkusanin
1431de719586SMirko Brkusanin Register Base = Shl2Def->getOperand(1).getReg();
1432de719586SMirko Brkusanin Register Imm2 = Shl2Def->getOperand(2).getReg();
1433d477a7c2SPetar Avramovic auto MaybeImm2Val = getIConstantVRegValWithLookThrough(Imm2, MRI);
1434de719586SMirko Brkusanin if (!MaybeImm2Val)
1435de719586SMirko Brkusanin return false;
1436de719586SMirko Brkusanin
1437de719586SMirko Brkusanin // Pass the combined immediate to the apply function.
14387df3544eSAmara Emerson MatchInfo.Imm =
14397df3544eSAmara Emerson (MaybeImmVal->Value.getSExtValue() + MaybeImm2Val->Value).getSExtValue();
1440de719586SMirko Brkusanin MatchInfo.Reg = Base;
1441de719586SMirko Brkusanin
1442de719586SMirko Brkusanin // There is no simple replacement for a saturating unsigned left shift that
1443de719586SMirko Brkusanin // exceeds the scalar size.
1444de719586SMirko Brkusanin if (Opcode == TargetOpcode::G_USHLSAT &&
1445de719586SMirko Brkusanin MatchInfo.Imm >= MRI.getType(Shl2).getScalarSizeInBits())
1446de719586SMirko Brkusanin return false;
1447de719586SMirko Brkusanin
1448de719586SMirko Brkusanin return true;
1449de719586SMirko Brkusanin }
1450de719586SMirko Brkusanin
applyShiftImmedChain(MachineInstr & MI,RegisterImmPair & MatchInfo)1451f30251f5SAmara Emerson void CombinerHelper::applyShiftImmedChain(MachineInstr &MI,
1452de719586SMirko Brkusanin RegisterImmPair &MatchInfo) {
1453de719586SMirko Brkusanin unsigned Opcode = MI.getOpcode();
1454de719586SMirko Brkusanin assert((Opcode == TargetOpcode::G_SHL || Opcode == TargetOpcode::G_ASHR ||
1455de719586SMirko Brkusanin Opcode == TargetOpcode::G_LSHR || Opcode == TargetOpcode::G_SSHLSAT ||
1456de719586SMirko Brkusanin Opcode == TargetOpcode::G_USHLSAT) &&
1457de719586SMirko Brkusanin "Expected G_SHL, G_ASHR, G_LSHR, G_SSHLSAT or G_USHLSAT");
1458de719586SMirko Brkusanin
1459de719586SMirko Brkusanin Builder.setInstrAndDebugLoc(MI);
1460de719586SMirko Brkusanin LLT Ty = MRI.getType(MI.getOperand(1).getReg());
1461de719586SMirko Brkusanin unsigned const ScalarSizeInBits = Ty.getScalarSizeInBits();
1462de719586SMirko Brkusanin auto Imm = MatchInfo.Imm;
1463de719586SMirko Brkusanin
1464de719586SMirko Brkusanin if (Imm >= ScalarSizeInBits) {
1465de719586SMirko Brkusanin // Any logical shift that exceeds scalar size will produce zero.
1466de719586SMirko Brkusanin if (Opcode == TargetOpcode::G_SHL || Opcode == TargetOpcode::G_LSHR) {
1467de719586SMirko Brkusanin Builder.buildConstant(MI.getOperand(0), 0);
1468de719586SMirko Brkusanin MI.eraseFromParent();
1469f30251f5SAmara Emerson return;
1470de719586SMirko Brkusanin }
1471de719586SMirko Brkusanin // Arithmetic shift and saturating signed left shift have no effect beyond
1472de719586SMirko Brkusanin // scalar size.
1473de719586SMirko Brkusanin Imm = ScalarSizeInBits - 1;
1474de719586SMirko Brkusanin }
1475de719586SMirko Brkusanin
1476de719586SMirko Brkusanin LLT ImmTy = MRI.getType(MI.getOperand(2).getReg());
1477de719586SMirko Brkusanin Register NewImm = Builder.buildConstant(ImmTy, Imm).getReg(0);
1478de719586SMirko Brkusanin Observer.changingInstr(MI);
1479de719586SMirko Brkusanin MI.getOperand(1).setReg(MatchInfo.Reg);
1480de719586SMirko Brkusanin MI.getOperand(2).setReg(NewImm);
1481de719586SMirko Brkusanin Observer.changedInstr(MI);
1482de719586SMirko Brkusanin }
1483de719586SMirko Brkusanin
matchShiftOfShiftedLogic(MachineInstr & MI,ShiftOfShiftedLogic & MatchInfo)148453ae95c9SMirko Brkusanin bool CombinerHelper::matchShiftOfShiftedLogic(MachineInstr &MI,
148553ae95c9SMirko Brkusanin ShiftOfShiftedLogic &MatchInfo) {
148653ae95c9SMirko Brkusanin // We're trying to match the following pattern with any of
148753ae95c9SMirko Brkusanin // G_SHL/G_ASHR/G_LSHR/G_USHLSAT/G_SSHLSAT shift instructions in combination
148853ae95c9SMirko Brkusanin // with any of G_AND/G_OR/G_XOR logic instructions.
148953ae95c9SMirko Brkusanin // %t1 = SHIFT %X, G_CONSTANT C0
149053ae95c9SMirko Brkusanin // %t2 = LOGIC %t1, %Y
149153ae95c9SMirko Brkusanin // %root = SHIFT %t2, G_CONSTANT C1
149253ae95c9SMirko Brkusanin // -->
149353ae95c9SMirko Brkusanin // %t3 = SHIFT %X, G_CONSTANT (C0+C1)
149453ae95c9SMirko Brkusanin // %t4 = SHIFT %Y, G_CONSTANT C1
149553ae95c9SMirko Brkusanin // %root = LOGIC %t3, %t4
149653ae95c9SMirko Brkusanin unsigned ShiftOpcode = MI.getOpcode();
149753ae95c9SMirko Brkusanin assert((ShiftOpcode == TargetOpcode::G_SHL ||
149853ae95c9SMirko Brkusanin ShiftOpcode == TargetOpcode::G_ASHR ||
149953ae95c9SMirko Brkusanin ShiftOpcode == TargetOpcode::G_LSHR ||
150053ae95c9SMirko Brkusanin ShiftOpcode == TargetOpcode::G_USHLSAT ||
150153ae95c9SMirko Brkusanin ShiftOpcode == TargetOpcode::G_SSHLSAT) &&
150253ae95c9SMirko Brkusanin "Expected G_SHL, G_ASHR, G_LSHR, G_USHLSAT and G_SSHLSAT");
150353ae95c9SMirko Brkusanin
150453ae95c9SMirko Brkusanin // Match a one-use bitwise logic op.
150553ae95c9SMirko Brkusanin Register LogicDest = MI.getOperand(1).getReg();
150653ae95c9SMirko Brkusanin if (!MRI.hasOneNonDBGUse(LogicDest))
150753ae95c9SMirko Brkusanin return false;
150853ae95c9SMirko Brkusanin
150953ae95c9SMirko Brkusanin MachineInstr *LogicMI = MRI.getUniqueVRegDef(LogicDest);
151053ae95c9SMirko Brkusanin unsigned LogicOpcode = LogicMI->getOpcode();
151153ae95c9SMirko Brkusanin if (LogicOpcode != TargetOpcode::G_AND && LogicOpcode != TargetOpcode::G_OR &&
151253ae95c9SMirko Brkusanin LogicOpcode != TargetOpcode::G_XOR)
151353ae95c9SMirko Brkusanin return false;
151453ae95c9SMirko Brkusanin
151553ae95c9SMirko Brkusanin // Find a matching one-use shift by constant.
151653ae95c9SMirko Brkusanin const Register C1 = MI.getOperand(2).getReg();
1517d477a7c2SPetar Avramovic auto MaybeImmVal = getIConstantVRegValWithLookThrough(C1, MRI);
151853ae95c9SMirko Brkusanin if (!MaybeImmVal)
151953ae95c9SMirko Brkusanin return false;
152053ae95c9SMirko Brkusanin
1521581d13f8SMatt Arsenault const uint64_t C1Val = MaybeImmVal->Value.getZExtValue();
152253ae95c9SMirko Brkusanin
152353ae95c9SMirko Brkusanin auto matchFirstShift = [&](const MachineInstr *MI, uint64_t &ShiftVal) {
152453ae95c9SMirko Brkusanin // Shift should match previous one and should be a one-use.
152553ae95c9SMirko Brkusanin if (MI->getOpcode() != ShiftOpcode ||
152653ae95c9SMirko Brkusanin !MRI.hasOneNonDBGUse(MI->getOperand(0).getReg()))
152753ae95c9SMirko Brkusanin return false;
152853ae95c9SMirko Brkusanin
152953ae95c9SMirko Brkusanin // Must be a constant.
153053ae95c9SMirko Brkusanin auto MaybeImmVal =
1531d477a7c2SPetar Avramovic getIConstantVRegValWithLookThrough(MI->getOperand(2).getReg(), MRI);
153253ae95c9SMirko Brkusanin if (!MaybeImmVal)
153353ae95c9SMirko Brkusanin return false;
153453ae95c9SMirko Brkusanin
1535581d13f8SMatt Arsenault ShiftVal = MaybeImmVal->Value.getSExtValue();
153653ae95c9SMirko Brkusanin return true;
153753ae95c9SMirko Brkusanin };
153853ae95c9SMirko Brkusanin
153953ae95c9SMirko Brkusanin // Logic ops are commutative, so check each operand for a match.
154053ae95c9SMirko Brkusanin Register LogicMIReg1 = LogicMI->getOperand(1).getReg();
154153ae95c9SMirko Brkusanin MachineInstr *LogicMIOp1 = MRI.getUniqueVRegDef(LogicMIReg1);
154253ae95c9SMirko Brkusanin Register LogicMIReg2 = LogicMI->getOperand(2).getReg();
154353ae95c9SMirko Brkusanin MachineInstr *LogicMIOp2 = MRI.getUniqueVRegDef(LogicMIReg2);
154453ae95c9SMirko Brkusanin uint64_t C0Val;
154553ae95c9SMirko Brkusanin
154653ae95c9SMirko Brkusanin if (matchFirstShift(LogicMIOp1, C0Val)) {
154753ae95c9SMirko Brkusanin MatchInfo.LogicNonShiftReg = LogicMIReg2;
154853ae95c9SMirko Brkusanin MatchInfo.Shift2 = LogicMIOp1;
154953ae95c9SMirko Brkusanin } else if (matchFirstShift(LogicMIOp2, C0Val)) {
155053ae95c9SMirko Brkusanin MatchInfo.LogicNonShiftReg = LogicMIReg1;
155153ae95c9SMirko Brkusanin MatchInfo.Shift2 = LogicMIOp2;
155253ae95c9SMirko Brkusanin } else
155353ae95c9SMirko Brkusanin return false;
155453ae95c9SMirko Brkusanin
155553ae95c9SMirko Brkusanin MatchInfo.ValSum = C0Val + C1Val;
155653ae95c9SMirko Brkusanin
155753ae95c9SMirko Brkusanin // The fold is not valid if the sum of the shift values exceeds bitwidth.
155853ae95c9SMirko Brkusanin if (MatchInfo.ValSum >= MRI.getType(LogicDest).getScalarSizeInBits())
155953ae95c9SMirko Brkusanin return false;
156053ae95c9SMirko Brkusanin
156153ae95c9SMirko Brkusanin MatchInfo.Logic = LogicMI;
156253ae95c9SMirko Brkusanin return true;
156353ae95c9SMirko Brkusanin }
156453ae95c9SMirko Brkusanin
applyShiftOfShiftedLogic(MachineInstr & MI,ShiftOfShiftedLogic & MatchInfo)1565f30251f5SAmara Emerson void CombinerHelper::applyShiftOfShiftedLogic(MachineInstr &MI,
156653ae95c9SMirko Brkusanin ShiftOfShiftedLogic &MatchInfo) {
156753ae95c9SMirko Brkusanin unsigned Opcode = MI.getOpcode();
156853ae95c9SMirko Brkusanin assert((Opcode == TargetOpcode::G_SHL || Opcode == TargetOpcode::G_ASHR ||
156953ae95c9SMirko Brkusanin Opcode == TargetOpcode::G_LSHR || Opcode == TargetOpcode::G_USHLSAT ||
157053ae95c9SMirko Brkusanin Opcode == TargetOpcode::G_SSHLSAT) &&
157153ae95c9SMirko Brkusanin "Expected G_SHL, G_ASHR, G_LSHR, G_USHLSAT and G_SSHLSAT");
157253ae95c9SMirko Brkusanin
157353ae95c9SMirko Brkusanin LLT ShlType = MRI.getType(MI.getOperand(2).getReg());
157453ae95c9SMirko Brkusanin LLT DestType = MRI.getType(MI.getOperand(0).getReg());
157553ae95c9SMirko Brkusanin Builder.setInstrAndDebugLoc(MI);
157653ae95c9SMirko Brkusanin
157753ae95c9SMirko Brkusanin Register Const = Builder.buildConstant(ShlType, MatchInfo.ValSum).getReg(0);
157853ae95c9SMirko Brkusanin
157953ae95c9SMirko Brkusanin Register Shift1Base = MatchInfo.Shift2->getOperand(1).getReg();
158053ae95c9SMirko Brkusanin Register Shift1 =
158153ae95c9SMirko Brkusanin Builder.buildInstr(Opcode, {DestType}, {Shift1Base, Const}).getReg(0);
158253ae95c9SMirko Brkusanin
158353ae95c9SMirko Brkusanin Register Shift2Const = MI.getOperand(2).getReg();
158453ae95c9SMirko Brkusanin Register Shift2 = Builder
158553ae95c9SMirko Brkusanin .buildInstr(Opcode, {DestType},
158653ae95c9SMirko Brkusanin {MatchInfo.LogicNonShiftReg, Shift2Const})
158753ae95c9SMirko Brkusanin .getReg(0);
158853ae95c9SMirko Brkusanin
158953ae95c9SMirko Brkusanin Register Dest = MI.getOperand(0).getReg();
159053ae95c9SMirko Brkusanin Builder.buildInstr(MatchInfo.Logic->getOpcode(), {Dest}, {Shift1, Shift2});
159153ae95c9SMirko Brkusanin
159253ae95c9SMirko Brkusanin // These were one use so it's safe to remove them.
1593f108c7f5SJack Andersen MatchInfo.Shift2->eraseFromParent();
1594f108c7f5SJack Andersen MatchInfo.Logic->eraseFromParent();
159553ae95c9SMirko Brkusanin
159653ae95c9SMirko Brkusanin MI.eraseFromParent();
159753ae95c9SMirko Brkusanin }
159853ae95c9SMirko Brkusanin
matchCombineMulToShl(MachineInstr & MI,unsigned & ShiftVal)1599c12f046eSAmara Emerson bool CombinerHelper::matchCombineMulToShl(MachineInstr &MI,
1600c12f046eSAmara Emerson unsigned &ShiftVal) {
1601c12f046eSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_MUL && "Expected a G_MUL");
1602c12f046eSAmara Emerson auto MaybeImmVal =
1603d477a7c2SPetar Avramovic getIConstantVRegValWithLookThrough(MI.getOperand(2).getReg(), MRI);
1604581d13f8SMatt Arsenault if (!MaybeImmVal)
1605c12f046eSAmara Emerson return false;
1606581d13f8SMatt Arsenault
1607581d13f8SMatt Arsenault ShiftVal = MaybeImmVal->Value.exactLogBase2();
1608581d13f8SMatt Arsenault return (static_cast<int32_t>(ShiftVal) != -1);
1609c12f046eSAmara Emerson }
1610c12f046eSAmara Emerson
applyCombineMulToShl(MachineInstr & MI,unsigned & ShiftVal)1611f30251f5SAmara Emerson void CombinerHelper::applyCombineMulToShl(MachineInstr &MI,
1612c12f046eSAmara Emerson unsigned &ShiftVal) {
1613c12f046eSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_MUL && "Expected a G_MUL");
1614c12f046eSAmara Emerson MachineIRBuilder MIB(MI);
1615c12f046eSAmara Emerson LLT ShiftTy = MRI.getType(MI.getOperand(0).getReg());
1616c12f046eSAmara Emerson auto ShiftCst = MIB.buildConstant(ShiftTy, ShiftVal);
1617c12f046eSAmara Emerson Observer.changingInstr(MI);
1618c12f046eSAmara Emerson MI.setDesc(MIB.getTII().get(TargetOpcode::G_SHL));
1619c12f046eSAmara Emerson MI.getOperand(2).setReg(ShiftCst.getReg(0));
1620c12f046eSAmara Emerson Observer.changedInstr(MI);
1621c12f046eSAmara Emerson }
1622c12f046eSAmara Emerson
1623e1644a37SMatt Arsenault // shl ([sza]ext x), y => zext (shl x, y), if shift does not overflow source
matchCombineShlOfExtend(MachineInstr & MI,RegisterImmPair & MatchData)1624e1644a37SMatt Arsenault bool CombinerHelper::matchCombineShlOfExtend(MachineInstr &MI,
1625e1644a37SMatt Arsenault RegisterImmPair &MatchData) {
1626e1644a37SMatt Arsenault assert(MI.getOpcode() == TargetOpcode::G_SHL && KB);
1627e1644a37SMatt Arsenault
1628e1644a37SMatt Arsenault Register LHS = MI.getOperand(1).getReg();
1629e1644a37SMatt Arsenault
1630e1644a37SMatt Arsenault Register ExtSrc;
1631e1644a37SMatt Arsenault if (!mi_match(LHS, MRI, m_GAnyExt(m_Reg(ExtSrc))) &&
1632e1644a37SMatt Arsenault !mi_match(LHS, MRI, m_GZExt(m_Reg(ExtSrc))) &&
1633e1644a37SMatt Arsenault !mi_match(LHS, MRI, m_GSExt(m_Reg(ExtSrc))))
1634e1644a37SMatt Arsenault return false;
1635e1644a37SMatt Arsenault
1636e1644a37SMatt Arsenault // TODO: Should handle vector splat.
1637e1644a37SMatt Arsenault Register RHS = MI.getOperand(2).getReg();
1638d477a7c2SPetar Avramovic auto MaybeShiftAmtVal = getIConstantVRegValWithLookThrough(RHS, MRI);
1639e1644a37SMatt Arsenault if (!MaybeShiftAmtVal)
1640e1644a37SMatt Arsenault return false;
1641e1644a37SMatt Arsenault
1642e1644a37SMatt Arsenault if (LI) {
1643e1644a37SMatt Arsenault LLT SrcTy = MRI.getType(ExtSrc);
1644e1644a37SMatt Arsenault
1645e1644a37SMatt Arsenault // We only really care about the legality with the shifted value. We can
1646e1644a37SMatt Arsenault // pick any type the constant shift amount, so ask the target what to
1647e1644a37SMatt Arsenault // use. Otherwise we would have to guess and hope it is reported as legal.
1648e1644a37SMatt Arsenault LLT ShiftAmtTy = getTargetLowering().getPreferredShiftAmountTy(SrcTy);
1649e1644a37SMatt Arsenault if (!isLegalOrBeforeLegalizer({TargetOpcode::G_SHL, {SrcTy, ShiftAmtTy}}))
1650e1644a37SMatt Arsenault return false;
1651e1644a37SMatt Arsenault }
1652e1644a37SMatt Arsenault
1653581d13f8SMatt Arsenault int64_t ShiftAmt = MaybeShiftAmtVal->Value.getSExtValue();
1654e1644a37SMatt Arsenault MatchData.Reg = ExtSrc;
1655e1644a37SMatt Arsenault MatchData.Imm = ShiftAmt;
1656e1644a37SMatt Arsenault
1657e1644a37SMatt Arsenault unsigned MinLeadingZeros = KB->getKnownZeroes(ExtSrc).countLeadingOnes();
1658e1644a37SMatt Arsenault return MinLeadingZeros >= ShiftAmt;
1659e1644a37SMatt Arsenault }
1660e1644a37SMatt Arsenault
applyCombineShlOfExtend(MachineInstr & MI,const RegisterImmPair & MatchData)1661f30251f5SAmara Emerson void CombinerHelper::applyCombineShlOfExtend(MachineInstr &MI,
1662e1644a37SMatt Arsenault const RegisterImmPair &MatchData) {
1663e1644a37SMatt Arsenault Register ExtSrcReg = MatchData.Reg;
1664e1644a37SMatt Arsenault int64_t ShiftAmtVal = MatchData.Imm;
1665e1644a37SMatt Arsenault
1666e1644a37SMatt Arsenault LLT ExtSrcTy = MRI.getType(ExtSrcReg);
1667e1644a37SMatt Arsenault Builder.setInstrAndDebugLoc(MI);
1668e1644a37SMatt Arsenault auto ShiftAmt = Builder.buildConstant(ExtSrcTy, ShiftAmtVal);
1669e1644a37SMatt Arsenault auto NarrowShift =
1670e1644a37SMatt Arsenault Builder.buildShl(ExtSrcTy, ExtSrcReg, ShiftAmt, MI.getFlags());
1671e1644a37SMatt Arsenault Builder.buildZExt(MI.getOperand(0), NarrowShift);
1672e1644a37SMatt Arsenault MI.eraseFromParent();
1673e1644a37SMatt Arsenault }
1674e1644a37SMatt Arsenault
matchCombineMergeUnmerge(MachineInstr & MI,Register & MatchInfo)1675dec34104SAmara Emerson bool CombinerHelper::matchCombineMergeUnmerge(MachineInstr &MI,
1676dec34104SAmara Emerson Register &MatchInfo) {
1677dec34104SAmara Emerson GMerge &Merge = cast<GMerge>(MI);
1678dec34104SAmara Emerson SmallVector<Register, 16> MergedValues;
1679dec34104SAmara Emerson for (unsigned I = 0; I < Merge.getNumSources(); ++I)
1680dec34104SAmara Emerson MergedValues.emplace_back(Merge.getSourceReg(I));
1681dec34104SAmara Emerson
1682dec34104SAmara Emerson auto *Unmerge = getOpcodeDef<GUnmerge>(MergedValues[0], MRI);
1683dec34104SAmara Emerson if (!Unmerge || Unmerge->getNumDefs() != Merge.getNumSources())
1684dec34104SAmara Emerson return false;
1685dec34104SAmara Emerson
1686dec34104SAmara Emerson for (unsigned I = 0; I < MergedValues.size(); ++I)
1687dec34104SAmara Emerson if (MergedValues[I] != Unmerge->getReg(I))
1688dec34104SAmara Emerson return false;
1689dec34104SAmara Emerson
1690dec34104SAmara Emerson MatchInfo = Unmerge->getSourceReg();
1691dec34104SAmara Emerson return true;
1692dec34104SAmara Emerson }
1693dec34104SAmara Emerson
peekThroughBitcast(Register Reg,const MachineRegisterInfo & MRI)1694670c2762SQuentin Colombet static Register peekThroughBitcast(Register Reg,
1695670c2762SQuentin Colombet const MachineRegisterInfo &MRI) {
1696670c2762SQuentin Colombet while (mi_match(Reg, MRI, m_GBitcast(m_Reg(Reg))))
1697670c2762SQuentin Colombet ;
1698670c2762SQuentin Colombet
1699670c2762SQuentin Colombet return Reg;
1700670c2762SQuentin Colombet }
1701670c2762SQuentin Colombet
matchCombineUnmergeMergeToPlainValues(MachineInstr & MI,SmallVectorImpl<Register> & Operands)1702670c2762SQuentin Colombet bool CombinerHelper::matchCombineUnmergeMergeToPlainValues(
1703670c2762SQuentin Colombet MachineInstr &MI, SmallVectorImpl<Register> &Operands) {
1704670c2762SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_UNMERGE_VALUES &&
1705670c2762SQuentin Colombet "Expected an unmerge");
1706c54d5c97SAmara Emerson auto &Unmerge = cast<GUnmerge>(MI);
1707c54d5c97SAmara Emerson Register SrcReg = peekThroughBitcast(Unmerge.getSourceReg(), MRI);
1708670c2762SQuentin Colombet
1709c54d5c97SAmara Emerson auto *SrcInstr = getOpcodeDef<GMergeLikeOp>(SrcReg, MRI);
1710c54d5c97SAmara Emerson if (!SrcInstr)
1711670c2762SQuentin Colombet return false;
1712670c2762SQuentin Colombet
1713670c2762SQuentin Colombet // Check the source type of the merge.
1714c54d5c97SAmara Emerson LLT SrcMergeTy = MRI.getType(SrcInstr->getSourceReg(0));
1715c54d5c97SAmara Emerson LLT Dst0Ty = MRI.getType(Unmerge.getReg(0));
1716670c2762SQuentin Colombet bool SameSize = Dst0Ty.getSizeInBits() == SrcMergeTy.getSizeInBits();
1717670c2762SQuentin Colombet if (SrcMergeTy != Dst0Ty && !SameSize)
1718670c2762SQuentin Colombet return false;
1719670c2762SQuentin Colombet // They are the same now (modulo a bitcast).
1720670c2762SQuentin Colombet // We can collect all the src registers.
1721c54d5c97SAmara Emerson for (unsigned Idx = 0; Idx < SrcInstr->getNumSources(); ++Idx)
1722c54d5c97SAmara Emerson Operands.push_back(SrcInstr->getSourceReg(Idx));
1723670c2762SQuentin Colombet return true;
1724670c2762SQuentin Colombet }
1725670c2762SQuentin Colombet
applyCombineUnmergeMergeToPlainValues(MachineInstr & MI,SmallVectorImpl<Register> & Operands)1726f30251f5SAmara Emerson void CombinerHelper::applyCombineUnmergeMergeToPlainValues(
1727670c2762SQuentin Colombet MachineInstr &MI, SmallVectorImpl<Register> &Operands) {
1728670c2762SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_UNMERGE_VALUES &&
1729670c2762SQuentin Colombet "Expected an unmerge");
1730670c2762SQuentin Colombet assert((MI.getNumOperands() - 1 == Operands.size()) &&
1731670c2762SQuentin Colombet "Not enough operands to replace all defs");
1732670c2762SQuentin Colombet unsigned NumElems = MI.getNumOperands() - 1;
1733670c2762SQuentin Colombet
1734670c2762SQuentin Colombet LLT SrcTy = MRI.getType(Operands[0]);
1735670c2762SQuentin Colombet LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
1736670c2762SQuentin Colombet bool CanReuseInputDirectly = DstTy == SrcTy;
1737670c2762SQuentin Colombet Builder.setInstrAndDebugLoc(MI);
1738670c2762SQuentin Colombet for (unsigned Idx = 0; Idx < NumElems; ++Idx) {
1739670c2762SQuentin Colombet Register DstReg = MI.getOperand(Idx).getReg();
1740670c2762SQuentin Colombet Register SrcReg = Operands[Idx];
1741670c2762SQuentin Colombet if (CanReuseInputDirectly)
1742670c2762SQuentin Colombet replaceRegWith(MRI, DstReg, SrcReg);
1743670c2762SQuentin Colombet else
1744670c2762SQuentin Colombet Builder.buildCast(DstReg, SrcReg);
1745670c2762SQuentin Colombet }
1746670c2762SQuentin Colombet MI.eraseFromParent();
1747670c2762SQuentin Colombet }
1748670c2762SQuentin Colombet
matchCombineUnmergeConstant(MachineInstr & MI,SmallVectorImpl<APInt> & Csts)1749a36278c2SQuentin Colombet bool CombinerHelper::matchCombineUnmergeConstant(MachineInstr &MI,
1750a36278c2SQuentin Colombet SmallVectorImpl<APInt> &Csts) {
1751a36278c2SQuentin Colombet unsigned SrcIdx = MI.getNumOperands() - 1;
1752a36278c2SQuentin Colombet Register SrcReg = MI.getOperand(SrcIdx).getReg();
1753a36278c2SQuentin Colombet MachineInstr *SrcInstr = MRI.getVRegDef(SrcReg);
1754a36278c2SQuentin Colombet if (SrcInstr->getOpcode() != TargetOpcode::G_CONSTANT &&
1755a36278c2SQuentin Colombet SrcInstr->getOpcode() != TargetOpcode::G_FCONSTANT)
1756a36278c2SQuentin Colombet return false;
1757a36278c2SQuentin Colombet // Break down the big constant in smaller ones.
1758a36278c2SQuentin Colombet const MachineOperand &CstVal = SrcInstr->getOperand(1);
1759a36278c2SQuentin Colombet APInt Val = SrcInstr->getOpcode() == TargetOpcode::G_CONSTANT
1760a36278c2SQuentin Colombet ? CstVal.getCImm()->getValue()
1761a36278c2SQuentin Colombet : CstVal.getFPImm()->getValueAPF().bitcastToAPInt();
1762a36278c2SQuentin Colombet
1763a36278c2SQuentin Colombet LLT Dst0Ty = MRI.getType(MI.getOperand(0).getReg());
1764a36278c2SQuentin Colombet unsigned ShiftAmt = Dst0Ty.getSizeInBits();
1765a36278c2SQuentin Colombet // Unmerge a constant.
1766a36278c2SQuentin Colombet for (unsigned Idx = 0; Idx != SrcIdx; ++Idx) {
1767a36278c2SQuentin Colombet Csts.emplace_back(Val.trunc(ShiftAmt));
1768a36278c2SQuentin Colombet Val = Val.lshr(ShiftAmt);
1769a36278c2SQuentin Colombet }
1770a36278c2SQuentin Colombet
1771a36278c2SQuentin Colombet return true;
1772a36278c2SQuentin Colombet }
1773a36278c2SQuentin Colombet
applyCombineUnmergeConstant(MachineInstr & MI,SmallVectorImpl<APInt> & Csts)1774f30251f5SAmara Emerson void CombinerHelper::applyCombineUnmergeConstant(MachineInstr &MI,
1775a36278c2SQuentin Colombet SmallVectorImpl<APInt> &Csts) {
1776a36278c2SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_UNMERGE_VALUES &&
1777a36278c2SQuentin Colombet "Expected an unmerge");
1778a36278c2SQuentin Colombet assert((MI.getNumOperands() - 1 == Csts.size()) &&
1779a36278c2SQuentin Colombet "Not enough operands to replace all defs");
1780a36278c2SQuentin Colombet unsigned NumElems = MI.getNumOperands() - 1;
1781a36278c2SQuentin Colombet Builder.setInstrAndDebugLoc(MI);
1782a36278c2SQuentin Colombet for (unsigned Idx = 0; Idx < NumElems; ++Idx) {
1783a36278c2SQuentin Colombet Register DstReg = MI.getOperand(Idx).getReg();
1784a36278c2SQuentin Colombet Builder.buildConstant(DstReg, Csts[Idx]);
1785a36278c2SQuentin Colombet }
1786a36278c2SQuentin Colombet
1787a36278c2SQuentin Colombet MI.eraseFromParent();
1788a36278c2SQuentin Colombet }
1789a36278c2SQuentin Colombet
matchCombineUnmergeUndef(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)17904723f3cfSSebastian Neubauer bool CombinerHelper::matchCombineUnmergeUndef(
17914723f3cfSSebastian Neubauer MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
17924723f3cfSSebastian Neubauer unsigned SrcIdx = MI.getNumOperands() - 1;
17934723f3cfSSebastian Neubauer Register SrcReg = MI.getOperand(SrcIdx).getReg();
17944723f3cfSSebastian Neubauer MatchInfo = [&MI](MachineIRBuilder &B) {
17954723f3cfSSebastian Neubauer unsigned NumElems = MI.getNumOperands() - 1;
17964723f3cfSSebastian Neubauer for (unsigned Idx = 0; Idx < NumElems; ++Idx) {
17974723f3cfSSebastian Neubauer Register DstReg = MI.getOperand(Idx).getReg();
17984723f3cfSSebastian Neubauer B.buildUndef(DstReg);
17994723f3cfSSebastian Neubauer }
18004723f3cfSSebastian Neubauer };
18014723f3cfSSebastian Neubauer return isa<GImplicitDef>(MRI.getVRegDef(SrcReg));
18024723f3cfSSebastian Neubauer }
18034723f3cfSSebastian Neubauer
matchCombineUnmergeWithDeadLanesToTrunc(MachineInstr & MI)1804d2321129SQuentin Colombet bool CombinerHelper::matchCombineUnmergeWithDeadLanesToTrunc(MachineInstr &MI) {
1805d2321129SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_UNMERGE_VALUES &&
1806d2321129SQuentin Colombet "Expected an unmerge");
1807d2321129SQuentin Colombet // Check that all the lanes are dead except the first one.
1808d2321129SQuentin Colombet for (unsigned Idx = 1, EndIdx = MI.getNumDefs(); Idx != EndIdx; ++Idx) {
1809d2321129SQuentin Colombet if (!MRI.use_nodbg_empty(MI.getOperand(Idx).getReg()))
1810d2321129SQuentin Colombet return false;
1811d2321129SQuentin Colombet }
1812d2321129SQuentin Colombet return true;
1813d2321129SQuentin Colombet }
1814d2321129SQuentin Colombet
applyCombineUnmergeWithDeadLanesToTrunc(MachineInstr & MI)1815f30251f5SAmara Emerson void CombinerHelper::applyCombineUnmergeWithDeadLanesToTrunc(MachineInstr &MI) {
1816d2321129SQuentin Colombet Builder.setInstrAndDebugLoc(MI);
1817d2321129SQuentin Colombet Register SrcReg = MI.getOperand(MI.getNumDefs()).getReg();
1818d2321129SQuentin Colombet // Truncating a vector is going to truncate every single lane,
1819d2321129SQuentin Colombet // whereas we want the full lowbits.
1820d2321129SQuentin Colombet // Do the operation on a scalar instead.
1821d2321129SQuentin Colombet LLT SrcTy = MRI.getType(SrcReg);
1822d2321129SQuentin Colombet if (SrcTy.isVector())
1823d2321129SQuentin Colombet SrcReg =
1824d2321129SQuentin Colombet Builder.buildCast(LLT::scalar(SrcTy.getSizeInBits()), SrcReg).getReg(0);
1825d2321129SQuentin Colombet
1826d2321129SQuentin Colombet Register Dst0Reg = MI.getOperand(0).getReg();
1827d2321129SQuentin Colombet LLT Dst0Ty = MRI.getType(Dst0Reg);
1828d2321129SQuentin Colombet if (Dst0Ty.isVector()) {
1829d2321129SQuentin Colombet auto MIB = Builder.buildTrunc(LLT::scalar(Dst0Ty.getSizeInBits()), SrcReg);
1830d2321129SQuentin Colombet Builder.buildCast(Dst0Reg, MIB);
1831d2321129SQuentin Colombet } else
1832d2321129SQuentin Colombet Builder.buildTrunc(Dst0Reg, SrcReg);
1833d2321129SQuentin Colombet MI.eraseFromParent();
1834d2321129SQuentin Colombet }
1835d2321129SQuentin Colombet
matchCombineUnmergeZExtToZExt(MachineInstr & MI)1836b3afad04SQuentin Colombet bool CombinerHelper::matchCombineUnmergeZExtToZExt(MachineInstr &MI) {
1837b3afad04SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_UNMERGE_VALUES &&
1838b3afad04SQuentin Colombet "Expected an unmerge");
1839b3afad04SQuentin Colombet Register Dst0Reg = MI.getOperand(0).getReg();
1840b3afad04SQuentin Colombet LLT Dst0Ty = MRI.getType(Dst0Reg);
1841b3afad04SQuentin Colombet // G_ZEXT on vector applies to each lane, so it will
1842b3afad04SQuentin Colombet // affect all destinations. Therefore we won't be able
1843b3afad04SQuentin Colombet // to simplify the unmerge to just the first definition.
1844b3afad04SQuentin Colombet if (Dst0Ty.isVector())
1845b3afad04SQuentin Colombet return false;
1846b3afad04SQuentin Colombet Register SrcReg = MI.getOperand(MI.getNumDefs()).getReg();
1847b3afad04SQuentin Colombet LLT SrcTy = MRI.getType(SrcReg);
1848b3afad04SQuentin Colombet if (SrcTy.isVector())
1849b3afad04SQuentin Colombet return false;
1850b3afad04SQuentin Colombet
1851b3afad04SQuentin Colombet Register ZExtSrcReg;
1852b3afad04SQuentin Colombet if (!mi_match(SrcReg, MRI, m_GZExt(m_Reg(ZExtSrcReg))))
1853b3afad04SQuentin Colombet return false;
1854b3afad04SQuentin Colombet
1855b3afad04SQuentin Colombet // Finally we can replace the first definition with
1856b3afad04SQuentin Colombet // a zext of the source if the definition is big enough to hold
1857b3afad04SQuentin Colombet // all of ZExtSrc bits.
1858b3afad04SQuentin Colombet LLT ZExtSrcTy = MRI.getType(ZExtSrcReg);
1859b3afad04SQuentin Colombet return ZExtSrcTy.getSizeInBits() <= Dst0Ty.getSizeInBits();
1860b3afad04SQuentin Colombet }
1861b3afad04SQuentin Colombet
applyCombineUnmergeZExtToZExt(MachineInstr & MI)1862f30251f5SAmara Emerson void CombinerHelper::applyCombineUnmergeZExtToZExt(MachineInstr &MI) {
1863b3afad04SQuentin Colombet assert(MI.getOpcode() == TargetOpcode::G_UNMERGE_VALUES &&
1864b3afad04SQuentin Colombet "Expected an unmerge");
1865b3afad04SQuentin Colombet
1866b3afad04SQuentin Colombet Register Dst0Reg = MI.getOperand(0).getReg();
1867b3afad04SQuentin Colombet
1868b3afad04SQuentin Colombet MachineInstr *ZExtInstr =
1869b3afad04SQuentin Colombet MRI.getVRegDef(MI.getOperand(MI.getNumDefs()).getReg());
1870b3afad04SQuentin Colombet assert(ZExtInstr && ZExtInstr->getOpcode() == TargetOpcode::G_ZEXT &&
1871b3afad04SQuentin Colombet "Expecting a G_ZEXT");
1872b3afad04SQuentin Colombet
1873b3afad04SQuentin Colombet Register ZExtSrcReg = ZExtInstr->getOperand(1).getReg();
1874b3afad04SQuentin Colombet LLT Dst0Ty = MRI.getType(Dst0Reg);
1875b3afad04SQuentin Colombet LLT ZExtSrcTy = MRI.getType(ZExtSrcReg);
1876b3afad04SQuentin Colombet
1877b3afad04SQuentin Colombet Builder.setInstrAndDebugLoc(MI);
1878b3afad04SQuentin Colombet
1879b3afad04SQuentin Colombet if (Dst0Ty.getSizeInBits() > ZExtSrcTy.getSizeInBits()) {
1880b3afad04SQuentin Colombet Builder.buildZExt(Dst0Reg, ZExtSrcReg);
1881b3afad04SQuentin Colombet } else {
1882b3afad04SQuentin Colombet assert(Dst0Ty.getSizeInBits() == ZExtSrcTy.getSizeInBits() &&
1883b3afad04SQuentin Colombet "ZExt src doesn't fit in destination");
1884b3afad04SQuentin Colombet replaceRegWith(MRI, Dst0Reg, ZExtSrcReg);
1885b3afad04SQuentin Colombet }
1886b3afad04SQuentin Colombet
1887b3afad04SQuentin Colombet Register ZeroReg;
1888b3afad04SQuentin Colombet for (unsigned Idx = 1, EndIdx = MI.getNumDefs(); Idx != EndIdx; ++Idx) {
1889b3afad04SQuentin Colombet if (!ZeroReg)
1890b3afad04SQuentin Colombet ZeroReg = Builder.buildConstant(Dst0Ty, 0).getReg(0);
1891b3afad04SQuentin Colombet replaceRegWith(MRI, MI.getOperand(Idx).getReg(), ZeroReg);
1892b3afad04SQuentin Colombet }
1893b3afad04SQuentin Colombet MI.eraseFromParent();
1894b3afad04SQuentin Colombet }
1895b3afad04SQuentin Colombet
matchCombineShiftToUnmerge(MachineInstr & MI,unsigned TargetShiftSize,unsigned & ShiftVal)189678d455adSMatt Arsenault bool CombinerHelper::matchCombineShiftToUnmerge(MachineInstr &MI,
189778d455adSMatt Arsenault unsigned TargetShiftSize,
189878d455adSMatt Arsenault unsigned &ShiftVal) {
189985508595SMatt Arsenault assert((MI.getOpcode() == TargetOpcode::G_SHL ||
19000e2eb357SMatt Arsenault MI.getOpcode() == TargetOpcode::G_LSHR ||
19010e2eb357SMatt Arsenault MI.getOpcode() == TargetOpcode::G_ASHR) && "Expected a shift");
190278d455adSMatt Arsenault
190378d455adSMatt Arsenault LLT Ty = MRI.getType(MI.getOperand(0).getReg());
190478d455adSMatt Arsenault if (Ty.isVector()) // TODO:
190578d455adSMatt Arsenault return false;
190678d455adSMatt Arsenault
190778d455adSMatt Arsenault // Don't narrow further than the requested size.
