#pragma once #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #endif //===- LLVMBitCodes.h - Enum values for the LLVM bitcode format -*- 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 header defines Bitcode enum values for LLVM IR bitcode files. // // The enum values defined in this file should be considered permanent. If // new features are added, they should have values added at the end of the // respective lists. // //===----------------------------------------------------------------------===// #ifndef LLVM_BITCODE_LLVMBITCODES_H #define LLVM_BITCODE_LLVMBITCODES_H // This is the only file included, and it, in turn, is a leaf header. // This allows external tools to dump the AST of this file and analyze it for // changes without needing to fully or partially build LLVM itself. #include "llvm/Bitstream/BitCodeEnums.h" namespace llvm { namespace bitc { // The only top-level block types are MODULE, IDENTIFICATION, STRTAB and SYMTAB. enum BlockIDs { // Blocks MODULE_BLOCK_ID = FIRST_APPLICATION_BLOCKID, // Module sub-block id's. PARAMATTR_BLOCK_ID, PARAMATTR_GROUP_BLOCK_ID, CONSTANTS_BLOCK_ID, FUNCTION_BLOCK_ID, // Block intended to contains information on the bitcode versioning. // Can be used to provide better error messages when we fail to parse a // bitcode file. IDENTIFICATION_BLOCK_ID, VALUE_SYMTAB_BLOCK_ID, METADATA_BLOCK_ID, METADATA_ATTACHMENT_ID, TYPE_BLOCK_ID_NEW, USELIST_BLOCK_ID, MODULE_STRTAB_BLOCK_ID, GLOBALVAL_SUMMARY_BLOCK_ID, OPERAND_BUNDLE_TAGS_BLOCK_ID, METADATA_KIND_BLOCK_ID, STRTAB_BLOCK_ID, FULL_LTO_GLOBALVAL_SUMMARY_BLOCK_ID, SYMTAB_BLOCK_ID, SYNC_SCOPE_NAMES_BLOCK_ID, }; /// Identification block contains a string that describes the producer details, /// and an epoch that defines the auto-upgrade capability. enum IdentificationCodes { IDENTIFICATION_CODE_STRING = 1, // IDENTIFICATION: [strchr x N] IDENTIFICATION_CODE_EPOCH = 2, // EPOCH: [epoch#] }; /// The epoch that defines the auto-upgrade compatibility for the bitcode. /// /// LLVM guarantees in a major release that a minor release can read bitcode /// generated by previous minor releases. We translate this by making the reader /// accepting only bitcode with the same epoch, except for the X.0 release which /// also accepts N-1. enum { BITCODE_CURRENT_EPOCH = 0 }; /// MODULE blocks have a number of optional fields and subblocks. enum ModuleCodes { MODULE_CODE_VERSION = 1, // VERSION: [version#] MODULE_CODE_TRIPLE = 2, // TRIPLE: [strchr x N] MODULE_CODE_DATALAYOUT = 3, // DATALAYOUT: [strchr x N] MODULE_CODE_ASM = 4, // ASM: [strchr x N] MODULE_CODE_SECTIONNAME = 5, // SECTIONNAME: [strchr x N] // Deprecated, but still needed to read old bitcode files. MODULE_CODE_DEPLIB = 6, // DEPLIB: [strchr x N] // GLOBALVAR: [pointer type, isconst, initid, // linkage, alignment, section, visibility, threadlocal] MODULE_CODE_GLOBALVAR = 7, // FUNCTION: [type, callingconv, isproto, linkage, paramattrs, alignment, // section, visibility, gc, unnamed_addr] MODULE_CODE_FUNCTION = 8, // ALIAS: [alias type, aliasee val#, linkage, visibility] MODULE_CODE_ALIAS_OLD = 9, MODULE_CODE_GCNAME = 11, // GCNAME: [strchr x N] MODULE_CODE_COMDAT = 12, // COMDAT: [selection_kind, name] MODULE_CODE_VSTOFFSET = 13, // VSTOFFSET: [offset] // ALIAS: [alias