From 8b1d39721675d92bdb73487fedb22d1cb5f74022 Mon Sep 17 00:00:00 2001 From: JohnChen0 Date: Mon, 25 Apr 2016 13:56:54 -0700 Subject: [PATCH] Enable crossgen /createpdb command on Windows --- src/inc/cvconst.h | 3728 +++++++++++++++++++++++++++ src/inc/cvinfo.h | 4989 +++++++++++++++++++++++++++++++++++++ src/tools/crossgen/CMakeLists.txt | 2 +- 3 files changed, 8718 insertions(+), 1 deletion(-) create mode 100644 src/inc/cvconst.h create mode 100644 src/inc/cvinfo.h diff --git a/src/inc/cvconst.h b/src/inc/cvconst.h new file mode 100644 index 0000000..98eb19e --- /dev/null +++ b/src/inc/cvconst.h @@ -0,0 +1,3728 @@ +// Licensed to the .NET Foundation under one or more agreements. +// The .NET Foundation licenses this file to you under the MIT license. +// See the LICENSE file in the project root for more information. + +// cvconst.h - codeview constant definitions +//----------------------------------------------------------------- +// +// Copyright Microsoft Corporation. All Rights Reserved. +// +//--------------------------------------------------------------- +#ifndef _CVCONST_H_ +#define _CVCONST_H_ + + + +// Enumeration for function call type + + +typedef enum CV_call_e { + CV_CALL_NEAR_C = 0x00, // near right to left push, caller pops stack + CV_CALL_FAR_C = 0x01, // far right to left push, caller pops stack + CV_CALL_NEAR_PASCAL = 0x02, // near left to right push, callee pops stack + CV_CALL_FAR_PASCAL = 0x03, // far left to right push, callee pops stack + CV_CALL_NEAR_FAST = 0x04, // near left to right push with regs, callee pops stack + CV_CALL_FAR_FAST = 0x05, // far left to right push with regs, callee pops stack + CV_CALL_SKIPPED = 0x06, // skipped (unused) call index + CV_CALL_NEAR_STD = 0x07, // near standard call + CV_CALL_FAR_STD = 0x08, // far standard call + CV_CALL_NEAR_SYS = 0x09, // near sys call + CV_CALL_FAR_SYS = 0x0a, // far sys call + CV_CALL_THISCALL = 0x0b, // this call (this passed in register) + CV_CALL_MIPSCALL = 0x0c, // Mips call + CV_CALL_GENERIC = 0x0d, // Generic call sequence + CV_CALL_ALPHACALL = 0x0e, // Alpha call + CV_CALL_PPCCALL = 0x0f, // PPC call + CV_CALL_SHCALL = 0x10, // Hitachi SuperH call + CV_CALL_ARMCALL = 0x11, // ARM call + CV_CALL_AM33CALL = 0x12, // AM33 call + CV_CALL_TRICALL = 0x13, // TriCore Call + CV_CALL_SH5CALL = 0x14, // Hitachi SuperH-5 call + CV_CALL_M32RCALL = 0x15, // M32R Call + CV_CALL_CLRCALL = 0x16, // clr call + CV_CALL_INLINE = 0x17, // Marker for routines always inlined and thus lacking a convention + CV_CALL_NEAR_VECTOR = 0x18, // near left to right push with regs, callee pops stack + CV_CALL_RESERVED = 0x19 // first unused call enumeration + + // Do NOT add any more machine specific conventions. This is to be used for + // calling conventions in the source only (e.g. __cdecl, __stdcall). +} CV_call_e; + + +// Values for the access protection of class attributes + + +typedef enum CV_access_e { + CV_private = 1, + CV_protected = 2, + CV_public = 3 +} CV_access_e; + +typedef enum THUNK_ORDINAL { + THUNK_ORDINAL_NOTYPE, // standard thunk + THUNK_ORDINAL_ADJUSTOR, // "this" adjustor thunk + THUNK_ORDINAL_VCALL, // virtual call thunk + THUNK_ORDINAL_PCODE, // pcode thunk + THUNK_ORDINAL_LOAD, // thunk which loads the address to jump to + // via unknown means... + + // trampoline thunk ordinals - only for use in Trampoline thunk symbols + THUNK_ORDINAL_TRAMP_INCREMENTAL, + THUNK_ORDINAL_TRAMP_BRANCHISLAND, + +} THUNK_ORDINAL; + + +enum CV_SourceChksum_t { + CHKSUM_TYPE_NONE = 0, // indicates no checksum is available + CHKSUM_TYPE_MD5, + CHKSUM_TYPE_SHA1, + CHKSUM_TYPE_SHA_256, +}; + +// +// DIA enums +// + +enum SymTagEnum +{ + SymTagNull, + SymTagExe, + SymTagCompiland, + SymTagCompilandDetails, + SymTagCompilandEnv, + SymTagFunction, + SymTagBlock, + SymTagData, + SymTagAnnotation, + SymTagLabel, + SymTagPublicSymbol, + SymTagUDT, + SymTagEnum, + SymTagFunctionType, + SymTagPointerType, + SymTagArrayType, + SymTagBaseType, + SymTagTypedef, + SymTagBaseClass, + SymTagFriend, + SymTagFunctionArgType, + SymTagFuncDebugStart, + SymTagFuncDebugEnd, + SymTagUsingNamespace, + SymTagVTableShape, + SymTagVTable, + SymTagCustom, + SymTagThunk, + SymTagCustomType, + SymTagManagedType, + SymTagDimension, + SymTagCallSite, + SymTagInlineSite, + SymTagBaseInterface, + SymTagVectorType, + SymTagMatrixType, + SymTagHLSLType, + SymTagCaller, + SymTagCallee, + SymTagExport, + SymTagHeapAllocationSite, + SymTagCoffGroup, + SymTagMax +}; + +enum LocationType +{ + LocIsNull, + LocIsStatic, + LocIsTLS, + LocIsRegRel, + LocIsThisRel, + LocIsEnregistered, + LocIsBitField, + LocIsSlot, + LocIsIlRel, + LocInMetaData, + LocIsConstant, + LocTypeMax +}; + +enum DataKind +{ + DataIsUnknown, + DataIsLocal, + DataIsStaticLocal, + DataIsParam, + DataIsObjectPtr, + DataIsFileStatic, + DataIsGlobal, + DataIsMember, + DataIsStaticMember, + DataIsConstant +}; + +enum UdtKind +{ + UdtStruct, + UdtClass, + UdtUnion, + UdtInterface +}; + +enum BasicType +{ + btNoType = 0, + btVoid = 1, + btChar = 2, + btWChar = 3, + btInt = 6, + btUInt = 7, + btFloat = 8, + btBCD = 9, + btBool = 10, + btLong = 13, + btULong = 14, + btCurrency = 25, + btDate = 26, + btVariant = 27, + btComplex = 28, + btBit = 29, + btBSTR = 30, + btHresult = 31, + btChar16 = 32, // char16_t + btChar32 = 33, // char32_t +}; + + +// enumeration for type modifier values + +typedef enum CV_modifier_e { + // 0x0000 - 0x01ff - Reserved. + + CV_MOD_INVALID = 0x0000, + + // Standard modifiers. + + CV_MOD_CONST = 0x0001, + CV_MOD_VOLATILE = 0x0002, + CV_MOD_UNALIGNED = 0x0003, + + // 0x0200 - 0x03ff - HLSL modifiers. + + CV_MOD_HLSL_UNIFORM = 0x0200, + CV_MOD_HLSL_LINE = 0x0201, + CV_MOD_HLSL_TRIANGLE = 0x0202, + CV_MOD_HLSL_LINEADJ = 0x0203, + CV_MOD_HLSL_TRIANGLEADJ = 0x0204, + CV_MOD_HLSL_LINEAR = 0x0205, + CV_MOD_HLSL_CENTROID = 0x0206, + CV_MOD_HLSL_CONSTINTERP = 0x0207, + CV_MOD_HLSL_NOPERSPECTIVE = 0x0208, + CV_MOD_HLSL_SAMPLE = 0x0209, + CV_MOD_HLSL_CENTER = 0x020a, + CV_MOD_HLSL_SNORM = 0x020b, + CV_MOD_HLSL_UNORM = 0x020c, + CV_MOD_HLSL_PRECISE = 0x020d, + CV_MOD_HLSL_UAV_GLOBALLY_COHERENT = 0x020e, + + // 0x0400 - 0xffff - Unused. + +} CV_modifier_e; + + +// built-in type kinds + + +typedef enum CV_builtin_e { + + // 0x0000 - 0x01ff - Reserved. + CV_BI_INVALID = 0x0000, + + // 0x0200 - 0x03ff - HLSL types. + + CV_BI_HLSL_INTERFACE_POINTER = 0x0200, + CV_BI_HLSL_TEXTURE1D = 0x0201, + CV_BI_HLSL_TEXTURE1D_ARRAY = 0x0202, + CV_BI_HLSL_TEXTURE2D = 0x0203, + CV_BI_HLSL_TEXTURE2D_ARRAY = 0x0204, + CV_BI_HLSL_TEXTURE3D = 0x0205, + CV_BI_HLSL_TEXTURECUBE = 0x0206, + CV_BI_HLSL_TEXTURECUBE_ARRAY = 0x0207, + CV_BI_HLSL_TEXTURE2DMS = 0x0208, + CV_BI_HLSL_TEXTURE2DMS_ARRAY = 0x0209, + CV_BI_HLSL_SAMPLER = 0x020a, + CV_BI_HLSL_SAMPLERCOMPARISON = 0x020b, + CV_BI_HLSL_BUFFER = 0x020c, + CV_BI_HLSL_POINTSTREAM = 0x020d, + CV_BI_HLSL_LINESTREAM = 0x020e, + CV_BI_HLSL_TRIANGLESTREAM = 0x020f, + CV_BI_HLSL_INPUTPATCH = 0x0210, + CV_BI_HLSL_OUTPUTPATCH = 0x0211, + CV_BI_HLSL_RWTEXTURE1D = 0x0212, + CV_BI_HLSL_RWTEXTURE1D_ARRAY = 0x0213, + CV_BI_HLSL_RWTEXTURE2D = 0x0214, + CV_BI_HLSL_RWTEXTURE2D_ARRAY = 0x0215, + CV_BI_HLSL_RWTEXTURE3D = 0x0216, + CV_BI_HLSL_RWBUFFER = 0x0217, + CV_BI_HLSL_BYTEADDRESS_BUFFER = 0x0218, + CV_BI_HLSL_RWBYTEADDRESS_BUFFER = 0x0219, + CV_BI_HLSL_STRUCTURED_BUFFER = 0x021a, + CV_BI_HLSL_RWSTRUCTURED_BUFFER = 0x021b, + CV_BI_HLSL_APPEND_STRUCTURED_BUFFER = 0x021c, + CV_BI_HLSL_CONSUME_STRUCTURED_BUFFER= 0x021d, + CV_BI_HLSL_MIN8FLOAT = 0x021e, + CV_BI_HLSL_MIN10FLOAT = 0x021f, + CV_BI_HLSL_MIN16FLOAT = 0x0220, + CV_BI_HLSL_MIN12INT = 0x0221, + CV_BI_HLSL_MIN16INT = 0x0222, + CV_BI_HLSL_MIN16UINT = 0x0223, + + // 0x0400 - 0xffff - Unused. + +} CV_builtin_e; + + +// enum describing the compile flag source language + + +typedef enum CV_CFL_LANG { + CV_CFL_C = 0x00, + CV_CFL_CXX = 0x01, + CV_CFL_FORTRAN = 0x02, + CV_CFL_MASM = 0x03, + CV_CFL_PASCAL = 0x04, + CV_CFL_BASIC = 0x05, + CV_CFL_COBOL = 0x06, + CV_CFL_LINK = 0x07, + CV_CFL_CVTRES = 0x08, + CV_CFL_CVTPGD = 0x09, + CV_CFL_CSHARP = 0x0A, // C# + CV_CFL_VB = 0x0B, // Visual Basic + CV_CFL_ILASM = 0x0C, // IL (as in CLR) ASM + CV_CFL_JAVA = 0x0D, + CV_CFL_JSCRIPT = 0x0E, + CV_CFL_MSIL = 0x0F, // Unknown MSIL (LTCG of .NETMODULE) + CV_CFL_HLSL = 0x10, // High Level Shader Language +} CV_CFL_LANG; + + +// enum describing target processor + + +typedef enum CV_CPU_TYPE_e { + CV_CFL_8080 = 0x00, + CV_CFL_8086 = 0x01, + CV_CFL_80286 = 0x02, + CV_CFL_80386 = 0x03, + CV_CFL_80486 = 0x04, + CV_CFL_PENTIUM = 0x05, + CV_CFL_PENTIUMII = 0x06, + CV_CFL_PENTIUMPRO = CV_CFL_PENTIUMII, + CV_CFL_PENTIUMIII = 0x07, + CV_CFL_MIPS = 0x10, + CV_CFL_MIPSR4000 = CV_CFL_MIPS, // don't break current code + CV_CFL_MIPS16 = 0x11, + CV_CFL_MIPS32 = 0x12, + CV_CFL_MIPS64 = 0x13, + CV_CFL_MIPSI = 0x14, + CV_CFL_MIPSII = 0x15, + CV_CFL_MIPSIII = 0x16, + CV_CFL_MIPSIV = 0x17, + CV_CFL_MIPSV = 0x18, + CV_CFL_M68000 = 0x20, + CV_CFL_M68010 = 0x21, + CV_CFL_M68020 = 0x22, + CV_CFL_M68030 = 0x23, + CV_CFL_M68040 = 0x24, + CV_CFL_ALPHA = 0x30, + CV_CFL_ALPHA_21064 = 0x30, + CV_CFL_ALPHA_21164 = 0x31, + CV_CFL_ALPHA_21164A = 0x32, + CV_CFL_ALPHA_21264 = 0x33, + CV_CFL_ALPHA_21364 = 0x34, + CV_CFL_PPC601 = 0x40, + CV_CFL_PPC603 = 0x41, + CV_CFL_PPC604 = 0x42, + CV_CFL_PPC620 = 0x43, + CV_CFL_PPCFP = 0x44, + CV_CFL_PPCBE = 0x45, + CV_CFL_SH3 = 0x50, + CV_CFL_SH3E = 0x51, + CV_CFL_SH3DSP = 0x52, + CV_CFL_SH4 = 0x53, + CV_CFL_SHMEDIA = 0x54, + CV_CFL_ARM3 = 0x60, + CV_CFL_ARM4 = 0x61, + CV_CFL_ARM4T = 0x62, + CV_CFL_ARM5 = 0x63, + CV_CFL_ARM5T = 0x64, + CV_CFL_ARM6 = 0x65, + CV_CFL_ARM_XMAC = 0x66, + CV_CFL_ARM_WMMX = 0x67, + CV_CFL_ARM7 = 0x68, + CV_CFL_OMNI = 0x70, + CV_CFL_IA64 = 0x80, + CV_CFL_IA64_1 = 0x80, + CV_CFL_IA64_2 = 0x81, + CV_CFL_CEE = 0x90, + CV_CFL_AM33 = 0xA0, + CV_CFL_M32R = 0xB0, + CV_CFL_TRICORE = 0xC0, + CV_CFL_X64 = 0xD0, + CV_CFL_AMD64 = CV_CFL_X64, + CV_CFL_EBC = 0xE0, + CV_CFL_THUMB = 0xF0, + CV_CFL_ARMNT = 0xF4, + CV_CFL_ARM64 = 0xF6, + CV_CFL_D3D11_SHADER = 0x100, +} CV_CPU_TYPE_e; + +typedef enum CV_HREG_e { + // Register subset shared by all processor types, + // must not overlap with any of the ranges below, hence the high values + + CV_ALLREG_ERR = 30000, + CV_ALLREG_TEB = 30001, + CV_ALLREG_TIMER = 30002, + CV_ALLREG_EFAD1 = 30003, + CV_ALLREG_EFAD2 = 30004, + CV_ALLREG_EFAD3 = 30005, + CV_ALLREG_VFRAME= 30006, + CV_ALLREG_HANDLE= 30007, + CV_ALLREG_PARAMS= 30008, + CV_ALLREG_LOCALS= 30009, + CV_ALLREG_TID = 30010, + CV_ALLREG_ENV = 30011, + CV_ALLREG_CMDLN = 30012, + + + // Register set for the Intel 80x86 and ix86 processor series + // (plus PCODE registers) + + CV_REG_NONE = 0, + CV_REG_AL = 1, + CV_REG_CL = 2, + CV_REG_DL = 3, + CV_REG_BL = 4, + CV_REG_AH = 5, + CV_REG_CH = 6, + CV_REG_DH = 7, + CV_REG_BH = 8, + CV_REG_AX = 9, + CV_REG_CX = 10, + CV_REG_DX = 11, + CV_REG_BX = 12, + CV_REG_SP = 13, + CV_REG_BP = 14, + CV_REG_SI = 15, + CV_REG_DI = 16, + CV_REG_EAX = 17, + CV_REG_ECX = 18, + CV_REG_EDX = 19, + CV_REG_EBX = 20, + CV_REG_ESP = 21, + CV_REG_EBP = 22, + CV_REG_ESI = 23, + CV_REG_EDI = 24, + CV_REG_ES = 25, + CV_REG_CS = 26, + CV_REG_SS = 27, + CV_REG_DS = 28, + CV_REG_FS = 29, + CV_REG_GS = 30, + CV_REG_IP = 31, + CV_REG_FLAGS = 32, + CV_REG_EIP = 33, + CV_REG_EFLAGS = 34, + CV_REG_TEMP = 40, // PCODE Temp + CV_REG_TEMPH = 41, // PCODE TempH + CV_REG_QUOTE = 42, // PCODE Quote + CV_REG_PCDR3 = 43, // PCODE reserved + CV_REG_PCDR4 = 44, // PCODE reserved + CV_REG_PCDR5 = 45, // PCODE reserved + CV_REG_PCDR6 = 46, // PCODE reserved + CV_REG_PCDR7 = 47, // PCODE reserved + CV_REG_CR0 = 80, // CR0 -- control registers + CV_REG_CR1 = 81, + CV_REG_CR2 = 82, + CV_REG_CR3 = 83, + CV_REG_CR4 = 84, // Pentium + CV_REG_DR0 = 90, // Debug register + CV_REG_DR1 = 91, + CV_REG_DR2 = 92, + CV_REG_DR3 = 93, + CV_REG_DR4 = 94, + CV_REG_DR5 = 95, + CV_REG_DR6 = 96, + CV_REG_DR7 = 97, + CV_REG_GDTR = 110, + CV_REG_GDTL = 111, + CV_REG_IDTR = 112, + CV_REG_IDTL = 113, + CV_REG_LDTR = 114, + CV_REG_TR = 115, + + CV_REG_PSEUDO1 = 116, + CV_REG_PSEUDO2 = 117, + CV_REG_PSEUDO3 = 118, + CV_REG_PSEUDO4 = 119, + CV_REG_PSEUDO5 = 120, + CV_REG_PSEUDO6 = 121, + CV_REG_PSEUDO7 = 122, + CV_REG_PSEUDO8 = 123, + CV_REG_PSEUDO9 = 124, + + CV_REG_ST0 = 128, + CV_REG_ST1 = 129, + CV_REG_ST2 = 130, + CV_REG_ST3 = 131, + CV_REG_ST4 = 132, + CV_REG_ST5 = 133, + CV_REG_ST6 = 134, + CV_REG_ST7 = 135, + CV_REG_CTRL = 136, + CV_REG_STAT = 137, + CV_REG_TAG = 138, + CV_REG_FPIP = 139, + CV_REG_FPCS = 140, + CV_REG_FPDO = 141, + CV_REG_FPDS = 142, + CV_REG_ISEM = 143, + CV_REG_FPEIP = 144, + CV_REG_FPEDO = 145, + + CV_REG_MM0 = 146, + CV_REG_MM1 = 147, + CV_REG_MM2 = 148, + CV_REG_MM3 = 149, + CV_REG_MM4 = 150, + CV_REG_MM5 = 151, + CV_REG_MM6 = 152, + CV_REG_MM7 = 153, + + CV_REG_XMM0 = 154, // KATMAI registers + CV_REG_XMM1 = 155, + CV_REG_XMM2 = 156, + CV_REG_XMM3 = 157, + CV_REG_XMM4 = 158, + CV_REG_XMM5 = 159, + CV_REG_XMM6 = 160, + CV_REG_XMM7 = 161, + + CV_REG_XMM00 = 162, // KATMAI sub-registers + CV_REG_XMM01 = 163, + CV_REG_XMM02 = 164, + CV_REG_XMM03 = 165, + CV_REG_XMM10 = 166, + CV_REG_XMM11 = 167, + CV_REG_XMM12 = 168, + CV_REG_XMM13 = 169, + CV_REG_XMM20 = 170, + CV_REG_XMM21 = 171, + CV_REG_XMM22 = 172, + CV_REG_XMM23 = 173, + CV_REG_XMM30 = 174, + CV_REG_XMM31 = 175, + CV_REG_XMM32 = 176, + CV_REG_XMM33 = 177, + CV_REG_XMM40 = 178, + CV_REG_XMM41 = 179, + CV_REG_XMM42 = 180, + CV_REG_XMM43 = 181, + CV_REG_XMM50 = 182, + CV_REG_XMM51 = 183, + CV_REG_XMM52 = 184, + CV_REG_XMM53 = 185, + CV_REG_XMM60 = 186, + CV_REG_XMM61 = 187, + CV_REG_XMM62 = 188, + CV_REG_XMM63 = 189, + CV_REG_XMM70 = 190, + CV_REG_XMM71 = 191, + CV_REG_XMM72 = 192, + CV_REG_XMM73 = 193, + + CV_REG_XMM0L = 194, + CV_REG_XMM1L = 195, + CV_REG_XMM2L = 196, + CV_REG_XMM3L = 197, + CV_REG_XMM4L = 198, + CV_REG_XMM5L = 199, + CV_REG_XMM6L = 200, + CV_REG_XMM7L = 201, + + CV_REG_XMM0H = 202, + CV_REG_XMM1H = 203, + CV_REG_XMM2H = 204, + CV_REG_XMM3H = 205, + CV_REG_XMM4H = 206, + CV_REG_XMM5H = 207, + CV_REG_XMM6H = 208, + CV_REG_XMM7H = 209, + + CV_REG_MXCSR = 211, // XMM status register + + CV_REG_EDXEAX = 212, // EDX:EAX pair + + CV_REG_EMM0L = 220, // XMM sub-registers (WNI integer) + CV_REG_EMM1L = 221, + CV_REG_EMM2L = 222, + CV_REG_EMM3L = 223, + CV_REG_EMM4L = 224, + CV_REG_EMM5L = 225, + CV_REG_EMM6L = 226, + CV_REG_EMM7L = 227, + + CV_REG_EMM0H = 228, + CV_REG_EMM1H = 229, + CV_REG_EMM2H = 230, + CV_REG_EMM3H = 231, + CV_REG_EMM4H = 232, + CV_REG_EMM5H = 233, + CV_REG_EMM6H = 234, + CV_REG_EMM7H = 235, + + // do not change the order of these regs, first one must be even too + CV_REG_MM00 = 236, + CV_REG_MM01 = 237, + CV_REG_MM10 = 238, + CV_REG_MM11 = 239, + CV_REG_MM20 = 240, + CV_REG_MM21 = 241, + CV_REG_MM30 = 242, + CV_REG_MM31 = 243, + CV_REG_MM40 = 244, + CV_REG_MM41 = 245, + CV_REG_MM50 = 246, + CV_REG_MM51 = 247, + CV_REG_MM60 = 248, + CV_REG_MM61 = 249, + CV_REG_MM70 = 250, + CV_REG_MM71 = 251, + + CV_REG_YMM0 = 252, // AVX registers + CV_REG_YMM1 = 253, + CV_REG_YMM2 = 254, + CV_REG_YMM3 = 255, + CV_REG_YMM4 = 256, + CV_REG_YMM5 = 257, + CV_REG_YMM6 = 258, + CV_REG_YMM7 = 259, + + CV_REG_YMM0H = 260, + CV_REG_YMM1H = 261, + CV_REG_YMM2H = 262, + CV_REG_YMM3H = 263, + CV_REG_YMM4H = 264, + CV_REG_YMM5H = 265, + CV_REG_YMM6H = 266, + CV_REG_YMM7H = 267, + + CV_REG_YMM0I0 = 268, // AVX integer registers + CV_REG_YMM0I1 = 269, + CV_REG_YMM0I2 = 270, + CV_REG_YMM0I3 = 271, + CV_REG_YMM1I0 = 272, + CV_REG_YMM1I1 = 273, + CV_REG_YMM1I2 = 274, + CV_REG_YMM1I3 = 275, + CV_REG_YMM2I0 = 276, + CV_REG_YMM2I1 = 277, + CV_REG_YMM2I2 = 