190878d455adSMatt Arsenault unsigned Size = Ty.getSizeInBits();
190978d455adSMatt Arsenault if (Size <= TargetShiftSize)
191078d455adSMatt Arsenault return false;
191178d455adSMatt Arsenault
191278d455adSMatt Arsenault auto MaybeImmVal =
1913d477a7c2SPetar Avramovic getIConstantVRegValWithLookThrough(MI.getOperand(2).getReg(), MRI);
191478d455adSMatt Arsenault if (!MaybeImmVal)
191578d455adSMatt Arsenault return false;
191678d455adSMatt Arsenault
1917581d13f8SMatt Arsenault ShiftVal = MaybeImmVal->Value.getSExtValue();
191878d455adSMatt Arsenault return ShiftVal >= Size / 2 && ShiftVal < Size;
191978d455adSMatt Arsenault }
192078d455adSMatt Arsenault
applyCombineShiftToUnmerge(MachineInstr & MI,const unsigned & ShiftVal)1921f30251f5SAmara Emerson void CombinerHelper::applyCombineShiftToUnmerge(MachineInstr &MI,
192278d455adSMatt Arsenault const unsigned &ShiftVal) {
192378d455adSMatt Arsenault Register DstReg = MI.getOperand(0).getReg();
192478d455adSMatt Arsenault Register SrcReg = MI.getOperand(1).getReg();
192578d455adSMatt Arsenault LLT Ty = MRI.getType(SrcReg);
192678d455adSMatt Arsenault unsigned Size = Ty.getSizeInBits();
192785508595SMatt Arsenault unsigned HalfSize = Size / 2;
192885508595SMatt Arsenault assert(ShiftVal >= HalfSize);
19290e2eb357SMatt Arsenault
193085508595SMatt Arsenault LLT HalfTy = LLT::scalar(HalfSize);
193178d455adSMatt Arsenault
193278d455adSMatt Arsenault Builder.setInstr(MI);
193378d455adSMatt Arsenault auto Unmerge = Builder.buildUnmerge(HalfTy, SrcReg);
193485508595SMatt Arsenault unsigned NarrowShiftAmt = ShiftVal - HalfSize;
193578d455adSMatt Arsenault
193685508595SMatt Arsenault if (MI.getOpcode() == TargetOpcode::G_LSHR) {
193778d455adSMatt Arsenault Register Narrowed = Unmerge.getReg(1);
193885508595SMatt Arsenault
193985508595SMatt Arsenault // dst = G_LSHR s64:x, C for C >= 32
194085508595SMatt Arsenault // =>
194185508595SMatt Arsenault // lo, hi = G_UNMERGE_VALUES x
194285508595SMatt Arsenault // dst = G_MERGE_VALUES (G_LSHR hi, C - 32), 0
194385508595SMatt Arsenault
194485508595SMatt Arsenault if (NarrowShiftAmt != 0) {
194585508595SMatt Arsenault Narrowed = Builder.buildLShr(HalfTy, Narrowed,
194685508595SMatt Arsenault Builder.buildConstant(HalfTy, NarrowShiftAmt)).getReg(0);
194778d455adSMatt Arsenault }
194878d455adSMatt Arsenault
194985508595SMatt Arsenault auto Zero = Builder.buildConstant(HalfTy, 0);
195085508595SMatt Arsenault Builder.buildMerge(DstReg, { Narrowed, Zero });
19510e2eb357SMatt Arsenault } else if (MI.getOpcode() == TargetOpcode::G_SHL) {
195285508595SMatt Arsenault Register Narrowed = Unmerge.getReg(0);
195385508595SMatt Arsenault // dst = G_SHL s64:x, C for C >= 32
195485508595SMatt Arsenault // =>
195585508595SMatt Arsenault // lo, hi = G_UNMERGE_VALUES x
195685508595SMatt Arsenault // dst = G_MERGE_VALUES 0, (G_SHL hi, C - 32)
195785508595SMatt Arsenault if (NarrowShiftAmt != 0) {
195885508595SMatt Arsenault Narrowed = Builder.buildShl(HalfTy, Narrowed,
195985508595SMatt Arsenault Builder.buildConstant(HalfTy, NarrowShiftAmt)).getReg(0);
196085508595SMatt Arsenault }
196185508595SMatt Arsenault
196285508595SMatt Arsenault auto Zero = Builder.buildConstant(HalfTy, 0);
196385508595SMatt Arsenault Builder.buildMerge(DstReg, { Zero, Narrowed });
19640e2eb357SMatt Arsenault } else {
19650e2eb357SMatt Arsenault assert(MI.getOpcode() == TargetOpcode::G_ASHR);
19660e2eb357SMatt Arsenault auto Hi = Builder.buildAShr(
19670e2eb357SMatt Arsenault HalfTy, Unmerge.getReg(1),
19680e2eb357SMatt Arsenault Builder.buildConstant(HalfTy, HalfSize - 1));
19690e2eb357SMatt Arsenault
19700e2eb357SMatt Arsenault if (ShiftVal == HalfSize) {
19710e2eb357SMatt Arsenault // (G_ASHR i64:x, 32) ->
1972cab39e4bSJay Foad // G_MERGE_VALUES hi_32(x), (G_ASHR hi_32(x), 31)
1973cab39e4bSJay Foad Builder.buildMerge(DstReg, { Unmerge.getReg(1), Hi });
19740e2eb357SMatt Arsenault } else if (ShiftVal == Size - 1) {
19750e2eb357SMatt Arsenault // Don't need a second shift.
19760e2eb357SMatt Arsenault // (G_ASHR i64:x, 63) ->
19770e2eb357SMatt Arsenault // %narrowed = (G_ASHR hi_32(x), 31)
19780e2eb357SMatt Arsenault // G_MERGE_VALUES %narrowed, %narrowed
19790e2eb357SMatt Arsenault Builder.buildMerge(DstReg, { Hi, Hi });
19800e2eb357SMatt Arsenault } else {
19810e2eb357SMatt Arsenault auto Lo = Builder.buildAShr(
19820e2eb357SMatt Arsenault HalfTy, Unmerge.getReg(1),
19830e2eb357SMatt Arsenault Builder.buildConstant(HalfTy, ShiftVal - HalfSize));
19840e2eb357SMatt Arsenault
19850e2eb357SMatt Arsenault // (G_ASHR i64:x, C) ->, for C >= 32
19860e2eb357SMatt Arsenault // G_MERGE_VALUES (G_ASHR hi_32(x), C - 32), (G_ASHR hi_32(x), 31)
19870e2eb357SMatt Arsenault Builder.buildMerge(DstReg, { Lo, Hi });
19880e2eb357SMatt Arsenault }
198985508595SMatt Arsenault }
199085508595SMatt Arsenault
199178d455adSMatt Arsenault MI.eraseFromParent();
199278d455adSMatt Arsenault }
199378d455adSMatt Arsenault
tryCombineShiftToUnmerge(MachineInstr & MI,unsigned TargetShiftAmount)199478d455adSMatt Arsenault bool CombinerHelper::tryCombineShiftToUnmerge(MachineInstr &MI,
199578d455adSMatt Arsenault unsigned TargetShiftAmount) {
199678d455adSMatt Arsenault unsigned ShiftAmt;
199778d455adSMatt Arsenault if (matchCombineShiftToUnmerge(MI, TargetShiftAmount, ShiftAmt)) {
199878d455adSMatt Arsenault applyCombineShiftToUnmerge(MI, ShiftAmt);
199978d455adSMatt Arsenault return true;
200078d455adSMatt Arsenault }
200178d455adSMatt Arsenault
200278d455adSMatt Arsenault return false;
200378d455adSMatt Arsenault }
200478d455adSMatt Arsenault
matchCombineI2PToP2I(MachineInstr & MI,Register & Reg)20052144a3bdSAditya Nandakumar bool CombinerHelper::matchCombineI2PToP2I(MachineInstr &MI, Register &Reg) {
20062144a3bdSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_INTTOPTR && "Expected a G_INTTOPTR");
20072144a3bdSAditya Nandakumar Register DstReg = MI.getOperand(0).getReg();
20082144a3bdSAditya Nandakumar LLT DstTy = MRI.getType(DstReg);
20092144a3bdSAditya Nandakumar Register SrcReg = MI.getOperand(1).getReg();
20102144a3bdSAditya Nandakumar return mi_match(SrcReg, MRI,
20112144a3bdSAditya Nandakumar m_GPtrToInt(m_all_of(m_SpecificType(DstTy), m_Reg(Reg))));
20122144a3bdSAditya Nandakumar }
20132144a3bdSAditya Nandakumar
applyCombineI2PToP2I(MachineInstr & MI,Register & Reg)2014f30251f5SAmara Emerson void CombinerHelper::applyCombineI2PToP2I(MachineInstr &MI, Register &Reg) {
20152144a3bdSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_INTTOPTR && "Expected a G_INTTOPTR");
20162144a3bdSAditya Nandakumar Register DstReg = MI.getOperand(0).getReg();
20172144a3bdSAditya Nandakumar Builder.setInstr(MI);
20182144a3bdSAditya Nandakumar Builder.buildCopy(DstReg, Reg);
20192144a3bdSAditya Nandakumar MI.eraseFromParent();
20202144a3bdSAditya Nandakumar }
20212144a3bdSAditya Nandakumar
matchCombineP2IToI2P(MachineInstr & MI,Register & Reg)20222144a3bdSAditya Nandakumar bool CombinerHelper::matchCombineP2IToI2P(MachineInstr &MI, Register &Reg) {
20232144a3bdSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_PTRTOINT && "Expected a G_PTRTOINT");
20242144a3bdSAditya Nandakumar Register SrcReg = MI.getOperand(1).getReg();
20252144a3bdSAditya Nandakumar return mi_match(SrcReg, MRI, m_GIntToPtr(m_Reg(Reg)));
20262144a3bdSAditya Nandakumar }
20272144a3bdSAditya Nandakumar
applyCombineP2IToI2P(MachineInstr & MI,Register & Reg)2028f30251f5SAmara Emerson void CombinerHelper::applyCombineP2IToI2P(MachineInstr &MI, Register &Reg) {
20292144a3bdSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_PTRTOINT && "Expected a G_PTRTOINT");
20302144a3bdSAditya Nandakumar Register DstReg = MI.getOperand(0).getReg();
20312144a3bdSAditya Nandakumar Builder.setInstr(MI);
20322144a3bdSAditya Nandakumar Builder.buildZExtOrTrunc(DstReg, Reg);
20332144a3bdSAditya Nandakumar MI.eraseFromParent();
20342144a3bdSAditya Nandakumar }
20352144a3bdSAditya Nandakumar
matchCombineAddP2IToPtrAdd(MachineInstr & MI,std::pair<Register,bool> & PtrReg)2036eb074088SMatt Arsenault bool CombinerHelper::matchCombineAddP2IToPtrAdd(
2037eb074088SMatt Arsenault MachineInstr &MI, std::pair<Register, bool> &PtrReg) {
2038eb074088SMatt Arsenault assert(MI.getOpcode() == TargetOpcode::G_ADD);
2039eb074088SMatt Arsenault Register LHS = MI.getOperand(1).getReg();
2040eb074088SMatt Arsenault Register RHS = MI.getOperand(2).getReg();
2041eb074088SMatt Arsenault LLT IntTy = MRI.getType(LHS);
2042eb074088SMatt Arsenault
2043eb074088SMatt Arsenault // G_PTR_ADD always has the pointer in the LHS, so we may need to commute the
2044eb074088SMatt Arsenault // instruction.
2045eb074088SMatt Arsenault PtrReg.second = false;
2046eb074088SMatt Arsenault for (Register SrcReg : {LHS, RHS}) {
2047eb074088SMatt Arsenault if (mi_match(SrcReg, MRI, m_GPtrToInt(m_Reg(PtrReg.first)))) {
2048eb074088SMatt Arsenault // Don't handle cases where the integer is implicitly converted to the
2049eb074088SMatt Arsenault // pointer width.
2050eb074088SMatt Arsenault LLT PtrTy = MRI.getType(PtrReg.first);
2051eb074088SMatt Arsenault if (PtrTy.getScalarSizeInBits() == IntTy.getScalarSizeInBits())
2052eb074088SMatt Arsenault return true;
2053eb074088SMatt Arsenault }
2054eb074088SMatt Arsenault
2055eb074088SMatt Arsenault PtrReg.second = true;
2056eb074088SMatt Arsenault }
2057eb074088SMatt Arsenault
2058eb074088SMatt Arsenault return false;
2059eb074088SMatt Arsenault }
2060eb074088SMatt Arsenault
applyCombineAddP2IToPtrAdd(MachineInstr & MI,std::pair<Register,bool> & PtrReg)2061f30251f5SAmara Emerson void CombinerHelper::applyCombineAddP2IToPtrAdd(
2062eb074088SMatt Arsenault MachineInstr &MI, std::pair<Register, bool> &PtrReg) {
2063eb074088SMatt Arsenault Register Dst = MI.getOperand(0).getReg();
2064eb074088SMatt Arsenault Register LHS = MI.getOperand(1).getReg();
2065eb074088SMatt Arsenault Register RHS = MI.getOperand(2).getReg();
2066eb074088SMatt Arsenault
2067eb074088SMatt Arsenault const bool DoCommute = PtrReg.second;
2068eb074088SMatt Arsenault if (DoCommute)
2069eb074088SMatt Arsenault std::swap(LHS, RHS);
2070eb074088SMatt Arsenault LHS = PtrReg.first;
2071eb074088SMatt Arsenault
2072eb074088SMatt Arsenault LLT PtrTy = MRI.getType(LHS);
2073eb074088SMatt Arsenault
2074eb074088SMatt Arsenault Builder.setInstrAndDebugLoc(MI);
2075eb074088SMatt Arsenault auto PtrAdd = Builder.buildPtrAdd(PtrTy, LHS, RHS);
2076eb074088SMatt Arsenault Builder.buildPtrToInt(Dst, PtrAdd);
2077eb074088SMatt Arsenault MI.eraseFromParent();
2078eb074088SMatt Arsenault }
2079eb074088SMatt Arsenault
matchCombineConstPtrAddToI2P(MachineInstr & MI,APInt & NewCst)2080ef3d1748SAditya Nandakumar bool CombinerHelper::matchCombineConstPtrAddToI2P(MachineInstr &MI,
2081283f5a19SLucas Prates APInt &NewCst) {
2082532c458fSAmara Emerson auto &PtrAdd = cast<GPtrAdd>(MI);
2083532c458fSAmara Emerson Register LHS = PtrAdd.getBaseReg();
2084532c458fSAmara Emerson Register RHS = PtrAdd.getOffsetReg();
2085ef3d1748SAditya Nandakumar MachineRegisterInfo &MRI = Builder.getMF().getRegInfo();
2086ef3d1748SAditya Nandakumar
2087283f5a19SLucas Prates if (auto RHSCst = getIConstantVRegVal(RHS, MRI)) {
2088283f5a19SLucas Prates APInt Cst;
2089ef3d1748SAditya Nandakumar if (mi_match(LHS, MRI, m_GIntToPtr(m_ICst(Cst)))) {
2090283f5a19SLucas Prates auto DstTy = MRI.getType(PtrAdd.getReg(0));
2091283f5a19SLucas Prates // G_INTTOPTR uses zero-extension
2092283f5a19SLucas Prates NewCst = Cst.zextOrTrunc(DstTy.getSizeInBits());
2093283f5a19SLucas Prates NewCst += RHSCst->sextOrTrunc(DstTy.getSizeInBits());
2094ef3d1748SAditya Nandakumar return true;
2095ef3d1748SAditya Nandakumar }
2096ef3d1748SAditya Nandakumar }
2097ef3d1748SAditya Nandakumar
2098ef3d1748SAditya Nandakumar return false;
2099ef3d1748SAditya Nandakumar }
2100ef3d1748SAditya Nandakumar
applyCombineConstPtrAddToI2P(MachineInstr & MI,APInt & NewCst)2101f30251f5SAmara Emerson void CombinerHelper::applyCombineConstPtrAddToI2P(MachineInstr &MI,
2102283f5a19SLucas Prates APInt &NewCst) {
2103532c458fSAmara Emerson auto &PtrAdd = cast<GPtrAdd>(MI);
2104532c458fSAmara Emerson Register Dst = PtrAdd.getReg(0);
2105ef3d1748SAditya Nandakumar
2106ef3d1748SAditya Nandakumar Builder.setInstrAndDebugLoc(MI);
2107ef3d1748SAditya Nandakumar Builder.buildConstant(Dst, NewCst);
2108532c458fSAmara Emerson PtrAdd.eraseFromParent();
2109ef3d1748SAditya Nandakumar }
2110ef3d1748SAditya Nandakumar
matchCombineAnyExtTrunc(MachineInstr & MI,Register & Reg)2111061182b7SVolkan Keles bool CombinerHelper::matchCombineAnyExtTrunc(MachineInstr &MI, Register &Reg) {
2112061182b7SVolkan Keles assert(MI.getOpcode() == TargetOpcode::G_ANYEXT && "Expected a G_ANYEXT");
2113061182b7SVolkan Keles Register DstReg = MI.getOperand(0).getReg();
2114061182b7SVolkan Keles Register SrcReg = MI.getOperand(1).getReg();
2115061182b7SVolkan Keles LLT DstTy = MRI.getType(DstReg);
2116061182b7SVolkan Keles return mi_match(SrcReg, MRI,
2117061182b7SVolkan Keles m_GTrunc(m_all_of(m_Reg(Reg), m_SpecificType(DstTy))));
2118061182b7SVolkan Keles }
2119061182b7SVolkan Keles
matchCombineZextTrunc(MachineInstr & MI,Register & Reg)2120d44f61f8SPetar Avramovic bool CombinerHelper::matchCombineZextTrunc(MachineInstr &MI, Register &Reg) {
2121d44f61f8SPetar Avramovic assert(MI.getOpcode() == TargetOpcode::G_ZEXT && "Expected a G_ZEXT");
2122d44f61f8SPetar Avramovic Register DstReg = MI.getOperand(0).getReg();
2123d44f61f8SPetar Avramovic Register SrcReg = MI.getOperand(1).getReg();
2124d44f61f8SPetar Avramovic LLT DstTy = MRI.getType(DstReg);
2125d44f61f8SPetar Avramovic if (mi_match(SrcReg, MRI,
2126d44f61f8SPetar Avramovic m_GTrunc(m_all_of(m_Reg(Reg), m_SpecificType(DstTy))))) {
2127d44f61f8SPetar Avramovic unsigned DstSize = DstTy.getScalarSizeInBits();
2128d44f61f8SPetar Avramovic unsigned SrcSize = MRI.getType(SrcReg).getScalarSizeInBits();
2129d44f61f8SPetar Avramovic return KB->getKnownBits(Reg).countMinLeadingZeros() >= DstSize - SrcSize;
2130d44f61f8SPetar Avramovic }
2131d44f61f8SPetar Avramovic return false;
2132d44f61f8SPetar Avramovic }
2133d44f61f8SPetar Avramovic
matchCombineExtOfExt(MachineInstr & MI,std::tuple<Register,unsigned> & MatchInfo)2134061182b7SVolkan Keles bool CombinerHelper::matchCombineExtOfExt(
2135061182b7SVolkan Keles MachineInstr &MI, std::tuple<Register, unsigned> &MatchInfo) {
2136061182b7SVolkan Keles assert((MI.getOpcode() == TargetOpcode::G_ANYEXT ||
2137061182b7SVolkan Keles MI.getOpcode() == TargetOpcode::G_SEXT ||
2138061182b7SVolkan Keles MI.getOpcode() == TargetOpcode::G_ZEXT) &&
2139061182b7SVolkan Keles "Expected a G_[ASZ]EXT");
2140061182b7SVolkan Keles Register SrcReg = MI.getOperand(1).getReg();
2141061182b7SVolkan Keles MachineInstr *SrcMI = MRI.getVRegDef(SrcReg);
2142061182b7SVolkan Keles // Match exts with the same opcode, anyext([sz]ext) and sext(zext).
2143061182b7SVolkan Keles unsigned Opc = MI.getOpcode();
2144061182b7SVolkan Keles unsigned SrcOpc = SrcMI->getOpcode();
2145061182b7SVolkan Keles if (Opc == SrcOpc ||
2146061182b7SVolkan Keles (Opc == TargetOpcode::G_ANYEXT &&
2147061182b7SVolkan Keles (SrcOpc == TargetOpcode::G_SEXT || SrcOpc == TargetOpcode::G_ZEXT)) ||
2148061182b7SVolkan Keles (Opc == TargetOpcode::G_SEXT && SrcOpc == TargetOpcode::G_ZEXT)) {
2149061182b7SVolkan Keles MatchInfo = std::make_tuple(SrcMI->getOperand(1).getReg(), SrcOpc);
2150061182b7SVolkan Keles return true;
2151061182b7SVolkan Keles }
2152061182b7SVolkan Keles return false;
2153061182b7SVolkan Keles }
2154061182b7SVolkan Keles
applyCombineExtOfExt(MachineInstr & MI,std::tuple<Register,unsigned> & MatchInfo)2155f30251f5SAmara Emerson void CombinerHelper::applyCombineExtOfExt(
2156061182b7SVolkan Keles MachineInstr &MI, std::tuple<Register, unsigned> &MatchInfo) {
2157061182b7SVolkan Keles assert((MI.getOpcode() == TargetOpcode::G_ANYEXT ||
2158061182b7SVolkan Keles MI.getOpcode() == TargetOpcode::G_SEXT ||
2159061182b7SVolkan Keles MI.getOpcode() == TargetOpcode::G_ZEXT) &&
2160061182b7SVolkan Keles "Expected a G_[ASZ]EXT");
2161061182b7SVolkan Keles
2162061182b7SVolkan Keles Register Reg = std::get<0>(MatchInfo);
2163061182b7SVolkan Keles unsigned SrcExtOp = std::get<1>(MatchInfo);
2164061182b7SVolkan Keles
2165061182b7SVolkan Keles // Combine exts with the same opcode.
2166061182b7SVolkan Keles if (MI.getOpcode() == SrcExtOp) {
2167061182b7SVolkan Keles Observer.changingInstr(MI);
2168061182b7SVolkan Keles MI.getOperand(1).setReg(Reg);
2169061182b7SVolkan Keles Observer.changedInstr(MI);
2170f30251f5SAmara Emerson return;
2171061182b7SVolkan Keles }
2172061182b7SVolkan Keles
2173061182b7SVolkan Keles // Combine:
2174061182b7SVolkan Keles // - anyext([sz]ext x) to [sz]ext x
2175061182b7SVolkan Keles // - sext(zext x) to zext x
2176061182b7SVolkan Keles if (MI.getOpcode() == TargetOpcode::G_ANYEXT ||
2177061182b7SVolkan Keles (MI.getOpcode() == TargetOpcode::G_SEXT &&
2178061182b7SVolkan Keles SrcExtOp == TargetOpcode::G_ZEXT)) {
2179061182b7SVolkan Keles Register DstReg = MI.getOperand(0).getReg();
2180061182b7SVolkan Keles Builder.setInstrAndDebugLoc(MI);
2181061182b7SVolkan Keles Builder.buildInstr(SrcExtOp, {DstReg}, {Reg});
2182061182b7SVolkan Keles MI.eraseFromParent();
2183f30251f5SAmara Emerson }
2184061182b7SVolkan Keles }
2185061182b7SVolkan Keles
applyCombineMulByNegativeOne(MachineInstr & MI)2186f30251f5SAmara Emerson void CombinerHelper::applyCombineMulByNegativeOne(MachineInstr &MI) {
218797203cfdSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_MUL && "Expected a G_MUL");
218897203cfdSAditya Nandakumar Register DstReg = MI.getOperand(0).getReg();
218997203cfdSAditya Nandakumar Register SrcReg = MI.getOperand(1).getReg();
219097203cfdSAditya Nandakumar LLT DstTy = MRI.getType(DstReg);
219197203cfdSAditya Nandakumar
219297203cfdSAditya Nandakumar Builder.setInstrAndDebugLoc(MI);
219397203cfdSAditya Nandakumar Builder.buildSub(DstReg, Builder.buildConstant(DstTy, 0), SrcReg,
219497203cfdSAditya Nandakumar MI.getFlags());
219597203cfdSAditya Nandakumar MI.eraseFromParent();
219697203cfdSAditya Nandakumar }
219797203cfdSAditya Nandakumar
matchCombineFNegOfFNeg(MachineInstr & MI,Register & Reg)2198d4bf9027SVolkan Keles bool CombinerHelper::matchCombineFNegOfFNeg(MachineInstr &MI, Register &Reg) {
2199d4bf9027SVolkan Keles assert(MI.getOpcode() == TargetOpcode::G_FNEG && "Expected a G_FNEG");
2200d4bf9027SVolkan Keles Register SrcReg = MI.getOperand(1).getReg();
2201d4bf9027SVolkan Keles return mi_match(SrcReg, MRI, m_GFNeg(m_Reg(Reg)));
2202d4bf9027SVolkan Keles }
2203d4bf9027SVolkan Keles
matchCombineFAbsOfFAbs(MachineInstr & MI,Register & Src)220446f9137eSAditya Nandakumar bool CombinerHelper::matchCombineFAbsOfFAbs(MachineInstr &MI, Register &Src) {
220546f9137eSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_FABS && "Expected a G_FABS");
220646f9137eSAditya Nandakumar Src = MI.getOperand(1).getReg();
220746f9137eSAditya Nandakumar Register AbsSrc;
220846f9137eSAditya Nandakumar return mi_match(Src, MRI, m_GFabs(m_Reg(AbsSrc)));
220946f9137eSAditya Nandakumar }
221046f9137eSAditya Nandakumar
matchCombineFAbsOfFNeg(MachineInstr & MI,BuildFnTy & MatchInfo)221140e00063SMirko Brkusanin bool CombinerHelper::matchCombineFAbsOfFNeg(MachineInstr &MI,
221240e00063SMirko Brkusanin BuildFnTy &MatchInfo) {
221340e00063SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FABS && "Expected a G_FABS");
221440e00063SMirko Brkusanin Register Src = MI.getOperand(1).getReg();
221540e00063SMirko Brkusanin Register NegSrc;
221640e00063SMirko Brkusanin
221740e00063SMirko Brkusanin if (!mi_match(Src, MRI, m_GFNeg(m_Reg(NegSrc))))
221840e00063SMirko Brkusanin return false;
221940e00063SMirko Brkusanin
222040e00063SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
222140e00063SMirko Brkusanin Observer.changingInstr(MI);
222240e00063SMirko Brkusanin MI.getOperand(1).setReg(NegSrc);
222340e00063SMirko Brkusanin Observer.changedInstr(MI);
222440e00063SMirko Brkusanin };
222540e00063SMirko Brkusanin return true;
222640e00063SMirko Brkusanin }
222740e00063SMirko Brkusanin
matchCombineTruncOfExt(MachineInstr & MI,std::pair<Register,unsigned> & MatchInfo)2228a4e35cc2SVolkan Keles bool CombinerHelper::matchCombineTruncOfExt(
2229a4e35cc2SVolkan Keles MachineInstr &MI, std::pair<Register, unsigned> &MatchInfo) {
2230a4e35cc2SVolkan Keles assert(MI.getOpcode() == TargetOpcode::G_TRUNC && "Expected a G_TRUNC");
2231a4e35cc2SVolkan Keles Register SrcReg = MI.getOperand(1).getReg();
2232a4e35cc2SVolkan Keles MachineInstr *SrcMI = MRI.getVRegDef(SrcReg);
2233a4e35cc2SVolkan Keles unsigned SrcOpc = SrcMI->getOpcode();
2234a4e35cc2SVolkan Keles if (SrcOpc == TargetOpcode::G_ANYEXT || SrcOpc == TargetOpcode::G_SEXT ||
2235a4e35cc2SVolkan Keles SrcOpc == TargetOpcode::G_ZEXT) {
2236a4e35cc2SVolkan Keles MatchInfo = std::make_pair(SrcMI->getOperand(1).getReg(), SrcOpc);
2237a4e35cc2SVolkan Keles return true;
2238a4e35cc2SVolkan Keles }
2239a4e35cc2SVolkan Keles return false;
2240a4e35cc2SVolkan Keles }
2241a4e35cc2SVolkan Keles
applyCombineTruncOfExt(MachineInstr & MI,std::pair<Register,unsigned> & MatchInfo)2242f30251f5SAmara Emerson void CombinerHelper::applyCombineTruncOfExt(
2243a4e35cc2SVolkan Keles MachineInstr &MI, std::pair<Register, unsigned> &MatchInfo) {
2244a4e35cc2SVolkan Keles assert(MI.getOpcode() == TargetOpcode::G_TRUNC && "Expected a G_TRUNC");
2245a4e35cc2SVolkan Keles Register SrcReg = MatchInfo.first;
2246a4e35cc2SVolkan Keles unsigned SrcExtOp = MatchInfo.second;
2247a4e35cc2SVolkan Keles Register DstReg = MI.getOperand(0).getReg();
2248a4e35cc2SVolkan Keles LLT SrcTy = MRI.getType(SrcReg);
2249a4e35cc2SVolkan Keles LLT DstTy = MRI.getType(DstReg);
2250a4e35cc2SVolkan Keles if (SrcTy == DstTy) {
2251a4e35cc2SVolkan Keles MI.eraseFromParent();
2252a4e35cc2SVolkan Keles replaceRegWith(MRI, DstReg, SrcReg);
2253f30251f5SAmara Emerson return;
2254a4e35cc2SVolkan Keles }
2255a4e35cc2SVolkan Keles Builder.setInstrAndDebugLoc(MI);
2256a4e35cc2SVolkan Keles if (SrcTy.getSizeInBits() < DstTy.getSizeInBits())
2257a4e35cc2SVolkan Keles Builder.buildInstr(SrcExtOp, {DstReg}, {SrcReg});
2258a4e35cc2SVolkan Keles else
2259a4e35cc2SVolkan Keles Builder.buildTrunc(DstReg, SrcReg);
2260a4e35cc2SVolkan Keles MI.eraseFromParent();
2261a4e35cc2SVolkan Keles }
2262a4e35cc2SVolkan Keles
matchCombineTruncOfShl(MachineInstr & MI,std::pair<Register,Register> & MatchInfo)2263a4e35cc2SVolkan Keles bool CombinerHelper::matchCombineTruncOfShl(
2264a4e35cc2SVolkan Keles MachineInstr &MI, std::pair<Register, Register> &MatchInfo) {
2265a4e35cc2SVolkan Keles assert(MI.getOpcode() == TargetOpcode::G_TRUNC && "Expected a G_TRUNC");
2266a4e35cc2SVolkan Keles Register DstReg = MI.getOperand(0).getReg();
2267a4e35cc2SVolkan Keles Register SrcReg = MI.getOperand(1).getReg();
2268a4e35cc2SVolkan Keles LLT DstTy = MRI.getType(DstReg);
2269a4e35cc2SVolkan Keles Register ShiftSrc;
2270a4e35cc2SVolkan Keles Register ShiftAmt;
2271a4e35cc2SVolkan Keles
2272a4e35cc2SVolkan Keles if (MRI.hasOneNonDBGUse(SrcReg) &&
2273a4e35cc2SVolkan Keles mi_match(SrcReg, MRI, m_GShl(m_Reg(ShiftSrc), m_Reg(ShiftAmt))) &&
2274a4e35cc2SVolkan Keles isLegalOrBeforeLegalizer(
2275a4e35cc2SVolkan Keles {TargetOpcode::G_SHL,
2276a4e35cc2SVolkan Keles {DstTy, getTargetLowering().getPreferredShiftAmountTy(DstTy)}})) {
2277a4e35cc2SVolkan Keles KnownBits Known = KB->getKnownBits(ShiftAmt);
2278a4e35cc2SVolkan Keles unsigned Size = DstTy.getSizeInBits();
2279684cbae8SRoman Lebedev if (Known.countMaxActiveBits() <= Log2_32(Size)) {
2280a4e35cc2SVolkan Keles MatchInfo = std::make_pair(ShiftSrc, ShiftAmt);
2281a4e35cc2SVolkan Keles return true;
2282a4e35cc2SVolkan Keles }
2283a4e35cc2SVolkan Keles }
2284a4e35cc2SVolkan Keles return false;
2285a4e35cc2SVolkan Keles }
2286a4e35cc2SVolkan Keles
applyCombineTruncOfShl(MachineInstr & MI,std::pair<Register,Register> & MatchInfo)2287f30251f5SAmara Emerson void CombinerHelper::applyCombineTruncOfShl(
2288a4e35cc2SVolkan Keles MachineInstr &MI, std::pair<Register, Register> &MatchInfo) {
2289a4e35cc2SVolkan Keles assert(MI.getOpcode() == TargetOpcode::G_TRUNC && "Expected a G_TRUNC");
2290a4e35cc2SVolkan Keles Register DstReg = MI.getOperand(0).getReg();
2291a4e35cc2SVolkan Keles Register SrcReg = MI.getOperand(1).getReg();
2292a4e35cc2SVolkan Keles LLT DstTy = MRI.getType(DstReg);
2293a4e35cc2SVolkan Keles MachineInstr *SrcMI = MRI.getVRegDef(SrcReg);
2294a4e35cc2SVolkan Keles
2295a4e35cc2SVolkan Keles Register ShiftSrc = MatchInfo.first;
2296a4e35cc2SVolkan Keles Register ShiftAmt = MatchInfo.second;
2297a4e35cc2SVolkan Keles Builder.setInstrAndDebugLoc(MI);
229879378b1bSVolkan Keles auto TruncShiftSrc = Builder.buildTrunc(DstTy, ShiftSrc);
2299c463fd13SMatt Arsenault Builder.buildShl(DstReg, TruncShiftSrc, ShiftAmt, SrcMI->getFlags());
2300a4e35cc2SVolkan Keles MI.eraseFromParent();
2301a4e35cc2SVolkan Keles }
2302a4e35cc2SVolkan Keles
matchAnyExplicitUseIsUndef(MachineInstr & MI)2303dc5f9826SJessica Paquette bool CombinerHelper::matchAnyExplicitUseIsUndef(MachineInstr &MI) {
2304dc5f9826SJessica Paquette return any_of(MI.explicit_uses(), [this](const MachineOperand &MO) {
2305dc5f9826SJessica Paquette return MO.isReg() &&
2306dc5f9826SJessica Paquette getOpcodeDef(TargetOpcode::G_IMPLICIT_DEF, MO.getReg(), MRI);
2307dc5f9826SJessica Paquette });
2308dc5f9826SJessica Paquette }
2309dc5f9826SJessica Paquette
matchAllExplicitUsesAreUndef(MachineInstr & MI)2310c9990846SJessica Paquette bool CombinerHelper::matchAllExplicitUsesAreUndef(MachineInstr &MI) {
2311c9990846SJessica Paquette return all_of(MI.explicit_uses(), [this](const MachineOperand &MO) {
2312c9990846SJessica Paquette return !MO.isReg() ||
2313c9990846SJessica Paquette getOpcodeDef(TargetOpcode::G_IMPLICIT_DEF, MO.getReg(), MRI);
2314c9990846SJessica Paquette });
2315c9990846SJessica Paquette }
2316c9990846SJessica Paquette
matchUndefShuffleVectorMask(MachineInstr & MI)2317c9990846SJessica Paquette bool CombinerHelper::matchUndefShuffleVectorMask(MachineInstr &MI) {
2318c9990846SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_SHUFFLE_VECTOR);
2319c9990846SJessica Paquette ArrayRef<int> Mask = MI.getOperand(3).getShuffleMask();
2320c9990846SJessica Paquette return all_of(Mask, [](int Elt) { return Elt < 0; });
2321c9990846SJessica Paquette }
2322c9990846SJessica Paquette
matchUndefStore(MachineInstr & MI)232349a4f3f7SJessica Paquette bool CombinerHelper::matchUndefStore(MachineInstr &MI) {
232449a4f3f7SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_STORE);
232549a4f3f7SJessica Paquette return getOpcodeDef(TargetOpcode::G_IMPLICIT_DEF, MI.getOperand(0).getReg(),
232649a4f3f7SJessica Paquette MRI);
232749a4f3f7SJessica Paquette }
232849a4f3f7SJessica Paquette
matchUndefSelectCmp(MachineInstr & MI)2329db464a3dSAditya Nandakumar bool CombinerHelper::matchUndefSelectCmp(MachineInstr &MI) {
2330db464a3dSAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_SELECT);
2331db464a3dSAditya Nandakumar return getOpcodeDef(TargetOpcode::G_IMPLICIT_DEF, MI.getOperand(1).getReg(),
2332db464a3dSAditya Nandakumar MRI);
2333db464a3dSAditya Nandakumar }
2334db464a3dSAditya Nandakumar
matchConstantSelectCmp(MachineInstr & MI,unsigned & OpIdx)2335db464a3dSAditya Nandakumar bool CombinerHelper::matchConstantSelectCmp(MachineInstr &MI, unsigned &OpIdx) {
233680f4bb5cSAmara Emerson GSelect &SelMI = cast<GSelect>(MI);
233780f4bb5cSAmara Emerson auto Cst =
233880f4bb5cSAmara Emerson isConstantOrConstantSplatVector(*MRI.getVRegDef(SelMI.getCondReg()), MRI);
233980f4bb5cSAmara Emerson if (!Cst)
2340db464a3dSAditya Nandakumar return false;
234180f4bb5cSAmara Emerson OpIdx = Cst->isZero() ? 3 : 2;
234280f4bb5cSAmara Emerson return true;
2343db464a3dSAditya Nandakumar }
2344db464a3dSAditya Nandakumar
eraseInst(MachineInstr & MI)234549a4f3f7SJessica Paquette bool CombinerHelper::eraseInst(MachineInstr &MI) {
234649a4f3f7SJessica Paquette MI.eraseFromParent();
234749a4f3f7SJessica Paquette return true;
234849a4f3f7SJessica Paquette }
234949a4f3f7SJessica Paquette
matchEqualDefs(const MachineOperand & MOP1,const MachineOperand & MOP2)235002187ed4SJessica Paquette bool CombinerHelper::matchEqualDefs(const MachineOperand &MOP1,
235102187ed4SJessica Paquette const MachineOperand &MOP2) {
235202187ed4SJessica Paquette if (!MOP1.isReg() || !MOP2.isReg())
235302187ed4SJessica Paquette return false;
235466de26b1SPetar Avramovic auto InstAndDef1 = getDefSrcRegIgnoringCopies(MOP1.getReg(), MRI);
235566de26b1SPetar Avramovic if (!InstAndDef1)
235602187ed4SJessica Paquette return false;
235766de26b1SPetar Avramovic auto InstAndDef2 = getDefSrcRegIgnoringCopies(MOP2.getReg(), MRI);
235866de26b1SPetar Avramovic if (!InstAndDef2)
235902187ed4SJessica Paquette return false;
236066de26b1SPetar Avramovic MachineInstr *I1 = InstAndDef1->MI;
236166de26b1SPetar Avramovic MachineInstr *I2 = InstAndDef2->MI;
236202187ed4SJessica Paquette
2363f6a6de28SStanislav Mekhanoshin // Handle a case like this:
2364f6a6de28SStanislav Mekhanoshin //
2365f6a6de28SStanislav Mekhanoshin // %0:_(s64), %1:_(s64) = G_UNMERGE_VALUES %2:_(<2 x s64>)
2366f6a6de28SStanislav Mekhanoshin //
2367f6a6de28SStanislav Mekhanoshin // Even though %0 and %1 are produced by the same instruction they are not
2368f6a6de28SStanislav Mekhanoshin // the same values.
2369f6a6de28SStanislav Mekhanoshin if (I1 == I2)
2370f6a6de28SStanislav Mekhanoshin return MOP1.getReg() == MOP2.getReg();
2371f6a6de28SStanislav Mekhanoshin
2372c593bf53SJessica Paquette // If we have an instruction which loads or stores, we can't guarantee that
2373c593bf53SJessica Paquette // it is identical.
2374c593bf53SJessica Paquette //
2375c593bf53SJessica Paquette // For example, we may have
2376c593bf53SJessica Paquette //
2377c593bf53SJessica Paquette // %x1 = G_LOAD %addr (load N from @somewhere)
2378c593bf53SJessica Paquette // ...
2379c593bf53SJessica Paquette // call @foo
2380c593bf53SJessica Paquette // ...
2381c593bf53SJessica Paquette // %x2 = G_LOAD %addr (load N from @somewhere)
2382c593bf53SJessica Paquette // ...
2383c593bf53SJessica Paquette // %or = G_OR %x1, %x2
2384c593bf53SJessica Paquette //
2385c593bf53SJessica Paquette // It's possible that @foo will modify whatever lives at the address we're
2386c593bf53SJessica Paquette // loading from. To be safe, let's just assume that all loads and stores
2387c593bf53SJessica Paquette // are different (unless we have something which is guaranteed to not
2388c593bf53SJessica Paquette // change.)
23898d0383ebSMatt Arsenault if (I1->mayLoadOrStore() && !I1->isDereferenceableInvariantLoad())
2390c593bf53SJessica Paquette return false;
2391c593bf53SJessica Paquette
2392cd4ed08bSRóbert Ágoston // If both instructions are loads or stores, they are equal only if both
2393cd4ed08bSRóbert Ágoston // are dereferenceable invariant loads with the same number of bits.
2394cd4ed08bSRóbert Ágoston if (I1->mayLoadOrStore() && I2->mayLoadOrStore()) {
2395cd4ed08bSRóbert Ágoston GLoadStore *LS1 = dyn_cast<GLoadStore>(I1);
2396cd4ed08bSRóbert Ágoston GLoadStore *LS2 = dyn_cast<GLoadStore>(I2);
2397cd4ed08bSRóbert Ágoston if (!LS1 || !LS2)
2398cd4ed08bSRóbert Ágoston return false;
2399cd4ed08bSRóbert Ágoston
24008d0383ebSMatt Arsenault if (!I2->isDereferenceableInvariantLoad() ||
2401cd4ed08bSRóbert Ágoston (LS1->getMemSizeInBits() != LS2->getMemSizeInBits()))
2402cd4ed08bSRóbert Ágoston return false;
2403cd4ed08bSRóbert Ágoston }
2404cd4ed08bSRóbert Ágoston
2405c593bf53SJessica Paquette // Check for physical registers on the instructions first to avoid cases
2406c593bf53SJessica Paquette // like this:
240798d05f88SJessica Paquette //
240898d05f88SJessica Paquette // %a = COPY $physreg
240998d05f88SJessica Paquette // ...
241098d05f88SJessica Paquette // SOMETHING implicit-def $physreg
241198d05f88SJessica Paquette // ...
241298d05f88SJessica Paquette // %b = COPY $physreg
241398d05f88SJessica Paquette //
241498d05f88SJessica Paquette // These copies are not equivalent.
241598d05f88SJessica Paquette if (any_of(I1->uses(), [](const MachineOperand &MO) {
241698d05f88SJessica Paquette return MO.isReg() && MO.getReg().isPhysical();
241798d05f88SJessica Paquette })) {
241898d05f88SJessica Paquette // Check if we have a case like this:
241998d05f88SJessica Paquette //
242098d05f88SJessica Paquette // %a = COPY $physreg
242198d05f88SJessica Paquette // %b = COPY %a
242298d05f88SJessica Paquette //
242398d05f88SJessica Paquette // In this case, I1 and I2 will both be equal to %a = COPY $physreg.
242498d05f88SJessica Paquette // From that, we know that they must have the same value, since they must
242598d05f88SJessica Paquette // have come from the same COPY.
242698d05f88SJessica Paquette return I1->isIdenticalTo(*I2);
242798d05f88SJessica Paquette }
242898d05f88SJessica Paquette
242998d05f88SJessica Paquette // We don't have any physical registers, so we don't necessarily need the
243098d05f88SJessica Paquette // same vreg defs.
243198d05f88SJessica Paquette //
243202187ed4SJessica Paquette // On the off-chance that there's some target instruction feeding into the
243398d05f88SJessica Paquette // instruction, let's use produceSameValue instead of isIdenticalTo.
243466de26b1SPetar Avramovic if (Builder.getTII().produceSameValue(*I1, *I2, &MRI)) {
243566de26b1SPetar Avramovic // Handle instructions with multiple defs that produce same values. Values
243666de26b1SPetar Avramovic // are same for operands with same index.
243766de26b1SPetar Avramovic // %0:_(s8), %1:_(s8), %2:_(s8), %3:_(s8) = G_UNMERGE_VALUES %4:_(<4 x s8>)
243866de26b1SPetar Avramovic // %5:_(s8), %6:_(s8), %7:_(s8), %8:_(s8) = G_UNMERGE_VALUES %4:_(<4 x s8>)
243966de26b1SPetar Avramovic // I1 and I2 are different instructions but produce same values,
244066de26b1SPetar Avramovic // %1 and %6 are same, %1 and %7 are not the same value.
