80#include "llvm/IR/IntrinsicsWebAssembly.h"
117#define DEBUG_TYPE "isel"
118#define ISEL_DUMP_DEBUG_TYPE DEBUG_TYPE "-dump"
120STATISTIC(NumFastIselFailures,
"Number of instructions fast isel failed on");
121STATISTIC(NumFastIselSuccess,
"Number of instructions fast isel selected");
122STATISTIC(NumFastIselBlocks,
"Number of blocks selected entirely by fast isel");
123STATISTIC(NumDAGBlocks,
"Number of blocks selected using DAG");
124STATISTIC(NumDAGIselRetries,
"Number of times dag isel has to try another path");
125STATISTIC(NumEntryBlocks,
"Number of entry blocks encountered");
127 "Number of entry blocks where fast isel failed to lower arguments");
131 cl::desc(
"Enable abort calls when \"fast\" instruction selection "
132 "fails to lower an instruction: 0 disable the abort, 1 will "
133 "abort but for args, calls and terminators, 2 will also "
134 "abort for argument lowering, and 3 will never fallback "
135 "to SelectionDAG."));
139 cl::desc(
"Emit a diagnostic when \"fast\" instruction selection "
140 "falls back to SelectionDAG."));
144 cl::desc(
"use Machine Branch Probability Info"),
150 cl::desc(
"Print DAGs with sorted nodes in debug dump"),
155 cl::desc(
"Only display the basic block whose name "
156 "matches this for all view-*-dags options"));
159 cl::desc(
"Pop up a window to show dags before the first "
160 "dag combine pass"));
163 cl::desc(
"Pop up a window to show dags before legalize types"));
166 cl::desc(
"Pop up a window to show dags before the post "
167 "legalize types dag combine pass"));
170 cl::desc(
"Pop up a window to show dags before legalize"));
173 cl::desc(
"Pop up a window to show dags before the second "
174 "dag combine pass"));
177 cl::desc(
"Pop up a window to show isel dags as they are selected"));
180 cl::desc(
"Pop up a window to show sched dags as they are processed"));
183 cl::desc(
"Pop up a window to show SUnit dags after they are processed"));
192#define ISEL_DUMP(X) \
194 if (llvm::DebugFlag && \
195 (isCurrentDebugType(DEBUG_TYPE) || \
196 (isCurrentDebugType(ISEL_DUMP_DEBUG_TYPE) && MatchFilterFuncName))) { \
201#define ISEL_DUMP(X) do { } while (false)
221 cl::desc(
"Instruction schedulers available (before register"
234 return Arg.hasAttribute(Attribute::AttrKind::SwiftAsync);
264 SavedOptLevel = IS.OptLevel;
265 SavedFastISel = IS.TM.Options.EnableFastISel;
266 if (NewOptLevel != SavedOptLevel) {
267 IS.OptLevel = NewOptLevel;
268 IS.TM.setOptLevel(NewOptLevel);
269 LLVM_DEBUG(
dbgs() <<
"\nChanging optimization level for Function "
270 << IS.MF->getFunction().getName() <<
"\n");
271 LLVM_DEBUG(
dbgs() <<
"\tBefore: -O" <<
static_cast<int>(SavedOptLevel)
272 <<
" ; After: -O" <<
static_cast<int>(NewOptLevel)
275 IS.TM.setFastISel(IS.TM.getO0WantsFastISel());
278 IS.TM.setFastISel(
false);
280 dbgs() <<
"\tFastISel is "
281 << (IS.TM.Options.EnableFastISel ?
"enabled" :
"disabled")
286 if (IS.OptLevel == SavedOptLevel)
288 LLVM_DEBUG(
dbgs() <<
"\nRestoring optimization level for Function "
289 << IS.MF->getFunction().getName() <<
"\n");
290 LLVM_DEBUG(
dbgs() <<
"\tBefore: -O" <<
static_cast<int>(IS.OptLevel)
291 <<
" ; After: -O" <<
static_cast<int>(SavedOptLevel) <<
"\n");
292 IS.OptLevel = SavedOptLevel;
293 IS.TM.setOptLevel(SavedOptLevel);
294 IS.TM.setFastISel(SavedFastISel);
307 if (
auto *SchedulerCtor = ST.getDAGScheduler(OptLevel)) {
308 return SchedulerCtor(IS, OptLevel);
312 (ST.enableMachineScheduler() && ST.enableMachineSchedDefaultSched()) ||
326 "Unknown sched type!");
335 switch (
MI.getOpcode()) {
336 case TargetOpcode::STATEPOINT:
339 case TargetOpcode::STACKMAP:
340 case TargetOpcode::PATCHPOINT:
347 dbgs() <<
"If a target marks an instruction with "
348 "'usesCustomInserter', it must implement "
349 "TargetLowering::EmitInstrWithCustomInserter!\n";
357 "If a target marks an instruction with 'hasPostISelHook', "
358 "it must implement TargetLowering::AdjustInstrPostInstrSelection!");
366 char &
ID, std::unique_ptr<SelectionDAGISel> S)
390 : Selector->OptLevel;
394 Selector->initializeAnalysisResults(*
this);
395 return Selector->runOnMachineFunction(MF);
424 if (
UseMBPI && RegisterPGOPasses)
431 if (RegisterPGOPasses)
460 : Selector->OptLevel;
463 Selector->initializeAnalysisResults(MFAM);
464 Selector->runOnMachineFunction(MF);
490 ORE = std::make_unique<OptimizationRemarkEmitter>(&Fn);
494 if (PSI && PSI->hasProfileSummary() && RegisterPGOPasses)
507 if (!LibcallResult) {
509 "' analysis required");
521 if (
UseMBPI && RegisterPGOPasses)
557 ORE = std::make_unique<OptimizationRemarkEmitter>(&Fn);
561 if (PSI && PSI->hasProfileSummary() && RegisterPGOPasses)
570 UA = &UAPass->getUniformityInfo();
587 if (
UseMBPI && RegisterPGOPasses)
617 MF->setHasInlineAsm(
false);
644 TLI->initializeSplitCSR(EntryMBB);
646 SelectAllBasicBlocks(Fn);
666 auto J =
FuncInfo->RegFixups.find(To);
695 if (!
MBB.succ_empty())
699 if (Term !=
MBB.end() && Term->isReturn()) {
704 TLI->insertCopiesSplitCSR(EntryMBB, Returns);
708 if (!
FuncInfo->ArgDbgValues.empty())
709 for (std::pair<MCRegister, Register> LI :
RegInfo->liveins())
714 for (
unsigned i = 0, e =
FuncInfo->ArgDbgValues.size(); i != e; ++i) {
716 assert(
MI->getOpcode() != TargetOpcode::DBG_VALUE_LIST &&
717 "Function parameters should not be described by DBG_VALUE_LIST.");
718 bool hasFI =
MI->getDebugOperand(0).isFI();
720 hasFI ?
TRI.getFrameRegister(*
MF) :
MI->getDebugOperand(0).getReg();
721 if (Reg.isPhysical())
728 Def->getParent()->insert(std::next(InsertPos),
MI);
739 if (!Reg.isPhysical())
741 auto LDI = LiveInMap.
find(Reg);
742 if (LDI != LiveInMap.
end()) {
743 assert(!hasFI &&
"There's no handling of frame pointer updating here yet "
747 const MDNode *Variable =
MI->getDebugVariable();
748 const MDNode *Expr =
MI->getDebugExpression();
750 bool IsIndirect =
MI->isIndirectDebugValue();
752 assert(
MI->getDebugOffset().getImm() == 0 &&
753 "DBG_VALUE with nonzero offset");
755 "Expected inlined-at fields to agree");
756 assert(
MI->getOpcode() != TargetOpcode::DBG_VALUE_LIST &&
757 "Didn't expect to see a DBG_VALUE_LIST here");
759 BuildMI(*EntryMBB, ++InsertPos,
DL,
TII->get(TargetOpcode::DBG_VALUE),
760 IsIndirect, LDI->second, Variable, Expr);
767 if (
UseMI.isDebugValue())
769 if (
UseMI.isCopy() && !CopyUseMI &&
UseMI.getParent() == EntryMBB) {
778 TRI.getRegSizeInBits(LDI->second, MRI) ==
793 if (
MF->useDebugInstrRef())
794 MF->finalizeDebugInstrRefs();
798 for (
const auto &
MBB : *
MF) {
802 for (
const auto &
MI :
MBB) {
804 if ((
MCID.isCall() && !
MCID.isReturn()) ||
805 MI.isStackAligningInlineAsm()) {
808 if (
MI.isInlineAsm()) {
809 MF->setHasInlineAsm(
true);
818 ISEL_DUMP(
dbgs() <<
"*** MachineFunction at end of ISel ***\n");
830 if (!R.getLocation().isValid() || ShouldAbort)
831 R << (
" (in function: " + MF.
getName() +
")").str();
849 bool HaveFakeUse =
false;
850 bool HaveTailCall =
false;
853 if (CI->isTailCall()) {
858 if (
II->getIntrinsicID() == Intrinsic::fake_use)
860 }
while (
I != Begin);
863 if (!HaveTailCall || !HaveFakeUse)
872 FakeUse && FakeUse->getIntrinsicID() == Intrinsic::fake_use) {
874 !UsedDef || UsedDef->getParent() !=
I->getParent() ||
875 UsedDef->comesBefore(&*
I))
880 for (
auto *Inst : FakeUses)
881 Inst->moveBefore(*Inst->getParent(),
I);
888 CurDAG->NewNodesMustHaveLegalTypes =
false;
897 SDB->visitDbgInfo(*
I);
902 HadTailCall =
SDB->HasTailCall;
903 SDB->resolveOrClearDbgInfo();
910void SelectionDAGISel::ComputeLiveOutVRegInfo() {
911 SmallPtrSet<SDNode *, 16>
Added;
924 if (
Op.getValueType() == MVT::Other &&
Added.insert(
Op.getNode()).second)
937 EVT SrcVT = Src.getValueType();
941 unsigned NumSignBits =
CurDAG->ComputeNumSignBits(Src);
944 }
while (!Worklist.
empty());
947void SelectionDAGISel::CodeGenAndEmitDAG() {
948 StringRef GroupName =
"sdag";
949 StringRef GroupDescription =
"Instruction Selection and Scheduling";
950 std::string BlockName;
951 bool MatchFilterBB =
false;
955 CurDAG->NewNodesMustHaveLegalTypes =
false;
960 FuncInfo->MBB->getBasicBlock()->getName());
969 (
MF->getName() +
":" +
FuncInfo->MBB->getBasicBlock()->getName()).str();
976#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
977 if (
TTI->hasBranchDivergence())
978 CurDAG->VerifyDAGDivergence();
982 CurDAG->viewGraph(
"dag-combine1 input for " + BlockName);
986 NamedRegionTimer
T(
"combine1",
"DAG Combining 1", GroupName,
996#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
997 if (
TTI->hasBranchDivergence())
998 CurDAG->VerifyDAGDivergence();
1004 CurDAG->viewGraph(
"legalize-types input for " + BlockName);
1008 NamedRegionTimer
T(
"legalize_types",
"Type Legalization", GroupName,
1018#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1019 if (
TTI->hasBranchDivergence())
1020 CurDAG->VerifyDAGDivergence();
1024 CurDAG->NewNodesMustHaveLegalTypes =
true;
1028 CurDAG->viewGraph(
"dag-combine-lt input for " + BlockName);
1032 NamedRegionTimer
T(
"combine_lt",
"DAG Combining after legalize types",
1037 ISEL_DUMP(
dbgs() <<
"\nOptimized type-legalized selection DAG: "
1042#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1043 if (
TTI->hasBranchDivergence())
1044 CurDAG->VerifyDAGDivergence();
1049 NamedRegionTimer
T(
"legalize_vec",
"Vector Legalization", GroupName,
1060#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1061 if (
TTI->hasBranchDivergence())
1062 CurDAG->VerifyDAGDivergence();
1066 NamedRegionTimer
T(
"legalize_types2",
"Type Legalization 2", GroupName,
1071 ISEL_DUMP(
dbgs() <<
"\nVector/type-legalized selection DAG: "
1076#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1077 if (
TTI->hasBranchDivergence())
1078 CurDAG->VerifyDAGDivergence();
1082 CurDAG->viewGraph(
"dag-combine-lv input for " + BlockName);
1086 NamedRegionTimer
T(
"combine_lv",
"DAG Combining after legalize vectors",
1091 ISEL_DUMP(
dbgs() <<
"\nOptimized vector-legalized selection DAG: "
1096#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1097 if (
TTI->hasBranchDivergence())
1098 CurDAG->VerifyDAGDivergence();
1103 CurDAG->viewGraph(
"legalize input for " + BlockName);
1106 NamedRegionTimer
T(
"legalize",
"DAG Legalization", GroupName,
1116#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1117 if (
TTI->hasBranchDivergence())
1118 CurDAG->VerifyDAGDivergence();
1122 CurDAG->viewGraph(
"dag-combine2 input for " + BlockName);
1126 NamedRegionTimer
T(
"combine2",
"DAG Combining 2", GroupName,
1136#if !defined(NDEBUG) && LLVM_ENABLE_ABI_BREAKING_CHECKS
1137 if (
TTI->hasBranchDivergence())
1138 CurDAG->VerifyDAGDivergence();
1142 ComputeLiveOutVRegInfo();
1145 CurDAG->viewGraph(
"isel input for " + BlockName);
1150 NamedRegionTimer
T(
"isel",
"Instruction Selection", GroupName,
1152 DoInstructionSelection();
1161 CurDAG->viewGraph(
"scheduler input for " + BlockName);
1164 ScheduleDAGSDNodes *
Scheduler = CreateScheduler();
1166 NamedRegionTimer
T(
"sched",
"Instruction Scheduling", GroupName,
1176 MachineBasicBlock *FirstMBB =
FuncInfo->MBB, *LastMBB;
1178 NamedRegionTimer
T(
"emit",
"Instruction Creation", GroupName,
1188 if (FirstMBB != LastMBB)
1189 SDB->UpdateSplitBlock(FirstMBB, LastMBB);
1193 NamedRegionTimer
T(
"cleanup",
"Instruction Scheduling Cleanup", GroupName,
1211 : SelectionDAG::DAGUpdateListener(DAG), ISelPosition(isp) {}
1216 void NodeDeleted(SDNode *
N, SDNode *
E)
override {
1224 void NodeInserted(SDNode *
N)
override {
1225 SDNode *CurNode = &*ISelPosition;
1226 if (MDNode *MD = DAG.getPCSections(CurNode))
1227 DAG.addPCSections(
N, MD);
1228 if (MDNode *MMRA = DAG.getMMRAMetadata(CurNode))
1229 DAG.addMMRAMetadata(
N, MMRA);
1259 while (!Nodes.
empty()) {
1261 for (
auto *U :
N->users()) {
1262 auto UId = U->getNodeId();
1275 int InvalidId = -(
N->getNodeId() + 1);
1276 N->setNodeId(InvalidId);
1281 int Id =
N->getNodeId();
1287void SelectionDAGISel::DoInstructionSelection() {
1290 <<
FuncInfo->MBB->getName() <<
"'\n");
1308 ISelUpdater ISU(*
CurDAG, ISelPosition);
1319 if (
Node->use_empty())
1326 while (!Nodes.
empty()) {
1343 "Node has already selected predecessor node");
1355 if (!
