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f7e042324a
Refactoring; no functional changes intended Removed PostRAScheduler bits from subtargets (X86, ARM). Added PostRAScheduler bit to MCSchedModel class. This bit is set by a CPU's scheduling model (if it exists). Removed enablePostRAScheduler() function from TargetSubtargetInfo and subclasses. Fixed the existing enablePostMachineScheduler() method to use the MCSchedModel (was just returning false!). Added methods to TargetSubtargetInfo to allow overrides for AntiDepBreakMode, CriticalPathRCs, and OptLevel for PostRAScheduling. Added enablePostRAScheduler() function to PostRAScheduler class which queries the subtarget for the above values. Preserved existing scheduler behavior for ARM, MIPS, PPC, and X86: a. ARM overrides the CPU's postRA settings by enabling postRA for any non-Thumb or Thumb2 subtarget. b. MIPS overrides the CPU's postRA settings by enabling postRA for everything. c. PPC overrides the CPU's postRA settings by enabling postRA for everything. d. X86 is the only target that actually has postRA specified via sched model info. Differential Revision: http://reviews.llvm.org/D4217 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@213101 91177308-0d34-0410-b5e6-96231b3b80d8
278 lines
8.9 KiB
C++
278 lines
8.9 KiB
C++
//===-- PowerPCSubtarget.cpp - PPC 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 PPC specific subclass of TargetSubtargetInfo.
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//
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//===----------------------------------------------------------------------===//
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#include "PPCSubtarget.h"
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#include "PPC.h"
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#include "PPCRegisterInfo.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineScheduler.h"
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#include "llvm/IR/Attributes.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/GlobalValue.h"
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#include "llvm/Support/Host.h"
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#include "llvm/Support/TargetRegistry.h"
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#include "llvm/Target/TargetMachine.h"
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#include <cstdlib>
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using namespace llvm;
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#define DEBUG_TYPE "ppc-subtarget"
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#define GET_SUBTARGETINFO_TARGET_DESC
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#define GET_SUBTARGETINFO_CTOR
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#include "PPCGenSubtargetInfo.inc"
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/// Return the datalayout string of a subtarget.
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static std::string getDataLayoutString(const PPCSubtarget &ST) {
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const Triple &T = ST.getTargetTriple();
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std::string Ret;
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// Most PPC* platforms are big endian, PPC64LE is little endian.
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if (ST.isLittleEndian())
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Ret = "e";
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else
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Ret = "E";
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Ret += DataLayout::getManglingComponent(T);
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// PPC32 has 32 bit pointers. The PS3 (OS Lv2) is a PPC64 machine with 32 bit
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// pointers.
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if (!ST.isPPC64() || T.getOS() == Triple::Lv2)
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Ret += "-p:32:32";
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// Note, the alignment values for f64 and i64 on ppc64 in Darwin
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// documentation are wrong; these are correct (i.e. "what gcc does").
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if (ST.isPPC64() || ST.isSVR4ABI())
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Ret += "-i64:64";
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else
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Ret += "-f64:32:64";
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// PPC64 has 32 and 64 bit registers, PPC32 has only 32 bit ones.
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if (ST.isPPC64())
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Ret += "-n32:64";
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else
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Ret += "-n32";
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return Ret;
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}
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PPCSubtarget &PPCSubtarget::initializeSubtargetDependencies(StringRef CPU,
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StringRef FS) {
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initializeEnvironment();
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resetSubtargetFeatures(CPU, FS);
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return *this;
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}
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PPCSubtarget::PPCSubtarget(const std::string &TT, const std::string &CPU,
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const std::string &FS, PPCTargetMachine &TM,
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bool is64Bit, CodeGenOpt::Level OptLevel)
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: PPCGenSubtargetInfo(TT, CPU, FS), IsPPC64(is64Bit), TargetTriple(TT),
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OptLevel(OptLevel),
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FrameLowering(initializeSubtargetDependencies(CPU, FS)),
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DL(getDataLayoutString(*this)), InstrInfo(*this), JITInfo(*this),
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TLInfo(TM), TSInfo(&DL) {}
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/// SetJITMode - This is called to inform the subtarget info that we are
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/// producing code for the JIT.
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void PPCSubtarget::SetJITMode() {
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// JIT mode doesn't want lazy resolver stubs, it knows exactly where
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// everything is. This matters for PPC64, which codegens in PIC mode without
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// stubs.
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HasLazyResolverStubs = false;
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// Calls to external functions need to use indirect calls
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IsJITCodeModel = true;
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}
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void PPCSubtarget::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 PPCSubtarget::initializeEnvironment() {
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StackAlignment = 16;
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DarwinDirective = PPC::DIR_NONE;
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HasMFOCRF = false;
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Has64BitSupport = false;
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Use64BitRegs = false;
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UseCRBits = false;
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HasAltivec = false;
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HasQPX = false;
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HasVSX = false;
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HasFCPSGN = false;
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HasFSQRT = false;
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HasFRE = false;
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HasFRES = false;
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HasFRSQRTE = false;
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HasFRSQRTES = false;
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HasRecipPrec = false;
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HasSTFIWX = false;
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HasLFIWAX = false;
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HasFPRND = false;
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HasFPCVT = false;
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HasISEL = false;
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HasPOPCNTD = false;
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HasLDBRX = false;
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IsBookE = false;
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DeprecatedMFTB = false;
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DeprecatedDST = false;
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HasLazyResolverStubs = false;
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IsJITCodeModel = false;
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}
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void PPCSubtarget::resetSubtargetFeatures(StringRef CPU, StringRef FS) {
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// Determine default and user specified characteristics
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std::string CPUName = CPU;
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if (CPUName.empty())
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CPUName = "generic";
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#if (defined(__APPLE__) || defined(__linux__)) && \
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(defined(__ppc__) || defined(__powerpc__))
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if (CPUName == "generic")
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CPUName = sys::getHostCPUName();
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#endif
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// Initialize scheduling itinerary for the specified CPU.
