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|
// RUN: llvm-tblgen -gen-runtime-libcalls -I %p/../../include %s | FileCheck %s
include "llvm/IR/RuntimeLibcallsImpl.td"
def SHL_I32 : RuntimeLibcall;
def SRL_I64 : RuntimeLibcall;
def SQRT_F128 : RuntimeLibcall;
def SQRT_F80 : RuntimeLibcall;
def BZERO : RuntimeLibcall;
def MEMCPY : RuntimeLibcall;
def MEMSET : RuntimeLibcall;
def CALLOC : RuntimeLibcall;
// Test default names.
let IsDefault = true in {
def __ashlsi3 : RuntimeLibcallImpl<SHL_I32>;
def __lshrdi3 : RuntimeLibcallImpl<SRL_I64>;
def sqrtl_f128 : RuntimeLibcallImpl<SQRT_F128, "sqrtl">;
def sqrtl_f80 : RuntimeLibcallImpl<SQRT_F80, "sqrtl">;
}
// Ignore non-default in initDefaultLibCallNames.
def bzero : RuntimeLibcallImpl<BZERO>;
def ___memset : RuntimeLibcallImpl<MEMSET, "___memset">;
def ___memcpy : RuntimeLibcallImpl<MEMCPY, "___memcpy">;
def calloc : RuntimeLibcallImpl<CALLOC, "calloc">;
def CompilerRTLibcalls : LibcallImpls<(add __ashlsi3, __lshrdi3)>;
def LibmLibcalls : LibcallImpls<(add sqrtl_f80)>;
def isSimpleArch : RuntimeLibcallPredicate<[{TT.getArch() == Triple::simple}]>;
def isFooArch : RuntimeLibcallPredicate<[{TT.getArch() == Triple::foo}]>;
def isZOS : RuntimeLibcallPredicate<[{TT.getOS() == Triple::zos}]>;
def isPPC : RuntimeLibcallPredicate<[{TT.getArch().isPPC()}]>;
def isPPC64 : RuntimeLibcallPredicate<[{TT.getArch().isPPC64()}]>;
def isFoo : RuntimeLibcallPredicate<[{isFOO()}]>;
def isBarOS : RuntimeLibcallPredicate<[{TT.getOS() == Triple::bar}]>;
def isBuzzArch : RuntimeLibcallPredicate<[{TT.getArch() == Triple::buzz}]>;
def isBlahArch : RuntimeLibcallPredicate<[{TT.getArch() == Triple::blah}]>;
def hasCompilerRT : RuntimeLibcallPredicate<[{TT.hasCompilerRT()}]>;
def SimpleLibrary : SystemRuntimeLibrary<isSimpleArch,
(add LibmLibcalls, calloc, CompilerRTLibcalls)>;
def LibraryWithConditionalFunc : LibcallImpls<(add sqrtl_f128, bzero, AvailableIf<___memset, isBarOS>)>;
def FooLibrary : SystemRuntimeLibrary<isFooArch, (add LibraryWithConditionalFunc)>;
def BuzzLibrary : SystemRuntimeLibrary<isBuzzArch, (add sqrtl_f80, CompilerRTLibcalls)>;
def LibraryWithConditionalSet : LibcallImpls<(add sqrtl_f128, bzero,
LibcallImpls<(add CompilerRTLibcalls), hasCompilerRT>)>;
def BlahLibrary : SystemRuntimeLibrary<isBlahArch, (add calloc, LibraryWithConditionalSet, AvailableIf<___memset, isBarOS>)>;
// All entries should be emitted in Libcall enum.
