10b57cec5SDimitry Andric //===-- ARMTargetMachine.cpp - Define TargetMachine for ARM ---------------===// 20b57cec5SDimitry Andric // 30b57cec5SDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 40b57cec5SDimitry Andric // See https://llvm.org/LICENSE.txt for license information. 50b57cec5SDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 60b57cec5SDimitry Andric // 70b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 80b57cec5SDimitry Andric // 90b57cec5SDimitry Andric // 100b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 110b57cec5SDimitry Andric 120b57cec5SDimitry Andric #include "ARMTargetMachine.h" 130b57cec5SDimitry Andric #include "ARM.h" 140b57cec5SDimitry Andric #include "ARMMacroFusion.h" 150b57cec5SDimitry Andric #include "ARMSubtarget.h" 160b57cec5SDimitry Andric #include "ARMTargetObjectFile.h" 170b57cec5SDimitry Andric #include "ARMTargetTransformInfo.h" 180b57cec5SDimitry Andric #include "MCTargetDesc/ARMMCTargetDesc.h" 190b57cec5SDimitry Andric #include "TargetInfo/ARMTargetInfo.h" 200b57cec5SDimitry Andric #include "llvm/ADT/Optional.h" 210b57cec5SDimitry Andric #include "llvm/ADT/STLExtras.h" 220b57cec5SDimitry Andric #include "llvm/ADT/StringRef.h" 230b57cec5SDimitry Andric #include "llvm/ADT/Triple.h" 240b57cec5SDimitry Andric #include "llvm/Analysis/TargetTransformInfo.h" 250b57cec5SDimitry Andric #include "llvm/CodeGen/ExecutionDomainFix.h" 260b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/CallLowering.h" 270b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/IRTranslator.h" 280b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/InstructionSelect.h" 290b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/InstructionSelector.h" 300b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/Legalizer.h" 310b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/LegalizerInfo.h" 320b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/RegBankSelect.h" 330b57cec5SDimitry Andric #include "llvm/CodeGen/GlobalISel/RegisterBankInfo.h" 340b57cec5SDimitry Andric #include "llvm/CodeGen/MachineFunction.h" 350b57cec5SDimitry Andric #include "llvm/CodeGen/MachineScheduler.h" 360b57cec5SDimitry Andric #include "llvm/CodeGen/Passes.h" 370b57cec5SDimitry Andric #include "llvm/CodeGen/TargetPassConfig.h" 380b57cec5SDimitry Andric #include "llvm/IR/Attributes.h" 390b57cec5SDimitry Andric #include "llvm/IR/DataLayout.h" 400b57cec5SDimitry Andric #include "llvm/IR/Function.h" 410b57cec5SDimitry Andric #include "llvm/Pass.h" 420b57cec5SDimitry Andric #include "llvm/Support/CodeGen.h" 430b57cec5SDimitry Andric #include "llvm/Support/CommandLine.h" 440b57cec5SDimitry Andric #include "llvm/Support/ErrorHandling.h" 450b57cec5SDimitry Andric #include "llvm/Support/TargetParser.h" 460b57cec5SDimitry Andric #include "llvm/Support/TargetRegistry.h" 470b57cec5SDimitry Andric #include "llvm/Target/TargetLoweringObjectFile.h" 480b57cec5SDimitry Andric #include "llvm/Target/TargetOptions.h" 49*480093f4SDimitry Andric #include "llvm/Transforms/CFGuard.h" 500b57cec5SDimitry Andric #include "llvm/Transforms/Scalar.h" 510b57cec5SDimitry Andric #include <cassert> 520b57cec5SDimitry Andric #include <memory> 530b57cec5SDimitry Andric #include <string> 540b57cec5SDimitry Andric 550b57cec5SDimitry Andric using namespace llvm; 560b57cec5SDimitry Andric 570b57cec5SDimitry Andric static cl::opt<bool> 580b57cec5SDimitry Andric DisableA15SDOptimization("disable-a15-sd-optimization", cl::Hidden, 590b57cec5SDimitry Andric cl::desc("Inhibit optimization of S->D register accesses on A15"), 600b57cec5SDimitry Andric cl::init(false)); 610b57cec5SDimitry Andric 620b57cec5SDimitry Andric static cl::opt<bool> 630b57cec5SDimitry Andric EnableAtomicTidy("arm-atomic-cfg-tidy", cl::Hidden, 640b57cec5SDimitry Andric cl::desc("Run SimplifyCFG after expanding atomic operations" 650b57cec5SDimitry Andric " to make use of cmpxchg flow-based information"), 660b57cec5SDimitry Andric cl::init(true)); 670b57cec5SDimitry Andric 680b57cec5SDimitry Andric static cl::opt<bool> 690b57cec5SDimitry Andric EnableARMLoadStoreOpt("arm-load-store-opt", cl::Hidden, 700b57cec5SDimitry Andric cl::desc("Enable ARM load/store optimization pass"), 710b57cec5SDimitry Andric cl::init(true)); 720b57cec5SDimitry Andric 730b57cec5SDimitry Andric // FIXME: Unify control over GlobalMerge. 