//===-- AArch64SVEACLETypes.def - Metadata about SVE types ------*- 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 // //===----------------------------------------------------------------------===// // // This file defines various SVE builtin types. The macros are: // // SVE_TYPE: // - (Name, MangledName, Id, SingletonId) // A builtin type that has not been covered by any other #define. Defining // this macro covers all the builtin types. // // SVE_VECTOR_TYPE, SVE_PREDICATE_TYPE, SVE_OPAQUE_TYPE: // - (Name, MangledName, Id, SingletonId) // A builtin type that has not been covered by any other #define. Defining // this macro covers the named subset of builtin types. // // SVE_VECTOR_TYPE_INT // - (Name, MangledName, Id, SingletonId, NumEls, ElBits, NF, IsSigned) // Defining the macro covers the integer vector types. // // SVE_VECTOR_TYPE_FLOAT, SVE_VECTOR_TYPE_BFLOAT: // - (Name, MangledName, Id, SingletonId, NumEls, ElBits, NF) // Defining the macro covers the floating point vector types. // // SVE_PREDICATE_TYPE_ALL: // - (Name, MangledName, Id, SingletonId, NumEls, NF) // Defining the macro covers the boolean vector types. // // where: // // - Name is the name of the builtin type. // // - MangledName is the mangled name of the builtin type. // // - BuiltinType::Id is the enumerator defining the type. // // - Context.SingletonId is the global singleton of this type. // // - ElKind enumerates the type of the elements. // // - NumEls enumerates the number of the elements. // // - ElBits is the size of one element in bits. // // - NF enumerates the number of vectors whereby 1 implies a single vector, // with other values implying a struct of NF "NumEls x NumEls" vectors. // // - IsSigned is true for vectors of signed integer elements and // for vectors of floating-point elements. // // - IsFP is true for vectors of floating-point elements. // // - IsBF true for vector of brain float elements. //===----------------------------------------------------------------------===// #ifndef SVE_VECTOR_TYPE #define SVE_VECTOR_TYPE(Name, MangledName, Id, SingletonId) \ SVE_TYPE(Name, Id, SingletonId) #endif #ifndef SVE_VECTOR_TYPE_DETAILS #define SVE_VECTOR_TYPE_DETAILS(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF, IsSigned, IsFP, IsBF) \ SVE_VECTOR_TYPE(Name, MangledName, Id, SingletonId) #endif #ifndef SVE_VECTOR_TYPE_BFLOAT #define SVE_VECTOR_TYPE_BFLOAT(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF) \ SVE_VECTOR_TYPE_DETAILS(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF, false, false, true) #endif #ifndef SVE_VECTOR_TYPE_FLOAT #define SVE_VECTOR_TYPE_FLOAT(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF) \ SVE_VECTOR_TYPE_DETAILS(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF, false, true, false) #endif #ifndef SVE_VECTOR_TYPE_INT #define SVE_VECTOR_TYPE_INT(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF, IsSigned) \ SVE_VECTOR_TYPE_DETAILS(Name, MangledName, Id, SingletonId, NumEls, ElBits, NF, IsSigned, false, false) #endif #ifndef SVE_PREDICATE_TYPE #define SVE_PREDICATE_TYPE(Name, MangledName, Id, SingletonId) \ SVE_TYPE(Name, Id, SingletonId) #endif #ifndef SVE_PREDICATE_TYPE_ALL #define SVE_PREDICATE_TYPE_ALL(Name, MangledName, Id, SingletonId, NumEls, NF) \ SVE_PREDICATE_TYPE(Name, MangledName, Id, SingletonId) #endif #ifndef SVE_OPAQUE_TYPE #define SVE_OPAQUE_TYPE(Name, MangledName, Id, SingletonId) \ SVE_TYPE(Name, Id, SingletonId) #endif //===- Vector point types -----------------------------------------------===// SVE_VECTOR_TYPE_INT("__SVInt8_t", "__SVInt8_t", SveInt8, SveInt8Ty, 16, 8, 1, true) SVE_VECTOR_TYPE_INT("__SVInt16_t", "__SVInt16_t", SveInt16, SveInt16Ty, 8, 16, 1, true) SVE_VECTOR_TYPE_INT("__SVInt32_t", "__SVInt32_t", SveInt32, SveInt32Ty, 4, 32, 1, true) SVE_VECTOR_TYPE_INT("__SVInt64_t", "__SVInt64_t", SveInt64, SveInt64Ty, 2, 64, 1, true) SVE_VECTOR_TYPE_INT("__SVUint8_t", "__SVUint8_t", SveUint8, SveUint8Ty, 16, 8, 1, false) SVE_VECTOR_TYPE_INT("__SVUint16_t", "__SVUint16_t", SveUint16, SveUint16Ty, 8, 16, 1, false) SVE_VECTOR_TYPE_INT("__SVUint32_t", "__SVUint32_t", SveUint32, SveUint32Ty, 4, 32, 1, false) SVE_VECTOR_TYPE_INT("__SVUint64_t", "__SVUint64_t", SveUint64, SveUint64Ty, 2, 64, 1, false) SVE_VECTOR_TYPE_FLOAT("__SVFloat16_t", "__SVFloat16_t", SveFloat16, SveFloat16Ty, 8, 16, 1) SVE_VECTOR_TYPE_FLOAT("__SVFloat32_t", "__SVFloat32_t", SveFloat32, SveFloat32Ty, 4, 32, 1) SVE_VECTOR_TYPE_FLOAT("__SVFloat64_t", "__SVFloat64_t", SveFloat64, SveFloat64Ty, 2, 64, 1) SVE_VECTOR_TYPE_BFLOAT("__SVBfloat16_t", "__SVBfloat16_t", SveBFloat16, SveBFloat16Ty, 8, 16, 1) // // x2 // SVE_VECTOR_TYPE_INT("__clang_svint8x2_t", "svint8x2_t", SveInt8x2, SveInt8x2Ty, 16, 8, 2, true) SVE_VECTOR_TYPE_INT("__clang_svint16x2_t", "svint16x2_t", SveInt16x2, SveInt16x2Ty, 8, 16, 2, true) SVE_VECTOR_TYPE_INT("__clang_svint32x2_t", "svint32x2_t", SveInt32x2, SveInt32x2Ty, 4, 32, 2, true) SVE_VECTOR_TYPE_INT("__clang_svint64x2_t", "svint64x2_t", SveInt64x2, SveInt64x2Ty, 2, 64, 2, true) SVE_VECTOR_TYPE_INT("__clang_svuint8x2_t", "svuint8x2_t", SveUint8x2, SveUint8x2Ty, 16 , 8, 2, false) SVE_VECTOR_TYPE_INT("__clang_svuint16x2_t", "svuint16x2_t", SveUint16x2, SveUint16x2Ty, 8, 16, 2, false) SVE_VECTOR_TYPE_INT("__clang_svuint32x2_t", "svuint32x2_t", SveUint32x2, SveUint32x2Ty, 4, 32, 2, false) SVE_VECTOR_TYPE_INT("__clang_svuint64x2_t", "svuint64x2_t", SveUint64x2, SveUint64x2Ty, 2, 64, 2, false) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat16x2_t", "svfloat16x2_t", SveFloat16x2, SveFloat16x2Ty, 8, 16, 2) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat32x2_t", "svfloat32x2_t", SveFloat32x2, SveFloat32x2Ty, 4, 32, 2) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat64x2_t", "svfloat64x2_t", SveFloat64x2, SveFloat64x2Ty, 2, 64, 2) SVE_VECTOR_TYPE_BFLOAT("__clang_svbfloat16x2_t", "svbfloat16x2_t", SveBFloat16x2, SveBFloat16x2Ty, 8, 16, 2) // // x3 // SVE_VECTOR_TYPE_INT("__clang_svint8x3_t", "svint8x3_t", SveInt8x3, SveInt8x3Ty, 16, 8, 