TLI->isStrictFPEnabled() &&
Node->isStrictFPOpcode()) {
1360 switch (
Node->getOpcode()) {
1369 ActionVT =
Node->getOperand(1).getValueType();
1372 ActionVT =
Node->getValueType(0);
1375 if (
TLI->getOperationAction(
Node->getOpcode(), ActionVT)
1380 LLVM_DEBUG(
dbgs() <<
"\nISEL: Starting selection on root node: ";
1386 CurDAG->setRoot(Dummy.getValue());
1398 if (IID == Intrinsic::eh_exceptionpointer ||
1399 IID == Intrinsic::eh_exceptioncode)
1414 bool IsSingleCatchAllClause =
1419 bool IsCatchLongjmp = CPI->
arg_size() == 0;
1420 if (!IsSingleCatchAllClause && !IsCatchLongjmp) {
1422 bool IntrFound =
false;
1426 if (IID == Intrinsic::wasm_landingpad_index) {
1427 Value *IndexArg =
Call->getArgOperand(1);
1435 assert(IntrFound &&
"wasm.landingpad.index intrinsic not found!");
1442bool SelectionDAGISel::PrepareEHLandingPad() {
1447 TLI->getRegClassFor(
TLI->getPointerTy(
CurDAG->getDataLayout()));
1458 MCRegister EHPhysReg =
TLI->getExceptionPointerRegister(PersonalityFn);
1459 assert(EHPhysReg &&
"target lacks exception pointer register");
1463 TII->get(TargetOpcode::COPY), VReg)
1474 const MCInstrDesc &
II =
TII->get(TargetOpcode::EH_LABEL);
1480 const TargetRegisterInfo &
TRI = *
MF->getSubtarget().getRegisterInfo();
1481 if (
auto *RegMask =
TRI.getCustomEHPadPreservedMask(*
MF))
1482 MF->getRegInfo().addPhysRegsUsedFromRegMask(RegMask);
1489 MF->setCallSiteLandingPad(Label,
SDB->LPadToCallSiteMap[
MBB]);
1491 if (MCRegister
Reg =
TLI->getExceptionPointerRegister(PersonalityFn))
1494 if (MCRegister
Reg =
TLI->getExceptionSelectorRegister(PersonalityFn))
1503 llvm::WinEHFuncInfo *EHInfo =
MF->getWinEHFuncInfo();
1506 for (MachineBasicBlock &
MBB : *
MF) {
1516 MachineInstr *MIb = &*MBBb;
1521 MCSymbol *BeginLabel =
MF->getContext().createTempSymbol();
1522 MCSymbol *EndLabel =
MF->getContext().createTempSymbol();
1525 TII->get(TargetOpcode::EH_LABEL))
1528 MachineInstr *MIe = &*(--MBBe);
1534 TII->get(TargetOpcode::EH_LABEL))
1545 return !
I->mayWriteToMemory() &&
1546 !
I->isTerminator() &&
1558 auto ArgIt = FuncInfo.
ValueMap.find(Arg);
1559 if (ArgIt == FuncInfo.
ValueMap.end())
1561 Register ArgVReg = ArgIt->getSecond();
1565 if (VirtReg == ArgVReg) {
1569 LLVM_DEBUG(
dbgs() <<
"processDbgDeclare: setVariableDbgInfo Var=" << *Var
1570 <<
", Expr=" << *Expr <<
", MCRegister=" << PhysReg
1571 <<
", DbgLoc=" << DbgLoc <<
"\n");
1582 <<
" (bad address)\n");
1589 if (!Address->getType()->isPointerTy())
1595 assert(Var &&
"Missing variable");
1596 assert(DbgLoc &&
"Missing location");
1600 APInt Offset(
DL.getIndexTypeSizeInBits(Address->getType()), 0);
1601 Address = Address->stripAndAccumulateInBoundsConstantOffsets(
DL,
Offset);
1606 int FI = std::numeric_limits<int>::max();
1614 if (FI == std::numeric_limits<int>::max())
1617 if (
Offset.getBoolValue())
1621 LLVM_DEBUG(
dbgs() <<
"processDbgDeclare: setVariableDbgInfo Var=" << *Var
1622 <<
", Expr=" << *Expr <<
", FI=" << FI
1623 <<
", DbgLoc=" << DbgLoc <<
"\n");
1635 DVR.getExpression(), DVR.getVariable(),
1650 assert(!It->Values.hasArgList() &&
"Single loc variadic ops not supported");
1656void SelectionDAGISel::SelectAllBasicBlocks(
const Function &Fn) {
1659 FastISel *FastIS =
nullptr;
1660 if (
TM.Options.EnableFastISel) {
1665 ReversePostOrderTraversal<const Function*> RPOT(&Fn);
1686 ++NumFastIselFailLowerArguments;
1688 OptimizationRemarkMissed
R(
"sdagisel",
"FastISelFailure",
1691 R <<
"FastISel didn't lower all arguments: "
1699 CodeGenAndEmitDAG();
1713 if (FastIS && Inserted)
1718 "expected AssignmentTrackingAnalysis pass results");
1726 for (
const BasicBlock *LLVMBB : RPOT) {
1728 bool AllPredsVisited =
true;
1730 if (!
FuncInfo->VisitedBBs[Pred->getNumber()]) {
1731 AllPredsVisited =
false;
1736 if (AllPredsVisited) {
1737 for (
const PHINode &PN : LLVMBB->
phis())
1738 FuncInfo->ComputePHILiveOutRegInfo(&PN);
1740 for (
const PHINode &PN : LLVMBB->
phis())
1741 FuncInfo->InvalidatePHILiveOutRegInfo(&PN);
1752 const_cast<BasicBlock *
>(LLVMBB)->getFirstNonPHIIt();
1772 if (!PrepareEHLandingPad())
1778 if (NewRoot && NewRoot !=
CurDAG->getRoot())
1779 CurDAG->setRoot(NewRoot);
1788 unsigned NumFastIselRemaining = std::distance(Begin, End);
1794 for (; BI != Begin; --BI) {
1800 --NumFastIselRemaining;
1811 --NumFastIselRemaining;
1812 ++NumFastIselSuccess;
1819 while (BeforeInst != &*Begin) {
1829 <<
"FastISel folded load: " << *BeforeInst <<
"\n");
1832 --NumFastIselRemaining;
1833 ++NumFastIselSuccess;
1847 OptimizationRemarkMissed
R(
"sdagisel",
"FastISelFailure",
1850 R <<
"FastISel missed call";
1853 std::string InstStrStorage;
1854 raw_string_ostream InstStr(InstStrStorage);
1857 R <<
": " << InstStrStorage;
1866 NumFastIselFailures += NumFastIselRemaining;
1877 bool HadTailCall =
false;
1879 SelectBasicBlock(Inst->
getIterator(), BI, HadTailCall);
1891 unsigned RemainingNow = std::distance(Begin, BI);
1892 NumFastIselFailures += NumFastIselRemaining - RemainingNow;
1893 NumFastIselRemaining = RemainingNow;
1897 OptimizationRemarkMissed
R(
"sdagisel",
"FastISelFailure",
1903 R <<
"FastISel missed terminator";
1907 R <<
"FastISel missed";
1911 std::string InstStrStorage;
1912 raw_string_ostream InstStr(InstStrStorage);
1914 R <<
": " << InstStrStorage;
1919 NumFastIselFailures += NumFastIselRemaining;
1926 if (
SP->shouldEmitSDCheck(*LLVMBB)) {
1927 bool FunctionBasedInstrumentation =
1930 SDB->SPDescriptor.initialize(LLVMBB,
FuncInfo->getMBB(LLVMBB),
1931 FunctionBasedInstrumentation);
1937 ++NumFastIselBlocks;
1944 SelectBasicBlock(Begin, BI, HadTailCall);
1956 FuncInfo->PHINodesToUpdate.clear();
1962 reportIPToStateForBlocks(
MF);
1964 SP->copyToMachineFrameInfo(
MF->getFrameInfo());
1969 SDB->clearDanglingDebugInfo();
1970 SDB->SPDescriptor.resetPerFunctionState();
1974SelectionDAGISel::FinishBasicBlock() {
1976 <<
FuncInfo->PHINodesToUpdate.size() <<
"\n";
1977 for (
unsigned i = 0, e =
FuncInfo->PHINodesToUpdate.size(); i != e;
1979 <<
"Node " << i <<
" : (" <<
FuncInfo->PHINodesToUpdate[i].first
1985 for (
unsigned i = 0, e =
FuncInfo->PHINodesToUpdate.size(); i != e; ++i) {
1986 MachineInstrBuilder
PHI(*
MF,
FuncInfo->PHINodesToUpdate[i].first);
1988 "This is not a machine PHI node that we are updating!");
1989 if (!
FuncInfo->MBB->isSuccessor(
PHI->getParent()))
1995 if (
SDB->SPDescriptor.shouldEmitFunctionBasedCheckStackProtector()) {
1998 MachineBasicBlock *ParentMBB =
SDB->SPDescriptor.getParentMBB();
2003 SDB->visitSPDescriptorParent(
SDB->SPDescriptor, ParentMBB);
2006 CodeGenAndEmitDAG();
2009 SDB->SPDescriptor.resetPerBBState();
2010 }
else if (
SDB->SPDescriptor.shouldEmitStackProtector()) {
2011 MachineBasicBlock *ParentMBB =
SDB->SPDescriptor.getParentMBB();
2012 MachineBasicBlock *SuccessMBB =
SDB->SPDescriptor.getSuccessMBB();
2024 SuccessMBB->
splice(SuccessMBB->
end(), ParentMBB, SplitPoint,
2030 SDB->visitSPDescriptorParent(
SDB->SPDescriptor, ParentMBB);
2033 CodeGenAndEmitDAG();
2036 MachineBasicBlock *FailureMBB =
SDB->SPDescriptor.getFailureMBB();
2037 if (FailureMBB->
empty()) {
2040 SDB->visitSPDescriptorFailure(
SDB->SPDescriptor);
2043 CodeGenAndEmitDAG();
2047 SDB->SPDescriptor.resetPerBBState();
2051 for (
auto &BTB :
SDB->SL->BitTestCases) {
2061 CodeGenAndEmitDAG();
2064 BranchProbability UnhandledProb = BTB.Prob;
2065 for (
unsigned j = 0, ej = BTB.Cases.size(); j != ej; ++j) {
2066 UnhandledProb -= BTB.Cases[
j].ExtraProb;
2080 MachineBasicBlock *NextMBB;
2081 if ((BTB.ContiguousRange || BTB.FallthroughUnreachable) && j + 2 == ej) {
2084 NextMBB = BTB.Cases[
j + 1].TargetBB;
2085 }
else if (j + 1 == ej) {
2087 NextMBB = BTB.Default;
2090 NextMBB = BTB.Cases[
j + 1].ThisBB;
2093 SDB->visitBitTestCase(BTB, NextMBB, UnhandledProb, BTB.Reg, BTB.Cases[j],
2098 CodeGenAndEmitDAG();
2100 if ((BTB.ContiguousRange || BTB.FallthroughUnreachable) && j + 2 == ej) {
2102 BTB.Cases.pop_back();
2108 for (
const std::pair<MachineInstr *, Register> &
P :
2110 MachineInstrBuilder
PHI(*
MF,
P.first);
2111 MachineBasicBlock *PHIBB =
PHI->getParent();
2113 "This is not a machine PHI node that we are updating!");
2116 if (PHIBB == BTB.Default) {
2117 PHI.addReg(
P.second).addMBB(BTB.Parent);
2118 if (!BTB.ContiguousRange) {
2119 PHI.addReg(
P.second).addMBB(BTB.Cases.back().ThisBB);
2123 for (
const SwitchCG::BitTestCase &
BT : BTB.Cases) {
2124 MachineBasicBlock* cBB =
BT.ThisBB;
2126 PHI.addReg(
P.second).addMBB(cBB);
2130 SDB->SL->BitTestCases.clear();
2135 for (
unsigned i = 0, e =
SDB->SL->JTCases.size(); i != e; ++i) {
2137 if (!
