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|
//===-- TargetLibraryInfo.cpp - Runtime library information ----------------==//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file implements the TargetLibraryInfo class.
//
//===----------------------------------------------------------------------===//
#include "llvm/Analysis/TargetLibraryInfo.h"
#include "llvm/ADT/Triple.h"
#include "llvm/IR/Constants.h"
#include "llvm/InitializePasses.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"),
clEnumValN(TargetLibraryInfoImpl::DarwinLibSystemM,
"Darwin_libsystem_m", "Darwin libsystem_m"),
clEnumValN(TargetLibraryInfoImpl::LIBMVEC_X86, "LIBMVEC-X86",
"GLIBC Vector Math library"),
clEnumValN(TargetLibraryInfoImpl::MASSV, "MASSV",
"IBM MASS vector library"),
clEnumValN(TargetLibraryInfoImpl::SVML, "SVML",
"Intel SVML library"),
clEnumValN(TargetLibraryInfoImpl::SLEEFGNUABI, "sleefgnuabi",
"SIMD Library for Evaluating Elementary Functions")));
StringLiteral const TargetLibraryInfoImpl::StandardNames[LibFunc::NumLibFuncs] =
{
#define TLI_DEFINE_STRING
#include "llvm/Analysis/TargetLibraryInfo.def"
};
// Recognized types of library function arguments and return types.
enum FuncArgTypeID : char {
Void = 0, // Must be zero.
Bool, // 8 bits on all targets
Int16,
Int32,
Int,
IntPlus, // Int or bigger.
Long, // Either 32 or 64 bits.
IntX, // Any integer type.
Int64,
LLong, // 64 bits on all targets.
SizeT, // size_t.
SSizeT, // POSIX ssize_t.
Flt, // IEEE float.
Dbl, // IEEE double.
LDbl, // Any floating type (TODO: tighten this up).
Floating, // Any floating type.
Ptr, // Any pointer type.
Struct, // Any struct type.
Ellip, // The ellipsis (...).
Same, // Same argument type as the previous one.
};
typedef std::array<FuncArgTypeID, 8> FuncProtoTy;
static const FuncProtoTy Signatures[] = {
#define TLI_DEFINE_SIG
#include "llvm/Analysis/TargetLibraryInfo.def"
};
static_assert(sizeof Signatures / sizeof *Signatures == LibFunc::NumLibFuncs,
"Missing library function signatures");
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;
}
static bool hasBcmp(const Triple &TT) {
// Posix removed support from bcmp() in 2001, but the glibc and several
// implementations of the libc still have it.
if (TT.isOSLinux())
return TT.isGNUEnvironment() || TT.isMusl();
// Both NetBSD and OpenBSD are planning to remove the function. Windows does
// not have it.
return TT.isOSFreeBSD() || TT.isOSSolaris();
}
static bool isCallingConvCCompatible(CallingConv::ID CC, StringRef TT,
FunctionType *FuncTy) {
switch (CC) {
default:
return false;
case llvm::CallingConv::C:
return true;
case llvm::CallingConv::ARM_APCS:
case llvm::CallingConv::ARM_AAPCS:
case llvm::CallingConv::ARM_AAPCS_VFP: {
// The iOS ABI diverges from the standard in some cases, so for now don't
// try to simplify those calls.
if (Triple(TT).isiOS())
return false;
if (!FuncTy->getReturnType()->isPointerTy() &&
!FuncTy->getReturnType()->isIntegerTy() &&
!FuncTy->getReturnType()->isVoidTy())
return false;
for (auto *Param : FuncTy->params()) {
if (!Param->isPointerTy() && !Param->isIntegerTy())
return false;
}
return true;
}
}
return false;
}
bool TargetLibraryInfoImpl::isCallingConvCCompatible(CallBase *CI) {
return ::isCallingConvCCompatible(CI->getCallingConv(),
CI->getModule()->getTargetTriple(),
CI->getFunctionType());
}
bool TargetLibraryInfoImpl::isCallingConvCCompatible(Function *F) {
return ::isCallingConvCCompatible(F->getCallingConv(),
F->getParent()->getTargetTriple(),
F->getFunctionType());
}
/// 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,
ArrayRef<StringLiteral> StandardNames) {
// Verify that the StandardNames array is in alphabetical order.
assert(
llvm::is_sorted(StandardNames,
[](StringRef LHS, StringRef RHS) { return LHS < RHS; }) &&
"TargetLibraryInfoImpl function names must be sorted");
// Set IO unlocked variants as unavailable
// Set them as available per system below
TLI.setUnavailable(LibFunc_getc_unlocked);
TLI.setUnavailable(LibFunc_getchar_unlocked);
TLI.setUnavailable(LibFunc_putc_unlocked);
TLI.setUnavailable(LibFunc_putchar_unlocked);
TLI.setUnavailable(LibFunc_fputc_unlocked);
TLI.setUnavailable(LibFunc_fgetc_unlocked);
TLI.setUnavailable(LibFunc_fread_unlocked);
TLI.setUnavailable(LibFunc_fwrite_unlocked);
TLI.setUnavailable(LibFunc_fputs_unlocked);
TLI.setUnavailable(LibFunc_fgets_unlocked);
bool ShouldExtI32Param, ShouldExtI32Return;
bool ShouldSignExtI32Param, ShouldSignExtI32Return;
TargetLibraryInfo::initExtensionsForTriple(ShouldExtI32Param,
ShouldExtI32Return, ShouldSignExtI32Param, ShouldSignExtI32Return, T);
TLI.setShouldExtI32Param(ShouldExtI32Param);
TLI.setShouldExtI32Return(ShouldExtI32Return);
TLI.setShouldSignExtI32Param(ShouldSignExtI32Param);
TLI.setShouldSignExtI32Return(ShouldSignExtI32Return);
// Let's assume by default that the size of int is 32 bits, unless the target
// is a 16-bit architecture because then it most likely is 16 bits. If that
// isn't true for a target those defaults should be overridden below.