244166de26b1SPetar Avramovic return I1->findRegisterDefOperandIdx(InstAndDef1->Reg) ==
244266de26b1SPetar Avramovic I2->findRegisterDefOperandIdx(InstAndDef2->Reg);
244366de26b1SPetar Avramovic }
244466de26b1SPetar Avramovic return false;
244502187ed4SJessica Paquette }
244602187ed4SJessica Paquette
matchConstantOp(const MachineOperand & MOP,int64_t C)244763d70ea6SJessica Paquette bool CombinerHelper::matchConstantOp(const MachineOperand &MOP, int64_t C) {
244863d70ea6SJessica Paquette if (!MOP.isReg())
244963d70ea6SJessica Paquette return false;
2450ca8316b7SAmara Emerson auto *MI = MRI.getVRegDef(MOP.getReg());
2451ca8316b7SAmara Emerson auto MaybeCst = isConstantOrConstantSplatVector(*MI, MRI);
2452064a08cdSKazu Hirata return MaybeCst && MaybeCst->getBitWidth() <= 64 &&
245353ebfa7cSAmara Emerson MaybeCst->getSExtValue() == C;
245463d70ea6SJessica Paquette }
245563d70ea6SJessica Paquette
replaceSingleDefInstWithOperand(MachineInstr & MI,unsigned OpIdx)245602187ed4SJessica Paquette bool CombinerHelper::replaceSingleDefInstWithOperand(MachineInstr &MI,
245702187ed4SJessica Paquette unsigned OpIdx) {
245802187ed4SJessica Paquette assert(MI.getNumExplicitDefs() == 1 && "Expected one explicit def?");
245902187ed4SJessica Paquette Register OldReg = MI.getOperand(0).getReg();
246002187ed4SJessica Paquette Register Replacement = MI.getOperand(OpIdx).getReg();
246102187ed4SJessica Paquette assert(canReplaceReg(OldReg, Replacement, MRI) && "Cannot replace register?");
246202187ed4SJessica Paquette MI.eraseFromParent();
246302187ed4SJessica Paquette replaceRegWith(MRI, OldReg, Replacement);
246402187ed4SJessica Paquette return true;
246502187ed4SJessica Paquette }
246602187ed4SJessica Paquette
replaceSingleDefInstWithReg(MachineInstr & MI,Register Replacement)2467d25b12bdSJessica Paquette bool CombinerHelper::replaceSingleDefInstWithReg(MachineInstr &MI,
2468d25b12bdSJessica Paquette Register Replacement) {
2469d25b12bdSJessica Paquette assert(MI.getNumExplicitDefs() == 1 && "Expected one explicit def?");
2470d25b12bdSJessica Paquette Register OldReg = MI.getOperand(0).getReg();
2471d25b12bdSJessica Paquette assert(canReplaceReg(OldReg, Replacement, MRI) && "Cannot replace register?");
2472d25b12bdSJessica Paquette MI.eraseFromParent();
2473d25b12bdSJessica Paquette replaceRegWith(MRI, OldReg, Replacement);
2474d25b12bdSJessica Paquette return true;
2475d25b12bdSJessica Paquette }
2476d25b12bdSJessica Paquette
matchSelectSameVal(MachineInstr & MI)247702187ed4SJessica Paquette bool CombinerHelper::matchSelectSameVal(MachineInstr &MI) {
247802187ed4SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_SELECT);
247902187ed4SJessica Paquette // Match (cond ? x : x)
248002187ed4SJessica Paquette return matchEqualDefs(MI.getOperand(2), MI.getOperand(3)) &&
248102187ed4SJessica Paquette canReplaceReg(MI.getOperand(0).getReg(), MI.getOperand(2).getReg(),
248202187ed4SJessica Paquette MRI);
248302187ed4SJessica Paquette }
248402187ed4SJessica Paquette
matchBinOpSameVal(MachineInstr & MI)2485d5ee7206SJessica Paquette bool CombinerHelper::matchBinOpSameVal(MachineInstr &MI) {
2486d5ee7206SJessica Paquette return matchEqualDefs(MI.getOperand(1), MI.getOperand(2)) &&
2487d5ee7206SJessica Paquette canReplaceReg(MI.getOperand(0).getReg(), MI.getOperand(1).getReg(),
2488d5ee7206SJessica Paquette MRI);
2489d5ee7206SJessica Paquette }
2490d5ee7206SJessica Paquette
matchOperandIsZero(MachineInstr & MI,unsigned OpIdx)2491ae989391SMatt Arsenault bool CombinerHelper::matchOperandIsZero(MachineInstr &MI, unsigned OpIdx) {
2492ae989391SMatt Arsenault return matchConstantOp(MI.getOperand(OpIdx), 0) &&
2493ae989391SMatt Arsenault canReplaceReg(MI.getOperand(0).getReg(), MI.getOperand(OpIdx).getReg(),
2494ae989391SMatt Arsenault MRI);
2495ae989391SMatt Arsenault }
2496ae989391SMatt Arsenault
matchOperandIsUndef(MachineInstr & MI,unsigned OpIdx)24971242dd33SVolkan Keles bool CombinerHelper::matchOperandIsUndef(MachineInstr &MI, unsigned OpIdx) {
24981242dd33SVolkan Keles MachineOperand &MO = MI.getOperand(OpIdx);
24991242dd33SVolkan Keles return MO.isReg() &&
25001242dd33SVolkan Keles getOpcodeDef(TargetOpcode::G_IMPLICIT_DEF, MO.getReg(), MRI);
25011242dd33SVolkan Keles }
25021242dd33SVolkan Keles
matchOperandIsKnownToBeAPowerOfTwo(MachineInstr & MI,unsigned OpIdx)25031f9b6ef9SMatt Arsenault bool CombinerHelper::matchOperandIsKnownToBeAPowerOfTwo(MachineInstr &MI,
25041f9b6ef9SMatt Arsenault unsigned OpIdx) {
25051f9b6ef9SMatt Arsenault MachineOperand &MO = MI.getOperand(OpIdx);
25061f9b6ef9SMatt Arsenault return isKnownToBeAPowerOfTwo(MO.getReg(), MRI, KB);
25071f9b6ef9SMatt Arsenault }
25081f9b6ef9SMatt Arsenault
replaceInstWithFConstant(MachineInstr & MI,double C)2509dc5f9826SJessica Paquette bool CombinerHelper::replaceInstWithFConstant(MachineInstr &MI, double C) {
2510dc5f9826SJessica Paquette assert(MI.getNumDefs() == 1 && "Expected only one def?");
2511dc5f9826SJessica Paquette Builder.setInstr(MI);
2512dc5f9826SJessica Paquette Builder.buildFConstant(MI.getOperand(0), C);
2513dc5f9826SJessica Paquette MI.eraseFromParent();
2514dc5f9826SJessica Paquette return true;
2515dc5f9826SJessica Paquette }
2516dc5f9826SJessica Paquette
replaceInstWithConstant(MachineInstr & MI,int64_t C)2517dc5f9826SJessica Paquette bool CombinerHelper::replaceInstWithConstant(MachineInstr &MI, int64_t C) {
2518dc5f9826SJessica Paquette assert(MI.getNumDefs() == 1 && "Expected only one def?");
2519dc5f9826SJessica Paquette Builder.setInstr(MI);
2520dc5f9826SJessica Paquette Builder.buildConstant(MI.getOperand(0), C);
2521dc5f9826SJessica Paquette MI.eraseFromParent();
2522dc5f9826SJessica Paquette return true;
2523dc5f9826SJessica Paquette }
2524dc5f9826SJessica Paquette
replaceInstWithConstant(MachineInstr & MI,APInt C)2525c658b472SAmara Emerson bool CombinerHelper::replaceInstWithConstant(MachineInstr &MI, APInt C) {
2526c658b472SAmara Emerson assert(MI.getNumDefs() == 1 && "Expected only one def?");
2527c658b472SAmara Emerson Builder.setInstr(MI);
2528c658b472SAmara Emerson Builder.buildConstant(MI.getOperand(0), C);
2529c658b472SAmara Emerson MI.eraseFromParent();
2530c658b472SAmara Emerson return true;
2531c658b472SAmara Emerson }
2532c658b472SAmara Emerson
replaceInstWithUndef(MachineInstr & MI)2533dc5f9826SJessica Paquette bool CombinerHelper::replaceInstWithUndef(MachineInstr &MI) {
2534dc5f9826SJessica Paquette assert(MI.getNumDefs() == 1 && "Expected only one def?");
2535dc5f9826SJessica Paquette Builder.setInstr(MI);
2536dc5f9826SJessica Paquette Builder.buildUndef(MI.getOperand(0));
2537dc5f9826SJessica Paquette MI.eraseFromParent();
2538dc5f9826SJessica Paquette return true;
2539dc5f9826SJessica Paquette }
2540dc5f9826SJessica Paquette
matchSimplifyAddToSub(MachineInstr & MI,std::tuple<Register,Register> & MatchInfo)25411ac8451aSJessica Paquette bool CombinerHelper::matchSimplifyAddToSub(
25421ac8451aSJessica Paquette MachineInstr &MI, std::tuple<Register, Register> &MatchInfo) {
25431ac8451aSJessica Paquette Register LHS = MI.getOperand(1).getReg();
25441ac8451aSJessica Paquette Register RHS = MI.getOperand(2).getReg();
25451ac8451aSJessica Paquette Register &NewLHS = std::get<0>(MatchInfo);
25461ac8451aSJessica Paquette Register &NewRHS = std::get<1>(MatchInfo);
25471ac8451aSJessica Paquette
25481ac8451aSJessica Paquette // Helper lambda to check for opportunities for
25491ac8451aSJessica Paquette // ((0-A) + B) -> B - A
25501ac8451aSJessica Paquette // (A + (0-B)) -> A - B
25511ac8451aSJessica Paquette auto CheckFold = [&](Register &MaybeSub, Register &MaybeNewLHS) {
2552b184a2ecSJessica Paquette if (!mi_match(MaybeSub, MRI, m_Neg(m_Reg(NewRHS))))
25531ac8451aSJessica Paquette return false;
25541ac8451aSJessica Paquette NewLHS = MaybeNewLHS;
25551ac8451aSJessica Paquette return true;
25561ac8451aSJessica Paquette };
25571ac8451aSJessica Paquette
25581ac8451aSJessica Paquette return CheckFold(LHS, RHS) || CheckFold(RHS, LHS);
25591ac8451aSJessica Paquette }
25601ac8451aSJessica Paquette
matchCombineInsertVecElts(MachineInstr & MI,SmallVectorImpl<Register> & MatchInfo)2561bed83940SAditya Nandakumar bool CombinerHelper::matchCombineInsertVecElts(
2562bed83940SAditya Nandakumar MachineInstr &MI, SmallVectorImpl<Register> &MatchInfo) {
2563bed83940SAditya Nandakumar assert(MI.getOpcode() == TargetOpcode::G_INSERT_VECTOR_ELT &&
2564bed83940SAditya Nandakumar "Invalid opcode");
2565bed83940SAditya Nandakumar Register DstReg = MI.getOperand(0).getReg();
2566bed83940SAditya Nandakumar LLT DstTy = MRI.getType(DstReg);
2567bed83940SAditya Nandakumar assert(DstTy.isVector() && "Invalid G_INSERT_VECTOR_ELT?");
2568bed83940SAditya Nandakumar unsigned NumElts = DstTy.getNumElements();
2569bed83940SAditya Nandakumar // If this MI is part of a sequence of insert_vec_elts, then
2570bed83940SAditya Nandakumar // don't do the combine in the middle of the sequence.
2571bed83940SAditya Nandakumar if (MRI.hasOneUse(DstReg) && MRI.use_instr_begin(DstReg)->getOpcode() ==
2572bed83940SAditya Nandakumar TargetOpcode::G_INSERT_VECTOR_ELT)
2573bed83940SAditya Nandakumar return false;
2574bed83940SAditya Nandakumar MachineInstr *CurrInst = &MI;
2575bed83940SAditya Nandakumar MachineInstr *TmpInst;
2576bed83940SAditya Nandakumar int64_t IntImm;
2577bed83940SAditya Nandakumar Register TmpReg;
2578bed83940SAditya Nandakumar MatchInfo.resize(NumElts);
2579bed83940SAditya Nandakumar while (mi_match(
2580bed83940SAditya Nandakumar CurrInst->getOperand(0).getReg(), MRI,
2581bed83940SAditya Nandakumar m_GInsertVecElt(m_MInstr(TmpInst), m_Reg(TmpReg), m_ICst(IntImm)))) {
2582bed83940SAditya Nandakumar if (IntImm >= NumElts)
2583bed83940SAditya Nandakumar return false;
2584bed83940SAditya Nandakumar if (!MatchInfo[IntImm])
2585bed83940SAditya Nandakumar MatchInfo[IntImm] = TmpReg;
2586bed83940SAditya Nandakumar CurrInst = TmpInst;
2587bed83940SAditya Nandakumar }
2588bed83940SAditya Nandakumar // Variable index.
2589bed83940SAditya Nandakumar if (CurrInst->getOpcode() == TargetOpcode::G_INSERT_VECTOR_ELT)
2590bed83940SAditya Nandakumar return false;
2591bed83940SAditya Nandakumar if (TmpInst->getOpcode() == TargetOpcode::G_BUILD_VECTOR) {
2592bed83940SAditya Nandakumar for (unsigned I = 1; I < TmpInst->getNumOperands(); ++I) {
2593bed83940SAditya Nandakumar if (!MatchInfo[I - 1].isValid())
2594bed83940SAditya Nandakumar MatchInfo[I - 1] = TmpInst->getOperand(I).getReg();
2595bed83940SAditya Nandakumar }
2596bed83940SAditya Nandakumar return true;
2597bed83940SAditya Nandakumar }
2598bed83940SAditya Nandakumar // If we didn't end in a G_IMPLICIT_DEF, bail out.
2599bed83940SAditya Nandakumar return TmpInst->getOpcode() == TargetOpcode::G_IMPLICIT_DEF;
2600bed83940SAditya Nandakumar }
2601bed83940SAditya Nandakumar
applyCombineInsertVecElts(MachineInstr & MI,SmallVectorImpl<Register> & MatchInfo)2602f30251f5SAmara Emerson void CombinerHelper::applyCombineInsertVecElts(
2603bed83940SAditya Nandakumar MachineInstr &MI, SmallVectorImpl<Register> &MatchInfo) {
2604bed83940SAditya Nandakumar Builder.setInstr(MI);
2605bed83940SAditya Nandakumar Register UndefReg;
2606bed83940SAditya Nandakumar auto GetUndef = [&]() {
2607bed83940SAditya Nandakumar if (UndefReg)
2608bed83940SAditya Nandakumar return UndefReg;
2609bed83940SAditya Nandakumar LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
2610bed83940SAditya Nandakumar UndefReg = Builder.buildUndef(DstTy.getScalarType()).getReg(0);
2611bed83940SAditya Nandakumar return UndefReg;
2612bed83940SAditya Nandakumar };
2613bed83940SAditya Nandakumar for (unsigned I = 0; I < MatchInfo.size(); ++I) {
2614bed83940SAditya Nandakumar if (!MatchInfo[I])
2615bed83940SAditya Nandakumar MatchInfo[I] = GetUndef();
2616bed83940SAditya Nandakumar }
2617bed83940SAditya Nandakumar Builder.buildBuildVector(MI.getOperand(0).getReg(), MatchInfo);
2618bed83940SAditya Nandakumar MI.eraseFromParent();
2619bed83940SAditya Nandakumar }
2620bed83940SAditya Nandakumar
applySimplifyAddToSub(MachineInstr & MI,std::tuple<Register,Register> & MatchInfo)2621f30251f5SAmara Emerson void CombinerHelper::applySimplifyAddToSub(
26221ac8451aSJessica Paquette MachineInstr &MI, std::tuple<Register, Register> &MatchInfo) {
26231ac8451aSJessica Paquette Builder.setInstr(MI);
26241ac8451aSJessica Paquette Register SubLHS, SubRHS;
26251ac8451aSJessica Paquette std::tie(SubLHS, SubRHS) = MatchInfo;
26261ac8451aSJessica Paquette Builder.buildSub(MI.getOperand(0).getReg(), SubLHS, SubRHS);
26271ac8451aSJessica Paquette MI.eraseFromParent();
26281ac8451aSJessica Paquette }
26291ac8451aSJessica Paquette
matchHoistLogicOpWithSameOpcodeHands(MachineInstr & MI,InstructionStepsMatchInfo & MatchInfo)2630bebe6a64SJessica Paquette bool CombinerHelper::matchHoistLogicOpWithSameOpcodeHands(
2631bebe6a64SJessica Paquette MachineInstr &MI, InstructionStepsMatchInfo &MatchInfo) {
2632bebe6a64SJessica Paquette // Matches: logic (hand x, ...), (hand y, ...) -> hand (logic x, y), ...
2633bebe6a64SJessica Paquette //
2634bebe6a64SJessica Paquette // Creates the new hand + logic instruction (but does not insert them.)
2635bebe6a64SJessica Paquette //
2636bebe6a64SJessica Paquette // On success, MatchInfo is populated with the new instructions. These are
2637bebe6a64SJessica Paquette // inserted in applyHoistLogicOpWithSameOpcodeHands.
2638bebe6a64SJessica Paquette unsigned LogicOpcode = MI.getOpcode();
2639bebe6a64SJessica Paquette assert(LogicOpcode == TargetOpcode::G_AND ||
2640bebe6a64SJessica Paquette LogicOpcode == TargetOpcode::G_OR ||
2641bebe6a64SJessica Paquette LogicOpcode == TargetOpcode::G_XOR);
2642bebe6a64SJessica Paquette MachineIRBuilder MIB(MI);
2643bebe6a64SJessica Paquette Register Dst = MI.getOperand(0).getReg();
2644bebe6a64SJessica Paquette Register LHSReg = MI.getOperand(1).getReg();
2645bebe6a64SJessica Paquette Register RHSReg = MI.getOperand(2).getReg();
2646bebe6a64SJessica Paquette
2647bebe6a64SJessica Paquette // Don't recompute anything.
2648bebe6a64SJessica Paquette if (!MRI.hasOneNonDBGUse(LHSReg) || !MRI.hasOneNonDBGUse(RHSReg))
2649bebe6a64SJessica Paquette return false;
2650bebe6a64SJessica Paquette
2651bebe6a64SJessica Paquette // Make sure we have (hand x, ...), (hand y, ...)
2652bebe6a64SJessica Paquette MachineInstr *LeftHandInst = getDefIgnoringCopies(LHSReg, MRI);
2653bebe6a64SJessica Paquette MachineInstr *RightHandInst = getDefIgnoringCopies(RHSReg, MRI);
2654bebe6a64SJessica Paquette if (!LeftHandInst || !RightHandInst)
2655bebe6a64SJessica Paquette return false;
2656bebe6a64SJessica Paquette unsigned HandOpcode = LeftHandInst->getOpcode();
2657bebe6a64SJessica Paquette if (HandOpcode != RightHandInst->getOpcode())
2658bebe6a64SJessica Paquette return false;
2659bebe6a64SJessica Paquette if (!LeftHandInst->getOperand(1).isReg() ||
2660bebe6a64SJessica Paquette !RightHandInst->getOperand(1).isReg())
2661bebe6a64SJessica Paquette return false;
2662bebe6a64SJessica Paquette
2663bebe6a64SJessica Paquette // Make sure the types match up, and if we're doing this post-legalization,
2664bebe6a64SJessica Paquette // we end up with legal types.
2665bebe6a64SJessica Paquette Register X = LeftHandInst->getOperand(1).getReg();
2666bebe6a64SJessica Paquette Register Y = RightHandInst->getOperand(1).getReg();
2667bebe6a64SJessica Paquette LLT XTy = MRI.getType(X);
2668bebe6a64SJessica Paquette LLT YTy = MRI.getType(Y);
2669bebe6a64SJessica Paquette if (XTy != YTy)
2670bebe6a64SJessica Paquette return false;
2671bebe6a64SJessica Paquette if (!isLegalOrBeforeLegalizer({LogicOpcode, {XTy, YTy}}))
2672bebe6a64SJessica Paquette return false;
2673bebe6a64SJessica Paquette
2674bebe6a64SJessica Paquette // Optional extra source register.
2675bebe6a64SJessica Paquette Register ExtraHandOpSrcReg;
2676bebe6a64SJessica Paquette switch (HandOpcode) {
2677bebe6a64SJessica Paquette default:
2678bebe6a64SJessica Paquette return false;
2679bebe6a64SJessica Paquette case TargetOpcode::G_ANYEXT:
2680bebe6a64SJessica Paquette case TargetOpcode::G_SEXT:
2681bebe6a64SJessica Paquette case TargetOpcode::G_ZEXT: {
2682bebe6a64SJessica Paquette // Match: logic (ext X), (ext Y) --> ext (logic X, Y)
2683bebe6a64SJessica Paquette break;
2684bebe6a64SJessica Paquette }
2685bebe6a64SJessica Paquette case TargetOpcode::G_AND:
2686bebe6a64SJessica Paquette case TargetOpcode::G_ASHR:
2687bebe6a64SJessica Paquette case TargetOpcode::G_LSHR:
2688bebe6a64SJessica Paquette case TargetOpcode::G_SHL: {
2689bebe6a64SJessica Paquette // Match: logic (binop x, z), (binop y, z) -> binop (logic x, y), z
2690bebe6a64SJessica Paquette MachineOperand &ZOp = LeftHandInst->getOperand(2);
2691bebe6a64SJessica Paquette if (!matchEqualDefs(ZOp, RightHandInst->getOperand(2)))
2692bebe6a64SJessica Paquette return false;
2693bebe6a64SJessica Paquette ExtraHandOpSrcReg = ZOp.getReg();
2694bebe6a64SJessica Paquette break;
2695bebe6a64SJessica Paquette }
2696bebe6a64SJessica Paquette }
2697bebe6a64SJessica Paquette
2698bebe6a64SJessica Paquette // Record the steps to build the new instructions.
2699bebe6a64SJessica Paquette //
2700bebe6a64SJessica Paquette // Steps to build (logic x, y)
2701bebe6a64SJessica Paquette auto NewLogicDst = MRI.createGenericVirtualRegister(XTy);
2702bebe6a64SJessica Paquette OperandBuildSteps LogicBuildSteps = {
2703bebe6a64SJessica Paquette [=](MachineInstrBuilder &MIB) { MIB.addDef(NewLogicDst); },
2704bebe6a64SJessica Paquette [=](MachineInstrBuilder &MIB) { MIB.addReg(X); },
2705bebe6a64SJessica Paquette [=](MachineInstrBuilder &MIB) { MIB.addReg(Y); }};
2706bebe6a64SJessica Paquette InstructionBuildSteps LogicSteps(LogicOpcode, LogicBuildSteps);
2707bebe6a64SJessica Paquette
2708bebe6a64SJessica Paquette // Steps to build hand (logic x, y), ...z
2709bebe6a64SJessica Paquette OperandBuildSteps HandBuildSteps = {
2710bebe6a64SJessica Paquette [=](MachineInstrBuilder &MIB) { MIB.addDef(Dst); },
2711bebe6a64SJessica Paquette [=](MachineInstrBuilder &MIB) { MIB.addReg(NewLogicDst); }};
2712bebe6a64SJessica Paquette if (ExtraHandOpSrcReg.isValid())
2713bebe6a64SJessica Paquette HandBuildSteps.push_back(
2714bebe6a64SJessica Paquette [=](MachineInstrBuilder &MIB) { MIB.addReg(ExtraHandOpSrcReg); });
2715bebe6a64SJessica Paquette InstructionBuildSteps HandSteps(HandOpcode, HandBuildSteps);
2716bebe6a64SJessica Paquette
2717bebe6a64SJessica Paquette MatchInfo = InstructionStepsMatchInfo({LogicSteps, HandSteps});
2718bebe6a64SJessica Paquette return true;
2719bebe6a64SJessica Paquette }
2720bebe6a64SJessica Paquette
applyBuildInstructionSteps(MachineInstr & MI,InstructionStepsMatchInfo & MatchInfo)2721f30251f5SAmara Emerson void CombinerHelper::applyBuildInstructionSteps(
2722bebe6a64SJessica Paquette MachineInstr &MI, InstructionStepsMatchInfo &MatchInfo) {
2723bebe6a64SJessica Paquette assert(MatchInfo.InstrsToBuild.size() &&
2724bebe6a64SJessica Paquette "Expected at least one instr to build?");
2725bebe6a64SJessica Paquette Builder.setInstr(MI);
2726bebe6a64SJessica Paquette for (auto &InstrToBuild : MatchInfo.InstrsToBuild) {
2727bebe6a64SJessica Paquette assert(InstrToBuild.Opcode && "Expected a valid opcode?");
2728bebe6a64SJessica Paquette assert(InstrToBuild.OperandFns.size() && "Expected at least one operand?");
2729bebe6a64SJessica Paquette MachineInstrBuilder Instr = Builder.buildInstr(InstrToBuild.Opcode);
2730bebe6a64SJessica Paquette for (auto &OperandFn : InstrToBuild.OperandFns)
2731bebe6a64SJessica Paquette OperandFn(Instr);
2732bebe6a64SJessica Paquette }
2733bebe6a64SJessica Paquette MI.eraseFromParent();
2734bebe6a64SJessica Paquette }
2735bebe6a64SJessica Paquette
matchAshrShlToSextInreg(MachineInstr & MI,std::tuple<Register,int64_t> & MatchInfo)273640e269eaSAmara Emerson bool CombinerHelper::matchAshrShlToSextInreg(
273740e269eaSAmara Emerson MachineInstr &MI, std::tuple<Register, int64_t> &MatchInfo) {
273840e269eaSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_ASHR);
273940e269eaSAmara Emerson int64_t ShlCst, AshrCst;
274040e269eaSAmara Emerson Register Src;
274140e269eaSAmara Emerson // FIXME: detect splat constant vectors.
274240e269eaSAmara Emerson if (!mi_match(MI.getOperand(0).getReg(), MRI,
274340e269eaSAmara Emerson m_GAShr(m_GShl(m_Reg(Src), m_ICst(ShlCst)), m_ICst(AshrCst))))
274440e269eaSAmara Emerson return false;
274540e269eaSAmara Emerson if (ShlCst != AshrCst)
274640e269eaSAmara Emerson return false;
274740e269eaSAmara Emerson if (!isLegalOrBeforeLegalizer(
274840e269eaSAmara Emerson {TargetOpcode::G_SEXT_INREG, {MRI.getType(Src)}}))
274940e269eaSAmara Emerson return false;
2750ed353445SAmara Emerson MatchInfo = std::make_tuple(Src, ShlCst);
275140e269eaSAmara Emerson return true;
275240e269eaSAmara Emerson }
2753f30251f5SAmara Emerson
applyAshShlToSextInreg(MachineInstr & MI,std::tuple<Register,int64_t> & MatchInfo)2754f30251f5SAmara Emerson void CombinerHelper::applyAshShlToSextInreg(
275540e269eaSAmara Emerson MachineInstr &MI, std::tuple<Register, int64_t> &MatchInfo) {
275640e269eaSAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_ASHR);
275740e269eaSAmara Emerson Register Src;
275840e269eaSAmara Emerson int64_t ShiftAmt;
275940e269eaSAmara Emerson std::tie(Src, ShiftAmt) = MatchInfo;
276040e269eaSAmara Emerson unsigned Size = MRI.getType(Src).getScalarSizeInBits();
276140e269eaSAmara Emerson Builder.setInstrAndDebugLoc(MI);
276240e269eaSAmara Emerson Builder.buildSExtInReg(MI.getOperand(0).getReg(), Src, Size - ShiftAmt);
276340e269eaSAmara Emerson MI.eraseFromParent();
276440e269eaSAmara Emerson }
276540e269eaSAmara Emerson
2766a2ab7650SJon Roelofs /// and(and(x, C1), C2) -> C1&C2 ? and(x, C1&C2) : 0
matchOverlappingAnd(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)2767a2ab7650SJon Roelofs bool CombinerHelper::matchOverlappingAnd(
2768a2ab7650SJon Roelofs MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
2769a2ab7650SJon Roelofs assert(MI.getOpcode() == TargetOpcode::G_AND);
2770a2ab7650SJon Roelofs
2771a2ab7650SJon Roelofs Register Dst = MI.getOperand(0).getReg();
2772a2ab7650SJon Roelofs LLT Ty = MRI.getType(Dst);
2773a2ab7650SJon Roelofs
2774a2ab7650SJon Roelofs Register R;
2775a2ab7650SJon Roelofs int64_t C1;
2776a2ab7650SJon Roelofs int64_t C2;
2777a2ab7650SJon Roelofs if (!mi_match(
2778a2ab7650SJon Roelofs Dst, MRI,
2779a2ab7650SJon Roelofs m_GAnd(m_GAnd(m_Reg(R), m_ICst(C1)), m_ICst(C2))))
2780a2ab7650SJon Roelofs return false;
2781a2ab7650SJon Roelofs
2782a2ab7650SJon Roelofs MatchInfo = [=](MachineIRBuilder &B) {
2783a2ab7650SJon Roelofs if (C1 & C2) {
2784a2ab7650SJon Roelofs B.buildAnd(Dst, R, B.buildConstant(Ty, C1 & C2));
2785a2ab7650SJon Roelofs return;
2786a2ab7650SJon Roelofs }
2787a2ab7650SJon Roelofs auto Zero = B.buildConstant(Ty, 0);
2788a2ab7650SJon Roelofs replaceRegWith(MRI, Dst, Zero->getOperand(0).getReg());
2789a2ab7650SJon Roelofs };
2790a2ab7650SJon Roelofs return true;
2791a2ab7650SJon Roelofs }
2792a2ab7650SJon Roelofs
matchRedundantAnd(MachineInstr & MI,Register & Replacement)2793fb36ab0aSMirko Brkusanin bool CombinerHelper::matchRedundantAnd(MachineInstr &MI,
2794d25b12bdSJessica Paquette Register &Replacement) {
2795d25b12bdSJessica Paquette // Given
2796d25b12bdSJessica Paquette //
2797fb36ab0aSMirko Brkusanin // %y:_(sN) = G_SOMETHING
2798d25b12bdSJessica Paquette // %x:_(sN) = G_SOMETHING
2799fb36ab0aSMirko Brkusanin // %res:_(sN) = G_AND %x, %y
2800d25b12bdSJessica Paquette //
2801fb36ab0aSMirko Brkusanin // Eliminate the G_AND when it is known that x & y == x or x & y == y.
2802d25b12bdSJessica Paquette //
2803d25b12bdSJessica Paquette // Patterns like this can appear as a result of legalization. E.g.
2804d25b12bdSJessica Paquette //
2805d25b12bdSJessica Paquette // %cmp:_(s32) = G_ICMP intpred(pred), %x(s32), %y
2806d25b12bdSJessica Paquette // %one:_(s32) = G_CONSTANT i32 1
2807d25b12bdSJessica Paquette // %and:_(s32) = G_AND %cmp, %one
2808d25b12bdSJessica Paquette //
2809d25b12bdSJessica Paquette // In this case, G_ICMP only produces a single bit, so x & 1 == x.
2810d25b12bdSJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_AND);
2811d25b12bdSJessica Paquette if (!KB)
2812d25b12bdSJessica Paquette return false;
2813d25b12bdSJessica Paquette
2814d25b12bdSJessica Paquette Register AndDst = MI.getOperand(0).getReg();
2815d25b12bdSJessica Paquette LLT DstTy = MRI.getType(AndDst);
2816d25b12bdSJessica Paquette
2817d25b12bdSJessica Paquette // FIXME: This should be removed once GISelKnownBits supports vectors.
2818d25b12bdSJessica Paquette if (DstTy.isVector())
2819d25b12bdSJessica Paquette return false;
2820d25b12bdSJessica Paquette
2821fb36ab0aSMirko Brkusanin Register LHS = MI.getOperand(1).getReg();
2822fb36ab0aSMirko Brkusanin Register RHS = MI.getOperand(2).getReg();
2823fb36ab0aSMirko Brkusanin KnownBits LHSBits = KB->getKnownBits(LHS);
2824fb36ab0aSMirko Brkusanin KnownBits RHSBits = KB->getKnownBits(RHS);
2825d25b12bdSJessica Paquette
2826fb36ab0aSMirko Brkusanin // Check that x & Mask == x.
2827fb36ab0aSMirko Brkusanin // x & 1 == x, always
2828fb36ab0aSMirko Brkusanin // x & 0 == x, only if x is also 0
2829fb36ab0aSMirko Brkusanin // Meaning Mask has no effect if every bit is either one in Mask or zero in x.
2830fb36ab0aSMirko Brkusanin //
2831fb36ab0aSMirko Brkusanin // Check if we can replace AndDst with the LHS of the G_AND
2832fb36ab0aSMirko Brkusanin if (canReplaceReg(AndDst, LHS, MRI) &&
2833735f4671SChris Lattner (LHSBits.Zero | RHSBits.One).isAllOnes()) {
2834fb36ab0aSMirko Brkusanin Replacement = LHS;
2835fb36ab0aSMirko Brkusanin return true;
2836fb36ab0aSMirko Brkusanin }
2837fb36ab0aSMirko Brkusanin
2838fb36ab0aSMirko Brkusanin // Check if we can replace AndDst with the RHS of the G_AND
2839fb36ab0aSMirko Brkusanin if (canReplaceReg(AndDst, RHS, MRI) &&
2840735f4671SChris Lattner (LHSBits.One | RHSBits.Zero).isAllOnes()) {
2841fb36ab0aSMirko Brkusanin Replacement = RHS;
2842fb36ab0aSMirko Brkusanin return true;
2843fb36ab0aSMirko Brkusanin }
2844fb36ab0aSMirko Brkusanin
2845fb36ab0aSMirko Brkusanin return false;
2846d25b12bdSJessica Paquette }
2847d25b12bdSJessica Paquette
matchRedundantOr(MachineInstr & MI,Register & Replacement)2848a75d6178SMirko Brkusanin bool CombinerHelper::matchRedundantOr(MachineInstr &MI, Register &Replacement) {
2849a75d6178SMirko Brkusanin // Given
2850a75d6178SMirko Brkusanin //
2851a75d6178SMirko Brkusanin // %y:_(sN) = G_SOMETHING
2852a75d6178SMirko Brkusanin // %x:_(sN) = G_SOMETHING
2853a75d6178SMirko Brkusanin // %res:_(sN) = G_OR %x, %y
2854a75d6178SMirko Brkusanin //
2855a75d6178SMirko Brkusanin // Eliminate the G_OR when it is known that x | y == x or x | y == y.
2856a75d6178SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_OR);
2857a75d6178SMirko Brkusanin if (!KB)
2858a75d6178SMirko Brkusanin return false;
2859a75d6178SMirko Brkusanin
2860a75d6178SMirko Brkusanin Register OrDst = MI.getOperand(0).getReg();
2861a75d6178SMirko Brkusanin LLT DstTy = MRI.getType(OrDst);
2862a75d6178SMirko Brkusanin
2863a75d6178SMirko Brkusanin // FIXME: This should be removed once GISelKnownBits supports vectors.
2864a75d6178SMirko Brkusanin if (DstTy.isVector())
2865a75d6178SMirko Brkusanin return false;
2866a75d6178SMirko Brkusanin
2867a75d6178SMirko Brkusanin Register LHS = MI.getOperand(1).getReg();
2868a75d6178SMirko Brkusanin Register RHS = MI.getOperand(2).getReg();
2869a75d6178SMirko Brkusanin KnownBits LHSBits = KB->getKnownBits(LHS);
2870a75d6178SMirko Brkusanin KnownBits RHSBits = KB->getKnownBits(RHS);
2871a75d6178SMirko Brkusanin
2872a75d6178SMirko Brkusanin // Check that x | Mask == x.
2873a75d6178SMirko Brkusanin // x | 0 == x, always
2874a75d6178SMirko Brkusanin // x | 1 == x, only if x is also 1
2875a75d6178SMirko Brkusanin // Meaning Mask has no effect if every bit is either zero in Mask or one in x.
2876a75d6178SMirko Brkusanin //
2877a75d6178SMirko Brkusanin // Check if we can replace OrDst with the LHS of the G_OR
2878a75d6178SMirko Brkusanin if (canReplaceReg(OrDst, LHS, MRI) &&
2879a9bceb2bSJay Foad (LHSBits.One | RHSBits.Zero).isAllOnes()) {
2880a75d6178SMirko Brkusanin Replacement = LHS;
2881a75d6178SMirko Brkusanin return true;
2882a75d6178SMirko Brkusanin }
2883a75d6178SMirko Brkusanin
2884a75d6178SMirko Brkusanin // Check if we can replace OrDst with the RHS of the G_OR
2885a75d6178SMirko Brkusanin if (canReplaceReg(OrDst, RHS, MRI) &&
2886a9bceb2bSJay Foad (LHSBits.Zero | RHSBits.One).isAllOnes()) {
2887a75d6178SMirko Brkusanin Replacement = RHS;
2888a75d6178SMirko Brkusanin return true;
2889a75d6178SMirko Brkusanin }
2890a75d6178SMirko Brkusanin
2891a75d6178SMirko Brkusanin return false;
2892a75d6178SMirko Brkusanin }
2893a75d6178SMirko Brkusanin
matchRedundantSExtInReg(MachineInstr & MI)28941b201914SMatt Arsenault bool CombinerHelper::matchRedundantSExtInReg(MachineInstr &MI) {
28951b201914SMatt Arsenault // If the input is already sign extended, just drop the extension.
28961b201914SMatt Arsenault Register Src = MI.getOperand(1).getReg();
28971b201914SMatt Arsenault unsigned ExtBits = MI.getOperand(2).getImm();
28981b201914SMatt Arsenault unsigned TypeSize = MRI.getType(Src).getScalarSizeInBits();
28991b201914SMatt Arsenault return KB->computeNumSignBits(Src) >= (TypeSize - ExtBits + 1);
29001b201914SMatt Arsenault }
29011b201914SMatt Arsenault
isConstValidTrue(const TargetLowering & TLI,unsigned ScalarSizeBits,int64_t Cst,bool IsVector,bool IsFP)2902520ab710SAmara Emerson static bool isConstValidTrue(const TargetLowering &TLI, unsigned ScalarSizeBits,
2903520ab710SAmara Emerson int64_t Cst, bool IsVector, bool IsFP) {
2904520ab710SAmara Emerson // For i1, Cst will always be -1 regardless of boolean contents.
2905520ab710SAmara Emerson return (ScalarSizeBits == 1 && Cst == -1) ||
2906520ab710SAmara Emerson isConstTrueVal(TLI, Cst, IsVector, IsFP);
2907520ab710SAmara Emerson }
2908520ab710SAmara Emerson
matchNotCmp(MachineInstr & MI,SmallVectorImpl<Register> & RegsToNegate)2909713c2ad6SJay Foad bool CombinerHelper::matchNotCmp(MachineInstr &MI,
2910713c2ad6SJay Foad SmallVectorImpl<Register> &RegsToNegate) {
2911520ab710SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_XOR);
2912520ab710SAmara Emerson LLT Ty = MRI.getType(MI.getOperand(0).getReg());
2913520ab710SAmara Emerson const auto &TLI = *Builder.getMF().getSubtarget().getTargetLowering();
2914520ab710SAmara Emerson Register XorSrc;
2915520ab710SAmara Emerson Register CstReg;
2916520ab710SAmara Emerson // We match xor(src, true) here.
2917520ab710SAmara Emerson if (!mi_match(MI.getOperand(0).getReg(), MRI,
2918520ab710SAmara Emerson m_GXor(m_Reg(XorSrc), m_Reg(CstReg))))
2919520ab710SAmara Emerson return false;
2920520ab710SAmara Emerson
2921520ab710SAmara Emerson if (!MRI.hasOneNonDBGUse(XorSrc))
2922520ab710SAmara Emerson return false;
2923520ab710SAmara Emerson
2924713c2ad6SJay Foad // Check that XorSrc is the root of a tree of comparisons combined with ANDs
2925713c2ad6SJay Foad // and ORs. The suffix of RegsToNegate starting from index I is used a work
2926713c2ad6SJay Foad // list of tree nodes to visit.
2927713c2ad6SJay Foad RegsToNegate.push_back(XorSrc);
2928713c2ad6SJay Foad // Remember whether the comparisons are all integer or all floating point.
2929713c2ad6SJay Foad bool IsInt = false;
2930520ab710SAmara Emerson bool IsFP = false;
2931713c2ad6SJay Foad for (unsigned I = 0; I < RegsToNegate.size(); ++I) {
2932713c2ad6SJay Foad Register Reg = RegsToNegate[I];
2933713c2ad6SJay Foad if (!MRI.hasOneNonDBGUse(Reg))
2934713c2ad6SJay Foad return false;
2935713c2ad6SJay Foad MachineInstr *Def = MRI.getVRegDef(Reg);
2936713c2ad6SJay Foad switch (Def->getOpcode()) {
2937713c2ad6SJay Foad default:
2938713c2ad6SJay Foad // Don't match if the tree contains anything other than ANDs, ORs and
2939713c2ad6SJay Foad // comparisons.
2940713c2ad6SJay Foad return false;
2941713c2ad6SJay Foad case TargetOpcode::G_ICMP:
2942713c2ad6SJay Foad if (IsFP)
2943713c2ad6SJay Foad return false;
2944713c2ad6SJay Foad IsInt = true;
2945713c2ad6SJay Foad // When we apply the combine we will invert the predicate.
2946713c2ad6SJay Foad break;
2947713c2ad6SJay Foad case TargetOpcode::G_FCMP:
2948713c2ad6SJay Foad if (IsInt)
2949520ab710SAmara Emerson return false;
2950520ab710SAmara Emerson IsFP = true;
2951713c2ad6SJay Foad // When we apply the combine we will invert the predicate.
2952713c2ad6SJay Foad break;
2953713c2ad6SJay Foad case TargetOpcode::G_AND:
2954713c2ad6SJay Foad case TargetOpcode::G_OR:
2955713c2ad6SJay Foad // Implement De Morgan's laws:
2956713c2ad6SJay Foad // ~(x & y) -> ~x | ~y
2957713c2ad6SJay Foad // ~(x | y) -> ~x & ~y
2958713c2ad6SJay Foad // When we apply the combine we will change the opcode and recursively
2959713c2ad6SJay Foad // negate the operands.
2960713c2ad6SJay Foad RegsToNegate.push_back(Def->getOperand(1).getReg());
2961713c2ad6SJay Foad RegsToNegate.push_back(Def->getOperand(2).getReg());
2962713c2ad6SJay Foad break;
2963713c2ad6SJay Foad }
2964520ab710SAmara Emerson }
2965520ab710SAmara Emerson
2966713c2ad6SJay Foad // Now we know whether the comparisons are integer or floating point, check
2967713c2ad6SJay Foad // the constant in the xor.
2968713c2ad6SJay Foad int64_t Cst;
2969520ab710SAmara Emerson if (Ty.isVector()) {
2970520ab710SAmara Emerson MachineInstr *CstDef = MRI.getVRegDef(CstReg);
2971485dd0b7SAbinav Puthan Purayil auto MaybeCst = getIConstantSplatSExtVal(*CstDef, MRI);
2972520ab710SAmara Emerson if (!MaybeCst)
2973520ab710SAmara Emerson return false;
2974520ab710SAmara Emerson if (!isConstValidTrue(TLI, Ty.getScalarSizeInBits(), *MaybeCst, true, IsFP))
2975520ab710SAmara Emerson return false;
2976520ab710SAmara Emerson } else {
2977520ab710SAmara Emerson if (!mi_match(CstReg, MRI, m_ICst(Cst)))
2978520ab710SAmara Emerson return false;
2979520ab710SAmara Emerson if (!isConstValidTrue(TLI, Ty.getSizeInBits(), Cst, false, IsFP))
2980520ab710SAmara Emerson return false;
2981520ab710SAmara Emerson }
2982520ab710SAmara Emerson
2983520ab710SAmara Emerson return true;
2984520ab710SAmara Emerson }
2985520ab710SAmara Emerson
applyNotCmp(MachineInstr & MI,SmallVectorImpl<Register> & RegsToNegate)2986f30251f5SAmara Emerson void CombinerHelper::applyNotCmp(MachineInstr &MI,
2987713c2ad6SJay Foad SmallVectorImpl<Register> &RegsToNegate) {
2988713c2ad6SJay Foad for (Register Reg : RegsToNegate) {
2989713c2ad6SJay Foad MachineInstr *Def = MRI.getVRegDef(Reg);
2990713c2ad6SJay Foad Observer.changingInstr(*Def);
2991713c2ad6SJay Foad // For each comparison, invert the opcode. For each AND and OR, change the
2992713c2ad6SJay Foad // opcode.