740b57cec5SDimitry Andric static cl::opt<cl::boolOrDefault> 750b57cec5SDimitry Andric EnableGlobalMerge("arm-global-merge", cl::Hidden, 760b57cec5SDimitry Andric cl::desc("Enable the global merge pass")); 770b57cec5SDimitry Andric 780b57cec5SDimitry Andric namespace llvm { 790b57cec5SDimitry Andric void initializeARMExecutionDomainFixPass(PassRegistry&); 800b57cec5SDimitry Andric } 810b57cec5SDimitry Andric 82*480093f4SDimitry Andric extern "C" LLVM_EXTERNAL_VISIBILITY void LLVMInitializeARMTarget() { 830b57cec5SDimitry Andric // Register the target. 840b57cec5SDimitry Andric RegisterTargetMachine<ARMLETargetMachine> X(getTheARMLETarget()); 850b57cec5SDimitry Andric RegisterTargetMachine<ARMLETargetMachine> A(getTheThumbLETarget()); 860b57cec5SDimitry Andric RegisterTargetMachine<ARMBETargetMachine> Y(getTheARMBETarget()); 870b57cec5SDimitry Andric RegisterTargetMachine<ARMBETargetMachine> B(getTheThumbBETarget()); 880b57cec5SDimitry Andric 890b57cec5SDimitry Andric PassRegistry &Registry = *PassRegistry::getPassRegistry(); 900b57cec5SDimitry Andric initializeGlobalISel(Registry); 910b57cec5SDimitry Andric initializeARMLoadStoreOptPass(Registry); 920b57cec5SDimitry Andric initializeARMPreAllocLoadStoreOptPass(Registry); 930b57cec5SDimitry Andric initializeARMParallelDSPPass(Registry); 940b57cec5SDimitry Andric initializeARMConstantIslandsPass(Registry); 950b57cec5SDimitry Andric initializeARMExecutionDomainFixPass(Registry); 960b57cec5SDimitry Andric initializeARMExpandPseudoPass(Registry); 970b57cec5SDimitry Andric initializeThumb2SizeReducePass(Registry); 980b57cec5SDimitry Andric initializeMVEVPTBlockPass(Registry); 998bcb0991SDimitry Andric initializeMVETailPredicationPass(Registry); 1000b57cec5SDimitry Andric initializeARMLowOverheadLoopsPass(Registry); 101*480093f4SDimitry Andric initializeMVEGatherScatterLoweringPass(Registry); 1020b57cec5SDimitry Andric } 1030b57cec5SDimitry Andric 1040b57cec5SDimitry Andric static std::unique_ptr<TargetLoweringObjectFile> createTLOF(const Triple &TT) { 1050b57cec5SDimitry Andric if (TT.isOSBinFormatMachO()) 1068bcb0991SDimitry Andric return std::make_unique<TargetLoweringObjectFileMachO>(); 1070b57cec5SDimitry Andric if (TT.isOSWindows()) 1088bcb0991SDimitry Andric return std::make_unique<TargetLoweringObjectFileCOFF>(); 1098bcb0991SDimitry Andric return std::make_unique<ARMElfTargetObjectFile>(); 1100b57cec5SDimitry Andric } 1110b57cec5SDimitry Andric 1120b57cec5SDimitry Andric static ARMBaseTargetMachine::ARMABI 1130b57cec5SDimitry Andric computeTargetABI(const Triple &TT, StringRef CPU, 1140b57cec5SDimitry Andric const TargetOptions &Options) { 1150b57cec5SDimitry Andric StringRef ABIName = Options.MCOptions.getABIName(); 1160b57cec5SDimitry Andric 1170b57cec5SDimitry Andric if (ABIName.empty()) 1180b57cec5SDimitry Andric ABIName = ARM::computeDefaultTargetABI(TT, CPU); 1190b57cec5SDimitry Andric 1200b57cec5SDimitry Andric if (ABIName == "aapcs16") 1210b57cec5SDimitry Andric return ARMBaseTargetMachine::ARM_ABI_AAPCS16; 1220b57cec5SDimitry Andric else if (ABIName.startswith("aapcs")) 1230b57cec5SDimitry Andric return ARMBaseTargetMachine::ARM_ABI_AAPCS; 1240b57cec5SDimitry Andric else if (ABIName.startswith("apcs")) 1250b57cec5SDimitry Andric return ARMBaseTargetMachine::ARM_ABI_APCS; 1260b57cec5SDimitry Andric 1270b57cec5SDimitry Andric llvm_unreachable("Unhandled/unknown ABI Name!"); 1280b57cec5SDimitry Andric return ARMBaseTargetMachine::ARM_ABI_UNKNOWN; 1290b57cec5SDimitry Andric } 1300b57cec5SDimitry Andric 1310b57cec5SDimitry Andric static std::string computeDataLayout(const Triple &TT, StringRef CPU, 1320b57cec5SDimitry Andric const TargetOptions &Options, 1330b57cec5SDimitry Andric bool isLittle) { 1340b57cec5SDimitry Andric auto ABI = computeTargetABI(TT, CPU, Options); 1350b57cec5SDimitry Andric std::string Ret; 1360b57cec5SDimitry Andric 1370b57cec5SDimitry Andric if (isLittle) 1380b57cec5SDimitry Andric // Little endian. 