TLI.setIntSize(T.isArch16Bit() ? 16 : 32);
// There is really no runtime library on AMDGPU, apart from
// __kmpc_alloc/free_shared.
if (T.isAMDGPU()) {
TLI.disableAllFunctions();
TLI.setAvailable(llvm::LibFunc___kmpc_alloc_shared);
TLI.setAvailable(llvm::LibFunc___kmpc_free_shared);
return;
}
// memset_pattern{4,8,16} is only available on iOS 3.0 and Mac OS X 10.5 and
// later. All versions of watchOS support it.
if (T.isMacOSX()) {
// available IO unlocked variants on Mac OS X
TLI.setAvailable(LibFunc_getc_unlocked);
TLI.setAvailable(LibFunc_getchar_unlocked);
TLI.setAvailable(LibFunc_putc_unlocked);
TLI.setAvailable(LibFunc_putchar_unlocked);
if (T.isMacOSXVersionLT(10, 5)) {
TLI.setUnavailable(LibFunc_memset_pattern4);
TLI.setUnavailable(LibFunc_memset_pattern8);
TLI.setUnavailable(LibFunc_memset_pattern16);
}
} else if (T.isiOS()) {
if (T.isOSVersionLT(3, 0)) {
TLI.setUnavailable(LibFunc_memset_pattern4);
TLI.setUnavailable(LibFunc_memset_pattern8);
TLI.setUnavailable(LibFunc_memset_pattern16);
}
} else if (!T.isWatchOS()) {
TLI.setUnavailable(LibFunc_memset_pattern4);
TLI.setUnavailable(LibFunc_memset_pattern8);
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 (!hasBcmp(T))
TLI.setUnavailable(LibFunc_bcmp);
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, TCE, and Emscripten.
if (T.getArch() != Triple::xcore && T.getArch() != Triple::tce &&
T.getOS() != Triple::Emscripten) {
TLI.setUnavailable(LibFunc_iprintf);
TLI.setUnavailable(LibFunc_siprintf);
TLI.setUnavailable(LibFunc_fiprintf);
}
// __small_printf and friends are only available on Emscripten.
if (T.getOS() != Triple::Emscripten) {
TLI.setUnavailable(LibFunc_small_printf);
TLI.setUnavailable(LibFunc_small_sprintf);
TLI.setUnavailable(LibFunc_small_fprintf);
}
if (T.isOSWindows() && !T.isOSCygMing()) {
// XXX: The earliest documentation available at the moment is for VS2015/VC19:
// https://docs.microsoft.com/en-us/cpp/c-runtime-library/floating-point-support?view=vs-2015
// XXX: In order to use an MSVCRT older than VC19,
// the specific library version must be explicit in the target triple,
// e.g., x86_64-pc-windows-msvc18.
bool hasPartialC99 = true;
if (T.isKnownWindowsMSVCEnvironment()) {
VersionTuple Version = T.getEnvironmentVersion();
hasPartialC99 = (Version.getMajor() == 0 || Version.getMajor() >= 19);
}
// Latest targets support C89 math functions, in part.
bool isARM = (T.getArch() == Triple::aarch64 ||
T.getArch() == Triple::arm);
bool hasPartialFloat = (isARM ||
T.getArch() == Triple::x86_64);
// Win32 does not support float C89 math functions, in general.
if (!hasPartialFloat) {
TLI.setUnavailable(LibFunc_acosf);
TLI.setUnavailable(LibFunc_asinf);
TLI.setUnavailable(LibFunc_atan2f);
TLI.setUnavailable(LibFunc_atanf);
TLI.setUnavailable(LibFunc_ceilf);
TLI.setUnavailable(LibFunc_cosf);
TLI.setUnavailable(LibFunc_coshf);
TLI.setUnavailable(LibFunc_expf);
TLI.setUnavailable(LibFunc_floorf);
TLI.setUnavailable(LibFunc_fmodf);
TLI.setUnavailable(LibFunc_log10f);
TLI.setUnavailable(LibFunc_logf);
TLI.setUnavailable(LibFunc_modff);
TLI.setUnavailable(LibFunc_powf);
TLI.setUnavailable(LibFunc_remainderf);
TLI.setUnavailable(LibFunc_sinf);
TLI.setUnavailable(LibFunc_sinhf);
TLI.setUnavailable(LibFunc_sqrtf);
TLI.setUnavailable(LibFunc_tanf);
TLI.setUnavailable(LibFunc_tanhf);
}
if (!isARM)
TLI.setUnavailable(LibFunc_fabsf);
TLI.setUnavailable(LibFunc_frexpf);
TLI.setUnavailable(LibFunc_ldexpf);
// Win32 does not support long double C89 math functions.
TLI.setUnavailable(LibFunc_acosl);
TLI.setUnavailable(LibFunc_asinl);
TLI.setUnavailable(LibFunc_atan2l);
TLI.setUnavailable(LibFunc_atanl);
TLI.setUnavailable(LibFunc_ceill);
TLI.setUnavailable(LibFunc_cosl);
TLI.setUnavailable(LibFunc_coshl);
TLI.setUnavailable(LibFunc_expl);
TLI.setUnavailable(LibFunc_fabsl);
TLI.setUnavailable(LibFunc_floorl);
TLI.setUnavailable(LibFunc_fmodl);
TLI.setUnavailable(LibFunc_frexpl);
TLI.setUnavailable(LibFunc_ldexpl);
TLI.setUnavailable(LibFunc_log10l);
TLI.setUnavailable(LibFunc_logl);
TLI.setUnavailable(LibFunc_modfl);
TLI.setUnavailable(LibFunc_powl);
TLI.setUnavailable(LibFunc_remainderl);
TLI.setUnavailable(LibFunc_sinl);
TLI.setUnavailable(LibFunc_sinhl);
TLI.setUnavailable(LibFunc_sqrtl);
TLI.setUnavailable(LibFunc_tanl);
TLI.setUnavailable(LibFunc_tanhl);
// Win32 does not fully support C99 math functions.