2993713c2ad6SJay Foad switch (Def->getOpcode()) {
2994713c2ad6SJay Foad default:
2995713c2ad6SJay Foad llvm_unreachable("Unexpected opcode");
2996713c2ad6SJay Foad case TargetOpcode::G_ICMP:
2997713c2ad6SJay Foad case TargetOpcode::G_FCMP: {
2998713c2ad6SJay Foad MachineOperand &PredOp = Def->getOperand(1);
2999520ab710SAmara Emerson CmpInst::Predicate NewP = CmpInst::getInversePredicate(
3000520ab710SAmara Emerson (CmpInst::Predicate)PredOp.getPredicate());
3001520ab710SAmara Emerson PredOp.setPredicate(NewP);
3002713c2ad6SJay Foad break;
3003713c2ad6SJay Foad }
3004713c2ad6SJay Foad case TargetOpcode::G_AND:
3005713c2ad6SJay Foad Def->setDesc(Builder.getTII().get(TargetOpcode::G_OR));
3006713c2ad6SJay Foad break;
3007713c2ad6SJay Foad case TargetOpcode::G_OR:
3008713c2ad6SJay Foad Def->setDesc(Builder.getTII().get(TargetOpcode::G_AND));
3009713c2ad6SJay Foad break;
3010713c2ad6SJay Foad }
3011713c2ad6SJay Foad Observer.changedInstr(*Def);
3012713c2ad6SJay Foad }
3013520ab710SAmara Emerson
3014713c2ad6SJay Foad replaceRegWith(MRI, MI.getOperand(0).getReg(), MI.getOperand(1).getReg());
3015520ab710SAmara Emerson MI.eraseFromParent();
3016520ab710SAmara Emerson }
3017520ab710SAmara Emerson
matchXorOfAndWithSameReg(MachineInstr & MI,std::pair<Register,Register> & MatchInfo)3018a52e7801SJessica Paquette bool CombinerHelper::matchXorOfAndWithSameReg(
3019a52e7801SJessica Paquette MachineInstr &MI, std::pair<Register, Register> &MatchInfo) {
3020a52e7801SJessica Paquette // Match (xor (and x, y), y) (or any of its commuted cases)
3021a52e7801SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_XOR);
3022a52e7801SJessica Paquette Register &X = MatchInfo.first;
3023a52e7801SJessica Paquette Register &Y = MatchInfo.second;
3024a52e7801SJessica Paquette Register AndReg = MI.getOperand(1).getReg();
3025a52e7801SJessica Paquette Register SharedReg = MI.getOperand(2).getReg();
3026a52e7801SJessica Paquette
3027a52e7801SJessica Paquette // Find a G_AND on either side of the G_XOR.
3028a52e7801SJessica Paquette // Look for one of
3029a52e7801SJessica Paquette //
3030a52e7801SJessica Paquette // (xor (and x, y), SharedReg)
3031a52e7801SJessica Paquette // (xor SharedReg, (and x, y))
3032a52e7801SJessica Paquette if (!mi_match(AndReg, MRI, m_GAnd(m_Reg(X), m_Reg(Y)))) {
3033a52e7801SJessica Paquette std::swap(AndReg, SharedReg);
3034a52e7801SJessica Paquette if (!mi_match(AndReg, MRI, m_GAnd(m_Reg(X), m_Reg(Y))))
3035a52e7801SJessica Paquette return false;
3036a52e7801SJessica Paquette }
3037a52e7801SJessica Paquette
3038a52e7801SJessica Paquette // Only do this if we'll eliminate the G_AND.
3039a52e7801SJessica Paquette if (!MRI.hasOneNonDBGUse(AndReg))
3040a52e7801SJessica Paquette return false;
3041a52e7801SJessica Paquette
3042a52e7801SJessica Paquette // We can combine if SharedReg is the same as either the LHS or RHS of the
3043a52e7801SJessica Paquette // G_AND.
3044a52e7801SJessica Paquette if (Y != SharedReg)
3045a52e7801SJessica Paquette std::swap(X, Y);
3046a52e7801SJessica Paquette return Y == SharedReg;
3047a52e7801SJessica Paquette }
3048a52e7801SJessica Paquette
applyXorOfAndWithSameReg(MachineInstr & MI,std::pair<Register,Register> & MatchInfo)3049f30251f5SAmara Emerson void CombinerHelper::applyXorOfAndWithSameReg(
3050a52e7801SJessica Paquette MachineInstr &MI, std::pair<Register, Register> &MatchInfo) {
3051a52e7801SJessica Paquette // Fold (xor (and x, y), y) -> (and (not x), y)
3052a52e7801SJessica Paquette Builder.setInstrAndDebugLoc(MI);
3053a52e7801SJessica Paquette Register X, Y;
3054a52e7801SJessica Paquette std::tie(X, Y) = MatchInfo;
3055a52e7801SJessica Paquette auto Not = Builder.buildNot(MRI.getType(X), X);
3056a52e7801SJessica Paquette Observer.changingInstr(MI);
3057a52e7801SJessica Paquette MI.setDesc(Builder.getTII().get(TargetOpcode::G_AND));
3058a52e7801SJessica Paquette MI.getOperand(1).setReg(Not->getOperand(0).getReg());
3059a52e7801SJessica Paquette MI.getOperand(2).setReg(Y);
3060a52e7801SJessica Paquette Observer.changedInstr(MI);
3061a52e7801SJessica Paquette }
3062a52e7801SJessica Paquette
matchPtrAddZero(MachineInstr & MI)306352ba4fa6SMirko Brkusanin bool CombinerHelper::matchPtrAddZero(MachineInstr &MI) {
3064532c458fSAmara Emerson auto &PtrAdd = cast<GPtrAdd>(MI);
3065532c458fSAmara Emerson Register DstReg = PtrAdd.getReg(0);
306652ba4fa6SMirko Brkusanin LLT Ty = MRI.getType(DstReg);
306752ba4fa6SMirko Brkusanin const DataLayout &DL = Builder.getMF().getDataLayout();
306852ba4fa6SMirko Brkusanin
306952ba4fa6SMirko Brkusanin if (DL.isNonIntegralAddressSpace(Ty.getScalarType().getAddressSpace()))
307052ba4fa6SMirko Brkusanin return false;
307152ba4fa6SMirko Brkusanin
307252ba4fa6SMirko Brkusanin if (Ty.isPointer()) {
3073d477a7c2SPetar Avramovic auto ConstVal = getIConstantVRegVal(PtrAdd.getBaseReg(), MRI);
307452ba4fa6SMirko Brkusanin return ConstVal && *ConstVal == 0;
307552ba4fa6SMirko Brkusanin }
307652ba4fa6SMirko Brkusanin
307752ba4fa6SMirko Brkusanin assert(Ty.isVector() && "Expecting a vector type");
3078532c458fSAmara Emerson const MachineInstr *VecMI = MRI.getVRegDef(PtrAdd.getBaseReg());
307952ba4fa6SMirko Brkusanin return isBuildVectorAllZeros(*VecMI, MRI);
308052ba4fa6SMirko Brkusanin }
308152ba4fa6SMirko Brkusanin
applyPtrAddZero(MachineInstr & MI)3082f30251f5SAmara Emerson void CombinerHelper::applyPtrAddZero(MachineInstr &MI) {
3083532c458fSAmara Emerson auto &PtrAdd = cast<GPtrAdd>(MI);
3084532c458fSAmara Emerson Builder.setInstrAndDebugLoc(PtrAdd);
3085532c458fSAmara Emerson Builder.buildIntToPtr(PtrAdd.getReg(0), PtrAdd.getOffsetReg());
3086532c458fSAmara Emerson PtrAdd.eraseFromParent();
308752ba4fa6SMirko Brkusanin }
308852ba4fa6SMirko Brkusanin
30891f9b6ef9SMatt Arsenault /// The second source operand is known to be a power of 2.
applySimplifyURemByPow2(MachineInstr & MI)3090f30251f5SAmara Emerson void CombinerHelper::applySimplifyURemByPow2(MachineInstr &MI) {
30911f9b6ef9SMatt Arsenault Register DstReg = MI.getOperand(0).getReg();
30921f9b6ef9SMatt Arsenault Register Src0 = MI.getOperand(1).getReg();
30931f9b6ef9SMatt Arsenault Register Pow2Src1 = MI.getOperand(2).getReg();
30941f9b6ef9SMatt Arsenault LLT Ty = MRI.getType(DstReg);
30951f9b6ef9SMatt Arsenault Builder.setInstrAndDebugLoc(MI);
30961f9b6ef9SMatt Arsenault
30971f9b6ef9SMatt Arsenault // Fold (urem x, pow2) -> (and x, pow2-1)
30981f9b6ef9SMatt Arsenault auto NegOne = Builder.buildConstant(Ty, -1);
30991f9b6ef9SMatt Arsenault auto Add = Builder.buildAdd(Ty, Pow2Src1, NegOne);
31001f9b6ef9SMatt Arsenault Builder.buildAnd(DstReg, Src0, Add);
31011f9b6ef9SMatt Arsenault MI.eraseFromParent();
31021f9b6ef9SMatt Arsenault }
31031f9b6ef9SMatt Arsenault
matchFoldBinOpIntoSelect(MachineInstr & MI,unsigned & SelectOpNo)31040877fbccSMatt Arsenault bool CombinerHelper::matchFoldBinOpIntoSelect(MachineInstr &MI,
31050877fbccSMatt Arsenault unsigned &SelectOpNo) {
31060877fbccSMatt Arsenault Register LHS = MI.getOperand(1).getReg();
31070877fbccSMatt Arsenault Register RHS = MI.getOperand(2).getReg();
31080877fbccSMatt Arsenault
31090877fbccSMatt Arsenault Register OtherOperandReg = RHS;
31100877fbccSMatt Arsenault SelectOpNo = 1;
31110877fbccSMatt Arsenault MachineInstr *Select = MRI.getVRegDef(LHS);
31120877fbccSMatt Arsenault
31130877fbccSMatt Arsenault // Don't do this unless the old select is going away. We want to eliminate the
31140877fbccSMatt Arsenault // binary operator, not replace a binop with a select.
31150877fbccSMatt Arsenault if (Select->getOpcode() != TargetOpcode::G_SELECT ||
31160877fbccSMatt Arsenault !MRI.hasOneNonDBGUse(LHS)) {
31170877fbccSMatt Arsenault OtherOperandReg = LHS;
31180877fbccSMatt Arsenault SelectOpNo = 2;
31190877fbccSMatt Arsenault Select = MRI.getVRegDef(RHS);
31200877fbccSMatt Arsenault if (Select->getOpcode() != TargetOpcode::G_SELECT ||
31210877fbccSMatt Arsenault !MRI.hasOneNonDBGUse(RHS))
31220877fbccSMatt Arsenault return false;
31230877fbccSMatt Arsenault }
31240877fbccSMatt Arsenault
31250877fbccSMatt Arsenault MachineInstr *SelectLHS = MRI.getVRegDef(Select->getOperand(2).getReg());
31260877fbccSMatt Arsenault MachineInstr *SelectRHS = MRI.getVRegDef(Select->getOperand(3).getReg());
31270877fbccSMatt Arsenault
31280877fbccSMatt Arsenault if (!isConstantOrConstantVector(*SelectLHS, MRI,
31290877fbccSMatt Arsenault /*AllowFP*/ true,
31300877fbccSMatt Arsenault /*AllowOpaqueConstants*/ false))
31310877fbccSMatt Arsenault return false;
31320877fbccSMatt Arsenault if (!isConstantOrConstantVector(*SelectRHS, MRI,
31330877fbccSMatt Arsenault /*AllowFP*/ true,
31340877fbccSMatt Arsenault /*AllowOpaqueConstants*/ false))
31350877fbccSMatt Arsenault return false;
31360877fbccSMatt Arsenault
31370877fbccSMatt Arsenault unsigned BinOpcode = MI.getOpcode();
31380877fbccSMatt Arsenault
31390877fbccSMatt Arsenault // We know know one of the operands is a select of constants. Now verify that
31400877fbccSMatt Arsenault // the other binary operator operand is either a constant, or we can handle a
31410877fbccSMatt Arsenault // variable.
31420877fbccSMatt Arsenault bool CanFoldNonConst =
31430877fbccSMatt Arsenault (BinOpcode == TargetOpcode::G_AND || BinOpcode == TargetOpcode::G_OR) &&
31440877fbccSMatt Arsenault (isNullOrNullSplat(*SelectLHS, MRI) ||
31450877fbccSMatt Arsenault isAllOnesOrAllOnesSplat(*SelectLHS, MRI)) &&
31460877fbccSMatt Arsenault (isNullOrNullSplat(*SelectRHS, MRI) ||
31470877fbccSMatt Arsenault isAllOnesOrAllOnesSplat(*SelectRHS, MRI));
31480877fbccSMatt Arsenault if (CanFoldNonConst)
31490877fbccSMatt Arsenault return true;
31500877fbccSMatt Arsenault
31510877fbccSMatt Arsenault return isConstantOrConstantVector(*MRI.getVRegDef(OtherOperandReg), MRI,
31520877fbccSMatt Arsenault /*AllowFP*/ true,
31530877fbccSMatt Arsenault /*AllowOpaqueConstants*/ false);
31540877fbccSMatt Arsenault }
31550877fbccSMatt Arsenault
31560877fbccSMatt Arsenault /// \p SelectOperand is the operand in binary operator \p MI that is the select
31570877fbccSMatt Arsenault /// to fold.
applyFoldBinOpIntoSelect(MachineInstr & MI,const unsigned & SelectOperand)31580877fbccSMatt Arsenault bool CombinerHelper::applyFoldBinOpIntoSelect(MachineInstr &MI,
31590877fbccSMatt Arsenault const unsigned &SelectOperand) {
31600877fbccSMatt Arsenault Builder.setInstrAndDebugLoc(MI);
31610877fbccSMatt Arsenault
31620877fbccSMatt Arsenault Register Dst = MI.getOperand(0).getReg();
31630877fbccSMatt Arsenault Register LHS = MI.getOperand(1).getReg();
31640877fbccSMatt Arsenault Register RHS = MI.getOperand(2).getReg();
31650877fbccSMatt Arsenault MachineInstr *Select = MRI.getVRegDef(MI.getOperand(SelectOperand).getReg());
31660877fbccSMatt Arsenault
31670877fbccSMatt Arsenault Register SelectCond = Select->getOperand(1).getReg();
31680877fbccSMatt Arsenault Register SelectTrue = Select->getOperand(2).getReg();
31690877fbccSMatt Arsenault Register SelectFalse = Select->getOperand(3).getReg();
31700877fbccSMatt Arsenault
31710877fbccSMatt Arsenault LLT Ty = MRI.getType(Dst);
31720877fbccSMatt Arsenault unsigned BinOpcode = MI.getOpcode();
31730877fbccSMatt Arsenault
31740877fbccSMatt Arsenault Register FoldTrue, FoldFalse;
31750877fbccSMatt Arsenault
31760877fbccSMatt Arsenault // We have a select-of-constants followed by a binary operator with a
31770877fbccSMatt Arsenault // constant. Eliminate the binop by pulling the constant math into the select.
31780877fbccSMatt Arsenault // Example: add (select Cond, CT, CF), CBO --> select Cond, CT + CBO, CF + CBO
31790877fbccSMatt Arsenault if (SelectOperand == 1) {
31800877fbccSMatt Arsenault // TODO: SelectionDAG verifies this actually constant folds before
31810877fbccSMatt Arsenault // committing to the combine.
31820877fbccSMatt Arsenault
31830877fbccSMatt Arsenault FoldTrue = Builder.buildInstr(BinOpcode, {Ty}, {SelectTrue, RHS}).getReg(0);
31840877fbccSMatt Arsenault FoldFalse =
31850877fbccSMatt Arsenault Builder.buildInstr(BinOpcode, {Ty}, {SelectFalse, RHS}).getReg(0);
31860877fbccSMatt Arsenault } else {
31870877fbccSMatt Arsenault FoldTrue = Builder.buildInstr(BinOpcode, {Ty}, {LHS, SelectTrue}).getReg(0);
31880877fbccSMatt Arsenault FoldFalse =
31890877fbccSMatt Arsenault Builder.buildInstr(BinOpcode, {Ty}, {LHS, SelectFalse}).getReg(0);
31900877fbccSMatt Arsenault }
31910877fbccSMatt Arsenault
31920877fbccSMatt Arsenault Builder.buildSelect(Dst, SelectCond, FoldTrue, FoldFalse, MI.getFlags());
31930877fbccSMatt Arsenault Observer.erasingInstr(*Select);
31940877fbccSMatt Arsenault Select->eraseFromParent();
31950877fbccSMatt Arsenault MI.eraseFromParent();
31960877fbccSMatt Arsenault
31970877fbccSMatt Arsenault return true;
31980877fbccSMatt Arsenault }
31990877fbccSMatt Arsenault
3200cfc60730SJessica Paquette Optional<SmallVector<Register, 8>>
findCandidatesForLoadOrCombine(const MachineInstr * Root) const3201cfc60730SJessica Paquette CombinerHelper::findCandidatesForLoadOrCombine(const MachineInstr *Root) const {
3202cfc60730SJessica Paquette assert(Root->getOpcode() == TargetOpcode::G_OR && "Expected G_OR only!");
3203cfc60730SJessica Paquette // We want to detect if Root is part of a tree which represents a bunch
3204cfc60730SJessica Paquette // of loads being merged into a larger load. We'll try to recognize patterns
3205cfc60730SJessica Paquette // like, for example:
3206cfc60730SJessica Paquette //
3207cfc60730SJessica Paquette // Reg Reg
3208cfc60730SJessica Paquette // \ /
3209cfc60730SJessica Paquette // OR_1 Reg
3210cfc60730SJessica Paquette // \ /
3211cfc60730SJessica Paquette // OR_2
3212cfc60730SJessica Paquette // \ Reg
3213cfc60730SJessica Paquette // .. /
3214cfc60730SJessica Paquette // Root
3215cfc60730SJessica Paquette //
3216cfc60730SJessica Paquette // Reg Reg Reg Reg
3217cfc60730SJessica Paquette // \ / \ /
3218cfc60730SJessica Paquette // OR_1 OR_2
3219cfc60730SJessica Paquette // \ /
3220cfc60730SJessica Paquette // \ /
3221cfc60730SJessica Paquette // ...
3222cfc60730SJessica Paquette // Root
3223cfc60730SJessica Paquette //
3224cfc60730SJessica Paquette // Each "Reg" may have been produced by a load + some arithmetic. This
3225cfc60730SJessica Paquette // function will save each of them.
3226cfc60730SJessica Paquette SmallVector<Register, 8> RegsToVisit;
3227cfc60730SJessica Paquette SmallVector<const MachineInstr *, 7> Ors = {Root};
3228cfc60730SJessica Paquette
3229cfc60730SJessica Paquette // In the "worst" case, we're dealing with a load for each byte. So, there
3230cfc60730SJessica Paquette // are at most #bytes - 1 ORs.
3231cfc60730SJessica Paquette const unsigned MaxIter =
3232cfc60730SJessica Paquette MRI.getType(Root->getOperand(0).getReg()).getSizeInBytes() - 1;
3233cfc60730SJessica Paquette for (unsigned Iter = 0; Iter < MaxIter; ++Iter) {
3234cfc60730SJessica Paquette if (Ors.empty())
3235cfc60730SJessica Paquette break;
3236cfc60730SJessica Paquette const MachineInstr *Curr = Ors.pop_back_val();
3237cfc60730SJessica Paquette Register OrLHS = Curr->getOperand(1).getReg();
3238cfc60730SJessica Paquette Register OrRHS = Curr->getOperand(2).getReg();
3239cfc60730SJessica Paquette
3240cfc60730SJessica Paquette // In the combine, we want to elimate the entire tree.
3241cfc60730SJessica Paquette if (!MRI.hasOneNonDBGUse(OrLHS) || !MRI.hasOneNonDBGUse(OrRHS))
3242cfc60730SJessica Paquette return None;
3243cfc60730SJessica Paquette
3244cfc60730SJessica Paquette // If it's a G_OR, save it and continue to walk. If it's not, then it's
3245cfc60730SJessica Paquette // something that may be a load + arithmetic.
3246cfc60730SJessica Paquette if (const MachineInstr *Or = getOpcodeDef(TargetOpcode::G_OR, OrLHS, MRI))
3247cfc60730SJessica Paquette Ors.push_back(Or);
3248cfc60730SJessica Paquette else
3249cfc60730SJessica Paquette RegsToVisit.push_back(OrLHS);
3250cfc60730SJessica Paquette if (const MachineInstr *Or = getOpcodeDef(TargetOpcode::G_OR, OrRHS, MRI))
3251cfc60730SJessica Paquette Ors.push_back(Or);
3252cfc60730SJessica Paquette else
3253cfc60730SJessica Paquette RegsToVisit.push_back(OrRHS);
3254cfc60730SJessica Paquette }
3255cfc60730SJessica Paquette
3256cfc60730SJessica Paquette // We're going to try and merge each register into a wider power-of-2 type,
3257cfc60730SJessica Paquette // so we ought to have an even number of registers.
3258cfc60730SJessica Paquette if (RegsToVisit.empty() || RegsToVisit.size() % 2 != 0)
3259cfc60730SJessica Paquette return None;
3260cfc60730SJessica Paquette return RegsToVisit;
3261cfc60730SJessica Paquette }
3262cfc60730SJessica Paquette
3263cfc60730SJessica Paquette /// Helper function for findLoadOffsetsForLoadOrCombine.
3264cfc60730SJessica Paquette ///
3265cfc60730SJessica Paquette /// Check if \p Reg is the result of loading a \p MemSizeInBits wide value,
3266cfc60730SJessica Paquette /// and then moving that value into a specific byte offset.
3267cfc60730SJessica Paquette ///
3268cfc60730SJessica Paquette /// e.g. x[i] << 24
3269cfc60730SJessica Paquette ///
3270cfc60730SJessica Paquette /// \returns The load instruction and the byte offset it is moved into.
32714e3dc6b8SAmara Emerson static Optional<std::pair<GZExtLoad *, int64_t>>
matchLoadAndBytePosition(Register Reg,unsigned MemSizeInBits,const MachineRegisterInfo & MRI)3272cfc60730SJessica Paquette matchLoadAndBytePosition(Register Reg, unsigned MemSizeInBits,
3273cfc60730SJessica Paquette const MachineRegisterInfo &MRI) {
3274cfc60730SJessica Paquette assert(MRI.hasOneNonDBGUse(Reg) &&
3275cfc60730SJessica Paquette "Expected Reg to only have one non-debug use?");
3276cfc60730SJessica Paquette Register MaybeLoad;
3277cfc60730SJessica Paquette int64_t Shift;
3278cfc60730SJessica Paquette if (!mi_match(Reg, MRI,
3279cfc60730SJessica Paquette m_OneNonDBGUse(m_GShl(m_Reg(MaybeLoad), m_ICst(Shift))))) {
3280cfc60730SJessica Paquette Shift = 0;
3281cfc60730SJessica Paquette MaybeLoad = Reg;
3282cfc60730SJessica Paquette }
3283cfc60730SJessica Paquette
3284cfc60730SJessica Paquette if (Shift % MemSizeInBits != 0)
3285cfc60730SJessica Paquette return None;
3286cfc60730SJessica Paquette
3287cfc60730SJessica Paquette // TODO: Handle other types of loads.
32884e3dc6b8SAmara Emerson auto *Load = getOpcodeDef<GZExtLoad>(MaybeLoad, MRI);
3289cfc60730SJessica Paquette if (!Load)
3290cfc60730SJessica Paquette return None;
3291cfc60730SJessica Paquette
32924e3dc6b8SAmara Emerson if (!Load->isUnordered() || Load->getMemSizeInBits() != MemSizeInBits)
3293cfc60730SJessica Paquette return None;
3294cfc60730SJessica Paquette
3295cfc60730SJessica Paquette return std::make_pair(Load, Shift / MemSizeInBits);
3296cfc60730SJessica Paquette }
3297cfc60730SJessica Paquette
329803cdb522SAmara Emerson Optional<std::tuple<GZExtLoad *, int64_t, GZExtLoad *>>
findLoadOffsetsForLoadOrCombine(SmallDenseMap<int64_t,int64_t,8> & MemOffset2Idx,const SmallVector<Register,8> & RegsToVisit,const unsigned MemSizeInBits)3299cfc60730SJessica Paquette CombinerHelper::findLoadOffsetsForLoadOrCombine(
3300cfc60730SJessica Paquette SmallDenseMap<int64_t, int64_t, 8> &MemOffset2Idx,
3301cfc60730SJessica Paquette const SmallVector<Register, 8> &RegsToVisit, const unsigned MemSizeInBits) {
3302cfc60730SJessica Paquette
3303cfc60730SJessica Paquette // Each load found for the pattern. There should be one for each RegsToVisit.
3304cfc60730SJessica Paquette SmallSetVector<const MachineInstr *, 8> Loads;
3305cfc60730SJessica Paquette
3306cfc60730SJessica Paquette // The lowest index used in any load. (The lowest "i" for each x[i].)
3307cfc60730SJessica Paquette int64_t LowestIdx = INT64_MAX;
3308cfc60730SJessica Paquette
3309cfc60730SJessica Paquette // The load which uses the lowest index.
33104e3dc6b8SAmara Emerson GZExtLoad *LowestIdxLoad = nullptr;
3311cfc60730SJessica Paquette
3312cfc60730SJessica Paquette // Keeps track of the load indices we see. We shouldn't see any indices twice.
3313cfc60730SJessica Paquette SmallSet<int64_t, 8> SeenIdx;
3314cfc60730SJessica Paquette
3315cfc60730SJessica Paquette // Ensure each load is in the same MBB.
3316cfc60730SJessica Paquette // TODO: Support multiple MachineBasicBlocks.
3317cfc60730SJessica Paquette MachineBasicBlock *MBB = nullptr;
3318cfc60730SJessica Paquette const MachineMemOperand *MMO = nullptr;
3319cfc60730SJessica Paquette
3320cfc60730SJessica Paquette // Earliest instruction-order load in the pattern.
332103cdb522SAmara Emerson GZExtLoad *EarliestLoad = nullptr;
3322cfc60730SJessica Paquette
3323cfc60730SJessica Paquette // Latest instruction-order load in the pattern.
332403cdb522SAmara Emerson GZExtLoad *LatestLoad = nullptr;
3325cfc60730SJessica Paquette
3326cfc60730SJessica Paquette // Base pointer which every load should share.
3327cfc60730SJessica Paquette Register BasePtr;
3328cfc60730SJessica Paquette
3329cfc60730SJessica Paquette // We want to find a load for each register. Each load should have some
3330cfc60730SJessica Paquette // appropriate bit twiddling arithmetic. During this loop, we will also keep
3331cfc60730SJessica Paquette // track of the load which uses the lowest index. Later, we will check if we
3332cfc60730SJessica Paquette // can use its pointer in the final, combined load.
3333cfc60730SJessica Paquette for (auto Reg : RegsToVisit) {
3334cfc60730SJessica Paquette // Find the load, and find the position that it will end up in (e.g. a
3335cfc60730SJessica Paquette // shifted) value.
3336cfc60730SJessica Paquette auto LoadAndPos = matchLoadAndBytePosition(Reg, MemSizeInBits, MRI);
3337cfc60730SJessica Paquette if (!LoadAndPos)
3338cfc60730SJessica Paquette return None;
33394e3dc6b8SAmara Emerson GZExtLoad *Load;
3340cfc60730SJessica Paquette int64_t DstPos;
3341cfc60730SJessica Paquette std::tie(Load, DstPos) = *LoadAndPos;
3342cfc60730SJessica Paquette
3343cfc60730SJessica Paquette // TODO: Handle multiple MachineBasicBlocks. Currently not handled because
3344cfc60730SJessica Paquette // it is difficult to check for stores/calls/etc between loads.
3345cfc60730SJessica Paquette MachineBasicBlock *LoadMBB = Load->getParent();
3346cfc60730SJessica Paquette if (!MBB)
3347cfc60730SJessica Paquette MBB = LoadMBB;
3348cfc60730SJessica Paquette if (LoadMBB != MBB)
3349cfc60730SJessica Paquette return None;
3350cfc60730SJessica Paquette
3351cfc60730SJessica Paquette // Make sure that the MachineMemOperands of every seen load are compatible.
33524e3dc6b8SAmara Emerson auto &LoadMMO = Load->getMMO();
3353cfc60730SJessica Paquette if (!MMO)
33544e3dc6b8SAmara Emerson MMO = &LoadMMO;
33554e3dc6b8SAmara Emerson if (MMO->getAddrSpace() != LoadMMO.getAddrSpace())
3356cfc60730SJessica Paquette return None;
3357cfc60730SJessica Paquette
3358cfc60730SJessica Paquette // Find out what the base pointer and index for the load is.
3359cfc60730SJessica Paquette Register LoadPtr;
3360cfc60730SJessica Paquette int64_t Idx;
3361cfc60730SJessica Paquette if (!mi_match(Load->getOperand(1).getReg(), MRI,
3362cfc60730SJessica Paquette m_GPtrAdd(m_Reg(LoadPtr), m_ICst(Idx)))) {
3363cfc60730SJessica Paquette LoadPtr = Load->getOperand(1).getReg();
3364cfc60730SJessica Paquette Idx = 0;
3365cfc60730SJessica Paquette }
3366cfc60730SJessica Paquette
3367cfc60730SJessica Paquette // Don't combine things like a[i], a[i] -> a bigger load.
3368cfc60730SJessica Paquette if (!SeenIdx.insert(Idx).second)
3369cfc60730SJessica Paquette return None;
3370cfc60730SJessica Paquette
3371cfc60730SJessica Paquette // Every load must share the same base pointer; don't combine things like:
3372cfc60730SJessica Paquette //
3373cfc60730SJessica Paquette // a[i], b[i + 1] -> a bigger load.
3374cfc60730SJessica Paquette if (!BasePtr.isValid())
3375cfc60730SJessica Paquette BasePtr = LoadPtr;
3376cfc60730SJessica Paquette if (BasePtr != LoadPtr)
3377cfc60730SJessica Paquette return None;
3378cfc60730SJessica Paquette
3379cfc60730SJessica Paquette if (Idx < LowestIdx) {
3380cfc60730SJessica Paquette LowestIdx = Idx;
3381cfc60730SJessica Paquette LowestIdxLoad = Load;
3382cfc60730SJessica Paquette }
3383cfc60730SJessica Paquette
3384cfc60730SJessica Paquette // Keep track of the byte offset that this load ends up at. If we have seen
3385cfc60730SJessica Paquette // the byte offset, then stop here. We do not want to combine:
3386cfc60730SJessica Paquette //
3387cfc60730SJessica Paquette // a[i] << 16, a[i + k] << 16 -> a bigger load.
3388cfc60730SJessica Paquette if (!MemOffset2Idx.try_emplace(DstPos, Idx).second)
3389cfc60730SJessica Paquette return None;
3390cfc60730SJessica Paquette Loads.insert(Load);
3391cfc60730SJessica Paquette
3392cfc60730SJessica Paquette // Keep track of the position of the earliest/latest loads in the pattern.
3393cfc60730SJessica Paquette // We will check that there are no load fold barriers between them later
3394cfc60730SJessica Paquette // on.
3395cfc60730SJessica Paquette //
3396cfc60730SJessica Paquette // FIXME: Is there a better way to check for load fold barriers?
3397cfc60730SJessica Paquette if (!EarliestLoad || dominates(*Load, *EarliestLoad))
3398cfc60730SJessica Paquette EarliestLoad = Load;
3399cfc60730SJessica Paquette if (!LatestLoad || dominates(*LatestLoad, *Load))
3400cfc60730SJessica Paquette LatestLoad = Load;
3401cfc60730SJessica Paquette }
3402cfc60730SJessica Paquette
3403cfc60730SJessica Paquette // We found a load for each register. Let's check if each load satisfies the
3404cfc60730SJessica Paquette // pattern.
3405cfc60730SJessica Paquette assert(Loads.size() == RegsToVisit.size() &&
3406cfc60730SJessica Paquette "Expected to find a load for each register?");
3407cfc60730SJessica Paquette assert(EarliestLoad != LatestLoad && EarliestLoad &&
3408cfc60730SJessica Paquette LatestLoad && "Expected at least two loads?");
3409cfc60730SJessica Paquette
3410cfc60730SJessica Paquette // Check if there are any stores, calls, etc. between any of the loads. If
3411cfc60730SJessica Paquette // there are, then we can't safely perform the combine.
3412cfc60730SJessica Paquette //
3413cfc60730SJessica Paquette // MaxIter is chosen based off the (worst case) number of iterations it
3414cfc60730SJessica Paquette // typically takes to succeed in the LLVM test suite plus some padding.
3415cfc60730SJessica Paquette //
3416cfc60730SJessica Paquette // FIXME: Is there a better way to check for load fold barriers?
3417cfc60730SJessica Paquette const unsigned MaxIter = 20;
3418cfc60730SJessica Paquette unsigned Iter = 0;
3419cfc60730SJessica Paquette for (const auto &MI : instructionsWithoutDebug(EarliestLoad->getIterator(),
3420cfc60730SJessica Paquette LatestLoad->getIterator())) {
3421cfc60730SJessica Paquette if (Loads.count(&MI))
3422cfc60730SJessica Paquette continue;
3423cfc60730SJessica Paquette if (MI.isLoadFoldBarrier())
3424cfc60730SJessica Paquette return None;
3425cfc60730SJessica Paquette if (Iter++ == MaxIter)
3426cfc60730SJessica Paquette return None;
3427cfc60730SJessica Paquette }
3428cfc60730SJessica Paquette
342903cdb522SAmara Emerson return std::make_tuple(LowestIdxLoad, LowestIdx, LatestLoad);
3430cfc60730SJessica Paquette }
3431cfc60730SJessica Paquette
matchLoadOrCombine(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)3432cfc60730SJessica Paquette bool CombinerHelper::matchLoadOrCombine(
3433cfc60730SJessica Paquette MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
3434cfc60730SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_OR);
3435cfc60730SJessica Paquette MachineFunction &MF = *MI.getMF();
3436cfc60730SJessica Paquette // Assuming a little-endian target, transform:
3437cfc60730SJessica Paquette // s8 *a = ...
3438cfc60730SJessica Paquette // s32 val = a[0] | (a[1] << 8) | (a[2] << 16) | (a[3] << 24)
3439cfc60730SJessica Paquette // =>
3440cfc60730SJessica Paquette // s32 val = *((i32)a)
3441cfc60730SJessica Paquette //
3442cfc60730SJessica Paquette // s8 *a = ...
3443cfc60730SJessica Paquette // s32 val = (a[0] << 24) | (a[1] << 16) | (a[2] << 8) | a[3]
3444cfc60730SJessica Paquette // =>
3445cfc60730SJessica Paquette // s32 val = BSWAP(*((s32)a))
3446cfc60730SJessica Paquette Register Dst = MI.getOperand(0).getReg();
3447cfc60730SJessica Paquette LLT Ty = MRI.getType(Dst);
3448cfc60730SJessica Paquette if (Ty.isVector())
3449cfc60730SJessica Paquette return false;
3450cfc60730SJessica Paquette
3451cfc60730SJessica Paquette // We need to combine at least two loads into this type. Since the smallest
3452cfc60730SJessica Paquette // possible load is into a byte, we need at least a 16-bit wide type.
3453cfc60730SJessica Paquette const unsigned WideMemSizeInBits = Ty.getSizeInBits();
3454cfc60730SJessica Paquette if (WideMemSizeInBits < 16 || WideMemSizeInBits % 8 != 0)
3455cfc60730SJessica Paquette return false;
3456cfc60730SJessica Paquette
3457cfc60730SJessica Paquette // Match a collection of non-OR instructions in the pattern.
3458cfc60730SJessica Paquette auto RegsToVisit = findCandidatesForLoadOrCombine(&MI);
3459cfc60730SJessica Paquette if (!RegsToVisit)
3460cfc60730SJessica Paquette return false;
3461cfc60730SJessica Paquette
3462cfc60730SJessica Paquette // We have a collection of non-OR instructions. Figure out how wide each of
3463cfc60730SJessica Paquette // the small loads should be based off of the number of potential loads we
3464cfc60730SJessica Paquette // found.
3465cfc60730SJessica Paquette const unsigned NarrowMemSizeInBits = WideMemSizeInBits / RegsToVisit->size();
3466cfc60730SJessica Paquette if (NarrowMemSizeInBits % 8 != 0)
3467cfc60730SJessica Paquette return false;
3468cfc60730SJessica Paquette
3469cfc60730SJessica Paquette // Check if each register feeding into each OR is a load from the same
3470cfc60730SJessica Paquette // base pointer + some arithmetic.
3471cfc60730SJessica Paquette //
3472cfc60730SJessica Paquette // e.g. a[0], a[1] << 8, a[2] << 16, etc.
3473cfc60730SJessica Paquette //
3474cfc60730SJessica Paquette // Also verify that each of these ends up putting a[i] into the same memory
3475cfc60730SJessica Paquette // offset as a load into a wide type would.
3476cfc60730SJessica Paquette SmallDenseMap<int64_t, int64_t, 8> MemOffset2Idx;
347703cdb522SAmara Emerson GZExtLoad *LowestIdxLoad, *LatestLoad;
3478cfc60730SJessica Paquette int64_t LowestIdx;
3479cfc60730SJessica Paquette auto MaybeLoadInfo = findLoadOffsetsForLoadOrCombine(
3480cfc60730SJessica Paquette MemOffset2Idx, *RegsToVisit, NarrowMemSizeInBits);
3481cfc60730SJessica Paquette if (!MaybeLoadInfo)
3482cfc60730SJessica Paquette return false;
348303cdb522SAmara Emerson std::tie(LowestIdxLoad, LowestIdx, LatestLoad) = *MaybeLoadInfo;
3484cfc60730SJessica Paquette
3485cfc60730SJessica Paquette // We have a bunch of loads being OR'd together. Using the addresses + offsets
3486cfc60730SJessica Paquette // we found before, check if this corresponds to a big or little endian byte
3487cfc60730SJessica Paquette // pattern. If it does, then we can represent it using a load + possibly a
3488cfc60730SJessica Paquette // BSWAP.
3489cfc60730SJessica Paquette bool IsBigEndianTarget = MF.getDataLayout().isBigEndian();
3490cfc60730SJessica Paquette Optional<bool> IsBigEndian = isBigEndian(MemOffset2Idx, LowestIdx);
3491e0e687a6SKazu Hirata if (!IsBigEndian)
3492cfc60730SJessica Paquette return false;
3493cfc60730SJessica Paquette bool NeedsBSwap = IsBigEndianTarget != *IsBigEndian;
3494cfc60730SJessica Paquette if (NeedsBSwap && !isLegalOrBeforeLegalizer({TargetOpcode::G_BSWAP, {Ty}}))
3495cfc60730SJessica Paquette return false;
3496cfc60730SJessica Paquette
3497cfc60730SJessica Paquette // Make sure that the load from the lowest index produces offset 0 in the
3498cfc60730SJessica Paquette // final value.
3499cfc60730SJessica Paquette //
3500cfc60730SJessica Paquette // This ensures that we won't combine something like this:
3501cfc60730SJessica Paquette //
3502cfc60730SJessica Paquette // load x[i] -> byte 2
3503cfc60730SJessica Paquette // load x[i+1] -> byte 0 ---> wide_load x[i]
3504cfc60730SJessica Paquette // load x[i+2] -> byte 1
3505cfc60730SJessica Paquette const unsigned NumLoadsInTy = WideMemSizeInBits / NarrowMemSizeInBits;
3506cfc60730SJessica Paquette const unsigned ZeroByteOffset =
3507cfc60730SJessica Paquette *IsBigEndian
3508cfc60730SJessica Paquette ? bigEndianByteAt(NumLoadsInTy, 0)
3509cfc60730SJessica Paquette : littleEndianByteAt(NumLoadsInTy, 0);
3510cfc60730SJessica Paquette auto ZeroOffsetIdx = MemOffset2Idx.find(ZeroByteOffset);
3511cfc60730SJessica Paquette if (ZeroOffsetIdx == MemOffset2Idx.end() ||
3512cfc60730SJessica Paquette ZeroOffsetIdx->second != LowestIdx)
3513cfc60730SJessica Paquette return false;
3514cfc60730SJessica Paquette
3515cfc60730SJessica Paquette // We wil reuse the pointer from the load which ends up at byte offset 0. It
3516cfc60730SJessica Paquette // may not use index 0.
35174e3dc6b8SAmara Emerson Register Ptr = LowestIdxLoad->getPointerReg();
35184e3dc6b8SAmara Emerson const MachineMemOperand &MMO = LowestIdxLoad->getMMO();
351990d52987SKonstantin Schwarz LegalityQuery::MemDesc MMDesc(MMO);
352028f2f662SMatt Arsenault MMDesc.MemoryTy = Ty;
3521cfc60730SJessica Paquette if (!isLegalOrBeforeLegalizer(
3522cfc60730SJessica Paquette {TargetOpcode::G_LOAD, {Ty, MRI.getType(Ptr)}, {MMDesc}}))
3523cfc60730SJessica Paquette return false;
3524cfc60730SJessica Paquette auto PtrInfo = MMO.getPointerInfo();
3525cfc60730SJessica Paquette auto *NewMMO = MF.getMachineMemOperand(&MMO, PtrInfo, WideMemSizeInBits / 8);
3526cfc60730SJessica Paquette
3527cfc60730SJessica Paquette // Load must be allowed and fast on the target.
3528cfc60730SJessica Paquette LLVMContext &C = MF.getFunction().getContext();
3529cfc60730SJessica Paquette auto &DL = MF.getDataLayout();
3530cfc60730SJessica Paquette bool Fast = false;
3531cfc60730SJessica Paquette if (!getTargetLowering().allowsMemoryAccess(C, DL, Ty, *NewMMO, &Fast) ||
3532cfc60730SJessica Paquette !Fast)
3533cfc60730SJessica Paquette return false;
3534cfc60730SJessica Paquette
3535cfc60730SJessica Paquette MatchInfo = [=](MachineIRBuilder &MIB) {
353603cdb522SAmara Emerson MIB.setInstrAndDebugLoc(*LatestLoad);
3537cfc60730SJessica Paquette Register LoadDst = NeedsBSwap ? MRI.cloneVirtualRegister(Dst) : Dst;
3538cfc60730SJessica Paquette MIB.buildLoad(LoadDst, Ptr, *NewMMO);
3539cfc60730SJessica Paquette if (NeedsBSwap)
3540cfc60730SJessica Paquette MIB.buildBSwap(Dst, LoadDst);
3541cfc60730SJessica Paquette };
3542cfc60730SJessica Paquette return true;
3543cfc60730SJessica Paquette }
3544cfc60730SJessica Paquette
3545eae44c8aSAmara Emerson /// Check if the store \p Store is a truncstore that can be merged. That is,
3546eae44c8aSAmara Emerson /// it's a store of a shifted value of \p SrcVal. If \p SrcVal is an empty
3547eae44c8aSAmara Emerson /// Register then it does not need to match and SrcVal is set to the source
3548eae44c8aSAmara Emerson /// value found.