SDB->SL->JTCases[i].first.Emitted) {
2139 FuncInfo->MBB =
SDB->SL->JTCases[i].first.HeaderBB;
2142 SDB->visitJumpTableHeader(
SDB->SL->JTCases[i].second,
2146 CodeGenAndEmitDAG();
2153 SDB->visitJumpTable(
SDB->SL->JTCases[i].second);
2156 CodeGenAndEmitDAG();
2159 for (
unsigned pi = 0, pe =
FuncInfo->PHINodesToUpdate.size();
2161 MachineInstrBuilder
PHI(*
MF,
FuncInfo->PHINodesToUpdate[pi].first);
2164 "This is not a machine PHI node that we are updating!");
2166 if (PHIBB ==
SDB->SL->JTCases[i].second.Default)
2168 .addMBB(
SDB->SL->JTCases[i].first.HeaderBB);
2170 if (
FuncInfo->MBB->isSuccessor(PHIBB))
2174 SDB->SL->JTCases.clear();
2178 for (
unsigned i = 0, e =
SDB->SL->SwitchCases.size(); i != e; ++i) {
2186 if (
SDB->SL->SwitchCases[i].TrueBB !=
SDB->SL->SwitchCases[i].FalseBB)
2193 CodeGenAndEmitDAG();
2197 MachineBasicBlock *ThisBB =
FuncInfo->MBB;
2203 for (MachineBasicBlock *Succ : Succs) {
2214 for (
unsigned pn = 0; ; ++pn) {
2216 "Didn't find PHI entry!");
2217 if (
FuncInfo->PHINodesToUpdate[pn].first ==
PHI) {
2218 PHI.addReg(
FuncInfo->PHINodesToUpdate[pn].second).addMBB(ThisBB);
2226 SDB->SL->SwitchCases.clear();
2247 int64_t DesiredMaskS)
const {
2248 const APInt &ActualMask = RHS->getAPIntValue();
2251 const APInt &DesiredMask =
APInt(LHS.getValueSizeInBits(), DesiredMaskS,
2255 if (ActualMask == DesiredMask)
2264 APInt NeededMask = DesiredMask & ~ActualMask;
2265 if (
CurDAG->MaskedValueIsZero(LHS, NeededMask))
2279 int64_t DesiredMaskS)
const {
2280 const APInt &ActualMask = RHS->getAPIntValue();
2283 const APInt &DesiredMask =
APInt(LHS.getValueSizeInBits(), DesiredMaskS,
2287 if (ActualMask == DesiredMask)
2296 APInt NeededMask = DesiredMask & ~ActualMask;
2316 std::list<HandleSDNode> Handles;
2321 Handles.emplace_back(
2330 if (!Flags.isMemKind() && !Flags.isFuncKind()) {
2332 Handles.insert(Handles.end(),
Ops.begin() + i,
2333 Ops.begin() + i + Flags.getNumOperandRegisters() + 1);
2334 i += Flags.getNumOperandRegisters() + 1;
2336 assert(Flags.getNumOperandRegisters() == 1 &&
2337 "Memory operand with multiple values?");
2339 unsigned TiedToOperand;
2340 if (Flags.isUseOperandTiedToDef(TiedToOperand)) {
2344 for (; TiedToOperand; --TiedToOperand) {
2345 CurOp += Flags.getNumOperandRegisters() + 1;
2351 std::vector<SDValue> SelOps;
2353 Flags.getMemoryConstraintID();
2362 Flags.setMemConstraint(ConstraintID);
2363 Handles.emplace_back(
CurDAG->getTargetConstant(Flags,
DL, MVT::i32));
2370 if (e !=
Ops.size())
2371 Handles.emplace_back(
Ops.back());
2374 for (
auto &handle : Handles)
2375 Ops.push_back(handle.getValue());
2381 bool IgnoreChains) {
2390 Visited.
insert(ImmedUse);
2395 if ((
Op.getValueType() == MVT::Other && IgnoreChains) ||
N == Def)
2397 if (!Visited.
insert(
N).second)
2403 if (Root != ImmedUse) {
2407 if ((
Op.getValueType() == MVT::Other && IgnoreChains) ||
N == Def)
2409 if (!Visited.
insert(
N).second)
2424 return N.hasOneUse();
2431 bool IgnoreChains) {
2480 while (VT == MVT::Glue) {
2491 IgnoreChains =
false;
2497void SelectionDAGISel::Select_INLINEASM(
SDNode *
N) {
2500 std::vector<SDValue>
Ops(
N->op_begin(),
N->op_end());
2503 const EVT VTs[] = {MVT::Other, MVT::Glue};
2510void SelectionDAGISel::Select_READ_REGISTER(
SDNode *
Op) {
2515 EVT VT =
Op->getValueType(0);
2518 const MachineFunction &
MF =
CurDAG->getMachineFunction();
2526 "\" for llvm.read_register",
2527 Fn,
Op->getDebugLoc()));
2529 SDValue(
CurDAG->getMachineNode(TargetOpcode::IMPLICIT_DEF, dl, VT), 0);
2533 CurDAG->getCopyFromReg(
Op->getOperand(0), dl,
Reg,
Op->getValueType(0));
2541void SelectionDAGISel::Select_WRITE_REGISTER(
SDNode *
Op) {
2546 EVT VT =
Op->getOperand(2).getValueType();
2549 const MachineFunction &
MF =
CurDAG->getMachineFunction();
2556 "\" for llvm.write_register",
2557 Fn,
Op->getDebugLoc()));
2561 CurDAG->getCopyToReg(
Op->getOperand(0), dl,
Reg,
Op->getOperand(2));
2569void SelectionDAGISel::Select_UNDEF(
SDNode *
N) {
2570 CurDAG->SelectNodeTo(
N, TargetOpcode::IMPLICIT_DEF,
N->getValueType(0));
2575void SelectionDAGISel::Select_FAKE_USE(
SDNode *
N) {
2576 CurDAG->SelectNodeTo(
N, TargetOpcode::FAKE_USE,
N->getValueType(0),
2577 N->getOperand(1),
N->getOperand(0));
2580void SelectionDAGISel::Select_RELOC_NONE(
SDNode *
N) {
2581 CurDAG->SelectNodeTo(
N, TargetOpcode::RELOC_NONE,
N->getValueType(0),
2582 N->getOperand(1),
N->getOperand(0));
2585void SelectionDAGISel::Select_FREEZE(
SDNode *
N) {
2589 CurDAG->SelectNodeTo(
N, TargetOpcode::COPY,
N->getValueType(0),
2593void SelectionDAGISel::Select_ARITH_FENCE(
SDNode *
N) {
2594 CurDAG->SelectNodeTo(
N, TargetOpcode::ARITH_FENCE,
N->getValueType(0),
2598void SelectionDAGISel::Select_MEMBARRIER(
SDNode *
N) {
2599 CurDAG->SelectNodeTo(
N, TargetOpcode::MEMBARRIER,
N->getValueType(0),
2603void SelectionDAGISel::Select_CONVERGENCECTRL_ANCHOR(
SDNode *
N) {
2604 CurDAG->SelectNodeTo(
N, TargetOpcode::CONVERGENCECTRL_ANCHOR,
2605 N->getValueType(0));
2608void SelectionDAGISel::Select_CONVERGENCECTRL_ENTRY(
SDNode *
N) {
2609 CurDAG->SelectNodeTo(
N, TargetOpcode::CONVERGENCECTRL_ENTRY,
2610 N->getValueType(0));
2613void SelectionDAGISel::Select_CONVERGENCECTRL_LOOP(
SDNode *
N) {
2614 CurDAG->SelectNodeTo(
N, TargetOpcode::CONVERGENCECTRL_LOOP,
2615 N->getValueType(0),
N->getOperand(0));
2620 SDNode *OpNode = OpVal.
getNode();
2628 CurDAG->getTargetConstant(StackMaps::ConstantOp,
DL, MVT::i64));
2632 Ops.push_back(OpVal);
2636void SelectionDAGISel::Select_STACKMAP(
SDNode *
N) {
2638 auto *It =
N->op_begin();
2647 assert(
ID.getValueType() == MVT::i64);
2653 Ops.push_back(Shad);
2656 for (; It !=
N->op_end(); It++)
2657 pushStackMapLiveVariable(
Ops, *It,
DL);
2659 Ops.push_back(Chain);
2660 Ops.push_back(InGlue);
2662 SDVTList NodeTys =
CurDAG->getVTList(MVT::Other, MVT::Glue);
2663 CurDAG->SelectNodeTo(
N, TargetOpcode::STACKMAP, NodeTys,
Ops);
2666void SelectionDAGISel::Select_PATCHPOINT(
SDNode *
N) {
2668 auto *It =
N->op_begin();
2673 std::optional<SDValue> Glue;
2674 if (It->getValueType() == MVT::Glue)
2680 assert(
ID.getValueType() == MVT::i64);
2686 Ops.push_back(Shad);
2689 Ops.push_back(*It++);
2694 Ops.push_back(NumArgs);
2697 Ops.push_back(*It++);
2701 Ops.push_back(*It++);
2704 for (; It !=
N->op_end(); It++)
2705 pushStackMapLiveVariable(
Ops, *It,
DL);
2708 Ops.push_back(RegMask);
2709 Ops.push_back(Chain);
2710 if (Glue.has_value())
2711 Ops.push_back(*Glue);
2713 SDVTList NodeTys =
N->getVTList();
2714 CurDAG->SelectNodeTo(
N, TargetOpcode::PATCHPOINT, NodeTys,
Ops);
2720 assert(Val >= 128 &&
"Not a VBR");
2726 NextBits = MatcherTable[Idx++];
2727 Val |= (NextBits&127) << Shift;
2729 }
while (NextBits & 128);
2740 NextBits = MatcherTable[Idx++];
2741 Val |= (NextBits & 127) << Shift;
2743 }
while (NextBits & 128);
2745 if (Shift < 64 && (NextBits & 0x40))
2755 unsigned SimpleVT = MatcherTable[MatcherIndex++];
2757 SimpleVT =
GetVBR(SimpleVT, MatcherTable, MatcherIndex);
2766 unsigned Index = MatcherTable[MatcherIndex++];
2770void SelectionDAGISel::Select_JUMP_TABLE_DEBUG_INFO(
SDNode *
N) {
2772 CurDAG->SelectNodeTo(
N, TargetOpcode::JUMP_TABLE_DEBUG_INFO, MVT::Glue,
2773 CurDAG->getTargetConstant(
N->getConstantOperandVal(1),
2774 dl, MVT::i64,
true));
2779void SelectionDAGISel::UpdateChains(
2786 if (!ChainNodesMatched.
empty()) {
2788 "Matched input chains but didn't produce a chain");
2791 for (
unsigned i = 0, e = ChainNodesMatched.
size(); i != e; ++i) {
2792 SDNode *ChainNode = ChainNodesMatched[i];
2799 "Deleted node left in chain");
2803 if (ChainNode == NodeToMatch && isMorphNodeTo)
2810 SelectionDAG::DAGNodeDeletedListener NDL(
2811 *
CurDAG, [&](SDNode *
N, SDNode *
E) {
2812 llvm::replace(ChainNodesMatched,
N,
static_cast<SDNode *
>(
nullptr));
2818 if (ChainNode != NodeToMatch && ChainNode->
use_empty() &&
2824 if (!NowDeadNodes.
empty())
2825 CurDAG->RemoveDeadNodes(NowDeadNodes);
2843 unsigned int Max = 8192;
2846 if (ChainNodesMatched.
size() == 1)
2847 return ChainNodesMatched[0]->getOperand(0);
2851 std::function<void(
const SDValue)> AddChains = [&](
const SDValue V) {
2852 if (V.getValueType() != MVT::Other)
2856 if (!Visited.
insert(V.getNode()).second)
2859 for (
const SDValue &
Op : V->op_values())
2865 for (
auto *
N : ChainNodesMatched) {
2870 while (!Worklist.
empty())
2874 if (InputChains.
size() == 0)
2881 for (
SDValue V : InputChains) {
2885 if (InputChains.
size() != 1 &&
2886 V->getValueType(V->getNumValues() - 1) == MVT::Glue &&
2887 InputGlue.
getNode() == V.getNode())
2892 for (
auto *
N : ChainNodesMatched)
2897 if (InputChains.