if (!hasPartialC99) {
TLI.setUnavailable(LibFunc_acosh);
TLI.setUnavailable(LibFunc_acoshf);
TLI.setUnavailable(LibFunc_asinh);
TLI.setUnavailable(LibFunc_asinhf);
TLI.setUnavailable(LibFunc_atanh);
TLI.setUnavailable(LibFunc_atanhf);
TLI.setAvailableWithName(LibFunc_cabs, "_cabs");
TLI.setUnavailable(LibFunc_cabsf);
TLI.setUnavailable(LibFunc_cbrt);
TLI.setUnavailable(LibFunc_cbrtf);
TLI.setAvailableWithName(LibFunc_copysign, "_copysign");
TLI.setAvailableWithName(LibFunc_copysignf, "_copysignf");
TLI.setUnavailable(LibFunc_exp2);
TLI.setUnavailable(LibFunc_exp2f);
TLI.setUnavailable(LibFunc_expm1);
TLI.setUnavailable(LibFunc_expm1f);
TLI.setUnavailable(LibFunc_fmax);
TLI.setUnavailable(LibFunc_fmaxf);
TLI.setUnavailable(LibFunc_fmin);
TLI.setUnavailable(LibFunc_fminf);
TLI.setUnavailable(LibFunc_log1p);
TLI.setUnavailable(LibFunc_log1pf);
TLI.setUnavailable(LibFunc_log2);
TLI.setUnavailable(LibFunc_log2f);
TLI.setAvailableWithName(LibFunc_logb, "_logb");
if (hasPartialFloat)
TLI.setAvailableWithName(LibFunc_logbf, "_logbf");
else
TLI.setUnavailable(LibFunc_logbf);
TLI.setUnavailable(LibFunc_rint);
TLI.setUnavailable(LibFunc_rintf);
TLI.setUnavailable(LibFunc_round);
TLI.setUnavailable(LibFunc_roundf);
TLI.setUnavailable(LibFunc_trunc);
TLI.setUnavailable(LibFunc_truncf);
}
// Win32 does not support long double C99 math functions.
TLI.setUnavailable(LibFunc_acoshl);
TLI.setUnavailable(LibFunc_asinhl);
TLI.setUnavailable(LibFunc_atanhl);
TLI.setUnavailable(LibFunc_cabsl);
TLI.setUnavailable(LibFunc_cbrtl);
TLI.setUnavailable(LibFunc_copysignl);
TLI.setUnavailable(LibFunc_exp2l);
TLI.setUnavailable(LibFunc_expm1l);
TLI.setUnavailable(LibFunc_fmaxl);
TLI.setUnavailable(LibFunc_fminl);
TLI.setUnavailable(LibFunc_log1pl);
TLI.setUnavailable(LibFunc_log2l);
TLI.setUnavailable(LibFunc_logbl);
TLI.setUnavailable(LibFunc_nearbyintl);
TLI.setUnavailable(LibFunc_rintl);
TLI.setUnavailable(LibFunc_roundl);
TLI.setUnavailable(LibFunc_truncl);
// Win32 does not support these functions, but
// they are generally available on POSIX-compliant systems.
TLI.setUnavailable(LibFunc_access);
TLI.setUnavailable(LibFunc_chmod);
TLI.setUnavailable(LibFunc_closedir);
TLI.setUnavailable(LibFunc_fdopen);
TLI.setUnavailable(LibFunc_fileno);
TLI.setUnavailable(LibFunc_fseeko);
TLI.setUnavailable(LibFunc_fstat);
TLI.setUnavailable(LibFunc_ftello);
TLI.setUnavailable(LibFunc_gettimeofday);
TLI.setUnavailable(LibFunc_memccpy);
TLI.setUnavailable(LibFunc_mkdir);
TLI.setUnavailable(LibFunc_open);
TLI.setUnavailable(LibFunc_opendir);
TLI.setUnavailable(LibFunc_pclose);
TLI.setUnavailable(LibFunc_popen);
TLI.setUnavailable(LibFunc_read);
TLI.setUnavailable(LibFunc_rmdir);
TLI.setUnavailable(LibFunc_stat);
TLI.setUnavailable(LibFunc_strcasecmp);
TLI.setUnavailable(LibFunc_strncasecmp);
TLI.setUnavailable(LibFunc_unlink);
TLI.setUnavailable(LibFunc_utime);
TLI.setUnavailable(LibFunc_write);
}
if (T.isOSWindows() && !T.isWindowsCygwinEnvironment()) {
// These functions aren't available in either MSVC or MinGW environments.
TLI.setUnavailable(LibFunc_bcmp);
TLI.setUnavailable(LibFunc_bcopy);
TLI.setUnavailable(LibFunc_bzero);
TLI.setUnavailable(LibFunc_chown);
TLI.setUnavailable(LibFunc_ctermid);
TLI.setUnavailable(LibFunc_ffs);
TLI.setUnavailable(LibFunc_flockfile);
TLI.setUnavailable(LibFunc_fstatvfs);
TLI.setUnavailable(LibFunc_ftrylockfile);
TLI.setUnavailable(LibFunc_funlockfile);
TLI.setUnavailable(LibFunc_getitimer);
TLI.setUnavailable(LibFunc_getlogin_r);
TLI.setUnavailable(LibFunc_getpwnam);
TLI.setUnavailable(LibFunc_htonl);
TLI.setUnavailable(LibFunc_htons);
TLI.setUnavailable(LibFunc_lchown);
TLI.setUnavailable(LibFunc_lstat);
TLI.setUnavailable(LibFunc_memrchr);
TLI.setUnavailable(LibFunc_ntohl);
TLI.setUnavailable(LibFunc_ntohs);
TLI.setUnavailable(LibFunc_pread);
TLI.setUnavailable(LibFunc_pwrite);
TLI.setUnavailable(LibFunc_readlink);
TLI.setUnavailable(LibFunc_realpath);
TLI.setUnavailable(LibFunc_setitimer);
TLI.setUnavailable(LibFunc_statvfs);
TLI.setUnavailable(LibFunc_stpcpy);
TLI.setUnavailable(LibFunc_stpncpy);
TLI.setUnavailable(LibFunc_times);
TLI.setUnavailable(LibFunc_uname);
TLI.setUnavailable(LibFunc_unsetenv);
TLI.setUnavailable(LibFunc_utimes);
}
// Pick just one set of new/delete variants.
if (T.isOSMSVCRT()) {
// MSVC, doesn't have the Itanium new/delete.