3549eae44c8aSAmara Emerson /// On match, returns the start byte offset of the \p SrcVal that is being
3550eae44c8aSAmara Emerson /// stored.
getTruncStoreByteOffset(GStore & Store,Register & SrcVal,MachineRegisterInfo & MRI)3551eae44c8aSAmara Emerson static Optional<int64_t> getTruncStoreByteOffset(GStore &Store, Register &SrcVal,
3552eae44c8aSAmara Emerson MachineRegisterInfo &MRI) {
3553eae44c8aSAmara Emerson Register TruncVal;
3554eae44c8aSAmara Emerson if (!mi_match(Store.getValueReg(), MRI, m_GTrunc(m_Reg(TruncVal))))
3555eae44c8aSAmara Emerson return None;
3556eae44c8aSAmara Emerson
3557eae44c8aSAmara Emerson // The shift amount must be a constant multiple of the narrow type.
3558eae44c8aSAmara Emerson // It is translated to the offset address in the wide source value "y".
3559eae44c8aSAmara Emerson //
3560eae44c8aSAmara Emerson // x = G_LSHR y, ShiftAmtC
3561eae44c8aSAmara Emerson // s8 z = G_TRUNC x
3562eae44c8aSAmara Emerson // store z, ...
3563eae44c8aSAmara Emerson Register FoundSrcVal;
3564eae44c8aSAmara Emerson int64_t ShiftAmt;
3565eae44c8aSAmara Emerson if (!mi_match(TruncVal, MRI,
3566eae44c8aSAmara Emerson m_any_of(m_GLShr(m_Reg(FoundSrcVal), m_ICst(ShiftAmt)),
3567eae44c8aSAmara Emerson m_GAShr(m_Reg(FoundSrcVal), m_ICst(ShiftAmt))))) {
3568eae44c8aSAmara Emerson if (!SrcVal.isValid() || TruncVal == SrcVal) {
3569eae44c8aSAmara Emerson if (!SrcVal.isValid())
3570eae44c8aSAmara Emerson SrcVal = TruncVal;
3571eae44c8aSAmara Emerson return 0; // If it's the lowest index store.
3572eae44c8aSAmara Emerson }
3573eae44c8aSAmara Emerson return None;
3574eae44c8aSAmara Emerson }
3575eae44c8aSAmara Emerson
3576eae44c8aSAmara Emerson unsigned NarrowBits = Store.getMMO().getMemoryType().getScalarSizeInBits();
3577eae44c8aSAmara Emerson if (ShiftAmt % NarrowBits!= 0)
3578eae44c8aSAmara Emerson return None;
3579eae44c8aSAmara Emerson const unsigned Offset = ShiftAmt / NarrowBits;
3580eae44c8aSAmara Emerson
3581eae44c8aSAmara Emerson if (SrcVal.isValid() && FoundSrcVal != SrcVal)
3582eae44c8aSAmara Emerson return None;
3583eae44c8aSAmara Emerson
3584eae44c8aSAmara Emerson if (!SrcVal.isValid())
3585eae44c8aSAmara Emerson SrcVal = FoundSrcVal;
3586eae44c8aSAmara Emerson else if (MRI.getType(SrcVal) != MRI.getType(FoundSrcVal))
3587eae44c8aSAmara Emerson return None;
3588eae44c8aSAmara Emerson return Offset;
3589eae44c8aSAmara Emerson }
3590eae44c8aSAmara Emerson
3591eae44c8aSAmara Emerson /// Match a pattern where a wide type scalar value is stored by several narrow
3592eae44c8aSAmara Emerson /// stores. Fold it into a single store or a BSWAP and a store if the targets
3593eae44c8aSAmara Emerson /// supports it.
3594eae44c8aSAmara Emerson ///
3595eae44c8aSAmara Emerson /// Assuming little endian target:
3596eae44c8aSAmara Emerson /// i8 *p = ...
3597eae44c8aSAmara Emerson /// i32 val = ...
3598eae44c8aSAmara Emerson /// p[0] = (val >> 0) & 0xFF;
3599eae44c8aSAmara Emerson /// p[1] = (val >> 8) & 0xFF;
3600eae44c8aSAmara Emerson /// p[2] = (val >> 16) & 0xFF;
3601eae44c8aSAmara Emerson /// p[3] = (val >> 24) & 0xFF;
3602eae44c8aSAmara Emerson /// =>
3603eae44c8aSAmara Emerson /// *((i32)p) = val;
3604eae44c8aSAmara Emerson ///
3605eae44c8aSAmara Emerson /// i8 *p = ...
3606eae44c8aSAmara Emerson /// i32 val = ...
3607eae44c8aSAmara Emerson /// p[0] = (val >> 24) & 0xFF;
3608eae44c8aSAmara Emerson /// p[1] = (val >> 16) & 0xFF;
3609eae44c8aSAmara Emerson /// p[2] = (val >> 8) & 0xFF;
3610eae44c8aSAmara Emerson /// p[3] = (val >> 0) & 0xFF;
3611eae44c8aSAmara Emerson /// =>
3612eae44c8aSAmara Emerson /// *((i32)p) = BSWAP(val);
matchTruncStoreMerge(MachineInstr & MI,MergeTruncStoresInfo & MatchInfo)3613eae44c8aSAmara Emerson bool CombinerHelper::matchTruncStoreMerge(MachineInstr &MI,
3614eae44c8aSAmara Emerson MergeTruncStoresInfo &MatchInfo) {
3615eae44c8aSAmara Emerson auto &StoreMI = cast<GStore>(MI);
3616eae44c8aSAmara Emerson LLT MemTy = StoreMI.getMMO().getMemoryType();
3617eae44c8aSAmara Emerson
3618eae44c8aSAmara Emerson // We only handle merging simple stores of 1-4 bytes.
3619eae44c8aSAmara Emerson if (!MemTy.isScalar())
3620eae44c8aSAmara Emerson return false;
3621eae44c8aSAmara Emerson switch (MemTy.getSizeInBits()) {
3622eae44c8aSAmara Emerson case 8:
3623eae44c8aSAmara Emerson case 16:
3624eae44c8aSAmara Emerson case 32:
3625eae44c8aSAmara Emerson break;
3626eae44c8aSAmara Emerson default:
3627eae44c8aSAmara Emerson return false;
3628eae44c8aSAmara Emerson }
3629eae44c8aSAmara Emerson if (!StoreMI.isSimple())
3630eae44c8aSAmara Emerson return false;
3631eae44c8aSAmara Emerson
3632eae44c8aSAmara Emerson // We do a simple search for mergeable stores prior to this one.
3633eae44c8aSAmara Emerson // Any potential alias hazard along the way terminates the search.
3634eae44c8aSAmara Emerson SmallVector<GStore *> FoundStores;
3635eae44c8aSAmara Emerson
3636eae44c8aSAmara Emerson // We're looking for:
3637eae44c8aSAmara Emerson // 1) a (store(trunc(...)))
3638eae44c8aSAmara Emerson // 2) of an LSHR/ASHR of a single wide value, by the appropriate shift to get
3639eae44c8aSAmara Emerson // the partial value stored.
3640eae44c8aSAmara Emerson // 3) where the offsets form either a little or big-endian sequence.
3641eae44c8aSAmara Emerson
3642eae44c8aSAmara Emerson auto &LastStore = StoreMI;
3643eae44c8aSAmara Emerson
3644eae44c8aSAmara Emerson // The single base pointer that all stores must use.
3645eae44c8aSAmara Emerson Register BaseReg;
3646eae44c8aSAmara Emerson int64_t LastOffset;
3647eae44c8aSAmara Emerson if (!mi_match(LastStore.getPointerReg(), MRI,
3648eae44c8aSAmara Emerson m_GPtrAdd(m_Reg(BaseReg), m_ICst(LastOffset)))) {
3649eae44c8aSAmara Emerson BaseReg = LastStore.getPointerReg();
3650eae44c8aSAmara Emerson LastOffset = 0;
3651eae44c8aSAmara Emerson }
3652eae44c8aSAmara Emerson
3653eae44c8aSAmara Emerson GStore *LowestIdxStore = &LastStore;
3654eae44c8aSAmara Emerson int64_t LowestIdxOffset = LastOffset;
3655eae44c8aSAmara Emerson
3656eae44c8aSAmara Emerson Register WideSrcVal;
3657eae44c8aSAmara Emerson auto LowestShiftAmt = getTruncStoreByteOffset(LastStore, WideSrcVal, MRI);
3658eae44c8aSAmara Emerson if (!LowestShiftAmt)
3659eae44c8aSAmara Emerson return false; // Didn't match a trunc.
3660eae44c8aSAmara Emerson assert(WideSrcVal.isValid());
3661eae44c8aSAmara Emerson
3662eae44c8aSAmara Emerson LLT WideStoreTy = MRI.getType(WideSrcVal);
3663f95d9c95SAmara Emerson // The wide type might not be a multiple of the memory type, e.g. s48 and s32.
3664f95d9c95SAmara Emerson if (WideStoreTy.getSizeInBits() % MemTy.getSizeInBits() != 0)
3665f95d9c95SAmara Emerson return false;
3666eae44c8aSAmara Emerson const unsigned NumStoresRequired =
3667eae44c8aSAmara Emerson WideStoreTy.getSizeInBits() / MemTy.getSizeInBits();
3668eae44c8aSAmara Emerson
3669eae44c8aSAmara Emerson SmallVector<int64_t, 8> OffsetMap(NumStoresRequired, INT64_MAX);
3670eae44c8aSAmara Emerson OffsetMap[*LowestShiftAmt] = LastOffset;
3671eae44c8aSAmara Emerson FoundStores.emplace_back(&LastStore);
3672eae44c8aSAmara Emerson
3673eae44c8aSAmara Emerson // Search the block up for more stores.
3674eae44c8aSAmara Emerson // We use a search threshold of 10 instructions here because the combiner
3675eae44c8aSAmara Emerson // works top-down within a block, and we don't want to search an unbounded
3676eae44c8aSAmara Emerson // number of predecessor instructions trying to find matching stores.
3677eae44c8aSAmara Emerson // If we moved this optimization into a separate pass then we could probably
3678eae44c8aSAmara Emerson // use a more efficient search without having a hard-coded threshold.
3679eae44c8aSAmara Emerson const int MaxInstsToCheck = 10;
3680eae44c8aSAmara Emerson int NumInstsChecked = 0;
3681eae44c8aSAmara Emerson for (auto II = ++LastStore.getReverseIterator();
3682eae44c8aSAmara Emerson II != LastStore.getParent()->rend() && NumInstsChecked < MaxInstsToCheck;
3683eae44c8aSAmara Emerson ++II) {
3684eae44c8aSAmara Emerson NumInstsChecked++;
3685eae44c8aSAmara Emerson GStore *NewStore;
3686eae44c8aSAmara Emerson if ((NewStore = dyn_cast<GStore>(&*II))) {
3687eae44c8aSAmara Emerson if (NewStore->getMMO().getMemoryType() != MemTy || !NewStore->isSimple())
3688eae44c8aSAmara Emerson break;
3689eae44c8aSAmara Emerson } else if (II->isLoadFoldBarrier() || II->mayLoad()) {
3690eae44c8aSAmara Emerson break;
3691eae44c8aSAmara Emerson } else {
3692eae44c8aSAmara Emerson continue; // This is a safe instruction we can look past.
3693eae44c8aSAmara Emerson }
3694eae44c8aSAmara Emerson
3695eae44c8aSAmara Emerson Register NewBaseReg;
3696eae44c8aSAmara Emerson int64_t MemOffset;
3697eae44c8aSAmara Emerson // Check we're storing to the same base + some offset.
3698eae44c8aSAmara Emerson if (!mi_match(NewStore->getPointerReg(), MRI,
3699eae44c8aSAmara Emerson m_GPtrAdd(m_Reg(NewBaseReg), m_ICst(MemOffset)))) {
3700eae44c8aSAmara Emerson NewBaseReg = NewStore->getPointerReg();
3701eae44c8aSAmara Emerson MemOffset = 0;
3702eae44c8aSAmara Emerson }
3703eae44c8aSAmara Emerson if (BaseReg != NewBaseReg)
3704eae44c8aSAmara Emerson break;
3705eae44c8aSAmara Emerson
3706eae44c8aSAmara Emerson auto ShiftByteOffset = getTruncStoreByteOffset(*NewStore, WideSrcVal, MRI);
3707eae44c8aSAmara Emerson if (!ShiftByteOffset)
3708eae44c8aSAmara Emerson break;
3709eae44c8aSAmara Emerson if (MemOffset < LowestIdxOffset) {
3710eae44c8aSAmara Emerson LowestIdxOffset = MemOffset;
3711eae44c8aSAmara Emerson LowestIdxStore = NewStore;
3712eae44c8aSAmara Emerson }
3713eae44c8aSAmara Emerson
3714eae44c8aSAmara Emerson // Map the offset in the store and the offset in the combined value, and
3715eae44c8aSAmara Emerson // early return if it has been set before.
3716eae44c8aSAmara Emerson if (*ShiftByteOffset < 0 || *ShiftByteOffset >= NumStoresRequired ||
3717eae44c8aSAmara Emerson OffsetMap[*ShiftByteOffset] != INT64_MAX)
3718eae44c8aSAmara Emerson break;
3719eae44c8aSAmara Emerson OffsetMap[*ShiftByteOffset] = MemOffset;
3720eae44c8aSAmara Emerson
3721eae44c8aSAmara Emerson FoundStores.emplace_back(NewStore);
3722eae44c8aSAmara Emerson // Reset counter since we've found a matching inst.
3723eae44c8aSAmara Emerson NumInstsChecked = 0;
3724eae44c8aSAmara Emerson if (FoundStores.size() == NumStoresRequired)
3725eae44c8aSAmara Emerson break;
3726eae44c8aSAmara Emerson }
3727eae44c8aSAmara Emerson
3728eae44c8aSAmara Emerson if (FoundStores.size() != NumStoresRequired) {
3729eae44c8aSAmara Emerson return false;
3730eae44c8aSAmara Emerson }
3731eae44c8aSAmara Emerson
3732eae44c8aSAmara Emerson const auto &DL = LastStore.getMF()->getDataLayout();
3733eae44c8aSAmara Emerson auto &C = LastStore.getMF()->getFunction().getContext();
3734eae44c8aSAmara Emerson // Check that a store of the wide type is both allowed and fast on the target
3735eae44c8aSAmara Emerson bool Fast = false;
3736eae44c8aSAmara Emerson bool Allowed = getTargetLowering().allowsMemoryAccess(
3737eae44c8aSAmara Emerson C, DL, WideStoreTy, LowestIdxStore->getMMO(), &Fast);
3738eae44c8aSAmara Emerson if (!Allowed || !Fast)
3739eae44c8aSAmara Emerson return false;
3740eae44c8aSAmara Emerson
3741eae44c8aSAmara Emerson // Check if the pieces of the value are going to the expected places in memory
3742eae44c8aSAmara Emerson // to merge the stores.
3743eae44c8aSAmara Emerson unsigned NarrowBits = MemTy.getScalarSizeInBits();
3744eae44c8aSAmara Emerson auto checkOffsets = [&](bool MatchLittleEndian) {
3745eae44c8aSAmara Emerson if (MatchLittleEndian) {
3746eae44c8aSAmara Emerson for (unsigned i = 0; i != NumStoresRequired; ++i)
3747eae44c8aSAmara Emerson if (OffsetMap[i] != i * (NarrowBits / 8) + LowestIdxOffset)
3748eae44c8aSAmara Emerson return false;
3749eae44c8aSAmara Emerson } else { // MatchBigEndian by reversing loop counter.
3750eae44c8aSAmara Emerson for (unsigned i = 0, j = NumStoresRequired - 1; i != NumStoresRequired;
3751eae44c8aSAmara Emerson ++i, --j)
3752eae44c8aSAmara Emerson if (OffsetMap[j] != i * (NarrowBits / 8) + LowestIdxOffset)
3753eae44c8aSAmara Emerson return false;
3754eae44c8aSAmara Emerson }
3755eae44c8aSAmara Emerson return true;
3756eae44c8aSAmara Emerson };
3757eae44c8aSAmara Emerson
3758eae44c8aSAmara Emerson // Check if the offsets line up for the native data layout of this target.
3759eae44c8aSAmara Emerson bool NeedBswap = false;
3760eae44c8aSAmara Emerson bool NeedRotate = false;
3761eae44c8aSAmara Emerson if (!checkOffsets(DL.isLittleEndian())) {
3762eae44c8aSAmara Emerson // Special-case: check if byte offsets line up for the opposite endian.
3763eae44c8aSAmara Emerson if (NarrowBits == 8 && checkOffsets(DL.isBigEndian()))
3764eae44c8aSAmara Emerson NeedBswap = true;
3765eae44c8aSAmara Emerson else if (NumStoresRequired == 2 && checkOffsets(DL.isBigEndian()))
3766eae44c8aSAmara Emerson NeedRotate = true;
3767eae44c8aSAmara Emerson else
3768eae44c8aSAmara Emerson return false;
3769eae44c8aSAmara Emerson }
3770eae44c8aSAmara Emerson
3771eae44c8aSAmara Emerson if (NeedBswap &&
3772eae44c8aSAmara Emerson !isLegalOrBeforeLegalizer({TargetOpcode::G_BSWAP, {WideStoreTy}}))
3773eae44c8aSAmara Emerson return false;
3774eae44c8aSAmara Emerson if (NeedRotate &&
3775eae44c8aSAmara Emerson !isLegalOrBeforeLegalizer({TargetOpcode::G_ROTR, {WideStoreTy}}))
3776eae44c8aSAmara Emerson return false;
3777eae44c8aSAmara Emerson
3778eae44c8aSAmara Emerson MatchInfo.NeedBSwap = NeedBswap;
3779eae44c8aSAmara Emerson MatchInfo.NeedRotate = NeedRotate;
3780eae44c8aSAmara Emerson MatchInfo.LowestIdxStore = LowestIdxStore;
3781eae44c8aSAmara Emerson MatchInfo.WideSrcVal = WideSrcVal;
3782eae44c8aSAmara Emerson MatchInfo.FoundStores = std::move(FoundStores);
3783eae44c8aSAmara Emerson return true;
3784eae44c8aSAmara Emerson }
3785eae44c8aSAmara Emerson
applyTruncStoreMerge(MachineInstr & MI,MergeTruncStoresInfo & MatchInfo)3786eae44c8aSAmara Emerson void CombinerHelper::applyTruncStoreMerge(MachineInstr &MI,
3787eae44c8aSAmara Emerson MergeTruncStoresInfo &MatchInfo) {
3788eae44c8aSAmara Emerson
3789eae44c8aSAmara Emerson Builder.setInstrAndDebugLoc(MI);
3790eae44c8aSAmara Emerson Register WideSrcVal = MatchInfo.WideSrcVal;
3791eae44c8aSAmara Emerson LLT WideStoreTy = MRI.getType(WideSrcVal);
3792eae44c8aSAmara Emerson
3793eae44c8aSAmara Emerson if (MatchInfo.NeedBSwap) {
3794eae44c8aSAmara Emerson WideSrcVal = Builder.buildBSwap(WideStoreTy, WideSrcVal).getReg(0);
3795eae44c8aSAmara Emerson } else if (MatchInfo.NeedRotate) {
3796eae44c8aSAmara Emerson assert(WideStoreTy.getSizeInBits() % 2 == 0 &&
3797eae44c8aSAmara Emerson "Unexpected type for rotate");
3798eae44c8aSAmara Emerson auto RotAmt =
3799eae44c8aSAmara Emerson Builder.buildConstant(WideStoreTy, WideStoreTy.getSizeInBits() / 2);
3800eae44c8aSAmara Emerson WideSrcVal =
3801eae44c8aSAmara Emerson Builder.buildRotateRight(WideStoreTy, WideSrcVal, RotAmt).getReg(0);
3802eae44c8aSAmara Emerson }
3803eae44c8aSAmara Emerson
3804eae44c8aSAmara Emerson Builder.buildStore(WideSrcVal, MatchInfo.LowestIdxStore->getPointerReg(),
3805eae44c8aSAmara Emerson MatchInfo.LowestIdxStore->getMMO().getPointerInfo(),
3806eae44c8aSAmara Emerson MatchInfo.LowestIdxStore->getMMO().getAlign());
3807eae44c8aSAmara Emerson
3808eae44c8aSAmara Emerson // Erase the old stores.
3809eae44c8aSAmara Emerson for (auto *ST : MatchInfo.FoundStores)
3810eae44c8aSAmara Emerson ST->eraseFromParent();
3811eae44c8aSAmara Emerson }
3812eae44c8aSAmara Emerson
matchExtendThroughPhis(MachineInstr & MI,MachineInstr * & ExtMI)38135d6d9b63SAmara Emerson bool CombinerHelper::matchExtendThroughPhis(MachineInstr &MI,
38145d6d9b63SAmara Emerson MachineInstr *&ExtMI) {
38155d6d9b63SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_PHI);
38165d6d9b63SAmara Emerson
38175d6d9b63SAmara Emerson Register DstReg = MI.getOperand(0).getReg();
38185d6d9b63SAmara Emerson
38195d6d9b63SAmara Emerson // TODO: Extending a vector may be expensive, don't do this until heuristics
38205d6d9b63SAmara Emerson // are better.
38215d6d9b63SAmara Emerson if (MRI.getType(DstReg).isVector())
38225d6d9b63SAmara Emerson return false;
38235d6d9b63SAmara Emerson
38245d6d9b63SAmara Emerson // Try to match a phi, whose only use is an extend.
38255d6d9b63SAmara Emerson if (!MRI.hasOneNonDBGUse(DstReg))
38265d6d9b63SAmara Emerson return false;
38275d6d9b63SAmara Emerson ExtMI = &*MRI.use_instr_nodbg_begin(DstReg);
38285d6d9b63SAmara Emerson switch (ExtMI->getOpcode()) {
38295d6d9b63SAmara Emerson case TargetOpcode::G_ANYEXT:
38305d6d9b63SAmara Emerson return true; // G_ANYEXT is usually free.
38315d6d9b63SAmara Emerson case TargetOpcode::G_ZEXT:
38325d6d9b63SAmara Emerson case TargetOpcode::G_SEXT:
38335d6d9b63SAmara Emerson break;
38345d6d9b63SAmara Emerson default:
38355d6d9b63SAmara Emerson return false;
38365d6d9b63SAmara Emerson }
38375d6d9b63SAmara Emerson
38385d6d9b63SAmara Emerson // If the target is likely to fold this extend away, don't propagate.
38395d6d9b63SAmara Emerson if (Builder.getTII().isExtendLikelyToBeFolded(*ExtMI, MRI))
38405d6d9b63SAmara Emerson return false;
38415d6d9b63SAmara Emerson
38425d6d9b63SAmara Emerson // We don't want to propagate the extends unless there's a good chance that
38435d6d9b63SAmara Emerson // they'll be optimized in some way.
38445d6d9b63SAmara Emerson // Collect the unique incoming values.
38455d6d9b63SAmara Emerson SmallPtrSet<MachineInstr *, 4> InSrcs;
38465d6d9b63SAmara Emerson for (unsigned Idx = 1; Idx < MI.getNumOperands(); Idx += 2) {
38475d6d9b63SAmara Emerson auto *DefMI = getDefIgnoringCopies(MI.getOperand(Idx).getReg(), MRI);
38485d6d9b63SAmara Emerson switch (DefMI->getOpcode()) {
38495d6d9b63SAmara Emerson case TargetOpcode::G_LOAD:
38505d6d9b63SAmara Emerson case TargetOpcode::G_TRUNC:
38515d6d9b63SAmara Emerson case TargetOpcode::G_SEXT:
38525d6d9b63SAmara Emerson case TargetOpcode::G_ZEXT:
38535d6d9b63SAmara Emerson case TargetOpcode::G_ANYEXT:
38545d6d9b63SAmara Emerson case TargetOpcode::G_CONSTANT:
38555d6d9b63SAmara Emerson InSrcs.insert(getDefIgnoringCopies(MI.getOperand(Idx).getReg(), MRI));
38565d6d9b63SAmara Emerson // Don't try to propagate if there are too many places to create new
38575d6d9b63SAmara Emerson // extends, chances are it'll increase code size.
38585d6d9b63SAmara Emerson if (InSrcs.size() > 2)
38595d6d9b63SAmara Emerson return false;
38605d6d9b63SAmara Emerson break;
38615d6d9b63SAmara Emerson default:
38625d6d9b63SAmara Emerson return false;
38635d6d9b63SAmara Emerson }
38645d6d9b63SAmara Emerson }
38655d6d9b63SAmara Emerson return true;
38665d6d9b63SAmara Emerson }
38675d6d9b63SAmara Emerson
applyExtendThroughPhis(MachineInstr & MI,MachineInstr * & ExtMI)3868f30251f5SAmara Emerson void CombinerHelper::applyExtendThroughPhis(MachineInstr &MI,
38695d6d9b63SAmara Emerson MachineInstr *&ExtMI) {
38705d6d9b63SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_PHI);
38715d6d9b63SAmara Emerson Register DstReg = ExtMI->getOperand(0).getReg();
38725d6d9b63SAmara Emerson LLT ExtTy = MRI.getType(DstReg);
38735d6d9b63SAmara Emerson
38745d6d9b63SAmara Emerson // Propagate the extension into the block of each incoming reg's block.
38755d6d9b63SAmara Emerson // Use a SetVector here because PHIs can have duplicate edges, and we want
38765d6d9b63SAmara Emerson // deterministic iteration order.
38775d6d9b63SAmara Emerson SmallSetVector<MachineInstr *, 8> SrcMIs;
38785d6d9b63SAmara Emerson SmallDenseMap<MachineInstr *, MachineInstr *, 8> OldToNewSrcMap;
38795d6d9b63SAmara Emerson for (unsigned SrcIdx = 1; SrcIdx < MI.getNumOperands(); SrcIdx += 2) {
38805d6d9b63SAmara Emerson auto *SrcMI = MRI.getVRegDef(MI.getOperand(SrcIdx).getReg());
38815d6d9b63SAmara Emerson if (!SrcMIs.insert(SrcMI))
38825d6d9b63SAmara Emerson continue;
38835d6d9b63SAmara Emerson
38845d6d9b63SAmara Emerson // Build an extend after each src inst.
38855d6d9b63SAmara Emerson auto *MBB = SrcMI->getParent();
38865d6d9b63SAmara Emerson MachineBasicBlock::iterator InsertPt = ++SrcMI->getIterator();
38875d6d9b63SAmara Emerson if (InsertPt != MBB->end() && InsertPt->isPHI())
38885d6d9b63SAmara Emerson InsertPt = MBB->getFirstNonPHI();
38895d6d9b63SAmara Emerson
38905d6d9b63SAmara Emerson Builder.setInsertPt(*SrcMI->getParent(), InsertPt);
38915d6d9b63SAmara Emerson Builder.setDebugLoc(MI.getDebugLoc());
38925d6d9b63SAmara Emerson auto NewExt = Builder.buildExtOrTrunc(ExtMI->getOpcode(), ExtTy,
38935d6d9b63SAmara Emerson SrcMI->getOperand(0).getReg());
38945d6d9b63SAmara Emerson OldToNewSrcMap[SrcMI] = NewExt;
38955d6d9b63SAmara Emerson }
38965d6d9b63SAmara Emerson
38975d6d9b63SAmara Emerson // Create a new phi with the extended inputs.
38985d6d9b63SAmara Emerson Builder.setInstrAndDebugLoc(MI);
38995d6d9b63SAmara Emerson auto NewPhi = Builder.buildInstrNoInsert(TargetOpcode::G_PHI);
39005d6d9b63SAmara Emerson NewPhi.addDef(DstReg);
3901259cd6f8SKazu Hirata for (const MachineOperand &MO : llvm::drop_begin(MI.operands())) {
39025d6d9b63SAmara Emerson if (!MO.isReg()) {
39035d6d9b63SAmara Emerson NewPhi.addMBB(MO.getMBB());
39045d6d9b63SAmara Emerson continue;
39055d6d9b63SAmara Emerson }
39065d6d9b63SAmara Emerson auto *NewSrc = OldToNewSrcMap[MRI.getVRegDef(MO.getReg())];
39075d6d9b63SAmara Emerson NewPhi.addUse(NewSrc->getOperand(0).getReg());
39085d6d9b63SAmara Emerson }
39095d6d9b63SAmara Emerson Builder.insertInstr(NewPhi);
39105d6d9b63SAmara Emerson ExtMI->eraseFromParent();
39115d6d9b63SAmara Emerson }
39125d6d9b63SAmara Emerson
matchExtractVecEltBuildVec(MachineInstr & MI,Register & Reg)3913e60ab721SAmara Emerson bool CombinerHelper::matchExtractVecEltBuildVec(MachineInstr &MI,
3914e60ab721SAmara Emerson Register &Reg) {
3915e60ab721SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_EXTRACT_VECTOR_ELT);
3916e60ab721SAmara Emerson // If we have a constant index, look for a G_BUILD_VECTOR source
3917e60ab721SAmara Emerson // and find the source register that the index maps to.
3918e60ab721SAmara Emerson Register SrcVec = MI.getOperand(1).getReg();
3919e60ab721SAmara Emerson LLT SrcTy = MRI.getType(SrcVec);
3920e60ab721SAmara Emerson if (!isLegalOrBeforeLegalizer(
3921e60ab721SAmara Emerson {TargetOpcode::G_BUILD_VECTOR, {SrcTy, SrcTy.getElementType()}}))
3922e60ab721SAmara Emerson return false;
3923e60ab721SAmara Emerson
3924d477a7c2SPetar Avramovic auto Cst = getIConstantVRegValWithLookThrough(MI.getOperand(2).getReg(), MRI);
3925e60ab721SAmara Emerson if (!Cst || Cst->Value.getZExtValue() >= SrcTy.getNumElements())
3926e60ab721SAmara Emerson return false;
3927e60ab721SAmara Emerson
3928e60ab721SAmara Emerson unsigned VecIdx = Cst->Value.getZExtValue();
3929e60ab721SAmara Emerson MachineInstr *BuildVecMI =
3930e60ab721SAmara Emerson getOpcodeDef(TargetOpcode::G_BUILD_VECTOR, SrcVec, MRI);
3931e60ab721SAmara Emerson if (!BuildVecMI) {
3932e60ab721SAmara Emerson BuildVecMI = getOpcodeDef(TargetOpcode::G_BUILD_VECTOR_TRUNC, SrcVec, MRI);
3933e60ab721SAmara Emerson if (!BuildVecMI)
3934e60ab721SAmara Emerson return false;
3935e60ab721SAmara Emerson LLT ScalarTy = MRI.getType(BuildVecMI->getOperand(1).getReg());
3936e60ab721SAmara Emerson if (!isLegalOrBeforeLegalizer(
3937e60ab721SAmara Emerson {TargetOpcode::G_BUILD_VECTOR_TRUNC, {SrcTy, ScalarTy}}))
3938e60ab721SAmara Emerson return false;
3939e60ab721SAmara Emerson }
3940e60ab721SAmara Emerson
3941e60ab721SAmara Emerson EVT Ty(getMVTForLLT(SrcTy));
3942e60ab721SAmara Emerson if (!MRI.hasOneNonDBGUse(SrcVec) &&
3943e60ab721SAmara Emerson !getTargetLowering().aggressivelyPreferBuildVectorSources(Ty))
3944e60ab721SAmara Emerson return false;
3945e60ab721SAmara Emerson
3946e60ab721SAmara Emerson Reg = BuildVecMI->getOperand(VecIdx + 1).getReg();
3947e60ab721SAmara Emerson return true;
3948e60ab721SAmara Emerson }
3949e60ab721SAmara Emerson
applyExtractVecEltBuildVec(MachineInstr & MI,Register & Reg)3950e60ab721SAmara Emerson void CombinerHelper::applyExtractVecEltBuildVec(MachineInstr &MI,
3951e60ab721SAmara Emerson Register &Reg) {
3952e60ab721SAmara Emerson // Check the type of the register, since it may have come from a
3953e60ab721SAmara Emerson // G_BUILD_VECTOR_TRUNC.
3954e60ab721SAmara Emerson LLT ScalarTy = MRI.getType(Reg);
3955e60ab721SAmara Emerson Register DstReg = MI.getOperand(0).getReg();
3956e60ab721SAmara Emerson LLT DstTy = MRI.getType(DstReg);
3957e60ab721SAmara Emerson
3958e60ab721SAmara Emerson Builder.setInstrAndDebugLoc(MI);
3959e60ab721SAmara Emerson if (ScalarTy != DstTy) {
3960e60ab721SAmara Emerson assert(ScalarTy.getSizeInBits() > DstTy.getSizeInBits());
3961e60ab721SAmara Emerson Builder.buildTrunc(DstReg, Reg);
3962e60ab721SAmara Emerson MI.eraseFromParent();
3963e60ab721SAmara Emerson return;
3964e60ab721SAmara Emerson }
3965e60ab721SAmara Emerson replaceSingleDefInstWithReg(MI, Reg);
3966e60ab721SAmara Emerson }
3967e60ab721SAmara Emerson
matchExtractAllEltsFromBuildVector(MachineInstr & MI,SmallVectorImpl<std::pair<Register,MachineInstr * >> & SrcDstPairs)396855e76076SAmara Emerson bool CombinerHelper::matchExtractAllEltsFromBuildVector(
396955e76076SAmara Emerson MachineInstr &MI,
397055e76076SAmara Emerson SmallVectorImpl<std::pair<Register, MachineInstr *>> &SrcDstPairs) {
397155e76076SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_BUILD_VECTOR);
397255e76076SAmara Emerson // This combine tries to find build_vector's which have every source element
397355e76076SAmara Emerson // extracted using G_EXTRACT_VECTOR_ELT. This can happen when transforms like
397455e76076SAmara Emerson // the masked load scalarization is run late in the pipeline. There's already
397555e76076SAmara Emerson // a combine for a similar pattern starting from the extract, but that
397655e76076SAmara Emerson // doesn't attempt to do it if there are multiple uses of the build_vector,
397755e76076SAmara Emerson // which in this case is true. Starting the combine from the build_vector
397855e76076SAmara Emerson // feels more natural than trying to find sibling nodes of extracts.
397955e76076SAmara Emerson // E.g.
398055e76076SAmara Emerson // %vec(<4 x s32>) = G_BUILD_VECTOR %s1(s32), %s2, %s3, %s4
398155e76076SAmara Emerson // %ext1 = G_EXTRACT_VECTOR_ELT %vec, 0
398255e76076SAmara Emerson // %ext2 = G_EXTRACT_VECTOR_ELT %vec, 1
398355e76076SAmara Emerson // %ext3 = G_EXTRACT_VECTOR_ELT %vec, 2
398455e76076SAmara Emerson // %ext4 = G_EXTRACT_VECTOR_ELT %vec, 3
398555e76076SAmara Emerson // ==>
398655e76076SAmara Emerson // replace ext{1,2,3,4} with %s{1,2,3,4}
398755e76076SAmara Emerson
398855e76076SAmara Emerson Register DstReg = MI.getOperand(0).getReg();
398955e76076SAmara Emerson LLT DstTy = MRI.getType(DstReg);
399055e76076SAmara Emerson unsigned NumElts = DstTy.getNumElements();
399155e76076SAmara Emerson
399255e76076SAmara Emerson SmallBitVector ExtractedElts(NumElts);
3993d45cb1d7SKazu Hirata for (MachineInstr &II : MRI.use_nodbg_instructions(DstReg)) {
399455e76076SAmara Emerson if (II.getOpcode() != TargetOpcode::G_EXTRACT_VECTOR_ELT)
399555e76076SAmara Emerson return false;
3996d477a7c2SPetar Avramovic auto Cst = getIConstantVRegVal(II.getOperand(2).getReg(), MRI);
399755e76076SAmara Emerson if (!Cst)
399855e76076SAmara Emerson return false;
39997a47ee51SKazu Hirata unsigned Idx = Cst->getZExtValue();
400055e76076SAmara Emerson if (Idx >= NumElts)
400155e76076SAmara Emerson return false; // Out of range.
400255e76076SAmara Emerson ExtractedElts.set(Idx);
400355e76076SAmara Emerson SrcDstPairs.emplace_back(
400455e76076SAmara Emerson std::make_pair(MI.getOperand(Idx + 1).getReg(), &II));
400555e76076SAmara Emerson }
400655e76076SAmara Emerson // Match if every element was extracted.
400755e76076SAmara Emerson return ExtractedElts.all();
400855e76076SAmara Emerson }
400955e76076SAmara Emerson
applyExtractAllEltsFromBuildVector(MachineInstr & MI,SmallVectorImpl<std::pair<Register,MachineInstr * >> & SrcDstPairs)401055e76076SAmara Emerson void CombinerHelper::applyExtractAllEltsFromBuildVector(
401155e76076SAmara Emerson MachineInstr &MI,
401255e76076SAmara Emerson SmallVectorImpl<std::pair<Register, MachineInstr *>> &SrcDstPairs) {
401355e76076SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_BUILD_VECTOR);
401455e76076SAmara Emerson for (auto &Pair : SrcDstPairs) {
401555e76076SAmara Emerson auto *ExtMI = Pair.second;
401655e76076SAmara Emerson replaceRegWith(MRI, ExtMI->getOperand(0).getReg(), Pair.first);
401755e76076SAmara Emerson ExtMI->eraseFromParent();
401855e76076SAmara Emerson }
401955e76076SAmara Emerson MI.eraseFromParent();
402055e76076SAmara Emerson }
402155e76076SAmara Emerson
applyBuildFn(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4022f30251f5SAmara Emerson void CombinerHelper::applyBuildFn(
4023cfc60730SJessica Paquette MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
4024cfc60730SJessica Paquette Builder.setInstrAndDebugLoc(MI);
4025cfc60730SJessica Paquette MatchInfo(Builder);
4026cfc60730SJessica Paquette MI.eraseFromParent();
4027cfc60730SJessica Paquette }
4028cfc60730SJessica Paquette
applyBuildFnNoErase(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4029f30251f5SAmara Emerson void CombinerHelper::applyBuildFnNoErase(
40300111da2eSAmara Emerson MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
40310111da2eSAmara Emerson Builder.setInstrAndDebugLoc(MI);
40320111da2eSAmara Emerson MatchInfo(Builder);
40330111da2eSAmara Emerson }
40340111da2eSAmara Emerson
matchOrShiftToFunnelShift(MachineInstr & MI,BuildFnTy & MatchInfo)40354af45f10SAbinav Puthan Purayil bool CombinerHelper::matchOrShiftToFunnelShift(MachineInstr &MI,
40364af45f10SAbinav Puthan Purayil BuildFnTy &MatchInfo) {
40374af45f10SAbinav Puthan Purayil assert(MI.getOpcode() == TargetOpcode::G_OR);
40384af45f10SAbinav Puthan Purayil
40394af45f10SAbinav Puthan Purayil Register Dst = MI.getOperand(0).getReg();
40404af45f10SAbinav Puthan Purayil LLT Ty = MRI.getType(Dst);
40414af45f10SAbinav Puthan Purayil unsigned BitWidth = Ty.getScalarSizeInBits();
40424af45f10SAbinav Puthan Purayil
404368b70d17SAbinav Puthan Purayil Register ShlSrc, ShlAmt, LShrSrc, LShrAmt, Amt;
40444af45f10SAbinav Puthan Purayil unsigned FshOpc = 0;
40454af45f10SAbinav Puthan Purayil
404668b70d17SAbinav Puthan Purayil // Match (or (shl ...), (lshr ...)).
404768b70d17SAbinav Puthan Purayil if (!mi_match(Dst, MRI,
40484af45f10SAbinav Puthan Purayil // m_GOr() handles the commuted version as well.
