//===-- AMDGPULibFunc.h ----------------------------------------*- C++ -*--===// // // 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 // //===----------------------------------------------------------------------===// #ifndef _AMDGPU_LIBFUNC_H_ #define _AMDGPU_LIBFUNC_H_ #include "llvm/ADT/StringRef.h" #include namespace llvm { class FunctionCallee; class FunctionType; class Function; class Module; class Type; class AMDGPULibFuncBase { public: enum EFuncId { EI_NONE, // IMPORTANT: enums below should go in ascending by 1 value order // because they are used as indexes in the mangling rules table. // don't use explicit value assignment. // // There are two types of library functions: those with mangled // name and those with unmangled name. The enums for the library // functions with mangled name are defined before enums for the // library functions with unmangled name. The enum for the last // library function with mangled name is EI_LAST_MANGLED. // // Library functions with mangled name. EI_ABS, EI_ABS_DIFF, EI_ACOS, EI_ACOSH, EI_ACOSPI, EI_ADD_SAT, EI_ALL, EI_ANY, EI_ASIN, EI_ASINH, EI_ASINPI, EI_ASYNC_WORK_GROUP_COPY, EI_ASYNC_WORK_GROUP_STRIDED_COPY, EI_ATAN, EI_ATAN2, EI_ATAN2PI, EI_ATANH, EI_ATANPI, EI_ATOMIC_ADD, EI_ATOMIC_AND, EI_ATOMIC_CMPXCHG, EI_ATOMIC_DEC, EI_ATOMIC_INC, EI_ATOMIC_MAX, EI_ATOMIC_MIN, EI_ATOMIC_OR, EI_ATOMIC_SUB, EI_ATOMIC_XCHG, EI_ATOMIC_XOR, EI_BITSELECT, EI_CBRT, EI_CEIL, EI_CLAMP, EI_CLZ, EI_COMMIT_READ_PIPE, EI_COMMIT_WRITE_PIPE, EI_COPYSIGN, EI_COS, EI_COSH, EI_COSPI, EI_CROSS, EI_CTZ, EI_DEGREES, EI_DISTANCE, EI_DIVIDE, EI_DOT, EI_ERF, EI_ERFC, EI_EXP, EI_EXP10, EI_EXP2, EI_EXPM1, EI_FABS, EI_FAST_DISTANCE, EI_FAST_LENGTH, EI_FAST_NORMALIZE, EI_FDIM, EI_FLOOR, EI_FMA, EI_FMAX, EI_FMIN, EI_FMOD, EI_FRACT, EI_FREXP, EI_GET_IMAGE_ARRAY_SIZE, EI_GET_IMAGE_CHANNEL_DATA_TYPE, EI_GET_IMAGE_CHANNEL_ORDER, EI_GET_IMAGE_DIM, EI_GET_IMAGE_HEIGHT, EI_GET_IMAGE_WIDTH, EI_GET_PIPE_MAX_PACKETS, EI_GET_PIPE_NUM_PACKETS, EI_HADD, EI_HYPOT, EI_ILOGB, EI_ISEQUAL, EI_ISFINITE, EI_ISGREATER, EI_ISGREATEREQUAL, EI_ISINF, EI_ISLESS, EI_ISLESSEQUAL, EI_ISLESSGREATER, EI_ISNAN, EI_ISNORMAL, EI_ISNOTEQUAL, EI_ISORDERED, EI_ISUNORDERED, EI_LDEXP, EI_LENGTH, EI_LGAMMA, EI_LGAMMA_R, EI_LOG, EI_LOG10, EI_LOG1P, EI_LOG2, EI_LOGB, EI_MAD, EI_MAD24, EI_MAD_HI, EI_MAD_SAT, EI_MAX, EI_MAXMAG, EI_MIN, EI_MINMAG, EI_MIX, EI_MODF, EI_MUL24, EI_MUL_HI, EI_NAN, EI_NEXTAFTER, EI_NORMALIZE, EI_POPCOUNT, EI_POW, EI_POWN, EI_POWR, EI_PREFETCH, EI_RADIANS, EI_RECIP, EI_REMAINDER, EI_REMQUO, EI_RESERVE_READ_PIPE, EI_RESERVE_WRITE_PIPE, EI_RHADD, EI_RINT, EI_ROOTN, EI_ROTATE, EI_ROUND, EI_RSQRT, EI_SELECT, EI_SHUFFLE, EI_SHUFFLE2, EI_SIGN, EI_SIGNBIT, EI_SIN, EI_SINCOS, EI_SINH, EI_SINPI, EI_SMOOTHSTEP, EI_SQRT, EI_STEP, EI_SUB_GROUP_BROADCAST, EI_SUB_GROUP_COMMIT_READ_PIPE, EI_SUB_GROUP_COMMIT_WRITE_PIPE, EI_SUB_GROUP_REDUCE_ADD, EI_SUB_GROUP_REDUCE_MAX, EI_SUB_GROUP_REDUCE_MIN, EI_SUB_GROUP_RESERVE_READ_PIPE, EI_SUB_GROUP_RESERVE_WRITE_PIPE, EI_SUB_GROUP_SCAN_EXCLUSIVE_ADD, EI_SUB_GROUP_SCAN_EXCLUSIVE_MAX, EI_SUB_GROUP_SCAN_EXCLUSIVE_MIN, EI_SUB_GROUP_SCAN_INCLUSIVE_ADD, EI_SUB_GROUP_SCAN_INCLUSIVE_MAX, EI_SUB_GROUP_SCAN_INCLUSIVE_MIN, EI_SUB_SAT, EI_TAN, EI_TANH, EI_TANPI, EI_TGAMMA, EI_TRUNC, EI_UPSAMPLE, EI_VEC_STEP, EI_VSTORE, EI_VSTORE16, EI_VSTORE2, EI_VSTORE3, EI_VSTORE4