TLI.setUnavailable(LibFunc_ZdaPv);
TLI.setUnavailable(LibFunc_ZdaPvRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZdaPvSt11align_val_t);
TLI.setUnavailable(LibFunc_ZdaPvSt11align_val_tRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZdaPvj);
TLI.setUnavailable(LibFunc_ZdaPvjSt11align_val_t);
TLI.setUnavailable(LibFunc_ZdaPvm);
TLI.setUnavailable(LibFunc_ZdaPvmSt11align_val_t);
TLI.setUnavailable(LibFunc_ZdlPv);
TLI.setUnavailable(LibFunc_ZdlPvRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZdlPvSt11align_val_t);
TLI.setUnavailable(LibFunc_ZdlPvSt11align_val_tRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZdlPvj);
TLI.setUnavailable(LibFunc_ZdlPvjSt11align_val_t);
TLI.setUnavailable(LibFunc_ZdlPvm);
TLI.setUnavailable(LibFunc_ZdlPvmSt11align_val_t);
TLI.setUnavailable(LibFunc_Znaj);
TLI.setUnavailable(LibFunc_ZnajRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZnajSt11align_val_t);
TLI.setUnavailable(LibFunc_ZnajSt11align_val_tRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_Znam);
TLI.setUnavailable(LibFunc_ZnamRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZnamSt11align_val_t);
TLI.setUnavailable(LibFunc_ZnamSt11align_val_tRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_Znwj);
TLI.setUnavailable(LibFunc_ZnwjRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZnwjSt11align_val_t);
TLI.setUnavailable(LibFunc_ZnwjSt11align_val_tRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_Znwm);
TLI.setUnavailable(LibFunc_ZnwmRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZnwmSt11align_val_t);
TLI.setUnavailable(LibFunc_ZnwmSt11align_val_tRKSt9nothrow_t);
} else {
// Not MSVC, assume it's Itanium.
TLI.setUnavailable(LibFunc_msvc_new_int);
TLI.setUnavailable(LibFunc_msvc_new_int_nothrow);
TLI.setUnavailable(LibFunc_msvc_new_longlong);
TLI.setUnavailable(LibFunc_msvc_new_longlong_nothrow);
TLI.setUnavailable(LibFunc_msvc_delete_ptr32);
TLI.setUnavailable(LibFunc_msvc_delete_ptr32_nothrow);
TLI.setUnavailable(LibFunc_msvc_delete_ptr32_int);
TLI.setUnavailable(LibFunc_msvc_delete_ptr64);
TLI.setUnavailable(LibFunc_msvc_delete_ptr64_nothrow);
TLI.setUnavailable(LibFunc_msvc_delete_ptr64_longlong);
TLI.setUnavailable(LibFunc_msvc_new_array_int);
TLI.setUnavailable(LibFunc_msvc_new_array_int_nothrow);
TLI.setUnavailable(LibFunc_msvc_new_array_longlong);
TLI.setUnavailable(LibFunc_msvc_new_array_longlong_nothrow);
TLI.setUnavailable(LibFunc_msvc_delete_array_ptr32);
TLI.setUnavailable(LibFunc_msvc_delete_array_ptr32_nothrow);
TLI.setUnavailable(LibFunc_msvc_delete_array_ptr32_int);
TLI.setUnavailable(LibFunc_msvc_delete_array_ptr64);
TLI.setUnavailable(LibFunc_msvc_delete_array_ptr64_nothrow);
TLI.setUnavailable(LibFunc_msvc_delete_array_ptr64_longlong);
}
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:
case Triple::TvOS:
case Triple::WatchOS:
TLI.setUnavailable(LibFunc_exp10l);
if (!T.isWatchOS() &&
(T.isOSVersionLT(7, 0) || (T.isOSVersionLT(9, 0) && T.isX86()))) {
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.
[[fallthrough]];
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/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::TvOS:
case Triple::WatchOS:
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/head/lib/libc/string/ffsll.c
// http://www.gnu.org/software/gnulib/manual/html_node/ffsll.html
switch (T.getOS()) {
case Triple::Darwin:
case Triple::MacOSX:
case Triple::IOS:
case Triple::TvOS:
case Triple::WatchOS:
case Triple::FreeBSD:
case Triple::Linux:
break;
default:
TLI.setUnavailable(LibFunc_ffsll);
}
// The following functions are available on at least FreeBSD:
// http://svn.freebsd.org/base/head/lib/libc/string/fls.c
// http://svn.freebsd.org/base/head/lib/libc/string/flsl.c
// http://svn.freebsd.org/base/head/lib/libc/string/flsll.c
if (!T.isOSFreeBSD()) {
TLI.setUnavailable(LibFunc_fls);
TLI.setUnavailable(LibFunc_flsl);
TLI.setUnavailable(LibFunc_flsll);
}
// The following functions are only available on GNU/Linux (using glibc).
// Linux variants without glibc (eg: bionic, musl) may have some subset.
if (!T.isOSLinux() || !T.isGNUEnvironment()) {
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);
// But, Android and musl have memalign.
if (!T.isAndroid() && !T.isMusl())
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);
// Relaxed math functions are included in math-finite.h on Linux (GLIBC).
// Note that math-finite.h is no longer supported by top-of-tree GLIBC,
// so we keep these functions around just so that they're recognized by
// the ConstantFolder.
