lib/Analysis/TargetLibraryInfo.cpp - llvm - Git at Google

 //===-- TargetLibraryInfo.cpp - Runtime library information ----------------==//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements the TargetLibraryInfo class.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/Analysis/TargetLibraryInfo.h"
 #include "llvm/ADT/Triple.h"
 #include "llvm/Support/CommandLine.h"
 using namespace llvm;

 static cl::opt<TargetLibraryInfoImpl::VectorLibrary> ClVectorLibrary(
     "vector-library", cl::Hidden, cl::desc("Vector functions library"),
     cl::init(TargetLibraryInfoImpl::NoLibrary),
     cl::values(clEnumValN(TargetLibraryInfoImpl::NoLibrary, "none",
                           "No vector functions library"),
                clEnumValN(TargetLibraryInfoImpl::Accelerate, "Accelerate",
                           "Accelerate framework"),
                clEnumValEnd));

 const char *const TargetLibraryInfoImpl::StandardNames[LibFunc::NumLibFuncs] = {
 #define TLI_DEFINE_STRING
 #include "llvm/Analysis/TargetLibraryInfo.def"
 };

 static bool hasSinCosPiStret(const Triple &T) {
   // Only Darwin variants have _stret versions of combined trig functions.
   if (!T.isOSDarwin())
     return false;

   // The ABI is rather complicated on x86, so don't do anything special there.
   if (T.getArch() == Triple::x86)
     return false;

   if (T.isMacOSX() && T.isMacOSXVersionLT(10, 9))
     return false;

   if (T.isiOS() && T.isOSVersionLT(7, 0))
     return false;

   return true;
 }

 /// initialize - Initialize the set of available library functions based on the
 /// specified target triple.  This should be carefully written so that a missing
 /// target triple gets a sane set of defaults.
 static void initialize(TargetLibraryInfoImpl &TLI, const Triple &T,
                        const char *const *StandardNames) {
 #ifndef NDEBUG
   // Verify that the StandardNames array is in alphabetical order.
   for (unsigned F = 1; F < LibFunc::NumLibFuncs; ++F) {
     if (strcmp(StandardNames[F-1], StandardNames[F]) >= 0)
       llvm_unreachable("TargetLibraryInfoImpl function names must be sorted");
   }
 #endif // !NDEBUG

   // There are no library implementations of mempcy and memset for AMD gpus and
   // these can be difficult to lower in the backend.
   if (T.getArch() == Triple::r600 ||
       T.getArch() == Triple::amdgcn) {
     TLI.setUnavailable(LibFunc::memcpy);
     TLI.setUnavailable(LibFunc::memset);
     TLI.setUnavailable(LibFunc::memset_pattern16);
     return;
   }

   // memset_pattern16 is only available on iOS 3.0 and Mac OS X 10.5 and later.
   if (T.isMacOSX()) {
     if (T.isMacOSXVersionLT(10, 5))
       TLI.setUnavailable(LibFunc::memset_pattern16);
   } else if (T.isiOS()) {
     if (T.isOSVersionLT(3, 0))
       TLI.setUnavailable(LibFunc::memset_pattern16);
   } else {
     TLI.setUnavailable(LibFunc::memset_pattern16);
   }

   if (!hasSinCosPiStret(T)) {
     TLI.setUnavailable(LibFunc::sinpi);
     TLI.setUnavailable(LibFunc::sinpif);
     TLI.setUnavailable(LibFunc::cospi);
     TLI.setUnavailable(LibFunc::cospif);
     TLI.setUnavailable(LibFunc::sincospi_stret);
     TLI.setUnavailable(LibFunc::sincospif_stret);
   }

   if (T.isMacOSX() && T.getArch() == Triple::x86 &&
       !T.isMacOSXVersionLT(10, 7)) {
     // x86-32 OSX has a scheme where fwrite and fputs (and some other functions
     // we don't care about) have two versions; on recent OSX, the one we want
     // has a $UNIX2003 suffix. The two implementations are identical except
     // for the return value in some edge cases.  However, we don't want to
     // generate code that depends on the old symbols.
     TLI.setAvailableWithName(LibFunc::fwrite, "fwrite$UNIX2003");
     TLI.setAvailableWithName(LibFunc::fputs, "fputs$UNIX2003");
   }

   // iprintf and friends are only available on XCore and TCE.
   if (T.getArch() != Triple::xcore && T.getArch() != Triple::tce) {
     TLI.setUnavailable(LibFunc::iprintf);
     TLI.setUnavailable(LibFunc::siprintf);
     TLI.setUnavailable(LibFunc::fiprintf);
   }

   if (T.isOSWindows() && !T.isOSCygMing()) {
     // Win32 does not support long double
     TLI.setUnavailable(LibFunc::acosl);
     TLI.setUnavailable(LibFunc::asinl);
     TLI.setUnavailable(LibFunc::atanl);
     TLI.setUnavailable(LibFunc::atan2l);
     TLI.setUnavailable(LibFunc::ceill);
     TLI.setUnavailable(LibFunc::copysignl);
     TLI.setUnavailable(LibFunc::cosl);
     TLI.setUnavailable(LibFunc::coshl);
     TLI.setUnavailable(LibFunc::expl);
     TLI.setUnavailable(LibFunc::fabsf); // Win32 and Win64 both lack fabsf
     TLI.setUnavailable(LibFunc::fabsl);
     TLI.setUnavailable(LibFunc::floorl);
     TLI.setUnavailable(LibFunc::fmaxl);
     TLI.setUnavailable(LibFunc::fminl);
     TLI.setUnavailable(LibFunc::fmodl);
     TLI.setUnavailable(LibFunc::frexpl);
     TLI.setUnavailable(LibFunc::ldexpf);
     TLI.setUnavailable(LibFunc::ldexpl);
     TLI.setUnavailable(LibFunc::logl);
     TLI.setUnavailable(LibFunc::modfl);
     TLI.setUnavailable(LibFunc::powl);
     TLI.setUnavailable(LibFunc::sinl);
     TLI.setUnavailable(LibFunc::sinhl);
     TLI.setUnavailable(LibFunc::sqrtl);
     TLI.setUnavailable(LibFunc::tanl);
     TLI.setUnavailable(LibFunc::tanhl);