value type, addrspace, aliasee val#, linkage, visibility] MODULE_CODE_ALIAS = 14, MODULE_CODE_METADATA_VALUES_UNUSED = 15, // SOURCE_FILENAME: [namechar x N] MODULE_CODE_SOURCE_FILENAME = 16, // HASH: [5*i32] MODULE_CODE_HASH = 17, // IFUNC: [ifunc value type, addrspace, resolver val#, linkage, visibility] MODULE_CODE_IFUNC = 18, }; /// PARAMATTR blocks have code for defining a parameter attribute set. enum AttributeCodes { // Deprecated, but still needed to read old bitcode files. PARAMATTR_CODE_ENTRY_OLD = 1, // ENTRY: [paramidx0, attr0, // paramidx1, attr1...] PARAMATTR_CODE_ENTRY = 2, // ENTRY: [attrgrp0, attrgrp1, ...] PARAMATTR_GRP_CODE_ENTRY = 3 // ENTRY: [grpid, idx, attr0, attr1, ...] }; /// TYPE blocks have codes for each type primitive they use. enum TypeCodes { TYPE_CODE_NUMENTRY = 1, // NUMENTRY: [numentries] // Type Codes TYPE_CODE_VOID = 2, // VOID TYPE_CODE_FLOAT = 3, // FLOAT TYPE_CODE_DOUBLE = 4, // DOUBLE TYPE_CODE_LABEL = 5, // LABEL TYPE_CODE_OPAQUE = 6, // OPAQUE TYPE_CODE_INTEGER = 7, // INTEGER: [width] TYPE_CODE_POINTER = 8, // POINTER: [pointee type] TYPE_CODE_FUNCTION_OLD = 9, // FUNCTION: [vararg, attrid, retty, // paramty x N] TYPE_CODE_HALF = 10, // HALF TYPE_CODE_ARRAY = 11, // ARRAY: [numelts, eltty] TYPE_CODE_VECTOR = 12, // VECTOR: [numelts, eltty] // These are not with the other floating point types because they're // a late addition, and putting them in the right place breaks // binary compatibility. TYPE_CODE_X86_FP80 = 13, // X86 LONG DOUBLE TYPE_CODE_FP128 = 14, // LONG DOUBLE (112 bit mantissa) TYPE_CODE_PPC_FP128 = 15, // PPC LONG DOUBLE (2 doubles) TYPE_CODE_METADATA = 16, // METADATA TYPE_CODE_X86_MMX = 17, // X86 MMX TYPE_CODE_STRUCT_ANON = 18, // STRUCT_ANON: [ispacked, eltty x N] TYPE_CODE_STRUCT_NAME = 19, // STRUCT_NAME: [strchr x N] TYPE_CODE_STRUCT_NAMED = 20, // STRUCT_NAMED: [ispacked, eltty x N] TYPE_CODE_FUNCTION = 21, // FUNCTION: [vararg, retty, paramty x N] TYPE_CODE_TOKEN = 22, // TOKEN TYPE_CODE_BFLOAT = 23, // BRAIN FLOATING POINT TYPE_CODE_X86_AMX = 24, // X86 AMX TYPE_CODE_OPAQUE_POINTER = 25, // OPAQUE_POINTER: [addrspace] TYPE_CODE_TARGET_TYPE = 26, // TARGET_TYPE }; enum OperandBundleTagCode { OPERAND_BUNDLE_TAG = 1, // TAG: [strchr x N] }; enum SyncScopeNameCode { SYNC_SCOPE_NAME = 1, }; // Value symbol table codes. enum ValueSymtabCodes { VST_CODE_ENTRY = 1, // VST_ENTRY: [valueid, namechar x N] VST_CODE_BBENTRY = 2, // VST_BBENTRY: [bbid, namechar x N] VST_CODE_FNENTRY = 3, // VST_FNENTRY: [valueid, offset, namechar x N] // VST_COMBINED_ENTRY: [valueid, refguid] VST_CODE_COMBINED_ENTRY = 5 }; // The module path symbol table only has one code (MST_CODE_ENTRY). enum ModulePathSymtabCodes { MST_CODE_ENTRY = 1, // MST_ENTRY: [modid, namechar x N] MST_CODE_HASH = 2, // MST_HASH: [5*i32] }; // The summary section uses different codes in the per-module // and combined index cases. enum GlobalValueSummarySymtabCodes { // PERMODULE: [valueid, flags, instcount, numrefs, numrefs x valueid, // n x (valueid)] FS_PERMODULE = 1, // PERMODULE_PROFILE: [valueid, flags, instcount, numrefs, // numrefs x valueid, // n x (valueid, hotness)] FS_PERMODULE_PROFILE = 2, // PERMODULE_GLOBALVAR_INIT_REFS: [valueid, flags, n x valueid] FS_PERMODULE_GLOBALVAR_INIT_REFS = 