forked from OSchip/llvm-project
289 lines
9.4 KiB
C++
289 lines
9.4 KiB
C++
//===-- ARMSubtarget.cpp - ARM Subtarget Information ----------------------===//
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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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// This file implements the ARM specific subclass of TargetSubtargetInfo.
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//
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//===----------------------------------------------------------------------===//
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#include "ARMSubtarget.h"
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#include "ARMBaseInstrInfo.h"
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#include "ARMBaseRegisterInfo.h"
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#include "llvm/IR/Attributes.h"
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#include "llvm/IR/GlobalValue.h"
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#include "llvm/IR/Function.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Target/TargetInstrInfo.h"
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#include "llvm/Target/TargetOptions.h"
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#define GET_SUBTARGETINFO_TARGET_DESC
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#define GET_SUBTARGETINFO_CTOR
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#include "ARMGenSubtargetInfo.inc"
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using namespace llvm;
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static cl::opt<bool>
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ReserveR9("arm-reserve-r9", cl::Hidden,
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cl::desc("Reserve R9, making it unavailable as GPR"));
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static cl::opt<bool>
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ArmUseMOVT("arm-use-movt", cl::init(true), cl::Hidden);
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static cl::opt<bool>
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UseFusedMulOps("arm-use-mulops",
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cl::init(true), cl::Hidden);
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enum AlignMode {
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DefaultAlign,
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StrictAlign,
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NoStrictAlign
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};
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static cl::opt<AlignMode>
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Align(cl::desc("Load/store alignment support"),
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cl::Hidden, cl::init(DefaultAlign),
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cl::values(
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clEnumValN(DefaultAlign, "arm-default-align",
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"Generate unaligned accesses only on hardware/OS "
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"combinations that are known to support them"),
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clEnumValN(StrictAlign, "arm-strict-align",
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"Disallow all unaligned memory accesses"),
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clEnumValN(NoStrictAlign, "arm-no-strict-align",
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"Allow unaligned memory accesses"),
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clEnumValEnd));
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ARMSubtarget::ARMSubtarget(const std::string &TT, const std::string &CPU,
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const std::string &FS, const TargetOptions &Options)
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: ARMGenSubtargetInfo(TT, CPU, FS)
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, ARMProcFamily(Others)
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, stackAlignment(4)
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, CPUString(CPU)
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, TargetTriple(TT)
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, Options(Options)
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, TargetABI(ARM_ABI_APCS) {
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initializeEnvironment();
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resetSubtargetFeatures(CPU, FS);
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}
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void ARMSubtarget::initializeEnvironment() {
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HasV4TOps = false;
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HasV5TOps = false;
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HasV5TEOps = false;
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HasV6Ops = false;
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HasV6T2Ops = false;
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HasV7Ops = false;
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HasV8Ops = false;
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HasVFPv2 = false;
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HasVFPv3 = false;
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HasVFPv4 = false;
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HasV8FP = false;
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HasNEON = false;
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UseNEONForSinglePrecisionFP = false;
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UseMulOps = UseFusedMulOps;
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SlowFPVMLx = false;
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HasVMLxForwarding = false;
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SlowFPBrcc = false;
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InThumbMode = false;
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HasThumb2 = false;
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IsMClass = false;
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NoARM = false;
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PostRAScheduler = false;
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IsR9Reserved = ReserveR9;
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UseMovt = false;
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SupportsTailCall = false;
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HasFP16 = false;
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HasD16 = false;
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HasHardwareDivide = false;
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HasHardwareDivideInARM = false;
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HasT2ExtractPack = false;
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HasDataBarrier = false;
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Pref32BitThumb = false;
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AvoidCPSRPartialUpdate = false;
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AvoidMOVsShifterOperand = false;
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HasRAS = false;
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HasMPExtension = false;
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FPOnlySP = false;
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HasPerfMon = false;
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HasTrustZone = false;
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AllowsUnalignedMem = false;
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Thumb2DSP = false;
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UseNaClTrap = false;
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UnsafeFPMath = false;
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}
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void ARMSubtarget::resetSubtargetFeatures(const MachineFunction *MF) {
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AttributeSet FnAttrs = MF->getFunction()->getAttributes();
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Attribute CPUAttr = FnAttrs.getAttribute(AttributeSet::FunctionIndex,
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"target-cpu");
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Attribute FSAttr = FnAttrs.getAttribute(AttributeSet::FunctionIndex,
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"target-features");
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std::string CPU =
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!CPUAttr.hasAttribute(Attribute::None) ?CPUAttr.getValueAsString() : "";
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std::string FS =
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!FSAttr.hasAttribute(Attribute::None) ? FSAttr.getValueAsString() : "";
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if (!FS.empty()) {
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initializeEnvironment();
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resetSubtargetFeatures(CPU, FS);
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}
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}
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void ARMSubtarget::resetSubtargetFeatures(StringRef CPU, StringRef FS) {
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if (CPUString.empty()) {
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if (isTargetIOS() && TargetTriple.getArchName().endswith("v7s"))
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// Default to the Swift CPU when targeting armv7s/thumbv7s.
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CPUString = "swift";
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else
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CPUString = "generic";
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}
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// Insert the architecture feature derived from the target triple into the
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// feature string. This is important for setting features that are implied
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// based on the architecture version.