40494af45f10SAbinav Puthan Purayil m_GOr(m_GShl(m_Reg(ShlSrc), m_Reg(ShlAmt)),
405068b70d17SAbinav Puthan Purayil m_GLShr(m_Reg(LShrSrc), m_Reg(LShrAmt)))))
405168b70d17SAbinav Puthan Purayil return false;
405268b70d17SAbinav Puthan Purayil
405368b70d17SAbinav Puthan Purayil // Given constants C0 and C1 such that C0 + C1 is bit-width:
405468b70d17SAbinav Puthan Purayil // (or (shl x, C0), (lshr y, C1)) -> (fshl x, y, C0) or (fshr x, y, C1)
405568b70d17SAbinav Puthan Purayil int64_t CstShlAmt, CstLShrAmt;
4056485dd0b7SAbinav Puthan Purayil if (mi_match(ShlAmt, MRI, m_ICstOrSplat(CstShlAmt)) &&
4057485dd0b7SAbinav Puthan Purayil mi_match(LShrAmt, MRI, m_ICstOrSplat(CstLShrAmt)) &&
405868b70d17SAbinav Puthan Purayil CstShlAmt + CstLShrAmt == BitWidth) {
405968b70d17SAbinav Puthan Purayil FshOpc = TargetOpcode::G_FSHR;
406068b70d17SAbinav Puthan Purayil Amt = LShrAmt;
406168b70d17SAbinav Puthan Purayil
406268b70d17SAbinav Puthan Purayil } else if (mi_match(LShrAmt, MRI,
406368b70d17SAbinav Puthan Purayil m_GSub(m_SpecificICstOrSplat(BitWidth), m_Reg(Amt))) &&
406468b70d17SAbinav Puthan Purayil ShlAmt == Amt) {
406568b70d17SAbinav Puthan Purayil // (or (shl x, amt), (lshr y, (sub bw, amt))) -> (fshl x, y, amt)
40664af45f10SAbinav Puthan Purayil FshOpc = TargetOpcode::G_FSHL;
40674af45f10SAbinav Puthan Purayil
406868b70d17SAbinav Puthan Purayil } else if (mi_match(ShlAmt, MRI,
406968b70d17SAbinav Puthan Purayil m_GSub(m_SpecificICstOrSplat(BitWidth), m_Reg(Amt))) &&
407068b70d17SAbinav Puthan Purayil LShrAmt == Amt) {
407168b70d17SAbinav Puthan Purayil // (or (shl x, (sub bw, amt)), (lshr y, amt)) -> (fshr x, y, amt)
40724af45f10SAbinav Puthan Purayil FshOpc = TargetOpcode::G_FSHR;
40734af45f10SAbinav Puthan Purayil
40744af45f10SAbinav Puthan Purayil } else {
40754af45f10SAbinav Puthan Purayil return false;
40764af45f10SAbinav Puthan Purayil }
40774af45f10SAbinav Puthan Purayil
407868b70d17SAbinav Puthan Purayil LLT AmtTy = MRI.getType(Amt);
40794af45f10SAbinav Puthan Purayil if (!isLegalOrBeforeLegalizer({FshOpc, {Ty, AmtTy}}))
40804af45f10SAbinav Puthan Purayil return false;
40814af45f10SAbinav Puthan Purayil
40824af45f10SAbinav Puthan Purayil MatchInfo = [=](MachineIRBuilder &B) {
408368b70d17SAbinav Puthan Purayil B.buildInstr(FshOpc, {Dst}, {ShlSrc, LShrSrc, Amt});
40844af45f10SAbinav Puthan Purayil };
40854af45f10SAbinav Puthan Purayil return true;
40864af45f10SAbinav Puthan Purayil }
40874af45f10SAbinav Puthan Purayil
408891887cd4SAmara Emerson /// Match an FSHL or FSHR that can be combined to a ROTR or ROTL rotate.
matchFunnelShiftToRotate(MachineInstr & MI)408991887cd4SAmara Emerson bool CombinerHelper::matchFunnelShiftToRotate(MachineInstr &MI) {
409091887cd4SAmara Emerson unsigned Opc = MI.getOpcode();
409191887cd4SAmara Emerson assert(Opc == TargetOpcode::G_FSHL || Opc == TargetOpcode::G_FSHR);
409291887cd4SAmara Emerson Register X = MI.getOperand(1).getReg();
409391887cd4SAmara Emerson Register Y = MI.getOperand(2).getReg();
409491887cd4SAmara Emerson if (X != Y)
409591887cd4SAmara Emerson return false;
40960d7fd9f0SYang Fan unsigned RotateOpc =
409791887cd4SAmara Emerson Opc == TargetOpcode::G_FSHL ? TargetOpcode::G_ROTL : TargetOpcode::G_ROTR;
409891887cd4SAmara Emerson return isLegalOrBeforeLegalizer({RotateOpc, {MRI.getType(X), MRI.getType(Y)}});
409991887cd4SAmara Emerson }
410091887cd4SAmara Emerson
applyFunnelShiftToRotate(MachineInstr & MI)410191887cd4SAmara Emerson void CombinerHelper::applyFunnelShiftToRotate(MachineInstr &MI) {
410291887cd4SAmara Emerson unsigned Opc = MI.getOpcode();
410391887cd4SAmara Emerson assert(Opc == TargetOpcode::G_FSHL || Opc == TargetOpcode::G_FSHR);
410491887cd4SAmara Emerson bool IsFSHL = Opc == TargetOpcode::G_FSHL;
410591887cd4SAmara Emerson Observer.changingInstr(MI);
410691887cd4SAmara Emerson MI.setDesc(Builder.getTII().get(IsFSHL ? TargetOpcode::G_ROTL
410791887cd4SAmara Emerson : TargetOpcode::G_ROTR));
410837b37838SShengchen Kan MI.removeOperand(2);
410991887cd4SAmara Emerson Observer.changedInstr(MI);
411091887cd4SAmara Emerson }
411191887cd4SAmara Emerson
411296ec6d91SAmara Emerson // Fold (rot x, c) -> (rot x, c % BitSize)
matchRotateOutOfRange(MachineInstr & MI)411396ec6d91SAmara Emerson bool CombinerHelper::matchRotateOutOfRange(MachineInstr &MI) {
411496ec6d91SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_ROTL ||
411596ec6d91SAmara Emerson MI.getOpcode() == TargetOpcode::G_ROTR);
411696ec6d91SAmara Emerson unsigned Bitsize =
411796ec6d91SAmara Emerson MRI.getType(MI.getOperand(0).getReg()).getScalarSizeInBits();
411896ec6d91SAmara Emerson Register AmtReg = MI.getOperand(2).getReg();
411996ec6d91SAmara Emerson bool OutOfRange = false;
412096ec6d91SAmara Emerson auto MatchOutOfRange = [Bitsize, &OutOfRange](const Constant *C) {
412196ec6d91SAmara Emerson if (auto *CI = dyn_cast<ConstantInt>(C))
412296ec6d91SAmara Emerson OutOfRange |= CI->getValue().uge(Bitsize);
412396ec6d91SAmara Emerson return true;
412496ec6d91SAmara Emerson };
412596ec6d91SAmara Emerson return matchUnaryPredicate(MRI, AmtReg, MatchOutOfRange) && OutOfRange;
412696ec6d91SAmara Emerson }
412796ec6d91SAmara Emerson
applyRotateOutOfRange(MachineInstr & MI)412896ec6d91SAmara Emerson void CombinerHelper::applyRotateOutOfRange(MachineInstr &MI) {
412996ec6d91SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_ROTL ||
413096ec6d91SAmara Emerson MI.getOpcode() == TargetOpcode::G_ROTR);
413196ec6d91SAmara Emerson unsigned Bitsize =
413296ec6d91SAmara Emerson MRI.getType(MI.getOperand(0).getReg()).getScalarSizeInBits();
413396ec6d91SAmara Emerson Builder.setInstrAndDebugLoc(MI);
413496ec6d91SAmara Emerson Register Amt = MI.getOperand(2).getReg();
413596ec6d91SAmara Emerson LLT AmtTy = MRI.getType(Amt);
413696ec6d91SAmara Emerson auto Bits = Builder.buildConstant(AmtTy, Bitsize);
413796ec6d91SAmara Emerson Amt = Builder.buildURem(AmtTy, MI.getOperand(2).getReg(), Bits).getReg(0);
413896ec6d91SAmara Emerson Observer.changingInstr(MI);
413996ec6d91SAmara Emerson MI.getOperand(2).setReg(Amt);
414096ec6d91SAmara Emerson Observer.changedInstr(MI);
414196ec6d91SAmara Emerson }
414296ec6d91SAmara Emerson
matchICmpToTrueFalseKnownBits(MachineInstr & MI,int64_t & MatchInfo)414384ae1cf8SJessica Paquette bool CombinerHelper::matchICmpToTrueFalseKnownBits(MachineInstr &MI,
414484ae1cf8SJessica Paquette int64_t &MatchInfo) {
414584ae1cf8SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_ICMP);
414684ae1cf8SJessica Paquette auto Pred = static_cast<CmpInst::Predicate>(MI.getOperand(1).getPredicate());
414784ae1cf8SJessica Paquette auto KnownLHS = KB->getKnownBits(MI.getOperand(2).getReg());
414884ae1cf8SJessica Paquette auto KnownRHS = KB->getKnownBits(MI.getOperand(3).getReg());
414984ae1cf8SJessica Paquette Optional<bool> KnownVal;
415084ae1cf8SJessica Paquette switch (Pred) {
415184ae1cf8SJessica Paquette default:
415284ae1cf8SJessica Paquette llvm_unreachable("Unexpected G_ICMP predicate?");
415384ae1cf8SJessica Paquette case CmpInst::ICMP_EQ:
415484ae1cf8SJessica Paquette KnownVal = KnownBits::eq(KnownLHS, KnownRHS);
415584ae1cf8SJessica Paquette break;
415684ae1cf8SJessica Paquette case CmpInst::ICMP_NE:
415784ae1cf8SJessica Paquette KnownVal = KnownBits::ne(KnownLHS, KnownRHS);
415884ae1cf8SJessica Paquette break;
415984ae1cf8SJessica Paquette case CmpInst::ICMP_SGE:
416084ae1cf8SJessica Paquette KnownVal = KnownBits::sge(KnownLHS, KnownRHS);
416184ae1cf8SJessica Paquette break;
416284ae1cf8SJessica Paquette case CmpInst::ICMP_SGT:
416384ae1cf8SJessica Paquette KnownVal = KnownBits::sgt(KnownLHS, KnownRHS);
416484ae1cf8SJessica Paquette break;
416584ae1cf8SJessica Paquette case CmpInst::ICMP_SLE:
416684ae1cf8SJessica Paquette KnownVal = KnownBits::sle(KnownLHS, KnownRHS);
416784ae1cf8SJessica Paquette break;
416884ae1cf8SJessica Paquette case CmpInst::ICMP_SLT:
416984ae1cf8SJessica Paquette KnownVal = KnownBits::slt(KnownLHS, KnownRHS);
417084ae1cf8SJessica Paquette break;
417184ae1cf8SJessica Paquette case CmpInst::ICMP_UGE:
417284ae1cf8SJessica Paquette KnownVal = KnownBits::uge(KnownLHS, KnownRHS);
417384ae1cf8SJessica Paquette break;
417484ae1cf8SJessica Paquette case CmpInst::ICMP_UGT:
417584ae1cf8SJessica Paquette KnownVal = KnownBits::ugt(KnownLHS, KnownRHS);
417684ae1cf8SJessica Paquette break;
417784ae1cf8SJessica Paquette case CmpInst::ICMP_ULE:
417884ae1cf8SJessica Paquette KnownVal = KnownBits::ule(KnownLHS, KnownRHS);
417984ae1cf8SJessica Paquette break;
418084ae1cf8SJessica Paquette case CmpInst::ICMP_ULT:
418184ae1cf8SJessica Paquette KnownVal = KnownBits::ult(KnownLHS, KnownRHS);
418284ae1cf8SJessica Paquette break;
418384ae1cf8SJessica Paquette }
418484ae1cf8SJessica Paquette if (!KnownVal)
418584ae1cf8SJessica Paquette return false;
418684ae1cf8SJessica Paquette MatchInfo =
418784ae1cf8SJessica Paquette *KnownVal
418884ae1cf8SJessica Paquette ? getICmpTrueVal(getTargetLowering(),
418984ae1cf8SJessica Paquette /*IsVector = */
419084ae1cf8SJessica Paquette MRI.getType(MI.getOperand(0).getReg()).isVector(),
419184ae1cf8SJessica Paquette /* IsFP = */ false)
419284ae1cf8SJessica Paquette : 0;
419384ae1cf8SJessica Paquette return true;
419484ae1cf8SJessica Paquette }
419584ae1cf8SJessica Paquette
matchICmpToLHSKnownBits(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4196844d8e03SJessica Paquette bool CombinerHelper::matchICmpToLHSKnownBits(
4197844d8e03SJessica Paquette MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
4198844d8e03SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_ICMP);
4199844d8e03SJessica Paquette // Given:
4200844d8e03SJessica Paquette //
4201844d8e03SJessica Paquette // %x = G_WHATEVER (... x is known to be 0 or 1 ...)
4202844d8e03SJessica Paquette // %cmp = G_ICMP ne %x, 0
4203844d8e03SJessica Paquette //
4204844d8e03SJessica Paquette // Or:
4205844d8e03SJessica Paquette //
4206844d8e03SJessica Paquette // %x = G_WHATEVER (... x is known to be 0 or 1 ...)
4207844d8e03SJessica Paquette // %cmp = G_ICMP eq %x, 1
4208844d8e03SJessica Paquette //
4209844d8e03SJessica Paquette // We can replace %cmp with %x assuming true is 1 on the target.
4210844d8e03SJessica Paquette auto Pred = static_cast<CmpInst::Predicate>(MI.getOperand(1).getPredicate());
4211844d8e03SJessica Paquette if (!CmpInst::isEquality(Pred))
4212844d8e03SJessica Paquette return false;
4213844d8e03SJessica Paquette Register Dst = MI.getOperand(0).getReg();
4214844d8e03SJessica Paquette LLT DstTy = MRI.getType(Dst);
4215844d8e03SJessica Paquette if (getICmpTrueVal(getTargetLowering(), DstTy.isVector(),
4216844d8e03SJessica Paquette /* IsFP = */ false) != 1)
4217844d8e03SJessica Paquette return false;
4218844d8e03SJessica Paquette int64_t OneOrZero = Pred == CmpInst::ICMP_EQ;
4219844d8e03SJessica Paquette if (!mi_match(MI.getOperand(3).getReg(), MRI, m_SpecificICst(OneOrZero)))
4220844d8e03SJessica Paquette return false;
4221844d8e03SJessica Paquette Register LHS = MI.getOperand(2).getReg();
4222844d8e03SJessica Paquette auto KnownLHS = KB->getKnownBits(LHS);
4223844d8e03SJessica Paquette if (KnownLHS.getMinValue() != 0 || KnownLHS.getMaxValue() != 1)
4224844d8e03SJessica Paquette return false;
4225844d8e03SJessica Paquette // Make sure replacing Dst with the LHS is a legal operation.
4226844d8e03SJessica Paquette LLT LHSTy = MRI.getType(LHS);
4227844d8e03SJessica Paquette unsigned LHSSize = LHSTy.getSizeInBits();
4228844d8e03SJessica Paquette unsigned DstSize = DstTy.getSizeInBits();
4229844d8e03SJessica Paquette unsigned Op = TargetOpcode::COPY;
4230844d8e03SJessica Paquette if (DstSize != LHSSize)
4231844d8e03SJessica Paquette Op = DstSize < LHSSize ? TargetOpcode::G_TRUNC : TargetOpcode::G_ZEXT;
4232844d8e03SJessica Paquette if (!isLegalOrBeforeLegalizer({Op, {DstTy, LHSTy}}))
4233844d8e03SJessica Paquette return false;
4234844d8e03SJessica Paquette MatchInfo = [=](MachineIRBuilder &B) { B.buildInstr(Op, {Dst}, {LHS}); };
4235844d8e03SJessica Paquette return true;
4236844d8e03SJessica Paquette }
4237844d8e03SJessica Paquette
4238b046eb19SJon Roelofs // Replace (and (or x, c1), c2) with (and x, c2) iff c1 & c2 == 0
matchAndOrDisjointMask(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4239b046eb19SJon Roelofs bool CombinerHelper::matchAndOrDisjointMask(
4240b046eb19SJon Roelofs MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
4241b046eb19SJon Roelofs assert(MI.getOpcode() == TargetOpcode::G_AND);
4242b046eb19SJon Roelofs
4243b046eb19SJon Roelofs // Ignore vector types to simplify matching the two constants.
4244b046eb19SJon Roelofs // TODO: do this for vectors and scalars via a demanded bits analysis.
4245b046eb19SJon Roelofs LLT Ty = MRI.getType(MI.getOperand(0).getReg());
4246b046eb19SJon Roelofs if (Ty.isVector())
4247b046eb19SJon Roelofs return false;
4248b046eb19SJon Roelofs
4249b046eb19SJon Roelofs Register Src;
4250d699e54cSJon Roelofs Register AndMaskReg;
4251d699e54cSJon Roelofs int64_t AndMaskBits;
4252d699e54cSJon Roelofs int64_t OrMaskBits;
4253b046eb19SJon Roelofs if (!mi_match(MI, MRI,
4254d699e54cSJon Roelofs m_GAnd(m_GOr(m_Reg(Src), m_ICst(OrMaskBits)),
4255d699e54cSJon Roelofs m_all_of(m_ICst(AndMaskBits), m_Reg(AndMaskReg)))))
4256b046eb19SJon Roelofs return false;
4257b046eb19SJon Roelofs
4258d699e54cSJon Roelofs // Check if OrMask could turn on any bits in Src.
4259d699e54cSJon Roelofs if (AndMaskBits & OrMaskBits)
4260b046eb19SJon Roelofs return false;
4261b046eb19SJon Roelofs
4262b046eb19SJon Roelofs MatchInfo = [=, &MI](MachineIRBuilder &B) {
4263b046eb19SJon Roelofs Observer.changingInstr(MI);
4264d699e54cSJon Roelofs // Canonicalize the result to have the constant on the RHS.
4265d699e54cSJon Roelofs if (MI.getOperand(1).getReg() == AndMaskReg)
4266d699e54cSJon Roelofs MI.getOperand(2).setReg(AndMaskReg);
4267b046eb19SJon Roelofs MI.getOperand(1).setReg(Src);
4268b046eb19SJon Roelofs Observer.changedInstr(MI);
4269b046eb19SJon Roelofs };
4270b046eb19SJon Roelofs return true;
4271b046eb19SJon Roelofs }
4272b046eb19SJon Roelofs
4273f9f5d415SBrendon Cahoon /// Form a G_SBFX from a G_SEXT_INREG fed by a right shift.
matchBitfieldExtractFromSExtInReg(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4274f9f5d415SBrendon Cahoon bool CombinerHelper::matchBitfieldExtractFromSExtInReg(
4275f9f5d415SBrendon Cahoon MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
4276f9f5d415SBrendon Cahoon assert(MI.getOpcode() == TargetOpcode::G_SEXT_INREG);
4277f9f5d415SBrendon Cahoon Register Dst = MI.getOperand(0).getReg();
4278f9f5d415SBrendon Cahoon Register Src = MI.getOperand(1).getReg();
4279f9f5d415SBrendon Cahoon LLT Ty = MRI.getType(Src);
4280f9f5d415SBrendon Cahoon LLT ExtractTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
4281f9f5d415SBrendon Cahoon if (!LI || !LI->isLegalOrCustom({TargetOpcode::G_SBFX, {Ty, ExtractTy}}))
4282f9f5d415SBrendon Cahoon return false;
4283f9f5d415SBrendon Cahoon int64_t Width = MI.getOperand(2).getImm();
4284f9f5d415SBrendon Cahoon Register ShiftSrc;
4285f9f5d415SBrendon Cahoon int64_t ShiftImm;
4286f9f5d415SBrendon Cahoon if (!mi_match(
4287f9f5d415SBrendon Cahoon Src, MRI,
4288f9f5d415SBrendon Cahoon m_OneNonDBGUse(m_any_of(m_GAShr(m_Reg(ShiftSrc), m_ICst(ShiftImm)),
4289f9f5d415SBrendon Cahoon m_GLShr(m_Reg(ShiftSrc), m_ICst(ShiftImm))))))
4290f9f5d415SBrendon Cahoon return false;
4291f9f5d415SBrendon Cahoon if (ShiftImm < 0 || ShiftImm + Width > Ty.getScalarSizeInBits())
4292f9f5d415SBrendon Cahoon return false;
4293f9f5d415SBrendon Cahoon
4294f9f5d415SBrendon Cahoon MatchInfo = [=](MachineIRBuilder &B) {
4295f9f5d415SBrendon Cahoon auto Cst1 = B.buildConstant(ExtractTy, ShiftImm);
4296f9f5d415SBrendon Cahoon auto Cst2 = B.buildConstant(ExtractTy, Width);
4297f9f5d415SBrendon Cahoon B.buildSbfx(Dst, ShiftSrc, Cst1, Cst2);
4298f9f5d415SBrendon Cahoon };
4299f9f5d415SBrendon Cahoon return true;
4300f9f5d415SBrendon Cahoon }
4301f9f5d415SBrendon Cahoon
4302f9f5d415SBrendon Cahoon /// Form a G_UBFX from "(a srl b) & mask", where b and mask are constants.
matchBitfieldExtractFromAnd(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4303e7f501b5SJessica Paquette bool CombinerHelper::matchBitfieldExtractFromAnd(
4304e7f501b5SJessica Paquette MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
4305e7f501b5SJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_AND);
4306e7f501b5SJessica Paquette Register Dst = MI.getOperand(0).getReg();
4307e7f501b5SJessica Paquette LLT Ty = MRI.getType(Dst);
4308ff971873SJay Foad LLT ExtractTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
43093f3fe4a5SJay Foad if (!getTargetLowering().isConstantUnsignedBitfieldExtractLegal(
4310ff971873SJay Foad TargetOpcode::G_UBFX, Ty, ExtractTy))
4311e7f501b5SJessica Paquette return false;
4312e7f501b5SJessica Paquette
4313e7f501b5SJessica Paquette int64_t AndImm, LSBImm;
4314e7f501b5SJessica Paquette Register ShiftSrc;
4315e7f501b5SJessica Paquette const unsigned Size = Ty.getScalarSizeInBits();
4316e7f501b5SJessica Paquette if (!mi_match(MI.getOperand(0).getReg(), MRI,
4317e7f501b5SJessica Paquette m_GAnd(m_OneNonDBGUse(m_GLShr(m_Reg(ShiftSrc), m_ICst(LSBImm))),
4318e7f501b5SJessica Paquette m_ICst(AndImm))))
4319e7f501b5SJessica Paquette return false;
4320e7f501b5SJessica Paquette
4321e7f501b5SJessica Paquette // The mask is a mask of the low bits iff imm & (imm+1) == 0.
4322e7f501b5SJessica Paquette auto MaybeMask = static_cast<uint64_t>(AndImm);
4323e7f501b5SJessica Paquette if (MaybeMask & (MaybeMask + 1))
4324e7f501b5SJessica Paquette return false;
4325e7f501b5SJessica Paquette
4326e7f501b5SJessica Paquette // LSB must fit within the register.
4327e7f501b5SJessica Paquette if (static_cast<uint64_t>(LSBImm) >= Size)
4328e7f501b5SJessica Paquette return false;
4329e7f501b5SJessica Paquette
4330e7f501b5SJessica Paquette uint64_t Width = APInt(Size, AndImm).countTrailingOnes();
4331e7f501b5SJessica Paquette MatchInfo = [=](MachineIRBuilder &B) {
4332f9f5d415SBrendon Cahoon auto WidthCst = B.buildConstant(ExtractTy, Width);
4333f9f5d415SBrendon Cahoon auto LSBCst = B.buildConstant(ExtractTy, LSBImm);
4334e7f501b5SJessica Paquette B.buildInstr(TargetOpcode::G_UBFX, {Dst}, {ShiftSrc, LSBCst, WidthCst});
4335e7f501b5SJessica Paquette };
4336e7f501b5SJessica Paquette return true;
4337e7f501b5SJessica Paquette }
4338e7f501b5SJessica Paquette
matchBitfieldExtractFromShr(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)4339cc947e29SDominik Montada bool CombinerHelper::matchBitfieldExtractFromShr(
4340cc947e29SDominik Montada MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
4341cc947e29SDominik Montada const unsigned Opcode = MI.getOpcode();
4342cc947e29SDominik Montada assert(Opcode == TargetOpcode::G_ASHR || Opcode == TargetOpcode::G_LSHR);
4343cc947e29SDominik Montada
4344cc947e29SDominik Montada const Register Dst = MI.getOperand(0).getReg();
4345cc947e29SDominik Montada
4346cc947e29SDominik Montada const unsigned ExtrOpcode = Opcode == TargetOpcode::G_ASHR
4347cc947e29SDominik Montada ? TargetOpcode::G_SBFX
4348cc947e29SDominik Montada : TargetOpcode::G_UBFX;
4349cc947e29SDominik Montada
4350cc947e29SDominik Montada // Check if the type we would use for the extract is legal
4351cc947e29SDominik Montada LLT Ty = MRI.getType(Dst);
4352cc947e29SDominik Montada LLT ExtractTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
4353cc947e29SDominik Montada if (!LI || !LI->isLegalOrCustom({ExtrOpcode, {Ty, ExtractTy}}))
4354cc947e29SDominik Montada return false;
4355cc947e29SDominik Montada
4356cc947e29SDominik Montada Register ShlSrc;
4357cc947e29SDominik Montada int64_t ShrAmt;
4358cc947e29SDominik Montada int64_t ShlAmt;
4359cc947e29SDominik Montada const unsigned Size = Ty.getScalarSizeInBits();
4360cc947e29SDominik Montada
4361cc947e29SDominik Montada // Try to match shr (shl x, c1), c2
4362cc947e29SDominik Montada if (!mi_match(Dst, MRI,
4363cc947e29SDominik Montada m_BinOp(Opcode,
4364cc947e29SDominik Montada m_OneNonDBGUse(m_GShl(m_Reg(ShlSrc), m_ICst(ShlAmt))),
4365cc947e29SDominik Montada m_ICst(ShrAmt))))
4366cc947e29SDominik Montada return false;
4367cc947e29SDominik Montada
4368cc947e29SDominik Montada // Make sure that the shift sizes can fit a bitfield extract
4369cc947e29SDominik Montada if (ShlAmt < 0 || ShlAmt > ShrAmt || ShrAmt >= Size)
4370cc947e29SDominik Montada return false;
4371cc947e29SDominik Montada
4372cc947e29SDominik Montada // Skip this combine if the G_SEXT_INREG combine could handle it
4373cc947e29SDominik Montada if (Opcode == TargetOpcode::G_ASHR && ShlAmt == ShrAmt)
4374cc947e29SDominik Montada return false;
4375cc947e29SDominik Montada
4376cc947e29SDominik Montada // Calculate start position and width of the extract
4377cc947e29SDominik Montada const int64_t Pos = ShrAmt - ShlAmt;
4378cc947e29SDominik Montada const int64_t Width = Size - ShrAmt;
4379cc947e29SDominik Montada
4380cc947e29SDominik Montada MatchInfo = [=](MachineIRBuilder &B) {
4381cc947e29SDominik Montada auto WidthCst = B.buildConstant(ExtractTy, Width);
4382cc947e29SDominik Montada auto PosCst = B.buildConstant(ExtractTy, Pos);
4383cc947e29SDominik Montada B.buildInstr(ExtrOpcode, {Dst}, {ShlSrc, PosCst, WidthCst});
4384cc947e29SDominik Montada };
4385cc947e29SDominik Montada return true;
4386cc947e29SDominik Montada }
4387cc947e29SDominik Montada
matchBitfieldExtractFromShrAnd(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)43881300677fSJon Roelofs bool CombinerHelper::matchBitfieldExtractFromShrAnd(
43891300677fSJon Roelofs MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
43901300677fSJon Roelofs const unsigned Opcode = MI.getOpcode();
43911300677fSJon Roelofs assert(Opcode == TargetOpcode::G_LSHR || Opcode == TargetOpcode::G_ASHR);
43921300677fSJon Roelofs
43931300677fSJon Roelofs const Register Dst = MI.getOperand(0).getReg();
43941300677fSJon Roelofs LLT Ty = MRI.getType(Dst);
439550fb44eeSJay Foad LLT ExtractTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
43963f3fe4a5SJay Foad if (!getTargetLowering().isConstantUnsignedBitfieldExtractLegal(
439750fb44eeSJay Foad TargetOpcode::G_UBFX, Ty, ExtractTy))
43981300677fSJon Roelofs return false;
43991300677fSJon Roelofs
44001300677fSJon Roelofs // Try to match shr (and x, c1), c2
44011300677fSJon Roelofs Register AndSrc;
44021300677fSJon Roelofs int64_t ShrAmt;
44031300677fSJon Roelofs int64_t SMask;
44041300677fSJon Roelofs if (!mi_match(Dst, MRI,
44051300677fSJon Roelofs m_BinOp(Opcode,
44061300677fSJon Roelofs m_OneNonDBGUse(m_GAnd(m_Reg(AndSrc), m_ICst(SMask))),
44071300677fSJon Roelofs m_ICst(ShrAmt))))
44081300677fSJon Roelofs return false;
44091300677fSJon Roelofs
44101300677fSJon Roelofs const unsigned Size = Ty.getScalarSizeInBits();
44111300677fSJon Roelofs if (ShrAmt < 0 || ShrAmt >= Size)
44121300677fSJon Roelofs return false;
44131300677fSJon Roelofs
4414e1c808b3SJon Roelofs // If the shift subsumes the mask, emit the 0 directly.
4415e1c808b3SJon Roelofs if (0 == (SMask >> ShrAmt)) {
4416e1c808b3SJon Roelofs MatchInfo = [=](MachineIRBuilder &B) {
4417e1c808b3SJon Roelofs B.buildConstant(Dst, 0);
4418e1c808b3SJon Roelofs };
4419e1c808b3SJon Roelofs return true;
4420e1c808b3SJon Roelofs }
4421e1c808b3SJon Roelofs
44221300677fSJon Roelofs // Check that ubfx can do the extraction, with no holes in the mask.
44231300677fSJon Roelofs uint64_t UMask = SMask;
44241300677fSJon Roelofs UMask |= maskTrailingOnes<uint64_t>(ShrAmt);
44251300677fSJon Roelofs UMask &= maskTrailingOnes<uint64_t>(Size);
44261300677fSJon Roelofs if (!isMask_64(UMask))
44271300677fSJon Roelofs return false;
44281300677fSJon Roelofs
44291300677fSJon Roelofs // Calculate start position and width of the extract.
44301300677fSJon Roelofs const int64_t Pos = ShrAmt;
44311300677fSJon Roelofs const int64_t Width = countTrailingOnes(UMask) - ShrAmt;
44321300677fSJon Roelofs
44331300677fSJon Roelofs // It's preferable to keep the shift, rather than form G_SBFX.
44341300677fSJon Roelofs // TODO: remove the G_AND via demanded bits analysis.
44351300677fSJon Roelofs if (Opcode == TargetOpcode::G_ASHR && Width + ShrAmt == Size)
44361300677fSJon Roelofs return false;
44371300677fSJon Roelofs
44381300677fSJon Roelofs MatchInfo = [=](MachineIRBuilder &B) {
443950fb44eeSJay Foad auto WidthCst = B.buildConstant(ExtractTy, Width);
444050fb44eeSJay Foad auto PosCst = B.buildConstant(ExtractTy, Pos);
44411300677fSJon Roelofs B.buildInstr(TargetOpcode::G_UBFX, {Dst}, {AndSrc, PosCst, WidthCst});
44421300677fSJon Roelofs };
44431300677fSJon Roelofs return true;
44441300677fSJon Roelofs }
44451300677fSJon Roelofs
reassociationCanBreakAddressingModePattern(MachineInstr & PtrAdd)44460111da2eSAmara Emerson bool CombinerHelper::reassociationCanBreakAddressingModePattern(
44470111da2eSAmara Emerson MachineInstr &PtrAdd) {
44480111da2eSAmara Emerson assert(PtrAdd.getOpcode() == TargetOpcode::G_PTR_ADD);
44490111da2eSAmara Emerson
44500111da2eSAmara Emerson Register Src1Reg = PtrAdd.getOperand(1).getReg();
44510111da2eSAmara Emerson MachineInstr *Src1Def = getOpcodeDef(TargetOpcode::G_PTR_ADD, Src1Reg, MRI);
44520111da2eSAmara Emerson if (!Src1Def)
44530111da2eSAmara Emerson return false;
44540111da2eSAmara Emerson
44550111da2eSAmara Emerson Register Src2Reg = PtrAdd.getOperand(2).getReg();
44560111da2eSAmara Emerson
44570111da2eSAmara Emerson if (MRI.hasOneNonDBGUse(Src1Reg))
44580111da2eSAmara Emerson return false;
44590111da2eSAmara Emerson
4460d477a7c2SPetar Avramovic auto C1 = getIConstantVRegVal(Src1Def->getOperand(2).getReg(), MRI);
44610111da2eSAmara Emerson if (!C1)
44620111da2eSAmara Emerson return false;
4463d477a7c2SPetar Avramovic auto C2 = getIConstantVRegVal(Src2Reg, MRI);
44640111da2eSAmara Emerson if (!C2)
44650111da2eSAmara Emerson return false;
44660111da2eSAmara Emerson
44670111da2eSAmara Emerson const APInt &C1APIntVal = *C1;
44680111da2eSAmara Emerson const APInt &C2APIntVal = *C2;
44690111da2eSAmara Emerson const int64_t CombinedValue = (C1APIntVal + C2APIntVal).getSExtValue();
44700111da2eSAmara Emerson
44710111da2eSAmara Emerson for (auto &UseMI : MRI.use_nodbg_instructions(Src1Reg)) {
44720111da2eSAmara Emerson // This combine may end up running before ptrtoint/inttoptr combines
44730111da2eSAmara Emerson // manage to eliminate redundant conversions, so try to look through them.
44740111da2eSAmara Emerson MachineInstr *ConvUseMI = &UseMI;
44750111da2eSAmara Emerson unsigned ConvUseOpc = ConvUseMI->getOpcode();
44760111da2eSAmara Emerson while (ConvUseOpc == TargetOpcode::G_INTTOPTR ||
44770111da2eSAmara Emerson ConvUseOpc == TargetOpcode::G_PTRTOINT) {
44780111da2eSAmara Emerson Register DefReg = ConvUseMI->getOperand(0).getReg();
44790111da2eSAmara Emerson if (!MRI.hasOneNonDBGUse(DefReg))
44800111da2eSAmara Emerson break;
44810111da2eSAmara Emerson ConvUseMI = &*MRI.use_instr_nodbg_begin(DefReg);
44825da0f9abSJessica Paquette ConvUseOpc = ConvUseMI->getOpcode();
44830111da2eSAmara Emerson }
44840111da2eSAmara Emerson auto LoadStore = ConvUseOpc == TargetOpcode::G_LOAD ||
44850111da2eSAmara Emerson ConvUseOpc == TargetOpcode::G_STORE;
44860111da2eSAmara Emerson if (!LoadStore)
44870111da2eSAmara Emerson continue;
44880111da2eSAmara Emerson // Is x[offset2] already not a legal addressing mode? If so then
44890111da2eSAmara Emerson // reassociating the constants breaks nothing (we test offset2 because
44900111da2eSAmara Emerson // that's the one we hope to fold into the load or store).
44910111da2eSAmara Emerson TargetLoweringBase::AddrMode AM;
44920111da2eSAmara Emerson AM.HasBaseReg = true;
44930111da2eSAmara Emerson AM.BaseOffs = C2APIntVal.getSExtValue();
44940111da2eSAmara Emerson unsigned AS =
44950111da2eSAmara Emerson MRI.getType(ConvUseMI->getOperand(1).getReg()).getAddressSpace();
44960111da2eSAmara Emerson Type *AccessTy =
44970111da2eSAmara Emerson getTypeForLLT(MRI.getType(ConvUseMI->getOperand(0).getReg()),
44980111da2eSAmara Emerson PtrAdd.getMF()->getFunction().getContext());
44990111da2eSAmara Emerson const auto &TLI = *PtrAdd.getMF()->getSubtarget().getTargetLowering();
45000111da2eSAmara Emerson if (!TLI.isLegalAddressingMode(PtrAdd.getMF()->getDataLayout(), AM,
45010111da2eSAmara Emerson AccessTy, AS))
45020111da2eSAmara Emerson continue;
45030111da2eSAmara Emerson
45040111da2eSAmara Emerson // Would x[offset1+offset2] still be a legal addressing mode?
45050111da2eSAmara Emerson AM.BaseOffs = CombinedValue;
45060111da2eSAmara Emerson if (!TLI.isLegalAddressingMode(PtrAdd.getMF()->getDataLayout(), AM,
45070111da2eSAmara Emerson AccessTy, AS))
45080111da2eSAmara Emerson return true;
45090111da2eSAmara Emerson }
45100111da2eSAmara Emerson
45110111da2eSAmara Emerson return false;
45120111da2eSAmara Emerson }
45130111da2eSAmara Emerson
matchReassocConstantInnerRHS(GPtrAdd & MI,MachineInstr * RHS,BuildFnTy & MatchInfo)45145ec1845cSAmara Emerson bool CombinerHelper::matchReassocConstantInnerRHS(GPtrAdd &MI,
45155ec1845cSAmara Emerson MachineInstr *RHS,
45165ec1845cSAmara Emerson BuildFnTy &MatchInfo) {
45170111da2eSAmara Emerson // G_PTR_ADD(BASE, G_ADD(X, C)) -> G_PTR_ADD(G_PTR_ADD(BASE, X), C)
45180111da2eSAmara Emerson Register Src1Reg = MI.getOperand(1).getReg();
45190111da2eSAmara Emerson if (RHS->getOpcode() != TargetOpcode::G_ADD)
45200111da2eSAmara Emerson return false;
4521d477a7c2SPetar Avramovic auto C2 = getIConstantVRegVal(RHS->getOperand(2).getReg(), MRI);
45220111da2eSAmara Emerson if (!C2)
45230111da2eSAmara Emerson return false;
45240111da2eSAmara Emerson
45250111da2eSAmara Emerson MatchInfo = [=, &MI](MachineIRBuilder &B) {
45260111da2eSAmara Emerson LLT PtrTy = MRI.getType(MI.getOperand(0).getReg());
45270111da2eSAmara Emerson
45280111da2eSAmara Emerson auto NewBase =
45290111da2eSAmara Emerson Builder.buildPtrAdd(PtrTy, Src1Reg, RHS->getOperand(1).getReg());
45300111da2eSAmara Emerson Observer.changingInstr(MI);
45310111da2eSAmara Emerson MI.getOperand(1).setReg(NewBase.getReg(0));
45320111da2eSAmara Emerson MI.getOperand(2).setReg(RHS->getOperand(2).getReg());
45330111da2eSAmara Emerson Observer.changedInstr(MI);
45340111da2eSAmara Emerson };
45355ec1845cSAmara Emerson return !reassociationCanBreakAddressingModePattern(MI);
45365ec1845cSAmara Emerson }
45375ec1845cSAmara Emerson
matchReassocConstantInnerLHS(GPtrAdd & MI,MachineInstr * LHS,MachineInstr * RHS,BuildFnTy & MatchInfo)45385ec1845cSAmara Emerson bool CombinerHelper::matchReassocConstantInnerLHS(GPtrAdd &MI,
45395ec1845cSAmara Emerson MachineInstr *LHS,
45405ec1845cSAmara Emerson MachineInstr *RHS,
45415ec1845cSAmara Emerson BuildFnTy &MatchInfo) {
45425ec1845cSAmara Emerson // G_PTR_ADD (G_PTR_ADD X, C), Y) -> (G_PTR_ADD (G_PTR_ADD(X, Y), C)
45435ec1845cSAmara Emerson // if and only if (G_PTR_ADD X, C) has one use.
45445ec1845cSAmara Emerson Register LHSBase;
4545d477a7c2SPetar Avramovic Optional<ValueAndVReg> LHSCstOff;
45465ec1845cSAmara Emerson if (!mi_match(MI.getBaseReg(), MRI,
4547d477a7c2SPetar Avramovic m_OneNonDBGUse(m_GPtrAdd(m_Reg(LHSBase), m_GCst(LHSCstOff)))))
45485ec1845cSAmara Emerson return false;
45495ec1845cSAmara Emerson
45505ec1845cSAmara Emerson auto *LHSPtrAdd = cast<GPtrAdd>(LHS);
45515ec1845cSAmara Emerson MatchInfo = [=, &MI](MachineIRBuilder &B) {
45525ec1845cSAmara Emerson // When we change LHSPtrAdd's offset register we might cause it to use a reg
45535ec1845cSAmara Emerson // before its def. Sink the instruction so the outer PTR_ADD to ensure this
45545ec1845cSAmara Emerson // doesn't happen.
45555ec1845cSAmara Emerson LHSPtrAdd->moveBefore(&MI);
45565ec1845cSAmara Emerson Register RHSReg = MI.getOffsetReg();
45575ec1845cSAmara Emerson Observer.changingInstr(MI);
4558d477a7c2SPetar Avramovic MI.getOperand(2).setReg(LHSCstOff->VReg);
45595ec1845cSAmara Emerson Observer.changedInstr(MI);
45605ec1845cSAmara Emerson Observer.changingInstr(*LHSPtrAdd);
45615ec1845cSAmara Emerson LHSPtrAdd->getOperand(2).setReg(RHSReg);
45625ec1845cSAmara Emerson Observer.changedInstr(*LHSPtrAdd);
45635ec1845cSAmara Emerson };
45645ec1845cSAmara Emerson return !reassociationCanBreakAddressingModePattern(MI);
45655ec1845cSAmara Emerson }
45665ec1845cSAmara Emerson
matchReassocFoldConstantsInSubTree(GPtrAdd & MI,MachineInstr * LHS,MachineInstr * RHS,BuildFnTy & MatchInfo)45675ec1845cSAmara Emerson bool CombinerHelper::matchReassocFoldConstantsInSubTree(GPtrAdd &MI,
45685ec1845cSAmara Emerson MachineInstr *LHS,
45695ec1845cSAmara Emerson MachineInstr *RHS,
45705ec1845cSAmara Emerson BuildFnTy &MatchInfo) {
45715ec1845cSAmara Emerson // G_PTR_ADD(G_PTR_ADD(BASE, C1), C2) -> G_PTR_ADD(BASE, C1+C2)
45725ec1845cSAmara Emerson auto *LHSPtrAdd = dyn_cast<GPtrAdd>(LHS);
45735ec1845cSAmara Emerson if (!LHSPtrAdd)
45745ec1845cSAmara Emerson return false;
45755ec1845cSAmara Emerson
45765ec1845cSAmara Emerson Register Src2Reg = MI.getOperand(2).getReg();
45775ec1845cSAmara Emerson Register LHSSrc1 = LHSPtrAdd->getBaseReg();
45785ec1845cSAmara Emerson Register LHSSrc2 = LHSPtrAdd->getOffsetReg();
4579d477a7c2SPetar Avramovic auto C1 = getIConstantVRegVal(LHSSrc2, MRI);
45800111da2eSAmara Emerson if (!C1)
45810111da2eSAmara Emerson return false;
4582d477a7c2SPetar Avramovic auto C2 = getIConstantVRegVal(Src2Reg, MRI);
45830111da2eSAmara Emerson if (!C2)
45840111da2eSAmara Emerson return false;
45850111da2eSAmara Emerson
45860111da2eSAmara Emerson MatchInfo = [=, &MI](MachineIRBuilder &B) {
45870111da2eSAmara Emerson auto NewCst = B.buildConstant(MRI.getType(Src2Reg), *C1 + *C2);
45880111da2eSAmara Emerson Observer.changingInstr(MI);
45890111da2eSAmara Emerson MI.getOperand(1).setReg(LHSSrc1);
45900111da2eSAmara Emerson MI.getOperand(2).setReg(NewCst.getReg(0));
45910111da2eSAmara Emerson Observer.changedInstr(MI);
45920111da2eSAmara Emerson };
45930111da2eSAmara Emerson return !reassociationCanBreakAddressingModePattern(MI);
45940111da2eSAmara Emerson }
45950111da2eSAmara Emerson
matchReassocPtrAdd(MachineInstr & MI,BuildFnTy & MatchInfo)45965ec1845cSAmara Emerson bool CombinerHelper::matchReassocPtrAdd(MachineInstr &MI,
45975ec1845cSAmara Emerson BuildFnTy &MatchInfo) {
45985ec1845cSAmara Emerson auto &PtrAdd = cast<GPtrAdd>(MI);
45995ec1845cSAmara Emerson // We're trying to match a few pointer computation patterns here for
46005ec1845cSAmara Emerson // re-association opportunities.
46015ec1845cSAmara Emerson // 1) Isolating a constant operand to be on the RHS, e.g.:
46025ec1845cSAmara Emerson // G_PTR_ADD(BASE, G_ADD(X, C)) -> G_PTR_ADD(G_PTR_ADD(BASE, X), C)
46035ec1845cSAmara Emerson //
46045ec1845cSAmara Emerson // 2) Folding two constants in each sub-tree as long as such folding
46055ec1845cSAmara Emerson // doesn't break a legal addressing mode.
46065ec1845cSAmara Emerson // G_PTR_ADD(G_PTR_ADD(BASE, C1), C2) -> G_PTR_ADD(BASE, C1+C2)
46075ec1845cSAmara Emerson //
46085ec1845cSAmara Emerson // 3) Move a constant from the LHS of an inner op to the RHS of the outer.
46095ec1845cSAmara Emerson // G_PTR_ADD (G_PTR_ADD X, C), Y) -> G_PTR_ADD (G_PTR_ADD(X, Y), C)
46105ec1845cSAmara Emerson // iif (G_PTR_ADD X, C) has one use.
46115ec1845cSAmara Emerson MachineInstr *LHS = MRI.getVRegDef(PtrAdd.getBaseReg());
46125ec1845cSAmara Emerson MachineInstr *RHS = MRI.getVRegDef(PtrAdd.getOffsetReg());
46135ec1845cSAmara Emerson
46145ec1845cSAmara Emerson // Try to match example 2.