size() == 1)
2898 return InputChains[0];
2900 MVT::Other, InputChains);
2904SDNode *SelectionDAGISel::
2913 int OldGlueResultNo = -1, OldChainResultNo = -1;
2915 unsigned NTMNumResults =
Node->getNumValues();
2916 if (
Node->getValueType(NTMNumResults-1) == MVT::Glue) {
2917 OldGlueResultNo = NTMNumResults-1;
2918 if (NTMNumResults != 1 &&
2919 Node->getValueType(NTMNumResults-2) == MVT::Other)
2920 OldChainResultNo = NTMNumResults-2;
2921 }
else if (
Node->getValueType(NTMNumResults-1) == MVT::Other)
2922 OldChainResultNo = NTMNumResults-1;
2926 SDNode *Res =
CurDAG->MorphNodeTo(Node, ~TargetOpc, VTList,
Ops);
2940 static_cast<unsigned>(OldGlueResultNo) != ResNumResults - 1)
2942 SDValue(Res, ResNumResults - 1));
2948 if ((EmitNodeInfo &
OPFL_Chain) && OldChainResultNo != -1 &&
2949 static_cast<unsigned>(OldChainResultNo) != ResNumResults - 1)
2951 SDValue(Res, ResNumResults - 1));
2969 unsigned RecNo = MatcherTable[MatcherIndex++];
2970 assert(RecNo < RecordedNodes.size() &&
"Invalid CheckSame");
2971 return N == RecordedNodes[RecNo].first;
2979 if (ChildNo >=
N.getNumOperands())
2981 return ::CheckSame(MatcherTable, MatcherIndex,
N.getOperand(ChildNo),
2989 bool TwoBytePredNo =
2993 ? MatcherTable[MatcherIndex++]
2996 PredNo |= MatcherTable[MatcherIndex++] << 8;
3006 ? MatcherTable[MatcherIndex++]
3014 Opc |=
static_cast<uint16_t>(MatcherTable[MatcherIndex++]) << 8;
3015 return N->getOpcode() ==
Opc;
3022 if (
N.getValueType() == VT)
3032 if (ChildNo >=
N.getNumOperands())
3034 return ::CheckType(VT,
N.getOperand(ChildNo), TLI,
DL);
3046 if (2 >=
N.getNumOperands())
3048 return ::CheckCondCode(MatcherTable, MatcherIndex,
N.getOperand(2));
3064 int64_t Val =
GetSignedVBR(MatcherTable, MatcherIndex);
3067 return C &&
C->getAPIntValue().trySExtValue() == Val;
3073 if (ChildNo >=
N.getNumOperands())
3075 return ::CheckInteger(MatcherTable, MatcherIndex,
N.getOperand(ChildNo));
3081 int64_t Val = MatcherTable[MatcherIndex++];
3083 Val =
GetVBR(Val, MatcherTable, MatcherIndex);
3085 if (
N->getOpcode() !=
ISD::AND)
return false;
3094 int64_t Val = MatcherTable[MatcherIndex++];
3096 Val =
GetVBR(Val, MatcherTable, MatcherIndex);
3098 if (
N->getOpcode() !=
ISD::OR)
return false;
3114 unsigned Opcode = Table[Index++];
3184 unsigned Res = Table[Index++];
3298 unsigned NumRecordedNodes;
3301 unsigned NumMatchedMemRefs;
3304 SDValue InputChain, InputGlue;
3307 bool HasChainNodesMatched;
3316 SDNode **NodeToMatch;
3317 SmallVectorImpl<std::pair<SDValue, SDNode *>> &RecordedNodes;
3318 SmallVectorImpl<MatchScope> &MatchScopes;
3321 MatchStateUpdater(SelectionDAG &DAG, SDNode **NodeToMatch,
3322 SmallVectorImpl<std::pair<SDValue, SDNode *>> &RN,
3323 SmallVectorImpl<MatchScope> &MS)
3324 : SelectionDAG::DAGUpdateListener(DAG), NodeToMatch(NodeToMatch),
3325 RecordedNodes(
RN), MatchScopes(MS) {}
3327 void NodeDeleted(SDNode *
N, SDNode *
E)
override {
3333 if (!
E ||
E->isMachineOpcode())
3336 if (
N == *NodeToMatch)
3341 for (
auto &
I : RecordedNodes)
3342 if (
I.first.getNode() ==
N)
3345 for (
auto &
I : MatchScopes)
3346 for (
auto &J :
I.NodeStack)
3347 if (J.getNode() ==
N)
3357 const uint8_t *OperandLists) {
3394 CurDAG->RemoveDeadNode(NodeToMatch);
3398 Select_INLINEASM(NodeToMatch);
3401 Select_READ_REGISTER(NodeToMatch);
3404 Select_WRITE_REGISTER(NodeToMatch);
3408 Select_UNDEF(NodeToMatch);
3411 Select_FAKE_USE(NodeToMatch);
3414 Select_RELOC_NONE(NodeToMatch);
3417 Select_FREEZE(NodeToMatch);
3420 Select_ARITH_FENCE(NodeToMatch);
3423 Select_MEMBARRIER(NodeToMatch);
3426 Select_STACKMAP(NodeToMatch);
3429 Select_PATCHPOINT(NodeToMatch);
3432 Select_JUMP_TABLE_DEBUG_INFO(NodeToMatch);
3435 Select_CONVERGENCECTRL_ANCHOR(NodeToMatch);
3438 Select_CONVERGENCECTRL_ENTRY(NodeToMatch);
3441 Select_CONVERGENCECTRL_LOOP(NodeToMatch);
3468 SDValue InputChain, InputGlue, DeactivationSymbol;
3482 size_t MatcherIndex = 0;
3484 if (!OpcodeOffset.empty()) {
3486 if (
N.getOpcode() < OpcodeOffset.size())
3487 MatcherIndex = OpcodeOffset[
N.getOpcode()];
3488 LLVM_DEBUG(
dbgs() <<
" Initial Opcode index to " << MatcherIndex <<
"\n");
3497 unsigned CaseSize = MatcherTable[Idx++];
3499 CaseSize =
GetVBR(CaseSize, MatcherTable, Idx);
3500 if (CaseSize == 0)
break;
3504 Opc |=
static_cast<uint16_t>(MatcherTable[Idx++]) << 8;
3505 if (
Opc >= OpcodeOffset.size())
3506 OpcodeOffset.resize((
Opc+1)*2);
3507 OpcodeOffset[
Opc] = Idx;
3512 if (
N.getOpcode() < OpcodeOffset.size())
3513 MatcherIndex = OpcodeOffset[
N.getOpcode()];
3517 assert(MatcherIndex < TableSize &&
"Invalid index");
3519 size_t CurrentOpcodeIndex = MatcherIndex;
3533 unsigned NumToSkip = MatcherTable[MatcherIndex++];
3534 if (NumToSkip & 128)
3535 NumToSkip =
GetVBR(NumToSkip, MatcherTable, MatcherIndex);
3537 if (NumToSkip == 0) {
3542 FailIndex = MatcherIndex+NumToSkip;
3544 size_t MatcherIndexOfPredicate = MatcherIndex;
3545 (void)MatcherIndexOfPredicate;
3552 Result, *
this, RecordedNodes);
3557 dbgs() <<
" Skipped scope entry (due to false predicate) at "
3558 <<
"index " << MatcherIndexOfPredicate <<
", continuing at "
3559 << FailIndex <<
"\n");
3560 ++NumDAGIselRetries;
3564 MatcherIndex = FailIndex;
3568 if (FailIndex == 0)
break;
3573 NewEntry.FailIndex = FailIndex;
3574 NewEntry.NodeStack.append(NodeStack.
begin(), NodeStack.
end());
3575 NewEntry.NumRecordedNodes = RecordedNodes.
size();
3576 NewEntry.NumMatchedMemRefs = MatchedMemRefs.
size();
3577 NewEntry.InputChain = InputChain;
3578 NewEntry.InputGlue = InputGlue;
3579 NewEntry.HasChainNodesMatched = !ChainNodesMatched.
empty();
3584 SDNode *Parent =
nullptr;
3585 if (NodeStack.
size() > 1)
3586 Parent = NodeStack[NodeStack.
size()-2].getNode();
3596 if (ChildNo >=
N.getNumOperands())
3614 if (
N->getNumOperands() != 0 &&
3615 N->getOperand(
N->getNumOperands()-1).getValueType() == MVT::Glue)
3616 InputGlue =
N->getOperand(
N->getNumOperands()-1);
3622 if (
N->getNumOperands() != 0 &&
3623 N->getOperand(
N->getNumOperands() - 1).getOpcode() ==
3625 DeactivationSymbol =
N->getOperand(
N->getNumOperands() - 1);
3629 unsigned ChildNo = MatcherTable[MatcherIndex++];
3630 if (ChildNo >=
N.getNumOperands())
3632 N =
N.getOperand(ChildNo);
3642 if (ChildNo >=
N.getNumOperands())
3644 N =
N.getOperand(ChildNo);
3660 assert(!NodeStack.
empty() &&
"Node stack imbalance!");
3661 N = NodeStack.
back();
3664 ? MatcherTable[MatcherIndex++]
3666 if (SiblingNo >=
N.getNumOperands())
3668 N =
N.getOperand(SiblingNo);
3675 assert(!NodeStack.
empty() &&
"Node stack imbalance!");
3676 N = NodeStack.
back();
3680 if (!
::CheckSame(MatcherTable, MatcherIndex,
N, RecordedNodes))
break;
3716 unsigned OpNum = MatcherTable[MatcherIndex++];
3719 for (
unsigned i = 0; i < OpNum; ++i)
3720 Operands.
push_back(RecordedNodes[MatcherTable[MatcherIndex++]].first);
3722 unsigned PredNo = MatcherTable[MatcherIndex++];
3737 ? MatcherTable[MatcherIndex++]
3739 unsigned RecNo = MatcherTable[MatcherIndex++];
3740 assert(RecNo < RecordedNodes.
size() &&
"Invalid CheckComplexPat");
3744 std::unique_ptr<MatchStateUpdater> MSU;
3746 MSU.reset(
new MatchStateUpdater(*
CurDAG, &NodeToMatch, RecordedNodes,
3750 RecordedNodes[RecNo].first, CPNum,
3756 if (!
::CheckOpcode(MatcherTable, MatcherIndex,
N.getNode()))
break;
3773 VT =
getHwModeVT(MatcherTable, MatcherIndex, *
this);
3789 unsigned Res = MatcherTable[MatcherIndex++];
3794 CurDAG->getDataLayout()))
3800 unsigned CurNodeOpcode =
N.getOpcode();
3801 unsigned SwitchStart = MatcherIndex-1; (void)SwitchStart;
3805 CaseSize = MatcherTable[MatcherIndex++];
3807 CaseSize =
GetVBR(CaseSize, MatcherTable, MatcherIndex);
3808 if (CaseSize == 0)
break;
3811 Opc |=
static_cast<uint16_t>(MatcherTable[MatcherIndex++]) << 8;
3814 if (CurNodeOpcode ==
Opc)
3818 MatcherIndex += CaseSize;
3822 if (CaseSize == 0)
break;
3825 LLVM_DEBUG(
dbgs() <<
" OpcodeSwitch from " << SwitchStart <<
" to "
3826 << MatcherIndex <<
"\n");
3831 MVT CurNodeVT =
N.getSimpleValueType();
3832 unsigned SwitchStart = MatcherIndex-1; (void)SwitchStart;
3836 CaseSize = MatcherTable[MatcherIndex++];
3838 CaseSize =
GetVBR(CaseSize, MatcherTable, MatcherIndex);
3839 if (CaseSize == 0)
break;
3842 if (CaseVT == MVT::iPTR)
3843 CaseVT =
TLI->getPointerTy(
CurDAG->getDataLayout());
3846 if (CurNodeVT == CaseVT)
3850 MatcherIndex += CaseSize;
3854 if (CaseSize == 0)
break;
3858 <<
"] from " << SwitchStart <<
" to " << MatcherIndex
3927 VT =
getHwModeVT(MatcherTable, MatcherIndex, *
this);
3943 CurDAG->getDataLayout()))
3959 if (!
::CheckOrImm(MatcherTable, MatcherIndex,
N, *
this))
break;
3971 assert(NodeStack.
size() != 1 &&
"No parent node");
3974 bool HasMultipleUses =
false;
3975 for (
unsigned i = 1, e = NodeStack.
size()-1; i != e; ++i) {
3976 unsigned NNonChainUses = 0;
3977 SDNode *NS = NodeStack[i].getNode();
3979 if (U.getValueType() != MVT::Other)
3980 if (++NNonChainUses > 1) {
3981 HasMultipleUses =
true;
3984 if (HasMultipleUses)
break;
3986 if (HasMultipleUses)
break;
4021 VT =
getHwModeVT(MatcherTable, MatcherIndex, *
this);
4030 int64_t Val =
GetSignedVBR(MatcherTable, MatcherIndex);
4052 VT =
getHwModeVT(MatcherTable, MatcherIndex, *
this);
4058 unsigned RegNo = MatcherTable[MatcherIndex++];
4070 unsigned RegNo = MatcherTable[MatcherIndex++];
4071 RegNo |= MatcherTable[MatcherIndex++] << 8;
4087 ? MatcherTable[MatcherIndex++]
4089 assert(RecNo < RecordedNodes.
size() &&
"Invalid EmitConvertToTarget");
4090 SDValue Imm = RecordedNodes[RecNo].first;
4094 Imm =
CurDAG->getTargetConstant(*Val,
SDLoc(NodeToMatch),
4095 Imm.getValueType());
4098 Imm =
CurDAG->getTargetConstantFP(*Val,
SDLoc(NodeToMatch),
4099 Imm.getValueType());
4102 RecordedNodes.
emplace_back(Imm, RecordedNodes[RecNo].second);
4111 "EmitMergeInputChains should be the first chain producing node");
4113 "Should only have one EmitMergeInputChains per match");
4117 assert(RecNo < RecordedNodes.
size() &&
"Invalid EmitMergeInputChains");
4118 ChainNodesMatched.
push_back(RecordedNodes[RecNo].first.getNode());
4124 if (ChainNodesMatched.
back() != NodeToMatch &&
4125 !RecordedNodes[RecNo].first.hasOneUse()) {
4126 ChainNodesMatched.
clear();
4140 "EmitMergeInputChains should be the first chain producing node");
4147 unsigned NumChains = MatcherTable[MatcherIndex++];
4148 assert(NumChains != 0 &&
"Can't TF zero chains");
4151 "Should only have one EmitMergeInputChains per match");
4154 for (
unsigned i = 0; i != NumChains; ++i) {
4155 unsigned RecNo = MatcherTable[MatcherIndex++];
4156 assert(RecNo < RecordedNodes.
size() &&
"Invalid EmitMergeInputChains");
4157 ChainNodesMatched.
push_back(RecordedNodes[RecNo].first.getNode());
4163 if (ChainNodesMatched.
back() != NodeToMatch &&
4164 !RecordedNodes[RecNo].first.hasOneUse()) {
4165 ChainNodesMatched.
clear();
4171 if (ChainNodesMatched.
empty())
4196 : MatcherTable[MatcherIndex++];
4197 assert(RecNo < RecordedNodes.