278, + CV_REG_YMM2I3 = 279, + CV_REG_YMM3I0 = 280, + CV_REG_YMM3I1 = 281, + CV_REG_YMM3I2 = 282, + CV_REG_YMM3I3 = 283, + CV_REG_YMM4I0 = 284, + CV_REG_YMM4I1 = 285, + CV_REG_YMM4I2 = 286, + CV_REG_YMM4I3 = 287, + CV_REG_YMM5I0 = 288, + CV_REG_YMM5I1 = 289, + CV_REG_YMM5I2 = 290, + CV_REG_YMM5I3 = 291, + CV_REG_YMM6I0 = 292, + CV_REG_YMM6I1 = 293, + CV_REG_YMM6I2 = 294, + CV_REG_YMM6I3 = 295, + CV_REG_YMM7I0 = 296, + CV_REG_YMM7I1 = 297, + CV_REG_YMM7I2 = 298, + CV_REG_YMM7I3 = 299, + + CV_REG_YMM0F0 = 300, // AVX floating-point single precise registers + CV_REG_YMM0F1 = 301, + CV_REG_YMM0F2 = 302, + CV_REG_YMM0F3 = 303, + CV_REG_YMM0F4 = 304, + CV_REG_YMM0F5 = 305, + CV_REG_YMM0F6 = 306, + CV_REG_YMM0F7 = 307, + CV_REG_YMM1F0 = 308, + CV_REG_YMM1F1 = 309, + CV_REG_YMM1F2 = 310, + CV_REG_YMM1F3 = 311, + CV_REG_YMM1F4 = 312, + CV_REG_YMM1F5 = 313, + CV_REG_YMM1F6 = 314, + CV_REG_YMM1F7 = 315, + CV_REG_YMM2F0 = 316, + CV_REG_YMM2F1 = 317, + CV_REG_YMM2F2 = 318, + CV_REG_YMM2F3 = 319, + CV_REG_YMM2F4 = 320, + CV_REG_YMM2F5 = 321, + CV_REG_YMM2F6 = 322, + CV_REG_YMM2F7 = 323, + CV_REG_YMM3F0 = 324, + CV_REG_YMM3F1 = 325, + CV_REG_YMM3F2 = 326, + CV_REG_YMM3F3 = 327, + CV_REG_YMM3F4 = 328, + CV_REG_YMM3F5 = 329, + CV_REG_YMM3F6 = 330, + CV_REG_YMM3F7 = 331, + CV_REG_YMM4F0 = 332, + CV_REG_YMM4F1 = 333, + CV_REG_YMM4F2 = 334, + CV_REG_YMM4F3 = 335, + CV_REG_YMM4F4 = 336, + CV_REG_YMM4F5 = 337, + CV_REG_YMM4F6 = 338, + CV_REG_YMM4F7 = 339, + CV_REG_YMM5F0 = 340, + CV_REG_YMM5F1 = 341, + CV_REG_YMM5F2 = 342, + CV_REG_YMM5F3 = 343, + CV_REG_YMM5F4 = 344, + CV_REG_YMM5F5 = 345, + CV_REG_YMM5F6 = 346, + CV_REG_YMM5F7 = 347, + CV_REG_YMM6F0 = 348, + CV_REG_YMM6F1 = 349, + CV_REG_YMM6F2 = 350, + CV_REG_YMM6F3 = 351, + CV_REG_YMM6F4 = 352, + CV_REG_YMM6F5 = 353, + CV_REG_YMM6F6 = 354, + CV_REG_YMM6F7 = 355, + CV_REG_YMM7F0 = 356, + CV_REG_YMM7F1 = 357, + CV_REG_YMM7F2 = 358, + CV_REG_YMM7F3 = 359, + CV_REG_YMM7F4 = 360, + CV_REG_YMM7F5 = 361, + CV_REG_YMM7F6 = 362, + CV_REG_YMM7F7 = 363, + + CV_REG_YMM0D0 = 364, // AVX floating-point double precise registers + CV_REG_YMM0D1 = 365, + CV_REG_YMM0D2 = 366, + CV_REG_YMM0D3 = 367, + CV_REG_YMM1D0 = 368, + CV_REG_YMM1D1 = 369, + CV_REG_YMM1D2 = 370, + CV_REG_YMM1D3 = 371, + CV_REG_YMM2D0 = 372, + CV_REG_YMM2D1 = 373, + CV_REG_YMM2D2 = 374, + CV_REG_YMM2D3 = 375, + CV_REG_YMM3D0 = 376, + CV_REG_YMM3D1 = 377, + CV_REG_YMM3D2 = 378, + CV_REG_YMM3D3 = 379, + CV_REG_YMM4D0 = 380, + CV_REG_YMM4D1 = 381, + CV_REG_YMM4D2 = 382, + CV_REG_YMM4D3 = 383, + CV_REG_YMM5D0 = 384, + CV_REG_YMM5D1 = 385, + CV_REG_YMM5D2 = 386, + CV_REG_YMM5D3 = 387, + CV_REG_YMM6D0 = 388, + CV_REG_YMM6D1 = 389, + CV_REG_YMM6D2 = 390, + CV_REG_YMM6D3 = 391, + CV_REG_YMM7D0 = 392, + CV_REG_YMM7D1 = 393, + CV_REG_YMM7D2 = 394, + CV_REG_YMM7D3 = 395, + + CV_REG_BND0 = 396, + CV_REG_BND1 = 397, + CV_REG_BND2 = 398, + CV_REG_BND3 = 399, + + // registers for the 68K processors + + CV_R68_D0 = 0, + CV_R68_D1 = 1, + CV_R68_D2 = 2, + CV_R68_D3 = 3, + CV_R68_D4 = 4, + CV_R68_D5 = 5, + CV_R68_D6 = 6, + CV_R68_D7 = 7, + CV_R68_A0 = 8, + CV_R68_A1 = 9, + CV_R68_A2 = 10, + CV_R68_A3 = 11, + CV_R68_A4 = 12, + CV_R68_A5 = 13, + CV_R68_A6 = 14, + CV_R68_A7 = 15, + CV_R68_CCR = 16, + CV_R68_SR = 17, + CV_R68_USP = 18, + CV_R68_MSP = 19, + CV_R68_SFC = 20, + CV_R68_DFC = 21, + CV_R68_CACR = 22, + CV_R68_VBR = 23, + CV_R68_CAAR = 24, + CV_R68_ISP = 25, + CV_R68_PC = 26, + //reserved 27 + CV_R68_FPCR = 28, + CV_R68_FPSR = 29, + CV_R68_FPIAR = 30, + //reserved 31 + CV_R68_FP0 = 32, + CV_R68_FP1 = 33, + CV_R68_FP2 = 34, + CV_R68_FP3 = 35, + CV_R68_FP4 = 36, + CV_R68_FP5 = 37, + CV_R68_FP6 = 38, + CV_R68_FP7 = 39, + //reserved 40 + CV_R68_MMUSR030 = 41, + CV_R68_MMUSR = 42, + CV_R68_URP = 43, + CV_R68_DTT0 = 44, + CV_R68_DTT1 = 45, + CV_R68_ITT0 = 46, + CV_R68_ITT1 = 47, + //reserved 50 + CV_R68_PSR = 51, + CV_R68_PCSR = 52, + CV_R68_VAL = 53, + CV_R68_CRP = 54, + CV_R68_SRP = 55, + CV_R68_DRP = 56, + CV_R68_TC = 57, + CV_R68_AC = 58, + CV_R68_SCC = 59, + CV_R68_CAL = 60, + CV_R68_TT0 = 61, + CV_R68_TT1 = 62, + //reserved 63 + CV_R68_BAD0 = 64, + CV_R68_BAD1 = 65, + CV_R68_BAD2 = 66, + CV_R68_BAD3 = 67, + CV_R68_BAD4 = 68, + CV_R68_BAD5 = 69, + CV_R68_BAD6 = 70, + CV_R68_BAD7 = 71, + CV_R68_BAC0 = 72, + CV_R68_BAC1 = 73, + CV_R68_BAC2 = 74, + CV_R68_BAC3 = 75, + CV_R68_BAC4 = 76, + CV_R68_BAC5 = 77, + CV_R68_BAC6 = 78, + CV_R68_BAC7 = 79, + + // Register set for the MIPS 4000 + + CV_M4_NOREG = CV_REG_NONE, + + CV_M4_IntZERO = 10, /* CPU REGISTER */ + CV_M4_IntAT = 11, + CV_M4_IntV0 = 12, + CV_M4_IntV1 = 13, + CV_M4_IntA0 = 14, + CV_M4_IntA1 = 15, + CV_M4_IntA2 = 16, + CV_M4_IntA3 = 17, + CV_M4_IntT0 = 18, + CV_M4_IntT1 = 19, + CV_M4_IntT2 = 20, + CV_M4_IntT3 = 21, + CV_M4_IntT4 = 22, + CV_M4_IntT5 = 23, + CV_M4_IntT6 = 24, + CV_M4_IntT7 = 25, + CV_M4_IntS0 = 26, + CV_M4_IntS1 = 27, + CV_M4_IntS2 = 28, + CV_M4_IntS3 = 29, + CV_M4_IntS4 = 30, + CV_M4_IntS5 = 31, + CV_M4_IntS6 = 32, + CV_M4_IntS7 = 33, + CV_M4_IntT8 = 34, + CV_M4_IntT9 = 35, + CV_M4_IntKT0 = 36, + CV_M4_IntKT1 = 37, + CV_M4_IntGP = 38, + CV_M4_IntSP = 39, + CV_M4_IntS8 = 40, + CV_M4_IntRA = 41, + CV_M4_IntLO = 42, + CV_M4_IntHI = 43, + + CV_M4_Fir = 50, + CV_M4_Psr = 51, + + CV_M4_FltF0 = 60, /* Floating point registers */ + CV_M4_FltF1 = 61, + CV_M4_FltF2 = 62, + CV_M4_FltF3 = 63, + CV_M4_FltF4 = 64, + CV_M4_FltF5 = 65, + CV_M4_FltF6 = 66, + CV_M4_FltF7 = 67, + CV_M4_FltF8 = 68, + CV_M4_FltF9 = 69, + CV_M4_FltF10 = 70, + CV_M4_FltF11 = 71, + CV_M4_FltF12 = 72, + CV_M4_FltF13 = 73, + CV_M4_FltF14 = 74, + CV_M4_FltF15 = 75, + CV_M4_FltF16 = 76, + CV_M4_FltF17 = 77, + CV_M4_FltF18 = 78, + CV_M4_FltF19 = 79, + CV_M4_FltF20 = 80, + CV_M4_FltF21 = 81, + CV_M4_FltF22 = 82, + CV_M4_FltF23 = 83, + CV_M4_FltF24 = 84, + CV_M4_FltF25 = 85, + CV_M4_FltF26 = 86, + CV_M4_FltF27 = 87, + CV_M4_FltF28 = 88, + CV_M4_FltF29 = 89, + CV_M4_FltF30 = 90, + CV_M4_FltF31 = 91, + CV_M4_FltFsr = 92, + + + // Register set for the ALPHA AXP + + CV_ALPHA_NOREG = CV_REG_NONE, + + CV_ALPHA_FltF0 = 10, // Floating point registers + CV_ALPHA_FltF1 = 11, + CV_ALPHA_FltF2 = 12, + CV_ALPHA_FltF3 = 13, + CV_ALPHA_FltF4 = 14, + CV_ALPHA_FltF5 = 15, + CV_ALPHA_FltF6 = 16, + CV_ALPHA_FltF7 = 17, + CV_ALPHA_FltF8 = 18, + CV_ALPHA_FltF9 = 19, + CV_ALPHA_FltF10 = 20, + CV_ALPHA_FltF11 = 21, + CV_ALPHA_FltF12 = 22, + CV_ALPHA_FltF13 = 23, + CV_ALPHA_FltF14 = 24, + CV_ALPHA_FltF15 = 25, + CV_ALPHA_FltF16 = 26, + CV_ALPHA_FltF17 = 27, + CV_ALPHA_FltF18 = 28, + CV_ALPHA_FltF19 = 29, + CV_ALPHA_FltF20 = 30, + CV_ALPHA_FltF21 = 31, + CV_ALPHA_FltF22 = 32, + CV_ALPHA_FltF23 = 33, + CV_ALPHA_FltF24 = 34, + CV_ALPHA_FltF25 = 35, + CV_ALPHA_FltF26 = 36, + CV_ALPHA_FltF27 = 37, + CV_ALPHA_FltF28 = 38, + CV_ALPHA_FltF29 = 39, + CV_ALPHA_FltF30 = 40, + CV_ALPHA_FltF31 = 41, + + CV_ALPHA_IntV0 = 42, // Integer registers + CV_ALPHA_IntT0 = 43, + CV_ALPHA_IntT1 = 44, + CV_ALPHA_IntT2 = 45, + CV_ALPHA_IntT3 = 46, + CV_ALPHA_IntT4 = 47, + CV_ALPHA_IntT5 = 48, + CV_ALPHA_IntT6 = 49, + CV_ALPHA_IntT7 = 50, + CV_ALPHA_IntS0 = 51, + CV_ALPHA_IntS1 = 52, + CV_ALPHA_IntS2 = 53, + CV_ALPHA_IntS3 = 54, + CV_ALPHA_IntS4 = 55, + CV_ALPHA_IntS5 = 56, + CV_ALPHA_IntFP = 57, + CV_ALPHA_IntA0 = 58, + CV_ALPHA_IntA1 = 59, + CV_ALPHA_IntA2 = 60, + CV_ALPHA_IntA3 = 61, + CV_ALPHA_IntA4 = 62, + CV_ALPHA_IntA5 = 63, + CV_ALPHA_IntT8 = 64, + CV_ALPHA_IntT9 = 65, + CV_ALPHA_IntT10 = 66, + CV_ALPHA_IntT11 = 67, + CV_ALPHA_IntRA = 68, + CV_ALPHA_IntT12 = 69, + CV_ALPHA_IntAT = 70, + CV_ALPHA_IntGP = 71, + CV_ALPHA_IntSP = 72, + CV_ALPHA_IntZERO = 73, + + + CV_ALPHA_Fpcr = 74, // Control registers + CV_ALPHA_Fir = 75, + CV_ALPHA_Psr = 76, + CV_ALPHA_FltFsr = 77, + CV_ALPHA_SoftFpcr = 78, + + // Register Set for Motorola/IBM PowerPC + + /* + ** PowerPC General Registers ( User Level ) + */ + CV_PPC_GPR0 = 1, + CV_PPC_GPR1 = 2, + CV_PPC_GPR2 = 3, + CV_PPC_GPR3 = 4, + CV_PPC_GPR4 = 5, + CV_PPC_GPR5 = 6, + CV_PPC_GPR6 = 7, + CV_PPC_GPR7 = 8, + CV_PPC_GPR8 = 9, + CV_PPC_GPR9 = 10, + CV_PPC_GPR10 = 11, + CV_PPC_GPR11 = 12, + CV_PPC_GPR12 = 13, + CV_PPC_GPR13 = 14, + CV_PPC_GPR14 = 15, + CV_PPC_GPR15 = 16, + CV_PPC_GPR16 = 17, + CV_PPC_GPR17 = 18, + CV_PPC_GPR18 = 19, + CV_PPC_GPR19 = 20, + CV_PPC_GPR20 = 21, + CV_PPC_GPR21 = 22, + CV_PPC_GPR22 = 23, + CV_PPC_GPR23 = 24, + CV_PPC_GPR24 = 25, + CV_PPC_GPR25 = 26, + CV_PPC_GPR26 = 27, + CV_PPC_GPR27 = 28, + CV_PPC_GPR28 = 29, + CV_PPC_GPR29 = 30, + CV_PPC_GPR30 = 31, + CV_PPC_GPR31 = 32, + + /* + ** PowerPC Condition Register ( User Level ) + */ + CV_PPC_CR = 33, + CV_PPC_CR0 = 34, + CV_PPC_CR1 = 35, + CV_PPC_CR2 = 36, + CV_PPC_CR3 = 37, + CV_PPC_CR4 = 38, + CV_PPC_CR5 = 39, + CV_PPC_CR6 = 40, + CV_PPC_CR7 = 41, + + /* + ** PowerPC Floating Point Registers ( User Level ) + */ + CV_PPC_FPR0 = 42, + CV_PPC_FPR1 = 43, + CV_PPC_FPR2 = 44, + CV_PPC_FPR3 = 45, + CV_PPC_FPR4 = 46, + CV_PPC_FPR5 = 47, + CV_PPC_FPR6 = 48, + CV_PPC_FPR7 = 49, + CV_PPC_FPR8 = 50, + CV_PPC_FPR9 = 51, + CV_PPC_FPR10 = 52, + CV_PPC_FPR11 = 53, + CV_PPC_FPR12 = 54, + CV_PPC_FPR13 = 55, + CV_PPC_FPR14 = 56, + CV_PPC_FPR15 = 57, + CV_PPC_FPR16 = 58, + CV_PPC_FPR17 = 59, + CV_PPC_FPR18 = 60, + CV_PPC_FPR19 = 61, + CV_PPC_FPR20 = 62, + CV_PPC_FPR21 = 63, + CV_PPC_FPR22 = 64, + CV_PPC_FPR23 = 65, + CV_PPC_FPR24 = 66, + CV_PPC_FPR25 = 67, + CV_PPC_FPR26 = 68, + CV_PPC_FPR27 = 69, + CV_PPC_FPR28 = 70, + CV_PPC_FPR29 = 71, + CV_PPC_FPR30 = 72, + CV_PPC_FPR31 = 73, + + /* + ** PowerPC Floating Point Status and Control Register ( User Level ) + */ + CV_PPC_FPSCR = 74, + + /* + ** PowerPC Machine State Register ( Supervisor Level ) + */ + CV_PPC_MSR = 75, + + /* + ** PowerPC Segment Registers ( Supervisor Level ) + */ + CV_PPC_SR0 = 76, + CV_PPC_SR1 = 77, + CV_PPC_SR2 = 78, + CV_PPC_SR3 = 79, + CV_PPC_SR4 = 80, + CV_PPC_SR5 = 81, + CV_PPC_SR6 = 82, + CV_PPC_SR7 = 83, + CV_PPC_SR8 = 84, + CV_PPC_SR9 = 85, + CV_PPC_SR10 = 86, + CV_PPC_SR11 = 87, + CV_PPC_SR12 = 88, + CV_PPC_SR13 = 89, + CV_PPC_SR14 = 90, + CV_PPC_SR15 = 91, + + /* + ** For all of the special purpose registers add 100 to the SPR# that the + ** Motorola/IBM documentation gives with the exception of any imaginary + ** registers. + */ + + /* + ** PowerPC Special Purpose Registers ( User Level ) + */ + CV_PPC_PC = 99, // PC (imaginary register) + + CV_PPC_MQ = 100, // MPC601 + CV_PPC_XER = 101, + CV_PPC_RTCU = 104, // MPC601 + CV_PPC_RTCL = 105, // MPC601 + CV_PPC_LR = 108, + CV_PPC_CTR = 109, + + CV_PPC_COMPARE = 110, // part of XER (internal to the debugger only) + CV_PPC_COUNT = 111, // part of XER (internal to the debugger only) + + /* + ** PowerPC Special Purpose Registers ( Supervisor Level ) + */ + CV_PPC_DSISR = 118, + CV_PPC_DAR = 119, + CV_PPC_DEC = 122, + CV_PPC_SDR1 = 125, + CV_PPC_SRR0 = 126, + CV_PPC_SRR1 = 127, + CV_PPC_SPRG0 = 372, + CV_PPC_SPRG1 = 373, + CV_PPC_SPRG2 = 374, + CV_PPC_SPRG3 = 375, + CV_PPC_ASR = 280, // 64-bit implementations only + CV_PPC_EAR = 382, + CV_PPC_PVR = 287, + CV_PPC_BAT0U = 628, + CV_PPC_BAT0L = 629, + CV_PPC_BAT1U = 630, + CV_PPC_BAT1L = 631, + CV_PPC_BAT2U = 632, + CV_PPC_BAT2L = 633, + CV_PPC_BAT3U = 634, + CV_PPC_BAT3L = 635, + CV_PPC_DBAT0U = 636, + CV_PPC_DBAT0L = 637, + CV_PPC_DBAT1U = 638, + CV_PPC_DBAT1L = 639, + CV_PPC_DBAT2U = 640, + CV_PPC_DBAT2L = 641, + CV_PPC_DBAT3U = 642, + CV_PPC_DBAT3L = 643, + + /* + ** PowerPC Special Purpose Registers Implementation Dependent ( Supervisor Level ) + */ + + /* + ** Doesn't appear that IBM/Motorola has finished defining these. + */ + + CV_PPC_PMR0 = 1044, // MPC620, + CV_PPC_PMR1 = 1045, // MPC620, + CV_PPC_PMR2 = 1046, // MPC620, + CV_PPC_PMR3 = 1047, // MPC620, + CV_PPC_PMR4 = 1048, // MPC620, + CV_PPC_PMR5 = 1049, // MPC620, + CV_PPC_PMR6 = 1050, // MPC620, + CV_PPC_PMR7 = 1051, // MPC620, + CV_PPC_PMR8 = 1052, // MPC620, + CV_PPC_PMR9 = 1053, // MPC620, + CV_PPC_PMR10 = 1054, // MPC620, + CV_PPC_PMR11 = 1055, // MPC620, + CV_PPC_PMR12 = 1056, // MPC620, + CV_PPC_PMR13 = 1057, // MPC620, + CV_PPC_PMR14 = 1058, // MPC620, + CV_PPC_PMR15 = 1059, // MPC620, + + CV_PPC_DMISS = 1076, // MPC603 + CV_PPC_DCMP = 1077, // MPC603 + CV_PPC_HASH1 = 1078, // MPC603 + CV_PPC_HASH2 = 1079, // MPC603 + CV_PPC_IMISS = 1080, // MPC603 + CV_PPC_ICMP = 1081, // MPC603 + CV_PPC_RPA = 1082, // MPC603 + + CV_PPC_HID0 = 1108, // MPC601, MPC603, MPC620 + CV_PPC_HID1 = 1109, // MPC601 + CV_PPC_HID2 = 1110, // MPC601, MPC603, MPC620 ( IABR ) + CV_PPC_HID3 = 1111, // Not Defined + CV_PPC_HID4 = 1112, // Not Defined + CV_PPC_HID5 = 1113, // MPC601, MPC604, MPC620 ( DABR ) + CV_PPC_HID6 = 1114, // Not Defined + CV_PPC_HID7 = 1115, // Not Defined + CV_PPC_HID8 = 1116, // MPC620 ( BUSCSR ) + CV_PPC_HID9 = 1117, // MPC620 ( L2CSR ) + CV_PPC_HID10 = 1118, // Not Defined + CV_PPC_HID11 = 1119, // Not Defined + CV_PPC_HID12 = 1120, // Not Defined + CV_PPC_HID13 = 1121, // MPC604 ( HCR ) + CV_PPC_HID14 = 1122, // Not Defined + CV_PPC_HID15 = 1123, // MPC601, MPC604, MPC620 ( PIR ) + + // + // JAVA VM registers + // + + CV_JAVA_PC = 1, + + // + // Register set for the Hitachi SH3 + // + + CV_SH3_NOREG = CV_REG_NONE, + + CV_SH3_IntR0 = 10, // CPU REGISTER + CV_SH3_IntR1 = 11, + CV_SH3_IntR2 = 12, + CV_SH3_IntR3 = 13, + CV_SH3_IntR4 = 14, + CV_SH3_IntR5 = 15, + CV_SH3_IntR6 = 16, + CV_SH3_IntR7 = 17, + CV_SH3_IntR8 = 18, + CV_SH3_IntR9 = 19, + CV_SH3_IntR10 = 20, + CV_SH3_IntR11 = 21, + CV_SH3_IntR12 = 22, + CV_SH3_IntR13 = 23, + CV_SH3_IntFp = 24, + CV_SH3_IntSp = 25, + CV_SH3_Gbr = 38, + CV_SH3_Pr = 39, + CV_SH3_Mach = 40, + CV_SH3_Macl = 41, + + CV_SH3_Pc = 50, + CV_SH3_Sr = 51, + + CV_SH3_BarA = 60, + CV_SH3_BasrA = 61, + CV_SH3_BamrA = 62, + CV_SH3_BbrA = 63, + CV_SH3_BarB = 64, + CV_SH3_BasrB = 65, + CV_SH3_BamrB = 66, + CV_SH3_BbrB = 67, + CV_SH3_BdrB = 68, + CV_SH3_BdmrB = 69, + CV_SH3_Brcr = 70, + + // + // Additional registers for Hitachi SH processors + // + + CV_SH_Fpscr = 75, // floating point status/control register + CV_SH_Fpul = 76, // floating point communication register + + CV_SH_FpR0 = 80, // Floating point registers + CV_SH_FpR1 = 81, + CV_SH_FpR2 = 82, + CV_SH_FpR3 = 83, + CV_SH_FpR4 = 84, + CV_SH_FpR5 = 85, + CV_SH_FpR6 = 86, + CV_SH_FpR7 = 87, + CV_SH_FpR8 = 88, + CV_SH_FpR9 = 89, + CV_SH_FpR10 = 90, + CV_SH_FpR11 = 91, + CV_SH_FpR12 = 92, + CV_SH_FpR13 = 93, + CV_SH_FpR14 = 94, + CV_SH_FpR15 = 95, + + CV_SH_XFpR0 = 96, + CV_SH_XFpR1 = 97, + CV_SH_XFpR2 = 98, + CV_SH_XFpR3 = 99, + CV_SH_XFpR4 = 100, + CV_SH_XFpR5 = 101, + CV_SH_XFpR6 = 102, + CV_SH_XFpR7 = 103, + CV_SH_XFpR8 = 104, + CV_SH_XFpR9 = 105, + CV_SH_XFpR10 = 106, + CV_SH_XFpR11 = 107, + CV_SH_XFpR12 = 108, + CV_SH_XFpR13 = 109, + CV_SH_XFpR14 = 110, + CV_SH_XFpR15 = 111, + + // + // Register set for the ARM processor. + // + + CV_ARM_NOREG = CV_REG_NONE, + + CV_ARM_R0 = 10, + CV_ARM_R1 = 11, + CV_ARM_R2 = 12, + CV_ARM_R3 = 13, + CV_ARM_R4 = 14, + CV_ARM_R5 = 15, + CV_ARM_R6 = 16, + CV_ARM_R7 = 17, + CV_ARM_R8 = 18, + CV_ARM_R9 = 19, + CV_ARM_R10 = 20, + CV_ARM_R11 = 21, // Frame pointer, if allocated + CV_ARM_R12 = 22, + CV_ARM_SP = 23, // Stack pointer + CV_ARM_LR = 24, // Link Register + CV_ARM_PC = 25, // Program counter + CV_ARM_CPSR = 26, // Current program status register + + CV_ARM_ACC0 = 27, // DSP co-processor 0 40 bit accumulator + + // + // Registers for ARM VFP10 support + // + + CV_ARM_FPSCR = 40, + CV_ARM_FPEXC = 41, + + CV_ARM_FS0 = 50, + CV_ARM_FS1 = 51, + CV_ARM_FS2 = 52, + CV_ARM_FS3 = 53, + CV_ARM_FS4 = 54, + CV_ARM_FS5 = 55, + CV_ARM_FS6 = 56, + CV_ARM_FS7 = 57, + CV_ARM_FS8 = 58, + CV_ARM_FS9 = 59, + CV_ARM_FS10 = 60, + CV_ARM_FS11 = 61, + CV_ARM_FS12 = 62, + CV_ARM_FS13 = 63, + CV_ARM_FS14 = 64, + CV_ARM_FS15 = 65, + CV_ARM_FS16 = 66, + CV_ARM_FS17 = 67, + CV_ARM_FS18 = 68, + CV_ARM_FS19 = 69, + CV_ARM_FS20 = 70, + CV_ARM_FS21 = 71, + CV_ARM_FS22 = 72, + CV_ARM_FS23 = 73, + CV_ARM_FS24 = 74, + CV_ARM_FS25 = 75, + CV_ARM_FS26 = 76, + CV_ARM_FS27 = 77, + CV_ARM_FS28 = 78, + CV_ARM_FS29 = 79, + CV_ARM_FS30 = 80, + CV_ARM_FS31 = 81, + + // + // ARM VFP Floating Point Extra control registers + // + + CV_ARM_FPEXTRA0 = 90, + CV_ARM_FPEXTRA1 = 91, + CV_ARM_FPEXTRA2 = 92, + CV_ARM_FPEXTRA3 = 93, + CV_ARM_FPEXTRA4 = 94, + CV_ARM_FPEXTRA5 = 95, + CV_ARM_FPEXTRA6 = 96, + CV_ARM_FPEXTRA7 = 97, + + // XSCALE Concan co-processor registers + CV_ARM_WR0 = 128, + CV_ARM_WR1 = 129, + CV_ARM_WR2 = 130, + CV_ARM_WR3 = 131, + CV_ARM_WR4 = 132, + CV_ARM_WR5 = 133, + CV_ARM_WR6 = 134, + CV_ARM_WR7 = 135, + CV_ARM_WR8 = 136, + CV_ARM_WR9 = 137, + CV_ARM_WR10 = 138, + CV_ARM_WR11 = 139, + CV_ARM_WR12 = 140, + CV_ARM_WR13 = 141, + CV_ARM_WR14 = 142, + CV_ARM_WR15 = 143, + + // XSCALE Concan co-processor control registers + CV_ARM_WCID = 144, + CV_ARM_WCON = 145, + CV_ARM_WCSSF = 146, + CV_ARM_WCASF = 147, + CV_ARM_WC4 = 148, + CV_ARM_WC5 = 149, + CV_ARM_WC6 = 150, + CV_ARM_WC7 = 151, + CV_ARM_WCGR0 = 152, + CV_ARM_WCGR1 = 153, + CV_ARM_WCGR2 = 154, + CV_ARM_WCGR3 = 155, + CV_ARM_WC12 = 156, + CV_ARM_WC13 = 157, + CV_ARM_WC14 = 158, + CV_ARM_WC15 = 159, + + // + // ARM VFPv3/Neon extended floating Point + // + + CV_ARM_FS32 = 200, + CV_ARM_FS33 = 201, + CV_ARM_FS34 = 202, + CV_ARM_FS35 = 203, + CV_ARM_FS36 = 204, + CV_ARM_FS37 = 205, + CV_ARM_FS38 = 206, + CV_ARM_FS39 = 207, + CV_ARM_FS40 = 208, + CV_ARM_FS41 = 209, + CV_ARM_FS42 = 210, + CV_ARM_FS43 = 211, + CV_ARM_FS44 = 212, + CV_ARM_FS45 = 213, + CV_ARM_FS46 = 214, + CV_ARM_FS47 = 215, + CV_ARM_FS48 = 216, + CV_ARM_FS49 = 217, + CV_ARM_FS50 = 218, + CV_ARM_FS51 = 219, + CV_ARM_FS52 = 220, + CV_ARM_FS53 = 221, + CV_ARM_FS54 = 222, + CV_ARM_FS55 = 223, + CV_ARM_FS56 = 224, + CV_ARM_FS57 = 225, + CV_ARM_FS58 = 226, + CV_ARM_FS59 = 227, + CV_ARM_FS60 = 228, + CV_ARM_FS61 = 229, + CV_ARM_FS62 = 230, + CV_ARM_FS63 = 231, + + // ARM double-precision floating point + + CV_ARM_ND0 = 300, + CV_ARM_ND1 = 301, + CV_ARM_ND2 = 302, + CV_ARM_ND3 = 303, + CV_ARM_ND4 = 304, + CV_ARM_ND5 = 305, + CV_ARM_ND6 = 306, + CV_ARM_ND7 = 307, + CV_ARM_ND8 = 308, + CV_ARM_ND9 = 309, + CV_ARM_ND10 = 310, + CV_ARM_ND11 = 311, + CV_ARM_ND12 = 312, + CV_ARM_ND13 = 313, + CV_ARM_ND14 = 314, + CV_ARM_ND15 = 315, + CV_ARM_ND16 = 316, + CV_ARM_ND17 = 317, + CV_ARM_ND18 = 318, + CV_ARM_ND19 = 319, + CV_ARM_ND20 = 320, + CV_ARM_ND21 = 321, + CV_ARM_ND22 = 322, + CV_ARM_ND23 = 323, + CV_ARM_ND24 = 324, + CV_ARM_ND25 = 325, + CV_ARM_ND26 = 326, + CV_ARM_ND27 = 327, + CV_ARM_ND28 = 328, + CV_ARM_ND29 = 329, + CV_ARM_ND30 = 330, + CV_ARM_ND31 = 331, + + // ARM extended precision floating point + + CV_ARM_NQ0 = 400, + CV_ARM_NQ1 = 401, + CV_ARM_NQ2 = 402, + CV_ARM_NQ3 = 403, + CV_ARM_NQ4 = 404, + CV_ARM_NQ5 = 405, + CV_ARM_NQ6 = 406, + CV_ARM_NQ7 = 407, + CV_ARM_NQ8 = 408, + CV_ARM_NQ9 = 409, + CV_ARM_NQ10 = 410, + CV_ARM_NQ11 = 411, + CV_ARM_NQ12 = 412, + CV_ARM_NQ13 = 413, + CV_ARM_NQ14 = 414, + CV_ARM_NQ15 = 415, + + // + // Register set for ARM64 + // + + CV_ARM64_NOREG = CV_REG_NONE, + + // General purpose 32-bit integer registers + + CV_ARM64_W0 = 10, + CV_ARM64_W1 = 11, + CV_ARM64_W2 = 12, + CV_ARM64_W3 = 13, + CV_ARM64_W4 = 14, + CV_ARM64_W5 = 15, + CV_ARM64_W6 = 16, + CV_ARM64_W7 = 17, + CV_ARM64_W8 = 18, + CV_ARM64_W9 = 19, + CV_ARM64_W10 = 20, + CV_ARM64_W11 = 21, + CV_ARM64_W12 = 22, + CV_ARM64_W13 = 23, + CV_ARM64_W14 = 24, + CV_ARM64_W15 = 25, + CV_ARM64_W16 = 26, + CV_ARM64_W17 = 27, + CV_ARM64_W18 = 28, + CV_ARM64_W19 = 29, + CV_ARM64_W20 = 30, + CV_ARM64_W21 = 31, + CV_ARM64_W22 = 32, + CV_ARM64_W23 = 33, + CV_ARM64_W24 = 34, + CV_ARM64_W25 = 35, + CV_ARM64_W26 = 36, + CV_ARM64_W27 = 37, + CV_ARM64_W28 = 38, + CV_ARM64_W29 = 39, + CV_ARM64_W30 = 40, + CV_ARM64_WZR = 41, + + // General purpose 64-bit integer registers + + CV_ARM64_X0 = 50, + CV_ARM64_X1 = 51, + CV_ARM64_X2 = 52, + CV_ARM64_X3 = 53, + CV_ARM64_X4 = 54, + CV_ARM64_X5 = 55, + CV_ARM64_X6 = 56, + CV_ARM64_X7 = 57, + CV_ARM64_X8 = 58, + CV_ARM64_X9 = 59, + CV_ARM64_X10 = 60, + CV_ARM64_X11 = 61, + CV_ARM64_X12 = 62, + CV_ARM64_X13 = 63, + CV_ARM64_X14 = 64, + CV_ARM64_X15 = 65, + CV_ARM64_IP0 = 66, + CV_ARM64_IP1 = 67, + CV_ARM64_X18 = 68, + CV_ARM64_X19 = 69, + CV_ARM64_X20 = 70, + CV_ARM64_X21 = 71, + CV_ARM64_X22 = 72, + CV_ARM64_X23 = 73, + CV_ARM64_X24 = 74, + CV_ARM64_X25 = 75, + CV_ARM64_X26 = 76, + CV_ARM64_X27 = 77, + CV_ARM64_X28 = 78, + CV_ARM64_FP = 79, + CV_ARM64_LR = 80, + CV_ARM64_SP = 81, + CV_ARM64_ZR = 82, + + // statue register + + CV_ARM64_NZCV = 90, + + // 32-bit floating point registers + + CV_ARM64_S0 = 100, + CV_ARM64_S1 = 101, + CV_ARM64_S2 = 102, + CV_ARM64_S3 = 103, + CV_ARM64_S4 = 104, + CV_ARM64_S5 = 105, + CV_ARM64_S6 = 106, + CV_ARM64_S7 = 107, + CV_ARM64_S8 = 108, + CV_ARM64_S9 = 109, + CV_ARM64_S10 = 110, + CV_ARM64_S11 = 111, + CV_ARM64_S12 = 112, + CV_ARM64_S13 = 113, + CV_ARM64_S14 = 114, + CV_ARM64_S15 = 115, + CV_ARM64_S16 = 116, + CV_ARM64_S17 = 117, + CV_ARM64_S18 = 118, + CV_ARM64_S19 = 119, + CV_ARM64_S20 = 120, + CV_ARM64_S21 = 121, + CV_ARM64_S22 = 122, + CV_ARM64_S23 = 123, + CV_ARM64_S24 = 124, + CV_ARM64_S25 = 125, + CV_ARM64_S26 = 126, + CV_ARM64_S27 = 127, + CV_ARM64_S28 = 128, + CV_ARM64_S29 = 129, + CV_ARM64_S30 = 130, + CV_ARM64_S31 = 131, + + // 64-bit floating point registers + + CV_ARM64_D0 = 140, + CV_ARM64_D1 = 141, + CV_ARM64_D2 = 142, + CV_ARM64_D3 = 143, + CV_ARM64_D4 = 144, + CV_ARM64_D5 = 145, + CV_ARM64_D6 = 146, + CV_ARM64_D7 = 147, + CV_ARM64_D8 = 148, + CV_ARM64_D9 = 149, + CV_ARM64_D10 = 150, + CV_ARM64_D11 = 151, + CV_ARM64_D12 = 152, + CV_ARM64_D13 = 153, + CV_ARM64_D14 = 154, + CV_ARM64_D15 = 155, + CV_ARM64_D16 = 156, + CV_ARM64_D17 = 157, + CV_ARM64_D18 = 158, + CV_ARM64_D19 = 159, + CV_ARM64_D20 = 160, + CV_ARM64_D21 = 161, + CV_ARM64_D22 = 162, + CV_ARM64_D23 = 163, + CV_ARM64_D24 = 164, + CV_ARM64_D25 = 165, + CV_ARM64_D26 = 166, + CV_ARM64_D27 = 167, + CV_ARM64_D28 = 168, + CV_ARM64_D29 = 169, + CV_ARM64_D30 = 170, + CV_ARM64_D31 = 171, + + // 128-bit SIMD registers + + CV_ARM64_Q0 = 180, + CV_ARM64_Q1 = 181, + CV_ARM64_Q2 = 182, + CV_ARM64_Q3 = 183, + CV_ARM64_Q4 = 184, + CV_ARM64_Q5 = 185, + CV_ARM64_Q6 = 186, + CV_ARM64_Q7 = 187, + CV_ARM64_Q8 = 188, + CV_ARM64_Q9 = 189, + CV_ARM64_Q10 = 190, + CV_ARM64_Q11 = 191, + CV_ARM64_Q12 = 192, + CV_ARM64_Q13 = 193, + CV_ARM64_Q14 = 194, + CV_ARM64_Q15 = 195, + CV_ARM64_Q16 = 196, + CV_ARM64_Q17 = 197, + CV_ARM64_Q18 = 198, + CV_ARM64_Q19 = 199, + CV_ARM64_Q20 = 200, + CV_ARM64_Q21 = 201, + CV_ARM64_Q22 = 202, + CV_ARM64_Q23 = 203, + CV_ARM64_Q24 = 204, + CV_ARM64_Q25 = 205, + CV_ARM64_Q26 = 206, + CV_ARM64_Q27 = 207, + CV_ARM64_Q28 = 208, + CV_ARM64_Q29 = 209, + CV_ARM64_Q30 = 210, + CV_ARM64_Q31 = 211, + + // Floating point status register + + CV_ARM64_FPSR = 220, + + // + // Register set for Intel IA64 + // + + CV_IA64_NOREG = CV_REG_NONE, + + // Branch Registers + + CV_IA64_Br0 = 512, + CV_IA64_Br1 = 513, + CV_IA64_Br2 = 514, + CV_IA64_Br3 = 515, + CV_IA64_Br4 = 516, + CV_IA64_Br5 = 517, + CV_IA64_Br6 = 518, + CV_IA64_Br7 = 519, + + // Predicate Registers + + CV_IA64_P0 = 704, + CV_IA64_P1 = 705, + CV_IA64_P2 = 706, + CV_IA64_P3 = 707, + CV_IA64_P4 = 708, + CV_IA64_P5 = 709, + CV_IA64_P6 = 710, + CV_IA64_P7 = 711, + CV_IA64_P8 = 712, + CV_IA64_P9 = 713, + CV_IA64_P10 = 714, + CV_IA64_P11 = 715, + CV_IA64_P12 = 716, + CV_IA64_P13 = 717, + CV_IA64_P14 = 718, + CV_IA64_P15 = 719, + CV_IA64_P16 = 720, + CV_IA64_P17 = 721, + CV_IA64_P18 = 722, + CV_IA64_P19 = 723, + CV_IA64_P20 = 724, + CV_IA64_P21 = 725, + CV_IA64_P22 = 726, + CV_IA64_P23 = 727, + CV_IA64_P24 = 728, + CV_IA64_P25 = 729, + CV_IA64_P26 = 730, + CV_IA64_P27 = 731, + CV_IA64_P28 = 732, + CV_IA64_P29 = 733, + CV_IA64_P30 = 734, + CV_IA64_P31 = 735, + CV_IA64_P32 = 736, + CV_IA64_P33 = 737, + CV_IA64_P34 = 738, + CV_IA64_P35 = 739, + CV_IA64_P36 = 740, + CV_IA64_P37 = 741, + CV_IA64_P38 = 742, + CV_IA64_P39 = 743, + CV_IA64_P40 = 744, + CV_IA64_P41 = 745, + CV_IA64_P42 = 746, + CV_IA64_P43 = 747, + CV_IA64_P44 = 748, + CV_IA64_P45 = 749, + CV_IA64_P46 = 750, + CV_IA64_P47 = 751, + CV_IA64_P48 = 752, + CV_IA64_P49 = 753, + CV_IA64_P50 = 754, + CV_IA64_P51 = 755, + CV_IA64_P52 = 756, + CV_IA64_P53 = 757, + CV_IA64_P54 = 758, + CV_IA64_P55 = 759, + CV_IA64_P56 = 760, + CV_IA64_P57 = 761, + CV_IA64_P58 = 762, + CV_IA64_P59 = 763, + CV_IA64_P60 = 764, + CV_IA64_P61 = 765, + CV_IA64_P62 = 766, + CV_IA64_P63 = 767, + + CV_IA64_Preds = 768, + + // Banked General Registers + + CV_IA64_IntH0 = 832, + CV_IA64_IntH1 = 833, + CV_IA64_IntH2 = 834, + CV_IA64_IntH3 = 835, + CV_IA64_IntH4 = 836, + CV_IA64_IntH5 = 837, + CV_IA64_IntH6 = 838, + CV_IA64_IntH7 = 839, + CV_IA64_IntH8 = 840, + CV_IA64_IntH9 = 841, + CV_IA64_IntH10 = 842, + CV_IA64_IntH11 = 843, + CV_IA64_IntH12 = 844, + CV_IA64_IntH13 = 845, + CV_IA64_IntH14 = 846, + CV_IA64_IntH15 = 847, + + // Special Registers + + CV_IA64_Ip = 1016, + CV_IA64_Umask = 1017, + CV_IA64_Cfm = 1018, + CV_IA64_Psr = 1019, + + // Banked General Registers + + CV_IA64_Nats = 1020, + CV_IA64_Nats2 = 1021, + CV_IA64_Nats3 = 1022, + + // General-Purpose Registers + + // Integer registers + CV_IA64_IntR0 = 1024, + CV_IA64_IntR1 = 1025, + CV_IA64_IntR2 = 1026, + CV_IA64_IntR3 = 1027, + CV_IA64_IntR4 = 1028, + CV_IA64_IntR5 = 1029, + CV_IA64_IntR6 = 1030, + CV_IA64_IntR7 = 1031, + CV_IA64_IntR8 = 1032, + CV_IA64_IntR9 = 1033, + CV_IA64_IntR10 = 1034, + CV_IA64_IntR11 = 1035, + CV_IA64_IntR12 = 1036, + CV_IA64_IntR13 = 1037, + CV_IA64_IntR14 = 1038, + CV_IA64_IntR15 = 1039, + CV_IA64_IntR16 = 1040, + CV_IA64_IntR17 = 1041, + CV_IA64_IntR18 = 1042, + CV_IA64_IntR19 = 1043, + CV_IA64_IntR20 = 1044, + CV_IA64_IntR21 = 1045, + CV_IA64_IntR22 = 1046, + CV_IA64_IntR23 = 1047, + CV_IA64_IntR24 = 1048, + CV_IA64_IntR25 = 1049, + CV_IA64_IntR26 = 1050, + CV_IA64_IntR27 = 1051, + CV_IA64_IntR28 = 1052, + CV_IA64_IntR29 = 1053, + CV_IA64_IntR30 = 1054, + CV_IA64_IntR31 = 1055, + + // Register Stack + CV_IA64_IntR32 = 1056, + CV_IA64_IntR33 = 1057, + CV_IA64_IntR34 = 1058, + CV_IA64_IntR35 = 1059, + CV_IA64_IntR36 = 1060, + CV_IA64_IntR37 = 1061, + CV_IA64_IntR38 = 1062, + CV_IA64_IntR39 = 1063, + CV_IA64_IntR40 = 1064, + CV_IA64_IntR41 = 1065, + CV_IA64_IntR42 = 1066, + CV_IA64_IntR43 = 1067, + CV_IA64_IntR44 = 1068, + CV_IA64_IntR45 = 1069, + CV_IA64_IntR46 = 1070, + CV_IA64_IntR47 = 1071, + CV_IA64_IntR48 = 1072, + CV_IA64_IntR49 = 1073, + CV_IA64_IntR50 = 1074, + CV_IA64_IntR51 = 1075, + CV_IA64_IntR52 = 1076, + CV_IA64_IntR53 = 1077, + CV_IA64_IntR54 = 1078, + CV_IA64_IntR55 = 1079, + CV_IA64_IntR56 = 1080, + CV_IA64_IntR57 = 1081, + CV_IA64_IntR58 = 1082, + CV_IA64_IntR59 = 1083, + CV_IA64_IntR60 = 1084, + CV_IA64_IntR61 = 1085, + CV_IA64_IntR62 = 1086, + CV_IA64_IntR63 = 1087, + CV_IA64_IntR64 = 1088, + CV_IA64_IntR65 = 1089, + CV_IA64_IntR66 = 1090, + CV_IA64_IntR67 = 1091, + CV_IA64_IntR68 = 1092, + CV_IA64_IntR69 = 1093, + CV_IA64_IntR70 = 1094, + CV_IA64_IntR71 = 1095, + CV_IA64_IntR72 = 1096, + CV_IA64_IntR73 = 1097, + CV_IA64_IntR74 = 1098, + CV_IA64_IntR75 = 1099, + CV_IA64_IntR76 = 1100, + CV_IA64_IntR77 = 1101, + CV_IA64_IntR78 = 1102, + CV_IA64_IntR79 = 1103, + CV_IA64_IntR80 = 1104, + CV_IA64_IntR81 = 1105, + CV_IA64_IntR82 = 1106, + CV_IA64_IntR83 = 1107, + CV_IA64_IntR84 = 1108, + CV_IA64_IntR85 = 1109, + CV_IA64_IntR86 = 1110, + CV_IA64_IntR87 = 1111, + CV_IA64_IntR88 = 1112, + CV_IA64_IntR89 = 1113, + CV_IA64_IntR90 = 1114, + CV_IA64_IntR91 = 1115, + CV_IA64_IntR92 = 1116, + CV_IA64_IntR93 = 1117, + CV_IA64_IntR94 = 1118, + CV_IA64_IntR95 = 1119, + CV_IA64_IntR96 = 1120, + CV_IA64_IntR97 = 1121, + CV_IA64_IntR98 = 1122, + CV_IA64_IntR99 = 1123, + CV_IA64_IntR100 = 1124, + CV_IA64_IntR101 = 1125, + CV_IA64_IntR102 = 1126, + CV_IA64_IntR103 = 1127, + CV_IA64_IntR104 = 1128, + CV_IA64_IntR105 = 1129, + CV_IA64_IntR106 = 1130, + CV_IA64_IntR107 = 1131, + CV_IA64_IntR108 = 1132, + CV_IA64_IntR109 = 1133, + CV_IA64_IntR110 = 1134, + CV_IA64_IntR111 = 1135, + CV_IA64_IntR112 = 1136, + CV_IA64_IntR113 = 1137, + CV_IA64_IntR114 = 1138, + CV_IA64_IntR115 = 1139, + CV_IA64_IntR116 = 1140, + CV_IA64_IntR117 = 1141, + CV_IA64_IntR118 = 1142, + CV_IA64_IntR119 = 1143, + CV_IA64_IntR120 = 1144, + CV_IA64_IntR121 = 1145, + CV_IA64_IntR122 = 1146, + CV_IA64_IntR123 = 1147, + CV_IA64_IntR124 = 1148, + CV_IA64_IntR125 = 1149, + CV_IA64_IntR126 = 1150, + CV_IA64_IntR127 = 1151, + + // Floating-Point Registers + + // Low Floating Point Registers + CV_IA64_FltF0 = 2048, + CV_IA64_FltF1 = 2049, + CV_IA64_FltF2 = 2050, + CV_IA64_FltF3 = 2051, + CV_IA64_FltF4 = 2052, + CV_IA64_FltF5 = 2053, + CV_IA64_FltF6 = 2054, + CV_IA64_FltF7 = 2055, + CV_IA64_FltF8 = 2056, + CV_IA64_FltF9 = 2057, + CV_IA64_FltF10 = 2058, + CV_IA64_FltF11 = 2059, + CV_IA64_FltF12 = 2060, + CV_IA64_FltF13 = 2061, + CV_IA64_FltF14 = 2062, + CV_IA64_FltF15 = 2063, + CV_IA64_FltF16 = 2064, + CV_IA64_FltF17 = 2065, + CV_IA64_FltF18 = 2066, + CV_IA64_FltF19 = 2067, + CV_IA64_FltF20 = 2068, + CV_IA64_FltF21 = 2069, + CV_IA64_FltF22 = 2070, + CV_IA64_FltF23 = 2071, + CV_IA64_FltF24 = 2072, + CV_IA64_FltF25 = 2073, + CV_IA64_FltF26 = 2074, + CV_IA64_FltF27 = 2075, + CV_IA64_FltF28 = 2076, + CV_IA64_FltF29 = 2077, + CV_IA64_FltF30 = 2078, + CV_IA64_FltF31 = 2079, + + // High Floating Point Registers + CV_IA64_FltF32 = 2080, + CV_IA64_FltF33 = 2081, + CV_IA64_FltF34 = 2082, + CV_IA64_FltF35 = 2083, + CV_IA64_FltF36 = 2084, + CV_IA64_FltF37 = 2085, + CV_IA64_FltF38 = 2086, + CV_IA64_FltF39 = 2087, + CV_IA64_FltF40 = 2088, + CV_IA64_FltF41 = 2089, + CV_IA64_FltF42 = 2090, + CV_IA64_FltF43 = 2091, + CV_IA64_FltF44 = 2092, + CV_IA64_FltF45 = 2093, + CV_IA64_FltF46 = 2094, + CV_IA64_FltF47 = 2095, + CV_IA64_FltF48 = 2096, + CV_IA64_FltF49 = 2097, + CV_IA64_FltF50 = 2098, + CV_IA64_FltF51 = 2099, + CV_IA64_FltF52 = 2100, + CV_IA64_FltF53 = 2101, + CV_IA64_FltF54 = 2102, + CV_IA64_FltF55 = 2103, + CV_IA64_FltF56 = 2104, + CV_IA64_FltF57 = 2105, + CV_IA64_FltF58 = 2106, + CV_IA64_FltF59 = 2107, + CV_IA64_FltF60 = 2108, + CV_IA64_FltF61 = 2109, + CV_IA64_FltF62 = 2110, + CV_IA64_FltF63 = 2111, + CV_IA64_FltF64 = 2112, + CV_IA64_FltF65 = 2113, + CV_IA64_FltF66 = 2114, + CV_IA64_FltF67 = 2115, + CV_IA64_FltF68 = 2116, + CV_IA64_FltF69 = 2117, + CV_IA64_FltF70 = 2118, + CV_IA64_FltF71 = 2119, + CV_IA64_FltF72 = 2120, + CV_IA64_FltF73 = 2121, + CV_IA64_FltF74 = 2122, + CV_IA64_FltF75 = 2123, + CV_IA64_FltF76 = 2124, + CV_IA64_FltF77 = 2125, + CV_IA64_FltF78 = 2126, + CV_IA64_FltF79 = 2127, + CV_IA64_FltF80 = 2128, + CV_IA64_FltF81 = 2129, + CV_IA64_FltF82 = 2130, + CV_IA64_FltF83 = 2131, + CV_IA64_FltF84 = 2132, + CV_IA64_FltF85 = 2133, + CV_IA64_FltF86 = 2134, + CV_IA64_FltF87 = 2135, + CV_IA64_FltF88 = 2136, + CV_IA64_FltF89 = 2137, + CV_IA64_FltF90 = 2138, + CV_IA64_FltF91 = 2139, + CV_IA64_FltF92 = 2140, + CV_IA64_FltF93 = 2141, + CV_IA64_FltF94 = 2142, + CV_IA64_FltF95 = 2143, + CV_IA64_FltF96 = 2144, + CV_IA64_FltF97 = 2145, + CV_IA64_FltF98 = 2146, + CV_IA64_FltF99 = 2147, + CV_IA64_FltF100 = 2148, + CV_IA64_FltF101 = 2149, + CV_IA64_FltF102 = 2150, + CV_IA64_FltF103 = 2151, + CV_IA64_FltF104 = 2152, + CV_IA64_FltF105 = 2153, + CV_IA64_FltF106 = 2154, + CV_IA64_FltF107 = 2155, + CV_IA64_FltF108 = 2156, + CV_IA64_FltF109 = 2157, + CV_IA64_FltF110 = 2158, + CV_IA64_FltF111 = 2159, + CV_IA64_FltF112 = 2160, + CV_IA64_FltF113 = 