1390b57cec5SDimitry Andric Ret += "e"; 1400b57cec5SDimitry Andric else 1410b57cec5SDimitry Andric // Big endian. 1420b57cec5SDimitry Andric Ret += "E"; 1430b57cec5SDimitry Andric 1440b57cec5SDimitry Andric Ret += DataLayout::getManglingComponent(TT); 1450b57cec5SDimitry Andric 1460b57cec5SDimitry Andric // Pointers are 32 bits and aligned to 32 bits. 1470b57cec5SDimitry Andric Ret += "-p:32:32"; 1480b57cec5SDimitry Andric 1490b57cec5SDimitry Andric // Function pointers are aligned to 8 bits (because the LSB stores the 1500b57cec5SDimitry Andric // ARM/Thumb state). 1510b57cec5SDimitry Andric Ret += "-Fi8"; 1520b57cec5SDimitry Andric 1530b57cec5SDimitry Andric // ABIs other than APCS have 64 bit integers with natural alignment. 1540b57cec5SDimitry Andric if (ABI != ARMBaseTargetMachine::ARM_ABI_APCS) 1550b57cec5SDimitry Andric Ret += "-i64:64"; 1560b57cec5SDimitry Andric 1570b57cec5SDimitry Andric // We have 64 bits floats. The APCS ABI requires them to be aligned to 32 1580b57cec5SDimitry Andric // bits, others to 64 bits. We always try to align to 64 bits. 1590b57cec5SDimitry Andric if (ABI == ARMBaseTargetMachine::ARM_ABI_APCS) 1600b57cec5SDimitry Andric Ret += "-f64:32:64"; 1610b57cec5SDimitry Andric 1620b57cec5SDimitry Andric // We have 128 and 64 bit vectors. The APCS ABI aligns them to 32 bits, others 1630b57cec5SDimitry Andric // to 64. We always ty to give them natural alignment. 1640b57cec5SDimitry Andric if (ABI == ARMBaseTargetMachine::ARM_ABI_APCS) 1650b57cec5SDimitry Andric Ret += "-v64:32:64-v128:32:128"; 1660b57cec5SDimitry Andric else if (ABI != ARMBaseTargetMachine::ARM_ABI_AAPCS16) 1670b57cec5SDimitry Andric Ret += "-v128:64:128"; 1680b57cec5SDimitry Andric 1690b57cec5SDimitry Andric // Try to align aggregates to 32 bits (the default is 64 bits, which has no 1700b57cec5SDimitry Andric // particular hardware support on 32-bit ARM). 1710b57cec5SDimitry Andric Ret += "-a:0:32"; 1720b57cec5SDimitry Andric 1730b57cec5SDimitry Andric // Integer registers are 32 bits. 1740b57cec5SDimitry Andric Ret += "-n32"; 1750b57cec5SDimitry Andric 1760b57cec5SDimitry Andric // The stack is 128 bit aligned on NaCl, 64 bit aligned on AAPCS and 32 bit 1770b57cec5SDimitry Andric // aligned everywhere else. 1780b57cec5SDimitry Andric if (TT.isOSNaCl() || ABI == ARMBaseTargetMachine::ARM_ABI_AAPCS16) 1790b57cec5SDimitry Andric Ret += "-S128"; 1800b57cec5SDimitry Andric else if (ABI == ARMBaseTargetMachine::ARM_ABI_AAPCS) 1810b57cec5SDimitry Andric Ret += "-S64"; 1820b57cec5SDimitry Andric else 1830b57cec5SDimitry Andric Ret += "-S32"; 1840b57cec5SDimitry Andric 1850b57cec5SDimitry Andric return Ret; 1860b57cec5SDimitry Andric } 1870b57cec5SDimitry Andric 1880b57cec5SDimitry Andric static Reloc::Model getEffectiveRelocModel(const Triple &TT, 1890b57cec5SDimitry Andric Optional<Reloc::Model> RM) { 1900b57cec5SDimitry Andric if (!RM.hasValue()) 1910b57cec5SDimitry Andric // Default relocation model on Darwin is PIC. 1920b57cec5SDimitry Andric return TT.isOSBinFormatMachO() ? Reloc::PIC_ : Reloc::Static; 1930b57cec5SDimitry Andric 1940b57cec5SDimitry Andric if (*RM == Reloc::ROPI || *RM == Reloc::RWPI || *RM == Reloc::ROPI_RWPI) 1950b57cec5SDimitry Andric assert(TT.isOSBinFormatELF() && 1960b57cec5SDimitry Andric "ROPI/RWPI currently only supported for ELF"); 1970b57cec5SDimitry Andric 1980b57cec5SDimitry Andric // DynamicNoPIC is only used on darwin. 1990b57cec5SDimitry Andric if (*RM == Reloc::DynamicNoPIC && !TT.isOSDarwin()) 2000b57cec5SDimitry Andric return Reloc::Static; 2010b57cec5SDimitry Andric 2020b57cec5SDimitry Andric return *RM; 2030b57cec5SDimitry Andric } 2040b57cec5SDimitry Andric 2050b57cec5SDimitry Andric /// Create an ARM architecture model. 