     // Win32 only has C89 math
     TLI.setUnavailable(LibFunc::acosh);
     TLI.setUnavailable(LibFunc::acoshf);
     TLI.setUnavailable(LibFunc::acoshl);
     TLI.setUnavailable(LibFunc::asinh);
     TLI.setUnavailable(LibFunc::asinhf);
     TLI.setUnavailable(LibFunc::asinhl);
     TLI.setUnavailable(LibFunc::atanh);
     TLI.setUnavailable(LibFunc::atanhf);
     TLI.setUnavailable(LibFunc::atanhl);
     TLI.setUnavailable(LibFunc::cbrt);
     TLI.setUnavailable(LibFunc::cbrtf);
     TLI.setUnavailable(LibFunc::cbrtl);
     TLI.setUnavailable(LibFunc::exp2);
     TLI.setUnavailable(LibFunc::exp2f);
     TLI.setUnavailable(LibFunc::exp2l);
     TLI.setUnavailable(LibFunc::expm1);
     TLI.setUnavailable(LibFunc::expm1f);
     TLI.setUnavailable(LibFunc::expm1l);
     TLI.setUnavailable(LibFunc::log2);
     TLI.setUnavailable(LibFunc::log2f);
     TLI.setUnavailable(LibFunc::log2l);
     TLI.setUnavailable(LibFunc::log1p);
     TLI.setUnavailable(LibFunc::log1pf);
     TLI.setUnavailable(LibFunc::log1pl);
     TLI.setUnavailable(LibFunc::logb);
     TLI.setUnavailable(LibFunc::logbf);
     TLI.setUnavailable(LibFunc::logbl);
     TLI.setUnavailable(LibFunc::nearbyint);
     TLI.setUnavailable(LibFunc::nearbyintf);
     TLI.setUnavailable(LibFunc::nearbyintl);
     TLI.setUnavailable(LibFunc::rint);
     TLI.setUnavailable(LibFunc::rintf);
     TLI.setUnavailable(LibFunc::rintl);
     TLI.setUnavailable(LibFunc::round);
     TLI.setUnavailable(LibFunc::roundf);
     TLI.setUnavailable(LibFunc::roundl);
     TLI.setUnavailable(LibFunc::trunc);
     TLI.setUnavailable(LibFunc::truncf);
     TLI.setUnavailable(LibFunc::truncl);

     // Win32 provides some C99 math with mangled names
     TLI.setAvailableWithName(LibFunc::copysign, "_copysign");

     if (T.getArch() == Triple::x86) {
       // Win32 on x86 implements single-precision math functions as macros
       TLI.setUnavailable(LibFunc::acosf);
       TLI.setUnavailable(LibFunc::asinf);
       TLI.setUnavailable(LibFunc::atanf);
       TLI.setUnavailable(LibFunc::atan2f);
       TLI.setUnavailable(LibFunc::ceilf);
       TLI.setUnavailable(LibFunc::copysignf);
       TLI.setUnavailable(LibFunc::cosf);
       TLI.setUnavailable(LibFunc::coshf);
       TLI.setUnavailable(LibFunc::expf);
       TLI.setUnavailable(LibFunc::floorf);
       TLI.setUnavailable(LibFunc::fminf);
       TLI.setUnavailable(LibFunc::fmaxf);
       TLI.setUnavailable(LibFunc::fmodf);
       TLI.setUnavailable(LibFunc::logf);
       TLI.setUnavailable(LibFunc::powf);
       TLI.setUnavailable(LibFunc::sinf);
       TLI.setUnavailable(LibFunc::sinhf);
       TLI.setUnavailable(LibFunc::sqrtf);
       TLI.setUnavailable(LibFunc::tanf);
       TLI.setUnavailable(LibFunc::tanhf);
     }

     // Win32 does *not* provide provide these functions, but they are
     // generally available on POSIX-compliant systems:
     TLI.setUnavailable(LibFunc::access);
     TLI.setUnavailable(LibFunc::bcmp);
     TLI.setUnavailable(LibFunc::bcopy);
     TLI.setUnavailable(LibFunc::bzero);
     TLI.setUnavailable(LibFunc::chmod);
     TLI.setUnavailable(LibFunc::chown);
     TLI.setUnavailable(LibFunc::closedir);
     TLI.setUnavailable(LibFunc::ctermid);
     TLI.setUnavailable(LibFunc::fdopen);
     TLI.setUnavailable(LibFunc::ffs);
     TLI.setUnavailable(LibFunc::fileno);
     TLI.setUnavailable(LibFunc::flockfile);
     TLI.setUnavailable(LibFunc::fseeko);
     TLI.setUnavailable(LibFunc::fstat);
     TLI.setUnavailable(LibFunc::fstatvfs);
     TLI.setUnavailable(LibFunc::ftello);
     TLI.setUnavailable(LibFunc::ftrylockfile);
     TLI.setUnavailable(LibFunc::funlockfile);
     TLI.setUnavailable(LibFunc::getc_unlocked);
     TLI.setUnavailable(LibFunc::getitimer);
     TLI.setUnavailable(LibFunc::getlogin_r);
     TLI.setUnavailable(LibFunc::getpwnam);
     TLI.setUnavailable(LibFunc::gettimeofday);
     TLI.setUnavailable(LibFunc::htonl);
     TLI.setUnavailable(LibFunc::htons);
     TLI.setUnavailable(LibFunc::lchown);
     TLI.setUnavailable(LibFunc::lstat);
     TLI.setUnavailable(LibFunc::memccpy);
     TLI.setUnavailable(LibFunc::mkdir);
     TLI.setUnavailable(LibFunc::ntohl);
     TLI.setUnavailable(LibFunc::ntohs);
     TLI.setUnavailable(LibFunc::open);
     TLI.setUnavailable(LibFunc::opendir);
     TLI.setUnavailable(LibFunc::pclose);
     TLI.setUnavailable(LibFunc::popen);
     TLI.setUnavailable(LibFunc::pread);
     TLI.setUnavailable(LibFunc::pwrite);
     TLI.setUnavailable(LibFunc::read);
     TLI.setUnavailable(LibFunc::readlink);
     TLI.setUnavailable(LibFunc::realpath);
     TLI.setUnavailable(LibFunc::rmdir);
     TLI.setUnavailable(LibFunc::setitimer);
     TLI.setUnavailable(LibFunc::stat);
     TLI.setUnavailable(LibFunc::statvfs);
     TLI.setUnavailable(LibFunc::stpcpy);
     TLI.setUnavailable(LibFunc::stpncpy);
     TLI.setUnavailable(LibFunc::strcasecmp);
     TLI.setUnavailable(LibFunc::strncasecmp);
     TLI.setUnavailable(LibFunc::times);
     TLI.setUnavailable(LibFunc::uname);
     TLI.setUnavailable(LibFunc::unlink);
     TLI.setUnavailable(LibFunc::unsetenv);
     TLI.setUnavailable(LibFunc::utime);
     TLI.setUnavailable(LibFunc::utimes);
     TLI.setUnavailable(LibFunc::write);