3, true) SVE_VECTOR_TYPE_INT("__clang_svint16x3_t", "svint16x3_t", SveInt16x3, SveInt16x3Ty, 8, 16, 3, true) SVE_VECTOR_TYPE_INT("__clang_svint32x3_t", "svint32x3_t", SveInt32x3, SveInt32x3Ty, 4, 32, 3, true) SVE_VECTOR_TYPE_INT("__clang_svint64x3_t", "svint64x3_t", SveInt64x3, SveInt64x3Ty, 2, 64, 3, true) SVE_VECTOR_TYPE_INT("__clang_svuint8x3_t", "svuint8x3_t", SveUint8x3, SveUint8x3Ty, 16, 8, 3, false) SVE_VECTOR_TYPE_INT("__clang_svuint16x3_t", "svuint16x3_t", SveUint16x3, SveUint16x3Ty, 8, 16, 3, false) SVE_VECTOR_TYPE_INT("__clang_svuint32x3_t", "svuint32x3_t", SveUint32x3, SveUint32x3Ty, 4, 32, 3, false) SVE_VECTOR_TYPE_INT("__clang_svuint64x3_t", "svuint64x3_t", SveUint64x3, SveUint64x3Ty, 2, 64, 3, false) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat16x3_t", "svfloat16x3_t", SveFloat16x3, SveFloat16x3Ty, 8, 16, 3) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat32x3_t", "svfloat32x3_t", SveFloat32x3, SveFloat32x3Ty, 4, 32, 3) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat64x3_t", "svfloat64x3_t", SveFloat64x3, SveFloat64x3Ty, 2, 64, 3) SVE_VECTOR_TYPE_BFLOAT("__clang_svbfloat16x3_t", "svbfloat16x3_t", SveBFloat16x3, SveBFloat16x3Ty, 8, 16, 3) // // x4 // SVE_VECTOR_TYPE_INT("__clang_svint8x4_t", "svint8x4_t", SveInt8x4, SveInt8x4Ty, 16, 8, 4, true) SVE_VECTOR_TYPE_INT("__clang_svint16x4_t", "svint16x4_t", SveInt16x4, SveInt16x4Ty, 8, 16, 4, true) SVE_VECTOR_TYPE_INT("__clang_svint32x4_t", "svint32x4_t", SveInt32x4, SveInt32x4Ty, 4, 32, 4, true) SVE_VECTOR_TYPE_INT("__clang_svint64x4_t", "svint64x4_t", SveInt64x4, SveInt64x4Ty, 2, 64, 4, true) SVE_VECTOR_TYPE_INT("__clang_svuint8x4_t", "svuint8x4_t", SveUint8x4, SveUint8x4Ty, 16, 8, 4, false) SVE_VECTOR_TYPE_INT("__clang_svuint16x4_t", "svuint16x4_t", SveUint16x4, SveUint16x4Ty, 8, 16, 4, false) SVE_VECTOR_TYPE_INT("__clang_svuint32x4_t", "svuint32x4_t", SveUint32x4, SveUint32x4Ty, 4, 32, 4, false) SVE_VECTOR_TYPE_INT("__clang_svuint64x4_t", "svuint64x4_t", SveUint64x4, SveUint64x4Ty, 2, 64, 4, false) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat16x4_t", "svfloat16x4_t", SveFloat16x4, SveFloat16x4Ty, 8, 16, 4) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat32x4_t", "svfloat32x4_t", SveFloat32x4, SveFloat32x4Ty, 4, 32, 4) SVE_VECTOR_TYPE_FLOAT("__clang_svfloat64x4_t", "svfloat64x4_t", SveFloat64x4, SveFloat64x4Ty, 2, 64, 4) SVE_VECTOR_TYPE_BFLOAT("__clang_svbfloat16x4_t", "svbfloat16x4_t", SveBFloat16x4, SveBFloat16x4Ty, 8, 16, 4) SVE_PREDICATE_TYPE_ALL("__SVBool_t", "__SVBool_t", SveBool, SveBoolTy, 16, 1) SVE_PREDICATE_TYPE_ALL("__clang_svboolx2_t", "svboolx2_t", SveBoolx2, SveBoolx2Ty, 16, 2) SVE_PREDICATE_TYPE_ALL("__clang_svboolx4_t", "svboolx4_t", SveBoolx4, SveBoolx4Ty, 16, 4) SVE_OPAQUE_TYPE("__SVCount_t", "__SVCount_t", SveCount, SveCountTy) #undef SVE_VECTOR_TYPE #undef SVE_VECTOR_TYPE_BFLOAT #undef SVE_VECTOR_TYPE_FLOAT #undef SVE_VECTOR_TYPE_INT #undef SVE_PREDICATE_TYPE #undef SVE_PREDICATE_TYPE_ALL #undef SVE_OPAQUE_TYPE #undef SVE_TYPE
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