2060b57cec5SDimitry Andric /// 2070b57cec5SDimitry Andric ARMBaseTargetMachine::ARMBaseTargetMachine(const Target &T, const Triple &TT, 2080b57cec5SDimitry Andric StringRef CPU, StringRef FS, 2090b57cec5SDimitry Andric const TargetOptions &Options, 2100b57cec5SDimitry Andric Optional<Reloc::Model> RM, 2110b57cec5SDimitry Andric Optional<CodeModel::Model> CM, 2120b57cec5SDimitry Andric CodeGenOpt::Level OL, bool isLittle) 2130b57cec5SDimitry Andric : LLVMTargetMachine(T, computeDataLayout(TT, CPU, Options, isLittle), TT, 2140b57cec5SDimitry Andric CPU, FS, Options, getEffectiveRelocModel(TT, RM), 2150b57cec5SDimitry Andric getEffectiveCodeModel(CM, CodeModel::Small), OL), 2160b57cec5SDimitry Andric TargetABI(computeTargetABI(TT, CPU, Options)), 2170b57cec5SDimitry Andric TLOF(createTLOF(getTargetTriple())), isLittle(isLittle) { 2180b57cec5SDimitry Andric 2190b57cec5SDimitry Andric // Default to triple-appropriate float ABI 2200b57cec5SDimitry Andric if (Options.FloatABIType == FloatABI::Default) { 2210b57cec5SDimitry Andric if (isTargetHardFloat()) 2220b57cec5SDimitry Andric this->Options.FloatABIType = FloatABI::Hard; 2230b57cec5SDimitry Andric else 2240b57cec5SDimitry Andric this->Options.FloatABIType = FloatABI::Soft; 2250b57cec5SDimitry Andric } 2260b57cec5SDimitry Andric 2270b57cec5SDimitry Andric // Default to triple-appropriate EABI 2280b57cec5SDimitry Andric if (Options.EABIVersion == EABI::Default || 2290b57cec5SDimitry Andric Options.EABIVersion == EABI::Unknown) { 2300b57cec5SDimitry Andric // musl is compatible with glibc with regard to EABI version 2310b57cec5SDimitry Andric if ((TargetTriple.getEnvironment() == Triple::GNUEABI || 2320b57cec5SDimitry Andric TargetTriple.getEnvironment() == Triple::GNUEABIHF || 2330b57cec5SDimitry Andric TargetTriple.getEnvironment() == Triple::MuslEABI || 2340b57cec5SDimitry Andric TargetTriple.getEnvironment() == Triple::MuslEABIHF) && 2350b57cec5SDimitry Andric !(TargetTriple.isOSWindows() || TargetTriple.isOSDarwin())) 2360b57cec5SDimitry Andric this->Options.EABIVersion = EABI::GNU; 2370b57cec5SDimitry Andric else 2380b57cec5SDimitry Andric this->Options.EABIVersion = EABI::EABI5; 2390b57cec5SDimitry Andric } 2400b57cec5SDimitry Andric 2410b57cec5SDimitry Andric if (TT.isOSBinFormatMachO()) { 2420b57cec5SDimitry Andric this->Options.TrapUnreachable = true; 2430b57cec5SDimitry Andric this->Options.NoTrapAfterNoreturn = true; 2440b57cec5SDimitry Andric } 2450b57cec5SDimitry Andric 2460b57cec5SDimitry Andric initAsmInfo(); 2470b57cec5SDimitry Andric } 2480b57cec5SDimitry Andric 2490b57cec5SDimitry Andric ARMBaseTargetMachine::~ARMBaseTargetMachine() = default; 2500b57cec5SDimitry Andric 2510b57cec5SDimitry Andric const ARMSubtarget * 2520b57cec5SDimitry Andric ARMBaseTargetMachine::getSubtargetImpl(const Function &F) const { 2530b57cec5SDimitry Andric Attribute CPUAttr = F.getFnAttribute("target-cpu"); 2540b57cec5SDimitry Andric Attribute FSAttr = F.getFnAttribute("target-features"); 2550b57cec5SDimitry Andric 2560b57cec5SDimitry Andric std::string CPU = !CPUAttr.hasAttribute(Attribute::None) 2570b57cec5SDimitry Andric ? CPUAttr.getValueAsString().str() 2580b57cec5SDimitry Andric : TargetCPU; 2590b57cec5SDimitry Andric std::string FS = !FSAttr.hasAttribute(Attribute::None) 2600b57cec5SDimitry Andric ? FSAttr.getValueAsString().str() 2610b57cec5SDimitry Andric : TargetFS; 2620b57cec5SDimitry Andric 2630b57cec5SDimitry Andric // FIXME: This is related to the code below to reset the target options, 2640b57cec5SDimitry Andric // we need to know whether or not the soft float flag is set on the 2650b57cec5SDimitry Andric // function before we can generate a subtarget. We also need to use 2660b57cec5SDimitry Andric // it as a key for the subtarget since that can be the only difference 2670b57cec5SDimitry Andric // between two functions. 2680b57cec5SDimitry Andric bool SoftFloat = 2690b57cec5SDimitry Andric F.getFnAttribute("use-soft-float").getValueAsString() == "true"; 2700b57cec5SDimitry Andric // If the soft float attribute is set on the function turn on the soft float 2710b57cec5SDimitry Andric // subtarget feature. 