// CHECK: #ifdef GET_RUNTIME_LIBCALL_ENUM
// CHECK-NEXT: namespace llvm {
// CHECK-NEXT: namespace RTLIB {
// CHECK-NEXT: enum Libcall : unsigned short {
// CHECK-NEXT: BZERO = 0,
// CHECK-NEXT: CALLOC = 1,
// CHECK-NEXT: MEMCPY = 2,
// CHECK-NEXT: MEMSET = 3,
// CHECK-NEXT: SHL_I32 = 4,
// CHECK-NEXT: SQRT_F80 = 5,
// CHECK-NEXT: SQRT_F128 = 6,
// CHECK-NEXT: SRL_I64 = 7,
// CHECK-NEXT: UNKNOWN_LIBCALL = 8
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT:enum LibcallImpl : unsigned short {
// CHECK-NEXT: Unsupported = 0,
// CHECK-NEXT: ___memcpy = 1, // ___memcpy
// CHECK-NEXT: ___memset = 2, // ___memset
// CHECK-NEXT: __ashlsi3 = 3, // __ashlsi3
// CHECK-NEXT: __lshrdi3 = 4, // __lshrdi3
// CHECK-NEXT: bzero = 5, // bzero
// CHECK-NEXT: calloc = 6, // calloc
// CHECK-NEXT: sqrtl_f80 = 7, // sqrtl
// CHECK-NEXT: sqrtl_f128 = 8, // sqrtl
// CHECK-NEXT: NumLibcallImpls = 9
// CHECK-NEXT: };
// CHECK-NEXT: } // End namespace RTLIB
// CHECK-NEXT: } // End namespace llvm
// CHECK-NEXT: #endif
// CHECK: #ifdef GET_INIT_RUNTIME_LIBCALL_NAMES
// CHECK-NEXT: const RTLIB::LibcallImpl llvm::RTLIB::RuntimeLibcallsInfo::DefaultLibcallImpls[RTLIB::UNKNOWN_LIBCALL + 1] = {
// CHECK-NEXT: RTLIB::Unsupported, // RTLIB::BZERO
// CHECK-NEXT: RTLIB::Unsupported, // RTLIB::CALLOC
// CHECK-NEXT: RTLIB::Unsupported, // RTLIB::MEMCPY
// CHECK-NEXT: RTLIB::Unsupported, // RTLIB::MEMSET
// CHECK-NEXT: RTLIB::__ashlsi3, // RTLIB::SHL_I32
// CHECK-NEXT: RTLIB::sqrtl_f80, // RTLIB::SQRT_F80
// CHECK-NEXT: RTLIB::sqrtl_f128, // RTLIB::SQRT_F128
// CHECK-NEXT: RTLIB::__lshrdi3, // RTLIB::SRL_I64
// CHECK-NEXT: RTLIB::Unsupported
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: const char *const llvm::RTLIB::RuntimeLibcallsInfo::LibCallImplNames[RTLIB::NumLibcallImpls] = {
// CHECK-NEXT: nullptr, // RTLIB::Unsupported
// CHECK-NEXT: "___memcpy", // RTLIB::___memcpy
// CHECK-NEXT: "___memset", // RTLIB::___memset
// CHECK-NEXT: "__ashlsi3", // RTLIB::__ashlsi3
// CHECK-NEXT: "__lshrdi3", // RTLIB::__lshrdi3
// CHECK-NEXT: "bzero", // RTLIB::bzero
// CHECK-NEXT: "calloc", // RTLIB::calloc
// CHECK-NEXT: "sqrtl", // RTLIB::sqrtl_f80
// CHECK-NEXT: "sqrtl", // RTLIB::sqrtl_f128
// CHECK-NEXT: };
// CHECK: const RTLIB::Libcall llvm::RTLIB::RuntimeLibcallsInfo::ImplToLibcall[RTLIB::NumLibcallImpls] = {
// CHECK-NEXT: RTLIB::UNKNOWN_LIBCALL, // RTLIB::Unsupported
// CHECK-NEXT: RTLIB::MEMCPY, // RTLIB::___memcpy
// CHECK-NEXT: RTLIB::MEMSET, // RTLIB::___memset
// CHECK-NEXT: RTLIB::SHL_I32, // RTLIB::__ashlsi3
// CHECK-NEXT: RTLIB::SRL_I64, // RTLIB::__lshrdi3
// CHECK-NEXT: RTLIB::BZERO, // RTLIB::bzero
// CHECK-NEXT: RTLIB::CALLOC, // RTLIB::calloc
// CHECK-NEXT: RTLIB::SQRT_F80, // RTLIB::sqrtl_f80
// CHECK-NEXT: RTLIB::SQRT_F128, // RTLIB::sqrtl_f128
// CHECK-NEXT: };
// CHECK: void llvm::RTLIB::RuntimeLibcallsInfo::setTargetRuntimeLibcallSets(const llvm::Triple &TT, FloatABI::ABIType FloatABI) {