     // Win32 does *not* provide provide these functions, but they are
     // specified by C99:
     TLI.setUnavailable(LibFunc::atoll);
     TLI.setUnavailable(LibFunc::frexpf);
     TLI.setUnavailable(LibFunc::llabs);
   }

   switch (T.getOS()) {
   case Triple::MacOSX:
     // exp10 and exp10f are not available on OS X until 10.9 and iOS until 7.0
     // and their names are __exp10 and __exp10f. exp10l is not available on
     // OS X or iOS.
     TLI.setUnavailable(LibFunc::exp10l);
     if (T.isMacOSXVersionLT(10, 9)) {
       TLI.setUnavailable(LibFunc::exp10);
       TLI.setUnavailable(LibFunc::exp10f);
     } else {
       TLI.setAvailableWithName(LibFunc::exp10, "__exp10");
       TLI.setAvailableWithName(LibFunc::exp10f, "__exp10f");
     }
     break;
   case Triple::IOS:
     TLI.setUnavailable(LibFunc::exp10l);
     if (T.isOSVersionLT(7, 0)) {
       TLI.setUnavailable(LibFunc::exp10);
       TLI.setUnavailable(LibFunc::exp10f);
     } else {
       TLI.setAvailableWithName(LibFunc::exp10, "__exp10");
       TLI.setAvailableWithName(LibFunc::exp10f, "__exp10f");
     }
     break;
   case Triple::Linux:
     // exp10, exp10f, exp10l is available on Linux (GLIBC) but are extremely
     // buggy prior to glibc version 2.18. Until this version is widely deployed
     // or we have a reasonable detection strategy, we cannot use exp10 reliably
     // on Linux.
     //
     // Fall through to disable all of them.
   default:
     TLI.setUnavailable(LibFunc::exp10);
     TLI.setUnavailable(LibFunc::exp10f);
     TLI.setUnavailable(LibFunc::exp10l);
   }

   // ffsl is available on at least Darwin, Mac OS X, iOS, FreeBSD, and
   // Linux (GLIBC):
   // http://developer.apple.com/library/mac/#documentation/Darwin/Reference/ManPages/man3/ffsl.3.html
   // http://svn.freebsd.org/base/user/eri/pf45/head/lib/libc/string/ffsl.c
   // http://www.gnu.org/software/gnulib/manual/html_node/ffsl.html
   switch (T.getOS()) {
   case Triple::Darwin:
   case Triple::MacOSX:
   case Triple::IOS:
   case Triple::FreeBSD:
   case Triple::Linux:
     break;
   default:
     TLI.setUnavailable(LibFunc::ffsl);
   }

   // ffsll is available on at least FreeBSD and Linux (GLIBC):
   // http://svn.freebsd.org/base/user/eri/pf45/head/lib/libc/string/ffsll.c
   // http://www.gnu.org/software/gnulib/manual/html_node/ffsll.html
   switch (T.getOS()) {
   case Triple::FreeBSD:
   case Triple::Linux:
     break;
   default:
     TLI.setUnavailable(LibFunc::ffsll);
   }

   // The following functions are available on at least Linux:
   if (!T.isOSLinux()) {
     TLI.setUnavailable(LibFunc::dunder_strdup);
     TLI.setUnavailable(LibFunc::dunder_strtok_r);
     TLI.setUnavailable(LibFunc::dunder_isoc99_scanf);
     TLI.setUnavailable(LibFunc::dunder_isoc99_sscanf);
     TLI.setUnavailable(LibFunc::under_IO_getc);
     TLI.setUnavailable(LibFunc::under_IO_putc);
     TLI.setUnavailable(LibFunc::memalign);
     TLI.setUnavailable(LibFunc::fopen64);
     TLI.setUnavailable(LibFunc::fseeko64);
     TLI.setUnavailable(LibFunc::fstat64);
     TLI.setUnavailable(LibFunc::fstatvfs64);
     TLI.setUnavailable(LibFunc::ftello64);
     TLI.setUnavailable(LibFunc::lstat64);
     TLI.setUnavailable(LibFunc::open64);
     TLI.setUnavailable(LibFunc::stat64);
     TLI.setUnavailable(LibFunc::statvfs64);
     TLI.setUnavailable(LibFunc::tmpfile64);
   }

   TLI.addVectorizableFunctionsFromVecLib(ClVectorLibrary);
 }

 TargetLibraryInfoImpl::TargetLibraryInfoImpl() {
   // Default to everything being available.
   memset(AvailableArray, -1, sizeof(AvailableArray));

   initialize(*this, Triple(), StandardNames);
 }

 TargetLibraryInfoImpl::TargetLibraryInfoImpl(const Triple &T) {
   // Default to everything being available.
   memset(AvailableArray, -1, sizeof(AvailableArray));

   initialize(*this, T, StandardNames);
 }

 TargetLibraryInfoImpl::TargetLibraryInfoImpl(const TargetLibraryInfoImpl &TLI)
     : CustomNames(TLI.CustomNames) {
   memcpy(AvailableArray, TLI.AvailableArray, sizeof(AvailableArray));
   VectorDescs = TLI.VectorDescs;
   ScalarDescs = TLI.ScalarDescs;
 }

 TargetLibraryInfoImpl::TargetLibraryInfoImpl(TargetLibraryInfoImpl &&TLI)
     : CustomNames(std::move(TLI.CustomNames)) {
   std::move(std::begin(TLI.AvailableArray), std::end(TLI.AvailableArray),
             AvailableArray);
   VectorDescs = TLI.VectorDescs;
   ScalarDescs = TLI.ScalarDescs;
 }

 TargetLibraryInfoImpl &TargetLibraryInfoImpl::operator=(const TargetLibraryInfoImpl &TLI) {
   CustomNames = TLI.CustomNames;
   memcpy(AvailableArray, TLI.AvailableArray, sizeof(AvailableArray));
   return *this;
 }

 TargetLibraryInfoImpl &TargetLibraryInfoImpl::operator=(TargetLibraryInfoImpl &&TLI) {
   CustomNames = std::move(TLI.CustomNames);
   std::move(std::begin(TLI.AvailableArray), std::end(TLI.AvailableArray),
             AvailableArray);
   return *this;
 }

 static StringRef sanitizeFunctionName(StringRef funcName) {
   // Filter out empty names and names containing null bytes, those can't be in
   // our table.
   if (funcName.empty() || funcName.find('\0') != StringRef::npos)
     return StringRef();