2720b57cec5SDimitry Andric if (SoftFloat) 2730b57cec5SDimitry Andric FS += FS.empty() ? "+soft-float" : ",+soft-float"; 2740b57cec5SDimitry Andric 2750b57cec5SDimitry Andric // Use the optminsize to identify the subtarget, but don't use it in the 2760b57cec5SDimitry Andric // feature string. 2770b57cec5SDimitry Andric std::string Key = CPU + FS; 2780b57cec5SDimitry Andric if (F.hasMinSize()) 2790b57cec5SDimitry Andric Key += "+minsize"; 2800b57cec5SDimitry Andric 2810b57cec5SDimitry Andric auto &I = SubtargetMap[Key]; 2820b57cec5SDimitry Andric if (!I) { 2830b57cec5SDimitry Andric // This needs to be done before we create a new subtarget since any 2840b57cec5SDimitry Andric // creation will depend on the TM and the code generation flags on the 2850b57cec5SDimitry Andric // function that reside in TargetOptions. 2860b57cec5SDimitry Andric resetTargetOptions(F); 2878bcb0991SDimitry Andric I = std::make_unique<ARMSubtarget>(TargetTriple, CPU, FS, *this, isLittle, 2880b57cec5SDimitry Andric F.hasMinSize()); 2890b57cec5SDimitry Andric 2900b57cec5SDimitry Andric if (!I->isThumb() && !I->hasARMOps()) 2910b57cec5SDimitry Andric F.getContext().emitError("Function '" + F.getName() + "' uses ARM " 2920b57cec5SDimitry Andric "instructions, but the target does not support ARM mode execution."); 2930b57cec5SDimitry Andric } 2940b57cec5SDimitry Andric 2950b57cec5SDimitry Andric return I.get(); 2960b57cec5SDimitry Andric } 2970b57cec5SDimitry Andric 2980b57cec5SDimitry Andric TargetTransformInfo 2990b57cec5SDimitry Andric ARMBaseTargetMachine::getTargetTransformInfo(const Function &F) { 3000b57cec5SDimitry Andric return TargetTransformInfo(ARMTTIImpl(this, F)); 3010b57cec5SDimitry Andric } 3020b57cec5SDimitry Andric 3030b57cec5SDimitry Andric ARMLETargetMachine::ARMLETargetMachine(const Target &T, const Triple &TT, 3040b57cec5SDimitry Andric StringRef CPU, StringRef FS, 3050b57cec5SDimitry Andric const TargetOptions &Options, 3060b57cec5SDimitry Andric Optional<Reloc::Model> RM, 3070b57cec5SDimitry Andric Optional<CodeModel::Model> CM, 3080b57cec5SDimitry Andric CodeGenOpt::Level OL, bool JIT) 3090b57cec5SDimitry Andric : ARMBaseTargetMachine(T, TT, CPU, FS, Options, RM, CM, OL, true) {} 3100b57cec5SDimitry Andric 3110b57cec5SDimitry Andric ARMBETargetMachine::ARMBETargetMachine(const Target &T, const Triple &TT, 3120b57cec5SDimitry Andric StringRef CPU, StringRef FS, 3130b57cec5SDimitry Andric const TargetOptions &Options, 3140b57cec5SDimitry Andric Optional<Reloc::Model> RM, 3150b57cec5SDimitry Andric Optional<CodeModel::Model> CM, 3160b57cec5SDimitry Andric CodeGenOpt::Level OL, bool JIT) 3170b57cec5SDimitry Andric : ARMBaseTargetMachine(T, TT, CPU, FS, Options, RM, CM, OL, false) {} 3180b57cec5SDimitry Andric 3190b57cec5SDimitry Andric namespace { 3200b57cec5SDimitry Andric 3210b57cec5SDimitry Andric /// ARM Code Generator Pass Configuration Options. 3220b57cec5SDimitry Andric class ARMPassConfig : public TargetPassConfig { 3230b57cec5SDimitry Andric public: 3240b57cec5SDimitry Andric ARMPassConfig(ARMBaseTargetMachine &TM, PassManagerBase &PM) 325*480093f4SDimitry Andric : TargetPassConfig(TM, PM) {} 3260b57cec5SDimitry Andric 3270b57cec5SDimitry Andric ARMBaseTargetMachine &getARMTargetMachine() const { 3280b57cec5SDimitry Andric return getTM<ARMBaseTargetMachine>(); 3290b57cec5SDimitry Andric } 3300b57cec5SDimitry Andric 3310b57cec5SDimitry Andric ScheduleDAGInstrs * 3320b57cec5SDimitry Andric createMachineScheduler(MachineSchedContext *C) const override { 3330b57cec5SDimitry Andric ScheduleDAGMILive *DAG = createGenericSchedLive(C); 3340b57cec5SDimitry Andric // add DAG Mutations here. 3350b57cec5SDimitry Andric const ARMSubtarget &ST = C->MF->getSubtarget<ARMSubtarget>(); 3360b57cec5SDimitry Andric if (ST.hasFusion()) 3370b57cec5SDimitry Andric DAG->addMutation(createARMMacroFusionDAGMutation()); 3380b57cec5SDimitry