46155ec1845cSAmara Emerson if (matchReassocFoldConstantsInSubTree(PtrAdd, LHS, RHS, MatchInfo))
46165ec1845cSAmara Emerson return true;
46175ec1845cSAmara Emerson
46185ec1845cSAmara Emerson // Try to match example 3.
46195ec1845cSAmara Emerson if (matchReassocConstantInnerLHS(PtrAdd, LHS, RHS, MatchInfo))
46205ec1845cSAmara Emerson return true;
46215ec1845cSAmara Emerson
46225ec1845cSAmara Emerson // Try to match example 1.
46235ec1845cSAmara Emerson if (matchReassocConstantInnerRHS(PtrAdd, RHS, MatchInfo))
46245ec1845cSAmara Emerson return true;
46255ec1845cSAmara Emerson
46265ec1845cSAmara Emerson return false;
46275ec1845cSAmara Emerson }
46285ec1845cSAmara Emerson
matchConstantFold(MachineInstr & MI,APInt & MatchInfo)4629c658b472SAmara Emerson bool CombinerHelper::matchConstantFold(MachineInstr &MI, APInt &MatchInfo) {
4630c658b472SAmara Emerson Register Op1 = MI.getOperand(1).getReg();
4631c658b472SAmara Emerson Register Op2 = MI.getOperand(2).getReg();
4632c658b472SAmara Emerson auto MaybeCst = ConstantFoldBinOp(MI.getOpcode(), Op1, Op2, MRI);
4633c658b472SAmara Emerson if (!MaybeCst)
4634c658b472SAmara Emerson return false;
4635c658b472SAmara Emerson MatchInfo = *MaybeCst;
4636c658b472SAmara Emerson return true;
4637c658b472SAmara Emerson }
4638c658b472SAmara Emerson
matchNarrowBinopFeedingAnd(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)463950efbf9cSJessica Paquette bool CombinerHelper::matchNarrowBinopFeedingAnd(
464050efbf9cSJessica Paquette MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
464150efbf9cSJessica Paquette // Look for a binop feeding into an AND with a mask:
464250efbf9cSJessica Paquette //
464350efbf9cSJessica Paquette // %add = G_ADD %lhs, %rhs
464450efbf9cSJessica Paquette // %and = G_AND %add, 000...11111111
464550efbf9cSJessica Paquette //
464650efbf9cSJessica Paquette // Check if it's possible to perform the binop at a narrower width and zext
464750efbf9cSJessica Paquette // back to the original width like so:
464850efbf9cSJessica Paquette //
464950efbf9cSJessica Paquette // %narrow_lhs = G_TRUNC %lhs
465050efbf9cSJessica Paquette // %narrow_rhs = G_TRUNC %rhs
465150efbf9cSJessica Paquette // %narrow_add = G_ADD %narrow_lhs, %narrow_rhs
465250efbf9cSJessica Paquette // %new_add = G_ZEXT %narrow_add
465350efbf9cSJessica Paquette // %and = G_AND %new_add, 000...11111111
465450efbf9cSJessica Paquette //
465550efbf9cSJessica Paquette // This can allow later combines to eliminate the G_AND if it turns out
465650efbf9cSJessica Paquette // that the mask is irrelevant.
465750efbf9cSJessica Paquette assert(MI.getOpcode() == TargetOpcode::G_AND);
465850efbf9cSJessica Paquette Register Dst = MI.getOperand(0).getReg();
465950efbf9cSJessica Paquette Register AndLHS = MI.getOperand(1).getReg();
466050efbf9cSJessica Paquette Register AndRHS = MI.getOperand(2).getReg();
466150efbf9cSJessica Paquette LLT WideTy = MRI.getType(Dst);
466250efbf9cSJessica Paquette
466350efbf9cSJessica Paquette // If the potential binop has more than one use, then it's possible that one
466450efbf9cSJessica Paquette // of those uses will need its full width.
466550efbf9cSJessica Paquette if (!WideTy.isScalar() || !MRI.hasOneNonDBGUse(AndLHS))
466650efbf9cSJessica Paquette return false;
466750efbf9cSJessica Paquette
466850efbf9cSJessica Paquette // Check if the LHS feeding the AND is impacted by the high bits that we're
466950efbf9cSJessica Paquette // masking out.
467050efbf9cSJessica Paquette //
467150efbf9cSJessica Paquette // e.g. for 64-bit x, y:
467250efbf9cSJessica Paquette //
467350efbf9cSJessica Paquette // add_64(x, y) & 65535 == zext(add_16(trunc(x), trunc(y))) & 65535
467450efbf9cSJessica Paquette MachineInstr *LHSInst = getDefIgnoringCopies(AndLHS, MRI);
467550efbf9cSJessica Paquette if (!LHSInst)
467650efbf9cSJessica Paquette return false;
467750efbf9cSJessica Paquette unsigned LHSOpc = LHSInst->getOpcode();
467850efbf9cSJessica Paquette switch (LHSOpc) {
467950efbf9cSJessica Paquette default:
468050efbf9cSJessica Paquette return false;
468150efbf9cSJessica Paquette case TargetOpcode::G_ADD:
468250efbf9cSJessica Paquette case TargetOpcode::G_SUB:
468350efbf9cSJessica Paquette case TargetOpcode::G_MUL:
468450efbf9cSJessica Paquette case TargetOpcode::G_AND:
468550efbf9cSJessica Paquette case TargetOpcode::G_OR:
468650efbf9cSJessica Paquette case TargetOpcode::G_XOR:
468750efbf9cSJessica Paquette break;
468850efbf9cSJessica Paquette }
468950efbf9cSJessica Paquette
469050efbf9cSJessica Paquette // Find the mask on the RHS.
4691d477a7c2SPetar Avramovic auto Cst = getIConstantVRegValWithLookThrough(AndRHS, MRI);
469250efbf9cSJessica Paquette if (!Cst)
469350efbf9cSJessica Paquette return false;
469450efbf9cSJessica Paquette auto Mask = Cst->Value;
469550efbf9cSJessica Paquette if (!Mask.isMask())
469650efbf9cSJessica Paquette return false;
469750efbf9cSJessica Paquette
469850efbf9cSJessica Paquette // No point in combining if there's nothing to truncate.
469950efbf9cSJessica Paquette unsigned NarrowWidth = Mask.countTrailingOnes();
470050efbf9cSJessica Paquette if (NarrowWidth == WideTy.getSizeInBits())
470150efbf9cSJessica Paquette return false;
470250efbf9cSJessica Paquette LLT NarrowTy = LLT::scalar(NarrowWidth);
470350efbf9cSJessica Paquette
470450efbf9cSJessica Paquette // Check if adding the zext + truncates could be harmful.
470550efbf9cSJessica Paquette auto &MF = *MI.getMF();
470650efbf9cSJessica Paquette const auto &TLI = getTargetLowering();
470750efbf9cSJessica Paquette LLVMContext &Ctx = MF.getFunction().getContext();
470850efbf9cSJessica Paquette auto &DL = MF.getDataLayout();
470950efbf9cSJessica Paquette if (!TLI.isTruncateFree(WideTy, NarrowTy, DL, Ctx) ||
471050efbf9cSJessica Paquette !TLI.isZExtFree(NarrowTy, WideTy, DL, Ctx))
471150efbf9cSJessica Paquette return false;
471250efbf9cSJessica Paquette if (!isLegalOrBeforeLegalizer({TargetOpcode::G_TRUNC, {NarrowTy, WideTy}}) ||
471350efbf9cSJessica Paquette !isLegalOrBeforeLegalizer({TargetOpcode::G_ZEXT, {WideTy, NarrowTy}}))
471450efbf9cSJessica Paquette return false;
471550efbf9cSJessica Paquette Register BinOpLHS = LHSInst->getOperand(1).getReg();
471650efbf9cSJessica Paquette Register BinOpRHS = LHSInst->getOperand(2).getReg();
471750efbf9cSJessica Paquette MatchInfo = [=, &MI](MachineIRBuilder &B) {
471850efbf9cSJessica Paquette auto NarrowLHS = Builder.buildTrunc(NarrowTy, BinOpLHS);
471950efbf9cSJessica Paquette auto NarrowRHS = Builder.buildTrunc(NarrowTy, BinOpRHS);
472050efbf9cSJessica Paquette auto NarrowBinOp =
472150efbf9cSJessica Paquette Builder.buildInstr(LHSOpc, {NarrowTy}, {NarrowLHS, NarrowRHS});
472250efbf9cSJessica Paquette auto Ext = Builder.buildZExt(WideTy, NarrowBinOp);
472350efbf9cSJessica Paquette Observer.changingInstr(MI);
472450efbf9cSJessica Paquette MI.getOperand(1).setReg(Ext.getReg(0));
472550efbf9cSJessica Paquette Observer.changedInstr(MI);
472650efbf9cSJessica Paquette };
472750efbf9cSJessica Paquette return true;
472850efbf9cSJessica Paquette }
472950efbf9cSJessica Paquette
matchMulOBy2(MachineInstr & MI,BuildFnTy & MatchInfo)473015a24e1fSJessica Paquette bool CombinerHelper::matchMulOBy2(MachineInstr &MI, BuildFnTy &MatchInfo) {
473115a24e1fSJessica Paquette unsigned Opc = MI.getOpcode();
473215a24e1fSJessica Paquette assert(Opc == TargetOpcode::G_UMULO || Opc == TargetOpcode::G_SMULO);
4733bc5dbb0bSAbinav Puthan Purayil
4734bc5dbb0bSAbinav Puthan Purayil if (!mi_match(MI.getOperand(3).getReg(), MRI, m_SpecificICstOrSplat(2)))
473515a24e1fSJessica Paquette return false;
473615a24e1fSJessica Paquette
473715a24e1fSJessica Paquette MatchInfo = [=, &MI](MachineIRBuilder &B) {
473815a24e1fSJessica Paquette Observer.changingInstr(MI);
473915a24e1fSJessica Paquette unsigned NewOpc = Opc == TargetOpcode::G_UMULO ? TargetOpcode::G_UADDO
474015a24e1fSJessica Paquette : TargetOpcode::G_SADDO;
474115a24e1fSJessica Paquette MI.setDesc(Builder.getTII().get(NewOpc));
474215a24e1fSJessica Paquette MI.getOperand(3).setReg(MI.getOperand(2).getReg());
474315a24e1fSJessica Paquette Observer.changedInstr(MI);
474415a24e1fSJessica Paquette };
474515a24e1fSJessica Paquette return true;
474615a24e1fSJessica Paquette }
474715a24e1fSJessica Paquette
matchMulOBy0(MachineInstr & MI,BuildFnTy & MatchInfo)4748c636899dSJessica Paquette bool CombinerHelper::matchMulOBy0(MachineInstr &MI, BuildFnTy &MatchInfo) {
4749c636899dSJessica Paquette // (G_*MULO x, 0) -> 0 + no carry out
47505d3a8648SSimon Pilgrim assert(MI.getOpcode() == TargetOpcode::G_UMULO ||
47515d3a8648SSimon Pilgrim MI.getOpcode() == TargetOpcode::G_SMULO);
4752c636899dSJessica Paquette if (!mi_match(MI.getOperand(3).getReg(), MRI, m_SpecificICstOrSplat(0)))
4753c636899dSJessica Paquette return false;
4754c636899dSJessica Paquette Register Dst = MI.getOperand(0).getReg();
4755c636899dSJessica Paquette Register Carry = MI.getOperand(1).getReg();
47569a61e731SJessica Paquette if (!isConstantLegalOrBeforeLegalizer(MRI.getType(Dst)) ||
47579a61e731SJessica Paquette !isConstantLegalOrBeforeLegalizer(MRI.getType(Carry)))
4758c636899dSJessica Paquette return false;
4759c636899dSJessica Paquette MatchInfo = [=](MachineIRBuilder &B) {
4760c636899dSJessica Paquette B.buildConstant(Dst, 0);
4761c636899dSJessica Paquette B.buildConstant(Carry, 0);
4762c636899dSJessica Paquette };
4763c636899dSJessica Paquette return true;
4764c636899dSJessica Paquette }
4765c636899dSJessica Paquette
matchAddOBy0(MachineInstr & MI,BuildFnTy & MatchInfo)47669a61e731SJessica Paquette bool CombinerHelper::matchAddOBy0(MachineInstr &MI, BuildFnTy &MatchInfo) {
47679a61e731SJessica Paquette // (G_*ADDO x, 0) -> x + no carry out
47685d3a8648SSimon Pilgrim assert(MI.getOpcode() == TargetOpcode::G_UADDO ||
47695d3a8648SSimon Pilgrim MI.getOpcode() == TargetOpcode::G_SADDO);
47709a61e731SJessica Paquette if (!mi_match(MI.getOperand(3).getReg(), MRI, m_SpecificICstOrSplat(0)))
47719a61e731SJessica Paquette return false;
47729a61e731SJessica Paquette Register Carry = MI.getOperand(1).getReg();
47739a61e731SJessica Paquette if (!isConstantLegalOrBeforeLegalizer(MRI.getType(Carry)))
47749a61e731SJessica Paquette return false;
47759a61e731SJessica Paquette Register Dst = MI.getOperand(0).getReg();
47769a61e731SJessica Paquette Register LHS = MI.getOperand(2).getReg();
47779a61e731SJessica Paquette MatchInfo = [=](MachineIRBuilder &B) {
47789a61e731SJessica Paquette B.buildCopy(Dst, LHS);
47799a61e731SJessica Paquette B.buildConstant(Carry, 0);
47809a61e731SJessica Paquette };
47819a61e731SJessica Paquette return true;
47829a61e731SJessica Paquette }
47839a61e731SJessica Paquette
buildUDivUsingMul(MachineInstr & MI)47848bfc0e06SAmara Emerson MachineInstr *CombinerHelper::buildUDivUsingMul(MachineInstr &MI) {
47858bfc0e06SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_UDIV);
47868bfc0e06SAmara Emerson auto &UDiv = cast<GenericMachineInstr>(MI);
47878bfc0e06SAmara Emerson Register Dst = UDiv.getReg(0);
47888bfc0e06SAmara Emerson Register LHS = UDiv.getReg(1);
47898bfc0e06SAmara Emerson Register RHS = UDiv.getReg(2);
47908bfc0e06SAmara Emerson LLT Ty = MRI.getType(Dst);
47918bfc0e06SAmara Emerson LLT ScalarTy = Ty.getScalarType();
47928bfc0e06SAmara Emerson const unsigned EltBits = ScalarTy.getScalarSizeInBits();
47938bfc0e06SAmara Emerson LLT ShiftAmtTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
47948bfc0e06SAmara Emerson LLT ScalarShiftAmtTy = ShiftAmtTy.getScalarType();
47958bfc0e06SAmara Emerson auto &MIB = Builder;
47968bfc0e06SAmara Emerson MIB.setInstrAndDebugLoc(MI);
47978bfc0e06SAmara Emerson
47988bfc0e06SAmara Emerson bool UseNPQ = false;
47998bfc0e06SAmara Emerson SmallVector<Register, 16> PreShifts, PostShifts, MagicFactors, NPQFactors;
48008bfc0e06SAmara Emerson
48018bfc0e06SAmara Emerson auto BuildUDIVPattern = [&](const Constant *C) {
48028bfc0e06SAmara Emerson auto *CI = cast<ConstantInt>(C);
48038bfc0e06SAmara Emerson const APInt &Divisor = CI->getValue();
4804a55ff6aaSCraig Topper UnsignedDivisionByConstantInfo magics =
4805a55ff6aaSCraig Topper UnsignedDivisionByConstantInfo::get(Divisor);
48068bfc0e06SAmara Emerson unsigned PreShift = 0, PostShift = 0;
48078bfc0e06SAmara Emerson
48088bfc0e06SAmara Emerson // If the divisor is even, we can avoid using the expensive fixup by
48098bfc0e06SAmara Emerson // shifting the divided value upfront.
4810795602afSCraig Topper if (magics.IsAdd && !Divisor[0]) {
48118bfc0e06SAmara Emerson PreShift = Divisor.countTrailingZeros();
48128bfc0e06SAmara Emerson // Get magic number for the shifted divisor.
48138bfc0e06SAmara Emerson magics =
4814a55ff6aaSCraig Topper UnsignedDivisionByConstantInfo::get(Divisor.lshr(PreShift), PreShift);
4815795602afSCraig Topper assert(!magics.IsAdd && "Should use cheap fixup now");
48168bfc0e06SAmara Emerson }
48178bfc0e06SAmara Emerson
48188bfc0e06SAmara Emerson unsigned SelNPQ;
4819795602afSCraig Topper if (!magics.IsAdd || Divisor.isOneValue()) {
48208bfc0e06SAmara Emerson assert(magics.ShiftAmount < Divisor.getBitWidth() &&
48218bfc0e06SAmara Emerson "We shouldn't generate an undefined shift!");
48228bfc0e06SAmara Emerson PostShift = magics.ShiftAmount;
48238bfc0e06SAmara Emerson SelNPQ = false;
48248bfc0e06SAmara Emerson } else {
48258bfc0e06SAmara Emerson PostShift = magics.ShiftAmount - 1;
48268bfc0e06SAmara Emerson SelNPQ = true;
48278bfc0e06SAmara Emerson }
48288bfc0e06SAmara Emerson
48298bfc0e06SAmara Emerson PreShifts.push_back(
48308bfc0e06SAmara Emerson MIB.buildConstant(ScalarShiftAmtTy, PreShift).getReg(0));
48317fa1c326SCraig Topper MagicFactors.push_back(MIB.buildConstant(ScalarTy, magics.Magic).getReg(0));
48328bfc0e06SAmara Emerson NPQFactors.push_back(
48338bfc0e06SAmara Emerson MIB.buildConstant(ScalarTy,
48348bfc0e06SAmara Emerson SelNPQ ? APInt::getOneBitSet(EltBits, EltBits - 1)
48358bfc0e06SAmara Emerson : APInt::getZero(EltBits))
48368bfc0e06SAmara Emerson .getReg(0));
48378bfc0e06SAmara Emerson PostShifts.push_back(
48388bfc0e06SAmara Emerson MIB.buildConstant(ScalarShiftAmtTy, PostShift).getReg(0));
48398bfc0e06SAmara Emerson UseNPQ |= SelNPQ;
48408bfc0e06SAmara Emerson return true;
48418bfc0e06SAmara Emerson };
48428bfc0e06SAmara Emerson
48438bfc0e06SAmara Emerson // Collect the shifts/magic values from each element.
48448bfc0e06SAmara Emerson bool Matched = matchUnaryPredicate(MRI, RHS, BuildUDIVPattern);
48458bfc0e06SAmara Emerson (void)Matched;
48468bfc0e06SAmara Emerson assert(Matched && "Expected unary predicate match to succeed");
48478bfc0e06SAmara Emerson
48488bfc0e06SAmara Emerson Register PreShift, PostShift, MagicFactor, NPQFactor;
48498bfc0e06SAmara Emerson auto *RHSDef = getOpcodeDef<GBuildVector>(RHS, MRI);
48508bfc0e06SAmara Emerson if (RHSDef) {
48518bfc0e06SAmara Emerson PreShift = MIB.buildBuildVector(ShiftAmtTy, PreShifts).getReg(0);
48528bfc0e06SAmara Emerson MagicFactor = MIB.buildBuildVector(Ty, MagicFactors).getReg(0);
48538bfc0e06SAmara Emerson NPQFactor = MIB.buildBuildVector(Ty, NPQFactors).getReg(0);
48548bfc0e06SAmara Emerson PostShift = MIB.buildBuildVector(ShiftAmtTy, PostShifts).getReg(0);
48558bfc0e06SAmara Emerson } else {
48568bfc0e06SAmara Emerson assert(MRI.getType(RHS).isScalar() &&
48578bfc0e06SAmara Emerson "Non-build_vector operation should have been a scalar");
48588bfc0e06SAmara Emerson PreShift = PreShifts[0];
48598bfc0e06SAmara Emerson MagicFactor = MagicFactors[0];
48608bfc0e06SAmara Emerson PostShift = PostShifts[0];
48618bfc0e06SAmara Emerson }
48628bfc0e06SAmara Emerson
48638bfc0e06SAmara Emerson Register Q = LHS;
48648bfc0e06SAmara Emerson Q = MIB.buildLShr(Ty, Q, PreShift).getReg(0);
48658bfc0e06SAmara Emerson
48668bfc0e06SAmara Emerson // Multiply the numerator (operand 0) by the magic value.
48678bfc0e06SAmara Emerson Q = MIB.buildUMulH(Ty, Q, MagicFactor).getReg(0);
48688bfc0e06SAmara Emerson
48698bfc0e06SAmara Emerson if (UseNPQ) {
48708bfc0e06SAmara Emerson Register NPQ = MIB.buildSub(Ty, LHS, Q).getReg(0);
48718bfc0e06SAmara Emerson
48728bfc0e06SAmara Emerson // For vectors we might have a mix of non-NPQ/NPQ paths, so use
48738bfc0e06SAmara Emerson // G_UMULH to act as a SRL-by-1 for NPQ, else multiply by zero.
48748bfc0e06SAmara Emerson if (Ty.isVector())
48758bfc0e06SAmara Emerson NPQ = MIB.buildUMulH(Ty, NPQ, NPQFactor).getReg(0);
48768bfc0e06SAmara Emerson else
48778bfc0e06SAmara Emerson NPQ = MIB.buildLShr(Ty, NPQ, MIB.buildConstant(ShiftAmtTy, 1)).getReg(0);
48788bfc0e06SAmara Emerson
48798bfc0e06SAmara Emerson Q = MIB.buildAdd(Ty, NPQ, Q).getReg(0);
48808bfc0e06SAmara Emerson }
48818bfc0e06SAmara Emerson
48828bfc0e06SAmara Emerson Q = MIB.buildLShr(Ty, Q, PostShift).getReg(0);
48838bfc0e06SAmara Emerson auto One = MIB.buildConstant(Ty, 1);
48848bfc0e06SAmara Emerson auto IsOne = MIB.buildICmp(
48858bfc0e06SAmara Emerson CmpInst::Predicate::ICMP_EQ,
48868bfc0e06SAmara Emerson Ty.isScalar() ? LLT::scalar(1) : Ty.changeElementSize(1), RHS, One);
48878bfc0e06SAmara Emerson return MIB.buildSelect(Ty, IsOne, LHS, Q);
48888bfc0e06SAmara Emerson }
48898bfc0e06SAmara Emerson
matchUDivByConst(MachineInstr & MI)48908bfc0e06SAmara Emerson bool CombinerHelper::matchUDivByConst(MachineInstr &MI) {
48918bfc0e06SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_UDIV);
48928bfc0e06SAmara Emerson Register Dst = MI.getOperand(0).getReg();
48938bfc0e06SAmara Emerson Register RHS = MI.getOperand(2).getReg();
48948bfc0e06SAmara Emerson LLT DstTy = MRI.getType(Dst);
48958bfc0e06SAmara Emerson auto *RHSDef = MRI.getVRegDef(RHS);
48968bfc0e06SAmara Emerson if (!isConstantOrConstantVector(*RHSDef, MRI))
48978bfc0e06SAmara Emerson return false;
48988bfc0e06SAmara Emerson
48998bfc0e06SAmara Emerson auto &MF = *MI.getMF();
49008bfc0e06SAmara Emerson AttributeList Attr = MF.getFunction().getAttributes();
49018bfc0e06SAmara Emerson const auto &TLI = getTargetLowering();
49028bfc0e06SAmara Emerson LLVMContext &Ctx = MF.getFunction().getContext();
49038bfc0e06SAmara Emerson auto &DL = MF.getDataLayout();
49048bfc0e06SAmara Emerson if (TLI.isIntDivCheap(getApproximateEVTForLLT(DstTy, DL, Ctx), Attr))
49058bfc0e06SAmara Emerson return false;
49068bfc0e06SAmara Emerson
49078bfc0e06SAmara Emerson // Don't do this for minsize because the instruction sequence is usually
49088bfc0e06SAmara Emerson // larger.
49098bfc0e06SAmara Emerson if (MF.getFunction().hasMinSize())
49108bfc0e06SAmara Emerson return false;
49118bfc0e06SAmara Emerson
49128bfc0e06SAmara Emerson // Don't do this if the types are not going to be legal.
49138bfc0e06SAmara Emerson if (LI) {
49148bfc0e06SAmara Emerson if (!isLegalOrBeforeLegalizer({TargetOpcode::G_MUL, {DstTy, DstTy}}))
49158bfc0e06SAmara Emerson return false;
49168bfc0e06SAmara Emerson if (!isLegalOrBeforeLegalizer({TargetOpcode::G_UMULH, {DstTy}}))
49178bfc0e06SAmara Emerson return false;
49188bfc0e06SAmara Emerson if (!isLegalOrBeforeLegalizer(
49198bfc0e06SAmara Emerson {TargetOpcode::G_ICMP,
49208bfc0e06SAmara Emerson {DstTy.isVector() ? DstTy.changeElementSize(1) : LLT::scalar(1),
49218bfc0e06SAmara Emerson DstTy}}))
49228bfc0e06SAmara Emerson return false;
49238bfc0e06SAmara Emerson }
49248bfc0e06SAmara Emerson
49258bfc0e06SAmara Emerson auto CheckEltValue = [&](const Constant *C) {
49268bfc0e06SAmara Emerson if (auto *CI = dyn_cast_or_null<ConstantInt>(C))
49278bfc0e06SAmara Emerson return !CI->isZero();
49288bfc0e06SAmara Emerson return false;
49298bfc0e06SAmara Emerson };
49308bfc0e06SAmara Emerson return matchUnaryPredicate(MRI, RHS, CheckEltValue);
49318bfc0e06SAmara Emerson }
49328bfc0e06SAmara Emerson
applyUDivByConst(MachineInstr & MI)49338bfc0e06SAmara Emerson void CombinerHelper::applyUDivByConst(MachineInstr &MI) {
49348bfc0e06SAmara Emerson auto *NewMI = buildUDivUsingMul(MI);
49358bfc0e06SAmara Emerson replaceSingleDefInstWithReg(MI, NewMI->getOperand(0).getReg());
49368bfc0e06SAmara Emerson }
49378bfc0e06SAmara Emerson
matchUMulHToLShr(MachineInstr & MI)493808b3c0d9SAmara Emerson bool CombinerHelper::matchUMulHToLShr(MachineInstr &MI) {
493908b3c0d9SAmara Emerson assert(MI.getOpcode() == TargetOpcode::G_UMULH);
494008b3c0d9SAmara Emerson Register RHS = MI.getOperand(2).getReg();
494108b3c0d9SAmara Emerson Register Dst = MI.getOperand(0).getReg();
494208b3c0d9SAmara Emerson LLT Ty = MRI.getType(Dst);
494308b3c0d9SAmara Emerson LLT ShiftAmtTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
494417b89f9dSAmara Emerson auto MatchPow2ExceptOne = [&](const Constant *C) {
494517b89f9dSAmara Emerson if (auto *CI = dyn_cast<ConstantInt>(C))
494617b89f9dSAmara Emerson return CI->getValue().isPowerOf2() && !CI->getValue().isOne();
494717b89f9dSAmara Emerson return false;
494817b89f9dSAmara Emerson };
494917b89f9dSAmara Emerson if (!matchUnaryPredicate(MRI, RHS, MatchPow2ExceptOne, false))
495008b3c0d9SAmara Emerson return false;
495108b3c0d9SAmara Emerson return isLegalOrBeforeLegalizer({TargetOpcode::G_LSHR, {Ty, ShiftAmtTy}});
495208b3c0d9SAmara Emerson }
495308b3c0d9SAmara Emerson
applyUMulHToLShr(MachineInstr & MI)495408b3c0d9SAmara Emerson void CombinerHelper::applyUMulHToLShr(MachineInstr &MI) {
495508b3c0d9SAmara Emerson Register LHS = MI.getOperand(1).getReg();
495608b3c0d9SAmara Emerson Register RHS = MI.getOperand(2).getReg();
495708b3c0d9SAmara Emerson Register Dst = MI.getOperand(0).getReg();
495808b3c0d9SAmara Emerson LLT Ty = MRI.getType(Dst);
495908b3c0d9SAmara Emerson LLT ShiftAmtTy = getTargetLowering().getPreferredShiftAmountTy(Ty);
496008b3c0d9SAmara Emerson unsigned NumEltBits = Ty.getScalarSizeInBits();
496108b3c0d9SAmara Emerson
496208b3c0d9SAmara Emerson Builder.setInstrAndDebugLoc(MI);
496308b3c0d9SAmara Emerson auto LogBase2 = buildLogBase2(RHS, Builder);
496408b3c0d9SAmara Emerson auto ShiftAmt =
496508b3c0d9SAmara Emerson Builder.buildSub(Ty, Builder.buildConstant(Ty, NumEltBits), LogBase2);
496608b3c0d9SAmara Emerson auto Trunc = Builder.buildZExtOrTrunc(ShiftAmtTy, ShiftAmt);
496708b3c0d9SAmara Emerson Builder.buildLShr(Dst, LHS, Trunc);
496808b3c0d9SAmara Emerson MI.eraseFromParent();
496908b3c0d9SAmara Emerson }
497008b3c0d9SAmara Emerson
matchRedundantNegOperands(MachineInstr & MI,BuildFnTy & MatchInfo)4971d20840c9SMirko Brkusanin bool CombinerHelper::matchRedundantNegOperands(MachineInstr &MI,
4972d20840c9SMirko Brkusanin BuildFnTy &MatchInfo) {
4973d20840c9SMirko Brkusanin unsigned Opc = MI.getOpcode();
4974d20840c9SMirko Brkusanin assert(Opc == TargetOpcode::G_FADD || Opc == TargetOpcode::G_FSUB ||
4975d20840c9SMirko Brkusanin Opc == TargetOpcode::G_FMUL || Opc == TargetOpcode::G_FDIV ||
4976d20840c9SMirko Brkusanin Opc == TargetOpcode::G_FMAD || Opc == TargetOpcode::G_FMA);
4977d20840c9SMirko Brkusanin
4978d20840c9SMirko Brkusanin Register Dst = MI.getOperand(0).getReg();
4979d20840c9SMirko Brkusanin Register X = MI.getOperand(1).getReg();
4980d20840c9SMirko Brkusanin Register Y = MI.getOperand(2).getReg();
4981d20840c9SMirko Brkusanin LLT Type = MRI.getType(Dst);
4982d20840c9SMirko Brkusanin
4983d20840c9SMirko Brkusanin // fold (fadd x, fneg(y)) -> (fsub x, y)
4984d20840c9SMirko Brkusanin // fold (fadd fneg(y), x) -> (fsub x, y)
4985d20840c9SMirko Brkusanin // G_ADD is commutative so both cases are checked by m_GFAdd
4986d20840c9SMirko Brkusanin if (mi_match(Dst, MRI, m_GFAdd(m_Reg(X), m_GFNeg(m_Reg(Y)))) &&
4987d20840c9SMirko Brkusanin isLegalOrBeforeLegalizer({TargetOpcode::G_FSUB, {Type}})) {
4988d20840c9SMirko Brkusanin Opc = TargetOpcode::G_FSUB;
4989d20840c9SMirko Brkusanin }
4990d20840c9SMirko Brkusanin /// fold (fsub x, fneg(y)) -> (fadd x, y)
4991d20840c9SMirko Brkusanin else if (mi_match(Dst, MRI, m_GFSub(m_Reg(X), m_GFNeg(m_Reg(Y)))) &&
4992d20840c9SMirko Brkusanin isLegalOrBeforeLegalizer({TargetOpcode::G_FADD, {Type}})) {
4993d20840c9SMirko Brkusanin Opc = TargetOpcode::G_FADD;
4994d20840c9SMirko Brkusanin }
4995d20840c9SMirko Brkusanin // fold (fmul fneg(x), fneg(y)) -> (fmul x, y)
4996d20840c9SMirko Brkusanin // fold (fdiv fneg(x), fneg(y)) -> (fdiv x, y)
4997d20840c9SMirko Brkusanin // fold (fmad fneg(x), fneg(y), z) -> (fmad x, y, z)
4998d20840c9SMirko Brkusanin // fold (fma fneg(x), fneg(y), z) -> (fma x, y, z)
4999d20840c9SMirko Brkusanin else if ((Opc == TargetOpcode::G_FMUL || Opc == TargetOpcode::G_FDIV ||
5000d20840c9SMirko Brkusanin Opc == TargetOpcode::G_FMAD || Opc == TargetOpcode::G_FMA) &&
5001d20840c9SMirko Brkusanin mi_match(X, MRI, m_GFNeg(m_Reg(X))) &&
5002d20840c9SMirko Brkusanin mi_match(Y, MRI, m_GFNeg(m_Reg(Y)))) {
5003d20840c9SMirko Brkusanin // no opcode change
5004d20840c9SMirko Brkusanin } else
5005d20840c9SMirko Brkusanin return false;
5006d20840c9SMirko Brkusanin
5007d20840c9SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
5008d20840c9SMirko Brkusanin Observer.changingInstr(MI);
5009d20840c9SMirko Brkusanin MI.setDesc(B.getTII().get(Opc));
5010d20840c9SMirko Brkusanin MI.getOperand(1).setReg(X);
5011d20840c9SMirko Brkusanin MI.getOperand(2).setReg(Y);
5012d20840c9SMirko Brkusanin Observer.changedInstr(MI);
5013d20840c9SMirko Brkusanin };
5014d20840c9SMirko Brkusanin return true;
5015d20840c9SMirko Brkusanin }
501608b3c0d9SAmara Emerson
5017881840fcSMirko Brkusanin /// Checks if \p MI is TargetOpcode::G_FMUL and contractable either
5018881840fcSMirko Brkusanin /// due to global flags or MachineInstr flags.
isContractableFMul(MachineInstr & MI,bool AllowFusionGlobally)5019881840fcSMirko Brkusanin static bool isContractableFMul(MachineInstr &MI, bool AllowFusionGlobally) {
5020881840fcSMirko Brkusanin if (MI.getOpcode() != TargetOpcode::G_FMUL)
5021881840fcSMirko Brkusanin return false;
5022881840fcSMirko Brkusanin return AllowFusionGlobally || MI.getFlag(MachineInstr::MIFlag::FmContract);
5023881840fcSMirko Brkusanin }
5024881840fcSMirko Brkusanin
hasMoreUses(const MachineInstr & MI0,const MachineInstr & MI1,const MachineRegisterInfo & MRI)5025881840fcSMirko Brkusanin static bool hasMoreUses(const MachineInstr &MI0, const MachineInstr &MI1,
5026881840fcSMirko Brkusanin const MachineRegisterInfo &MRI) {
5027881840fcSMirko Brkusanin return std::distance(MRI.use_instr_nodbg_begin(MI0.getOperand(0).getReg()),
5028881840fcSMirko Brkusanin MRI.use_instr_nodbg_end()) >
5029881840fcSMirko Brkusanin std::distance(MRI.use_instr_nodbg_begin(MI1.getOperand(0).getReg()),
5030881840fcSMirko Brkusanin MRI.use_instr_nodbg_end());
5031881840fcSMirko Brkusanin }
5032881840fcSMirko Brkusanin
canCombineFMadOrFMA(MachineInstr & MI,bool & AllowFusionGlobally,bool & HasFMAD,bool & Aggressive,bool CanReassociate)5033881840fcSMirko Brkusanin bool CombinerHelper::canCombineFMadOrFMA(MachineInstr &MI,
5034881840fcSMirko Brkusanin bool &AllowFusionGlobally,
5035f7322925SMirko Brkusanin bool &HasFMAD, bool &Aggressive,
5036f7322925SMirko Brkusanin bool CanReassociate) {
5037f7322925SMirko Brkusanin
5038881840fcSMirko Brkusanin auto *MF = MI.getMF();
5039881840fcSMirko Brkusanin const auto &TLI = *MF->getSubtarget().getTargetLowering();
5040881840fcSMirko Brkusanin const TargetOptions &Options = MF->getTarget().Options;
5041881840fcSMirko Brkusanin LLT DstType = MRI.getType(MI.getOperand(0).getReg());
5042881840fcSMirko Brkusanin
5043f7322925SMirko Brkusanin if (CanReassociate &&
5044f7322925SMirko Brkusanin !(Options.UnsafeFPMath || MI.getFlag(MachineInstr::MIFlag::FmReassoc)))
5045f7322925SMirko Brkusanin return false;
5046f7322925SMirko Brkusanin
5047881840fcSMirko Brkusanin // Floating-point multiply-add with intermediate rounding.
5048881840fcSMirko Brkusanin HasFMAD = (LI && TLI.isFMADLegal(MI, DstType));
5049881840fcSMirko Brkusanin // Floating-point multiply-add without intermediate rounding.
5050881840fcSMirko Brkusanin bool HasFMA = TLI.isFMAFasterThanFMulAndFAdd(*MF, DstType) &&
5051881840fcSMirko Brkusanin isLegalOrBeforeLegalizer({TargetOpcode::G_FMA, {DstType}});
5052881840fcSMirko Brkusanin // No valid opcode, do not combine.
5053881840fcSMirko Brkusanin if (!HasFMAD && !HasFMA)
5054881840fcSMirko Brkusanin return false;
5055881840fcSMirko Brkusanin
5056881840fcSMirko Brkusanin AllowFusionGlobally = Options.AllowFPOpFusion == FPOpFusion::Fast ||
5057881840fcSMirko Brkusanin Options.UnsafeFPMath || HasFMAD;
5058881840fcSMirko Brkusanin // If the addition is not contractable, do not combine.
5059881840fcSMirko Brkusanin if (!AllowFusionGlobally && !MI.getFlag(MachineInstr::MIFlag::FmContract))
5060881840fcSMirko Brkusanin return false;
5061881840fcSMirko Brkusanin
5062881840fcSMirko Brkusanin Aggressive = TLI.enableAggressiveFMAFusion(DstType);
5063881840fcSMirko Brkusanin return true;
5064881840fcSMirko Brkusanin }
5065881840fcSMirko Brkusanin
matchCombineFAddFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)5066881840fcSMirko Brkusanin bool CombinerHelper::matchCombineFAddFMulToFMadOrFMA(
5067881840fcSMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
5068881840fcSMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FADD);
5069881840fcSMirko Brkusanin
5070881840fcSMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
5071881840fcSMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
5072881840fcSMirko Brkusanin return false;
5073881840fcSMirko Brkusanin
5074c8c5dc76SPetar Avramovic Register Op1 = MI.getOperand(1).getReg();
5075c8c5dc76SPetar Avramovic Register Op2 = MI.getOperand(2).getReg();
5076c8c5dc76SPetar Avramovic DefinitionAndSourceRegister LHS = {MRI.getVRegDef(Op1), Op1};
5077c8c5dc76SPetar Avramovic DefinitionAndSourceRegister RHS = {MRI.getVRegDef(Op2), Op2};
5078881840fcSMirko Brkusanin unsigned PreferredFusedOpcode =
5079881840fcSMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
5080881840fcSMirko Brkusanin
5081881840fcSMirko Brkusanin // If we have two choices trying to fold (fadd (fmul u, v), (fmul x, y)),
5082881840fcSMirko Brkusanin // prefer to fold the multiply with fewer uses.
5083c8c5dc76SPetar Avramovic if (Aggressive && isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5084c8c5dc76SPetar Avramovic isContractableFMul(*RHS.MI, AllowFusionGlobally)) {
5085c8c5dc76SPetar Avramovic if (hasMoreUses(*LHS.MI, *RHS.MI, MRI))
5086881840fcSMirko Brkusanin std::swap(LHS, RHS);
5087881840fcSMirko Brkusanin }
5088881840fcSMirko Brkusanin
5089881840fcSMirko Brkusanin // fold (fadd (fmul x, y), z) -> (fma x, y, z)
5090c8c5dc76SPetar Avramovic if (isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5091c8c5dc76SPetar Avramovic (Aggressive || MRI.hasOneNonDBGUse(LHS.Reg))) {
5092881840fcSMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
5093881840fcSMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5094c8c5dc76SPetar Avramovic {LHS.MI->getOperand(1).getReg(),
5095c8c5dc76SPetar Avramovic LHS.MI->getOperand(2).getReg(), RHS.Reg});
5096881840fcSMirko Brkusanin };
5097881840fcSMirko Brkusanin return true;
5098881840fcSMirko Brkusanin }
5099881840fcSMirko Brkusanin
5100881840fcSMirko Brkusanin // fold (fadd x, (fmul y, z)) -> (fma y, z, x)
5101c8c5dc76SPetar Avramovic if (isContractableFMul(*RHS.MI, AllowFusionGlobally) &&
5102c8c5dc76SPetar Avramovic (Aggressive || MRI.hasOneNonDBGUse(RHS.Reg))) {
5103881840fcSMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
5104881840fcSMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5105c8c5dc76SPetar Avramovic {RHS.MI->getOperand(1).getReg(),
5106c8c5dc76SPetar Avramovic RHS.MI->getOperand(2).getReg(), LHS.Reg});
5107881840fcSMirko Brkusanin };
5108881840fcSMirko Brkusanin return true;
5109881840fcSMirko Brkusanin }
5110881840fcSMirko Brkusanin
5111881840fcSMirko Brkusanin return false;
5112881840fcSMirko Brkusanin }
5113881840fcSMirko Brkusanin
matchCombineFAddFpExtFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)511489511362SMirko Brkusanin bool CombinerHelper::matchCombineFAddFpExtFMulToFMadOrFMA(
511589511362SMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
511689511362SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FADD);
511789511362SMirko Brkusanin
511889511362SMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
511989511362SMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
512089511362SMirko Brkusanin return false;
512189511362SMirko Brkusanin
512289511362SMirko Brkusanin const auto &TLI = *MI.getMF()->getSubtarget().getTargetLowering();
5123c8c5dc76SPetar Avramovic Register Op1 = MI.getOperand(1).getReg();
5124c8c5dc76SPetar Avramovic Register Op2 = MI.getOperand(2).getReg();
5125c8c5dc76SPetar Avramovic DefinitionAndSourceRegister LHS = {MRI.getVRegDef(Op1), Op1};
5126c8c5dc76SPetar Avramovic DefinitionAndSourceRegister RHS = {MRI.getVRegDef(Op2), Op2};
512789511362SMirko Brkusanin LLT DstType = MRI.getType(MI.getOperand(0).getReg());
512889511362SMirko Brkusanin
512989511362SMirko Brkusanin unsigned PreferredFusedOpcode =
513089511362SMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
513189511362SMirko Brkusanin
513289511362SMirko Brkusanin // If we have two choices trying to fold (fadd (fmul u, v), (fmul x, y)),
513389511362SMirko Brkusanin // prefer to fold the multiply with fewer uses.