   // Check for \01 prefix that is used to mangle __asm declarations and
   // strip it if present.
   return GlobalValue::getRealLinkageName(funcName);
 }

 bool TargetLibraryInfoImpl::getLibFunc(StringRef funcName,
                                    LibFunc::Func &F) const {
   const char *const *Start = &StandardNames[0];
   const char *const *End = &StandardNames[LibFunc::NumLibFuncs];

   funcName = sanitizeFunctionName(funcName);
   if (funcName.empty())
     return false;

   const char *const *I = std::lower_bound(
       Start, End, funcName, [](const char *LHS, StringRef RHS) {
         return std::strncmp(LHS, RHS.data(), RHS.size()) < 0;
       });
   if (I != End && *I == funcName) {
     F = (LibFunc::Func)(I - Start);
     return true;
   }
   return false;
 }

 void TargetLibraryInfoImpl::disableAllFunctions() {
   memset(AvailableArray, 0, sizeof(AvailableArray));
 }

 static bool compareByScalarFnName(const VecDesc &LHS, const VecDesc &RHS) {
   return std::strncmp(LHS.ScalarFnName, RHS.ScalarFnName,
                       std::strlen(RHS.ScalarFnName)) < 0;
 }

 static bool compareByVectorFnName(const VecDesc &LHS, const VecDesc &RHS) {
   return std::strncmp(LHS.VectorFnName, RHS.VectorFnName,
                       std::strlen(RHS.VectorFnName)) < 0;
 }

 static bool compareWithScalarFnName(const VecDesc &LHS, StringRef S) {
   return std::strncmp(LHS.ScalarFnName, S.data(), S.size()) < 0;
 }

 static bool compareWithVectorFnName(const VecDesc &LHS, StringRef S) {
   return std::strncmp(LHS.VectorFnName, S.data(), S.size()) < 0;
 }

 void TargetLibraryInfoImpl::addVectorizableFunctions(ArrayRef<VecDesc> Fns) {
   VectorDescs.insert(VectorDescs.end(), Fns.begin(), Fns.end());
   std::sort(VectorDescs.begin(), VectorDescs.end(), compareByScalarFnName);

   ScalarDescs.insert(ScalarDescs.end(), Fns.begin(), Fns.end());
   std::sort(ScalarDescs.begin(), ScalarDescs.end(), compareByVectorFnName);
 }

 void TargetLibraryInfoImpl::addVectorizableFunctionsFromVecLib(
     enum VectorLibrary VecLib) {
   switch (VecLib) {
   case Accelerate: {
     const VecDesc VecFuncs[] = {
         // Floating-Point Arithmetic and Auxiliary Functions
         {"ceilf", "vceilf", 4},
         {"fabsf", "vfabsf", 4},
         {"llvm.fabs.f32", "vfabsf", 4},
         {"floorf", "vfloorf", 4},
         {"sqrtf", "vsqrtf", 4},
         {"llvm.sqrt.f32", "vsqrtf", 4},

         // Exponential and Logarithmic Functions
         {"expf", "vexpf", 4},
         {"llvm.exp.f32", "vexpf", 4},
         {"expm1f", "vexpm1f", 4},
         {"logf", "vlogf", 4},
         {"llvm.log.f32", "vlogf", 4},
         {"log1pf", "vlog1pf", 4},
         {"log10f", "vlog10f", 4},
         {"llvm.log10.f32", "vlog10f", 4},
         {"logbf", "vlogbf", 4},

         // Trigonometric Functions
         {"sinf", "vsinf", 4},
         {"llvm.sin.f32", "vsinf", 4},
         {"cosf", "vcosf", 4},
         {"llvm.cos.f32", "vcosf", 4},
         {"tanf", "vtanf", 4},
         {"asinf", "vasinf", 4},
         {"acosf", "vacosf", 4},
         {"atanf", "vatanf", 4},

         // Hyperbolic Functions
         {"sinhf", "vsinhf", 4},
         {"coshf", "vcoshf", 4},
         {"tanhf", "vtanhf", 4},
         {"asinhf", "vasinhf", 4},
         {"acoshf", "vacoshf", 4},
         {"atanhf", "vatanhf", 4},
     };
     addVectorizableFunctions(VecFuncs);
     break;
   }
   case NoLibrary:
     break;
   }
 }

 bool TargetLibraryInfoImpl::isFunctionVectorizable(StringRef funcName) const {
   funcName = sanitizeFunctionName(funcName);
   if (funcName.empty())
     return false;

   std::vector<VecDesc>::const_iterator I = std::lower_bound(
       VectorDescs.begin(), VectorDescs.end(), funcName,
       compareWithScalarFnName);
   return I != VectorDescs.end() && StringRef(I->ScalarFnName) == funcName;
 }

 StringRef TargetLibraryInfoImpl::getVectorizedFunction(StringRef F,
                                                        unsigned VF) const {
   F = sanitizeFunctionName(F);
   if (F.empty())
     return F;
   std::vector<VecDesc>::const_iterator I = std::lower_bound(
       VectorDescs.begin(), VectorDescs.end(), F, compareWithScalarFnName);
   while (I != VectorDescs.end() && StringRef(I->ScalarFnName) == F) {
     if (I->VectorizationFactor == VF)
       return I->VectorFnName;
     ++I;
   }
   return StringRef();
 }

 StringRef TargetLibraryInfoImpl::getScalarizedFunction(StringRef F,
                                                        unsigned &VF) const {
   F = sanitizeFunctionName(F);
   if (F.empty())
     return F;

   std::vector<VecDesc>::const_iterator I = std::lower_bound(
       ScalarDescs.begin(), ScalarDescs.end(), F, compareWithVectorFnName);
   if (I == VectorDescs.end() || StringRef(I->VectorFnName) != F)
     return StringRef();
   VF = I->VectorizationFactor;
   return I->ScalarFnName;
 }

 TargetLibraryInfo TargetLibraryAnalysis::run(Module &M) {
   if (PresetInfoImpl)
     return TargetLibraryInfo(*PresetInfoImpl);

   return TargetLibraryInfo(lookupInfoImpl(Triple(M.getTargetTriple())));
 }

 TargetLibraryInfo TargetLibraryAnalysis::run(Function &F) {
   if (PresetInfoImpl)
     return TargetLibraryInfo(*PresetInfoImpl);

   return TargetLibraryInfo(
       lookupInfoImpl(Triple(F.getParent()->getTargetTriple())));
 }

 TargetLibraryInfoImpl &TargetLibraryAnalysis::lookupInfoImpl(Triple T) {
   std::unique_ptr<TargetLibraryInfoImpl> &Impl =
       Impls[T.normalize()];
   if (!Impl)
     Impl.reset(new TargetLibraryInfoImpl(T));

   return *Impl;
 }


 TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass()
     : ImmutablePass(ID), TLIImpl(), TLI(TLIImpl) {
   initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
 }

 TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass(const Triple &T)
     : ImmutablePass(ID), TLIImpl(T), TLI(TLIImpl) {
   initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
 }

 TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass(
     const TargetLibraryInfoImpl &TLIImpl)
     : ImmutablePass(ID), TLIImpl(TLIImpl), TLI(this->TLIImpl) {
   initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
 }

 char TargetLibraryAnalysis::PassID;