3, // COMBINED: [valueid, modid, flags, instcount, numrefs, numrefs x valueid, // n x (valueid)] FS_COMBINED = 4, // COMBINED_PROFILE: [valueid, modid, flags, instcount, numrefs, // numrefs x valueid, // n x (valueid, hotness)] FS_COMBINED_PROFILE = 5, // COMBINED_GLOBALVAR_INIT_REFS: [valueid, modid, flags, n x valueid] FS_COMBINED_GLOBALVAR_INIT_REFS = 6, // ALIAS: [valueid, flags, valueid] FS_ALIAS = 7, // COMBINED_ALIAS: [valueid, modid, flags, valueid] FS_COMBINED_ALIAS = 8, // COMBINED_ORIGINAL_NAME: [original_name_hash] FS_COMBINED_ORIGINAL_NAME = 9, // VERSION of the summary, bumped when adding flags for instance. FS_VERSION = 10, // The list of llvm.type.test type identifiers used by the following function // that are used other than by an llvm.assume. // [n x typeid] FS_TYPE_TESTS = 11, // The list of virtual calls made by this function using // llvm.assume(llvm.type.test) intrinsics that do not have all constant // integer arguments. // [n x (typeid, offset)] FS_TYPE_TEST_ASSUME_VCALLS = 12, // The list of virtual calls made by this function using // llvm.type.checked.load intrinsics that do not have all constant integer // arguments. // [n x (typeid, offset)] FS_TYPE_CHECKED_LOAD_VCALLS = 13, // Identifies a virtual call made by this function using an // llvm.assume(llvm.type.test) intrinsic with all constant integer arguments. // [typeid, offset, n x arg] FS_TYPE_TEST_ASSUME_CONST_VCALL = 14, // Identifies a virtual call made by this function using an // llvm.type.checked.load intrinsic with all constant integer arguments. // [typeid, offset, n x arg] FS_TYPE_CHECKED_LOAD_CONST_VCALL = 15, // Assigns a GUID to a value ID. This normally appears only in combined // summaries, but it can also appear in per-module summaries for PGO data. // [valueid, guid] FS_VALUE_GUID = 16, // The list of local functions with CFI jump tables. Function names are // strings in strtab. // [n * name] FS_CFI_FUNCTION_DEFS = 17, // The list of external functions with CFI jump tables. Function names are // strings in strtab. // [n * name] FS_CFI_FUNCTION_DECLS = 18, // Per-module summary that also adds relative block frequency to callee info. // PERMODULE_RELBF: [valueid, flags, instcount, numrefs, // numrefs x valueid, // n x (valueid, relblockfreq)] FS_PERMODULE_RELBF = 19, // Index-wide flags FS_FLAGS = 20, // Maps type identifier to summary information for that type identifier. // Produced by the thin link (only lives in combined index). // TYPE_ID: [typeid, kind, bitwidth, align, size, bitmask, inlinebits, // n x (typeid, kind, name, numrba, // numrba x (numarg, numarg x arg, kind, info, byte, bit))] FS_TYPE_ID = 21, // For background see overview at https://llvm.org/docs/TypeMetadata.html. // The type metadata includes both the type identifier and the offset of // the address point of the type (the address held by objects of that type // which may not be the beginning of the virtual table). Vtable definitions // are decorated with type metadata for the types they are compatible with. // // Maps type identifier to summary information for that type identifier // computed from type metadata: the valueid of each vtable definition // decorated with a type metadata for that identifier, and the offset from // the corresponding type