// CHECK-NEXT: struct LibcallImplPair {
// CHECK-NEXT: RTLIB::Libcall Func;
// CHECK-NEXT: RTLIB::LibcallImpl Impl;
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.getArch() == Triple::blah) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls[] = {
// CHECK-NEXT: {RTLIB::BZERO, RTLIB::bzero}, // bzero
// CHECK-NEXT: {RTLIB::CALLOC, RTLIB::calloc}, // calloc
// CHECK-NEXT: {RTLIB::SQRT_F128, RTLIB::sqrtl_f128}, // sqrtl
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.hasCompilerRT()) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls_hasCompilerRT[] = {
// CHECK-NEXT: {RTLIB::SHL_I32, RTLIB::__ashlsi3}, // __ashlsi3
// CHECK-NEXT: {RTLIB::SRL_I64, RTLIB::__lshrdi3}, // __lshrdi3
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls_hasCompilerRT) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.getOS() == Triple::bar) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls_isBarOS[] = {
// CHECK-NEXT: {RTLIB::MEMSET, RTLIB::___memset}, // ___memset
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls_isBarOS) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: return;
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.getArch() == Triple::buzz) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls[] = {
// CHECK-NEXT: {RTLIB::SHL_I32, RTLIB::__ashlsi3}, // __ashlsi3
// CHECK-NEXT: {RTLIB::SQRT_F80, RTLIB::sqrtl_f80}, // sqrtl
// CHECK-NEXT: {RTLIB::SRL_I64, RTLIB::__lshrdi3}, // __lshrdi3
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: return;
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.getArch() == Triple::foo) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls[] = {
// CHECK-NEXT: {RTLIB::BZERO, RTLIB::bzero}, // bzero
// CHECK-NEXT: {RTLIB::SQRT_F128, RTLIB::sqrtl_f128}, // sqrtl
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.getOS() == Triple::bar) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls_isBarOS[] = {
// CHECK-NEXT: {RTLIB::MEMSET, RTLIB::___memset}, // ___memset
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls_isBarOS) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: return;
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: if (TT.getArch() == Triple::simple) {
// CHECK-NEXT: static const LibcallImplPair LibraryCalls[] = {
// CHECK-NEXT: {RTLIB::CALLOC, RTLIB::calloc}, // calloc
// CHECK-NEXT: {RTLIB::SHL_I32, RTLIB::__ashlsi3}, // __ashlsi3
// CHECK-NEXT: {RTLIB::SQRT_F80, RTLIB::sqrtl_f80}, // sqrtl
// CHECK-NEXT: {RTLIB::SRL_I64, RTLIB::__lshrdi3}, // __lshrdi3
// CHECK-NEXT: };
// CHECK-EMPTY:
// CHECK-NEXT: for (const auto [Func, Impl] : LibraryCalls) {
// CHECK-NEXT: setLibcallImpl(Func, Impl);
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK-NEXT: return;
// CHECK-NEXT: }
// CHECK-NEXT: initDefaultLibCallImpls();
// CHECK-NEXT: }
// CHECK-EMPTY:
// CHECK: #endif
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