 // Register the basic pass.
 INITIALIZE_PASS(TargetLibraryInfoWrapperPass, "targetlibinfo",
                 "Target Library Information", false, true)
 char TargetLibraryInfoWrapperPass::ID = 0;

 void TargetLibraryInfoWrapperPass::anchor() {}
	//===-- TargetLibraryInfo.cpp - Runtime library information ----------------==//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the TargetLibraryInfo class.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/Analysis/TargetLibraryInfo.h"
	#include "llvm/ADT/Triple.h"
	#include "llvm/Support/CommandLine.h"
	using namespace llvm;

	static cl::opt<TargetLibraryInfoImpl::VectorLibrary> ClVectorLibrary(
	"vector-library", cl::Hidden, cl::desc("Vector functions library"),
	cl::init(TargetLibraryInfoImpl::NoLibrary),
	cl::values(clEnumValN(TargetLibraryInfoImpl::NoLibrary, "none",
	"No vector functions library"),
	clEnumValN(TargetLibraryInfoImpl::Accelerate, "Accelerate",
	"Accelerate framework"),
	clEnumValEnd));

	const char *const TargetLibraryInfoImpl::StandardNames[LibFunc::NumLibFuncs] = {
	#define TLI_DEFINE_STRING
	#include "llvm/Analysis/TargetLibraryInfo.def"
	};

	static bool hasSinCosPiStret(const Triple &T) {
	// Only Darwin variants have _stret versions of combined trig functions.
	if (!T.isOSDarwin())
	return false;

	// The ABI is rather complicated on x86, so don't do anything special there.
	if (T.getArch() == Triple::x86)
	return false;

	if (T.isMacOSX() && T.isMacOSXVersionLT(10, 9))
	return false;

	if (T.isiOS() && T.isOSVersionLT(7, 0))
	return false;

	return true;
	}

	/// initialize - Initialize the set of available library functions based on the
	/// specified target triple. This should be carefully written so that a missing
	/// target triple gets a sane set of defaults.
	static void initialize(TargetLibraryInfoImpl &TLI, const Triple &T,
	const char const StandardNames) {
	#ifndef NDEBUG
	// Verify that the StandardNames array is in alphabetical order.
	for (unsigned F = 1; F < LibFunc::NumLibFuncs; ++F) {
	if (strcmp(StandardNames[F-1], StandardNames[F]) >= 0)
	llvm_unreachable("TargetLibraryInfoImpl function names must be sorted");
	}
	#endif // !NDEBUG

	// There are no library implementations of mempcy and memset for AMD gpus and
	// these can be difficult to lower in the backend.
	if (T.getArch() == Triple::r600 \|\|
	T.getArch() == Triple::amdgcn) {
	TLI.setUnavailable(LibFunc::memcpy);
	TLI.setUnavailable(LibFunc::memset);
	TLI.setUnavailable(LibFunc::memset_pattern16);
	return;
	}

	// memset_pattern16 is only available on iOS 3.0 and Mac OS X 10.5 and later.
	if (T.isMacOSX()) {
	if (T.isMacOSXVersionLT(10, 5))
	TLI.setUnavailable(LibFunc::memset_pattern16);
	} else if (T.isiOS()) {
	if (T.isOSVersionLT(3, 0))
	TLI.setUnavailable(LibFunc::memset_pattern16);
	} else {
	TLI.setUnavailable(LibFunc::memset_pattern16);
	}

	if (!hasSinCosPiStret(T)) {
	TLI.setUnavailable(LibFunc::sinpi);
	TLI.setUnavailable(LibFunc::sinpif);
	TLI.setUnavailable(LibFunc::cospi);
	TLI.setUnavailable(LibFunc::cospif);
	TLI.setUnavailable(LibFunc::sincospi_stret);
	TLI.setUnavailable(LibFunc::sincospif_stret);
	}

	if (T.isMacOSX() && T.getArch() == Triple::x86 &&
	!T.isMacOSXVersionLT(10, 7)) {
	// x86-32 OSX has a scheme where fwrite and fputs (and some other functions
	// we don't care about) have two versions; on recent OSX, the one we want
	// has a $UNIX2003 suffix. The two implementations are identical except
	// for the return value in some edge cases. However, we don't want to
	// generate code that depends on the old symbols.
	TLI.setAvailableWithName(LibFunc::fwrite, "fwrite$UNIX2003");
	TLI.setAvailableWithName(LibFunc::fputs, "fputs$UNIX2003");
	}

	// iprintf and friends are only available on XCore and TCE.
	if (T.getArch() != Triple::xcore && T.getArch() != Triple::tce) {
	TLI.setUnavailable(LibFunc::iprintf);
	TLI.setUnavailable(LibFunc::siprintf);
	TLI.setUnavailable(LibFunc::fiprintf);
	}

	if (T.isOSWindows() && !T.isOSCygMing()) {
	// Win32 does not support long double
	TLI.setUnavailable(LibFunc::acosl);
	TLI.setUnavailable(LibFunc::asinl);
	TLI.setUnavailable(LibFunc::atanl);
	TLI.setUnavailable(LibFunc::atan2l);
	TLI.setUnavailable(LibFunc::ceill);
	TLI.setUnavailable(LibFunc::copysignl);
	TLI.setUnavailable(LibFunc::cosl);
	TLI.setUnavailable(LibFunc::coshl);
	TLI.setUnavailable(LibFunc::expl);
	TLI.setUnavailable(LibFunc::fabsf); // Win32 and Win64 both lack fabsf
	TLI.setUnavailable(LibFunc::fabsl);
	TLI.setUnavailable(LibFunc::floorl);
	TLI.setUnavailable(LibFunc::fmaxl);
	TLI.setUnavailable(LibFunc::fminl);
	TLI.setUnavailable(LibFunc::fmodl);
	TLI.setUnavailable(LibFunc::frexpl);
	TLI.setUnavailable(LibFunc::ldexpf);
	TLI.setUnavailable(LibFunc::ldexpl);
	TLI.setUnavailable(LibFunc::logl);
	TLI.setUnavailable(LibFunc::modfl);
	TLI.setUnavailable(LibFunc::powl);
	TLI.setUnavailable(LibFunc::sinl);
	TLI.setUnavailable(LibFunc::sinhl);
	TLI.setUnavailable(LibFunc::sqrtl);
	TLI.setUnavailable(LibFunc::tanl);
	TLI.setUnavailable(LibFunc::tanhl);

