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https://github.com/c64scene-ar/llvm-6502.git
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d12434058d
These recently all grew a unique_ptr<TargetLoweringObjectFile> member in r221878. When anyone calls a virtual method of a class, clang-cl requires all virtual methods to be semantically valid. This includes the implicit virtual destructor, which triggers instantiation of the unique_ptr destructor, which fails because the type being deleted is incomplete. This is just part of the ongoing saga of PR20337, which is affecting Blink as well. Because the MSVC ABI doesn't have key functions, we end up referencing the vtable and implicit destructor on any virtual call through a class. We don't actually end up emitting the dtor, so it'd be good if we could avoid this unneeded type completion work. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@222480 91177308-0d34-0410-b5e6-96231b3b80d8
314 lines
12 KiB
C++
314 lines
12 KiB
C++
//===-- AArch64TargetMachine.cpp - Define TargetMachine for AArch64 -------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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//
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//===----------------------------------------------------------------------===//
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#include "AArch64.h"
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#include "AArch64TargetMachine.h"
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#include "AArch64TargetObjectFile.h"
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#include "llvm/CodeGen/Passes.h"
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#include "llvm/CodeGen/RegAllocRegistry.h"
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#include "llvm/IR/Function.h"
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#include "llvm/PassManager.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Support/TargetRegistry.h"
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#include "llvm/Target/TargetOptions.h"
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#include "llvm/Transforms/Scalar.h"
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using namespace llvm;
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static cl::opt<bool>
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EnableCCMP("aarch64-ccmp", cl::desc("Enable the CCMP formation pass"),
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cl::init(true), cl::Hidden);
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static cl::opt<bool> EnableMCR("aarch64-mcr",
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cl::desc("Enable the machine combiner pass"),
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cl::init(true), cl::Hidden);
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static cl::opt<bool>
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EnableStPairSuppress("aarch64-stp-suppress", cl::desc("Suppress STP for AArch64"),
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cl::init(true), cl::Hidden);
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static cl::opt<bool>
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EnableAdvSIMDScalar("aarch64-simd-scalar", cl::desc("Enable use of AdvSIMD scalar"
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" integer instructions"), cl::init(false), cl::Hidden);
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static cl::opt<bool>
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EnablePromoteConstant("aarch64-promote-const", cl::desc("Enable the promote "
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"constant pass"), cl::init(true), cl::Hidden);
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static cl::opt<bool>
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EnableCollectLOH("aarch64-collect-loh", cl::desc("Enable the pass that emits the"
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" linker optimization hints (LOH)"), cl::init(true),
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cl::Hidden);
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static cl::opt<bool>
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EnableDeadRegisterElimination("aarch64-dead-def-elimination", cl::Hidden,
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cl::desc("Enable the pass that removes dead"
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" definitons and replaces stores to"
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" them with stores to the zero"
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" register"),
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cl::init(true));
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static cl::opt<bool>
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EnableLoadStoreOpt("aarch64-load-store-opt", cl::desc("Enable the load/store pair"
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" optimization pass"), cl::init(true), cl::Hidden);
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static cl::opt<bool>
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EnableAtomicTidy("aarch64-atomic-cfg-tidy", cl::Hidden,
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cl::desc("Run SimplifyCFG after expanding atomic operations"
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" to make use of cmpxchg flow-based information"),
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cl::init(true));
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static cl::opt<bool>
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EnableEarlyIfConversion("aarch64-enable-early-ifcvt", cl::Hidden,
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cl::desc("Run early if-conversion"),
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cl::init(true));
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static cl::opt<bool>
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EnableCondOpt("aarch64-condopt",
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cl::desc("Enable the condition optimizer pass"),
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cl::init(true), cl::Hidden);
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static cl::opt<bool>
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EnableA53Fix835769("aarch64-fix-cortex-a53-835769", cl::Hidden,
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cl::desc("Work around Cortex-A53 erratum 835769"),
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cl::init(false));
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static cl::opt<bool>
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EnableGEPOpt("aarch64-gep-opt", cl::Hidden,
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cl::desc("Enable optimizations on complex GEPs"),
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cl::init(true));
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extern "C" void LLVMInitializeAArch64Target() {
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// Register the target.
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RegisterTargetMachine<AArch64leTargetMachine> X(TheAArch64leTarget);
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RegisterTargetMachine<AArch64beTargetMachine> Y(TheAArch64beTarget);
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RegisterTargetMachine<AArch64leTargetMachine> Z(TheARM64Target);
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}
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//===----------------------------------------------------------------------===//
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// AArch64 Lowering public interface.