size() &&
"Invalid EmitCopyToReg");
4198 unsigned DestPhysReg = MatcherTable[MatcherIndex++];
4200 DestPhysReg |= MatcherTable[MatcherIndex++] << 8;
4203 InputChain =
CurDAG->getEntryNode();
4205 InputChain =
CurDAG->getCopyToReg(InputChain,
SDLoc(NodeToMatch),
4206 DestPhysReg, RecordedNodes[RecNo].first,
4209 InputGlue = InputChain.
getValue(1);
4214 unsigned XFormNo = MatcherTable[MatcherIndex++];
4215 unsigned RecNo = MatcherTable[MatcherIndex++];
4216 assert(RecNo < RecordedNodes.
size() &&
"Invalid EmitNodeXForm");
4224 unsigned index = MatcherTable[MatcherIndex++];
4225 index |= (MatcherTable[MatcherIndex++] << 8);
4226 index |= (MatcherTable[MatcherIndex++] << 16);
4227 index |= (MatcherTable[MatcherIndex++] << 24);
4257 uint32_t TargetOpc = MatcherTable[MatcherIndex++];
4258 TargetOpc |= (MatcherTable[MatcherIndex++] << 8);
4259 unsigned EmitNodeInfo;
4278 EmitNodeInfo = MatcherTable[MatcherIndex++];
4303 NumVTs = MatcherTable[MatcherIndex++];
4306 for (
unsigned i = 0; i != NumVTs; ++i) {
4308 if (VT == MVT::iPTR)
4309 VT =
TLI->getPointerTy(
CurDAG->getDataLayout());
4313 for (
unsigned i = 0; i != NumVTs; ++i) {
4315 if (VT == MVT::iPTR)
4316 VT =
TLI->getPointerTy(
CurDAG->getDataLayout()).SimpleTy;
4329 if (VTs.
size() == 1)
4330 VTList =
CurDAG->getVTList(VTs[0]);
4331 else if (VTs.
size() == 2)
4332 VTList =
CurDAG->getVTList(VTs[0], VTs[1]);
4334 VTList =
CurDAG->getVTList(VTs);
4337 unsigned NumOps = MatcherTable[MatcherIndex++];
4342 size_t OperandIndex = MatcherTable[MatcherIndex++];
4343 if (OperandIndex & 128)
4344 OperandIndex =
GetVBR(OperandIndex, MatcherTable, MatcherIndex);
4346 for (
unsigned i = 0; i !=
NumOps; ++i) {
4347 unsigned RecNo = OperandLists[OperandIndex++];
4349 RecNo =
GetVBR(RecNo, OperandLists, OperandIndex);
4351 assert(RecNo < RecordedNodes.
size() &&
"Invalid EmitNode");
4352 Ops.push_back(RecordedNodes[RecNo].first);
4360 FirstOpToCopy += (EmitNodeInfo &
OPFL_Chain) ? 1 : 0;
4362 "Invalid variadic node");
4365 for (
unsigned i = FirstOpToCopy, e = NodeToMatch->
getNumOperands();
4368 if (V.getValueType() == MVT::Glue)
break;
4375 Ops.push_back(InputChain);
4376 if (DeactivationSymbol.
getNode() !=
nullptr)
4377 Ops.push_back(DeactivationSymbol);
4379 Ops.push_back(InputGlue);
4385 bool MayRaiseFPException =
4392 bool IsMorphNodeTo =
4395 if (!IsMorphNodeTo) {
4398 Res =
CurDAG->getMachineNode(TargetOpc,
SDLoc(NodeToMatch),
4402 for (
unsigned i = 0, e = VTs.
size(); i != e; ++i) {
4403 if (VTs[i] == MVT::Other || VTs[i] == MVT::Glue)
break;
4408 "NodeToMatch was removed partway through selection");
4412 auto &Chain = ChainNodesMatched;
4414 "Chain node replaced during MorphNode");
4418 Ops, EmitNodeInfo));
4445 bool mayLoad =
MCID.mayLoad();
4446 bool mayStore =
MCID.mayStore();
4452 if (MMO->isLoad()) {
4455 }
else if (MMO->isStore()) {
4463 CurDAG->setNodeMemRefs(Res, FilteredMemRefs);
4467 if (!MatchedMemRefs.
empty() && Res->memoperands_empty())
4468 dbgs() <<
" Dropping mem operands\n";
4469 dbgs() <<
" " << (IsMorphNodeTo ?
"Morphed" :
"Created") <<
" node: ";
4474 if (IsMorphNodeTo) {
4476 UpdateChains(Res, InputChain, ChainNodesMatched,
true);
4486 unsigned NumResults = MatcherTable[MatcherIndex++];
4488 for (
unsigned i = 0; i != NumResults; ++i) {
4489 unsigned ResSlot = MatcherTable[MatcherIndex++];
4491 ResSlot =
GetVBR(ResSlot, MatcherTable, MatcherIndex);
4493 assert(ResSlot < RecordedNodes.
size() &&
"Invalid CompleteMatch");
4494 SDValue Res = RecordedNodes[ResSlot].first;
4496 assert(i < NodeToMatch->getNumValues() &&
4499 "Invalid number of results to complete!");
4505 "invalid replacement");
4510 UpdateChains(NodeToMatch, InputChain, ChainNodesMatched,
false);
4523 "Didn't replace all uses of the node?");
4524 CurDAG->RemoveDeadNode(NodeToMatch);
4533 LLVM_DEBUG(
dbgs() <<
" Match failed at index " << CurrentOpcodeIndex
4535 ++NumDAGIselRetries;
4537 if (MatchScopes.
empty()) {
4538 CannotYetSelect(NodeToMatch);
4544 MatchScope &LastScope = MatchScopes.
back();
4545 RecordedNodes.
resize(LastScope.NumRecordedNodes);
4546 NodeStack.
assign(LastScope.NodeStack.begin(), LastScope.NodeStack.end());
4547 N = NodeStack.
back();
4549 if (LastScope.NumMatchedMemRefs != MatchedMemRefs.
size())
4550 MatchedMemRefs.
resize(LastScope.NumMatchedMemRefs);
4551 MatcherIndex = LastScope.FailIndex;
4555 InputChain = LastScope.InputChain;
4556 InputGlue = LastScope.InputGlue;
4557 if (!LastScope.HasChainNodesMatched)
4558 ChainNodesMatched.
clear();
4563 unsigned NumToSkip = MatcherTable[MatcherIndex++];
4564 if (NumToSkip & 128)
4565 NumToSkip =
GetVBR(NumToSkip, MatcherTable, MatcherIndex);
4569 if (NumToSkip != 0) {
4570 LastScope.FailIndex = MatcherIndex+NumToSkip;
4584 if (
N->isMachineOpcode()) {
4586 return MCID.mayRaiseFPException();
4591 if (
N->isTargetOpcode()) {
4595 return N->isStrictFPOpcode();
4608 int32_t Off =
C->getSExtValue();
4611 return (Off >= 0) && (((
A.value() - 1) & Off) ==
unsigned(Off));
4616void SelectionDAGISel::CannotYetSelect(
SDNode *
N) {
4619 Msg <<
"Cannot select: ";
4621 Msg.enable_colors(
errs().has_colors());
4629 bool HasInputChain =
N->getOperand(0).getValueType() == MVT::Other;
4630 unsigned iid =
N->getConstantOperandVal(HasInputChain);
4631 if (iid < Intrinsic::num_intrinsics)
4634 Msg <<
"unknown intrinsic #" << iid;
for(const MachineOperand &MO :llvm::drop_begin(OldMI.operands(), Desc.getNumOperands()))
MachineInstrBuilder & UseMI
assert(UImm &&(UImm !=~static_cast< T >(0)) &&"Invalid immediate!")
AMDGPU Register Bank Select
This file implements a class to represent arbitrary precision integral constant values and operations...
MachineBasicBlock MachineBasicBlock::iterator DebugLoc DL
MachineBasicBlock MachineBasicBlock::iterator MBBI
Expand Atomic instructions
static GCRegistry::Add< ErlangGC > A("erlang", "erlang-compatible garbage collector")
static GCRegistry::Add< CoreCLRGC > E("coreclr", "CoreCLR-compatible GC")
#define LLVM_ATTRIBUTE_ALWAYS_INLINE
LLVM_ATTRIBUTE_ALWAYS_INLINE - On compilers where we have a directive to do so, mark a method "always...
This file contains the declarations for the subclasses of Constant, which represent the different fla...
This file defines the DenseMap class.
This file defines the FastISel class.
Module.h This file contains the declarations for the Module class.
const size_t AbstractManglingParser< Derived, Alloc >::NumOps
const AbstractManglingParser< Derived, Alloc >::OperatorInfo AbstractManglingParser< Derived, Alloc >::Ops[]
PostRA Machine Instruction Scheduler
Register const TargetRegisterInfo * TRI
Promote Memory to Register
uint64_t IntrinsicInst * II
FunctionAnalysisManager FAM
This header defines classes/functions to handle pass execution timing information with interfaces for...
This file builds on the ADT/GraphTraits.h file to build a generic graph post order iterator.
static Type * getValueType(Value *V, bool LookThroughCmp=false)
Returns the "element type" of the given value/instruction V.
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckNodePredicate(unsigned Opcode, const uint8_t *MatcherTable, size_t &MatcherIndex, const SelectionDAGISel &SDISel, SDValue Op)
CheckNodePredicate - Implements OP_CheckNodePredicate.
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckSame(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N, const SmallVectorImpl< std::pair< SDValue, SDNode * > > &RecordedNodes)
CheckSame - Implements OP_CheckSame.
static cl::opt< bool > ViewSUnitDAGs("view-sunit-dags", cl::Hidden, cl::desc("Pop up a window to show SUnit dags after they are processed"))
static cl::opt< bool > ViewDAGCombineLT("view-dag-combine-lt-dags", cl::Hidden, cl::desc("Pop up a window to show dags before the post " "legalize types dag combine pass"))
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckOrImm(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N, const SelectionDAGISel &SDISel)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckCondCode(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckChildInteger(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N, unsigned ChildNo)
static cl::opt< bool > ViewISelDAGs("view-isel-dags", cl::Hidden, cl::desc("Pop up a window to show isel dags as they are selected"))
static LLVM_ATTRIBUTE_ALWAYS_INLINE uint64_t GetVBR(uint64_t Val, const uint8_t *MatcherTable, size_t &Idx)
GetVBR - decode a vbr encoding whose top bit is set.
static cl::opt< bool > DumpSortedDAG("dump-sorted-dags", cl::Hidden, cl::desc("Print DAGs with sorted nodes in debug dump"), cl::init(false))
static void reportFastISelFailure(MachineFunction &MF, OptimizationRemarkEmitter &ORE, OptimizationRemarkMissed &R, bool ShouldAbort)
static cl::opt< bool > ViewDAGCombine2("view-dag-combine2-dags", cl::Hidden, cl::desc("Pop up a window to show dags before the second " "dag combine pass"))
static RegisterScheduler defaultListDAGScheduler("default", "Best scheduler for the target", createDefaultScheduler)
static cl::opt< int > EnableFastISelAbort("fast-isel-abort", cl::Hidden, cl::desc("Enable abort calls when \"fast\" instruction selection " "fails to lower an instruction: 0 disable the abort, 1 will " "abort but for args, calls and terminators, 2 will also " "abort for argument lowering, and 3 will never fallback " "to SelectionDAG."))
static void mapWasmLandingPadIndex(MachineBasicBlock *MBB, const CatchPadInst *CPI)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckChildSame(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N, const SmallVectorImpl< std::pair< SDValue, SDNode * > > &RecordedNodes, unsigned ChildNo)
CheckChildSame - Implements OP_CheckChildXSame.
static void processSingleLocVars(FunctionLoweringInfo &FuncInfo, FunctionVarLocs const *FnVarLocs)
Collect single location variable information generated with assignment tracking.
static cl::opt< bool > UseMBPI("use-mbpi", cl::desc("use Machine Branch Probability Info"), cl::init(true), cl::Hidden)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckChildType(MVT::SimpleValueType VT, SDValue N, const TargetLowering *TLI, const DataLayout &DL, unsigned ChildNo)
static bool dontUseFastISelFor(const Function &Fn)
static bool findNonImmUse(SDNode *Root, SDNode *Def, SDNode *ImmedUse, bool IgnoreChains)
findNonImmUse - Return true if "Def" is a predecessor of "Root" via a path beyond "ImmedUse".
static cl::opt< bool > ViewDAGCombine1("view-dag-combine1-dags", cl::Hidden, cl::desc("Pop up a window to show dags before the first " "dag combine pass"))
static bool processIfEntryValueDbgDeclare(FunctionLoweringInfo &FuncInfo, const Value *Arg, DIExpression *Expr, DILocalVariable *Var, DebugLoc DbgLoc)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckInteger(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckPatternPredicate(unsigned Opcode, const uint8_t *MatcherTable, size_t &MatcherIndex, const SelectionDAGISel &SDISel)
CheckPatternPredicate - Implements OP_CheckPatternPredicate.
static cl::opt< bool > ViewSchedDAGs("view-sched-dags", cl::Hidden, cl::desc("Pop up a window to show sched dags as they are processed"))
static void processDbgDeclares(FunctionLoweringInfo &FuncInfo)
Collect llvm.dbg.declare information.
static void preserveFakeUses(BasicBlock::iterator Begin, BasicBlock::iterator End)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckOpcode(const uint8_t *MatcherTable, size_t &MatcherIndex, SDNode *N)
static SDValue HandleMergeInputChains(const SmallVectorImpl< SDNode * > &ChainNodesMatched, SDValue InputGlue, SelectionDAG *CurDAG)
HandleMergeInputChains - This implements the OPC_EmitMergeInputChains operation for when the pattern ...