	// Win32 only has C89 math
	TLI.setUnavailable(LibFunc::acosh);
	TLI.setUnavailable(LibFunc::acoshf);
	TLI.setUnavailable(LibFunc::acoshl);
	TLI.setUnavailable(LibFunc::asinh);
	TLI.setUnavailable(LibFunc::asinhf);
	TLI.setUnavailable(LibFunc::asinhl);
	TLI.setUnavailable(LibFunc::atanh);
	TLI.setUnavailable(LibFunc::atanhf);
	TLI.setUnavailable(LibFunc::atanhl);
	TLI.setUnavailable(LibFunc::cbrt);
	TLI.setUnavailable(LibFunc::cbrtf);
	TLI.setUnavailable(LibFunc::cbrtl);
	TLI.setUnavailable(LibFunc::exp2);
	TLI.setUnavailable(LibFunc::exp2f);
	TLI.setUnavailable(LibFunc::exp2l);
	TLI.setUnavailable(LibFunc::expm1);
	TLI.setUnavailable(LibFunc::expm1f);
	TLI.setUnavailable(LibFunc::expm1l);
	TLI.setUnavailable(LibFunc::log2);
	TLI.setUnavailable(LibFunc::log2f);
	TLI.setUnavailable(LibFunc::log2l);
	TLI.setUnavailable(LibFunc::log1p);
	TLI.setUnavailable(LibFunc::log1pf);
	TLI.setUnavailable(LibFunc::log1pl);
	TLI.setUnavailable(LibFunc::logb);
	TLI.setUnavailable(LibFunc::logbf);
	TLI.setUnavailable(LibFunc::logbl);
	TLI.setUnavailable(LibFunc::nearbyint);
	TLI.setUnavailable(LibFunc::nearbyintf);
	TLI.setUnavailable(LibFunc::nearbyintl);
	TLI.setUnavailable(LibFunc::rint);
	TLI.setUnavailable(LibFunc::rintf);
	TLI.setUnavailable(LibFunc::rintl);
	TLI.setUnavailable(LibFunc::round);
	TLI.setUnavailable(LibFunc::roundf);
	TLI.setUnavailable(LibFunc::roundl);
	TLI.setUnavailable(LibFunc::trunc);
	TLI.setUnavailable(LibFunc::truncf);
	TLI.setUnavailable(LibFunc::truncl);

	// Win32 provides some C99 math with mangled names
	TLI.setAvailableWithName(LibFunc::copysign, "_copysign");

	if (T.getArch() == Triple::x86) {
	// Win32 on x86 implements single-precision math functions as macros
	TLI.setUnavailable(LibFunc::acosf);
	TLI.setUnavailable(LibFunc::asinf);
	TLI.setUnavailable(LibFunc::atanf);
	TLI.setUnavailable(LibFunc::atan2f);
	TLI.setUnavailable(LibFunc::ceilf);
	TLI.setUnavailable(LibFunc::copysignf);
	TLI.setUnavailable(LibFunc::cosf);
	TLI.setUnavailable(LibFunc::coshf);
	TLI.setUnavailable(LibFunc::expf);
	TLI.setUnavailable(LibFunc::floorf);
	TLI.setUnavailable(LibFunc::fminf);
	TLI.setUnavailable(LibFunc::fmaxf);
	TLI.setUnavailable(LibFunc::fmodf);
	TLI.setUnavailable(LibFunc::logf);
	TLI.setUnavailable(LibFunc::powf);
	TLI.setUnavailable(LibFunc::sinf);
	TLI.setUnavailable(LibFunc::sinhf);
	TLI.setUnavailable(LibFunc::sqrtf);
	TLI.setUnavailable(LibFunc::tanf);
	TLI.setUnavailable(LibFunc::tanhf);
	}

	// Win32 does not provide provide these functions, but they are
	// generally available on POSIX-compliant systems:
	TLI.setUnavailable(LibFunc::access);
	TLI.setUnavailable(LibFunc::bcmp);
	TLI.setUnavailable(LibFunc::bcopy);
	TLI.setUnavailable(LibFunc::bzero);
	TLI.setUnavailable(LibFunc::chmod);
	TLI.setUnavailable(LibFunc::chown);
	TLI.setUnavailable(LibFunc::closedir);
	TLI.setUnavailable(LibFunc::ctermid);
	TLI.setUnavailable(LibFunc::fdopen);
	TLI.setUnavailable(LibFunc::ffs);
	TLI.setUnavailable(LibFunc::fileno);
	TLI.setUnavailable(LibFunc::flockfile);
	TLI.setUnavailable(LibFunc::fseeko);
	TLI.setUnavailable(LibFunc::fstat);
	TLI.setUnavailable(LibFunc::fstatvfs);
	TLI.setUnavailable(LibFunc::ftello);
	TLI.setUnavailable(LibFunc::ftrylockfile);
	TLI.setUnavailable(LibFunc::funlockfile);
	TLI.setUnavailable(LibFunc::getc_unlocked);
	TLI.setUnavailable(LibFunc::getitimer);
	TLI.setUnavailable(LibFunc::getlogin_r);
	TLI.setUnavailable(LibFunc::getpwnam);
	TLI.setUnavailable(LibFunc::gettimeofday);
	TLI.setUnavailable(LibFunc::htonl);
	TLI.setUnavailable(LibFunc::htons);
	TLI.setUnavailable(LibFunc::lchown);
	TLI.setUnavailable(LibFunc::lstat);
	TLI.setUnavailable(LibFunc::memccpy);
	TLI.setUnavailable(LibFunc::mkdir);
	TLI.setUnavailable(LibFunc::ntohl);
	TLI.setUnavailable(LibFunc::ntohs);
	TLI.setUnavailable(LibFunc::open);
	TLI.setUnavailable(LibFunc::opendir);
	TLI.setUnavailable(LibFunc::pclose);
	TLI.setUnavailable(LibFunc::popen);
	TLI.setUnavailable(LibFunc::pread);
	TLI.setUnavailable(LibFunc::pwrite);
	TLI.setUnavailable(LibFunc::read);
	TLI.setUnavailable(LibFunc::readlink);
	TLI.setUnavailable(LibFunc::realpath);
	TLI.setUnavailable(LibFunc::rmdir);
	TLI.setUnavailable(LibFunc::setitimer);
	TLI.setUnavailable(LibFunc::stat);
	TLI.setUnavailable(LibFunc::statvfs);
	TLI.setUnavailable(LibFunc::stpcpy);
	TLI.setUnavailable(LibFunc::stpncpy);
	TLI.setUnavailable(LibFunc::strcasecmp);
	TLI.setUnavailable(LibFunc::strncasecmp);
	TLI.setUnavailable(LibFunc::times);
	TLI.setUnavailable(LibFunc::uname);
	TLI.setUnavailable(LibFunc::unlink);
	TLI.setUnavailable(LibFunc::unsetenv);
	TLI.setUnavailable(LibFunc::utime);
	TLI.setUnavailable(LibFunc::utimes);
	TLI.setUnavailable(LibFunc::write);