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InstrItins = getInstrItineraryForCPU(CPUName);
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// Make sure 64-bit features are available when CPUname is generic
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std::string FullFS = FS;
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// If we are generating code for ppc64, verify that options make sense.
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if (IsPPC64) {
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Has64BitSupport = true;
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// Silently force 64-bit register use on ppc64.
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Use64BitRegs = true;
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if (!FullFS.empty())
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FullFS = "+64bit," + FullFS;
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else
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FullFS = "+64bit";
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}
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// At -O2 and above, track CR bits as individual registers.
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if (OptLevel >= CodeGenOpt::Default) {
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if (!FullFS.empty())
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FullFS = "+crbits," + FullFS;
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else
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FullFS = "+crbits";
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}
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// Parse features string.
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ParseSubtargetFeatures(CPUName, FullFS);
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// If the user requested use of 64-bit regs, but the cpu selected doesn't
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// support it, ignore.
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if (use64BitRegs() && !has64BitSupport())
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Use64BitRegs = false;
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// Set up darwin-specific properties.
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if (isDarwin())
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HasLazyResolverStubs = true;
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// QPX requires a 32-byte aligned stack. Note that we need to do this if
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// we're compiling for a BG/Q system regardless of whether or not QPX
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// is enabled because external functions will assume this alignment.
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if (hasQPX() || isBGQ())
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StackAlignment = 32;
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// Determine endianness.
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IsLittleEndian = (TargetTriple.getArch() == Triple::ppc64le);
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// FIXME: For now, we disable VSX in little-endian mode until endian
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// issues in those instructions can be addressed.
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if (IsLittleEndian)
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HasVSX = false;
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}
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/// hasLazyResolverStub - Return true if accesses to the specified global have
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/// to go through a dyld lazy resolution stub. This means that an extra load
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/// is required to get the address of the global.
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bool PPCSubtarget::hasLazyResolverStub(const GlobalValue *GV,
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const TargetMachine &TM) const {
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// We never have stubs if HasLazyResolverStubs=false or if in static mode.
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if (!HasLazyResolverStubs || TM.getRelocationModel() == Reloc::Static)
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return false;
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// If symbol visibility is hidden, the extra load is not needed if
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// the symbol is definitely defined in the current translation unit.
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bool isDecl = GV->isDeclaration() && !GV->isMaterializable();
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if (GV->hasHiddenVisibility() && !isDecl && !GV->hasCommonLinkage())
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return false;
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return GV->hasWeakLinkage() || GV->hasLinkOnceLinkage() ||
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GV->hasCommonLinkage() || isDecl;
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}
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// Embedded cores need aggressive scheduling (and some others also benefit).
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static bool needsAggressiveScheduling(unsigned Directive) {
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switch (Directive) {
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default: return false;
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case PPC::DIR_440:
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case PPC::DIR_A2:
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case PPC::DIR_E500mc:
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case PPC::DIR_E5500:
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case PPC::DIR_PWR7:
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case PPC::DIR_PWR8:
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return true;
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}
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}
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bool PPCSubtarget::enableMachineScheduler() const {
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// Enable MI scheduling for the embedded cores.
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// FIXME: Enable this for all cores (some additional modeling
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// may be necessary).
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return needsAggressiveScheduling(DarwinDirective);
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}
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// This overrides the PostRAScheduler bit in the SchedModel for each CPU.
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bool PPCSubtarget::enablePostMachineScheduler() const { return true; }
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PPCGenSubtargetInfo::AntiDepBreakMode PPCSubtarget::getAntiDepBreakMode() const {
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return TargetSubtargetInfo::ANTIDEP_ALL;
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}
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void PPCSubtarget::getCriticalPathRCs(RegClassVector &CriticalPathRCs) const {
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CriticalPathRCs.clear();
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CriticalPathRCs.push_back(isPPC64() ?
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&PPC::G8RCRegClass : &PPC::GPRCRegClass);
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}
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void PPCSubtarget::overrideSchedPolicy(MachineSchedPolicy &Policy,
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MachineInstr *begin,
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MachineInstr *end,
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unsigned NumRegionInstrs) const {
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if (needsAggressiveScheduling(DarwinDirective)) {
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Policy.OnlyTopDown = false;
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Policy.OnlyBottomUp = false;
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}
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// Spilling is generally expensive on all PPC cores, so always enable
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// register-pressure tracking.
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Policy.ShouldTrackPressure = true;
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}
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bool PPCSubtarget::useAA() const {
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// Use AA during code generation for the embedded cores.
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return needsAggressiveScheduling(DarwinDirective);
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}
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