2161, + CV_IA64_FltF114 = 2162, + CV_IA64_FltF115 = 2163, + CV_IA64_FltF116 = 2164, + CV_IA64_FltF117 = 2165, + CV_IA64_FltF118 = 2166, + CV_IA64_FltF119 = 2167, + CV_IA64_FltF120 = 2168, + CV_IA64_FltF121 = 2169, + CV_IA64_FltF122 = 2170, + CV_IA64_FltF123 = 2171, + CV_IA64_FltF124 = 2172, + CV_IA64_FltF125 = 2173, + CV_IA64_FltF126 = 2174, + CV_IA64_FltF127 = 2175, + + // Application Registers + + CV_IA64_ApKR0 = 3072, + CV_IA64_ApKR1 = 3073, + CV_IA64_ApKR2 = 3074, + CV_IA64_ApKR3 = 3075, + CV_IA64_ApKR4 = 3076, + CV_IA64_ApKR5 = 3077, + CV_IA64_ApKR6 = 3078, + CV_IA64_ApKR7 = 3079, + CV_IA64_AR8 = 3080, + CV_IA64_AR9 = 3081, + CV_IA64_AR10 = 3082, + CV_IA64_AR11 = 3083, + CV_IA64_AR12 = 3084, + CV_IA64_AR13 = 3085, + CV_IA64_AR14 = 3086, + CV_IA64_AR15 = 3087, + CV_IA64_RsRSC = 3088, + CV_IA64_RsBSP = 3089, + CV_IA64_RsBSPSTORE = 3090, + CV_IA64_RsRNAT = 3091, + CV_IA64_AR20 = 3092, + CV_IA64_StFCR = 3093, + CV_IA64_AR22 = 3094, + CV_IA64_AR23 = 3095, + CV_IA64_EFLAG = 3096, + CV_IA64_CSD = 3097, + CV_IA64_SSD = 3098, + CV_IA64_CFLG = 3099, + CV_IA64_StFSR = 3100, + CV_IA64_StFIR = 3101, + CV_IA64_StFDR = 3102, + CV_IA64_AR31 = 3103, + CV_IA64_ApCCV = 3104, + CV_IA64_AR33 = 3105, + CV_IA64_AR34 = 3106, + CV_IA64_AR35 = 3107, + CV_IA64_ApUNAT = 3108, + CV_IA64_AR37 = 3109, + CV_IA64_AR38 = 3110, + CV_IA64_AR39 = 3111, + CV_IA64_StFPSR = 3112, + CV_IA64_AR41 = 3113, + CV_IA64_AR42 = 3114, + CV_IA64_AR43 = 3115, + CV_IA64_ApITC = 3116, + CV_IA64_AR45 = 3117, + CV_IA64_AR46 = 3118, + CV_IA64_AR47 = 3119, + CV_IA64_AR48 = 3120, + CV_IA64_AR49 = 3121, + CV_IA64_AR50 = 3122, + CV_IA64_AR51 = 3123, + CV_IA64_AR52 = 3124, + CV_IA64_AR53 = 3125, + CV_IA64_AR54 = 3126, + CV_IA64_AR55 = 3127, + CV_IA64_AR56 = 3128, + CV_IA64_AR57 = 3129, + CV_IA64_AR58 = 3130, + CV_IA64_AR59 = 3131, + CV_IA64_AR60 = 3132, + CV_IA64_AR61 = 3133, + CV_IA64_AR62 = 3134, + CV_IA64_AR63 = 3135, + CV_IA64_RsPFS = 3136, + CV_IA64_ApLC = 3137, + CV_IA64_ApEC = 3138, + CV_IA64_AR67 = 3139, + CV_IA64_AR68 = 3140, + CV_IA64_AR69 = 3141, + CV_IA64_AR70 = 3142, + CV_IA64_AR71 = 3143, + CV_IA64_AR72 = 3144, + CV_IA64_AR73 = 3145, + CV_IA64_AR74 = 3146, + CV_IA64_AR75 = 3147, + CV_IA64_AR76 = 3148, + CV_IA64_AR77 = 3149, + CV_IA64_AR78 = 3150, + CV_IA64_AR79 = 3151, + CV_IA64_AR80 = 3152, + CV_IA64_AR81 = 3153, + CV_IA64_AR82 = 3154, + CV_IA64_AR83 = 3155, + CV_IA64_AR84 = 3156, + CV_IA64_AR85 = 3157, + CV_IA64_AR86 = 3158, + CV_IA64_AR87 = 3159, + CV_IA64_AR88 = 3160, + CV_IA64_AR89 = 3161, + CV_IA64_AR90 = 3162, + CV_IA64_AR91 = 3163, + CV_IA64_AR92 = 3164, + CV_IA64_AR93 = 3165, + CV_IA64_AR94 = 3166, + CV_IA64_AR95 = 3167, + CV_IA64_AR96 = 3168, + CV_IA64_AR97 = 3169, + CV_IA64_AR98 = 3170, + CV_IA64_AR99 = 3171, + CV_IA64_AR100 = 3172, + CV_IA64_AR101 = 3173, + CV_IA64_AR102 = 3174, + CV_IA64_AR103 = 3175, + CV_IA64_AR104 = 3176, + CV_IA64_AR105 = 3177, + CV_IA64_AR106 = 3178, + CV_IA64_AR107 = 3179, + CV_IA64_AR108 = 3180, + CV_IA64_AR109 = 3181, + CV_IA64_AR110 = 3182, + CV_IA64_AR111 = 3183, + CV_IA64_AR112 = 3184, + CV_IA64_AR113 = 3185, + CV_IA64_AR114 = 3186, + CV_IA64_AR115 = 3187, + CV_IA64_AR116 = 3188, + CV_IA64_AR117 = 3189, + CV_IA64_AR118 = 3190, + CV_IA64_AR119 = 3191, + CV_IA64_AR120 = 3192, + CV_IA64_AR121 = 3193, + CV_IA64_AR122 = 3194, + CV_IA64_AR123 = 3195, + CV_IA64_AR124 = 3196, + CV_IA64_AR125 = 3197, + CV_IA64_AR126 = 3198, + CV_IA64_AR127 = 3199, + + // CPUID Registers + + CV_IA64_CPUID0 = 3328, + CV_IA64_CPUID1 = 3329, + CV_IA64_CPUID2 = 3330, + CV_IA64_CPUID3 = 3331, + CV_IA64_CPUID4 = 3332, + + // Control Registers + + CV_IA64_ApDCR = 4096, + CV_IA64_ApITM = 4097, + CV_IA64_ApIVA = 4098, + CV_IA64_CR3 = 4099, + CV_IA64_CR4 = 4100, + CV_IA64_CR5 = 4101, + CV_IA64_CR6 = 4102, + CV_IA64_CR7 = 4103, + CV_IA64_ApPTA = 4104, + CV_IA64_ApGPTA = 4105, + CV_IA64_CR10 = 4106, + CV_IA64_CR11 = 4107, + CV_IA64_CR12 = 4108, + CV_IA64_CR13 = 4109, + CV_IA64_CR14 = 4110, + CV_IA64_CR15 = 4111, + CV_IA64_StIPSR = 4112, + CV_IA64_StISR = 4113, + CV_IA64_CR18 = 4114, + CV_IA64_StIIP = 4115, + CV_IA64_StIFA = 4116, + CV_IA64_StITIR = 4117, + CV_IA64_StIIPA = 4118, + CV_IA64_StIFS = 4119, + CV_IA64_StIIM = 4120, + CV_IA64_StIHA = 4121, + CV_IA64_CR26 = 4122, + CV_IA64_CR27 = 4123, + CV_IA64_CR28 = 4124, + CV_IA64_CR29 = 4125, + CV_IA64_CR30 = 4126, + CV_IA64_CR31 = 4127, + CV_IA64_CR32 = 4128, + CV_IA64_CR33 = 4129, + CV_IA64_CR34 = 4130, + CV_IA64_CR35 = 4131, + CV_IA64_CR36 = 4132, + CV_IA64_CR37 = 4133, + CV_IA64_CR38 = 4134, + CV_IA64_CR39 = 4135, + CV_IA64_CR40 = 4136, + CV_IA64_CR41 = 4137, + CV_IA64_CR42 = 4138, + CV_IA64_CR43 = 4139, + CV_IA64_CR44 = 4140, + CV_IA64_CR45 = 4141, + CV_IA64_CR46 = 4142, + CV_IA64_CR47 = 4143, + CV_IA64_CR48 = 4144, + CV_IA64_CR49 = 4145, + CV_IA64_CR50 = 4146, + CV_IA64_CR51 = 4147, + CV_IA64_CR52 = 4148, + CV_IA64_CR53 = 4149, + CV_IA64_CR54 = 4150, + CV_IA64_CR55 = 4151, + CV_IA64_CR56 = 4152, + CV_IA64_CR57 = 4153, + CV_IA64_CR58 = 4154, + CV_IA64_CR59 = 4155, + CV_IA64_CR60 = 4156, + CV_IA64_CR61 = 4157, + CV_IA64_CR62 = 4158, + CV_IA64_CR63 = 4159, + CV_IA64_SaLID = 4160, + CV_IA64_SaIVR = 4161, + CV_IA64_SaTPR = 4162, + CV_IA64_SaEOI = 4163, + CV_IA64_SaIRR0 = 4164, + CV_IA64_SaIRR1 = 4165, + CV_IA64_SaIRR2 = 4166, + CV_IA64_SaIRR3 = 4167, + CV_IA64_SaITV = 4168, + CV_IA64_SaPMV = 4169, + CV_IA64_SaCMCV = 4170, + CV_IA64_CR75 = 4171, + CV_IA64_CR76 = 4172, + CV_IA64_CR77 = 4173, + CV_IA64_CR78 = 4174, + CV_IA64_CR79 = 4175, + CV_IA64_SaLRR0 = 4176, + CV_IA64_SaLRR1 = 4177, + CV_IA64_CR82 = 4178, + CV_IA64_CR83 = 4179, + CV_IA64_CR84 = 4180, + CV_IA64_CR85 = 4181, + CV_IA64_CR86 = 4182, + CV_IA64_CR87 = 4183, + CV_IA64_CR88 = 4184, + CV_IA64_CR89 = 4185, + CV_IA64_CR90 = 4186, + CV_IA64_CR91 = 4187, + CV_IA64_CR92 = 4188, + CV_IA64_CR93 = 4189, + CV_IA64_CR94 = 4190, + CV_IA64_CR95 = 4191, + CV_IA64_CR96 = 4192, + CV_IA64_CR97 = 4193, + CV_IA64_CR98 = 4194, + CV_IA64_CR99 = 4195, + CV_IA64_CR100 = 4196, + CV_IA64_CR101 = 4197, + CV_IA64_CR102 = 4198, + CV_IA64_CR103 = 4199, + CV_IA64_CR104 = 4200, + CV_IA64_CR105 = 4201, + CV_IA64_CR106 = 4202, + CV_IA64_CR107 = 4203, + CV_IA64_CR108 = 4204, + CV_IA64_CR109 = 4205, + CV_IA64_CR110 = 4206, + CV_IA64_CR111 = 4207, + CV_IA64_CR112 = 4208, + CV_IA64_CR113 = 4209, + CV_IA64_CR114 = 4210, + CV_IA64_CR115 = 4211, + CV_IA64_CR116 = 4212, + CV_IA64_CR117 = 4213, + CV_IA64_CR118 = 4214, + CV_IA64_CR119 = 4215, + CV_IA64_CR120 = 4216, + CV_IA64_CR121 = 4217, + CV_IA64_CR122 = 4218, + CV_IA64_CR123 = 4219, + CV_IA64_CR124 = 4220, + CV_IA64_CR125 = 4221, + CV_IA64_CR126 = 4222, + CV_IA64_CR127 = 4223, + + // Protection Key Registers + + CV_IA64_Pkr0 = 5120, + CV_IA64_Pkr1 = 5121, + CV_IA64_Pkr2 = 5122, + CV_IA64_Pkr3 = 5123, + CV_IA64_Pkr4 = 5124, + CV_IA64_Pkr5 = 5125, + CV_IA64_Pkr6 = 5126, + CV_IA64_Pkr7 = 5127, + CV_IA64_Pkr8 = 5128, + CV_IA64_Pkr9 = 5129, + CV_IA64_Pkr10 = 5130, + CV_IA64_Pkr11 = 5131, + CV_IA64_Pkr12 = 5132, + CV_IA64_Pkr13 = 5133, + CV_IA64_Pkr14 = 5134, + CV_IA64_Pkr15 = 5135, + + // Region Registers + + CV_IA64_Rr0 = 6144, + CV_IA64_Rr1 = 6145, + CV_IA64_Rr2 = 6146, + CV_IA64_Rr3 = 6147, + CV_IA64_Rr4 = 6148, + CV_IA64_Rr5 = 6149, + CV_IA64_Rr6 = 6150, + CV_IA64_Rr7 = 6151, + + // Performance Monitor Data Registers + + CV_IA64_PFD0 = 7168, + CV_IA64_PFD1 = 7169, + CV_IA64_PFD2 = 7170, + CV_IA64_PFD3 = 7171, + CV_IA64_PFD4 = 7172, + CV_IA64_PFD5 = 7173, + CV_IA64_PFD6 = 7174, + CV_IA64_PFD7 = 7175, + CV_IA64_PFD8 = 7176, + CV_IA64_PFD9 = 7177, + CV_IA64_PFD10 = 7178, + CV_IA64_PFD11 = 7179, + CV_IA64_PFD12 = 7180, + CV_IA64_PFD13 = 7181, + CV_IA64_PFD14 = 7182, + CV_IA64_PFD15 = 7183, + CV_IA64_PFD16 = 7184, + CV_IA64_PFD17 = 7185, + + // Performance Monitor Config Registers + + CV_IA64_PFC0 = 7424, + CV_IA64_PFC1 = 7425, + CV_IA64_PFC2 = 7426, + CV_IA64_PFC3 = 7427, + CV_IA64_PFC4 = 7428, + CV_IA64_PFC5 = 7429, + CV_IA64_PFC6 = 7430, + CV_IA64_PFC7 = 7431, + CV_IA64_PFC8 = 7432, + CV_IA64_PFC9 = 7433, + CV_IA64_PFC10 = 7434, + CV_IA64_PFC11 = 7435, + CV_IA64_PFC12 = 7436, + CV_IA64_PFC13 = 7437, + CV_IA64_PFC14 = 7438, + CV_IA64_PFC15 = 7439, + + // Instruction Translation Registers + + CV_IA64_TrI0 = 8192, + CV_IA64_TrI1 = 8193, + CV_IA64_TrI2 = 8194, + CV_IA64_TrI3 = 8195, + CV_IA64_TrI4 = 8196, + CV_IA64_TrI5 = 8197, + CV_IA64_TrI6 = 8198, + CV_IA64_TrI7 = 8199, + + // Data Translation Registers + + CV_IA64_TrD0 = 8320, + CV_IA64_TrD1 = 8321, + CV_IA64_TrD2 = 8322, + CV_IA64_TrD3 = 8323, + CV_IA64_TrD4 = 8324, + CV_IA64_TrD5 = 8325, + CV_IA64_TrD6 = 8326, + CV_IA64_TrD7 = 8327, + + // Instruction Breakpoint Registers + + CV_IA64_DbI0 = 8448, + CV_IA64_DbI1 = 8449, + CV_IA64_DbI2 = 8450, + CV_IA64_DbI3 = 8451, + CV_IA64_DbI4 = 8452, + CV_IA64_DbI5 = 8453, + CV_IA64_DbI6 = 8454, + CV_IA64_DbI7 = 8455, + + // Data Breakpoint Registers + + CV_IA64_DbD0 = 8576, + CV_IA64_DbD1 = 8577, + CV_IA64_DbD2 = 8578, + CV_IA64_DbD3 = 8579, + CV_IA64_DbD4 = 8580, + CV_IA64_DbD5 = 8581, + CV_IA64_DbD6 = 8582, + CV_IA64_DbD7 = 8583, + + // + // Register set for the TriCore processor. + // + + CV_TRI_NOREG = CV_REG_NONE, + + // General Purpose Data Registers + + CV_TRI_D0 = 10, + CV_TRI_D1 = 11, + CV_TRI_D2 = 12, + CV_TRI_D3 = 13, + CV_TRI_D4 = 14, + CV_TRI_D5 = 15, + CV_TRI_D6 = 16, + CV_TRI_D7 = 17, + CV_TRI_D8 = 18, + CV_TRI_D9 = 19, + CV_TRI_D10 = 20, + CV_TRI_D11 = 21, + CV_TRI_D12 = 22, + CV_TRI_D13 = 23, + CV_TRI_D14 = 24, + CV_TRI_D15 = 25, + + // General Purpose Address Registers + + CV_TRI_A0 = 26, + CV_TRI_A1 = 27, + CV_TRI_A2 = 28, + CV_TRI_A3 = 29, + CV_TRI_A4 = 30, + CV_TRI_A5 = 31, + CV_TRI_A6 = 32, + CV_TRI_A7 = 33, + CV_TRI_A8 = 34, + CV_TRI_A9 = 35, + CV_TRI_A10 = 36, + CV_TRI_A11 = 37, + CV_TRI_A12 = 38, + CV_TRI_A13 = 39, + CV_TRI_A14 = 40, + CV_TRI_A15 = 41, + + // Extended (64-bit) data registers + + CV_TRI_E0 = 42, + CV_TRI_E2 = 43, + CV_TRI_E4 = 44, + CV_TRI_E6 = 45, + CV_TRI_E8 = 46, + CV_TRI_E10 = 47, + CV_TRI_E12 = 48, + CV_TRI_E14 = 49, + + // Extended (64-bit) address registers + + CV_TRI_EA0 = 50, + CV_TRI_EA2 = 51, + CV_TRI_EA4 = 52, + CV_TRI_EA6 = 53, + CV_TRI_EA8 = 54, + CV_TRI_EA10 = 55, + CV_TRI_EA12 = 56, + CV_TRI_EA14 = 57, + + CV_TRI_PSW = 58, + CV_TRI_PCXI = 59, + CV_TRI_PC = 60, + CV_TRI_FCX = 61, + CV_TRI_LCX = 62, + CV_TRI_ISP = 63, + CV_TRI_ICR = 64, + CV_TRI_BIV = 65, + CV_TRI_BTV = 66, + CV_TRI_SYSCON = 67, + CV_TRI_DPRx_0 = 68, + CV_TRI_DPRx_1 = 69, + CV_TRI_DPRx_2 = 70, + CV_TRI_DPRx_3 = 71, + CV_TRI_CPRx_0 = 68, + CV_TRI_CPRx_1 = 69, + CV_TRI_CPRx_2 = 70, + CV_TRI_CPRx_3 = 71, + CV_TRI_DPMx_0 = 68, + CV_TRI_DPMx_1 = 69, + CV_TRI_DPMx_2 = 70, + CV_TRI_DPMx_3 = 71, + CV_TRI_CPMx_0 = 68, + CV_TRI_CPMx_1 = 69, + CV_TRI_CPMx_2 = 70, + CV_TRI_CPMx_3 = 71, + CV_TRI_DBGSSR = 72, + CV_TRI_EXEVT = 73, + CV_TRI_SWEVT = 74, + CV_TRI_CREVT = 75, + CV_TRI_TRnEVT = 76, + CV_TRI_MMUCON = 77, + CV_TRI_ASI = 78, + CV_TRI_TVA = 79, + CV_TRI_TPA = 80, + CV_TRI_TPX = 81, + CV_TRI_TFA = 82, + + // + // Register set for the AM33 and related processors. + // + + CV_AM33_NOREG = CV_REG_NONE, + + // "Extended" (general purpose integer) registers + CV_AM33_E0 = 10, + CV_AM33_E1 = 11, + CV_AM33_E2 = 12, + CV_AM33_E3 = 13, + CV_AM33_E4 = 14, + CV_AM33_E5 = 15, + CV_AM33_E6 = 16, + CV_AM33_E7 = 17, + + // Address registers + CV_AM33_A0 = 20, + CV_AM33_A1 = 21, + CV_AM33_A2 = 22, + CV_AM33_A3 = 23, + + // Integer data registers + CV_AM33_D0 = 30, + CV_AM33_D1 = 31, + CV_AM33_D2 = 32, + CV_AM33_D3 = 33, + + // (Single-precision) floating-point registers + CV_AM33_FS0 = 40, + CV_AM33_FS1 = 41, + CV_AM33_FS2 = 42, + CV_AM33_FS3 = 43, + CV_AM33_FS4 = 44, + CV_AM33_FS5 = 45, + CV_AM33_FS6 = 46, + CV_AM33_FS7 = 47, + CV_AM33_FS8 = 48, + CV_AM33_FS9 = 49, + CV_AM33_FS10 = 50, + CV_AM33_FS11 = 51, + CV_AM33_FS12 = 52, + CV_AM33_FS13 = 53, + CV_AM33_FS14 = 54, + CV_AM33_FS15 = 55, + CV_AM33_FS16 = 56, + CV_AM33_FS17 = 57, + CV_AM33_FS18 = 58, + CV_AM33_FS19 = 59, + CV_AM33_FS20 = 60, + CV_AM33_FS21 = 61, + CV_AM33_FS22 = 62, + CV_AM33_FS23 = 63, + CV_AM33_FS24 = 64, + CV_AM33_FS25 = 65, + CV_AM33_FS26 = 66, + CV_AM33_FS27 = 67, + CV_AM33_FS28 = 68, + CV_AM33_FS29 = 69, + CV_AM33_FS30 = 70, + CV_AM33_FS31 = 71, + + // Special purpose registers + + // Stack pointer + CV_AM33_SP = 80, + + // Program counter + CV_AM33_PC = 81, + + // Multiply-divide/accumulate registers + CV_AM33_MDR = 82, + CV_AM33_MDRQ = 83, + CV_AM33_MCRH = 84, + CV_AM33_MCRL = 85, + CV_AM33_MCVF = 86, + + // CPU status words + CV_AM33_EPSW = 87, + CV_AM33_FPCR = 88, + + // Loop buffer registers + CV_AM33_LIR = 89, + CV_AM33_LAR = 90, + + // + // Register set for the Mitsubishi M32R + // + + CV_M32R_NOREG = CV_REG_NONE, + + CV_M32R_R0 = 10, + CV_M32R_R1 = 11, + CV_M32R_R2 = 12, + CV_M32R_R3 = 13, + CV_M32R_R4 = 14, + CV_M32R_R5 = 15, + CV_M32R_R6 = 16, + CV_M32R_R7 = 17, + CV_M32R_R8 = 18, + CV_M32R_R9 = 19, + CV_M32R_R10 = 20, + CV_M32R_R11 = 21, + CV_M32R_R12 = 22, // Gloabal Pointer, if used + CV_M32R_R13 = 23, // Frame Pointer, if allocated + CV_M32R_R14 = 24, // Link Register + CV_M32R_R15 = 25, // Stack Pointer + CV_M32R_PSW = 26, // Preocessor Status Register + CV_M32R_CBR = 27, // Condition Bit Register + CV_M32R_SPI = 28, // Interrupt Stack Pointer + CV_M32R_SPU = 29, // User Stack Pointer + CV_M32R_SPO = 30, // OS Stack Pointer + CV_M32R_BPC = 31, // Backup Program Counter + CV_M32R_ACHI = 32, // Accumulator High + CV_M32R_ACLO = 33, // Accumulator Low + CV_M32R_PC = 34, // Program Counter + + // + // Register set for the SuperH SHMedia processor including compact + // mode + // + + // Integer - 64 bit general registers + CV_SHMEDIA_NOREG = CV_REG_NONE, + CV_SHMEDIA_R0 = 10, + CV_SHMEDIA_R1 = 11, + CV_SHMEDIA_R2 = 12, + CV_SHMEDIA_R3 = 13, + CV_SHMEDIA_R4 = 14, + CV_SHMEDIA_R5 = 15, + CV_SHMEDIA_R6 = 16, + CV_SHMEDIA_R7 = 17, + CV_SHMEDIA_R8 = 18, + CV_SHMEDIA_R9 = 19, + CV_SHMEDIA_R10 = 20, + CV_SHMEDIA_R11 = 21, + CV_SHMEDIA_R12 = 22, + CV_SHMEDIA_R13 = 23, + CV_SHMEDIA_R14 = 24, + CV_SHMEDIA_R15 = 25, + CV_SHMEDIA_R16 = 26, + CV_SHMEDIA_R17 = 27, + CV_SHMEDIA_R18 = 28, + CV_SHMEDIA_R19 = 29, + CV_SHMEDIA_R20 = 30, + CV_SHMEDIA_R21 = 31, + CV_SHMEDIA_R22 = 32, + CV_SHMEDIA_R23 = 33, + CV_SHMEDIA_R24 = 34, + CV_SHMEDIA_R25 = 35, + CV_SHMEDIA_R26 = 36, + CV_SHMEDIA_R27 = 37, + CV_SHMEDIA_R28 = 38, + CV_SHMEDIA_R29 = 39, + CV_SHMEDIA_R30 = 40, + CV_SHMEDIA_R31 = 41, + CV_SHMEDIA_R32 = 42, + CV_SHMEDIA_R33 = 43, + CV_SHMEDIA_R34 = 44, + CV_SHMEDIA_R35 = 45, + CV_SHMEDIA_R36 = 46, + CV_SHMEDIA_R37 = 47, + CV_SHMEDIA_R38 = 48, + CV_SHMEDIA_R39 = 49, + CV_SHMEDIA_R40 = 50, + CV_SHMEDIA_R41 = 51, + CV_SHMEDIA_R42 = 52, + CV_SHMEDIA_R43 = 53, + CV_SHMEDIA_R44 = 54, + CV_SHMEDIA_R45 = 55, + CV_SHMEDIA_R46 = 56, + CV_SHMEDIA_R47 = 57, + CV_SHMEDIA_R48 = 58, + CV_SHMEDIA_R49 = 59, + CV_SHMEDIA_R50 = 60, + CV_SHMEDIA_R51 = 61, + CV_SHMEDIA_R52 = 62, + CV_SHMEDIA_R53 = 63, + CV_SHMEDIA_R54 = 64, + CV_SHMEDIA_R55 = 65, + CV_SHMEDIA_R56 = 66, + CV_SHMEDIA_R57 = 67, + CV_SHMEDIA_R58 = 68, + CV_SHMEDIA_R59 = 69, + CV_SHMEDIA_R60 = 70, + CV_SHMEDIA_R61 = 71, + CV_SHMEDIA_R62 = 72, + CV_SHMEDIA_R63 = 73, + + // Target Registers - 32 bit + CV_SHMEDIA_TR0 = 74, + CV_SHMEDIA_TR1 = 75, + CV_SHMEDIA_TR2 = 76, + CV_SHMEDIA_TR3 = 77, + CV_SHMEDIA_TR4 = 78, + CV_SHMEDIA_TR5 = 79, + CV_SHMEDIA_TR6 = 80, + CV_SHMEDIA_TR7 = 81, + CV_SHMEDIA_TR8 = 82, // future-proof + CV_SHMEDIA_TR9 = 83, // future-proof + CV_SHMEDIA_TR10 = 84, // future-proof + CV_SHMEDIA_TR11 = 85, // future-proof + CV_SHMEDIA_TR12 = 86, // future-proof + CV_SHMEDIA_TR13 = 87, // future-proof + CV_SHMEDIA_TR14 = 88, // future-proof + CV_SHMEDIA_TR15 = 89, // future-proof + + // Single - 32 bit fp registers + CV_SHMEDIA_FR0 = 128, + CV_SHMEDIA_FR1 = 129, + CV_SHMEDIA_FR2 = 130, + CV_SHMEDIA_FR3 = 131, + CV_SHMEDIA_FR4 = 132, + CV_SHMEDIA_FR5 = 133, + CV_SHMEDIA_FR6 = 134, + CV_SHMEDIA_FR7 = 135, + CV_SHMEDIA_FR8 = 136, + CV_SHMEDIA_FR9 = 137, + CV_SHMEDIA_FR10 = 138, + CV_SHMEDIA_FR11 = 139, + CV_SHMEDIA_FR12 = 140, + CV_SHMEDIA_FR13 = 141, + CV_SHMEDIA_FR14 = 142, + CV_SHMEDIA_FR15 = 143, + CV_SHMEDIA_FR16 = 144, + CV_SHMEDIA_FR17 = 145, + CV_SHMEDIA_FR18 = 146, + CV_SHMEDIA_FR19 = 147, + CV_SHMEDIA_FR20 = 148, + CV_SHMEDIA_FR21 = 149, + CV_SHMEDIA_FR22 = 150, + CV_SHMEDIA_FR23 = 151, + CV_SHMEDIA_FR24 = 152, + CV_SHMEDIA_FR25 = 153, + CV_SHMEDIA_FR26 = 154, + CV_SHMEDIA_FR27 = 155, + CV_SHMEDIA_FR28 = 156, + CV_SHMEDIA_FR29 = 157, + CV_SHMEDIA_FR30 = 158, + CV_SHMEDIA_FR31 = 159, + CV_SHMEDIA_FR32 = 160, + CV_SHMEDIA_FR33 = 161, + CV_SHMEDIA_FR34 = 162, + CV_SHMEDIA_FR35 = 163, + CV_SHMEDIA_FR36 = 164, + CV_SHMEDIA_FR37 = 165, + CV_SHMEDIA_FR38 = 166, + CV_SHMEDIA_FR39 = 167, + CV_SHMEDIA_FR40 = 168, + CV_SHMEDIA_FR41 = 169, + CV_SHMEDIA_FR42 = 170, + CV_SHMEDIA_FR43 = 171, + CV_SHMEDIA_FR44 = 172, + CV_SHMEDIA_FR45 = 173, + CV_SHMEDIA_FR46 = 174, + CV_SHMEDIA_FR47 = 175, + CV_SHMEDIA_FR48 = 176, + CV_SHMEDIA_FR49 = 177, + CV_SHMEDIA_FR50 = 178, + CV_SHMEDIA_FR51 = 179, + CV_SHMEDIA_FR52 = 180, + CV_SHMEDIA_FR53 = 181, + CV_SHMEDIA_FR54 = 182, + CV_SHMEDIA_FR55 = 183, + CV_SHMEDIA_FR56 = 184, + CV_SHMEDIA_FR57 = 185, + CV_SHMEDIA_FR58 = 186, + CV_SHMEDIA_FR59 = 187, + CV_SHMEDIA_FR60 = 188, + CV_SHMEDIA_FR61 = 189, + CV_SHMEDIA_FR62 = 190, + CV_SHMEDIA_FR63 = 191, + + // Double - 64 bit synonyms for 32bit fp register pairs + // subtract 128 to find first base single register + CV_SHMEDIA_DR0 = 256, + CV_SHMEDIA_DR2 = 258, + CV_SHMEDIA_DR4 = 260, + CV_SHMEDIA_DR6 = 262, + CV_SHMEDIA_DR8 = 264, + CV_SHMEDIA_DR10 = 266, + CV_SHMEDIA_DR12 = 268, + CV_SHMEDIA_DR14 = 270, + CV_SHMEDIA_DR16 = 272, + CV_SHMEDIA_DR18 = 274, + CV_SHMEDIA_DR20 = 276, + CV_SHMEDIA_DR22 = 278, + CV_SHMEDIA_DR24 = 280, + CV_SHMEDIA_DR26 = 282, + CV_SHMEDIA_DR28 = 284, + CV_SHMEDIA_DR30 = 286, + CV_SHMEDIA_DR32 = 288, + CV_SHMEDIA_DR34 = 290, + CV_SHMEDIA_DR36 = 292, + CV_SHMEDIA_DR38 = 294, + CV_SHMEDIA_DR40 = 296, + CV_SHMEDIA_DR42 = 298, + CV_SHMEDIA_DR44 = 300, + CV_SHMEDIA_DR46 = 302, + CV_SHMEDIA_DR48 = 304, + CV_SHMEDIA_DR50 = 306, + CV_SHMEDIA_DR52 = 308, + CV_SHMEDIA_DR54 = 310, + CV_SHMEDIA_DR56 = 312, + CV_SHMEDIA_DR58 = 314, + CV_SHMEDIA_DR60 = 316, + CV_SHMEDIA_DR62 = 318, + + // Vector - 128 bit synonyms for 32bit fp register quads + // subtract 384 to find first base single register + CV_SHMEDIA_FV0 = 512, + CV_SHMEDIA_FV4 = 516, + CV_SHMEDIA_FV8 = 520, + CV_SHMEDIA_FV12 = 524, + CV_SHMEDIA_FV16 = 528, + CV_SHMEDIA_FV20 = 532, + CV_SHMEDIA_FV24 = 536, + CV_SHMEDIA_FV28 = 540, + CV_SHMEDIA_FV32 = 544, + CV_SHMEDIA_FV36 = 548, + CV_SHMEDIA_FV40 = 552, + CV_SHMEDIA_FV44 = 556, + CV_SHMEDIA_FV48 = 560, + CV_SHMEDIA_FV52 = 564, + CV_SHMEDIA_FV56 = 568, + CV_SHMEDIA_FV60 = 572, + + // Matrix - 512 bit synonyms for 16 adjacent 32bit fp registers + // subtract 896 to find first base single register + CV_SHMEDIA_MTRX0 = 1024, + CV_SHMEDIA_MTRX16 = 1040, + CV_SHMEDIA_MTRX32 = 1056, + CV_SHMEDIA_MTRX48 = 1072, + + // Control - Implementation defined 64bit control registers + CV_SHMEDIA_CR0 = 2000, + CV_SHMEDIA_CR1 = 2001, + CV_SHMEDIA_CR2 = 2002, + CV_SHMEDIA_CR3 = 2003, + CV_SHMEDIA_CR4 = 2004, + CV_SHMEDIA_CR5 = 2005, + CV_SHMEDIA_CR6 = 2006, + CV_SHMEDIA_CR7 = 2007, + CV_SHMEDIA_CR8 = 2008, + CV_SHMEDIA_CR9 = 2009, + CV_SHMEDIA_CR10 = 2010, + CV_SHMEDIA_CR11 = 2011, + CV_SHMEDIA_CR12 = 2012, + CV_SHMEDIA_CR13 = 2013, + CV_SHMEDIA_CR14 = 2014, + CV_SHMEDIA_CR15 = 2015, + CV_SHMEDIA_CR16 = 2016, + CV_SHMEDIA_CR17 = 2017, + CV_SHMEDIA_CR18 = 2018, + CV_SHMEDIA_CR19 = 2019, + CV_SHMEDIA_CR20 = 2020, + CV_SHMEDIA_CR21 = 2021, + CV_SHMEDIA_CR22 = 2022, + CV_SHMEDIA_CR23 = 2023, + CV_SHMEDIA_CR24 = 2024, + CV_SHMEDIA_CR25 = 2025, + CV_SHMEDIA_CR26 = 2026, + CV_SHMEDIA_CR27 = 2027, + CV_SHMEDIA_CR28 = 2028, + CV_SHMEDIA_CR29 = 2029, + CV_SHMEDIA_CR30 = 2030, + CV_SHMEDIA_CR31 = 2031, + CV_SHMEDIA_CR32 = 2032, + CV_SHMEDIA_CR33 = 2033, + CV_SHMEDIA_CR34 = 2034, + CV_SHMEDIA_CR35 = 2035, + CV_SHMEDIA_CR36 = 2036, + CV_SHMEDIA_CR37 = 2037, + CV_SHMEDIA_CR38 = 2038, + CV_SHMEDIA_CR39 = 2039, + CV_SHMEDIA_CR40 = 2040, + CV_SHMEDIA_CR41 = 2041, + CV_SHMEDIA_CR42 = 2042, + CV_SHMEDIA_CR43 = 2043, + CV_SHMEDIA_CR44 = 2044, + CV_SHMEDIA_CR45 = 2045, + CV_SHMEDIA_CR46 = 2046, + CV_SHMEDIA_CR47 = 2047, + CV_SHMEDIA_CR48 = 2048, + CV_SHMEDIA_CR49 = 2049, + CV_SHMEDIA_CR50 = 2050, + CV_SHMEDIA_CR51 = 2051, + CV_SHMEDIA_CR52 = 2052, + CV_SHMEDIA_CR53 = 2053, + CV_SHMEDIA_CR54 = 2054, + CV_SHMEDIA_CR55 = 2055, + CV_SHMEDIA_CR56 = 2056, + CV_SHMEDIA_CR57 = 2057, + CV_SHMEDIA_CR58 = 2058, + CV_SHMEDIA_CR59 = 2059, + CV_SHMEDIA_CR60 = 2060, + CV_SHMEDIA_CR61 = 2061, + CV_SHMEDIA_CR62 = 2062, + CV_SHMEDIA_CR63 = 2063, + + CV_SHMEDIA_FPSCR = 2064, + + // Compact mode synonyms + CV_SHMEDIA_GBR = CV_SHMEDIA_R16, + CV_SHMEDIA_MACL = 90, // synonym for lower 32bits of media R17 + CV_SHMEDIA_MACH = 91, // synonym for upper 32bits of media R17 + CV_SHMEDIA_PR = CV_SHMEDIA_R18, + CV_SHMEDIA_T = 92, // synonym for lowest bit of media R19 + CV_SHMEDIA_FPUL = CV_SHMEDIA_FR32, + CV_SHMEDIA_PC = 93, + CV_SHMEDIA_SR = CV_SHMEDIA_CR0, + + // + // AMD64 registers + // + + CV_AMD64_AL = 1, + CV_AMD64_CL = 2, + CV_AMD64_DL = 3, + CV_AMD64_BL = 4, + CV_AMD64_AH = 5, + CV_AMD64_CH = 6, + CV_AMD64_DH = 7, + CV_AMD64_BH = 8, + CV_AMD64_AX = 9, + CV_AMD64_CX = 10, + CV_AMD64_DX = 11, + CV_AMD64_BX = 12, + CV_AMD64_SP = 13, + CV_AMD64_BP = 14, + CV_AMD64_SI = 15, + CV_AMD64_DI = 16, + CV_AMD64_EAX = 17, + CV_AMD64_ECX = 18, + CV_AMD64_EDX = 19, + CV_AMD64_EBX = 20, + CV_AMD64_ESP = 21, + CV_AMD64_EBP = 22, + CV_AMD64_ESI = 23, + CV_AMD64_EDI = 24, + CV_AMD64_ES = 25, + CV_AMD64_CS = 26, + CV_AMD64_SS = 27, + CV_AMD64_DS = 28, + CV_AMD64_FS = 29, + CV_AMD64_GS = 30, + CV_AMD64_FLAGS = 32, + CV_AMD64_RIP = 33, + CV_AMD64_EFLAGS = 34, + + // Control registers + CV_AMD64_CR0 = 80, + CV_AMD64_CR1 = 81, + CV_AMD64_CR2 = 82, + CV_AMD64_CR3 = 83, + CV_AMD64_CR4 = 84, + CV_AMD64_CR8 = 88, + + // Debug registers + CV_AMD64_DR0 = 90, + CV_AMD64_DR1 = 91, + CV_AMD64_DR2 = 92, + CV_AMD64_DR3 = 93, + CV_AMD64_DR4 = 94, + CV_AMD64_DR5 = 95, + CV_AMD64_DR6 = 96, + CV_AMD64_DR7 = 97, + CV_AMD64_DR8 = 98, + CV_AMD64_DR9 = 99, + CV_AMD64_DR10 = 100, + CV_AMD64_DR11 = 101, + CV_AMD64_DR12 = 102, + CV_AMD64_DR13 = 103, + CV_AMD64_DR14 = 104, + CV_AMD64_DR15 = 105, + + CV_AMD64_GDTR = 110, + CV_AMD64_GDTL = 111, + CV_AMD64_IDTR = 112, + CV_AMD64_IDTL = 113, + CV_AMD64_LDTR = 114, + CV_AMD64_TR = 115, + + CV_AMD64_ST0 = 128, + CV_AMD64_ST1 = 129, + CV_AMD64_ST2 = 130, + CV_AMD64_ST3 = 131, + CV_AMD64_ST4 = 132, + CV_AMD64_ST5 = 133, + CV_AMD64_ST6 = 134, + CV_AMD64_ST7 = 135, + CV_AMD64_CTRL = 136, + CV_AMD64_STAT = 137, + CV_AMD64_TAG = 138, + CV_AMD64_FPIP = 139, + CV_AMD64_FPCS = 140, + CV_AMD64_FPDO = 141, + CV_AMD64_FPDS = 142, + CV_AMD64_ISEM = 143, + CV_AMD64_FPEIP = 144, + CV_AMD64_FPEDO = 145, + + CV_AMD64_MM0 = 146, + CV_AMD64_MM1 = 147, + CV_AMD64_MM2 = 148, + CV_AMD64_MM3 = 149, + CV_AMD64_MM4 = 150, + CV_AMD64_MM5 = 151, + CV_AMD64_MM6 = 152, + CV_AMD64_MM7 = 153, + + CV_AMD64_XMM0 = 154, // KATMAI registers + CV_AMD64_XMM1 = 155, + CV_AMD64_XMM2 = 156, + CV_AMD64_XMM3 = 157, + CV_AMD64_XMM4 = 158, + CV_AMD64_XMM5 = 159, + CV_AMD64_XMM6 = 160, + CV_AMD64_XMM7 = 161, + + CV_AMD64_XMM0_0 = 162, // KATMAI sub-registers + CV_AMD64_XMM0_1 = 163, + CV_AMD64_XMM0_2 = 164, + CV_AMD64_XMM0_3 = 165, + CV_AMD64_XMM1_0 = 166, + CV_AMD64_XMM1_1 = 167, + CV_AMD64_XMM1_2 = 168, + CV_AMD64_XMM1_3 = 169, + CV_AMD64_XMM2_0 = 170, + CV_AMD64_XMM2_1 = 171, + CV_AMD64_XMM2_2 = 172, + CV_AMD64_XMM2_3 = 173, + CV_AMD64_XMM3_0 = 174, + CV_AMD64_XMM3_1 = 175, + CV_AMD64_XMM3_2 = 176, + CV_AMD64_XMM3_3 = 177, + CV_AMD64_XMM4_0 = 178, + CV_AMD64_XMM4_1 = 179, + CV_AMD64_XMM4_2 = 180, + CV_AMD64_XMM4_3 = 181, + CV_AMD64_XMM5_0 = 182, + CV_AMD64_XMM5_1 = 183, + CV_AMD64_XMM5_2 = 184, + CV_AMD64_XMM5_3 = 185, + CV_AMD64_XMM6_0 = 186, + CV_AMD64_XMM6_1 = 187, + CV_AMD64_XMM6_2 = 188, + CV_AMD64_XMM6_3 = 189, + CV_AMD64_XMM7_0 = 190, + CV_AMD64_XMM7_1 = 191, + CV_AMD64_XMM7_2 = 192, + CV_AMD64_XMM7_3 = 193, + + CV_AMD64_XMM0L = 194, + CV_AMD64_XMM1L = 195, + CV_AMD64_XMM2L = 196, + CV_AMD64_XMM3L = 197, + CV_AMD64_XMM4L = 198, + CV_AMD64_XMM5L = 199, + CV_AMD64_XMM6L = 200, + CV_AMD64_XMM7L = 201, + + CV_AMD64_XMM0H = 202, + CV_AMD64_XMM1H = 203, + CV_AMD64_XMM2H = 204, + CV_AMD64_XMM3H = 205, + CV_AMD64_XMM4H = 206, + CV_AMD64_XMM5H = 207, + CV_AMD64_XMM6H = 208, + CV_AMD64_XMM7H = 209, + + CV_AMD64_MXCSR = 211, // XMM status register + + CV_AMD64_EMM0L = 220, // XMM sub-registers (WNI integer) + CV_AMD64_EMM1L = 221, + CV_AMD64_EMM2L = 222, + CV_AMD64_EMM3L = 223, + CV_AMD64_EMM4L = 224, + CV_AMD64_EMM5L = 225, + CV_AMD64_EMM6L = 226, + CV_AMD64_EMM7L = 227, + + CV_AMD64_EMM0H = 228, + CV_AMD64_EMM1H = 229, + CV_AMD64_EMM2H = 230, + CV_AMD64_EMM3H = 231, + CV_AMD64_EMM4H = 232, + CV_AMD64_EMM5H = 233, + CV_AMD64_EMM6H = 234, + CV_AMD64_EMM7H = 235, + + // do not change the order of these regs, first one must be even too + CV_AMD64_MM00 = 236, + CV_AMD64_MM01 = 237, + CV_AMD64_MM10 = 238, + CV_AMD64_MM11 = 239, + CV_AMD64_MM20 = 240, + CV_AMD64_MM21 = 241, + CV_AMD64_MM30 = 242, + CV_AMD64_MM31 = 243, + CV_AMD64_MM40 = 244, + CV_AMD64_MM41 = 245, + CV_AMD64_MM50 = 246, + CV_AMD64_MM51 = 247, + CV_AMD64_MM60 = 248, + CV_AMD64_MM61 = 249, + CV_AMD64_MM70 = 250, + CV_AMD64_MM71 = 251, + + // Extended KATMAI registers + CV_AMD64_XMM8 = 252, // KATMAI registers + CV_AMD64_XMM9 = 253, + CV_AMD64_XMM10 = 254, + CV_AMD64_XMM11 = 255, + CV_AMD64_XMM12 = 256, + CV_AMD64_XMM13 = 257, + CV_AMD64_XMM14 = 258, + CV_AMD64_XMM15 = 259, + + CV_AMD64_XMM8_0 = 260, // KATMAI sub-registers + CV_AMD64_XMM8_1 = 261, + CV_AMD64_XMM8_2 = 262, + CV_AMD64_XMM8_3 = 263, + CV_AMD64_XMM9_0 = 264, + CV_AMD64_XMM9_1 = 265, + CV_AMD64_XMM9_2 = 266, + CV_AMD64_XMM9_3 = 267, + CV_AMD64_XMM10_0 = 268, + CV_AMD64_XMM10_1 = 269, + CV_AMD64_XMM10_2 = 270, + CV_AMD64_XMM10_3 = 271, + CV_AMD64_XMM11_0 = 272, + CV_AMD64_XMM11_1 = 273, + CV_AMD64_XMM11_2 = 274, + CV_AMD64_XMM11_3 = 275, + CV_AMD64_XMM12_0 = 276, + CV_AMD64_XMM12_1 = 277, + CV_AMD64_XMM12_2 = 278, + CV_AMD64_XMM12_3 = 279, + CV_AMD64_XMM13_0 = 280, + CV_AMD64_XMM13_1 = 281, + CV_AMD64_XMM13_2 = 282, + CV_AMD64_XMM13_3 = 283, + CV_AMD64_XMM14_0 = 284, + CV_AMD64_XMM14_1 = 285, + CV_AMD64_XMM14_2 = 286, + CV_AMD64_XMM14_3 = 287, + CV_AMD64_XMM15_0 = 288, + CV_AMD64_XMM15_1 = 289, + CV_AMD64_XMM15_2 = 290, + CV_AMD64_XMM15_3 = 291, + + CV_AMD64_XMM8L = 292, + CV_AMD64_XMM9L = 293, + CV_AMD64_XMM10L = 294, + CV_AMD64_XMM11L = 295, + CV_AMD64_XMM12L = 296, + CV_AMD64_XMM13L = 297, + CV_AMD64_XMM14L = 298, + CV_AMD64_XMM15L = 299, + + CV_AMD64_XMM8H = 300, + CV_AMD64_XMM9H = 301, + CV_AMD64_XMM10H = 302, + CV_AMD64_XMM11H = 303, + CV_AMD64_XMM12H = 304, + CV_AMD64_XMM13H = 305, + CV_AMD64_XMM14H = 306, + CV_AMD64_XMM15H = 307, + + CV_AMD64_EMM8L = 308, // XMM sub-registers (WNI integer) + CV_AMD64_EMM9L = 309, + CV_AMD64_EMM10L = 310, + CV_AMD64_EMM11L = 311, + CV_AMD64_EMM12L = 312, + CV_AMD64_EMM13L = 313, + CV_AMD64_EMM14L = 314, + CV_AMD64_EMM15L = 315, + + CV_AMD64_EMM8H = 316, + CV_AMD64_EMM9H = 317, + CV_AMD64_EMM10H = 318, + CV_AMD64_EMM11H = 319, + CV_AMD64_EMM12H = 320, + CV_AMD64_EMM13H = 321, + CV_AMD64_EMM14H = 322, + CV_AMD64_EMM15H = 323, + + // Low byte forms of some standard registers + CV_AMD64_SIL = 324, + CV_AMD64_DIL = 325, + CV_AMD64_BPL = 326, + CV_AMD64_SPL = 327, + + // 64-bit regular registers + CV_AMD64_RAX = 328, + CV_AMD64_RBX = 329, + CV_AMD64_RCX = 330, + CV_AMD64_RDX = 331, + CV_AMD64_RSI = 332, + CV_AMD64_RDI = 333, + CV_AMD64_RBP = 334, + CV_AMD64_RSP = 335, + + // 64-bit integer registers with 8-, 16-, and 32-bit forms (B, W, and D) + CV_AMD64_R8 = 336, + CV_AMD64_R9 = 337, + CV_AMD64_R10 = 338, + CV_AMD64_R11 = 339, + CV_AMD64_R12 = 340, + CV_AMD64_R13 = 341, + CV_AMD64_R14 = 342, + CV_AMD64_R15 = 343, + + CV_AMD64_R8B = 344, + CV_AMD64_R9B = 345, + CV_AMD64_R10B = 346, + CV_AMD64_R11B = 347, + CV_AMD64_R12B = 348, + CV_AMD64_R13B = 349, + CV_AMD64_R14B = 350, + CV_AMD64_R15B = 351, + + CV_AMD64_R8W = 352, + CV_AMD64_R9W = 353, + CV_AMD64_R10W = 354, + CV_AMD64_R11W = 355, + CV_AMD64_R12W = 356, + CV_AMD64_R13W = 357, + CV_AMD64_R14W = 358, + CV_AMD64_R15W = 359, + + CV_AMD64_R8D = 360, + CV_AMD64_R9D = 361, + CV_AMD64_R10D = 362, + CV_AMD64_R11D = 363, + CV_AMD64_R12D = 364, + CV_AMD64_R13D = 365, + CV_AMD64_R14D = 366, + CV_AMD64_R15D = 367, + + // AVX registers 256 bits + CV_AMD64_YMM0 = 368, + CV_AMD64_YMM1 = 369, + CV_AMD64_YMM2 = 370, + CV_AMD64_YMM3 = 371, + CV_AMD64_YMM4 = 372, + CV_AMD64_YMM5 = 373, + CV_AMD64_YMM6 = 374, + CV_AMD64_YMM7 = 375, + CV_AMD64_YMM8 = 376, + CV_AMD64_YMM9 = 377, + CV_AMD64_YMM10 = 378, + CV_AMD64_YMM11 = 379, + CV_AMD64_YMM12 = 380, + CV_AMD64_YMM13 = 381, + CV_AMD64_YMM14 = 382, + CV_AMD64_YMM15 = 383, + + // AVX registers upper 128 bits + CV_AMD64_YMM0H = 384, + CV_AMD64_YMM1H = 385, + CV_AMD64_YMM2H = 386, + CV_AMD64_YMM3H = 387, + CV_AMD64_YMM4H = 388, + CV_AMD64_YMM5H = 389, + CV_AMD64_YMM6H = 390, + CV_AMD64_YMM7H = 391, + CV_AMD64_YMM8H = 392, + CV_AMD64_YMM9H = 393, + CV_AMD64_YMM10H = 394, + CV_AMD64_YMM11H = 395, + CV_AMD64_YMM12H = 396, + CV_AMD64_YMM13H = 397, + CV_AMD64_YMM14H = 398, + CV_AMD64_YMM15H = 399, + + //Lower/upper 8 bytes of XMM registers. Unlike CV_AMD64_XMM, these + //values reprsesent the bit patterns of the registers as 64-bit integers, not + //the representation of these registers as a double. + CV_AMD64_XMM0IL = 400, + CV_AMD64_XMM1IL = 401, + CV_AMD64_XMM2IL = 402, + CV_AMD64_XMM3IL = 403, + CV_AMD64_XMM4IL = 404, + CV_AMD64_XMM5IL = 405, + CV_AMD64_XMM6IL = 406, + CV_AMD64_XMM7IL = 407, + CV_AMD64_XMM8IL = 408, + CV_AMD64_XMM9IL = 409, + CV_AMD64_XMM10IL = 410, + CV_AMD64_XMM11IL = 411, + CV_AMD64_XMM12IL = 412, + CV_AMD64_XMM13IL = 413, + CV_AMD64_XMM14IL = 414, + CV_AMD64_XMM15IL = 415, + + CV_AMD64_XMM0IH = 416, + CV_AMD64_XMM1IH = 417, + CV_AMD64_XMM2IH = 418, + CV_AMD64_XMM3IH = 419, + CV_AMD64_XMM4IH = 420, + CV_AMD64_XMM5IH = 421, + CV_AMD64_XMM6IH = 422, + CV_AMD64_XMM7IH = 423, + CV_AMD64_XMM8IH = 424, + CV_AMD64_XMM9IH = 425, + CV_AMD64_XMM10IH = 426, + CV_AMD64_XMM11IH = 427, + CV_AMD64_XMM12IH = 428, + CV_AMD64_XMM13IH = 429, + CV_AMD64_XMM14IH = 430, + CV_AMD64_XMM15IH = 431, + + CV_AMD64_YMM0I0 = 432, // AVX integer registers + CV_AMD64_YMM0I1 = 433, + CV_AMD64_YMM0I2 = 434, + CV_AMD64_YMM0I3 = 435, + CV_AMD64_YMM1I0 = 436, + CV_AMD64_YMM1I1 = 437, + CV_AMD64_YMM1I2 = 438, + CV_AMD64_YMM1I3 = 439, + CV_AMD64_YMM2I0 = 440, + CV_AMD64_YMM2I1 = 441, + CV_AMD64_YMM2I2 = 442, + CV_AMD64_YMM2I3 = 443, + CV_AMD64_YMM3I0 = 444, + CV_AMD64_YMM3I1 = 445, + CV_AMD64_YMM3I2 = 446, + CV_AMD64_YMM3I3 = 447, + CV_AMD64_YMM4I0 = 448, + CV_AMD64_YMM4I1 = 449, + CV_AMD64_YMM4I2 = 450, + CV_AMD64_YMM4I3 = 451, + CV_AMD64_YMM5I0 = 452, + CV_AMD64_YMM5I1 = 453, + CV_AMD64_YMM5I2 = 454, + CV_AMD64_YMM5I3 = 455, + CV_AMD64_YMM6I0 = 456, + CV_AMD64_YMM6I1 = 457, + CV_AMD64_YMM6I2 = 458, + CV_AMD64_YMM6I3 = 459, + CV_AMD64_YMM7I0 = 460, + CV_AMD64_YMM7I1 = 461, + CV_AMD64_YMM7I2 = 462, + CV_AMD64_YMM7I3 = 463, + CV_AMD64_YMM8I0 = 464, + CV_AMD64_YMM8I1 = 465, + CV_AMD64_YMM8I2 = 466, + CV_AMD64_YMM8I3 = 467, + CV_AMD64_YMM9I0 = 468, + CV_AMD64_YMM9I1 = 469, + CV_AMD64_YMM9I2 = 470, + CV_AMD64_YMM9I3 = 471, + CV_AMD64_YMM10I0 = 472, + CV_AMD64_YMM10I1 = 473, + CV_AMD64_YMM10I2 = 474, + CV_AMD64_YMM10I3 = 475, + CV_AMD64_YMM11I0 = 476, + CV_AMD64_YMM11I1 = 477, + CV_AMD64_YMM11I2 = 478, + CV_AMD64_YMM11I3 = 479, + CV_AMD64_YMM12I0 = 480, + CV_AMD64_YMM12I1 = 481, + CV_AMD64_YMM12I2 = 482, + CV_AMD64_YMM12I3 = 483, + CV_AMD64_YMM13I0 = 484, + CV_AMD64_YMM13I1 = 485, + CV_AMD64_YMM13I2 = 486, + CV_AMD64_YMM13I3 = 487, + CV_AMD64_YMM14I0 = 488, + CV_AMD64_YMM14I1 = 489, + CV_AMD64_YMM14I2 = 490, + CV_AMD64_YMM14I3 = 491, + CV_AMD64_YMM15I0 = 492, + CV_AMD64_YMM15I1 = 493, + CV_AMD64_YMM15I2 = 494, + CV_AMD64_YMM15I3 = 495, + + CV_AMD64_YMM0F0 = 496, // AVX floating-point single precise registers + CV_AMD64_YMM0F1 = 497, + CV_AMD64_YMM0F2 = 498, + CV_AMD64_YMM0F3 = 499, + CV_AMD64_YMM0F4 = 500, + CV_AMD64_YMM0F5 = 501, + CV_AMD64_YMM0F6 = 502, + CV_AMD64_YMM0F7 = 503, + CV_AMD64_YMM1F0 = 504, + CV_AMD64_YMM1F1 = 505, + CV_AMD64_YMM1F2 = 506, + CV_AMD64_YMM1F3 = 507, + CV_AMD64_YMM1F4 = 508, + CV_AMD64_YMM1F5 = 509, + CV_AMD64_YMM1F6 = 510, + CV_AMD64_YMM1F7 = 511, + CV_AMD64_YMM2F0 = 512, + CV_AMD64_YMM2F1 = 513, + CV_AMD64_YMM2F2 = 514, + CV_AMD64_YMM2F3 = 515, + CV_AMD64_YMM2F4 = 516, + CV_AMD64_YMM2F5 = 517, + CV_AMD64_YMM2F6 = 518, + CV_AMD64_YMM2F7 = 519, + CV_AMD64_YMM3F0 = 520, + CV_AMD64_YMM3F1 = 521, + CV_AMD64_YMM3F2 = 522, + CV_AMD64_YMM3F3 = 523, + CV_AMD64_YMM3F4 = 524, + CV_AMD64_YMM3F5 = 525, + CV_AMD64_YMM3F6 = 526, + CV_AMD64_YMM3F7 = 527, + CV_AMD64_YMM4F0 = 528, + CV_AMD64_YMM4F1 = 529, + CV_AMD64_YMM4F2 = 530, + CV_AMD64_YMM4F3 = 531, + CV_AMD64_YMM4F4 = 532, + CV_AMD64_YMM4F5 = 533, + CV_AMD64_YMM4F6 = 534, + CV_AMD64_YMM4F7 = 535, + CV_AMD64_YMM5F0 = 536, + CV_AMD64_YMM5F1 = 537, + CV_AMD64_YMM5F2 = 538, + CV_AMD64_YMM5F3 = 539, + CV_AMD64_YMM5F4 = 540, + CV_AMD64_YMM5F5 = 541, + CV_AMD64_YMM5F6 = 542, + CV_AMD64_YMM5F7 = 543, + CV_AMD64_YMM6F0 = 544, + CV_AMD64_YMM6F1 = 545, + CV_AMD64_YMM6F2 = 546, + CV_AMD64_YMM6F3 = 547, + CV_AMD64_YMM6F4 = 548, + CV_AMD64_YMM6F5 = 549, + CV_AMD64_YMM6F6 = 550, + CV_AMD64_YMM6F7 = 551, + CV_AMD64_YMM7F0 = 552, + CV_AMD64_YMM7F1 = 553, + CV_AMD64_YMM7F2 = 554, + CV_AMD64_YMM7F3 = 555, + CV_AMD64_YMM7F4 = 556, + CV_AMD64_YMM7F5 = 557, + CV_AMD64_YMM7F6 = 558, + CV_AMD64_YMM7F7 = 559, + CV_AMD64_YMM8F0 = 560, + CV_AMD64_YMM8F1 = 561, + CV_AMD64_YMM8F2 = 562, + CV_AMD64_YMM8F3 = 563, + CV_AMD64_YMM8F4 = 564, + CV_AMD64_YMM8F5 = 565, + CV_AMD64_YMM8F6 = 566, + CV_AMD64_YMM8F7 = 567, + CV_AMD64_YMM9F0 = 568, + CV_AMD64_YMM9F1 = 569, + CV_AMD64_YMM9F2 = 570, + CV_AMD64_YMM9F3 = 571, + CV_AMD64_YMM9F4 = 572, + CV_AMD64_YMM9F5 = 573, + CV_AMD64_YMM9F6 = 574, + CV_AMD64_YMM9F7 = 575, + CV_AMD64_YMM10F0 = 576, + CV_AMD64_YMM10F1 = 577, + CV_AMD64_YMM10F2 = 578, + CV_AMD64_YMM10F3 = 579, + CV_AMD64_YMM10F4 = 580, + CV_AMD64_YMM10F5 = 581, + CV_AMD64_YMM10F6 = 582, + CV_AMD64_YMM10F7 = 583, + CV_AMD64_YMM11F0 = 584, + CV_AMD64_YMM11F1 = 585, + CV_AMD64_YMM11F2 = 586, + CV_AMD64_YMM11F3 = 587, + CV_AMD64_YMM11F4 = 588, + CV_AMD64_YMM11F5 = 589, + CV_AMD64_YMM11F6 = 590, + CV_AMD64_YMM11F7 = 591, + CV_AMD64_YMM12F0 = 592, + CV_AMD64_YMM12F1 = 593, + CV_AMD64_YMM12F2 = 594, + CV_AMD64_YMM12F3 = 595, + CV_AMD64_YMM12F4 = 596, + CV_AMD64_YMM12F5 = 597, + CV_AMD64_YMM12F6 = 598, + CV_AMD64_YMM12F7 = 599, + CV_AMD64_YMM13F0 = 600, + CV_AMD64_YMM13F1 = 601, + CV_AMD64_YMM13F2 = 602, + CV_AMD64_YMM13F3 = 603, + CV_AMD64_YMM13F4 = 604, + CV_AMD64_YMM13F5 = 605, + CV_AMD64_YMM13F6 = 606, + CV_AMD64_YMM13F7 = 607, + CV_AMD64_YMM14F0 = 608, + CV_AMD64_YMM14F1 = 609, + CV_AMD64_YMM14F2 = 610, + CV_AMD64_YMM14F3 = 611, + CV_AMD64_YMM14F4 = 612, + CV_AMD64_YMM14F5 = 613, + CV_AMD64_YMM14F6 = 614, + CV_AMD64_YMM14F7 = 615, + CV_AMD64_YMM15F0 = 616, + CV_AMD64_YMM15F1 = 617, + CV_AMD64_YMM15F2 = 618, + CV_AMD64_YMM15F3 = 619, + CV_AMD64_YMM15F4 = 620, + CV_AMD64_YMM15F5 = 621, + CV_AMD64_YMM15F6 = 622, + CV_AMD64_YMM15F7 = 623, + + CV_AMD64_YMM0D0 = 624, // AVX floating-point double precise registers + CV_AMD64_YMM0D1 = 625, + CV_AMD64_YMM0D2 = 626, + CV_AMD64_YMM0D3 = 627, + CV_AMD64_YMM1D0 = 628, + CV_AMD64_YMM1D1 = 629, + CV_AMD64_YMM1D2 = 630, + CV_AMD64_YMM1D3 = 631, + CV_AMD64_YMM2D0 = 632, + CV_AMD64_YMM2D1 = 633, + CV_AMD64_YMM2D2 = 634, + CV_AMD64_YMM2D3 = 635, + CV_AMD64_YMM3D0 = 636, + CV_AMD64_YMM3D1 = 637, + CV_AMD64_YMM3D2 = 638, + CV_AMD64_YMM3D3 = 639, + CV_AMD64_YMM4D0 = 640, + CV_AMD64_YMM4D1 = 641, + CV_AMD64_YMM4D2 = 642, + CV_AMD64_YMM4D3 = 643, + CV_AMD64_YMM5D0 = 644, + CV_AMD64_YMM5D1 = 645, + CV_AMD64_YMM5D2 = 646, + CV_AMD64_YMM5D3 = 647, + CV_AMD64_YMM6D0 = 648, + CV_AMD64_YMM6D1 = 649, + CV_AMD64_YMM6D2 = 650, + CV_AMD64_YMM6D3 = 651, + CV_AMD64_YMM7D0 = 652, + CV_AMD64_YMM7D1 = 653, + CV_AMD64_YMM7D2 = 654, + CV_AMD64_YMM7D3 = 655, + CV_AMD64_YMM8D0 = 656, + CV_AMD64_YMM8D1 = 657, + CV_AMD64_YMM8D2 = 658, + CV_AMD64_YMM8D3 = 659, + CV_AMD64_YMM9D0 = 660, + CV_AMD64_YMM9D1 = 661, + CV_AMD64_YMM9D2 = 662, + CV_AMD64_YMM9D3 = 663, + CV_AMD64_YMM10D0 = 664, + CV_AMD64_YMM10D1 = 665, + CV_AMD64_YMM10D2 = 666, + CV_AMD64_YMM10D3 = 667, + CV_AMD64_YMM11D0 = 668, + CV_AMD64_YMM11D1 = 669, + CV_AMD64_YMM11D2 = 670, + CV_AMD64_YMM11D3 = 671, + CV_AMD64_YMM12D0 = 672, + CV_AMD64_YMM12D1 = 673, + CV_AMD64_YMM12D2 = 674, + CV_AMD64_YMM12D3 = 675, + CV_AMD64_YMM13D0 = 676, + CV_AMD64_YMM13D1 = 677, + CV_AMD64_YMM13D2 = 678, + CV_AMD64_YMM13D3 = 679, + CV_AMD64_YMM14D0 = 680, + CV_AMD64_YMM14D1 = 681, + CV_AMD64_YMM14D2 = 682, + CV_AMD64_YMM14D3 = 683, + CV_AMD64_YMM15D0 = 684, + CV_AMD64_YMM15D1 = 685, + CV_AMD64_YMM15D2 = 686, + CV_AMD64_YMM15D3 = 687 + + + // Note: Next set of platform registers need to go into a new enum... + // this one is above 44K now. + +} CV_HREG_e; + +typedef enum CV_HLSLREG_e { + CV_HLSLREG_TEMP = 0, + CV_HLSLREG_INPUT = 1, + CV_HLSLREG_OUTPUT = 2, + CV_HLSLREG_INDEXABLE_TEMP = 3, + CV_HLSLREG_IMMEDIATE32 = 4, + CV_HLSLREG_IMMEDIATE64 = 5, + CV_HLSLREG_SAMPLER = 6, + CV_HLSLREG_RESOURCE = 7, + CV_HLSLREG_CONSTANT_BUFFER = 8, + CV_HLSLREG_IMMEDIATE_CONSTANT_BUFFER = 9, + CV_HLSLREG_LABEL = 10, + CV_HLSLREG_INPUT_PRIMITIVEID = 11, + CV_HLSLREG_OUTPUT_DEPTH = 12, + CV_HLSLREG_NULL = 13, + CV_HLSLREG_RASTERIZER = 14, + CV_HLSLREG_OUTPUT_COVERAGE_MASK = 15, + CV_HLSLREG_STREAM = 16, + CV_HLSLREG_FUNCTION_BODY = 17, + CV_HLSLREG_FUNCTION_TABLE = 18, + CV_HLSLREG_INTERFACE = 19, + CV_HLSLREG_FUNCTION_INPUT = 20, + CV_HLSLREG_FUNCTION_OUTPUT = 21, + CV_HLSLREG_OUTPUT_CONTROL_POINT_ID = 22, + CV_HLSLREG_INPUT_FORK_INSTANCE_ID = 23, + CV_HLSLREG_INPUT_JOIN_INSTANCE_ID = 24, + CV_HLSLREG_INPUT_CONTROL_POINT = 25, + CV_HLSLREG_OUTPUT_CONTROL_POINT = 26, + CV_HLSLREG_INPUT_PATCH_CONSTANT = 27, + CV_HLSLREG_INPUT_DOMAIN_POINT = 28, + CV_HLSLREG_THIS_POINTER = 29, + CV_HLSLREG_UNORDERED_ACCESS_VIEW = 30, + CV_HLSLREG_THREAD_GROUP_SHARED_MEMORY = 31, + CV_HLSLREG_INPUT_THREAD_ID = 32, + CV_HLSLREG_INPUT_THREAD_GROUP_ID = 33, + CV_HLSLREG_INPUT_THREAD_ID_IN_GROUP = 34, + CV_HLSLREG_INPUT_COVERAGE_MASK = 35, + CV_HLSLREG_INPUT_THREAD_ID_IN_GROUP_FLATTENED = 36, + CV_HLSLREG_INPUT_GS_INSTANCE_ID = 37, + CV_HLSLREG_OUTPUT_DEPTH_GREATER_EQUAL = 38, + CV_HLSLREG_OUTPUT_DEPTH_LESS_EQUAL = 39, + CV_HLSLREG_CYCLE_COUNTER = 40, +} CV_HLSLREG_e; + +enum StackFrameTypeEnum +{ + FrameTypeFPO, // Frame pointer omitted, FPO info available + FrameTypeTrap, // Kernel Trap frame + FrameTypeTSS, // Kernel Trap frame + FrameTypeStandard, // Standard EBP stackframe + FrameTypeFrameData, // Frame pointer omitted, FrameData info available + + FrameTypeUnknown = -1, // Frame which does not have any debug info +}; + +enum MemoryTypeEnum +{ + MemTypeCode, // Read only code memory + MemTypeData, // Read only data/stack memory + MemTypeStack, // Read only stack memory + MemTypeCodeOnHeap, // Read only memory for code generated on heap by runtime + + MemTypeAny = -1, +}; + +typedef enum CV_HLSLMemorySpace_e +{ + // HLSL specific memory spaces + + CV_HLSL_MEMSPACE_DATA = 0x00, + CV_HLSL_MEMSPACE_SAMPLER = 0x01, + CV_HLSL_MEMSPACE_RESOURCE = 0x02, + CV_HLSL_MEMSPACE_RWRESOURCE = 0x03, + + CV_HLSL_MEMSPACE_MAX = 0x0F, +} CV_HLSLMemorySpace_e; + +#endif diff --git a/src/inc/cvinfo.h b/src/inc/cvinfo.h new file mode 100644 index 0000000..c2e42e5 --- /dev/null +++ b/src/inc/cvinfo.h @@ -0,0 +1,4989 @@ +// Licensed to the .NET Foundation under one or more agreements. +// The .NET Foundation licenses this file to you under the MIT license. +// See the LICENSE file in the project root for more information. + +/*** cvinfo.h - Generic CodeView information definitions + * + * Structures, constants, etc. for accessing and interpreting + * CodeView information. + * + */ + + +/*** The master copy of this file resides in the langapi project. + * All Microsoft projects are required to use the master copy without + * modification. Modification of the master version or a copy + * without consultation with all parties concerned is extremely + * risky. + * + */ + +#pragma once + +#include "cvconst.h" + +#ifndef _CV_INFO_INCLUDED +#define _CV_INFO_INCLUDED + +#ifdef __cplusplus +#pragma warning ( disable: 4200 ) +#endif + +#ifndef __INLINE +#ifdef __cplusplus +#define __INLINE inline +#else +#define __INLINE __inline +#endif +#endif + +#pragma pack ( push, 1 ) +typedef unsigned long CV_uoff32_t; +typedef long CV_off32_t; +typedef unsigned short CV_uoff16_t; +typedef short CV_off16_t; +typedef unsigned short CV_typ16_t; +typedef unsigned long CV_typ_t; +typedef unsigned long CV_pubsymflag_t; // must be same as CV_typ_t. +typedef unsigned short _2BYTEPAD; +typedef unsigned long CV_tkn_t; + +#if !defined (CV_ZEROLEN) +#define CV_ZEROLEN +#endif + +#if !defined (FLOAT10) +#if defined(_M_I86) // 16 bit x86 supporting long double +typedef long double FLOAT10; +#else // 32 bit w/o long double support +typedef struct FLOAT10 +{ + char b[10]; +} FLOAT10; +#endif +#endif + + +#define CV_SIGNATURE_C6 0L // Actual signature is >64K +#define CV_SIGNATURE_C7 1L // First explicit signature +#define CV_SIGNATURE_C11 2L // C11 (vc5.x) 32-bit types +#define CV_SIGNATURE_C13 4L // C13 (vc7.x) zero terminated names +#define CV_SIGNATURE_RESERVED 5L // All signatures from 5 to 64K are reserved + +#define CV_MAXOFFSET 0xffffffff + +#ifndef GUID_DEFINED +#define GUID_DEFINED + +typedef struct _GUID { // size is 16 + unsigned long Data1; + unsigned short Data2; + unsigned short Data3; + unsigned char Data4[8]; +} GUID; + +#endif // !GUID_DEFINED + +typedef GUID SIG70; // new to 7.0 are 16-byte guid-like signatures +typedef SIG70 * PSIG70; +typedef const SIG70 * PCSIG70; + + + +/** CodeView Symbol and Type OMF type information is broken up into two + * ranges. Type indices less than 0x1000 describe type information + * that is frequently used. Type indices above 0x1000 are used to + * describe more complex features such as functions, arrays and + * structures. + */ + + + + +/** Primitive types have predefined meaning that is encoded in the + * values of the various bit fields in the value. + * + * A CodeView primitive type is defined as: + * + * 1 1 + * 1 089 7654 3 210 + * r mode type r sub + * + * Where + * mode is the pointer mode + * type is a type indicator + * sub is a subtype enumeration + * r is a reserved field + * + * See Microsoft Symbol and Type OMF (Version 4.0) for more + * information. + */ + + +#define CV_MMASK 0x700 // mode mask +#define CV_TMASK 0x0f0 // type mask + +// can we use the reserved bit ?? +#define CV_SMASK 0x00f // subtype mask + +#define CV_MSHIFT 8 // primitive mode right shift count +#define CV_TSHIFT 4 // primitive type right shift count +#define CV_SSHIFT 0 // primitive subtype right shift count + +// macros to extract primitive mode, type and size + +#define CV_MODE(typ) (((typ) & CV_MMASK) >> CV_MSHIFT) +#define CV_TYPE(typ) (((typ) & CV_TMASK) >> CV_TSHIFT) +#define CV_SUBT(typ) (((typ) & CV_SMASK) >> CV_SSHIFT) + +// macros to insert new primitive mode, type and size + +#define CV_NEWMODE(typ, nm) ((CV_typ_t)(((typ) & ~CV_MMASK) | ((nm) << CV_MSHIFT))) +#define CV_NEWTYPE(typ, nt) (((typ) & ~CV_TMASK) | ((nt) << CV_TSHIFT)) +#define CV_NEWSUBT(typ, ns) (((typ) & ~CV_SMASK) | ((ns) << CV_SSHIFT)) + + + +// pointer mode enumeration values + +typedef enum CV_prmode_e { + CV_TM_DIRECT = 0, // mode is not a pointer + CV_TM_NPTR = 1, // mode is a near pointer + CV_TM_FPTR = 2, // mode is a far pointer + CV_TM_HPTR = 3, // mode is a huge pointer + CV_TM_NPTR32 = 4, // mode is a 32 bit near pointer + CV_TM_FPTR32 = 5, // mode is a 32 bit far pointer + CV_TM_NPTR64 = 6, // mode is a 64 bit near pointer + CV_TM_NPTR128 = 7, // mode is a 128 bit near pointer +} CV_prmode_e; + + + + +// type enumeration values + + +typedef enum CV_type_e { + CV_SPECIAL = 0x00, // special type size values + CV_SIGNED = 0x01, // signed integral size values + CV_UNSIGNED = 0x02, // unsigned integral size values + CV_BOOLEAN = 0x03, // Boolean size values + CV_REAL = 0x04, // real number size values + CV_COMPLEX = 0x05, // complex number size values + CV_SPECIAL2 = 0x06, // second set of special types + CV_INT = 0x07, // integral (int) values + CV_CVRESERVED = 0x0f, +} CV_type_e; + + + + +// subtype enumeration values for CV_SPECIAL + + +typedef enum CV_special_e { + CV_SP_NOTYPE = 0x00, + CV_SP_ABS = 0x01, + CV_SP_SEGMENT = 0x02, + CV_SP_VOID = 0x03, + CV_SP_CURRENCY = 0x04, + CV_SP_NBASICSTR = 0x05, + CV_SP_FBASICSTR = 0x06, + CV_SP_NOTTRANS = 0x07, + CV_SP_HRESULT = 0x08, +} CV_special_e; + + + + +// subtype enumeration values for CV_SPECIAL2 + + +typedef enum CV_special2_e { + CV_S2_BIT = 0x00, + CV_S2_PASCHAR = 0x01, // Pascal CHAR + CV_S2_BOOL32FF = 0x02, // 32-bit BOOL where true is 0xffffffff +} CV_special2_e; + + + + + +// subtype enumeration values for CV_SIGNED, CV_UNSIGNED and CV_BOOLEAN + + +typedef enum CV_integral_e { + CV_IN_1BYTE = 0x00, + CV_IN_2BYTE = 0x01, + CV_IN_4BYTE = 0x02, + CV_IN_8BYTE = 0x03, + CV_IN_16BYTE = 0x04 +} CV_integral_e; + + + + + +// subtype enumeration values for CV_REAL and CV_COMPLEX + + +typedef enum CV_real_e { + CV_RC_REAL32 = 0x00, + CV_RC_REAL64 = 0x01, + CV_RC_REAL80 = 0x02, + CV_RC_REAL128 = 0x03, + CV_RC_REAL48 = 0x04, + CV_RC_REAL32PP = 0x05, // 32-bit partial precision real + CV_RC_REAL16 = 0x06, +} CV_real_e; + + + + +// subtype enumeration values for CV_INT (really int) + + +typedef enum CV_int_e { + CV_RI_CHAR = 0x00, + CV_RI_INT1 = 0x00, + CV_RI_WCHAR = 0x01, + CV_RI_UINT1 = 0x01, + CV_RI_INT2 = 0x02, + CV_RI_UINT2 = 0x03, + CV_RI_INT4 = 0x04, + CV_RI_UINT4 = 0x05, + CV_RI_INT8 = 0x06, + CV_RI_UINT8 = 0x07, + CV_RI_INT16 = 0x08, + CV_RI_UINT16 = 0x09, + CV_RI_CHAR16 = 0x0a, // char16_t + CV_RI_CHAR32 = 0x0b, // char32_t +} CV_int_e; + + + +// macros to check the type of a primitive + +#define CV_TYP_IS_DIRECT(typ) (CV_MODE(typ) == CV_TM_DIRECT) +#define CV_TYP_IS_PTR(typ) (CV_MODE(typ) != CV_TM_DIRECT) +#define CV_TYP_IS_NPTR(typ) (CV_MODE(typ) == CV_TM_NPTR) +#define CV_TYP_IS_FPTR(typ) (CV_MODE(typ) == CV_TM_FPTR) +#define CV_TYP_IS_HPTR(typ) (CV_MODE(typ) == CV_TM_HPTR) +#define CV_TYP_IS_NPTR32(typ) (CV_MODE(typ) == CV_TM_NPTR32) +#define CV_TYP_IS_FPTR32(typ) (CV_MODE(typ) == CV_TM_FPTR32) + +#define CV_TYP_IS_SIGNED(typ) (((CV_TYPE(typ) == CV_SIGNED) && CV_TYP_IS_DIRECT(typ)) || \ + (typ == T_INT1) || \ + (typ == T_INT2) || \ + (typ == T_INT4) || \ + (typ == T_INT8) || \ + (typ == T_INT16) || \ + (typ == T_RCHAR)) + +#define CV_TYP_IS_UNSIGNED(typ) (((CV_TYPE(typ) == CV_UNSIGNED) && CV_TYP_IS_DIRECT(typ)) || \ + (typ == T_UINT1) || \ + (typ == T_UINT2) || \ + (typ == T_UINT4) || \ + (typ == T_UINT8) || \ + (typ == T_UINT16)) + +#define CV_TYP_IS_REAL(typ) ((CV_TYPE(typ) == CV_REAL) && CV_TYP_IS_DIRECT(typ)) + +#define CV_FIRST_NONPRIM 0x1000 +#define CV_IS_PRIMITIVE(typ) ((typ) < CV_FIRST_NONPRIM) +#define CV_TYP_IS_COMPLEX(typ) ((CV_TYPE(typ) == CV_COMPLEX) && CV_TYP_IS_DIRECT(typ)) +#define CV_IS_INTERNAL_PTR(typ) (CV_IS_PRIMITIVE(typ) && \ + CV_TYPE(typ) == CV_CVRESERVED && \ + CV_TYP_IS_PTR(typ)) + + + + + + +// selected values for type_index - for a more complete definition, see +// Microsoft Symbol and Type OMF document + + + + +// Special Types + +typedef enum TYPE_ENUM_e { +// Special Types + + T_NOTYPE = 0x0000, // uncharacterized type (no type) + T_ABS = 0x0001, // absolute symbol + T_SEGMENT = 0x0002, // segment type + T_VOID = 0x0003, // void + T_HRESULT = 0x0008, // OLE/COM HRESULT + T_32PHRESULT = 0x0408, // OLE/COM HRESULT __ptr32 * + T_64PHRESULT = 0x0608, // OLE/COM HRESULT __ptr64 * + + T_PVOID = 0x0103, // near pointer to void + T_PFVOID = 0x0203, // far pointer to void + T_PHVOID = 0x0303, // huge pointer to void + T_32PVOID = 0x0403, // 32 bit pointer to void + T_32PFVOID = 0x0503, // 16:32 pointer to void + T_64PVOID = 0x0603, // 64 bit pointer to void + T_CURRENCY = 0x0004, // BASIC 8 byte currency value + T_NBASICSTR = 0x0005, // Near BASIC string + T_FBASICSTR = 0x0006, // Far BASIC string + T_NOTTRANS = 0x0007, // type not translated by cvpack + T_BIT = 0x0060, // bit + T_PASCHAR = 0x0061, // Pascal CHAR + T_BOOL32FF = 0x0062, // 32-bit BOOL where true is 0xffffffff + + +// Character types + + T_CHAR = 0x0010, // 8 bit signed + T_PCHAR = 0x0110, // 16 bit pointer to 8 bit signed + T_PFCHAR = 0x0210, // 16:16 far pointer to 8 bit signed + T_PHCHAR = 0x0310, // 16:16 huge pointer to 8 bit signed + T_32PCHAR = 0x0410, // 32 bit pointer to 8 bit signed + T_32PFCHAR = 0x0510, // 16:32 pointer to 8 bit signed + T_64PCHAR = 0x0610, // 64 bit pointer to 8 bit signed + + T_UCHAR = 0x0020, // 8 bit unsigned + T_PUCHAR = 0x0120, // 16 bit pointer to 8 bit unsigned + T_PFUCHAR = 0x0220, // 16:16 far pointer to 8 bit unsigned + T_PHUCHAR = 0x0320, // 16:16 huge pointer to 8 bit unsigned + T_32PUCHAR = 0x0420, // 32 bit pointer to 8 bit unsigned + T_32PFUCHAR = 0x0520, // 16:32 pointer to 8 bit unsigned + T_64PUCHAR = 0x0620, // 64 bit pointer to 8 bit unsigned + + +// really a character types + + T_RCHAR = 0x0070, // really a char + T_PRCHAR = 0x0170, // 16 bit pointer to a real char + T_PFRCHAR = 0x0270, // 16:16 far pointer to a real char + T_PHRCHAR = 0x0370, // 16:16 huge pointer to a real char + T_32PRCHAR = 0x0470, // 32 bit pointer to a real char + T_32PFRCHAR = 0x0570, // 16:32 pointer to a real char + T_64PRCHAR = 0x0670, // 64 bit pointer to a real char + + +// really a wide character types + + T_WCHAR = 0x0071, // wide char + T_PWCHAR = 0x0171, // 16 bit pointer to a wide char + T_PFWCHAR = 0x0271, // 16:16 far pointer to a wide char + T_PHWCHAR = 0x0371, // 16:16 huge pointer to a wide char + T_32PWCHAR = 0x0471, // 32 bit pointer to a wide char + T_32PFWCHAR = 0x0571, // 16:32 pointer to a wide char + T_64PWCHAR = 0x0671, // 64 bit pointer to a wide char + +// really a 16-bit unicode char + + T_CHAR16 = 0x007a, // 16-bit unicode char + T_PCHAR16 = 0x017a, // 16 bit pointer to a 16-bit unicode char + T_PFCHAR16 = 0x027a, // 16:16 far pointer to a 16-bit unicode char + T_PHCHAR16 = 0x037a, // 16:16 huge pointer to a 16-bit unicode char + T_32PCHAR16 = 0x047a, // 32 bit pointer to a 16-bit unicode char + T_32PFCHAR16 = 0x057a, // 16:32 pointer to a 16-bit unicode char + T_64PCHAR16 = 0x067a, // 64 bit pointer to a 16-bit unicode char + +// really a 32-bit unicode char + + T_CHAR32 = 0x007b, // 32-bit unicode char + T_PCHAR32 = 0x017b, // 16 bit pointer to a 32-bit unicode char + T_PFCHAR32 = 0x027b, // 16:16 far pointer to a 32-bit unicode char + T_PHCHAR32 = 0x037b, // 16:16 huge pointer to a 32-bit unicode char + T_32PCHAR32 = 0x047b, // 32 bit pointer to a 32-bit unicode char + T_32PFCHAR32 = 0x057b, // 16:32 pointer to a 32-bit unicode char + T_64PCHAR32 = 0x067b, // 64 bit pointer to a 32-bit unicode char + +// 8 bit int types + + T_INT1 = 0x0068, // 8 bit signed int + T_PINT1 = 0x0168, // 16 bit pointer to 8 bit signed int + T_PFINT1 = 0x0268, // 16:16 far pointer to 8 bit signed int + T_PHINT1 = 0x0368, // 16:16 huge pointer to 8 bit signed int + T_32PINT1 = 0x0468, // 32 bit pointer to 8 bit signed int + T_32PFINT1 = 0x0568, // 16:32 pointer to 8 bit signed int + T_64PINT1 = 0x0668, // 64 bit pointer to 8 bit signed int + + T_UINT1 = 0x0069, // 8 bit unsigned int + T_PUINT1 = 0x0169, // 16 bit pointer to 8 bit unsigned int + T_PFUINT1 = 0x0269, // 16:16 far pointer to 8 bit unsigned int + T_PHUINT1 = 0x0369, // 16:16 huge pointer to 8 bit unsigned int + T_32PUINT1 = 0x0469, // 32 bit pointer to 8 bit unsigned int + T_32PFUINT1 = 0x0569, // 16:32 pointer to 8 bit unsigned int + T_64PUINT1 = 0x0669, // 64 bit pointer to 8 bit unsigned int + + +// 16 bit short types + + T_SHORT = 0x0011, // 16 bit signed + T_PSHORT = 0x0111, // 16 bit pointer to 16 bit signed + T_PFSHORT = 0x0211, // 16:16 far pointer to 16 bit signed + T_PHSHORT = 0x0311, // 16:16 huge pointer to 16 bit signed + T_32PSHORT = 0x0411, // 32 bit pointer to 16 bit signed + T_32PFSHORT = 0x0511, // 16:32 pointer to 16 bit signed + T_64PSHORT = 0x0611, // 64 bit pointer to 16 bit signed + + T_USHORT = 0x0021, // 16 bit unsigned + T_PUSHORT = 0x0121, // 16 bit pointer to 16 bit unsigned + T_PFUSHORT = 0x0221, // 16:16 far pointer to 16 bit unsigned + T_PHUSHORT = 0x0321, // 16:16 huge pointer to 16 bit unsigned + T_32PUSHORT = 0x0421, // 32 bit pointer to 16 bit unsigned + T_32PFUSHORT = 0x0521, // 16:32 pointer to 16 bit unsigned + T_64PUSHORT = 0x0621, // 64 bit pointer to 16 bit unsigned + + +// 16 bit int types + + T_INT2 = 0x0072, // 16 bit signed int + T_PINT2 = 0x0172, // 16 bit pointer to 16 bit signed int + T_PFINT2 = 0x0272, // 16:16 far pointer to 16 bit signed int + T_PHINT2 = 0x0372, // 16:16 huge pointer to 16 bit signed int + T_32PINT2 = 0x0472, // 32 bit pointer to 16 bit signed int + T_32PFINT2 = 0x0572, // 16:32 pointer to 16 bit signed int + T_64PINT2 = 0x0672, // 64 bit pointer to 16 bit signed int + + T_UINT2 = 0x0073, // 16 bit unsigned int + T_PUINT2 = 0x0173, // 16 bit pointer to 16 bit unsigned int + T_PFUINT2 = 0x0273, // 16:16 far pointer to 16 bit unsigned int + T_PHUINT2 = 0x0373, // 16:16 huge pointer to 16 bit unsigned int + T_32PUINT2 = 0x0473, // 32 bit pointer to 16 bit unsigned int + T_32PFUINT2 = 0x0573, // 16:32 pointer to 16 bit unsigned int + T_64PUINT2 = 0x0673, // 64 bit pointer to 16 bit unsigned int + + +// 32 bit long types + + T_LONG = 0x0012, // 32 bit signed + T_ULONG = 0x0022, // 32 bit unsigned + T_PLONG = 0x0112, // 16 bit pointer to 32 bit signed + T_PULONG = 0x0122, // 16 bit pointer to 32 bit unsigned + T_PFLONG = 0x0212, // 16:16 far pointer to 32 bit signed + T_PFULONG = 0x0222, // 16:16 far pointer to 32 bit unsigned + T_PHLONG = 0x0312, // 16:16 huge pointer to 32 bit signed + T_PHULONG = 0x0322, // 16:16 huge pointer to 32 bit unsigned + + T_32PLONG = 0x0412, // 32 bit pointer to 32 bit signed + T_32PULONG = 0x0422, // 32 bit pointer to 32 bit unsigned + T_32PFLONG = 0x0512, // 16:32 pointer to 32 bit signed + T_32PFULONG = 0x0522, // 16:32 pointer to 32 bit unsigned + T_64PLONG = 0x0612, // 64 bit pointer to 32 bit signed + T_64PULONG = 0x0622, // 64 bit pointer to 32 bit unsigned + + +// 32 bit int types + + T_INT4 = 0x0074, // 32 bit signed int + T_PINT4 = 0x0174, // 16 bit pointer to 32 bit signed int + T_PFINT4 = 0x0274, // 16:16 far pointer to 32 bit signed int + T_PHINT4 = 0x0374, // 16:16 huge pointer to 32 bit signed int + T_32PINT4 = 0x0474, // 32 bit pointer to 32 bit signed int + T_32PFINT4 = 0x0574, // 16:32 pointer to 32 bit signed int + T_64PINT4 = 0x0674, // 64 bit pointer to 32 bit signed int + + T_UINT4 = 0x0075, // 32 bit unsigned int + T_PUINT4 = 0x0175, // 16 bit pointer to 32 bit unsigned int + T_PFUINT4 = 0x0275, // 16:16 far pointer to 32 bit unsigned int + T_PHUINT4 = 0x0375, // 16:16 huge pointer to 32 bit unsigned int + T_32PUINT4 = 0x0475, // 32 bit pointer to 32 bit unsigned int + T_32PFUINT4 = 0x0575, // 16:32 pointer to 32 bit unsigned int + T_64PUINT4 = 0x0675, // 64 bit pointer to 32 bit unsigned int + + +// 64 bit quad types + + T_QUAD = 0x0013, // 64 bit signed + T_PQUAD = 0x0113, // 16 bit pointer to 64 bit signed + T_PFQUAD = 0x0213, // 16:16 far pointer to 64 bit signed + T_PHQUAD = 0x0313, // 16:16 huge pointer to 64 bit signed + T_32PQUAD = 0x0413, // 32 bit pointer to 64 bit signed + T_32PFQUAD = 0x0513, // 16:32 pointer to 64 bit signed + T_64PQUAD = 0x0613, // 64 bit pointer to 64 bit signed + + T_UQUAD = 0x0023, // 64 bit unsigned + T_PUQUAD = 0x0123, // 16 bit pointer to 64 bit unsigned + T_PFUQUAD = 0x0223, // 16:16 far pointer to 64 bit unsigned + T_PHUQUAD = 0x0323, // 16:16 huge pointer to 64 bit unsigned + T_32PUQUAD = 0x0423, // 32 bit pointer to 64 bit unsigned + T_32PFUQUAD = 0x0523, // 16:32 pointer to 64 bit unsigned + T_64PUQUAD = 0x0623, // 64 bit pointer to 64 bit unsigned + + +// 64 bit int types + + T_INT8 = 0x0076, // 64 bit signed int + T_PINT8 = 0x0176, // 16 bit pointer to 64 bit signed int + T_PFINT8 = 0x0276, // 16:16 far pointer to 64 bit signed int + T_PHINT8 = 0x0376, // 16:16 huge pointer to 64 bit signed int + T_32PINT8 = 0x0476, // 32 bit pointer to 64 bit signed int + T_32PFINT8 = 0x0576, // 16:32 pointer to 64 bit signed int + T_64PINT8 = 0x0676, // 64 bit pointer to 64 bit signed int + + T_UINT8 = 0x0077, // 64 bit unsigned int + T_PUINT8 = 0x0177, // 16 bit pointer to 64 bit unsigned int + T_PFUINT8 = 0x0277, // 16:16 far pointer to 64 bit unsigned int + T_PHUINT8 = 0x0377, // 16:16 huge pointer to 64 bit unsigned int + T_32PUINT8 = 0x0477, // 32 bit pointer to 64 bit unsigned int + T_32PFUINT8 = 0x0577, // 16:32 pointer to 64 bit unsigned int + T_64PUINT8 = 0x0677, // 64 bit pointer to 64 bit unsigned int + + +// 128 bit octet types + + T_OCT = 0x0014, // 128 bit signed + T_POCT = 0x0114, // 16 bit pointer to 128 bit signed + T_PFOCT = 0x0214, // 16:16 far pointer to 128 bit signed + T_PHOCT = 0x0314, // 16:16 huge pointer to 128 bit signed + T_32POCT = 0x0414, // 32 bit pointer to 128 bit signed + T_32PFOCT = 0x0514, // 16:32 pointer to 128 bit signed + T_64POCT = 0x0614, // 64 bit pointer to 128 bit signed + + T_UOCT = 0x0024, // 128 bit unsigned + T_PUOCT = 0x0124, // 16 bit pointer to 128 bit unsigned + T_PFUOCT = 0x0224, // 16:16 far pointer to 128 bit unsigned + T_PHUOCT = 0x0324, // 16:16 huge pointer to 128 bit unsigned + T_32PUOCT = 0x0424, // 32 bit pointer to 128 bit unsigned + T_32PFUOCT = 0x0524, // 16:32 pointer to 128 bit unsigned + T_64PUOCT = 0x0624, // 64 bit pointer to 128 bit unsigned + + +// 128 bit int types + + T_INT16 = 0x0078, // 128 bit signed int + T_PINT16 = 0x0178, // 16 bit pointer to 128 bit signed int + T_PFINT16 = 0x0278, // 16:16 far pointer to 128 bit signed int + T_PHINT16 = 0x0378, // 16:16 huge pointer to 128 bit signed int + T_32PINT16 = 0x0478, // 32 bit pointer to 128 bit signed int + T_32PFINT16 = 0x0578, // 16:32 pointer to 128 bit signed int + T_64PINT16 = 0x0678, // 64 bit pointer to 128 bit signed int + + T_UINT16 = 0x0079, // 128 bit unsigned int + T_PUINT16 = 0x0179, // 16 bit pointer to 128 bit unsigned int + T_PFUINT16 = 0x0279, // 16:16 far pointer to 128 bit unsigned int + T_PHUINT16 = 0x0379, // 16:16 huge pointer to 128 bit unsigned int + T_32PUINT16 = 0x0479, // 32 bit pointer to 128 bit unsigned int + T_32PFUINT16 = 0x0579, // 16:32 pointer to 128 bit unsigned int + T_64PUINT16 = 0x0679, // 64 bit pointer to 128 bit unsigned int + + +// 16 bit real types + + T_REAL16 = 0x0046, // 16 bit real + T_PREAL16 = 0x0146, // 16 bit pointer to 16 bit real + T_PFREAL16 = 0x0246, // 16:16 far pointer to 16 bit real + T_PHREAL16 = 0x0346, // 16:16 huge pointer to 16 bit real + T_32PREAL16 = 0x0446, // 32 bit pointer to 16 bit real + T_32PFREAL16 = 0x0546, // 16:32 pointer to 16 bit real + T_64PREAL16 = 0x0646, // 64 bit pointer to 16 bit real + + +// 32 bit real types + + T_REAL32 = 0x0040, // 32 bit real + T_PREAL32 = 0x0140, // 16 bit pointer to 32 bit real + T_PFREAL32 = 0x0240, // 16:16 far pointer to 32 bit real + T_PHREAL32 = 0x0340, // 16:16 huge pointer to 32 bit real + T_32PREAL32 = 0x0440, // 32 bit pointer to 32 bit real + T_32PFREAL32 = 0x0540, // 16:32 pointer to 32 bit real + T_64PREAL32 = 0x0640, // 64 bit pointer to 32 bit real + + +// 32 bit partial-precision real types + + T_REAL32PP = 0x0045, // 32 bit PP real + T_PREAL32PP = 0x0145, // 16 bit pointer to 32 bit PP real + T_PFREAL32PP = 0x0245, // 16:16 far pointer to 32 bit PP real + T_PHREAL32PP = 0x0345, // 16:16 huge pointer to 32 bit PP real + T_32PREAL32PP = 0x0445, // 32 bit pointer to 32 bit PP real + T_32PFREAL32PP = 0x0545, // 16:32 pointer to 32 bit PP real + T_64PREAL32PP = 0x0645, // 64 bit pointer to 32 bit PP real + + +// 48 bit real types + + T_REAL48 = 0x0044, // 48 bit real + T_PREAL48 = 0x0144, // 16 bit pointer to 48 bit real + T_PFREAL48 = 0x0244, // 16:16 far pointer to 48 bit real + T_PHREAL48 = 0x0344, // 16:16 huge pointer to 48 bit real + T_32PREAL48 = 0x0444, // 32 bit pointer to 48 bit real + T_32PFREAL48 = 0x0544, // 16:32 pointer to 48 bit real + T_64PREAL48 = 0x0644, // 64 bit pointer to 48 bit real + + +// 64 bit real types + + T_REAL64 = 0x0041, // 64 bit real + T_PREAL64 = 0x0141, // 16 bit pointer to 64 bit real + T_PFREAL64 = 0x0241, // 16:16 far pointer to 64 bit real + T_PHREAL64 = 0x0341, // 16:16 huge pointer to 64 bit real + T_32PREAL64 = 0x0441, // 32 bit pointer to 64 bit real + T_32PFREAL64 = 0x0541, // 16:32 pointer to 64 bit real + T_64PREAL64 = 0x0641, // 64 bit pointer to 64 bit real + + +// 80 bit real types + + T_REAL80 = 0x0042, // 80 bit real + T_PREAL80 = 0x0142, // 16 bit pointer to 80 bit real + T_PFREAL80 = 0x0242, // 16:16 far pointer to 80 bit real + T_PHREAL80 = 0x0342, // 16:16 huge pointer to 80 bit real + T_32PREAL80 = 0x0442, // 32 bit pointer to 80 bit real + T_32PFREAL80 = 0x0542, // 16:32 pointer to 80 bit real + T_64PREAL80 = 0x0642, // 64 bit pointer to 80 bit real + + +// 128 bit real types + + T_REAL128 = 0x0043, // 128 bit real + T_PREAL128 = 0x0143, // 16 bit pointer to 128 bit real + T_PFREAL128 = 0x0243, // 16:16 far pointer to 128 bit real + T_PHREAL128 = 0x0343, // 16:16 huge pointer to 128 bit real + T_32PREAL128 = 0x0443, // 32 bit pointer to 128 bit real + T_32PFREAL128 = 0x0543, // 16:32 pointer to 128 bit real + T_64PREAL128 = 0x0643, // 64 bit pointer to 128 bit real + + +// 32 bit complex types + + T_CPLX32 = 0x0050, // 32 bit complex + T_PCPLX32 = 0x0150, // 16 bit pointer to 32 bit complex + T_PFCPLX32 = 0x0250, // 16:16 far pointer to 32 bit complex + T_PHCPLX32 = 0x0350, // 16:16 huge pointer to 32 bit complex + T_32PCPLX32 = 0x0450, // 32 bit pointer to 32 bit complex + T_32PFCPLX32 = 0x0550, // 16:32 pointer to 32 bit complex + T_64PCPLX32 = 0x0650, // 64 bit pointer to 32 bit complex + + +// 64 bit complex types + + T_CPLX64 = 0x0051, // 64 bit complex + T_PCPLX64 = 0x0151, // 16 bit pointer to 64 bit complex + T_PFCPLX64 = 0x0251, // 16:16 far pointer to 64 bit complex + T_PHCPLX64 = 0x0351, // 16:16 huge pointer to 64 bit complex + T_32PCPLX64 = 0x0451, // 32 bit pointer to 64 bit complex + T_32PFCPLX64 = 0x0551, // 16:32 pointer to 64 bit