TLI.setUnavailable(LibFunc_acos_finite);
TLI.setUnavailable(LibFunc_acosf_finite);
TLI.setUnavailable(LibFunc_acosl_finite);
TLI.setUnavailable(LibFunc_acosh_finite);
TLI.setUnavailable(LibFunc_acoshf_finite);
TLI.setUnavailable(LibFunc_acoshl_finite);
TLI.setUnavailable(LibFunc_asin_finite);
TLI.setUnavailable(LibFunc_asinf_finite);
TLI.setUnavailable(LibFunc_asinl_finite);
TLI.setUnavailable(LibFunc_atan2_finite);
TLI.setUnavailable(LibFunc_atan2f_finite);
TLI.setUnavailable(LibFunc_atan2l_finite);
TLI.setUnavailable(LibFunc_atanh_finite);
TLI.setUnavailable(LibFunc_atanhf_finite);
TLI.setUnavailable(LibFunc_atanhl_finite);
TLI.setUnavailable(LibFunc_cosh_finite);
TLI.setUnavailable(LibFunc_coshf_finite);
TLI.setUnavailable(LibFunc_coshl_finite);
TLI.setUnavailable(LibFunc_exp10_finite);
TLI.setUnavailable(LibFunc_exp10f_finite);
TLI.setUnavailable(LibFunc_exp10l_finite);
TLI.setUnavailable(LibFunc_exp2_finite);
TLI.setUnavailable(LibFunc_exp2f_finite);
TLI.setUnavailable(LibFunc_exp2l_finite);
TLI.setUnavailable(LibFunc_exp_finite);
TLI.setUnavailable(LibFunc_expf_finite);
TLI.setUnavailable(LibFunc_expl_finite);
TLI.setUnavailable(LibFunc_log10_finite);
TLI.setUnavailable(LibFunc_log10f_finite);
TLI.setUnavailable(LibFunc_log10l_finite);
TLI.setUnavailable(LibFunc_log2_finite);
TLI.setUnavailable(LibFunc_log2f_finite);
TLI.setUnavailable(LibFunc_log2l_finite);
TLI.setUnavailable(LibFunc_log_finite);
TLI.setUnavailable(LibFunc_logf_finite);
TLI.setUnavailable(LibFunc_logl_finite);
TLI.setUnavailable(LibFunc_pow_finite);
TLI.setUnavailable(LibFunc_powf_finite);
TLI.setUnavailable(LibFunc_powl_finite);
TLI.setUnavailable(LibFunc_sinh_finite);
TLI.setUnavailable(LibFunc_sinhf_finite);
TLI.setUnavailable(LibFunc_sinhl_finite);
TLI.setUnavailable(LibFunc_sqrt_finite);
TLI.setUnavailable(LibFunc_sqrtf_finite);
TLI.setUnavailable(LibFunc_sqrtl_finite);
}
if ((T.isOSLinux() && T.isGNUEnvironment()) ||
(T.isAndroid() && !T.isAndroidVersionLT(28))) {
// available IO unlocked variants on GNU/Linux and Android P or later
TLI.setAvailable(LibFunc_getc_unlocked);
TLI.setAvailable(LibFunc_getchar_unlocked);
TLI.setAvailable(LibFunc_putc_unlocked);
TLI.setAvailable(LibFunc_putchar_unlocked);
TLI.setAvailable(LibFunc_fputc_unlocked);
TLI.setAvailable(LibFunc_fgetc_unlocked);
TLI.setAvailable(LibFunc_fread_unlocked);
TLI.setAvailable(LibFunc_fwrite_unlocked);
TLI.setAvailable(LibFunc_fputs_unlocked);
TLI.setAvailable(LibFunc_fgets_unlocked);
}
if (T.isAndroid() && T.isAndroidVersionLT(21)) {
TLI.setUnavailable(LibFunc_stpcpy);
TLI.setUnavailable(LibFunc_stpncpy);
}
if (T.isPS()) {
// PS4/PS5 do have memalign.
TLI.setAvailable(LibFunc_memalign);
// PS4/PS5 do not have new/delete with "unsigned int" size parameter;
// they only have the "unsigned long" versions.
TLI.setUnavailable(LibFunc_ZdaPvj);
TLI.setUnavailable(LibFunc_ZdaPvjSt11align_val_t);
TLI.setUnavailable(LibFunc_ZdlPvj);
TLI.setUnavailable(LibFunc_ZdlPvjSt11align_val_t);
TLI.setUnavailable(LibFunc_Znaj);
TLI.setUnavailable(LibFunc_ZnajRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZnajSt11align_val_t);
TLI.setUnavailable(LibFunc_ZnajSt11align_val_tRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_Znwj);
TLI.setUnavailable(LibFunc_ZnwjRKSt9nothrow_t);
TLI.setUnavailable(LibFunc_ZnwjSt11align_val_t);
TLI.setUnavailable(LibFunc_ZnwjSt11align_val_tRKSt9nothrow_t);
// None of the *_chk functions.
TLI.setUnavailable(LibFunc_memccpy_chk);
TLI.setUnavailable(LibFunc_memcpy_chk);
TLI.setUnavailable(LibFunc_memmove_chk);
TLI.setUnavailable(LibFunc_mempcpy_chk);
TLI.setUnavailable(LibFunc_memset_chk);
TLI.setUnavailable(LibFunc_snprintf_chk);
TLI.setUnavailable(LibFunc_sprintf_chk);
TLI.setUnavailable(LibFunc_stpcpy_chk);
TLI.setUnavailable(LibFunc_stpncpy_chk);
TLI.setUnavailable(LibFunc_strcat_chk);
TLI.setUnavailable(LibFunc_strcpy_chk);
TLI.setUnavailable(LibFunc_strlcat_chk);
TLI.setUnavailable(LibFunc_strlcpy_chk);
TLI.setUnavailable(LibFunc_strlen_chk);
TLI.setUnavailable(LibFunc_strncat_chk);
TLI.setUnavailable(LibFunc_strncpy_chk);
TLI.setUnavailable(LibFunc_vsnprintf_chk);
TLI.setUnavailable(LibFunc_vsprintf_chk);
// Various Posix system functions.
TLI.setUnavailable(LibFunc_access);
TLI.setUnavailable(LibFunc_chmod);
TLI.setUnavailable(LibFunc_chown);
TLI.setUnavailable(LibFunc_closedir);
TLI.setUnavailable(LibFunc_ctermid);
TLI.setUnavailable(LibFunc_execl);
TLI.setUnavailable(LibFunc_execle);
TLI.setUnavailable(LibFunc_execlp);
TLI.setUnavailable(LibFunc_execv);
TLI.setUnavailable(LibFunc_execvP);
TLI.setUnavailable(LibFunc_execve);
TLI.setUnavailable(LibFunc_execvp);
TLI.setUnavailable(LibFunc_execvpe);
TLI.setUnavailable(LibFunc_fork);
TLI.setUnavailable(LibFunc_fstat);
TLI.setUnavailable(LibFunc_fstatvfs);
TLI.setUnavailable(LibFunc_getenv);
TLI.setUnavailable(LibFunc_getitimer);
TLI.setUnavailable(LibFunc_getlogin_r);
TLI.setUnavailable(LibFunc_getpwnam);
TLI.setUnavailable(LibFunc_gettimeofday);
TLI.setUnavailable(LibFunc_lchown);
TLI.setUnavailable(LibFunc_lstat);
TLI.setUnavailable(LibFunc_mkdir);
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_rename);
TLI.setUnavailable(LibFunc_rmdir);
TLI.setUnavailable(LibFunc_setitimer);
TLI.setUnavailable(LibFunc_stat);
TLI.setUnavailable(LibFunc_statvfs);
TLI.setUnavailable(LibFunc_system);
TLI.setUnavailable(LibFunc_times);
TLI.setUnavailable(LibFunc_tmpfile);
TLI.setUnavailable(LibFunc_unlink);
TLI.setUnavailable(LibFunc_uname);
TLI.setUnavailable(LibFunc_unsetenv);
TLI.setUnavailable(LibFunc_utime);
TLI.setUnavailable(LibFunc_utimes);
TLI.setUnavailable(LibFunc_valloc);
TLI.setUnavailable(LibFunc_write);
// Miscellaneous other functions not provided.