	// Win32 does not provide provide these functions, but they are
	// specified by C99:
	TLI.setUnavailable(LibFunc::atoll);
	TLI.setUnavailable(LibFunc::frexpf);
	TLI.setUnavailable(LibFunc::llabs);
	}

	switch (T.getOS()) {
	case Triple::MacOSX:
	// exp10 and exp10f are not available on OS X until 10.9 and iOS until 7.0
	// and their names are __exp10 and __exp10f. exp10l is not available on
	// OS X or iOS.
	TLI.setUnavailable(LibFunc::exp10l);
	if (T.isMacOSXVersionLT(10, 9)) {
	TLI.setUnavailable(LibFunc::exp10);
	TLI.setUnavailable(LibFunc::exp10f);
	} else {
	TLI.setAvailableWithName(LibFunc::exp10, "__exp10");
	TLI.setAvailableWithName(LibFunc::exp10f, "__exp10f");
	}
	break;
	case Triple::IOS:
	TLI.setUnavailable(LibFunc::exp10l);
	if (T.isOSVersionLT(7, 0)) {
	TLI.setUnavailable(LibFunc::exp10);
	TLI.setUnavailable(LibFunc::exp10f);
	} else {
	TLI.setAvailableWithName(LibFunc::exp10, "__exp10");
	TLI.setAvailableWithName(LibFunc::exp10f, "__exp10f");
	}
	break;
	case Triple::Linux:
	// exp10, exp10f, exp10l is available on Linux (GLIBC) but are extremely
	// buggy prior to glibc version 2.18. Until this version is widely deployed
	// or we have a reasonable detection strategy, we cannot use exp10 reliably
	// on Linux.
	//
	// Fall through to disable all of them.
	default:
	TLI.setUnavailable(LibFunc::exp10);
	TLI.setUnavailable(LibFunc::exp10f);
	TLI.setUnavailable(LibFunc::exp10l);
	}

	// ffsl is available on at least Darwin, Mac OS X, iOS, FreeBSD, and
	// Linux (GLIBC):
	// http://developer.apple.com/library/mac/#documentation/Darwin/Reference/ManPages/man3/ffsl.3.html
	// http://svn.freebsd.org/base/user/eri/pf45/head/lib/libc/string/ffsl.c
	// http://www.gnu.org/software/gnulib/manual/html_node/ffsl.html
	switch (T.getOS()) {
	case Triple::Darwin:
	case Triple::MacOSX:
	case Triple::IOS:
	case Triple::FreeBSD:
	case Triple::Linux:
	break;
	default:
	TLI.setUnavailable(LibFunc::ffsl);
	}

	// ffsll is available on at least FreeBSD and Linux (GLIBC):
	// http://svn.freebsd.org/base/user/eri/pf45/head/lib/libc/string/ffsll.c
	// http://www.gnu.org/software/gnulib/manual/html_node/ffsll.html
	switch (T.getOS()) {
	case Triple::FreeBSD:
	case Triple::Linux:
	break;
	default:
	TLI.setUnavailable(LibFunc::ffsll);
	}

	// The following functions are available on at least Linux:
	if (!T.isOSLinux()) {
	TLI.setUnavailable(LibFunc::dunder_strdup);
	TLI.setUnavailable(LibFunc::dunder_strtok_r);
	TLI.setUnavailable(LibFunc::dunder_isoc99_scanf);
	TLI.setUnavailable(LibFunc::dunder_isoc99_sscanf);
	TLI.setUnavailable(LibFunc::under_IO_getc);
	TLI.setUnavailable(LibFunc::under_IO_putc);
	TLI.setUnavailable(LibFunc::memalign);
	TLI.setUnavailable(LibFunc::fopen64);
	TLI.setUnavailable(LibFunc::fseeko64);
	TLI.setUnavailable(LibFunc::fstat64);
	TLI.setUnavailable(LibFunc::fstatvfs64);
	TLI.setUnavailable(LibFunc::ftello64);
	TLI.setUnavailable(LibFunc::lstat64);
	TLI.setUnavailable(LibFunc::open64);
	TLI.setUnavailable(LibFunc::stat64);
	TLI.setUnavailable(LibFunc::statvfs64);
	TLI.setUnavailable(LibFunc::tmpfile64);
	}

	TLI.addVectorizableFunctionsFromVecLib(ClVectorLibrary);
	}

	TargetLibraryInfoImpl::TargetLibraryInfoImpl() {
	// Default to everything being available.
	memset(AvailableArray, -1, sizeof(AvailableArray));

	initialize(*this, Triple(), StandardNames);
	}

	TargetLibraryInfoImpl::TargetLibraryInfoImpl(const Triple &T) {
	// Default to everything being available.
	memset(AvailableArray, -1, sizeof(AvailableArray));

	initialize(*this, T, StandardNames);
	}

	TargetLibraryInfoImpl::TargetLibraryInfoImpl(const TargetLibraryInfoImpl &TLI)
	: CustomNames(TLI.CustomNames) {
	memcpy(AvailableArray, TLI.AvailableArray, sizeof(AvailableArray));
	VectorDescs = TLI.VectorDescs;
	ScalarDescs = TLI.ScalarDescs;
	}

	TargetLibraryInfoImpl::TargetLibraryInfoImpl(TargetLibraryInfoImpl &&TLI)
	: CustomNames(std::move(TLI.CustomNames)) {
	std::move(std::begin(TLI.AvailableArray), std::end(TLI.AvailableArray),
	AvailableArray);
	VectorDescs = TLI.VectorDescs;
	ScalarDescs = TLI.ScalarDescs;
	}

	TargetLibraryInfoImpl &TargetLibraryInfoImpl::operator=(const TargetLibraryInfoImpl &TLI) {
	CustomNames = TLI.CustomNames;
	memcpy(AvailableArray, TLI.AvailableArray, sizeof(AvailableArray));
	return *this;
	}

	TargetLibraryInfoImpl &TargetLibraryInfoImpl::operator=(TargetLibraryInfoImpl &&TLI) {
	CustomNames = std::move(TLI.CustomNames);
	std::move(std::begin(TLI.AvailableArray), std::end(TLI.AvailableArray),
	AvailableArray);
	return *this;
	}

	static StringRef sanitizeFunctionName(StringRef funcName) {
	// Filter out empty names and names containing null bytes, those can't be in
	// our table.
	if (funcName.empty() \|\| funcName.find('\0') != StringRef::npos)
	return StringRef();