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckType(MVT::SimpleValueType VT, SDValue N, const TargetLowering *TLI, const DataLayout &DL)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckAndImm(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N, const SelectionDAGISel &SDISel)
static bool hasExceptionPointerOrCodeUser(const CatchPadInst *CPI)
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckValueType(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N, const TargetLowering *TLI, const DataLayout &DL)
static cl::opt< bool > ViewLegalizeDAGs("view-legalize-dags", cl::Hidden, cl::desc("Pop up a window to show dags before legalize"))
static cl::opt< bool > ViewLegalizeTypesDAGs("view-legalize-types-dags", cl::Hidden, cl::desc("Pop up a window to show dags before legalize types"))
static cl::opt< RegisterScheduler::FunctionPassCtor, false, RegisterPassParser< RegisterScheduler > > ISHeuristic("pre-RA-sched", cl::init(&createDefaultScheduler), cl::Hidden, cl::desc("Instruction schedulers available (before register" " allocation):"))
ISHeuristic command line option for instruction schedulers.
static LLVM_ATTRIBUTE_ALWAYS_INLINE int64_t GetSignedVBR(const unsigned char *MatcherTable, size_t &Idx)
static bool maintainPGOProfile(const TargetMachine &TM, CodeGenOptLevel OptLevel)
static cl::opt< bool > EnableFastISelFallbackReport("fast-isel-report-on-fallback", cl::Hidden, cl::desc("Emit a diagnostic when \"fast\" instruction selection " "falls back to SelectionDAG."))
static bool processDbgDeclare(FunctionLoweringInfo &FuncInfo, const Value *Address, DIExpression *Expr, DILocalVariable *Var, DebugLoc DbgLoc)
static LLVM_ATTRIBUTE_ALWAYS_INLINE MVT::SimpleValueType getSimpleVT(const uint8_t *MatcherTable, size_t &MatcherIndex)
getSimpleVT - Decode a value in MatcherTable, if it's a VBR encoded value, use GetVBR to decode it.
static LLVM_ATTRIBUTE_ALWAYS_INLINE bool CheckChild2CondCode(const uint8_t *MatcherTable, size_t &MatcherIndex, SDValue N)
static cl::opt< std::string > FilterDAGBasicBlockName("filter-view-dags", cl::Hidden, cl::desc("Only display the basic block whose name " "matches this for all view-*-dags options"))
static LLVM_ATTRIBUTE_ALWAYS_INLINE MVT getHwModeVT(const uint8_t *MatcherTable, size_t &MatcherIndex, const SelectionDAGISel &SDISel)
Decode a HwMode VT in MatcherTable by calling getValueTypeForHwMode.
static size_t IsPredicateKnownToFail(const uint8_t *Table, size_t Index, SDValue N, bool &Result, const SelectionDAGISel &SDISel, SmallVectorImpl< std::pair< SDValue, SDNode * > > &RecordedNodes)
IsPredicateKnownToFail - If we know how and can do so without pushing a scope, evaluate the current n...
static bool isFoldedOrDeadInstruction(const Instruction *I, const FunctionLoweringInfo &FuncInfo)
isFoldedOrDeadInstruction - Return true if the specified instruction is side-effect free and is eithe...
This file defines the SmallPtrSet class.
This file defines the SmallVector class.
This file defines the 'Statistic' class, which is designed to be an easy way to expose various metric...
#define STATISTIC(VARNAME, DESC)
This file describes how to lower LLVM code to machine code.
A manager for alias analyses.
A wrapper pass to provide the legacy pass manager access to a suitably prepared AAResults object.
AAResults & getAAResults()
Class for arbitrary precision integers.
bool isSubsetOf(const APInt &RHS) const
This operation checks that all bits set in this APInt are also set in RHS.
PassT::Result & getResult(IRUnitT &IR, ExtraArgTs... ExtraArgs)
Get the result of an analysis pass for a given IR unit.
Represent the analysis usage information of a pass.
AnalysisUsage & addRequired()
AnalysisUsage & addPreserved()
Add the specified Pass class to the set of analyses preserved by this pass.
This class represents an incoming formal argument to a Function.
Represent a constant reference to an array (0 or more elements consecutively in memory),...
A function analysis which provides an AssumptionCache.
An immutable pass that tracks lazily created AssumptionCache objects.
LLVM Basic Block Representation.
unsigned getNumber() const
iterator_range< const_phi_iterator > phis() const
Returns a range that iterates over the phis in the basic block.
LLVM_ABI InstListType::const_iterator getFirstNonPHIIt() const
Returns an iterator to the first instruction in this block that is not a PHINode instruction.
InstListType::const_iterator const_iterator
InstListType::iterator iterator
Instruction iterators...
bool isEHPad() const
Return true if this basic block is an exception handling block.
LLVM_ABI const Instruction * getFirstMayFaultInst() const
Returns the first potential AsynchEH faulty instruction currently it checks for loads/stores (which m...
Analysis pass which computes BlockFrequencyInfo.
BlockFrequencyInfo pass uses BlockFrequencyInfoImpl implementation to estimate IR basic block frequen...
Analysis pass which computes BranchProbabilityInfo.
Legacy analysis pass which computes BranchProbabilityInfo.
This class represents a function call, abstracting a target machine's calling convention.
ConstantFP - Floating Point Values [float, double].
This is the shared class of boolean and integer constants.
LLVM_ABI bool isEntryValue() const
Check if the expression consists of exactly one entry value operand.
static LLVM_ABI DIExpression * append(const DIExpression *Expr, ArrayRef< uint64_t > Ops)
Append the opcodes Ops to DIExpr.
static LLVM_ABI DIExpression * prepend(const DIExpression *Expr, uint8_t Flags, int64_t Offset=0)
Prepend DIExpr with a deref and offset operation and optionally turn it into a stack value or/and an ...
A parsed version of the target data layout string in and methods for querying it.
Record of a variable value-assignment, aka a non instruction representation of the dbg....
iterator find(const_arg_type_t< KeyT > Val)
std::pair< iterator, bool > insert(const std::pair< KeyT, ValueT > &KV)
Diagnostic information for ISel fallback path.
void setLastLocalValue(MachineInstr *I)
Update the position of the last instruction emitted for materializing constants for use in the curren...
void handleDbgInfo(const Instruction *II)
Target-independent lowering of non-instruction debug info associated with this instruction.
bool tryToFoldLoad(const LoadInst *LI, const Instruction *FoldInst)
We're checking to see if we can fold LI into FoldInst.
void removeDeadCode(MachineBasicBlock::iterator I, MachineBasicBlock::iterator E)
Remove all dead instructions between the I and E.
void startNewBlock()
Set the current block to which generated machine instructions will be appended.
bool selectInstruction(const Instruction *I)
Do "fast" instruction selection for the given LLVM IR instruction and append the generated machine in...
void finishBasicBlock()
Flush the local value map.
void recomputeInsertPt()
Reset InsertPt to prepare for inserting instructions into the current block.
bool lowerArguments()
Do "fast" instruction selection for function arguments and append the machine instructions to the cur...
unsigned arg_size() const
arg_size - Return the number of funcletpad arguments.
Value * getArgOperand(unsigned i) const
getArgOperand/setArgOperand - Return/set the i-th funcletpad argument.
FunctionLoweringInfo - This contains information that is global to a function that is used when lower...
SmallPtrSet< const DbgVariableRecord *, 8 > PreprocessedDVRDeclares
Collection of dbg_declare instructions handled after argument lowering and before ISel proper.
DenseMap< const AllocaInst *, int > StaticAllocaMap
StaticAllocaMap - Keep track of frame indices for fixed sized allocas in the entry block.
LLVM_ABI int getArgumentFrameIndex(const Argument *A)
getArgumentFrameIndex - Get frame index for the byval argument.
bool isExportedInst(const Value *V) const
isExportedInst - Return true if the specified value is an instruction exported from its block.
DenseMap< const Value *, Register > ValueMap
ValueMap - Since we emit code for the function a basic block at a time, we must remember which virtua...
MachineRegisterInfo * RegInfo
bool skipFunction(const Function &F) const
Optional passes call this function to check whether the pass should be skipped.
Data structure describing the variable locations in a function.
const VarLocInfo * single_locs_begin() const
DILocalVariable * getDILocalVariable(const VarLocInfo *Loc) const
Return the DILocalVariable for the location definition represented by ID.
const VarLocInfo * single_locs_end() const
One past the last single-location variable location definition.
const BasicBlock & getEntryBlock() const
FunctionType * getFunctionType() const
Returns the FunctionType for me.
unsigned getMaxBlockNumber() const
Return a value larger than the largest block number.
iterator_range< arg_iterator > args()
DISubprogram * getSubprogram() const
Get the attached subprogram.
bool hasMinSize() const
Optimize this function for minimum size (-Oz).
bool hasGC() const
hasGC/getGC/setGC/clearGC - The name of the garbage collection algorithm to use during code generatio...
bool hasOptNone() const
Do not optimize this function (-O0).
LLVMContext & getContext() const
getContext - Return a reference to the LLVMContext associated with this function.
An analysis pass which caches information about the Function.
An analysis pass which caches information about the entire Module.
Module * getParent()
Get the module that this global value is contained inside of...
This class is used to form a handle around another node that is persistent and is updated across invo...
const DebugLoc & getDebugLoc() const
Return the debug location for this node as a DebugLoc.
bool isTerminator() const
A wrapper class for inspecting calls to intrinsic functions.
LLVM_ABI void diagnose(const DiagnosticInfo &DI)
Report a message to the currently installed diagnostic handler.
This is an alternative analysis pass to BlockFrequencyInfoWrapperPass.
static void getLazyBFIAnalysisUsage(AnalysisUsage &AU)
Helper for client passes to set up the analysis usage on behalf of this pass.
Record a mapping from subtarget to LibcallLoweringInfo.
const LibcallLoweringInfo & getLibcallLowering(const TargetSubtargetInfo &Subtarget) const
Describe properties that are true of each instruction in the target description file.
virtual unsigned getHwMode(enum HwModeType type=HwMode_Default) const
HwMode ID corresponding to the 'type' parameter is retrieved from the HwMode bit set of the current s...
const MDNode * getMD() const
const MDOperand & getOperand(unsigned I) const
LLVM_ABI StringRef getString() const
LLVM_ABI instr_iterator insert(instr_iterator I, MachineInstr *M)
Insert MI into the instruction list before I, possibly inside a bundle.
const BasicBlock * getBasicBlock() const
Return the LLVM basic block that this instance corresponded to originally.
LLVM_ABI iterator getFirstNonPHI()
Returns a pointer to the first instruction in this block that is not a PHINode instruction.
instr_iterator instr_end()
void addLiveIn(MCRegister PhysReg, LaneBitmask LaneMask=LaneBitmask::getAll())
Adds the specified register as a live in.
const MachineFunction * getParent() const
Return the MachineFunction containing this basic block.
iterator insertAfter(iterator I, MachineInstr *MI)
Insert MI into the instruction list after I.
LLVM_ABI bool isSuccessor(const MachineBasicBlock *MBB) const
Return true if the specified MBB is a successor of this block.
void splice(iterator Where, MachineBasicBlock *Other, iterator From)
Take an instruction from MBB 'Other' at the position From, and insert it into this MBB right before '...
MachineInstrBundleIterator< MachineInstr > iterator
The MachineFrameInfo class represents an abstract stack frame until prolog/epilog code is inserted.
bool hasCalls() const
Return true if the current function has any function calls.
Align getObjectAlign(int ObjectIdx) const
Return the alignment of the specified stack object.
MachineFunctionPass - This class adapts the FunctionPass interface to allow convenient creation of pa...
MachineFunctionPass(char &ID)
void getAnalysisUsage(AnalysisUsage &AU) const override
getAnalysisUsage - Subclasses that override getAnalysisUsage must call this.
bool useDebugInstrRef() const
Returns true if the function's variable locations are tracked with instruction referencing.
void setWasmLandingPadIndex(const MachineBasicBlock *LPad, unsigned Index)
Map the landing pad to its index. Used for Wasm exception handling.
const TargetSubtargetInfo & getSubtarget() const
getSubtarget - Return the subtarget for which this machine code is being compiled.
StringRef getName() const
getName - Return the name of the corresponding LLVM function.
void setUseDebugInstrRef(bool UseInstrRef)
Set whether this function will use instruction referencing or not.
const DataLayout & getDataLayout() const
Return the DataLayout attached to the Module associated to this MF.
Function & getFunction()
Return the LLVM function that this machine code represents.
bool shouldUseDebugInstrRef() const
Determine whether, in the current machine configuration, we should use instruction referencing or not...
const MachineFunctionProperties & getProperties() const
Get the function properties.
void setVariableDbgInfo(const DILocalVariable *Var, const DIExpression *Expr, int Slot, const DILocation *Loc)
Collect information used to emit debugging information of a variable in a stack slot.
const MachineInstrBuilder & addReg(Register RegNo, RegState Flags={}, unsigned SubReg=0) const
Add a new virtual register operand.
const MachineInstrBuilder & addSym(MCSymbol *Sym, unsigned char TargetFlags=0) const
Representation of each machine instruction.
bool isTerminator(QueryType Type=AnyInBundle) const
Returns true if this instruction part of the terminator for a basic block.
const MachineOperand & getOperand(unsigned i) const
A description of a memory reference used in the backend.
An analysis that produces MachineModuleInfo for a module.
This class contains meta information specific to a module.
Register getReg() const
getReg - Returns the register number.
MachinePassRegistry - Track the registration of machine passes.
MachineRegisterInfo - Keep track of information for virtual and physical registers,...
const TargetRegisterClass * getRegClass(Register Reg) const
Return the register class of the specified virtual register.
LLVM_ABI void clearKillFlags(Register Reg) const
clearKillFlags - Iterate over all the uses of the given register and clear the kill flag from the Mac...