Andric return DAG; 3390b57cec5SDimitry Andric } 3400b57cec5SDimitry Andric 3410b57cec5SDimitry Andric ScheduleDAGInstrs * 3420b57cec5SDimitry Andric createPostMachineScheduler(MachineSchedContext *C) const override { 3430b57cec5SDimitry Andric ScheduleDAGMI *DAG = createGenericSchedPostRA(C); 3440b57cec5SDimitry Andric // add DAG Mutations here. 3450b57cec5SDimitry Andric const ARMSubtarget &ST = C->MF->getSubtarget<ARMSubtarget>(); 3460b57cec5SDimitry Andric if (ST.hasFusion()) 3470b57cec5SDimitry Andric DAG->addMutation(createARMMacroFusionDAGMutation()); 3480b57cec5SDimitry Andric return DAG; 3490b57cec5SDimitry Andric } 3500b57cec5SDimitry Andric 3510b57cec5SDimitry Andric void addIRPasses() override; 3520b57cec5SDimitry Andric void addCodeGenPrepare() override; 3530b57cec5SDimitry Andric bool addPreISel() override; 3540b57cec5SDimitry Andric bool addInstSelector() override; 3550b57cec5SDimitry Andric bool addIRTranslator() override; 3560b57cec5SDimitry Andric bool addLegalizeMachineIR() override; 3570b57cec5SDimitry Andric bool addRegBankSelect() override; 3580b57cec5SDimitry Andric bool addGlobalInstructionSelect() override; 3590b57cec5SDimitry Andric void addPreRegAlloc() override; 3600b57cec5SDimitry Andric void addPreSched2() override; 3610b57cec5SDimitry Andric void addPreEmitPass() override; 3620b57cec5SDimitry Andric 3630b57cec5SDimitry Andric std::unique_ptr<CSEConfigBase> getCSEConfig() const override; 3640b57cec5SDimitry Andric }; 3650b57cec5SDimitry Andric 3660b57cec5SDimitry Andric class ARMExecutionDomainFix : public ExecutionDomainFix { 3670b57cec5SDimitry Andric public: 3680b57cec5SDimitry Andric static char ID; 3690b57cec5SDimitry Andric ARMExecutionDomainFix() : ExecutionDomainFix(ID, ARM::DPRRegClass) {} 3700b57cec5SDimitry Andric StringRef getPassName() const override { 3710b57cec5SDimitry Andric return "ARM Execution Domain Fix"; 3720b57cec5SDimitry Andric } 3730b57cec5SDimitry Andric }; 3740b57cec5SDimitry Andric char ARMExecutionDomainFix::ID; 3750b57cec5SDimitry Andric 3760b57cec5SDimitry Andric } // end anonymous namespace 3770b57cec5SDimitry Andric 3780b57cec5SDimitry Andric INITIALIZE_PASS_BEGIN(ARMExecutionDomainFix, "arm-execution-domain-fix", 3790b57cec5SDimitry Andric "ARM Execution Domain Fix", false, false) 3800b57cec5SDimitry Andric INITIALIZE_PASS_DEPENDENCY(ReachingDefAnalysis) 3810b57cec5SDimitry Andric INITIALIZE_PASS_END(ARMExecutionDomainFix, "arm-execution-domain-fix", 3820b57cec5SDimitry Andric "ARM Execution Domain Fix", false, false) 3830b57cec5SDimitry Andric 3840b57cec5SDimitry Andric TargetPassConfig *ARMBaseTargetMachine::createPassConfig(PassManagerBase &PM) { 3850b57cec5SDimitry Andric return new ARMPassConfig(*this, PM); 3860b57cec5SDimitry Andric } 3870b57cec5SDimitry Andric 3880b57cec5SDimitry Andric std::unique_ptr<CSEConfigBase> ARMPassConfig::getCSEConfig() const { 3890b57cec5SDimitry Andric return getStandardCSEConfigForOpt(TM->getOptLevel()); 3900b57cec5SDimitry Andric } 3910b57cec5SDimitry Andric 3920b57cec5SDimitry Andric void ARMPassConfig::addIRPasses() { 3930b57cec5SDimitry Andric if (TM->Options.ThreadModel == ThreadModel::Single) 3940b57cec5SDimitry Andric addPass(createLowerAtomicPass()); 3950b57cec5SDimitry Andric else 3960b57cec5SDimitry Andric addPass(createAtomicExpandPass()); 3970b57cec5SDimitry Andric 3980b57cec5SDimitry Andric // Cmpxchg instructions are often used with a subsequent comparison to 3990b57cec5SDimitry Andric // determine whether it succeeded. We can exploit existing control-flow in 4000b57cec5SDimitry Andric // ldrex/strex loops to simplify this, but it needs tidying up. 4010b57cec5SDimitry Andric if (TM->getOptLevel() != CodeGenOpt::None && EnableAtomicTidy) 4020b57cec5SDimitry Andric addPass(createCFGSimplificationPass( 4030b57cec5SDimitry Andric 1, false, false, true, true, [this](const Function &F) { 4040b57cec5SDimitry Andric const auto &ST = this->TM->getSubtarget<ARMSubtarget>(F); 4050b57cec5SDimitry Andric return ST.hasAnyDataBarrier() && !ST.isThumb1Only(); 4060b57cec5SDimitry Andric })); 4070b57cec5SDimitry Andric 408*480093f4SDimitry Andric addPass(createMVEGatherScatterLoweringPass()); 409*480093f4SDimitry Andric 4100b57cec5SDimitry Andric TargetPassConfig::addIRPasses(); 4110b57cec5SDimitry Andric 4120b57cec5SDimitry Andric // Run the parallel DSP pass. 4130b57cec5SDimitry Andric if (getOptLevel() == CodeGenOpt::Aggressive) 4140b57cec5SDimitry Andric addPass(createARMParallelDSPPass()); 4150b57cec5SDimitry Andric 4160b57cec5SDimitry Andric // Match interleaved memory accesses to ldN/stN intrinsics. 