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//===----------------------------------------------------------------------===//
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static std::unique_ptr<TargetLoweringObjectFile> createTLOF(const Triple &TT) {
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if (TT.isOSBinFormatMachO())
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return make_unique<AArch64_MachoTargetObjectFile>();
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return make_unique<AArch64_ELFTargetObjectFile>();
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}
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/// TargetMachine ctor - Create an AArch64 architecture model.
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///
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AArch64TargetMachine::AArch64TargetMachine(const Target &T, StringRef TT,
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StringRef CPU, StringRef FS,
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const TargetOptions &Options,
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Reloc::Model RM, CodeModel::Model CM,
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CodeGenOpt::Level OL,
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bool LittleEndian)
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: LLVMTargetMachine(T, TT, CPU, FS, Options, RM, CM, OL),
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TLOF(createTLOF(Triple(getTargetTriple()))),
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Subtarget(TT, CPU, FS, *this, LittleEndian), isLittle(LittleEndian) {
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initAsmInfo();
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}
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AArch64TargetMachine::~AArch64TargetMachine() {}
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const AArch64Subtarget *
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AArch64TargetMachine::getSubtargetImpl(const Function &F) const {
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AttributeSet FnAttrs = F.getAttributes();
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Attribute CPUAttr =
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FnAttrs.getAttribute(AttributeSet::FunctionIndex, "target-cpu");
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Attribute FSAttr =
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FnAttrs.getAttribute(AttributeSet::FunctionIndex, "target-features");
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std::string CPU = !CPUAttr.hasAttribute(Attribute::None)
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? CPUAttr.getValueAsString().str()
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: TargetCPU;
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std::string FS = !FSAttr.hasAttribute(Attribute::None)
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? FSAttr.getValueAsString().str()
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: TargetFS;
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auto &I = SubtargetMap[CPU + FS];
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if (!I) {
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// This needs to be done before we create a new subtarget since any
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// creation will depend on the TM and the code generation flags on the
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// function that reside in TargetOptions.
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resetTargetOptions(F);
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I = llvm::make_unique<AArch64Subtarget>(TargetTriple, CPU, FS, *this, isLittle);
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}
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return I.get();
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}
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void AArch64leTargetMachine::anchor() { }
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AArch64leTargetMachine::
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AArch64leTargetMachine(const Target &T, StringRef TT,
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StringRef CPU, StringRef FS, const TargetOptions &Options,
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Reloc::Model RM, CodeModel::Model CM,
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CodeGenOpt::Level OL)
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: AArch64TargetMachine(T, TT, CPU, FS, Options, RM, CM, OL, true) {}
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void AArch64beTargetMachine::anchor() { }
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AArch64beTargetMachine::
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AArch64beTargetMachine(const Target &T, StringRef TT,
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StringRef CPU, StringRef FS, const TargetOptions &Options,
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Reloc::Model RM, CodeModel::Model CM,
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CodeGenOpt::Level OL)
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: AArch64TargetMachine(T, TT, CPU, FS, Options, RM, CM, OL, false) {}
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namespace {
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/// AArch64 Code Generator Pass Configuration Options.
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class AArch64PassConfig : public TargetPassConfig {
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public:
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AArch64PassConfig(AArch64TargetMachine *TM, PassManagerBase &PM)
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: TargetPassConfig(TM, PM) {
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if (TM->getOptLevel() != CodeGenOpt::None)
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substitutePass(&PostRASchedulerID, &PostMachineSchedulerID);
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}
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AArch64TargetMachine &getAArch64TargetMachine() const {
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return getTM<AArch64TargetMachine>();
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}
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void addIRPasses() override;
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bool addPreISel() override;
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bool addInstSelector() override;
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bool addILPOpts() override;
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bool addPreRegAlloc() override;
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bool addPostRegAlloc() override;
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bool addPreSched2() override;
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bool addPreEmitPass() override;
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};
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} // namespace
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void AArch64TargetMachine::addAnalysisPasses(PassManagerBase &PM) {
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// Add first the target-independent BasicTTI pass, then our AArch64 pass. This
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// allows the AArch64 pass to delegate to the target independent layer when
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// appropriate.
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PM.add(createBasicTargetTransformInfoPass(this));
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PM.add(createAArch64TargetTransformInfoPass(this));
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}
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TargetPassConfig *AArch64TargetMachine::createPassConfig(PassManagerBase &PM) {
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return new AArch64PassConfig(this, PM);
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}
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void AArch64PassConfig::addIRPasses() {
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// Always expand atomic operations, we don't deal with atomicrmw or cmpxchg
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// ourselves.