ArrayRef< std::pair< MCRegister, Register > > liveins() const
LLVM_ABI const TargetRegisterClass * constrainRegClass(Register Reg, const TargetRegisterClass *RC, unsigned MinNumRegs=0)
constrainRegClass - Constrain the register class of the specified virtual register to be a common sub...
bool use_empty(Register RegNo) const
use_empty - Return true if there are no instructions using the specified register.
LLVM_ABI void replaceRegWith(Register FromReg, Register ToReg)
replaceRegWith - Replace all instances of FromReg with ToReg in the machine function.
An SDNode that represents everything that will be needed to construct a MachineInstr.
Metadata * getModuleFlag(StringRef Key) const
Return the corresponding value if Key appears in module flags, otherwise return null.
This class is used by SelectionDAGISel to temporarily override the optimization level on a per-functi...
OptLevelChanger(SelectionDAGISel &ISel, CodeGenOptLevel NewOptLevel)
static LLVM_ABI PassRegistry * getPassRegistry()
getPassRegistry - Access the global registry object, which is automatically initialized at applicatio...
AnalysisType & getAnalysis() const
getAnalysis<AnalysisType>() - This function is used by subclasses to get to the analysis information ...
AnalysisType * getAnalysisIfAvailable() const
getAnalysisIfAvailable<AnalysisType>() - Subclasses use this function to get analysis information tha...
A set of analyses that are preserved following a run of a transformation pass.
static PreservedAnalyses all()
Construct a special preserved set that preserves all passes.
An analysis pass based on the new PM to deliver ProfileSummaryInfo.
An analysis pass based on legacy pass manager to deliver ProfileSummaryInfo.
RegisterPassParser class - Handle the addition of new machine passes.
ScheduleDAGSDNodes *(*)(SelectionDAGISel *, CodeGenOptLevel) FunctionPassCtor
static LLVM_ABI MachinePassRegistry< FunctionPassCtor > Registry
RegisterScheduler class - Track the registration of instruction schedulers.
Wrapper class representing virtual and physical registers.
constexpr bool isVirtual() const
Return true if the specified register number is in the virtual register namespace.
Wrapper class for IR location info (IR ordering and DebugLoc) to be passed into SDNode creation funct...
Represents one node in the SelectionDAG.
bool isMachineOpcode() const
Test if this node has a post-isel opcode, directly corresponding to a MachineInstr opcode.
unsigned getOpcode() const
Return the SelectionDAG opcode value for this node.
SDNode * getGluedUser() const
If this node has a glue value with a user, return the user (there is at most one).
LLVM_ABI bool isOnlyUserOf(const SDNode *N) const
Return true if this node is the only use of N.
iterator_range< value_op_iterator > op_values() const
iterator_range< use_iterator > uses()
void setNodeId(int Id)
Set unique node id.
static bool hasPredecessorHelper(const SDNode *N, SmallPtrSetImpl< const SDNode * > &Visited, SmallVectorImpl< const SDNode * > &Worklist, unsigned int MaxSteps=0, bool TopologicalPrune=false)
Returns true if N is a predecessor of any node in Worklist.
uint64_t getAsZExtVal() const
Helper method returns the zero-extended integer value of a ConstantSDNode.
bool use_empty() const
Return true if there are no uses of this node.
unsigned getNumValues() const
Return the number of values defined/returned by this operator.
unsigned getNumOperands() const
Return the number of values used by this operation.
const SDValue & getOperand(unsigned Num) const
EVT getValueType(unsigned ResNo) const
Return the type of a specified result.
Represents a use of a SDNode.
Unlike LLVM values, Selection DAG nodes may return multiple values as the result of a computation.
SDNode * getNode() const
get the SDNode which holds the desired result
SDValue getValue(unsigned R) const
EVT getValueType() const
Return the ValueType of the referenced return value.
TypeSize getValueSizeInBits() const
Returns the size of the value in bits.
ScheduleDAGSDNodes - A ScheduleDAG for scheduling SDNode-based DAGs.
SelectionDAGBuilder - This is the common target-independent lowering implementation that is parameter...
bool runOnMachineFunction(MachineFunction &MF) override
runOnMachineFunction - This method must be overloaded to perform the desired machine code transformat...
void getAnalysisUsage(AnalysisUsage &AU) const override
getAnalysisUsage - Subclasses that override getAnalysisUsage must call this.
SelectionDAGISelLegacy(char &ID, std::unique_ptr< SelectionDAGISel > S)
LLVM_ABI PreservedAnalyses run(MachineFunction &MF, MachineFunctionAnalysisManager &MFAM)
SelectionDAGISel - This is the common base class used for SelectionDAG-based pattern-matching instruc...
std::optional< BatchAAResults > BatchAA
std::unique_ptr< FunctionLoweringInfo > FuncInfo
SmallPtrSet< const Instruction *, 4 > ElidedArgCopyInstrs
virtual bool SelectInlineAsmMemoryOperand(const SDValue &Op, InlineAsm::ConstraintCode ConstraintID, std::vector< SDValue > &OutOps)
SelectInlineAsmMemoryOperand - Select the specified address as a target addressing mode,...
bool CheckOrMask(SDValue LHS, ConstantSDNode *RHS, int64_t DesiredMaskS) const
CheckOrMask - The isel is trying to match something like (or X, 255).
void initializeAnalysisResults(MachineFunctionAnalysisManager &MFAM)
const TargetTransformInfo * TTI
virtual bool CheckNodePredicate(SDValue Op, unsigned PredNo) const
CheckNodePredicate - This function is generated by tblgen in the target.
virtual bool CheckNodePredicateWithOperands(SDValue Op, unsigned PredNo, ArrayRef< SDValue > Operands) const
CheckNodePredicateWithOperands - This function is generated by tblgen in the target.
const TargetLowering * TLI
virtual void PostprocessISelDAG()
PostprocessISelDAG() - This hook allows the target to hack on the graph right after selection.
std::unique_ptr< OptimizationRemarkEmitter > ORE
Current optimization remark emitter.
MachineRegisterInfo * RegInfo
unsigned DAGSize
DAGSize - Size of DAG being instruction selected.
@ OPC_MorphNodeTo2GlueOutput
@ OPC_CheckPatternPredicate5
@ OPC_EmitCopyToRegTwoByte
@ OPC_MorphNodeTo2GlueInput
@ OPC_CheckChild4TypeByHwMode0
@ OPC_CheckChild2CondCode
@ OPC_CheckChild2TypeByHwMode
@ OPC_CheckPatternPredicateTwoByte
@ OPC_CheckPatternPredicate1
@ OPC_CheckChild4TypeByHwMode
@ OPC_MorphNodeTo1GlueOutput
@ OPC_CaptureDeactivationSymbol
@ OPC_EmitMergeInputChains1_1
@ OPC_CheckPatternPredicate2
@ OPC_EmitConvertToTarget2
@ OPC_EmitConvertToTarget0
@ OPC_CheckPatternPredicate4
@ OPC_EmitConvertToTarget1
@ OPC_CheckPatternPredicate
@ OPC_CheckChild1TypeByHwMode0
@ OPC_CheckPatternPredicate6
@ OPC_CheckPatternPredicate7
@ OPC_CheckChild5TypeByHwMode
@ OPC_EmitMergeInputChains
@ OPC_CheckChild0TypeByHwMode0
@ OPC_EmitMergeInputChains1_0
@ OPC_CheckFoldableChainNode
@ OPC_CheckChild6TypeByHwMode
@ OPC_EmitConvertToTarget3
@ OPC_CheckChild7TypeByHwMode0
@ OPC_CheckChild7TypeByHwMode
@ OPC_EmitRegisterByHwMode
@ OPC_CheckPredicateWithOperands
@ OPC_EmitIntegerByHwMode0
@ OPC_CheckChild3TypeByHwMode0
@ OPC_EmitConvertToTarget4
@ OPC_CheckChild2TypeByHwMode0
@ OPC_EmitIntegerByHwMode
@ OPC_CheckChild3TypeByHwMode
@ OPC_CheckTypeResByHwMode
@ OPC_CheckChild5TypeByHwMode0
@ OPC_EmitConvertToTarget7
@ OPC_EmitMergeInputChains1_2
@ OPC_CheckChild6TypeByHwMode0
@ OPC_EmitConvertToTarget5
@ OPC_MorphNodeToByHwMode
@ OPC_CheckPatternPredicate0
@ OPC_EmitRegisterByHwMode2
@ OPC_MorphNodeTo1GlueInput
@ OPC_CheckChild0TypeByHwMode
@ OPC_CheckChild1TypeByHwMode
@ OPC_CheckPatternPredicate3
@ OPC_EmitConvertToTarget
@ OPC_EmitConvertToTarget6
bool isOrEquivalentToAdd(const SDNode *N) const
virtual bool CheckComplexPattern(SDNode *Root, SDNode *Parent, SDValue N, unsigned PatternNo, SmallVectorImpl< std::pair< SDValue, SDNode * > > &Result)
virtual bool CheckPatternPredicate(unsigned PredNo) const
CheckPatternPredicate - This function is generated by tblgen in the target.
static int getNumFixedFromVariadicInfo(unsigned Flags)
getNumFixedFromVariadicInfo - Transform an EmitNode flags word into the number of fixed arity values ...
const TargetLibraryInfo * LibInfo
static int getUninvalidatedNodeId(SDNode *N)
const TargetInstrInfo * TII
std::unique_ptr< SwiftErrorValueTracking > SwiftError
static void EnforceNodeIdInvariant(SDNode *N)
void ReplaceUses(SDValue F, SDValue T)
ReplaceUses - replace all uses of the old node F with the use of the new node T.
virtual bool IsProfitableToFold(SDValue N, SDNode *U, SDNode *Root) const
IsProfitableToFold - Returns true if it's profitable to fold the specific operand node N of U during ...
virtual SDValue RunSDNodeXForm(SDValue V, unsigned XFormNo)
virtual MVT getValueTypeForHwMode(unsigned Index) const
bool MatchFilterFuncName
True if the function currently processing is in the function printing list (i.e.
void SelectInlineAsmMemoryOperands(std::vector< SDValue > &Ops, const SDLoc &DL)
SelectInlineAsmMemoryOperands - Calls to this are automatically generated by tblgen.
static bool IsLegalToFold(SDValue N, SDNode *U, SDNode *Root, CodeGenOptLevel OptLevel, bool IgnoreChains=false)
IsLegalToFold - Returns true if the specific operand node N of U can be folded during instruction sel...
virtual bool ComplexPatternFuncMutatesDAG() const
Return true if complex patterns for this target can mutate the DAG.
virtual void PreprocessISelDAG()
PreprocessISelDAG - This hook allows targets to hack on the graph before instruction selection starts...
BatchAAResults * getBatchAA() const
Returns a (possibly null) pointer to the current BatchAAResults.
bool CheckAndMask(SDValue LHS, ConstantSDNode *RHS, int64_t DesiredMaskS) const
CheckAndMask - The isel is trying to match something like (and X, 255).
virtual ~SelectionDAGISel()
virtual StringRef getPatternForIndex(unsigned index)
getPatternForIndex - Patterns selected by tablegen during ISEL
bool mayRaiseFPException(SDNode *Node) const
Return whether the node may raise an FP exception.
std::unique_ptr< SelectionDAGBuilder > SDB
void ReplaceNode(SDNode *F, SDNode *T)
Replace all uses of F with T, then remove F from the DAG.
void SelectCodeCommon(SDNode *NodeToMatch, const uint8_t *MatcherTable, unsigned TableSize, const uint8_t *OperandLists)
const LibcallLoweringInfo * LibcallLowering
SelectionDAGISel(TargetMachine &tm, CodeGenOptLevel OL=CodeGenOptLevel::Default)
virtual bool runOnMachineFunction(MachineFunction &mf)
static void InvalidateNodeId(SDNode *N)
virtual StringRef getIncludePathForIndex(unsigned index)
getIncludePathForIndex - get the td source location of pattern instantiation
Targets can subclass this to parameterize the SelectionDAG lowering and instruction selection process...
virtual bool mayRaiseFPException(unsigned Opcode) const
Returns true if a node with the given target-specific opcode may raise a floating-point exception.
This is used to represent a portion of an LLVM function in a low-level Data Dependence DAG representa...
const SDValue & getRoot() const
Return the root tag of the SelectionDAG.
allnodes_const_iterator allnodes_begin() const
const DataLayout & getDataLayout() const
LLVM_ABI void RemoveDeadNode(SDNode *N)
Remove the specified node from the system.
LLVM_ABI SDValue getNode(unsigned Opcode, const SDLoc &DL, EVT VT, ArrayRef< SDUse > Ops)
Gets or creates the specified node.
LLVM_ABI unsigned AssignTopologicalOrder()
Topological-sort the AllNodes list and a assign a unique node id for each node in the DAG based on th...
SDValue getEntryNode() const
Return the token chain corresponding to the entry of the function.
ilist< SDNode >::iterator allnodes_iterator
std::pair< iterator, bool > insert(PtrType Ptr)
Inserts Ptr if and only if there is no element in the container equal to Ptr.
SmallPtrSet - This class implements a set which is optimized for holding SmallSize or less elements.
This class consists of common code factored out of the SmallVector class to reduce code duplication b...
void assign(size_type NumElts, ValueParamT Elt)
reference emplace_back(ArgTypes &&... Args)
void push_back(const T &Elt)
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
constexpr const char * data() const
Get a pointer to the start of the string (which may not be null terminated).
Analysis pass providing the TargetTransformInfo.
Analysis pass providing the TargetLibraryInfo.
MachineBasicBlock * emitPatchPoint(MachineInstr &MI, MachineBasicBlock *MBB) const
Replace/modify any TargetFrameIndex operands with a targte-dependent sequence of memory operands that...
Sched::Preference getSchedulingPreference() const
Return target scheduling preference.
virtual MVT getPointerTy(const DataLayout &DL, uint32_t AS=0) const
Return the pointer type for the given address space, defaults to the pointer type from the data layou...
This class defines information used to lower LLVM code to legal SelectionDAG operators that the targe...
virtual void AdjustInstrPostInstrSelection(MachineInstr &MI, SDNode *Node) const
This method should be implemented by targets that mark instructions with the 'hasPostISelHook' flag.
virtual MachineBasicBlock * EmitInstrWithCustomInserter(MachineInstr &MI, MachineBasicBlock *MBB) const
This method should be implemented by targets that mark instructions with the 'usesCustomInserter' fla...
Primary interface to the complete machine description for the target machine.
const std::optional< PGOOptions > & getPGOOption() const
TargetRegisterInfo base class - We assume that the target defines a static array of TargetRegisterDes...
TargetSubtargetInfo - Generic base class for all target subtargets.
virtual const TargetInstrInfo * getInstrInfo() const
virtual const TargetLowering * getTargetLowering() const
Twine - A lightweight data structure for efficiently representing the concatenation of temporary valu...
bool isTokenTy() const
Return true if this is 'token'.
bool isVoidTy() const
Return true if this is 'void'.
LLVM Value Representation.
Type * getType() const
All values are typed, get the type of this value.
bool hasOneUse() const
Return true if there is exactly one use of this value.
iterator_range< user_iterator > users()
LLVM_ABI StringRef getName() const
Return a constant reference to the value's name.
self_iterator getIterator()
A raw_ostream that writes to an std::string.
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
unsigned ID
LLVM IR allows to use arbitrary numbers as calling convention identifiers.
@ C
The default llvm calling convention, compatible with C.
LLVM_ABI bool isConstantSplatVectorAllOnes(const SDNode *N, bool BuildVectorOnly=false)
Return true if the specified node is a BUILD_VECTOR or SPLAT_VECTOR where all of the elements are ~0 ...
@ CONVERGENCECTRL_ANCHOR
The llvm.experimental.convergence.* intrinsics.
@ MDNODE_SDNODE
MDNODE_SDNODE - This is a node that holdes an MDNode*, which is used to reference metadata in the IR.
@ STRICT_FSETCC
STRICT_FSETCC/STRICT_FSETCCS - Constrained versions of SETCC, used for floating-point operands only.
@ DELETED_NODE
DELETED_NODE - This is an illegal value that is used to catch errors.
@ POISON
POISON - A poison node.
@ JUMP_TABLE_DEBUG_INFO
JUMP_TABLE_DEBUG_INFO - Jumptable debug info.
@ DEACTIVATION_SYMBOL
Untyped node storing deactivation symbol reference (DeactivationSymbolSDNode).
@ INTRINSIC_VOID
OUTCHAIN = INTRINSIC_VOID(INCHAIN, INTRINSICID, arg1, arg2, ...) This node represents a target intrin...
@ MEMBARRIER
MEMBARRIER - Compiler barrier only; generate a no-op.
@ FAKE_USE
FAKE_USE represents a use of the operand but does not do anything.
@ EH_LABEL
EH_LABEL - Represents a label in mid basic block used to track locations needed for debug and excepti...
@ ANNOTATION_LABEL
ANNOTATION_LABEL - Represents a mid basic block label used by annotations.
@ UNDEF
UNDEF - An undefined node.
@ AssertAlign
AssertAlign - These nodes record if a register contains a value that has a known alignment and the tr...
@ BasicBlock
Various leaf nodes.
@ CopyFromReg
CopyFromReg - This node indicates that the input value is a virtual or physical register that is defi...
@ TargetGlobalAddress
TargetGlobalAddress - Like GlobalAddress, but the DAG does no folding or anything else with this node...
@ ARITH_FENCE
ARITH_FENCE - This corresponds to a arithmetic fence intrinsic.
@ AssertNoFPClass
AssertNoFPClass - These nodes record if a register contains a float value that is known to be not som...
@ EntryToken
EntryToken - This is the marker used to indicate the start of a region.
@ READ_REGISTER
READ_REGISTER, WRITE_REGISTER - This node represents llvm.register on the DAG, which implements the n...
@ CopyToReg
CopyToReg - This node has three operands: a chain, a register number to set to this value,...
@ PATCHPOINT
The llvm.experimental.patchpoint.
@ LIFETIME_START
This corresponds to the llvm.lifetime.
@ STRICT_SINT_TO_FP
STRICT_[US]INT_TO_FP - Convert a signed or unsigned integer to a floating point value.
@ HANDLENODE
HANDLENODE node - Used as a handle for various purposes.
@ INLINEASM_BR
INLINEASM_BR - Branching version of inline asm. Used by asm-goto.
@ TargetConstant
TargetConstant* - Like Constant*, but the DAG does not do any folding, simplification,...
@ RELOC_NONE
Issue a no-op relocation against a given symbol at the current location.
@ AND
Bitwise operators - logical and, logical or, logical xor.
@ INTRINSIC_WO_CHAIN
RESULT = INTRINSIC_WO_CHAIN(INTRINSICID, arg1, arg2, ...) This node represents a target intrinsic fun...
@ PSEUDO_PROBE
Pseudo probe for AutoFDO, as a place holder in a basic block to improve the sample counts quality.
@ STACKMAP
The llvm.experimental.stackmap intrinsic.
@ FREEZE
FREEZE - FREEZE(VAL) returns an arbitrary value if VAL is UNDEF (or is evaluated to UNDEF),...
@ TokenFactor
TokenFactor - This node takes multiple tokens as input and produces a single token result.
@ INLINEASM
INLINEASM - Represents an inline asm block.
@ AssertSext
AssertSext, AssertZext - These nodes record if a register contains a value that has already been zero...
@ INTRINSIC_W_CHAIN
RESULT,OUTCHAIN = INTRINSIC_W_CHAIN(INCHAIN, INTRINSICID, arg1, ...) This node represents a target in...
LLVM_ABI bool isConstantSplatVectorAllZeros(const SDNode *N, bool BuildVectorOnly=false)
Return true if the specified node is a BUILD_VECTOR or SPLAT_VECTOR where all of the elements are 0 o...
CondCode
ISD::CondCode enum - These are ordered carefully to make the bitfields below work out,...
LLVM_ABI StringRef getBaseName(ID id)
Return the LLVM name for an intrinsic, without encoded types for overloading, such as "llvm....
initializer< Ty > init(const Ty &Val)
DiagnosticInfoOptimizationBase::Argument NV
NodeAddr< NodeBase * > Node
friend class Instruction
Iterator for Instructions in a `BasicBlock.
This is an optimization pass for GlobalISel generic memory operations.
GenericUniformityInfo< SSAContext > UniformityInfo
LLVM_ABI ScheduleDAGSDNodes * createDefaultScheduler(SelectionDAGISel *IS, CodeGenOptLevel OptLevel)
createDefaultScheduler - This creates an instruction scheduler appropriate for the target.
OuterAnalysisManagerProxy< ModuleAnalysisManager, MachineFunction > ModuleAnalysisManagerMachineFunctionProxy
Provide the ModuleAnalysisManager to Function proxy.
bool succ_empty(const Instruction *I)
LLVM_ABI ScheduleDAGSDNodes * createBURRListDAGScheduler(SelectionDAGISel *IS, CodeGenOptLevel OptLevel)
createBURRListDAGScheduler - This creates a bottom up register usage reduction list scheduler.
MachineInstrBuilder BuildMI(MachineFunction &MF, const MIMetadata &MIMD, const MCInstrDesc &MCID)
Builder interface. Specify how to create the initial instruction itself.
@ Known
Known to have no common set bits.
@ Kill
The last use of a register.
decltype(auto) dyn_cast(const From &Val)
dyn_cast<X> - Return the argument parameter cast to the specified type.
LLVM_ABI ScheduleDAGSDNodes * createHybridListDAGScheduler(SelectionDAGISel *IS, CodeGenOptLevel)
createHybridListDAGScheduler - This creates a bottom up register pressure aware list scheduler that m...
void append_range(Container &C, Range &&R)
Wrapper function to append range R to container C.
LLVM_ABI MachineBasicBlock::iterator findSplitPointForStackProtector(MachineBasicBlock *BB, const TargetInstrInfo &TII)
Find the split point at which to splice the end of BB into its success stack protector check machine ...
LLVM_ABI bool TimePassesIsEnabled
If the user specifies the -time-passes argument on an LLVM tool command line then the value of this b...
LLVM_ABI LLT getLLTForMVT(MVT Ty)
Get a rough equivalent of an LLT for a given MVT.
AnalysisManager< MachineFunction > MachineFunctionAnalysisManager
LLVM_ABI ScheduleDAGSDNodes * createFastDAGScheduler(SelectionDAGISel *IS, CodeGenOptLevel OptLevel)
createFastDAGScheduler - This creates a "fast" scheduler.
LLVM_ABI PreservedAnalyses getMachineFunctionPassPreservedAnalyses()
Returns the minimum set of Analyses that all machine function passes must preserve.
void erase(Container &C, ValueType V)
Wrapper function to remove a value from a container:
bool any_of(R &&range, UnaryPredicate P)
Provide wrappers to std::any_of which take ranges instead of having to pass begin/end explicitly.
LLVM_ABI ScheduleDAGSDNodes * createDAGLinearizer(SelectionDAGISel *IS, CodeGenOptLevel OptLevel)
createDAGLinearizer - This creates a "no-scheduling" scheduler which linearize the DAG using topologi...
LLVM_ABI raw_ostream & dbgs()
dbgs() - This returns a reference to a raw_ostream for debugging messages.
LLVM_ABI bool isFunctionInPrintList(StringRef FunctionName)
LLVM_ABI void report_fatal_error(Error Err, bool gen_crash_diag=true)
LLVM_ABI EHPersonality classifyEHPersonality(const Value *Pers)
See if the given exception handling personality function is one that we understand.
CodeGenOptLevel
Code generation optimization level.
class LLVM_GSL_OWNER SmallVector
Forward declaration of SmallVector so that calculateSmallVectorDefaultInlinedElements can reference s...
bool isa(const From &Val)
isa<X> - Return true if the parameter to the template is an instance of one of the template type argu...
LLVM_ABI raw_fd_ostream & errs()
This returns a reference to a raw_ostream for standard error.
bool isFuncletEHPersonality(EHPersonality Pers)
Returns true if this is a personality function that invokes handler funclets (which must return to it...
LLVM_ABI ScheduleDAGSDNodes * createSourceListDAGScheduler(SelectionDAGISel *IS, CodeGenOptLevel OptLevel)
createSourceListDAGScheduler - This creates a bottom up list scheduler that schedules nodes in source...
LLVM_ABI bool isAssignmentTrackingEnabled(const Module &M)
Return true if assignment tracking is enabled for module M.
void replace(R &&Range, const T &OldValue, const T &NewValue)
Provide wrappers to std::replace which take ranges instead of having to pass begin/end explicitly.
DWARFExpression::Operation Op
LLVM_ABI void initializeAAResultsWrapperPassPass(PassRegistry &)
LLVM_ABI void initializeTargetLibraryInfoWrapperPassPass(PassRegistry &)
OutputIt move(R &&Range, OutputIt Out)
Provide wrappers to std::move which take ranges instead of having to pass begin/end explicitly.
LLVM_ABI ScheduleDAGSDNodes * createILPListDAGScheduler(SelectionDAGISel *IS, CodeGenOptLevel)
createILPListDAGScheduler - This creates a bottom up register pressure aware list scheduler that trie...
decltype(auto) cast(const From &Val)
cast<X> - Return the argument parameter cast to the specified type.
auto predecessors(const MachineBasicBlock *BB)
LLVM_ABI void initializeBranchProbabilityInfoWrapperPassPass(PassRegistry &)
bool is_contained(R &&Range, const E &Element)
Returns true if Element is found in Range.
constexpr int64_t SignExtend64(uint64_t x)
Sign-extend the number in the bottom B bits of X to a 64-bit integer.
LLVM_ABI ScheduleDAGSDNodes * createVLIWDAGScheduler(SelectionDAGISel *IS, CodeGenOptLevel OptLevel)
createVLIWDAGScheduler - Scheduler for VLIW targets.
static auto filterDbgVars(iterator_range< simple_ilist< DbgRecord >::iterator > R)
Filter the DbgRecord range to DbgVariableRecord types only and downcast.
LLVM_ABI Printable printReg(Register Reg, const TargetRegisterInfo *TRI=nullptr, unsigned SubIdx=0, const MachineRegisterInfo *MRI=nullptr)
Prints virtual and physical registers with or without a TRI instance.
LLVM_ABI Printable printMBBReference(const MachineBasicBlock &MBB)
Prints a machine basic block reference.
MCRegisterClass TargetRegisterClass
LLVM_ABI void reportFatalUsageError(Error Err)
Report a fatal error that does not indicate a bug in LLVM.
Implement std::hash so that hash_code can be used in STL containers.
This struct is a compact representation of a valid (non-zero power of two) alignment.
bool isSimple() const
Test if the given EVT is simple (as opposed to being extended).
TypeSize getSizeInBits() const
Return the size of the specified value type in bits.
MVT getSimpleVT() const
Return the SimpleValueType held in the specified simple EVT.
bool isInteger() const
Return true if this is an integer or a vector integer type.
A struct capturing PGO tunables.
This represents a list of ValueType's that has been intern'd by a SelectionDAG.
Clients of various APIs that cause global effects on the DAG can optionally implement this interface.
LLVM_ABI void addIPToStateRange(const InvokeInst *II, MCSymbol *InvokeBegin, MCSymbol *InvokeEnd)
DenseMap< const BasicBlock *, int > BlockToStateMap