, EI_VSTORE8, EI_WORK_GROUP_COMMIT_READ_PIPE, EI_WORK_GROUP_COMMIT_WRITE_PIPE, EI_WORK_GROUP_REDUCE_ADD, EI_WORK_GROUP_REDUCE_MAX, EI_WORK_GROUP_REDUCE_MIN, EI_WORK_GROUP_RESERVE_READ_PIPE, EI_WORK_GROUP_RESERVE_WRITE_PIPE, EI_WORK_GROUP_SCAN_EXCLUSIVE_ADD, EI_WORK_GROUP_SCAN_EXCLUSIVE_MAX, EI_WORK_GROUP_SCAN_EXCLUSIVE_MIN, EI_WORK_GROUP_SCAN_INCLUSIVE_ADD, EI_WORK_GROUP_SCAN_INCLUSIVE_MAX, EI_WORK_GROUP_SCAN_INCLUSIVE_MIN, EI_WRITE_IMAGEF, EI_WRITE_IMAGEI, EI_WRITE_IMAGEUI, EI_NCOS, EI_NEXP2, EI_NFMA, EI_NLOG2, EI_NRCP, EI_NRSQRT, EI_NSIN, EI_NSQRT, EI_FTZ, EI_FLDEXP, EI_CLASS, EI_RCBRT, EI_LAST_MANGLED = EI_RCBRT, /* The last library function with mangled name */ // Library functions with unmangled name. EI_READ_PIPE_2, EI_READ_PIPE_4, EI_WRITE_PIPE_2, EI_WRITE_PIPE_4, EX_INTRINSICS_COUNT }; enum ENamePrefix { NOPFX, NATIVE, HALF }; enum EType { B8 = 1, B16 = 2, B32 = 3, B64 = 4, SIZE_MASK = 7, FLOAT = 0x10, INT = 0x20, UINT = 0x30, BASE_TYPE_MASK = 0x30, U8 = UINT | B8, U16 = UINT | B16, U32 = UINT | B32, U64 = UINT | B64, I8 = INT | B8, I16 = INT | B16, I32 = INT | B32, I64 = INT | B64, F16 = FLOAT | B16, F32 = FLOAT | B32, F64 = FLOAT | B64, IMG1DA = 0x80, IMG1DB, IMG2DA, IMG1D, IMG2D, IMG3D, SAMPLER, EVENT, DUMMY }; enum EPtrKind { BYVALUE = 0, ADDR_SPACE = 0xF, // Address space takes value 0x1 ~ 0xF. CONST = 0x10, VOLATILE = 0x20 }; struct Param { unsigned char ArgType = 0; unsigned char VectorSize = 1; unsigned char PtrKind = 0; unsigned char Reserved = 0; void reset() { ArgType = 0; VectorSize = 1; PtrKind = 0; } static Param getIntN(unsigned char NumElts) { return Param{I32, NumElts, 0, 0}; } static Param getFromTy(Type *Ty, bool Signed); template void mangleItanium(Stream& os); }; static bool isMangled(EFuncId Id) { return static_cast(Id) <= static_cast(EI_LAST_MANGLED); } static unsigned getEPtrKindFromAddrSpace(unsigned AS) { assert(((AS + 1) & ~ADDR_SPACE) == 0); return AS + 1; } static unsigned getAddrSpaceFromEPtrKind(unsigned Kind) { Kind = Kind & ADDR_SPACE; assert(Kind >= 1); return Kind - 1; } }; class AMDGPULibFuncImpl : public AMDGPULibFuncBase { public: AMDGPULibFuncImpl() = default; virtual ~AMDGPULibFuncImpl() = default; /// Get unmangled name for mangled library function and name for unmangled /// library function. virtual std::string getName() const = 0; virtual unsigned getNumArgs() const = 0; EFuncId getId() const { return FuncId; } ENamePrefix getPrefix() const { return FKind; } bool isMangled() const { return AMDGPULibFuncBase::isMangled(FuncId); } void setId(EFuncId id) { FuncId = id; } virtual bool parseFuncName(StringRef &mangledName) = 0; /// \return The mangled function name for mangled library functions /// and unmangled function name for unmangled library functions. virtual std::string mangle() const = 0; void setName(StringRef N) { Name = std::string(N); } void setPrefix(ENamePrefix pfx) { FKind = pfx; } virtual FunctionType *getFunctionType(Module &M) const = 0; protected: EFuncId FuncId; std::string Name; ENamePrefix FKind = NOPFX; }; /// Wrapper class for AMDGPULIbFuncImpl class AMDGPULibFunc : public AMDGPULibFuncBase { public: explicit AMDGPULibFunc() : Impl(std::unique_ptr()) {} AMDGPULibFunc(const AMDGPULibFunc &F); /// Clone a mangled library func with the Id \p Id and argument info from \p /// CopyFrom. explicit AMDGPULibFunc(EFuncId