metadata. // Exists in the per-module summary to provide information to thin link // for index-based whole program devirtualization. // TYPE_ID_METADATA: [typeid, n x (valueid, offset)] FS_TYPE_ID_METADATA = 22, // Summarizes vtable definition for use in index-based whole program // devirtualization during the thin link. // PERMODULE_VTABLE_GLOBALVAR_INIT_REFS: [valueid, flags, varflags, // numrefs, numrefs x valueid, // n x (valueid, offset)] FS_PERMODULE_VTABLE_GLOBALVAR_INIT_REFS = 23, // The total number of basic blocks in the module. FS_BLOCK_COUNT = 24, // Range information for accessed offsets for every argument. // [n x (paramno, range, numcalls, numcalls x (callee_guid, paramno, range))] FS_PARAM_ACCESS = 25, // Summary of per-module memprof callsite metadata. // [valueid, n x stackidindex] FS_PERMODULE_CALLSITE_INFO = 26, // Summary of per-module allocation memprof metadata. // [n x (alloc type, nummib, nummib x stackidindex)] FS_PERMODULE_ALLOC_INFO = 27, // Summary of combined index memprof callsite metadata. // [valueid, numstackindices, numver, // numstackindices x stackidindex, numver x version] FS_COMBINED_CALLSITE_INFO = 28, // Summary of combined index allocation memprof metadata. // [nummib, numver, // nummib x (alloc type, numstackids, numstackids x stackidindex), // numver x version] FS_COMBINED_ALLOC_INFO = 29, FS_STACK_IDS = 30, }; enum MetadataCodes { METADATA_STRING_OLD = 1, // MDSTRING: [values] METADATA_VALUE = 2, // VALUE: [type num, value num] METADATA_NODE = 3, // NODE: [n x md num] METADATA_NAME = 4, // STRING: [values] METADATA_DISTINCT_NODE = 5, // DISTINCT_NODE: [n x md num] METADATA_KIND = 6, // [n x [id, name]] METADATA_LOCATION = 7, // [distinct, line, col, scope, inlined-at?] METADATA_OLD_NODE = 8, // OLD_NODE: [n x (type num, value num)] METADATA_OLD_FN_NODE = 9, // OLD_FN_NODE: [n x (type num, value num)] METADATA_NAMED_NODE = 10, // NAMED_NODE: [n x mdnodes] METADATA_ATTACHMENT = 11, // [m x [value, [n x [id, mdnode]]] METADATA_GENERIC_DEBUG = 12, // [distinct, tag, vers, header, n x md num] METADATA_SUBRANGE = 13, // [distinct, count, lo] METADATA_ENUMERATOR = 14, // [isUnsigned|distinct, value, name] METADATA_BASIC_TYPE = 15, // [distinct, tag, name, size, align, enc] METADATA_FILE = 16, // [distinct, filename, directory, checksumkind, checksum] METADATA_DERIVED_TYPE = 17, // [distinct, ...] METADATA_COMPOSITE_TYPE = 18, // [distinct, ...] METADATA_SUBROUTINE_TYPE = 19, // [distinct, flags, types, cc] METADATA_COMPILE_UNIT = 20, // [distinct, ...] METADATA_SUBPROGRAM = 21, // [distinct, ...] METADATA_LEXICAL_BLOCK = 22, // [distinct, scope, file, line, column] METADATA_LEXICAL_BLOCK_FILE = 23, //[distinct, scope, file, discriminator] METADATA_NAMESPACE = 24, // [distinct, scope, file, name, line, exportSymbols] METADATA_TEMPLATE_TYPE = 25, // [distinct, scope, name, type, ...] METADATA_TEMPLATE_VALUE = 26, // [distinct, scope, name, type, value, ...] METADATA_GLOBAL_VAR = 27, // [distinct, ...] METADATA_LOCAL_VAR = 28, // [distinct, ...] METADATA_EXPRESSION = 29, // [distinct, n x element] METADATA_OBJC_PROPERTY = 30, // [distinct, name, file, line, ...] METADATA_IMPORTED_ENTITY = 31, // [distinct, tag, scope, entity, line, name] METADATA_MODULE = 