5134c8c5dc76SPetar Avramovic if (Aggressive && isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5135c8c5dc76SPetar Avramovic isContractableFMul(*RHS.MI, AllowFusionGlobally)) {
5136c8c5dc76SPetar Avramovic if (hasMoreUses(*LHS.MI, *RHS.MI, MRI))
513789511362SMirko Brkusanin std::swap(LHS, RHS);
513889511362SMirko Brkusanin }
513989511362SMirko Brkusanin
514089511362SMirko Brkusanin // fold (fadd (fpext (fmul x, y)), z) -> (fma (fpext x), (fpext y), z)
514189511362SMirko Brkusanin MachineInstr *FpExtSrc;
5142c8c5dc76SPetar Avramovic if (mi_match(LHS.Reg, MRI, m_GFPExt(m_MInstr(FpExtSrc))) &&
514389511362SMirko Brkusanin isContractableFMul(*FpExtSrc, AllowFusionGlobally) &&
514489511362SMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstType,
514589511362SMirko Brkusanin MRI.getType(FpExtSrc->getOperand(1).getReg()))) {
514689511362SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
514789511362SMirko Brkusanin auto FpExtX = B.buildFPExt(DstType, FpExtSrc->getOperand(1).getReg());
514889511362SMirko Brkusanin auto FpExtY = B.buildFPExt(DstType, FpExtSrc->getOperand(2).getReg());
5149c8c5dc76SPetar Avramovic B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5150c8c5dc76SPetar Avramovic {FpExtX.getReg(0), FpExtY.getReg(0), RHS.Reg});
515189511362SMirko Brkusanin };
515289511362SMirko Brkusanin return true;
515389511362SMirko Brkusanin }
515489511362SMirko Brkusanin
515589511362SMirko Brkusanin // fold (fadd z, (fpext (fmul x, y))) -> (fma (fpext x), (fpext y), z)
515689511362SMirko Brkusanin // Note: Commutes FADD operands.
5157c8c5dc76SPetar Avramovic if (mi_match(RHS.Reg, MRI, m_GFPExt(m_MInstr(FpExtSrc))) &&
515889511362SMirko Brkusanin isContractableFMul(*FpExtSrc, AllowFusionGlobally) &&
515989511362SMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstType,
516089511362SMirko Brkusanin MRI.getType(FpExtSrc->getOperand(1).getReg()))) {
516189511362SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
516289511362SMirko Brkusanin auto FpExtX = B.buildFPExt(DstType, FpExtSrc->getOperand(1).getReg());
516389511362SMirko Brkusanin auto FpExtY = B.buildFPExt(DstType, FpExtSrc->getOperand(2).getReg());
5164c8c5dc76SPetar Avramovic B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5165c8c5dc76SPetar Avramovic {FpExtX.getReg(0), FpExtY.getReg(0), LHS.Reg});
516689511362SMirko Brkusanin };
516789511362SMirko Brkusanin return true;
516889511362SMirko Brkusanin }
516989511362SMirko Brkusanin
517089511362SMirko Brkusanin return false;
517189511362SMirko Brkusanin }
517289511362SMirko Brkusanin
matchCombineFAddFMAFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)5173f7322925SMirko Brkusanin bool CombinerHelper::matchCombineFAddFMAFMulToFMadOrFMA(
5174f7322925SMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
5175f7322925SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FADD);
5176f7322925SMirko Brkusanin
5177f7322925SMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
5178f7322925SMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive, true))
5179f7322925SMirko Brkusanin return false;
5180f7322925SMirko Brkusanin
5181c8c5dc76SPetar Avramovic Register Op1 = MI.getOperand(1).getReg();
5182c8c5dc76SPetar Avramovic Register Op2 = MI.getOperand(2).getReg();
5183c8c5dc76SPetar Avramovic DefinitionAndSourceRegister LHS = {MRI.getVRegDef(Op1), Op1};
5184c8c5dc76SPetar Avramovic DefinitionAndSourceRegister RHS = {MRI.getVRegDef(Op2), Op2};
5185f7322925SMirko Brkusanin LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
5186f7322925SMirko Brkusanin
5187f7322925SMirko Brkusanin unsigned PreferredFusedOpcode =
5188f7322925SMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
5189f7322925SMirko Brkusanin
5190f7322925SMirko Brkusanin // If we have two choices trying to fold (fadd (fmul u, v), (fmul x, y)),
5191f7322925SMirko Brkusanin // prefer to fold the multiply with fewer uses.
5192c8c5dc76SPetar Avramovic if (Aggressive && isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5193c8c5dc76SPetar Avramovic isContractableFMul(*RHS.MI, AllowFusionGlobally)) {
5194c8c5dc76SPetar Avramovic if (hasMoreUses(*LHS.MI, *RHS.MI, MRI))
5195f7322925SMirko Brkusanin std::swap(LHS, RHS);
5196f7322925SMirko Brkusanin }
5197f7322925SMirko Brkusanin
5198f7322925SMirko Brkusanin MachineInstr *FMA = nullptr;
5199f7322925SMirko Brkusanin Register Z;
5200f7322925SMirko Brkusanin // fold (fadd (fma x, y, (fmul u, v)), z) -> (fma x, y, (fma u, v, z))
5201c8c5dc76SPetar Avramovic if (LHS.MI->getOpcode() == PreferredFusedOpcode &&
5202c8c5dc76SPetar Avramovic (MRI.getVRegDef(LHS.MI->getOperand(3).getReg())->getOpcode() ==
5203f7322925SMirko Brkusanin TargetOpcode::G_FMUL) &&
5204c8c5dc76SPetar Avramovic MRI.hasOneNonDBGUse(LHS.MI->getOperand(0).getReg()) &&
5205c8c5dc76SPetar Avramovic MRI.hasOneNonDBGUse(LHS.MI->getOperand(3).getReg())) {
5206c8c5dc76SPetar Avramovic FMA = LHS.MI;
5207c8c5dc76SPetar Avramovic Z = RHS.Reg;
5208f7322925SMirko Brkusanin }
5209f7322925SMirko Brkusanin // fold (fadd z, (fma x, y, (fmul u, v))) -> (fma x, y, (fma u, v, z))
5210c8c5dc76SPetar Avramovic else if (RHS.MI->getOpcode() == PreferredFusedOpcode &&
5211c8c5dc76SPetar Avramovic (MRI.getVRegDef(RHS.MI->getOperand(3).getReg())->getOpcode() ==
5212f7322925SMirko Brkusanin TargetOpcode::G_FMUL) &&
5213c8c5dc76SPetar Avramovic MRI.hasOneNonDBGUse(RHS.MI->getOperand(0).getReg()) &&
5214c8c5dc76SPetar Avramovic MRI.hasOneNonDBGUse(RHS.MI->getOperand(3).getReg())) {
5215c8c5dc76SPetar Avramovic Z = LHS.Reg;
5216c8c5dc76SPetar Avramovic FMA = RHS.MI;
5217f7322925SMirko Brkusanin }
5218f7322925SMirko Brkusanin
5219f7322925SMirko Brkusanin if (FMA) {
5220f7322925SMirko Brkusanin MachineInstr *FMulMI = MRI.getVRegDef(FMA->getOperand(3).getReg());
5221f7322925SMirko Brkusanin Register X = FMA->getOperand(1).getReg();
5222f7322925SMirko Brkusanin Register Y = FMA->getOperand(2).getReg();
5223f7322925SMirko Brkusanin Register U = FMulMI->getOperand(1).getReg();
5224f7322925SMirko Brkusanin Register V = FMulMI->getOperand(2).getReg();
5225f7322925SMirko Brkusanin
5226f7322925SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
5227f7322925SMirko Brkusanin Register InnerFMA = MRI.createGenericVirtualRegister(DstTy);
5228f7322925SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {InnerFMA}, {U, V, Z});
5229f7322925SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5230f7322925SMirko Brkusanin {X, Y, InnerFMA});
5231f7322925SMirko Brkusanin };
5232f7322925SMirko Brkusanin return true;
5233f7322925SMirko Brkusanin }
5234f7322925SMirko Brkusanin
5235f7322925SMirko Brkusanin return false;
5236f7322925SMirko Brkusanin }
5237f7322925SMirko Brkusanin
matchCombineFAddFpExtFMulToFMadOrFMAAggressive(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)5238e5e49a08SMirko Brkusanin bool CombinerHelper::matchCombineFAddFpExtFMulToFMadOrFMAAggressive(
5239e5e49a08SMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
5240e5e49a08SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FADD);
5241e5e49a08SMirko Brkusanin
5242e5e49a08SMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
5243e5e49a08SMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
5244e5e49a08SMirko Brkusanin return false;
5245e5e49a08SMirko Brkusanin
5246e5e49a08SMirko Brkusanin if (!Aggressive)
5247e5e49a08SMirko Brkusanin return false;
5248e5e49a08SMirko Brkusanin
5249e5e49a08SMirko Brkusanin const auto &TLI = *MI.getMF()->getSubtarget().getTargetLowering();
5250e5e49a08SMirko Brkusanin LLT DstType = MRI.getType(MI.getOperand(0).getReg());
5251c8c5dc76SPetar Avramovic Register Op1 = MI.getOperand(1).getReg();
5252c8c5dc76SPetar Avramovic Register Op2 = MI.getOperand(2).getReg();
5253c8c5dc76SPetar Avramovic DefinitionAndSourceRegister LHS = {MRI.getVRegDef(Op1), Op1};
5254c8c5dc76SPetar Avramovic DefinitionAndSourceRegister RHS = {MRI.getVRegDef(Op2), Op2};
5255e5e49a08SMirko Brkusanin
5256e5e49a08SMirko Brkusanin unsigned PreferredFusedOpcode =
5257e5e49a08SMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
5258e5e49a08SMirko Brkusanin
5259e5e49a08SMirko Brkusanin // If we have two choices trying to fold (fadd (fmul u, v), (fmul x, y)),
5260e5e49a08SMirko Brkusanin // prefer to fold the multiply with fewer uses.
5261c8c5dc76SPetar Avramovic if (Aggressive && isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5262c8c5dc76SPetar Avramovic isContractableFMul(*RHS.MI, AllowFusionGlobally)) {
5263c8c5dc76SPetar Avramovic if (hasMoreUses(*LHS.MI, *RHS.MI, MRI))
5264e5e49a08SMirko Brkusanin std::swap(LHS, RHS);
5265e5e49a08SMirko Brkusanin }
5266e5e49a08SMirko Brkusanin
5267e5e49a08SMirko Brkusanin // Builds: (fma x, y, (fma (fpext u), (fpext v), z))
5268e5e49a08SMirko Brkusanin auto buildMatchInfo = [=, &MI](Register U, Register V, Register Z, Register X,
5269e5e49a08SMirko Brkusanin Register Y, MachineIRBuilder &B) {
5270e5e49a08SMirko Brkusanin Register FpExtU = B.buildFPExt(DstType, U).getReg(0);
5271e5e49a08SMirko Brkusanin Register FpExtV = B.buildFPExt(DstType, V).getReg(0);
5272e5e49a08SMirko Brkusanin Register InnerFMA =
5273e5e49a08SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {DstType}, {FpExtU, FpExtV, Z})
5274e5e49a08SMirko Brkusanin .getReg(0);
5275e5e49a08SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5276e5e49a08SMirko Brkusanin {X, Y, InnerFMA});
5277e5e49a08SMirko Brkusanin };
5278e5e49a08SMirko Brkusanin
5279e5e49a08SMirko Brkusanin MachineInstr *FMulMI, *FMAMI;
5280e5e49a08SMirko Brkusanin // fold (fadd (fma x, y, (fpext (fmul u, v))), z)
5281e5e49a08SMirko Brkusanin // -> (fma x, y, (fma (fpext u), (fpext v), z))
5282c8c5dc76SPetar Avramovic if (LHS.MI->getOpcode() == PreferredFusedOpcode &&
5283c8c5dc76SPetar Avramovic mi_match(LHS.MI->getOperand(3).getReg(), MRI,
5284c8c5dc76SPetar Avramovic m_GFPExt(m_MInstr(FMulMI))) &&
5285e5e49a08SMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally) &&
5286e5e49a08SMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstType,
5287e5e49a08SMirko Brkusanin MRI.getType(FMulMI->getOperand(0).getReg()))) {
5288e5e49a08SMirko Brkusanin MatchInfo = [=](MachineIRBuilder &B) {
5289e5e49a08SMirko Brkusanin buildMatchInfo(FMulMI->getOperand(1).getReg(),
5290c8c5dc76SPetar Avramovic FMulMI->getOperand(2).getReg(), RHS.Reg,
5291c8c5dc76SPetar Avramovic LHS.MI->getOperand(1).getReg(),
5292c8c5dc76SPetar Avramovic LHS.MI->getOperand(2).getReg(), B);
5293e5e49a08SMirko Brkusanin };
5294e5e49a08SMirko Brkusanin return true;
5295e5e49a08SMirko Brkusanin }
5296e5e49a08SMirko Brkusanin
5297e5e49a08SMirko Brkusanin // fold (fadd (fpext (fma x, y, (fmul u, v))), z)
5298e5e49a08SMirko Brkusanin // -> (fma (fpext x), (fpext y), (fma (fpext u), (fpext v), z))
5299e5e49a08SMirko Brkusanin // FIXME: This turns two single-precision and one double-precision
5300e5e49a08SMirko Brkusanin // operation into two double-precision operations, which might not be
5301e5e49a08SMirko Brkusanin // interesting for all targets, especially GPUs.
5302c8c5dc76SPetar Avramovic if (mi_match(LHS.Reg, MRI, m_GFPExt(m_MInstr(FMAMI))) &&
5303e5e49a08SMirko Brkusanin FMAMI->getOpcode() == PreferredFusedOpcode) {
5304e5e49a08SMirko Brkusanin MachineInstr *FMulMI = MRI.getVRegDef(FMAMI->getOperand(3).getReg());
5305e5e49a08SMirko Brkusanin if (isContractableFMul(*FMulMI, AllowFusionGlobally) &&
5306e5e49a08SMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstType,
5307e5e49a08SMirko Brkusanin MRI.getType(FMAMI->getOperand(0).getReg()))) {
5308e5e49a08SMirko Brkusanin MatchInfo = [=](MachineIRBuilder &B) {
5309e5e49a08SMirko Brkusanin Register X = FMAMI->getOperand(1).getReg();
5310e5e49a08SMirko Brkusanin Register Y = FMAMI->getOperand(2).getReg();
5311e5e49a08SMirko Brkusanin X = B.buildFPExt(DstType, X).getReg(0);
5312e5e49a08SMirko Brkusanin Y = B.buildFPExt(DstType, Y).getReg(0);
5313e5e49a08SMirko Brkusanin buildMatchInfo(FMulMI->getOperand(1).getReg(),
5314c8c5dc76SPetar Avramovic FMulMI->getOperand(2).getReg(), RHS.Reg, X, Y, B);
5315e5e49a08SMirko Brkusanin };
5316e5e49a08SMirko Brkusanin
5317e5e49a08SMirko Brkusanin return true;
5318e5e49a08SMirko Brkusanin }
5319e5e49a08SMirko Brkusanin }
5320e5e49a08SMirko Brkusanin
5321e5e49a08SMirko Brkusanin // fold (fadd z, (fma x, y, (fpext (fmul u, v)))
5322e5e49a08SMirko Brkusanin // -> (fma x, y, (fma (fpext u), (fpext v), z))
5323c8c5dc76SPetar Avramovic if (RHS.MI->getOpcode() == PreferredFusedOpcode &&
5324c8c5dc76SPetar Avramovic mi_match(RHS.MI->getOperand(3).getReg(), MRI,
5325c8c5dc76SPetar Avramovic m_GFPExt(m_MInstr(FMulMI))) &&
5326e5e49a08SMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally) &&
5327e5e49a08SMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstType,
5328e5e49a08SMirko Brkusanin MRI.getType(FMulMI->getOperand(0).getReg()))) {
5329e5e49a08SMirko Brkusanin MatchInfo = [=](MachineIRBuilder &B) {
5330e5e49a08SMirko Brkusanin buildMatchInfo(FMulMI->getOperand(1).getReg(),
5331c8c5dc76SPetar Avramovic FMulMI->getOperand(2).getReg(), LHS.Reg,
5332c8c5dc76SPetar Avramovic RHS.MI->getOperand(1).getReg(),
5333c8c5dc76SPetar Avramovic RHS.MI->getOperand(2).getReg(), B);
5334e5e49a08SMirko Brkusanin };
5335e5e49a08SMirko Brkusanin return true;
5336e5e49a08SMirko Brkusanin }
5337e5e49a08SMirko Brkusanin
5338e5e49a08SMirko Brkusanin // fold (fadd z, (fpext (fma x, y, (fmul u, v)))
5339e5e49a08SMirko Brkusanin // -> (fma (fpext x), (fpext y), (fma (fpext u), (fpext v), z))
5340e5e49a08SMirko Brkusanin // FIXME: This turns two single-precision and one double-precision
5341e5e49a08SMirko Brkusanin // operation into two double-precision operations, which might not be
5342e5e49a08SMirko Brkusanin // interesting for all targets, especially GPUs.
5343c8c5dc76SPetar Avramovic if (mi_match(RHS.Reg, MRI, m_GFPExt(m_MInstr(FMAMI))) &&
5344e5e49a08SMirko Brkusanin FMAMI->getOpcode() == PreferredFusedOpcode) {
5345e5e49a08SMirko Brkusanin MachineInstr *FMulMI = MRI.getVRegDef(FMAMI->getOperand(3).getReg());
5346e5e49a08SMirko Brkusanin if (isContractableFMul(*FMulMI, AllowFusionGlobally) &&
5347e5e49a08SMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstType,
5348e5e49a08SMirko Brkusanin MRI.getType(FMAMI->getOperand(0).getReg()))) {
5349e5e49a08SMirko Brkusanin MatchInfo = [=](MachineIRBuilder &B) {
5350e5e49a08SMirko Brkusanin Register X = FMAMI->getOperand(1).getReg();
5351e5e49a08SMirko Brkusanin Register Y = FMAMI->getOperand(2).getReg();
5352e5e49a08SMirko Brkusanin X = B.buildFPExt(DstType, X).getReg(0);
5353e5e49a08SMirko Brkusanin Y = B.buildFPExt(DstType, Y).getReg(0);
5354e5e49a08SMirko Brkusanin buildMatchInfo(FMulMI->getOperand(1).getReg(),
5355c8c5dc76SPetar Avramovic FMulMI->getOperand(2).getReg(), LHS.Reg, X, Y, B);
5356e5e49a08SMirko Brkusanin };
5357e5e49a08SMirko Brkusanin return true;
5358e5e49a08SMirko Brkusanin }
5359e5e49a08SMirko Brkusanin }
5360e5e49a08SMirko Brkusanin
5361e5e49a08SMirko Brkusanin return false;
5362e5e49a08SMirko Brkusanin }
5363e5e49a08SMirko Brkusanin
matchCombineFSubFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)5364a7821692SMirko Brkusanin bool CombinerHelper::matchCombineFSubFMulToFMadOrFMA(
5365a7821692SMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
5366a7821692SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FSUB);
5367a7821692SMirko Brkusanin
5368a7821692SMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
5369a7821692SMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
5370a7821692SMirko Brkusanin return false;
5371a7821692SMirko Brkusanin
5372c8c5dc76SPetar Avramovic Register Op1 = MI.getOperand(1).getReg();
5373c8c5dc76SPetar Avramovic Register Op2 = MI.getOperand(2).getReg();
5374c8c5dc76SPetar Avramovic DefinitionAndSourceRegister LHS = {MRI.getVRegDef(Op1), Op1};
5375c8c5dc76SPetar Avramovic DefinitionAndSourceRegister RHS = {MRI.getVRegDef(Op2), Op2};
5376a7821692SMirko Brkusanin LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
5377a7821692SMirko Brkusanin
5378a7821692SMirko Brkusanin // If we have two choices trying to fold (fadd (fmul u, v), (fmul x, y)),
5379a7821692SMirko Brkusanin // prefer to fold the multiply with fewer uses.
5380a7821692SMirko Brkusanin int FirstMulHasFewerUses = true;
5381c8c5dc76SPetar Avramovic if (isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5382c8c5dc76SPetar Avramovic isContractableFMul(*RHS.MI, AllowFusionGlobally) &&
5383c8c5dc76SPetar Avramovic hasMoreUses(*LHS.MI, *RHS.MI, MRI))
5384a7821692SMirko Brkusanin FirstMulHasFewerUses = false;
5385a7821692SMirko Brkusanin
5386a7821692SMirko Brkusanin unsigned PreferredFusedOpcode =
5387a7821692SMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
5388a7821692SMirko Brkusanin
5389a7821692SMirko Brkusanin // fold (fsub (fmul x, y), z) -> (fma x, y, -z)
5390a7821692SMirko Brkusanin if (FirstMulHasFewerUses &&
5391c8c5dc76SPetar Avramovic (isContractableFMul(*LHS.MI, AllowFusionGlobally) &&
5392c8c5dc76SPetar Avramovic (Aggressive || MRI.hasOneNonDBGUse(LHS.Reg)))) {
5393a7821692SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
5394c8c5dc76SPetar Avramovic Register NegZ = B.buildFNeg(DstTy, RHS.Reg).getReg(0);
5395c8c5dc76SPetar Avramovic B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5396c8c5dc76SPetar Avramovic {LHS.MI->getOperand(1).getReg(),
5397c8c5dc76SPetar Avramovic LHS.MI->getOperand(2).getReg(), NegZ});
5398a7821692SMirko Brkusanin };
5399a7821692SMirko Brkusanin return true;
5400a7821692SMirko Brkusanin }
5401a7821692SMirko Brkusanin // fold (fsub x, (fmul y, z)) -> (fma -y, z, x)
5402c8c5dc76SPetar Avramovic else if ((isContractableFMul(*RHS.MI, AllowFusionGlobally) &&
5403c8c5dc76SPetar Avramovic (Aggressive || MRI.hasOneNonDBGUse(RHS.Reg)))) {
5404a7821692SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
5405c8c5dc76SPetar Avramovic Register NegY =
5406c8c5dc76SPetar Avramovic B.buildFNeg(DstTy, RHS.MI->getOperand(1).getReg()).getReg(0);
5407c8c5dc76SPetar Avramovic B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
5408c8c5dc76SPetar Avramovic {NegY, RHS.MI->getOperand(2).getReg(), LHS.Reg});
5409a7821692SMirko Brkusanin };
5410a7821692SMirko Brkusanin return true;
5411a7821692SMirko Brkusanin }
5412a7821692SMirko Brkusanin
5413a7821692SMirko Brkusanin return false;
5414a7821692SMirko Brkusanin }
5415a7821692SMirko Brkusanin
matchCombineFSubFNegFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)54165fe7fcd2SMirko Brkusanin bool CombinerHelper::matchCombineFSubFNegFMulToFMadOrFMA(
54175fe7fcd2SMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
54185fe7fcd2SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FSUB);
54195fe7fcd2SMirko Brkusanin
54205fe7fcd2SMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
54215fe7fcd2SMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
54225fe7fcd2SMirko Brkusanin return false;
54235fe7fcd2SMirko Brkusanin
54245fe7fcd2SMirko Brkusanin Register LHSReg = MI.getOperand(1).getReg();
54255fe7fcd2SMirko Brkusanin Register RHSReg = MI.getOperand(2).getReg();
54265fe7fcd2SMirko Brkusanin LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
54275fe7fcd2SMirko Brkusanin
54285fe7fcd2SMirko Brkusanin unsigned PreferredFusedOpcode =
54295fe7fcd2SMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
54305fe7fcd2SMirko Brkusanin
54315fe7fcd2SMirko Brkusanin MachineInstr *FMulMI;
54325fe7fcd2SMirko Brkusanin // fold (fsub (fneg (fmul x, y)), z) -> (fma (fneg x), y, (fneg z))
54335fe7fcd2SMirko Brkusanin if (mi_match(LHSReg, MRI, m_GFNeg(m_MInstr(FMulMI))) &&
54345fe7fcd2SMirko Brkusanin (Aggressive || (MRI.hasOneNonDBGUse(LHSReg) &&
54355fe7fcd2SMirko Brkusanin MRI.hasOneNonDBGUse(FMulMI->getOperand(0).getReg()))) &&
54365fe7fcd2SMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally)) {
54375fe7fcd2SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
54385fe7fcd2SMirko Brkusanin Register NegX =
54395fe7fcd2SMirko Brkusanin B.buildFNeg(DstTy, FMulMI->getOperand(1).getReg()).getReg(0);
54405fe7fcd2SMirko Brkusanin Register NegZ = B.buildFNeg(DstTy, RHSReg).getReg(0);
54415fe7fcd2SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
54425fe7fcd2SMirko Brkusanin {NegX, FMulMI->getOperand(2).getReg(), NegZ});
54435fe7fcd2SMirko Brkusanin };
54445fe7fcd2SMirko Brkusanin return true;
54455fe7fcd2SMirko Brkusanin }
54465fe7fcd2SMirko Brkusanin
54475fe7fcd2SMirko Brkusanin // fold (fsub x, (fneg (fmul, y, z))) -> (fma y, z, x)
54485fe7fcd2SMirko Brkusanin if (mi_match(RHSReg, MRI, m_GFNeg(m_MInstr(FMulMI))) &&
54495fe7fcd2SMirko Brkusanin (Aggressive || (MRI.hasOneNonDBGUse(RHSReg) &&
54505fe7fcd2SMirko Brkusanin MRI.hasOneNonDBGUse(FMulMI->getOperand(0).getReg()))) &&
54515fe7fcd2SMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally)) {
54525fe7fcd2SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
54535fe7fcd2SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
54545fe7fcd2SMirko Brkusanin {FMulMI->getOperand(1).getReg(),
54555fe7fcd2SMirko Brkusanin FMulMI->getOperand(2).getReg(), LHSReg});
54565fe7fcd2SMirko Brkusanin };
54575fe7fcd2SMirko Brkusanin return true;
54585fe7fcd2SMirko Brkusanin }
54595fe7fcd2SMirko Brkusanin
54605fe7fcd2SMirko Brkusanin return false;
54615fe7fcd2SMirko Brkusanin }
54625fe7fcd2SMirko Brkusanin
matchCombineFSubFpExtFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)546337c2a220SMirko Brkusanin bool CombinerHelper::matchCombineFSubFpExtFMulToFMadOrFMA(
546437c2a220SMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
546537c2a220SMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FSUB);
546637c2a220SMirko Brkusanin
546737c2a220SMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
546837c2a220SMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
546937c2a220SMirko Brkusanin return false;
547037c2a220SMirko Brkusanin
547137c2a220SMirko Brkusanin Register LHSReg = MI.getOperand(1).getReg();
547237c2a220SMirko Brkusanin Register RHSReg = MI.getOperand(2).getReg();
547337c2a220SMirko Brkusanin LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
547437c2a220SMirko Brkusanin
547537c2a220SMirko Brkusanin unsigned PreferredFusedOpcode =
547637c2a220SMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
547737c2a220SMirko Brkusanin
547837c2a220SMirko Brkusanin MachineInstr *FMulMI;
547937c2a220SMirko Brkusanin // fold (fsub (fpext (fmul x, y)), z) -> (fma (fpext x), (fpext y), (fneg z))
548037c2a220SMirko Brkusanin if (mi_match(LHSReg, MRI, m_GFPExt(m_MInstr(FMulMI))) &&
548137c2a220SMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally) &&
548237c2a220SMirko Brkusanin (Aggressive || MRI.hasOneNonDBGUse(LHSReg))) {
548337c2a220SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
548437c2a220SMirko Brkusanin Register FpExtX =
548537c2a220SMirko Brkusanin B.buildFPExt(DstTy, FMulMI->getOperand(1).getReg()).getReg(0);
548637c2a220SMirko Brkusanin Register FpExtY =
548737c2a220SMirko Brkusanin B.buildFPExt(DstTy, FMulMI->getOperand(2).getReg()).getReg(0);
548837c2a220SMirko Brkusanin Register NegZ = B.buildFNeg(DstTy, RHSReg).getReg(0);
548937c2a220SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
549037c2a220SMirko Brkusanin {FpExtX, FpExtY, NegZ});
549137c2a220SMirko Brkusanin };
549237c2a220SMirko Brkusanin return true;
549337c2a220SMirko Brkusanin }
549437c2a220SMirko Brkusanin
549537c2a220SMirko Brkusanin // fold (fsub x, (fpext (fmul y, z))) -> (fma (fneg (fpext y)), (fpext z), x)
549637c2a220SMirko Brkusanin if (mi_match(RHSReg, MRI, m_GFPExt(m_MInstr(FMulMI))) &&
549737c2a220SMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally) &&
549837c2a220SMirko Brkusanin (Aggressive || MRI.hasOneNonDBGUse(RHSReg))) {
549937c2a220SMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
550037c2a220SMirko Brkusanin Register FpExtY =
550137c2a220SMirko Brkusanin B.buildFPExt(DstTy, FMulMI->getOperand(1).getReg()).getReg(0);
550237c2a220SMirko Brkusanin Register NegY = B.buildFNeg(DstTy, FpExtY).getReg(0);
550337c2a220SMirko Brkusanin Register FpExtZ =
550437c2a220SMirko Brkusanin B.buildFPExt(DstTy, FMulMI->getOperand(2).getReg()).getReg(0);
550537c2a220SMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {MI.getOperand(0).getReg()},
550637c2a220SMirko Brkusanin {NegY, FpExtZ, LHSReg});
550737c2a220SMirko Brkusanin };
550837c2a220SMirko Brkusanin return true;
550937c2a220SMirko Brkusanin }
551037c2a220SMirko Brkusanin
551137c2a220SMirko Brkusanin return false;
551237c2a220SMirko Brkusanin }
551337c2a220SMirko Brkusanin
matchCombineFSubFpExtFNegFMulToFMadOrFMA(MachineInstr & MI,std::function<void (MachineIRBuilder &)> & MatchInfo)55140dd570ffSMirko Brkusanin bool CombinerHelper::matchCombineFSubFpExtFNegFMulToFMadOrFMA(
55150dd570ffSMirko Brkusanin MachineInstr &MI, std::function<void(MachineIRBuilder &)> &MatchInfo) {
55160dd570ffSMirko Brkusanin assert(MI.getOpcode() == TargetOpcode::G_FSUB);
55170dd570ffSMirko Brkusanin
55180dd570ffSMirko Brkusanin bool AllowFusionGlobally, HasFMAD, Aggressive;
55190dd570ffSMirko Brkusanin if (!canCombineFMadOrFMA(MI, AllowFusionGlobally, HasFMAD, Aggressive))
55200dd570ffSMirko Brkusanin return false;
55210dd570ffSMirko Brkusanin
55220dd570ffSMirko Brkusanin const auto &TLI = *MI.getMF()->getSubtarget().getTargetLowering();
55230dd570ffSMirko Brkusanin LLT DstTy = MRI.getType(MI.getOperand(0).getReg());
55240dd570ffSMirko Brkusanin Register LHSReg = MI.getOperand(1).getReg();
55250dd570ffSMirko Brkusanin Register RHSReg = MI.getOperand(2).getReg();
55260dd570ffSMirko Brkusanin
55270dd570ffSMirko Brkusanin unsigned PreferredFusedOpcode =
55280dd570ffSMirko Brkusanin HasFMAD ? TargetOpcode::G_FMAD : TargetOpcode::G_FMA;
55290dd570ffSMirko Brkusanin
55300dd570ffSMirko Brkusanin auto buildMatchInfo = [=](Register Dst, Register X, Register Y, Register Z,
55310dd570ffSMirko Brkusanin MachineIRBuilder &B) {
55320dd570ffSMirko Brkusanin Register FpExtX = B.buildFPExt(DstTy, X).getReg(0);
55330dd570ffSMirko Brkusanin Register FpExtY = B.buildFPExt(DstTy, Y).getReg(0);
55340dd570ffSMirko Brkusanin B.buildInstr(PreferredFusedOpcode, {Dst}, {FpExtX, FpExtY, Z});
55350dd570ffSMirko Brkusanin };
55360dd570ffSMirko Brkusanin
55370dd570ffSMirko Brkusanin MachineInstr *FMulMI;
55380dd570ffSMirko Brkusanin // fold (fsub (fpext (fneg (fmul x, y))), z) ->
55390dd570ffSMirko Brkusanin // (fneg (fma (fpext x), (fpext y), z))
55400dd570ffSMirko Brkusanin // fold (fsub (fneg (fpext (fmul x, y))), z) ->
55410dd570ffSMirko Brkusanin // (fneg (fma (fpext x), (fpext y), z))
55420dd570ffSMirko Brkusanin if ((mi_match(LHSReg, MRI, m_GFPExt(m_GFNeg(m_MInstr(FMulMI)))) ||
55430dd570ffSMirko Brkusanin mi_match(LHSReg, MRI, m_GFNeg(m_GFPExt(m_MInstr(FMulMI))))) &&
55440dd570ffSMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally) &&
55450dd570ffSMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstTy,
55460dd570ffSMirko Brkusanin MRI.getType(FMulMI->getOperand(0).getReg()))) {
55470dd570ffSMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
55480dd570ffSMirko Brkusanin Register FMAReg = MRI.createGenericVirtualRegister(DstTy);
55490dd570ffSMirko Brkusanin buildMatchInfo(FMAReg, FMulMI->getOperand(1).getReg(),
55500dd570ffSMirko Brkusanin FMulMI->getOperand(2).getReg(), RHSReg, B);
55510dd570ffSMirko Brkusanin B.buildFNeg(MI.getOperand(0).getReg(), FMAReg);
55520dd570ffSMirko Brkusanin };
55530dd570ffSMirko Brkusanin return true;
55540dd570ffSMirko Brkusanin }
55550dd570ffSMirko Brkusanin
55560dd570ffSMirko Brkusanin // fold (fsub x, (fpext (fneg (fmul y, z)))) -> (fma (fpext y), (fpext z), x)
55570dd570ffSMirko Brkusanin // fold (fsub x, (fneg (fpext (fmul y, z)))) -> (fma (fpext y), (fpext z), x)
55580dd570ffSMirko Brkusanin if ((mi_match(RHSReg, MRI, m_GFPExt(m_GFNeg(m_MInstr(FMulMI)))) ||
55590dd570ffSMirko Brkusanin mi_match(RHSReg, MRI, m_GFNeg(m_GFPExt(m_MInstr(FMulMI))))) &&
55600dd570ffSMirko Brkusanin isContractableFMul(*FMulMI, AllowFusionGlobally) &&
55610dd570ffSMirko Brkusanin TLI.isFPExtFoldable(MI, PreferredFusedOpcode, DstTy,
55620dd570ffSMirko Brkusanin MRI.getType(FMulMI->getOperand(0).getReg()))) {
55630dd570ffSMirko Brkusanin MatchInfo = [=, &MI](MachineIRBuilder &B) {
55640dd570ffSMirko Brkusanin buildMatchInfo(MI.getOperand(0).getReg(), FMulMI->getOperand(1).getReg(),
55650dd570ffSMirko Brkusanin FMulMI->getOperand(2).getReg(), LHSReg, B);
55660dd570ffSMirko Brkusanin };
55670dd570ffSMirko Brkusanin return true;
55680dd570ffSMirko Brkusanin }
55690dd570ffSMirko Brkusanin
55700dd570ffSMirko Brkusanin return false;
55710dd570ffSMirko Brkusanin }
55720dd570ffSMirko Brkusanin
matchSelectToLogical(MachineInstr & MI,BuildFnTy & MatchInfo)5573b09e63baSAmara Emerson bool CombinerHelper::matchSelectToLogical(MachineInstr &MI,
5574b09e63baSAmara Emerson BuildFnTy &MatchInfo) {
5575b09e63baSAmara Emerson GSelect &Sel = cast<GSelect>(MI);
5576b09e63baSAmara Emerson Register DstReg = Sel.getReg(0);
5577b09e63baSAmara Emerson Register Cond = Sel.getCondReg();
5578b09e63baSAmara Emerson Register TrueReg = Sel.getTrueReg();
5579b09e63baSAmara Emerson Register FalseReg = Sel.getFalseReg();
5580b09e63baSAmara Emerson
5581b09e63baSAmara Emerson auto *TrueDef = getDefIgnoringCopies(TrueReg, MRI);
5582b09e63baSAmara Emerson auto *FalseDef = getDefIgnoringCopies(FalseReg, MRI);
5583b09e63baSAmara Emerson
5584b09e63baSAmara Emerson const LLT CondTy = MRI.getType(Cond);
5585b09e63baSAmara Emerson const LLT OpTy = MRI.getType(TrueReg);
5586b09e63baSAmara Emerson if (CondTy != OpTy || OpTy.getScalarSizeInBits() != 1)
5587b09e63baSAmara Emerson return false;
5588b09e63baSAmara Emerson
5589b09e63baSAmara Emerson // We have a boolean select.
5590b09e63baSAmara Emerson
5591b09e63baSAmara Emerson // select Cond, Cond, F --> or Cond, F
5592b09e63baSAmara Emerson // select Cond, 1, F --> or Cond, F
5593b09e63baSAmara Emerson auto MaybeCstTrue = isConstantOrConstantSplatVector(*TrueDef, MRI);
5594b09e63baSAmara Emerson if (Cond == TrueReg || (MaybeCstTrue && MaybeCstTrue->isOne())) {
5595b09e63baSAmara Emerson MatchInfo = [=](MachineIRBuilder &MIB) {
5596b09e63baSAmara Emerson MIB.buildOr(DstReg, Cond, FalseReg);
5597b09e63baSAmara Emerson };
5598b09e63baSAmara Emerson return true;
5599b09e63baSAmara Emerson }
5600b09e63baSAmara Emerson
5601b09e63baSAmara Emerson // select Cond, T, Cond --> and Cond, T
5602b09e63baSAmara Emerson // select Cond, T, 0 --> and Cond, T
5603b09e63baSAmara Emerson auto MaybeCstFalse = isConstantOrConstantSplatVector(*FalseDef, MRI);
5604b09e63baSAmara Emerson if (Cond == FalseReg || (MaybeCstFalse && MaybeCstFalse->isZero())) {
5605b09e63baSAmara Emerson MatchInfo = [=](MachineIRBuilder &MIB) {
5606b09e63baSAmara Emerson MIB.buildAnd(DstReg, Cond, TrueReg);
5607b09e63baSAmara Emerson };
5608b09e63baSAmara Emerson return true;
5609b09e63baSAmara Emerson }
5610b09e63baSAmara Emerson
5611b09e63baSAmara Emerson // select Cond, T, 1 --> or (not Cond), T
5612b09e63baSAmara Emerson if (MaybeCstFalse && MaybeCstFalse->isOne()) {
5613b09e63baSAmara Emerson MatchInfo = [=](MachineIRBuilder &MIB) {
5614b09e63baSAmara Emerson MIB.buildOr(DstReg, MIB.buildNot(OpTy, Cond), TrueReg);
5615b09e63baSAmara Emerson };
5616b09e63baSAmara Emerson return true;
5617b09e63baSAmara Emerson }
5618b09e63baSAmara Emerson
5619b09e63baSAmara Emerson // select Cond, 0, F --> and (not Cond), F
5620b09e63baSAmara Emerson if (MaybeCstTrue && MaybeCstTrue->isZero()) {
5621b09e63baSAmara Emerson MatchInfo = [=](MachineIRBuilder &MIB) {
5622b09e63baSAmara Emerson MIB.buildAnd(DstReg, MIB.buildNot(OpTy, Cond), FalseReg);
5623b09e63baSAmara Emerson };
5624b09e63baSAmara Emerson return true;
5625b09e63baSAmara Emerson }
5626b09e63baSAmara Emerson return false;
5627b09e63baSAmara Emerson }
5628b09e63baSAmara Emerson
matchCombineFMinMaxNaN(MachineInstr & MI,unsigned & IdxToPropagate)562929bebb02SMichael Kitzan bool CombinerHelper::matchCombineFMinMaxNaN(MachineInstr &MI,
563029bebb02SMichael Kitzan unsigned &IdxToPropagate) {
563129bebb02SMichael Kitzan bool PropagateNaN;
563229bebb02SMichael Kitzan switch (MI.getOpcode()) {
563329bebb02SMichael Kitzan default:
563429bebb02SMichael Kitzan return false;
563529bebb02SMichael Kitzan case TargetOpcode::G_FMINNUM:
563629bebb02SMichael Kitzan case TargetOpcode::G_FMAXNUM:
563729bebb02SMichael Kitzan PropagateNaN = false;
563829bebb02SMichael Kitzan break;
563929bebb02SMichael Kitzan case TargetOpcode::G_FMINIMUM:
564029bebb02SMichael Kitzan case TargetOpcode::G_FMAXIMUM:
564129bebb02SMichael Kitzan PropagateNaN = true;
564229bebb02SMichael Kitzan break;
564329bebb02SMichael Kitzan }
564429bebb02SMichael Kitzan
564529bebb02SMichael Kitzan auto MatchNaN = [&](unsigned Idx) {
564629bebb02SMichael Kitzan Register MaybeNaNReg = MI.getOperand(Idx).getReg();
564729bebb02SMichael Kitzan const ConstantFP *MaybeCst = getConstantFPVRegVal(MaybeNaNReg, MRI);
564829bebb02SMichael Kitzan if (!MaybeCst || !MaybeCst->getValueAPF().isNaN())
564929bebb02SMichael Kitzan return false;
565029bebb02SMichael Kitzan IdxToPropagate = PropagateNaN ? Idx : (Idx == 1 ? 2 : 1);
565129bebb02SMichael Kitzan return true;
565229bebb02SMichael Kitzan };
565329bebb02SMichael Kitzan
565429bebb02SMichael Kitzan return MatchNaN(1) || MatchNaN(2);
565529bebb02SMichael Kitzan }
5656b09e63baSAmara Emerson
matchAddSubSameReg(MachineInstr & MI,Register & Src)5657b7fcf663SMichael Kitzan bool CombinerHelper::matchAddSubSameReg(MachineInstr &MI, Register &Src) {
5658b7fcf663SMichael Kitzan assert(MI.getOpcode() == TargetOpcode::G_ADD && "Expected a G_ADD");
5659b7fcf663SMichael Kitzan Register LHS = MI.getOperand(1).getReg();
5660b7fcf663SMichael Kitzan Register RHS = MI.getOperand(2).getReg();
5661b7fcf663SMichael Kitzan
5662b7fcf663SMichael Kitzan // Helper lambda to check for opportunities for
5663b7fcf663SMichael Kitzan // A + (B - A) -> B
5664b7fcf663SMichael Kitzan // (B - A) + A -> B
5665b7fcf663SMichael Kitzan auto CheckFold = [&](Register MaybeSub, Register MaybeSameReg) {
5666b7fcf663SMichael Kitzan Register Reg;
5667b7fcf663SMichael Kitzan return mi_match(MaybeSub, MRI, m_GSub(m_Reg(Src), m_Reg(Reg))) &&
5668b7fcf663SMichael Kitzan Reg == MaybeSameReg;
5669b7fcf663SMichael Kitzan };
5670b7fcf663SMichael Kitzan return CheckFold(LHS, RHS) || CheckFold(RHS, LHS);
5671b7fcf663SMichael Kitzan }
5672b7fcf663SMichael Kitzan
tryCombine(MachineInstr & MI)567381c81b64SAditya Nandakumar bool CombinerHelper::tryCombine(MachineInstr &MI) {
5674c973ad18SDaniel Sanders if (tryCombineCopy(MI))
5675c973ad18SDaniel Sanders return true;
567636147adcSTim Northover if (tryCombineExtendingLoads(MI))
567736147adcSTim Northover return true;
567836147adcSTim Northover if (tryCombineIndexedLoadStore(MI))
567936147adcSTim Northover return true;
568036147adcSTim Northover return false;
568181c81b64SAditya Nandakumar }
5682