Id, const AMDGPULibFunc &CopyFrom); explicit AMDGPULibFunc(EFuncId Id, FunctionType *FT, bool SignedInts); /// Construct an unmangled library function on the fly. explicit AMDGPULibFunc(StringRef FName, FunctionType *FT); AMDGPULibFunc &operator=(const AMDGPULibFunc &F); /// Get unmangled name for mangled library function and name for unmangled /// library function. std::string getName() const { return Impl->getName(); } unsigned getNumArgs() const { return Impl->getNumArgs(); } EFuncId getId() const { return Impl->getId(); } ENamePrefix getPrefix() const { return Impl->getPrefix(); } /// Get leading parameters for mangled lib functions. Param *getLeads(); const Param *getLeads() const; bool isMangled() const { return Impl->isMangled(); } void setId(EFuncId Id) { Impl->setId(Id); } bool parseFuncName(StringRef &MangledName) { return Impl->parseFuncName(MangledName); } // Validate the call type matches the expected libfunc type. bool isCompatibleSignature(const FunctionType *FuncTy) const; /// \return The mangled function name for mangled library functions /// and unmangled function name for unmangled library functions. std::string mangle() const { return Impl->mangle(); } void setName(StringRef N) { Impl->setName(N); } void setPrefix(ENamePrefix PFX) { Impl->setPrefix(PFX); } FunctionType *getFunctionType(Module &M) const { return Impl->getFunctionType(M); } static Function *getFunction(llvm::Module *M, const AMDGPULibFunc &fInfo); static FunctionCallee getOrInsertFunction(llvm::Module *M, const AMDGPULibFunc &fInfo); static bool parse(StringRef MangledName, AMDGPULibFunc &Ptr); private: /// Initialize as a mangled library function. void initMangled(); std::unique_ptr Impl; }; class AMDGPUMangledLibFunc : public AMDGPULibFuncImpl { public: Param Leads[2]; explicit AMDGPUMangledLibFunc(); explicit AMDGPUMangledLibFunc(EFuncId id, const AMDGPUMangledLibFunc ©From); explicit AMDGPUMangledLibFunc(EFuncId id, FunctionType *FT, bool SignedInts = true); std::string getName() const override; unsigned getNumArgs() const override; FunctionType *getFunctionType(Module &M) const override; static StringRef getUnmangledName(StringRef MangledName); bool parseFuncName(StringRef &mangledName) override; // Methods for support type inquiry through isa, cast, and dyn_cast: static bool classof(const AMDGPULibFuncImpl *F) { return F->isMangled(); } std::string mangle() const override; private: std::string mangleNameItanium() const; std::string mangleName(StringRef Name) const; bool parseUnmangledName(StringRef MangledName); template void writeName(Stream &OS) const; }; class AMDGPUUnmangledLibFunc : public AMDGPULibFuncImpl { FunctionType *FuncTy; public: explicit AMDGPUUnmangledLibFunc(); explicit AMDGPUUnmangledLibFunc(StringRef FName, FunctionType *FT) { Name = std::string(FName); FuncTy = FT; } std::string getName() const override { return Name; } unsigned getNumArgs() const override; FunctionType *getFunctionType(Module &M) const override { return FuncTy; } bool parseFuncName(StringRef &Name) override; // Methods for support type inquiry through isa, cast, and dyn_cast: static bool classof(const AMDGPULibFuncImpl *F) { return !F->isMangled(); } std::string mangle() const override { return Name; } void setFunctionType(FunctionType *FT) { FuncTy = FT; } }; } #endif // _AMDGPU_LIBFUNC_H_