TLI.setUnavailable(LibFunc_atomic_load);
TLI.setUnavailable(LibFunc_atomic_store);
TLI.setUnavailable(LibFunc___kmpc_alloc_shared);
TLI.setUnavailable(LibFunc___kmpc_free_shared);
TLI.setUnavailable(LibFunc_dunder_strndup);
TLI.setUnavailable(LibFunc_bcmp);
TLI.setUnavailable(LibFunc_bcopy);
TLI.setUnavailable(LibFunc_bzero);
TLI.setUnavailable(LibFunc_cabs);
TLI.setUnavailable(LibFunc_cabsf);
TLI.setUnavailable(LibFunc_cabsl);
TLI.setUnavailable(LibFunc_ffs);
TLI.setUnavailable(LibFunc_flockfile);
TLI.setUnavailable(LibFunc_fseeko);
TLI.setUnavailable(LibFunc_ftello);
TLI.setUnavailable(LibFunc_ftrylockfile);
TLI.setUnavailable(LibFunc_funlockfile);
TLI.setUnavailable(LibFunc_htonl);
TLI.setUnavailable(LibFunc_htons);
TLI.setUnavailable(LibFunc_isascii);
TLI.setUnavailable(LibFunc_memccpy);
TLI.setUnavailable(LibFunc_mempcpy);
TLI.setUnavailable(LibFunc_memrchr);
TLI.setUnavailable(LibFunc_ntohl);
TLI.setUnavailable(LibFunc_ntohs);
TLI.setUnavailable(LibFunc_reallocf);
TLI.setUnavailable(LibFunc_roundeven);
TLI.setUnavailable(LibFunc_roundevenf);
TLI.setUnavailable(LibFunc_roundevenl);
TLI.setUnavailable(LibFunc_stpcpy);
TLI.setUnavailable(LibFunc_stpncpy);
TLI.setUnavailable(LibFunc_strlcat);
TLI.setUnavailable(LibFunc_strlcpy);
TLI.setUnavailable(LibFunc_strndup);
TLI.setUnavailable(LibFunc_strnlen);
TLI.setUnavailable(LibFunc_toascii);
}
// As currently implemented in clang, NVPTX code has no standard library to
// speak of. Headers provide a standard-ish library implementation, but many
// of the signatures are wrong -- for example, many libm functions are not
// extern "C".
//
// libdevice, an IR library provided by nvidia, is linked in by the front-end,
// but only used functions are provided to llvm. Moreover, most of the
// functions in libdevice don't map precisely to standard library functions.
//
// FIXME: Having no standard library prevents e.g. many fastmath
// optimizations, so this situation should be fixed.
if (T.isNVPTX()) {
TLI.disableAllFunctions();
TLI.setAvailable(LibFunc_nvvm_reflect);
TLI.setAvailable(llvm::LibFunc_malloc);
TLI.setAvailable(llvm::LibFunc_free);
// TODO: We could enable the following two according to [0] but we haven't
// done an evaluation wrt. the performance implications.
// [0]
// https://docs.nvidia.com/cuda/cuda-c-programming-guide/index.html#dynamic-global-memory-allocation-and-operations
//
// TLI.setAvailable(llvm::LibFunc_memcpy);
// TLI.setAvailable(llvm::LibFunc_memset);
TLI.setAvailable(llvm::LibFunc___kmpc_alloc_shared);
TLI.setAvailable(llvm::LibFunc___kmpc_free_shared);
} else {
TLI.setUnavailable(LibFunc_nvvm_reflect);
}
// These vec_malloc/free routines are only available on AIX.
if (!T.isOSAIX()) {
TLI.setUnavailable(LibFunc_vec_calloc);
TLI.setUnavailable(LibFunc_vec_malloc);
TLI.setUnavailable(LibFunc_vec_realloc);
TLI.setUnavailable(LibFunc_vec_free);
}
TLI.addVectorizableFunctionsFromVecLib(ClVectorLibrary, T);
}
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), ShouldExtI32Param(TLI.ShouldExtI32Param),
ShouldExtI32Return(TLI.ShouldExtI32Return),
ShouldSignExtI32Param(TLI.ShouldSignExtI32Param),
ShouldSignExtI32Return(TLI.ShouldSignExtI32Return),
SizeOfInt(TLI.SizeOfInt) {
memcpy(AvailableArray, TLI.AvailableArray, sizeof(AvailableArray));
VectorDescs = TLI.VectorDescs;
ScalarDescs = TLI.ScalarDescs;
}
TargetLibraryInfoImpl::TargetLibraryInfoImpl(TargetLibraryInfoImpl &&TLI)
: CustomNames(std::move(TLI.CustomNames)),
ShouldExtI32Param(TLI.ShouldExtI32Param),
ShouldExtI32Return(TLI.ShouldExtI32Return),
ShouldSignExtI32Param(TLI.ShouldSignExtI32Param),
ShouldSignExtI32Return(TLI.ShouldSignExtI32Return),
SizeOfInt(TLI.SizeOfInt) {
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;
ShouldExtI32Param = TLI.ShouldExtI32Param;
ShouldExtI32Return = TLI.ShouldExtI32Return;
ShouldSignExtI32Param = TLI.ShouldSignExtI32Param;
ShouldSignExtI32Return = TLI.ShouldSignExtI32Return;
SizeOfInt = TLI.SizeOfInt;
memcpy(AvailableArray, TLI.AvailableArray, sizeof(AvailableArray));
return *this;
}
TargetLibraryInfoImpl &TargetLibraryInfoImpl::operator=(TargetLibraryInfoImpl &&TLI) {
CustomNames = std::move(TLI.CustomNames);
ShouldExtI32Param = TLI.ShouldExtI32Param;
ShouldExtI32Return = TLI.ShouldExtI32Return;
ShouldSignExtI32Param = TLI.ShouldSignExtI32Param;
ShouldSignExtI32Return = TLI.ShouldSignExtI32Return;
SizeOfInt = TLI.SizeOfInt;
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.contains('\0'))
return StringRef();
// Check for \01 prefix that is used to mangle __asm declarations and
// strip it if present.