4170b57cec5SDimitry Andric if (TM->getOptLevel() != CodeGenOpt::None) 4180b57cec5SDimitry Andric addPass(createInterleavedAccessPass()); 419*480093f4SDimitry Andric 420*480093f4SDimitry Andric // Add Control Flow Guard checks. 421*480093f4SDimitry Andric if (TM->getTargetTriple().isOSWindows()) 422*480093f4SDimitry Andric addPass(createCFGuardCheckPass()); 4230b57cec5SDimitry Andric } 4240b57cec5SDimitry Andric 4250b57cec5SDimitry Andric void ARMPassConfig::addCodeGenPrepare() { 4260b57cec5SDimitry Andric if (getOptLevel() != CodeGenOpt::None) 427*480093f4SDimitry Andric addPass(createTypePromotionPass()); 4280b57cec5SDimitry Andric TargetPassConfig::addCodeGenPrepare(); 4290b57cec5SDimitry Andric } 4300b57cec5SDimitry Andric 4310b57cec5SDimitry Andric bool ARMPassConfig::addPreISel() { 4320b57cec5SDimitry Andric if ((TM->getOptLevel() != CodeGenOpt::None && 4330b57cec5SDimitry Andric EnableGlobalMerge == cl::BOU_UNSET) || 4340b57cec5SDimitry Andric EnableGlobalMerge == cl::BOU_TRUE) { 4350b57cec5SDimitry Andric // FIXME: This is using the thumb1 only constant value for 4360b57cec5SDimitry Andric // maximal global offset for merging globals. We may want 4370b57cec5SDimitry Andric // to look into using the old value for non-thumb1 code of 4380b57cec5SDimitry Andric // 4095 based on the TargetMachine, but this starts to become 4390b57cec5SDimitry Andric // tricky when doing code gen per function. 4400b57cec5SDimitry Andric bool OnlyOptimizeForSize = (TM->getOptLevel() < CodeGenOpt::Aggressive) && 4410b57cec5SDimitry Andric (EnableGlobalMerge == cl::BOU_UNSET); 4420b57cec5SDimitry Andric // Merging of extern globals is enabled by default on non-Mach-O as we 4430b57cec5SDimitry Andric // expect it to be generally either beneficial or harmless. On Mach-O it 4440b57cec5SDimitry Andric // is disabled as we emit the .subsections_via_symbols directive which 4450b57cec5SDimitry Andric // means that merging extern globals is not safe. 4460b57cec5SDimitry Andric bool MergeExternalByDefault = !TM->getTargetTriple().isOSBinFormatMachO(); 4470b57cec5SDimitry Andric addPass(createGlobalMergePass(TM, 127, OnlyOptimizeForSize, 4480b57cec5SDimitry Andric MergeExternalByDefault)); 4490b57cec5SDimitry Andric } 4500b57cec5SDimitry Andric 4518bcb0991SDimitry Andric if (TM->getOptLevel() != CodeGenOpt::None) { 4520b57cec5SDimitry Andric addPass(createHardwareLoopsPass()); 4538bcb0991SDimitry Andric addPass(createMVETailPredicationPass()); 4548bcb0991SDimitry Andric } 4550b57cec5SDimitry Andric 4560b57cec5SDimitry Andric return false; 4570b57cec5SDimitry Andric } 4580b57cec5SDimitry Andric 4590b57cec5SDimitry Andric bool ARMPassConfig::addInstSelector() { 4600b57cec5SDimitry Andric addPass(createARMISelDag(getARMTargetMachine(), getOptLevel())); 4610b57cec5SDimitry Andric return false; 4620b57cec5SDimitry Andric } 4630b57cec5SDimitry Andric 4640b57cec5SDimitry Andric bool ARMPassConfig::addIRTranslator() { 4650b57cec5SDimitry Andric addPass(new IRTranslator()); 4660b57cec5SDimitry Andric return false; 4670b57cec5SDimitry Andric } 4680b57cec5SDimitry Andric 4690b57cec5SDimitry Andric bool ARMPassConfig::addLegalizeMachineIR() { 4700b57cec5SDimitry Andric addPass(new Legalizer()); 4710b57cec5SDimitry Andric return false; 4720b57cec5SDimitry Andric } 4730b57cec5SDimitry Andric 4740b57cec5SDimitry Andric bool ARMPassConfig::addRegBankSelect() { 4750b57cec5SDimitry Andric