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addPass(createAtomicExpandPass(TM));
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// Cmpxchg instructions are often used with a subsequent comparison to
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// determine whether it succeeded. We can exploit existing control-flow in
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// ldrex/strex loops to simplify this, but it needs tidying up.
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if (TM->getOptLevel() != CodeGenOpt::None && EnableAtomicTidy)
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addPass(createCFGSimplificationPass());
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TargetPassConfig::addIRPasses();
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if (TM->getOptLevel() == CodeGenOpt::Aggressive && EnableGEPOpt) {
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// Call SeparateConstOffsetFromGEP pass to extract constants within indices
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// and lower a GEP with multiple indices to either arithmetic operations or
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// multiple GEPs with single index.
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addPass(createSeparateConstOffsetFromGEPPass(TM, true));
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// Call EarlyCSE pass to find and remove subexpressions in the lowered
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// result.
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addPass(createEarlyCSEPass());
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// Do loop invariant code motion in case part of the lowered result is
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// invariant.
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addPass(createLICMPass());
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}
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}
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// Pass Pipeline Configuration
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bool AArch64PassConfig::addPreISel() {
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// Run promote constant before global merge, so that the promoted constants
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// get a chance to be merged
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if (TM->getOptLevel() != CodeGenOpt::None && EnablePromoteConstant)
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addPass(createAArch64PromoteConstantPass());
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if (TM->getOptLevel() != CodeGenOpt::None)
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addPass(createGlobalMergePass(TM));
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if (TM->getOptLevel() != CodeGenOpt::None)
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addPass(createAArch64AddressTypePromotionPass());
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return false;
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}
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bool AArch64PassConfig::addInstSelector() {
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addPass(createAArch64ISelDag(getAArch64TargetMachine(), getOptLevel()));
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// For ELF, cleanup any local-dynamic TLS accesses (i.e. combine as many
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// references to _TLS_MODULE_BASE_ as possible.
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if (TM->getSubtarget<AArch64Subtarget>().isTargetELF() &&
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getOptLevel() != CodeGenOpt::None)
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addPass(createAArch64CleanupLocalDynamicTLSPass());
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return false;
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}
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bool AArch64PassConfig::addILPOpts() {
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if (EnableCondOpt)
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addPass(createAArch64ConditionOptimizerPass());
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if (EnableCCMP)
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addPass(createAArch64ConditionalCompares());
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if (EnableMCR)
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addPass(&MachineCombinerID);
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if (EnableEarlyIfConversion)
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addPass(&EarlyIfConverterID);
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if (EnableStPairSuppress)
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addPass(createAArch64StorePairSuppressPass());
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return true;
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}
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bool AArch64PassConfig::addPreRegAlloc() {
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// Use AdvSIMD scalar instructions whenever profitable.
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if (TM->getOptLevel() != CodeGenOpt::None && EnableAdvSIMDScalar) {
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addPass(createAArch64AdvSIMDScalar());
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// The AdvSIMD pass may produce copies that can be rewritten to
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// be register coaleascer friendly.
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addPass(&PeepholeOptimizerID);
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}
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return true;
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}
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bool AArch64PassConfig::addPostRegAlloc() {
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// Change dead register definitions to refer to the zero register.
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if (TM->getOptLevel() != CodeGenOpt::None && EnableDeadRegisterElimination)
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addPass(createAArch64DeadRegisterDefinitions());
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if (TM->getOptLevel() != CodeGenOpt::None &&
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(TM->getSubtarget<AArch64Subtarget>().isCortexA53() ||
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TM->getSubtarget<AArch64Subtarget>().isCortexA57()) &&
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usingDefaultRegAlloc())
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// Improve performance for some FP/SIMD code for A57.
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addPass(createAArch64A57FPLoadBalancing());
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return true;
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}
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bool AArch64PassConfig::addPreSched2() {
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// Expand some pseudo instructions to allow proper scheduling.
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addPass(createAArch64ExpandPseudoPass());
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// Use load/store pair instructions when possible.
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if (TM->getOptLevel() != CodeGenOpt::None && EnableLoadStoreOpt)
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addPass(createAArch64LoadStoreOptimizationPass());
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return true;
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}
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bool AArch64PassConfig::addPreEmitPass() {
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if (EnableA53Fix835769)
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addPass(createAArch64A53Fix835769());
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// Relax conditional branch instructions if they're otherwise out of
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// range of their destination.
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addPass(createAArch64BranchRelaxation());
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if (TM->getOptLevel() != CodeGenOpt::None && EnableCollectLOH &&
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TM->getSubtarget<AArch64Subtarget>().isTargetMachO())
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addPass(createAArch64CollectLOHPass());
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return true;
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}
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