return GlobalValue::dropLLVMManglingEscape(funcName);
}
bool TargetLibraryInfoImpl::getLibFunc(StringRef funcName, LibFunc &F) const {
funcName = sanitizeFunctionName(funcName);
if (funcName.empty())
return false;
const auto *Start = std::begin(StandardNames);
const auto *End = std::end(StandardNames);
const auto *I = std::lower_bound(Start, End, funcName);
if (I != End && *I == funcName) {
F = (LibFunc)(I - Start);
return true;
}
return false;
}
// Return true if ArgTy matches Ty.
static bool matchType(FuncArgTypeID ArgTy, const Type *Ty, unsigned IntBits,
unsigned SizeTBits) {
switch (ArgTy) {
case Void:
return Ty->isVoidTy();
case Bool:
return Ty->isIntegerTy(8);
case Int16:
return Ty->isIntegerTy(16);
case Int32:
return Ty->isIntegerTy(32);
case Int:
return Ty->isIntegerTy(IntBits);
case IntPlus:
return Ty->isIntegerTy() && Ty->getPrimitiveSizeInBits() >= IntBits;
case IntX:
return Ty->isIntegerTy();
case Long:
// TODO: Figure out and use long size.
return Ty->isIntegerTy() && Ty->getPrimitiveSizeInBits() >= IntBits;
case Int64:
return Ty->isIntegerTy(64);
case LLong:
return Ty->isIntegerTy(64);
case SizeT:
case SSizeT:
return Ty->isIntegerTy(SizeTBits);
case Flt:
return Ty->isFloatTy();
case Dbl:
return Ty->isDoubleTy();
// TODO: Tighten this up.
case LDbl:
return Ty->isFloatingPointTy();
case Floating:
return Ty->isFloatingPointTy();
case Ptr:
return Ty->isPointerTy();
case Struct:
return Ty->isStructTy();
default:
break;
}
llvm_unreachable("Invalid type");
}
bool TargetLibraryInfoImpl::isValidProtoForLibFunc(const FunctionType &FTy,
LibFunc F,
const Module &M) const {
unsigned NumParams = FTy.getNumParams();
switch (F) {
// Special handling for <complex.h> functions:
case LibFunc_cabs:
case LibFunc_cabsf:
case LibFunc_cabsl: {
Type *RetTy = FTy.getReturnType();
if (!RetTy->isFloatingPointTy())
return false;
Type *ParamTy = FTy.getParamType(0);
// NOTE: These prototypes are target specific and currently support
// "complex" passed as an array or discrete real & imaginary parameters.
// Add other calling conventions to enable libcall optimizations.
if (NumParams == 1)
return (ParamTy->isArrayTy() && ParamTy->getArrayNumElements() == 2 &&
ParamTy->getArrayElementType() == RetTy);
else if (NumParams == 2)
return ParamTy == RetTy && FTy.getParamType(1) == RetTy;
return false;
}
// Special handling for the sincospi functions that return either
// a struct or vector:
case LibFunc_sincospi_stret:
case LibFunc_sincospif_stret: {
if (NumParams != 1)
return false;
Type *RetTy = FTy.getReturnType();
Type *ParamTy = FTy.getParamType(0);
if (auto *Ty = dyn_cast<StructType>(RetTy)) {
if (Ty->getNumElements() != 2)
return false;
return (Ty->getElementType(0) == ParamTy &&
Ty->getElementType(1) == ParamTy);
}
if (auto *Ty = dyn_cast<FixedVectorType>(RetTy)) {
if (Ty->getNumElements() != 2)
return false;
return Ty->getElementType() == ParamTy;
}
return false;
}
default:
break;
}
unsigned IntBits = getIntSize();
unsigned SizeTBits = getSizeTSize(M);
unsigned Idx = 0;
// Iterate over the type ids in the function prototype, matching each
// against the function's type FTy, starting with its return type.
// Return true if both match in number and kind, inclduing the ellipsis.
Type *Ty = FTy.getReturnType(), *LastTy = Ty;
const auto &ProtoTypes = Signatures[F];
for (auto TyID : ProtoTypes) {
if (Idx && TyID == Void)
// Except in the first position where it designates the function's
// return type Void ends the argument list.
break;
if (TyID == Ellip) {
// The ellipsis ends the protoype list but is not a part of FTy's
// argument list. Except when it's last it must be followed by
// Void.
assert(Idx == ProtoTypes.size() - 1 || ProtoTypes[Idx + 1] == Void);
return FTy.isFunctionVarArg();
}
if (TyID == Same) {
assert(Idx != 0 && "Type ID 'Same' must not be first!");
if (Ty != LastTy)
return false;
} else {
if (!Ty || !matchType(TyID, Ty, IntBits, SizeTBits))
return false;
LastTy = Ty;
}
if (Idx == NumParams) {
// There's at least one and at most two more type ids than there are
// arguments in FTy's argument list.
Ty = nullptr;
++Idx;
continue;
}
Ty = FTy.getParamType(Idx++);
}
// Return success only if all entries on both lists have been processed
// and the function is not a variadic one.
return Idx == NumParams + 1 && !FTy.isFunctionVarArg();
}
bool TargetLibraryInfoImpl::getLibFunc(const Function &FDecl,
LibFunc &F) const {
// Intrinsics don't overlap w/libcalls; if our module has a large number of
// intrinsics, this ends up being an interesting compile time win since we
// avoid string normalization and comparison.