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std::string ArchFS = ARM_MC::ParseARMTriple(TargetTriple.getTriple(),
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CPUString);
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if (!FS.empty()) {
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if (!ArchFS.empty())
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ArchFS = ArchFS + "," + FS.str();
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else
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ArchFS = FS;
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}
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ParseSubtargetFeatures(CPUString, ArchFS);
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// Thumb2 implies at least V6T2. FIXME: Fix tests to explicitly specify a
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// ARM version or CPU and then remove this.
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if (!HasV6T2Ops && hasThumb2())
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HasV4TOps = HasV5TOps = HasV5TEOps = HasV6Ops = HasV6T2Ops = true;
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// Keep a pointer to static instruction cost data for the specified CPU.
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SchedModel = getSchedModelForCPU(CPUString);
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// Initialize scheduling itinerary for the specified CPU.
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InstrItins = getInstrItineraryForCPU(CPUString);
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if ((TargetTriple.getTriple().find("eabi") != std::string::npos) ||
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(isTargetIOS() && isMClass()))
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// FIXME: We might want to separate AAPCS and EABI. Some systems, e.g.
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// Darwin-EABI conforms to AACPS but not the rest of EABI.
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TargetABI = ARM_ABI_AAPCS;
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if (isAAPCS_ABI())
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stackAlignment = 8;
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UseMovt = hasV6T2Ops() && ArmUseMOVT;
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if (!isTargetIOS()) {
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IsR9Reserved = ReserveR9;
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} else {
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IsR9Reserved = ReserveR9 | !HasV6Ops;
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SupportsTailCall = !getTargetTriple().isOSVersionLT(5, 0);
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}
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if (!isThumb() || hasThumb2())
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PostRAScheduler = true;
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switch (Align) {
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case DefaultAlign:
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// Assume pre-ARMv6 doesn't support unaligned accesses.
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//
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// ARMv6 may or may not support unaligned accesses depending on the
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// SCTLR.U bit, which is architecture-specific. We assume ARMv6
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// Darwin targets support unaligned accesses, and others don't.
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//
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// ARMv7 always has SCTLR.U set to 1, but it has a new SCTLR.A bit
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// which raises an alignment fault on unaligned accesses. Linux
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// defaults this bit to 0 and handles it as a system-wide (not
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// per-process) setting. It is therefore safe to assume that ARMv7+
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// Linux targets support unaligned accesses. The same goes for NaCl.
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//
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// The above behavior is consistent with GCC.
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AllowsUnalignedMem = (
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(hasV7Ops() && (isTargetLinux() || isTargetNaCl())) ||
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(hasV6Ops() && isTargetDarwin()));
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break;
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case StrictAlign:
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AllowsUnalignedMem = false;
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break;
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case NoStrictAlign:
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AllowsUnalignedMem = true;
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break;
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}
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// NEON f32 ops are non-IEEE 754 compliant. Darwin is ok with it by default.
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uint64_t Bits = getFeatureBits();
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if ((Bits & ARM::ProcA5 || Bits & ARM::ProcA8) && // Where this matters
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(Options.UnsafeFPMath || isTargetDarwin()))
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UseNEONForSinglePrecisionFP = true;
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}
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/// GVIsIndirectSymbol - true if the GV will be accessed via an indirect symbol.
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bool
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ARMSubtarget::GVIsIndirectSymbol(const GlobalValue *GV,
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Reloc::Model RelocM) const {
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if (RelocM == Reloc::Static)
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return false;
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// Materializable GVs (in JIT lazy compilation mode) do not require an extra
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// load from stub.
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bool isDecl = GV->hasAvailableExternallyLinkage();
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if (GV->isDeclaration() && !GV->isMaterializable())
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isDecl = true;
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if (!isTargetDarwin()) {
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// Extra load is needed for all externally visible.
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if (GV->hasLocalLinkage() || GV->hasHiddenVisibility())
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return false;
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return true;
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} else {
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if (RelocM == Reloc::PIC_) {
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// If this is a strong reference to a definition, it is definitely not
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// through a stub.
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if (!isDecl && !GV->isWeakForLinker())
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return false;
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// Unless we have a symbol with hidden visibility, we have to go through a
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// normal $non_lazy_ptr stub because this symbol might be resolved late.
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if (!GV->hasHiddenVisibility()) // Non-hidden $non_lazy_ptr reference.
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return true;
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// If symbol visibility is hidden, we have a stub for common symbol
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// references and external declarations.
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if (isDecl || GV->hasCommonLinkage())
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// Hidden $non_lazy_ptr reference.
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return true;
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return false;
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} else {
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// If this is a strong reference to a definition, it is definitely not
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// through a stub.
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if (!isDecl && !GV->isWeakForLinker())
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return false;
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// Unless we have a symbol with hidden visibility, we have to go through a
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// normal $non_lazy_ptr stub because this symbol might be resolved late.
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if (!GV->hasHiddenVisibility()) // Non-hidden $non_lazy_ptr reference.
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return true;
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}
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}
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return false;
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}
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unsigned ARMSubtarget::getMispredictionPenalty() const {
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return SchedModel->MispredictPenalty;
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}
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bool ARMSubtarget::enablePostRAScheduler(
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CodeGenOpt::Level OptLevel,
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TargetSubtargetInfo::AntiDepBreakMode& Mode,
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RegClassVector& CriticalPathRCs) const {
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Mode = TargetSubtargetInfo::ANTIDEP_CRITICAL;
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CriticalPathRCs.clear();
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CriticalPathRCs.push_back(&ARM::GPRRegClass);
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return PostRAScheduler && OptLevel >= CodeGenOpt::Default;
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}
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