32, // [distinct, scope, name, ...] METADATA_MACRO = 33, // [distinct, macinfo, line, name, value] METADATA_MACRO_FILE = 34, // [distinct, macinfo, line, file, ...] METADATA_STRINGS = 35, // [count, offset] blob([lengths][chars]) METADATA_GLOBAL_DECL_ATTACHMENT = 36, // [valueid, n x [id, mdnode]] METADATA_GLOBAL_VAR_EXPR = 37, // [distinct, var, expr] METADATA_INDEX_OFFSET = 38, // [offset] METADATA_INDEX = 39, // [bitpos] METADATA_LABEL = 40, // [distinct, scope, name, file, line] METADATA_STRING_TYPE = 41, // [distinct, name, size, align,...] // Codes 42 and 43 are reserved for support for Fortran array specific debug // info. METADATA_COMMON_BLOCK = 44, // [distinct, scope, name, variable,...] METADATA_GENERIC_SUBRANGE = 45, // [distinct, count, lo, up, stride] METADATA_ARG_LIST = 46, // [n x [type num, value num]] METADATA_ASSIGN_ID = 47, // [distinct, ...] }; // The constants block (CONSTANTS_BLOCK_ID) describes emission for each // constant and maintains an implicit current type value. enum ConstantsCodes { CST_CODE_SETTYPE = 1, // SETTYPE: [typeid] CST_CODE_NULL = 2, // NULL CST_CODE_UNDEF = 3, // UNDEF CST_CODE_INTEGER = 4, // INTEGER: [intval] CST_CODE_WIDE_INTEGER = 5, // WIDE_INTEGER: [n x intval] CST_CODE_FLOAT = 6, // FLOAT: [fpval] CST_CODE_AGGREGATE = 7, // AGGREGATE: [n x value number] CST_CODE_STRING = 8, // STRING: [values] CST_CODE_CSTRING = 9, // CSTRING: [values] CST_CODE_CE_BINOP = 10, // CE_BINOP: [opcode, opval, opval] CST_CODE_CE_CAST = 11, // CE_CAST: [opcode, opty, opval] CST_CODE_CE_GEP = 12, // CE_GEP: [n x operands] CST_CODE_CE_SELECT = 13, // CE_SELECT: [opval, opval, opval] CST_CODE_CE_EXTRACTELT = 14, // CE_EXTRACTELT: [opty, opval, opval] CST_CODE_CE_INSERTELT = 15, // CE_INSERTELT: [opval, opval, opval] CST_CODE_CE_SHUFFLEVEC = 16, // CE_SHUFFLEVEC: [opval, opval, opval] CST_CODE_CE_CMP = 17, // CE_CMP: [opty, opval, opval, pred] CST_CODE_INLINEASM_OLD = 18, // INLINEASM: [sideeffect|alignstack, // asmstr,conststr] CST_CODE_CE_SHUFVEC_EX = 19, // SHUFVEC_EX: [opty, opval, opval, opval] CST_CODE_CE_INBOUNDS_GEP = 20, // INBOUNDS_GEP: [n x operands] CST_CODE_BLOCKADDRESS = 21, // CST_CODE_BLOCKADDRESS [fnty, fnval, bb#] CST_CODE_DATA = 22, // DATA: [n x elements] CST_CODE_INLINEASM_OLD2 = 23, // INLINEASM: [sideeffect|alignstack| // asmdialect,asmstr,conststr] CST_CODE_CE_GEP_WITH_INRANGE_INDEX = 24, // [opty, flags, n x operands] CST_CODE_CE_UNOP = 25, // CE_UNOP: [opcode, opval] CST_CODE_POISON = 26, // POISON CST_CODE_DSO_LOCAL_EQUIVALENT = 27, // DSO_LOCAL_EQUIVALENT [gvty, gv] CST_CODE_INLINEASM_OLD3 = 28, // INLINEASM: [sideeffect|alignstack| // asmdialect|unwind, // asmstr,conststr] CST_CODE_NO_CFI_VALUE = 29, // NO_CFI [ fty, f ] CST_CODE_INLINEASM = 30, // INLINEASM: [fnty, // sideeffect|alignstack| // asmdialect|unwind, // asmstr,conststr] }; /// CastOpcodes - These are values used in the bitcode files to encode which /// cast a CST_CODE_CE_CAST or a XXX refers to. The values of these enums /// have no fixed relation to the LLVM IR enum values. Changing these will /// break compatibility with old files. enum CastOpcodes { CAST_TRUNC = 0, CAST_ZEXT = 1, CAST_SEXT = 2, CAST_FPTOUI = 3, CAST_FPTOSI = 4, CAST_UITOFP = 5, CAST_SITOFP = 6, CAST_FPTRUNC = 7, CAST_FPEXT = 8, CAST_PTRTOINT = 9, CAST_INTTOPTR = 10, CAST_BITCAST = 11, CAST_ADDRSPACECAST = 12 }; /// UnaryOpcodes - These are values used in the bitcode files to encode which /// unop a CST_CODE_CE_UNOP or a XXX refers to. The values of these enums /// have no fixed relation to the LLVM IR enum values. Changing these will /// break compatibility with old files. enum UnaryOpcodes { UNOP_FNEG = 0 }; /// BinaryOpcodes - These are values used in the bitcode files to encode which /// binop a CST_CODE_CE_BINOP or a XXX refers to. The values of these enums /// have no fixed relation to the LLVM IR enum values. Changing these will /// break compatibility with old files. enum BinaryOpcodes { BINOP_ADD = 0, BINOP_SUB = 1, BINOP_MUL = 2, BINOP_UDIV = 3, BINOP_SDIV = 4, // overloaded for FP BINOP_UREM = 5, BINOP_SREM = 6, // overloaded for FP BINOP_SHL = 7, BINOP_LSHR = 8, BINOP_ASHR = 9, BINOP_AND = 10, BINOP_OR = 11, BINOP_XOR = 12 }; /// These are values used in the bitcode files to encode AtomicRMW operations. /// The values of these enums have no fixed relation to the LLVM IR enum /// values. Changing these will break compatibility with old files. enum RMWOperations { RMW_XCHG = 0, RMW_ADD = 1, RMW_SUB = 2, RMW_AND = 3, RMW_NAND = 4, RMW_OR = 5, RMW_XOR = 6, RMW_MAX = 7, RMW_MIN = 8, RMW_UMAX = 9, RMW_UMIN = 10, RMW_FADD = 11, RMW_FSUB = 12, RMW_FMAX = 13, RMW_FMIN = 14, RMW_UINC_WRAP = 15, RMW_UDEC_WRAP = 16 }; /// OverflowingBinaryOperatorOptionalFlags - Flags for serializing /// OverflowingBinaryOperator's SubclassOptionalData contents. enum OverflowingBinaryOperatorOptionalFlags { OBO_NO_UNSIGNED_WRAP = 0, OBO_NO_SIGNED_WRAP = 1 }; /// FastMath Flags /// This is a fixed layout derived from the bitcode emitted by LLVM 5.0 /// intended to decouple the in-memory representation from the serialization. enum FastMathMap { UnsafeAlgebra = (1 << 0), // Legacy NoNaNs = (1 << 1), NoInfs = (1 << 2), NoSignedZeros = (1 << 3), AllowReciprocal = (1 << 4), AllowContract = (1 << 5), ApproxFunc = (1 << 6), AllowReassoc = (1 << 7) }; /// PossiblyExactOperatorOptionalFlags - Flags for serializing /// PossiblyExactOperator's SubclassOptionalData contents. enum PossiblyExactOperatorOptionalFlags { PEO_EXACT = 0 }; /// Encoded AtomicOrdering values. enum AtomicOrderingCodes { ORDERING_NOTATOMIC = 0, ORDERING_UNORDERED = 1, ORDERING_MONOTONIC = 2, ORDERING_ACQUIRE = 3, ORDERING_RELEASE = 4, ORDERING_ACQREL = 5, ORDERING_SEQCST = 6 }; /// Markers and flags for call instruction. enum CallMarkersFlags { CALL_TAIL = 0, CALL_CCONV = 1, CALL_MUSTTAIL = 14, CALL_EXPLICIT_TYPE = 15, CALL_NOTAIL = 16, CALL_FMF = 17 // Call has optional fast-math-flags. }; // The function body block (FUNCTION_BLOCK_ID) describes function bodies. It // can contain a constant block (CONSTANTS_BLOCK_ID). enum FunctionCodes { FUNC_CODE_DECLAREBLOCKS = 1, // DECLAREBLOCKS: [n] FUNC_CODE_INST_BINOP = 2, // BINOP: [opcode, ty, opval, opval] FUNC_CODE_INST_CAST = 3, // CAST: [opcode, ty, opty, opval] FUNC_CODE_INST_GEP_OLD = 4, // GEP: [n x operands] FUNC_CODE_INST_SELECT = 5, // SELECT: [ty, opval, opval, opval] FUNC_CODE_INST_EXTRACTELT = 6, // EXTRACTELT: [opty, opval, opval] FUNC_CODE_INST_INSERTELT = 7, // INSERTELT: [ty, opval, opval, opval] FUNC_CODE_INST_SHUFFLEVEC = 8, // SHUFFLEVEC: [ty, opval, opval, opval] FUNC_CODE_INST_CMP = 9, // CMP: [opty, opval, opval, pred] FUNC_CODE_INST_RET = 10, // RET: [opty,opval] FUNC_CODE_INST_BR = 11, // BR: [bb#, bb#, cond] or [bb#] FUNC_CODE_INST_SWITCH = 12, // SWITCH: [opty, op0, op1, ...] FUNC_CODE_INST_INVOKE = 13, // INVOKE: [attr, fnty, op0,op1, ...] // 14 is unused. FUNC_CODE_INST_UNREACHABLE = 15, // UNREACHABLE FUNC_CODE_INST_PHI = 16, // PHI: [ty, val0,bb0, ...] // 17 is unused. // 18 is unused. FUNC_CODE_INST_ALLOCA = 19, // ALLOCA: [instty, opty, op, align] FUNC_CODE_INST_LOAD = 20, // LOAD: [opty, op, align, vol] // 21 is unused. // 22 is unused. FUNC_CODE_INST_VAARG = 23, // VAARG: [valistty, valist, instty] // This store code encodes the pointer type, rather than the value type // this is so information only available in the pointer type (e.g. address // spaces) is retained. FUNC_CODE_INST_STORE_OLD = 24, // STORE: [ptrty,ptr,val, align, vol] // 25 is unused. FUNC_CODE_INST_EXTRACTVAL = 26, // EXTRACTVAL: [n x operands] FUNC_CODE_INST_INSERTVAL = 27, // INSERTVAL: [n x operands] // fcmp/icmp returning Int1TY or vector of Int1Ty. Same as CMP, exists to // support legacy vicmp/vfcmp instructions. FUNC_CODE_INST_CMP2 = 28, // CMP2: [opty, opval, opval, pred] // new select on i1 or [N x i1] FUNC_CODE_INST_VSELECT = 29, // VSELECT: [ty,opval,opval,predty,pred] FUNC_CODE_INST_INBOUNDS_GEP_OLD = 30, // INBOUNDS_GEP: [n x operands] FUNC_CODE_INST_INDIRECTBR = 31, // INDIRECTBR: [opty, op0, op1, ...] // 32 is unused. FUNC_CODE_DEBUG_LOC_AGAIN = 33, // DEBUG_LOC_AGAIN FUNC_CODE_INST_CALL = 34, // CALL: [attr, cc, fnty, fnid, args...] FUNC_CODE_DEBUG_LOC = 35, // DEBUG_LOC: [Line,Col,ScopeVal, IAVal] FUNC_CODE_INST_FENCE = 36, // FENCE: [ordering, synchscope] FUNC_CODE_INST_CMPXCHG_OLD = 37, // CMPXCHG: [ptrty, ptr, cmp, val, vol, // ordering, synchscope, // failure_ordering?, weak?] FUNC_CODE_INST_ATOMICRMW_OLD = 38, // ATOMICRMW: [ptrty,ptr,val, operation, // align, vol, // ordering, synchscope] FUNC_CODE_INST_RESUME = 39, // RESUME: [opval] FUNC_CODE_INST_LANDINGPAD_OLD = 40, // LANDINGPAD: [ty,val,val,num,id0,val0...] FUNC_CODE_INST_LOADATOMIC = 41, // LOAD: [opty, op, align, vol, // ordering, synchscope] FUNC_CODE_INST_STOREATOMIC_OLD = 42, // STORE: [ptrty,ptr,val, align, vol // ordering, synchscope] FUNC_CODE_INST_GEP = 43, // GEP: [inbounds, n x operands] FUNC_CODE_INST_STORE = 44, // STORE: [ptrty,ptr,valty,val, align, vol] FUNC_CODE_INST_STOREATOMIC = 45, // STORE: [ptrty,ptr,val, align, vol FUNC_CODE_INST_CMPXCHG = 46, // CMPXCHG: [ptrty, ptr, cmp, val, vol, // success_ordering, synchscope, // failure_ordering, weak] FUNC_CODE_INST_LANDINGPAD = 47, // LANDINGPAD: [ty,val,num,id0,val0...] FUNC_CODE_INST_CLEANUPRET = 48, // CLEANUPRET: [val] or [val,bb#] FUNC_CODE_INST_CATCHRET = 49, // CATCHRET: [val,bb#] FUNC_CODE_INST_CATCHPAD = 50, // CATCHPAD: [bb#,bb#,num,args...] FUNC_CODE_INST_CLEANUPPAD = 51, // CLEANUPPAD: [num,args...] FUNC_CODE_INST_CATCHSWITCH = 52, // CATCHSWITCH: [num,args...] or [num,args...,bb] // 53 is unused. // 54 is unused. FUNC_CODE_OPERAND_BUNDLE = 55, // OPERAND_BUNDLE: [tag#, value...] FUNC_CODE_INST_UNOP = 56, // UNOP: [opcode, ty, opval] FUNC_CODE_INST_CALLBR = 57, // CALLBR: [attr, cc, norm, transfs, // fnty, fnid, args...] FUNC_CODE_INST_FREEZE = 58, // FREEZE: [opty, opval] FUNC_CODE_INST_ATOMICRMW = 59, // ATOMICRMW: [ptrty, ptr, valty, val, // operation, align, vol, // ordering, synchscope] FUNC_CODE_BLOCKADDR_USERS = 60, // BLOCKADDR_USERS: [value...] }; enum UseListCodes { USELIST_CODE_DEFAULT = 1, // DEFAULT: [index..., value-id] USELIST_CODE_BB = 2 // BB: [index..., bb-id] }; enum AttributeKindCodes { // = 0 is unused ATTR_KIND_ALIGNMENT = 1, ATTR_KIND_ALWAYS_INLINE = 2, ATTR_KIND_BY_VAL = 3, ATTR_KIND_INLINE_HINT = 4, ATTR_KIND_IN_REG = 5, ATTR_KIND_MIN_SIZE = 6, ATTR_KIND_NAKED = 7, ATTR_KIND_NEST = 8, ATTR_KIND_NO_ALIAS = 9, ATTR_KIND_NO_BUILTIN = 10, ATTR_KIND_NO_CAPTURE = 11, ATTR_KIND_NO_DUPLICATE = 12, ATTR_KIND_NO_IMPLICIT_FLOAT = 13, ATTR_KIND_NO_INLINE = 14, ATTR_KIND_NON_LAZY_BIND = 15, ATTR_KIND_NO_RED_ZONE = 16, ATTR_KIND_NO_RETURN = 17, ATTR_KIND_NO_UNWIND = 18, ATTR_KIND_OPTIMIZE_FOR_SIZE = 19, ATTR_KIND_READ_NONE = 20, ATTR_KIND_READ_ONLY = 21, ATTR_KIND_RETURNED = 22, ATTR_KIND_RETURNS_TWICE = 23, ATTR_KIND_S_EXT = 24, ATTR_KIND_STACK_ALIGNMENT = 25, ATTR_KIND_STACK_PROTECT = 26, ATTR_KIND_STACK_PROTECT_REQ = 27, ATTR_KIND_STACK_PROTECT_STRONG = 28, ATTR_KIND_STRUCT_RET = 29, ATTR_KIND_SANITIZE_ADDRESS = 30, ATTR_KIND_SANITIZE_THREAD = 31, ATTR_KIND_SANITIZE_MEMORY = 32, ATTR_KIND_UW_TABLE = 33, ATTR_KIND_Z_EXT = 34, ATTR_KIND_BUILTIN = 35, ATTR_KIND_COLD = 36, ATTR_KIND_OPTIMIZE_NONE = 37, ATTR_KIND_IN_ALLOCA = 38, ATTR_KIND_NON_NULL = 39, ATTR_KIND_JUMP_TABLE = 40, ATTR_KIND_DEREFERENCEABLE = 41, ATTR_KIND_DEREFERENCEABLE_OR_NULL = 42, ATTR_KIND_CONVERGENT = 43, ATTR_KIND_SAFESTACK = 44, ATTR_KIND_ARGMEMONLY = 45, ATTR_KIND_SWIFT_SELF = 46, ATTR_KIND_SWIFT_ERROR = 47, ATTR_KIND_NO_RECURSE = 48, ATTR_KIND_INACCESSIBLEMEM_ONLY = 49, ATTR_KIND_INACCESSIBLEMEM_OR_ARGMEMONLY = 50, ATTR_KIND_ALLOC_SIZE = 51, ATTR_KIND_WRITEONLY = 52, ATTR_KIND_SPECULATABLE = 53, ATTR_KIND_STRICT_FP = 54, ATTR_KIND_SANITIZE_HWADDRESS = 55, ATTR_KIND_NOCF_CHECK = 56, ATTR_KIND_OPT_FOR_FUZZING = 57, ATTR_KIND_SHADOWCALLSTACK = 58, ATTR_KIND_SPECULATIVE_LOAD_HARDENING = 59, ATTR_KIND_IMMARG = 60, ATTR_KIND_WILLRETURN = 61, ATTR_KIND_NOFREE = 62, ATTR_KIND_NOSYNC = 63, ATTR_KIND_SANITIZE_MEMTAG = 64, ATTR_KIND_PREALLOCATED = 65, ATTR_KIND_NO_MERGE = 66, ATTR_KIND_NULL_POINTER_IS_VALID = 67, ATTR_KIND_NOUNDEF = 68, ATTR_KIND_BYREF = 69, ATTR_KIND_MUSTPROGRESS = 70, ATTR_KIND_NO_CALLBACK = 71, ATTR_KIND_HOT = 72, ATTR_KIND_NO_PROFILE = 73, ATTR_KIND_VSCALE_RANGE = 74, ATTR_KIND_SWIFT_ASYNC = 75, ATTR_KIND_NO_SANITIZE_COVERAGE = 76, ATTR_KIND_ELEMENTTYPE = 77, ATTR_KIND_DISABLE_SANITIZER_INSTRUMENTATION = 78, ATTR_KIND_NO_SANITIZE_BOUNDS = 79, ATTR_KIND_ALLOC_ALIGN = 80, ATTR_KIND_ALLOCATED_POINTER = 81, ATTR_KIND_ALLOC_KIND = 82, ATTR_KIND_PRESPLIT_COROUTINE = 83, ATTR_KIND_FNRETTHUNK_EXTERN = 84, ATTR_KIND_SKIP_PROFILE = 85, ATTR_KIND_MEMORY = 86, }; enum ComdatSelectionKindCodes { COMDAT_SELECTION_KIND_ANY = 1, COMDAT_SELECTION_KIND_EXACT_MATCH = 2, COMDAT_SELECTION_KIND_LARGEST = 3, COMDAT_SELECTION_KIND_NO_DUPLICATES = 4, COMDAT_SELECTION_KIND_SAME_SIZE = 5, }; enum StrtabCodes { STRTAB_BLOB = 1, }; enum SymtabCodes { SYMTAB_BLOB = 1, }; } // End bitc namespace } // End llvm namespace #endif #ifdef __GNUC__ #pragma GCC diagnostic pop #endif