if (FDecl.isIntrinsic()) return false;
const Module *M = FDecl.getParent();
assert(M && "Expecting FDecl to be connected to a Module.");
return getLibFunc(FDecl.getName(), F) &&
isValidProtoForLibFunc(*FDecl.getFunctionType(), F, *M);
}
void TargetLibraryInfoImpl::disableAllFunctions() {
memset(AvailableArray, 0, sizeof(AvailableArray));
}
static bool compareByScalarFnName(const VecDesc &LHS, const VecDesc &RHS) {
return LHS.ScalarFnName < RHS.ScalarFnName;
}
static bool compareByVectorFnName(const VecDesc &LHS, const VecDesc &RHS) {
return LHS.VectorFnName < RHS.VectorFnName;
}
static bool compareWithScalarFnName(const VecDesc &LHS, StringRef S) {
return LHS.ScalarFnName < S;
}
void TargetLibraryInfoImpl::addVectorizableFunctions(ArrayRef<VecDesc> Fns) {
llvm::append_range(VectorDescs, Fns);
llvm::sort(VectorDescs, compareByScalarFnName);
llvm::append_range(ScalarDescs, Fns);
llvm::sort(ScalarDescs, compareByVectorFnName);
}
void TargetLibraryInfoImpl::addVectorizableFunctionsFromVecLib(
enum VectorLibrary VecLib, const llvm::Triple &TargetTriple) {
switch (VecLib) {
case Accelerate: {
const VecDesc VecFuncs[] = {
#define TLI_DEFINE_ACCELERATE_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
addVectorizableFunctions(VecFuncs);
break;
}
case DarwinLibSystemM: {
const VecDesc VecFuncs[] = {
#define TLI_DEFINE_DARWIN_LIBSYSTEM_M_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
addVectorizableFunctions(VecFuncs);
break;
}
case LIBMVEC_X86: {
const VecDesc VecFuncs[] = {
#define TLI_DEFINE_LIBMVEC_X86_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
addVectorizableFunctions(VecFuncs);
break;
}
case MASSV: {
const VecDesc VecFuncs[] = {
#define TLI_DEFINE_MASSV_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
addVectorizableFunctions(VecFuncs);
break;
}
case SVML: {
const VecDesc VecFuncs[] = {
#define TLI_DEFINE_SVML_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
addVectorizableFunctions(VecFuncs);
break;
}
case SLEEFGNUABI: {
const VecDesc VecFuncs_VF2[] = {
#define TLI_DEFINE_SLEEFGNUABI_VF2_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
const VecDesc VecFuncs_VF4[] = {
#define TLI_DEFINE_SLEEFGNUABI_VF4_VECFUNCS
#include "llvm/Analysis/VecFuncs.def"
};
switch (TargetTriple.getArch()) {
default:
break;
case llvm::Triple::aarch64:
case llvm::Triple::aarch64_be:
addVectorizableFunctions(VecFuncs_VF2);
addVectorizableFunctions(VecFuncs_VF4);
break;
}
break;
}
case NoLibrary:
break;
}
}
bool TargetLibraryInfoImpl::isFunctionVectorizable(StringRef funcName) const {
funcName = sanitizeFunctionName(funcName);
if (funcName.empty())
return false;
std::vector<VecDesc>::const_iterator I =
llvm::lower_bound(VectorDescs, funcName, compareWithScalarFnName);
return I != VectorDescs.end() && StringRef(I->ScalarFnName) == funcName;
}
StringRef
TargetLibraryInfoImpl::getVectorizedFunction(StringRef F,
const ElementCount &VF) const {
F = sanitizeFunctionName(F);
if (F.empty())
return F;
std::vector<VecDesc>::const_iterator I =
llvm::lower_bound(VectorDescs, F, compareWithScalarFnName);
while (I != VectorDescs.end() && StringRef(I->ScalarFnName) == F) {
if (I->VectorizationFactor == VF)
return I->VectorFnName;
++I;
}
return StringRef();
}
TargetLibraryInfo TargetLibraryAnalysis::run(const Function &F,
FunctionAnalysisManager &) {
if (!BaselineInfoImpl)
BaselineInfoImpl =
TargetLibraryInfoImpl(Triple(F.getParent()->getTargetTriple()));
return TargetLibraryInfo(*BaselineInfoImpl, &F);
}
unsigned TargetLibraryInfoImpl::getWCharSize(const Module &M) const {
if (auto *ShortWChar = cast_or_null<ConstantAsMetadata>(
M.getModuleFlag("wchar_size")))
return cast<ConstantInt>(ShortWChar->getValue())->getZExtValue();
return 0;
}
unsigned TargetLibraryInfoImpl::getSizeTSize(const Module &M) const {
// There is really no guarantee that sizeof(size_t) is equal to sizeof(int*).
// If that isn't true then it should be possible to derive the SizeTTy from
// the target triple here instead and do an early return.
// Historically LLVM assume that size_t has same size as intptr_t (hence
// deriving the size from sizeof(int*) in address space zero). This should
// work for most targets. For future consideration: DataLayout also implement
// getIndexSizeInBits which might map better to size_t compared to
// getPointerSizeInBits. Hard coding address space zero here might be
// unfortunate as well. Maybe getDefaultGlobalsAddressSpace() or
// getAllocaAddrSpace() is better.
unsigned AddressSpace = 0;
return M.getDataLayout().getPointerSizeInBits(AddressSpace);
}
TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass()
: ImmutablePass(ID), TLA(TargetLibraryInfoImpl()) {
initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
}
TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass(const Triple &T)
: ImmutablePass(ID), TLA(TargetLibraryInfoImpl(T)) {
initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
}
TargetLibraryInfoWrapperPass::TargetLibraryInfoWrapperPass(
const TargetLibraryInfoImpl &TLIImpl)
: ImmutablePass(ID), TLA(TLIImpl) {
initializeTargetLibraryInfoWrapperPassPass(*PassRegistry::getPassRegistry());
}
AnalysisKey TargetLibraryAnalysis::Key;
// Register the basic pass.
INITIALIZE_PASS(TargetLibraryInfoWrapperPass, "targetlibinfo",
"Target Library Information", false, true)
char TargetLibraryInfoWrapperPass::ID = 0;
void TargetLibraryInfoWrapperPass::anchor() {}
void TargetLibraryInfoImpl::getWidestVF(StringRef ScalarF,
ElementCount &FixedVF,
ElementCount &ScalableVF) const {
ScalarF = sanitizeFunctionName(ScalarF);
// Use '0' here because a type of the form <vscale x 1 x ElTy> is not the
// same as a scalar.
ScalableVF = ElementCount::getScalable(0);
FixedVF = ElementCount::getFixed(1);
if (ScalarF.empty())
return;
std::vector<VecDesc>::const_iterator I =
llvm::lower_bound(VectorDescs, ScalarF, compareWithScalarFnName);
while (I != VectorDescs.end() && StringRef(I->ScalarFnName) == ScalarF) {
ElementCount *VF =
I->VectorizationFactor.isScalable() ? &ScalableVF : &FixedVF;
if (ElementCount::isKnownGT(I->VectorizationFactor, *VF))
*VF = I->VectorizationFactor;
++I;
}
}
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