addPass(new RegBankSelect()); 4760b57cec5SDimitry Andric return false; 4770b57cec5SDimitry Andric } 4780b57cec5SDimitry Andric 4790b57cec5SDimitry Andric bool ARMPassConfig::addGlobalInstructionSelect() { 4800b57cec5SDimitry Andric addPass(new InstructionSelect()); 4810b57cec5SDimitry Andric return false; 4820b57cec5SDimitry Andric } 4830b57cec5SDimitry Andric 4840b57cec5SDimitry Andric void ARMPassConfig::addPreRegAlloc() { 4850b57cec5SDimitry Andric if (getOptLevel() != CodeGenOpt::None) { 4860b57cec5SDimitry Andric addPass(createMLxExpansionPass()); 4870b57cec5SDimitry Andric 4880b57cec5SDimitry Andric if (EnableARMLoadStoreOpt) 4890b57cec5SDimitry Andric addPass(createARMLoadStoreOptimizationPass(/* pre-register alloc */ true)); 4900b57cec5SDimitry Andric 4910b57cec5SDimitry Andric if (!DisableA15SDOptimization) 4920b57cec5SDimitry Andric addPass(createA15SDOptimizerPass()); 4930b57cec5SDimitry Andric } 4940b57cec5SDimitry Andric } 4950b57cec5SDimitry Andric 4960b57cec5SDimitry Andric void ARMPassConfig::addPreSched2() { 4970b57cec5SDimitry Andric if (getOptLevel() != CodeGenOpt::None) { 4980b57cec5SDimitry Andric if (EnableARMLoadStoreOpt) 4990b57cec5SDimitry Andric addPass(createARMLoadStoreOptimizationPass()); 5000b57cec5SDimitry Andric 5010b57cec5SDimitry Andric addPass(new ARMExecutionDomainFix()); 5020b57cec5SDimitry Andric addPass(createBreakFalseDeps()); 5030b57cec5SDimitry Andric } 5040b57cec5SDimitry Andric 5050b57cec5SDimitry Andric // Expand some pseudo instructions into multiple instructions to allow 5060b57cec5SDimitry Andric // proper scheduling. 5070b57cec5SDimitry Andric addPass(createARMExpandPseudoPass()); 5080b57cec5SDimitry Andric 5090b57cec5SDimitry Andric if (getOptLevel() != CodeGenOpt::None) { 5100b57cec5SDimitry Andric // in v8, IfConversion depends on Thumb instruction widths 5110b57cec5SDimitry Andric addPass(createThumb2SizeReductionPass([this](const Function &F) { 5120b57cec5SDimitry Andric return this->TM->getSubtarget<ARMSubtarget>(F).restrictIT(); 5130b57cec5SDimitry Andric })); 5140b57cec5SDimitry Andric 5150b57cec5SDimitry Andric addPass(createIfConverter([](const MachineFunction &MF) { 5160b57cec5SDimitry Andric return !MF.getSubtarget<ARMSubtarget>().isThumb1Only(); 5170b57cec5SDimitry Andric })); 5180b57cec5SDimitry Andric } 5190b57cec5SDimitry Andric addPass(createMVEVPTBlockPass()); 5200b57cec5SDimitry Andric addPass(createThumb2ITBlockPass()); 521*480093f4SDimitry Andric 522*480093f4SDimitry Andric // Add both scheduling passes to give the subtarget an opportunity to pick 523*480093f4SDimitry Andric // between them. 524*480093f4SDimitry Andric if (getOptLevel() != CodeGenOpt::None) { 525*480093f4SDimitry Andric addPass(&PostMachineSchedulerID); 526*480093f4SDimitry Andric addPass(&PostRASchedulerID); 527*480093f4SDimitry Andric } 5280b57cec5SDimitry Andric } 5290b57cec5SDimitry Andric 5300b57cec5SDimitry Andric void ARMPassConfig::addPreEmitPass() { 5310b57cec5SDimitry Andric addPass(createThumb2SizeReductionPass()); 5320b57cec5SDimitry Andric 5330b57cec5SDimitry Andric // Constant island pass work on unbundled instructions. 5340b57cec5SDimitry Andric addPass(createUnpackMachineBundles([](const MachineFunction &MF) { 5350b57cec5SDimitry Andric return MF.getSubtarget<ARMSubtarget>().isThumb2(); 5360b57cec5SDimitry Andric })); 5370b57cec5SDimitry Andric 5380b57cec5SDimitry Andric // Don't optimize barriers at -O0. 5390b57cec5SDimitry Andric if (getOptLevel() != CodeGenOpt::None) 5400b57cec5SDimitry Andric addPass(createARMOptimizeBarriersPass()); 5410b57cec5SDimitry Andric 5420b57cec5SDimitry Andric addPass(createARMConstantIslandPass()); 5430b57cec5SDimitry Andric addPass(createARMLowOverheadLoopsPass()); 544*480093f4SDimitry Andric 545*480093f4SDimitry Andric // Identify valid longjmp targets for Windows Control Flow Guard. 546*480093f4SDimitry Andric if (TM->getTargetTriple().isOSWindows()) 547*480093f4SDimitry Andric addPass(createCFGuardLongjmpPass()); 5480b57cec5SDimitry Andric } 549