	// Check for \01 prefix that is used to mangle __asm declarations and
	// strip it if present.
	return GlobalValue::getRealLinkageName(funcName);
	}

	bool TargetLibraryInfoImpl::getLibFunc(StringRef funcName,
	LibFunc::Func &F) const {
	const char const Start = &StandardNames[0];
	const char const End = &StandardNames[LibFunc::NumLibFuncs];

	funcName = sanitizeFunctionName(funcName);
	if (funcName.empty())
	return false;

	const char const I = std::lower_bound(
	Start, End, funcName, [](const char *LHS, StringRef RHS) {
	return std::strncmp(LHS, RHS.data(), RHS.size()) < 0;
	});
	if (I != End && *I == funcName) {
	F = (LibFunc::Func)(I - Start);
	return true;
	}
	return false;
	}

	void TargetLibraryInfoImpl::disableAllFunctions() {
	memset(AvailableArray, 0, sizeof(AvailableArray));
	}

	static bool compareByScalarFnName(const VecDesc &LHS, const VecDesc &RHS) {
	return std::strncmp(LHS.ScalarFnName, RHS.ScalarFnName,
	std::strlen(RHS.ScalarFnName)) < 0;
	}

	static bool compareByVectorFnName(const VecDesc &LHS, const VecDesc &RHS) {
	return std::strncmp(LHS.VectorFnName, RHS.VectorFnName,
	std::strlen(RHS.VectorFnName)) < 0;
	}

	static bool compareWithScalarFnName(const VecDesc &LHS, StringRef S) {
	return std::strncmp(LHS.ScalarFnName, S.data(), S.size()) < 0;
	}

	static bool compareWithVectorFnName(const VecDesc &LHS, StringRef S) {
	return std::strncmp(LHS.VectorFnName, S.data(), S.size()) < 0;
	}

	void TargetLibraryInfoImpl::addVectorizableFunctions(ArrayRef<VecDesc> Fns) {
	VectorDescs.insert(VectorDescs.end(), Fns.begin(), Fns.end());
	std::sort(VectorDescs.begin(), VectorDescs.end(), compareByScalarFnName);

	ScalarDescs.insert(ScalarDescs.end(), Fns.begin(), Fns.end());
	std::sort(ScalarDescs.begin(), ScalarDescs.end(), compareByVectorFnName);
	}

	void TargetLibraryInfoImpl::addVectorizableFunctionsFromVecLib(
	enum VectorLibrary VecLib) {
	switch (VecLib) {
	case Accelerate: {
	const VecDesc VecFuncs[] = {
	// Floating-Point Arithmetic and Auxiliary Functions
	{"ceilf", "vceilf", 4},
	{"fabsf", "vfabsf", 4},
	{"llvm.fabs.f32", "vfabsf", 4},
	{"floorf", "vfloorf", 4},
	{"sqrtf", "vsqrtf", 4},
	{"llvm.sqrt.f32", "vsqrtf", 4},

	// Exponential and Logarithmic Functions
	{"expf", "vexpf", 4},
	{"llvm.exp.f32", "vexpf", 4},
	{"expm1f", "vexpm1f", 4},
	{"logf", "vlogf", 4},
	{"llvm.log.f32", "vlogf", 4},
	{"log1pf", "vlog1pf", 4},
	{"log10f", "vlog10f", 4},
	{"llvm.log10.f32", "vlog10f", 4},
	{"logbf", "vlogbf", 4},

	// Trigonometric Functions
	{"sinf", "vsinf", 4},
	{"llvm.sin.f32", "vsinf", 4},
	{"cosf", "vcosf", 4},
	{"llvm.cos.f32", "vcosf", 4},
	{"tanf", "vtanf", 4},
	{"asinf", "vasinf", 4},
	{"acosf", "vacosf", 4},
	{"atanf", "vatanf", 4},

	// Hyperbolic Functions
	{"sinhf", "vsinhf", 4},
	{"coshf", "vcoshf", 4},
	{"tanhf", "vtanhf", 4},
	{"asinhf", "vasinhf", 4},
	{"acoshf", "vacoshf", 4},
	{"atanhf", "vatanhf", 4},
	};
	addVectorizableFunctions(VecFuncs);
	break;
	}
	case NoLibrary:
	break;
	}
	}

	bool TargetLibraryInfoImpl::isFunctionVectorizable(StringRef funcName) const {
	funcName = sanitizeFunctionName(funcName);
	if (funcName.empty())
	return false;

	std::vector<VecDesc>::const_iterator I = std::lower_bound(
	VectorDescs.begin(), VectorDescs.end(), funcName,
	compareWithScalarFnName);
	return I != VectorDescs.end() && StringRef(I->ScalarFnName) == funcName;
	}

	StringRef TargetLibraryInfoImpl::getVectorizedFunction(StringRef F,
	unsigned VF) const {
	F = sanitizeFunctionName(F);
	if (F.empty())
	return F;
	std::vector<VecDesc>::const_iterator I = std::lower_bound(
	VectorDescs.begin(), VectorDescs.end(), F, compareWithScalarFnName);
	while (I != VectorDescs.end() && StringRef(I->ScalarFnName) == F) {
	if (I->VectorizationFactor == VF)
	return I->VectorFnName;
	++I;
	}
	return StringRef();
	}

	StringRef TargetLibraryInfoImpl::getScalarizedFunction(StringRef F,
	unsigned &VF) const {
	F = sanitizeFunctionName(F);
	if (F.empty())
	return F;

	std::vector<VecDesc>::const_iterator I = std::lower_bound(
	ScalarDescs.begin(), ScalarDescs.end(), F, compareWithVectorFnName);
	if (I == VectorDescs.end() \|\| StringRef(I->VectorFnName) != F)
	return StringRef();
	VF = I->VectorizationFactor;
	return I->ScalarFnName;
	}

	TargetLibraryInfo TargetLibraryAnalysis::run(Module &M) {
	if (PresetInfoImpl)
	return TargetLibraryInfo(*PresetInfoImpl);

	return TargetLibraryInfo(lookupInfoImpl(Triple(M.getTargetTriple())));
	}

	TargetLibraryInfo TargetLibraryAnalysis::run(Function &F) {
	if (PresetInfoImpl)
	return TargetLibraryInfo(*PresetInfoImpl);

	return TargetLibraryInfo(
	lookupInfoImpl(Triple(F.getParent()->getTargetTriple())));
	}

	TargetLibraryInfoImpl &TargetLibraryAnalysis::lookupInfoImpl(Triple T) {
	std::unique_ptr<TargetLibraryInfoImpl> &Impl =
	Impls[T.normalize()];
	if (!Impl)
	Impl.reset(new TargetLibraryInfoImpl(T));

	return *Impl;
	}


	TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass()
	: ImmutablePass(ID), TLIImpl(), TLI(TLIImpl) {
	initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
	}

	TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass(const Triple &T)
	: ImmutablePass(ID), TLIImpl(T), TLI(TLIImpl) {
	initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
	}

	TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass(
	const TargetLibraryInfoImpl &TLIImpl)
	: ImmutablePass(ID), TLIImpl(TLIImpl), TLI(this->TLIImpl) {
	initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
	}

	char TargetLibraryAnalysis::PassID;

	// Register the basic pass.
	INITIALIZE_PASS(TargetLibraryInfoWrapperPass, "targetlibinfo",
	"Target Library Information", false, true)
	char TargetLibraryInfoWrapperPass::ID = 0;

	void TargetLibraryInfoWrapperPass::anchor() {}