complex + T_64PCPLX64 = 0x0651, // 64 bit pointer to 64 bit complex + + +// 80 bit complex types + + T_CPLX80 = 0x0052, // 80 bit complex + T_PCPLX80 = 0x0152, // 16 bit pointer to 80 bit complex + T_PFCPLX80 = 0x0252, // 16:16 far pointer to 80 bit complex + T_PHCPLX80 = 0x0352, // 16:16 huge pointer to 80 bit complex + T_32PCPLX80 = 0x0452, // 32 bit pointer to 80 bit complex + T_32PFCPLX80 = 0x0552, // 16:32 pointer to 80 bit complex + T_64PCPLX80 = 0x0652, // 64 bit pointer to 80 bit complex + + +// 128 bit complex types + + T_CPLX128 = 0x0053, // 128 bit complex + T_PCPLX128 = 0x0153, // 16 bit pointer to 128 bit complex + T_PFCPLX128 = 0x0253, // 16:16 far pointer to 128 bit complex + T_PHCPLX128 = 0x0353, // 16:16 huge pointer to 128 bit real + T_32PCPLX128 = 0x0453, // 32 bit pointer to 128 bit complex + T_32PFCPLX128 = 0x0553, // 16:32 pointer to 128 bit complex + T_64PCPLX128 = 0x0653, // 64 bit pointer to 128 bit complex + + +// boolean types + + T_BOOL08 = 0x0030, // 8 bit boolean + T_PBOOL08 = 0x0130, // 16 bit pointer to 8 bit boolean + T_PFBOOL08 = 0x0230, // 16:16 far pointer to 8 bit boolean + T_PHBOOL08 = 0x0330, // 16:16 huge pointer to 8 bit boolean + T_32PBOOL08 = 0x0430, // 32 bit pointer to 8 bit boolean + T_32PFBOOL08 = 0x0530, // 16:32 pointer to 8 bit boolean + T_64PBOOL08 = 0x0630, // 64 bit pointer to 8 bit boolean + + T_BOOL16 = 0x0031, // 16 bit boolean + T_PBOOL16 = 0x0131, // 16 bit pointer to 16 bit boolean + T_PFBOOL16 = 0x0231, // 16:16 far pointer to 16 bit boolean + T_PHBOOL16 = 0x0331, // 16:16 huge pointer to 16 bit boolean + T_32PBOOL16 = 0x0431, // 32 bit pointer to 18 bit boolean + T_32PFBOOL16 = 0x0531, // 16:32 pointer to 16 bit boolean + T_64PBOOL16 = 0x0631, // 64 bit pointer to 18 bit boolean + + T_BOOL32 = 0x0032, // 32 bit boolean + T_PBOOL32 = 0x0132, // 16 bit pointer to 32 bit boolean + T_PFBOOL32 = 0x0232, // 16:16 far pointer to 32 bit boolean + T_PHBOOL32 = 0x0332, // 16:16 huge pointer to 32 bit boolean + T_32PBOOL32 = 0x0432, // 32 bit pointer to 32 bit boolean + T_32PFBOOL32 = 0x0532, // 16:32 pointer to 32 bit boolean + T_64PBOOL32 = 0x0632, // 64 bit pointer to 32 bit boolean + + T_BOOL64 = 0x0033, // 64 bit boolean + T_PBOOL64 = 0x0133, // 16 bit pointer to 64 bit boolean + T_PFBOOL64 = 0x0233, // 16:16 far pointer to 64 bit boolean + T_PHBOOL64 = 0x0333, // 16:16 huge pointer to 64 bit boolean + T_32PBOOL64 = 0x0433, // 32 bit pointer to 64 bit boolean + T_32PFBOOL64 = 0x0533, // 16:32 pointer to 64 bit boolean + T_64PBOOL64 = 0x0633, // 64 bit pointer to 64 bit boolean + + +// ??? + + T_NCVPTR = 0x01f0, // CV Internal type for created near pointers + T_FCVPTR = 0x02f0, // CV Internal type for created far pointers + T_HCVPTR = 0x03f0, // CV Internal type for created huge pointers + T_32NCVPTR = 0x04f0, // CV Internal type for created near 32-bit pointers + T_32FCVPTR = 0x05f0, // CV Internal type for created far 32-bit pointers + T_64NCVPTR = 0x06f0, // CV Internal type for created near 64-bit pointers + +} TYPE_ENUM_e; + +/** No leaf index can have a value of 0x0000. The leaf indices are + * separated into ranges depending upon the use of the type record. + * The second range is for the type records that are directly referenced + * in symbols. The first range is for type records that are not + * referenced by symbols but instead are referenced by other type + * records. All type records must have a starting leaf index in these + * first two ranges. The third range of leaf indices are used to build + * up complex lists such as the field list of a class type record. No + * type record can begin with one of the leaf indices. The fourth ranges + * of type indices are used to represent numeric data in a symbol or + * type record. These leaf indices are greater than 0x8000. At the + * point that type or symbol processor is expecting a numeric field, the + * next two bytes in the type record are examined. If the value is less + * than 0x8000, then the two bytes contain the numeric value. If the + * value is greater than 0x8000, then the data follows the leaf index in + * a format specified by the leaf index. The final range of leaf indices + * are used to force alignment of subfields within a complex type record.. + */ + + +typedef enum LEAF_ENUM_e { + // leaf indices starting records but referenced from symbol records + + LF_MODIFIER_16t = 0x0001, + LF_POINTER_16t = 0x0002, + LF_ARRAY_16t = 0x0003, + LF_CLASS_16t = 0x0004, + LF_STRUCTURE_16t = 0x0005, + LF_UNION_16t = 0x0006, + LF_ENUM_16t = 0x0007, + LF_PROCEDURE_16t = 0x0008, + LF_MFUNCTION_16t = 0x0009, + LF_VTSHAPE = 0x000a, + LF_COBOL0_16t = 0x000b, + LF_COBOL1 = 0x000c, + LF_BARRAY_16t = 0x000d, + LF_LABEL = 0x000e, + LF_NULL = 0x000f, + LF_NOTTRAN = 0x0010, + LF_DIMARRAY_16t = 0x0011, + LF_VFTPATH_16t = 0x0012, + LF_PRECOMP_16t = 0x0013, // not referenced from symbol + LF_ENDPRECOMP = 0x0014, // not referenced from symbol + LF_OEM_16t = 0x0015, // oem definable type string + LF_TYPESERVER_ST = 0x0016, // not referenced from symbol + + // leaf indices starting records but referenced only from type records + + LF_SKIP_16t = 0x0200, + LF_ARGLIST_16t = 0x0201, + LF_DEFARG_16t = 0x0202, + LF_LIST = 0x0203, + LF_FIELDLIST_16t = 0x0204, + LF_DERIVED_16t = 0x0205, + LF_BITFIELD_16t = 0x0206, + LF_METHODLIST_16t = 0x0207, + LF_DIMCONU_16t = 0x0208, + LF_DIMCONLU_16t = 0x0209, + LF_DIMVARU_16t = 0x020a, + LF_DIMVARLU_16t = 0x020b, + LF_REFSYM = 0x020c, + + LF_BCLASS_16t = 0x0400, + LF_VBCLASS_16t = 0x0401, + LF_IVBCLASS_16t = 0x0402, + LF_ENUMERATE_ST = 0x0403, + LF_FRIENDFCN_16t = 0x0404, + LF_INDEX_16t = 0x0405, + LF_MEMBER_16t = 0x0406, + LF_STMEMBER_16t = 0x0407, + LF_METHOD_16t = 0x0408, + LF_NESTTYPE_16t = 0x0409, + LF_VFUNCTAB_16t = 0x040a, + LF_FRIENDCLS_16t = 0x040b, + LF_ONEMETHOD_16t = 0x040c, + LF_VFUNCOFF_16t = 0x040d, + +// 32-bit type index versions of leaves, all have the 0x1000 bit set +// + LF_TI16_MAX = 0x1000, + + LF_MODIFIER = 0x1001, + LF_POINTER = 0x1002, + LF_ARRAY_ST = 0x1003, + LF_CLASS_ST = 0x1004, + LF_STRUCTURE_ST = 0x1005, + LF_UNION_ST = 0x1006, + LF_ENUM_ST = 0x1007, + LF_PROCEDURE = 0x1008, + LF_MFUNCTION = 0x1009, + LF_COBOL0 = 0x100a, + LF_BARRAY = 0x100b, + LF_DIMARRAY_ST = 0x100c, + LF_VFTPATH = 0x100d, + LF_PRECOMP_ST = 0x100e, // not referenced from symbol + LF_OEM = 0x100f, // oem definable type string + LF_ALIAS_ST = 0x1010, // alias (typedef) type + LF_OEM2 = 0x1011, // oem definable type string + + // leaf indices starting records but referenced only from type records + + LF_SKIP = 0x1200, + LF_ARGLIST = 0x1201, + LF_DEFARG_ST = 0x1202, + LF_FIELDLIST = 0x1203, + LF_DERIVED = 0x1204, + LF_BITFIELD = 0x1205, + LF_METHODLIST = 0x1206, + LF_DIMCONU = 0x1207, + LF_DIMCONLU = 0x1208, + LF_DIMVARU = 0x1209, + LF_DIMVARLU = 0x120a, + + LF_BCLASS = 0x1400, + LF_VBCLASS = 0x1401, + LF_IVBCLASS = 0x1402, + LF_FRIENDFCN_ST = 0x1403, + LF_INDEX = 0x1404, + LF_MEMBER_ST = 0x1405, + LF_STMEMBER_ST = 0x1406, + LF_METHOD_ST = 0x1407, + LF_NESTTYPE_ST = 0x1408, + LF_VFUNCTAB = 0x1409, + LF_FRIENDCLS = 0x140a, + LF_ONEMETHOD_ST = 0x140b, + LF_VFUNCOFF = 0x140c, + LF_NESTTYPEEX_ST = 0x140d, + LF_MEMBERMODIFY_ST = 0x140e, + LF_MANAGED_ST = 0x140f, + + // Types w/ SZ names + + LF_ST_MAX = 0x1500, + + LF_TYPESERVER = 0x1501, // not referenced from symbol + LF_ENUMERATE = 0x1502, + LF_ARRAY = 0x1503, + LF_CLASS = 0x1504, + LF_STRUCTURE = 0x1505, + LF_UNION = 0x1506, + LF_ENUM = 0x1507, + LF_DIMARRAY = 0x1508, + LF_PRECOMP = 0x1509, // not referenced from symbol + LF_ALIAS = 0x150a, // alias (typedef) type + LF_DEFARG = 0x150b, + LF_FRIENDFCN = 0x150c, + LF_MEMBER = 0x150d, + LF_STMEMBER = 0x150e, + LF_METHOD = 0x150f, + LF_NESTTYPE = 0x1510, + LF_ONEMETHOD = 0x1511, + LF_NESTTYPEEX = 0x1512, + LF_MEMBERMODIFY = 0x1513, + LF_MANAGED = 0x1514, + LF_TYPESERVER2 = 0x1515, + + LF_STRIDED_ARRAY = 0x1516, // same as LF_ARRAY, but with stride between adjacent elements + LF_HLSL = 0x1517, + LF_MODIFIER_EX = 0x1518, + LF_INTERFACE = 0x1519, + LF_BINTERFACE = 0x151a, + LF_VECTOR = 0x151b, + LF_MATRIX = 0x151c, + + LF_VFTABLE = 0x151d, // a virtual function table + LF_ENDOFLEAFRECORD = LF_VFTABLE, + + LF_TYPE_LAST, // one greater than the last type record + LF_TYPE_MAX = LF_TYPE_LAST - 1, + + LF_FUNC_ID = 0x1601, // global func ID + LF_MFUNC_ID = 0x1602, // member func ID + LF_BUILDINFO = 0x1603, // build info: tool, version, command line, src/pdb file + LF_SUBSTR_LIST = 0x1604, // similar to LF_ARGLIST, for list of sub strings + LF_STRING_ID = 0x1605, // string ID + + LF_UDT_SRC_LINE = 0x1606, // source and line on where an UDT is defined + // only generated by compiler + + LF_UDT_MOD_SRC_LINE = 0x1607, // module, source and line on where an UDT is defined + // only generated by linker + + LF_ID_LAST, // one greater than the last ID record + LF_ID_MAX = LF_ID_LAST - 1, + + LF_NUMERIC = 0x8000, + LF_CHAR = 0x8000, + LF_SHORT = 0x8001, + LF_USHORT = 0x8002, + LF_LONG = 0x8003, + LF_ULONG = 0x8004, + LF_REAL32 = 0x8005, + LF_REAL64 = 0x8006, + LF_REAL80 = 0x8007, + LF_REAL128 = 0x8008, + LF_QUADWORD = 0x8009, + LF_UQUADWORD = 0x800a, + LF_REAL48 = 0x800b, + LF_COMPLEX32 = 0x800c, + LF_COMPLEX64 = 0x800d, + LF_COMPLEX80 = 0x800e, + LF_COMPLEX128 = 0x800f, + LF_VARSTRING = 0x8010, + + LF_OCTWORD = 0x8017, + LF_UOCTWORD = 0x8018, + + LF_DECIMAL = 0x8019, + LF_DATE = 0x801a, + LF_UTF8STRING = 0x801b, + + LF_REAL16 = 0x801c, + + LF_PAD0 = 0xf0, + LF_PAD1 = 0xf1, + LF_PAD2 = 0xf2, + LF_PAD3 = 0xf3, + LF_PAD4 = 0xf4, + LF_PAD5 = 0xf5, + LF_PAD6 = 0xf6, + LF_PAD7 = 0xf7, + LF_PAD8 = 0xf8, + LF_PAD9 = 0xf9, + LF_PAD10 = 0xfa, + LF_PAD11 = 0xfb, + LF_PAD12 = 0xfc, + LF_PAD13 = 0xfd, + LF_PAD14 = 0xfe, + LF_PAD15 = 0xff, + +} LEAF_ENUM_e; + +// end of leaf indices + + + + +// Type enum for pointer records +// Pointers can be one of the following types + + +typedef enum CV_ptrtype_e { + CV_PTR_NEAR = 0x00, // 16 bit pointer + CV_PTR_FAR = 0x01, // 16:16 far pointer + CV_PTR_HUGE = 0x02, // 16:16 huge pointer + CV_PTR_BASE_SEG = 0x03, // based on segment + CV_PTR_BASE_VAL = 0x04, // based on value of base + CV_PTR_BASE_SEGVAL = 0x05, // based on segment value of base + CV_PTR_BASE_ADDR = 0x06, // based on address of base + CV_PTR_BASE_SEGADDR = 0x07, // based on segment address of base + CV_PTR_BASE_TYPE = 0x08, // based on type + CV_PTR_BASE_SELF = 0x09, // based on self + CV_PTR_NEAR32 = 0x0a, // 32 bit pointer + CV_PTR_FAR32 = 0x0b, // 16:32 pointer + CV_PTR_64 = 0x0c, // 64 bit pointer + CV_PTR_UNUSEDPTR = 0x0d // first unused pointer type +} CV_ptrtype_e; + + + + + +// Mode enum for pointers +// Pointers can have one of the following modes +// +// To support for l-value and r-value reference, we added CV_PTR_MODE_LVREF +// and CV_PTR_MODE_RVREF. CV_PTR_MODE_REF should be removed at some point. +// We keep it now so that old code that uses it won't be broken. +// + +typedef enum CV_ptrmode_e { + CV_PTR_MODE_PTR = 0x00, // "normal" pointer + CV_PTR_MODE_REF = 0x01, // "old" reference + CV_PTR_MODE_LVREF = 0x01, // l-value reference + CV_PTR_MODE_PMEM = 0x02, // pointer to data member + CV_PTR_MODE_PMFUNC = 0x03, // pointer to member function + CV_PTR_MODE_RVREF = 0x04, // r-value reference + CV_PTR_MODE_RESERVED= 0x05 // first unused pointer mode +} CV_ptrmode_e; + + +// enumeration for pointer-to-member types + +typedef enum CV_pmtype_e { + CV_PMTYPE_Undef = 0x00, // not specified (pre VC8) + CV_PMTYPE_D_Single = 0x01, // member data, single inheritance + CV_PMTYPE_D_Multiple= 0x02, // member data, multiple inheritance + CV_PMTYPE_D_Virtual = 0x03, // member data, virtual inheritance + CV_PMTYPE_D_General = 0x04, // member data, most general + CV_PMTYPE_F_Single = 0x05, // member function, single inheritance + CV_PMTYPE_F_Multiple= 0x06, // member function, multiple inheritance + CV_PMTYPE_F_Virtual = 0x07, // member function, virtual inheritance + CV_PMTYPE_F_General = 0x08, // member function, most general +} CV_pmtype_e; + +// enumeration for method properties + +typedef enum CV_methodprop_e { + CV_MTvanilla = 0x00, + CV_MTvirtual = 0x01, + CV_MTstatic = 0x02, + CV_MTfriend = 0x03, + CV_MTintro = 0x04, + CV_MTpurevirt = 0x05, + CV_MTpureintro = 0x06 +} CV_methodprop_e; + + + + +// enumeration for virtual shape table entries + +typedef enum CV_VTS_desc_e { + CV_VTS_near = 0x00, + CV_VTS_far = 0x01, + CV_VTS_thin = 0x02, + CV_VTS_outer = 0x03, + CV_VTS_meta = 0x04, + CV_VTS_near32 = 0x05, + CV_VTS_far32 = 0x06, + CV_VTS_unused = 0x07 +} CV_VTS_desc_e; + + + + +// enumeration for LF_LABEL address modes + +typedef enum CV_LABEL_TYPE_e { + CV_LABEL_NEAR = 0, // near return + CV_LABEL_FAR = 4 // far return +} CV_LABEL_TYPE_e; + + + +// enumeration for LF_MODIFIER values + + +typedef struct CV_modifier_t { + unsigned short MOD_const :1; + unsigned short MOD_volatile :1; + unsigned short MOD_unaligned :1; + unsigned short MOD_unused :13; +} CV_modifier_t; + + + + +// enumeration for HFA kinds + +typedef enum CV_HFA_e { + CV_HFA_none = 0, + CV_HFA_float = 1, + CV_HFA_double = 2, + CV_HFA_other = 3 +} CV_HFA_e; + +// enumeration for MoCOM UDT kinds + +typedef enum CV_MOCOM_UDT_e { + CV_MOCOM_UDT_none = 0, + CV_MOCOM_UDT_ref = 1, + CV_MOCOM_UDT_value = 2, + CV_MOCOM_UDT_interface = 3 +} CV_MOCOM_UDT_e; + +// bit field structure describing class/struct/union/enum properties + +typedef struct CV_prop_t { + unsigned short packed :1; // true if structure is packed + unsigned short ctor :1; // true if constructors or destructors present + unsigned short ovlops :1; // true if overloaded operators present + unsigned short isnested :1; // true if this is a nested class + unsigned short cnested :1; // true if this class contains nested types + unsigned short opassign :1; // true if overloaded assignment (=) + unsigned short opcast :1; // true if casting methods + unsigned short fwdref :1; // true if forward reference (incomplete defn) + unsigned short scoped :1; // scoped definition + unsigned short hasuniquename :1; // true if there is a decorated name following the regular name + unsigned short sealed :1; // true if class cannot be used as a base class + unsigned short hfa :2; // CV_HFA_e + unsigned short intrinsic :1; // true if class is an intrinsic type (e.g. __m128d) + unsigned short mocom :2; // CV_MOCOM_UDT_e +} CV_prop_t; + + + + +// class field attribute + +typedef struct CV_fldattr_t { + unsigned short access :2; // access protection CV_access_t + unsigned short mprop :3; // method properties CV_methodprop_t + unsigned short pseudo :1; // compiler generated fcn and does not exist + unsigned short noinherit :1; // true if class cannot be inherited + unsigned short noconstruct :1; // true if class cannot be constructed + unsigned short compgenx :1; // compiler generated fcn and does exist + unsigned short sealed :1; // true if method cannot be overridden + unsigned short unused :6; // unused +} CV_fldattr_t; + + +// function flags + +typedef struct CV_funcattr_t { + unsigned char cxxreturnudt :1; // true if C++ style ReturnUDT + unsigned char ctor :1; // true if func is an instance constructor + unsigned char ctorvbase :1; // true if func is an instance constructor of a class with virtual bases + unsigned char unused :5; // unused +} CV_funcattr_t; + + +// matrix flags + +typedef struct CV_matrixattr_t { + unsigned char row_major :1; // true if matrix has row-major layout (column-major is default) + unsigned char unused :7; // unused +} CV_matrixattr_t; + + +// Structures to access to the type records + + +typedef struct TYPTYPE { + unsigned short len; + unsigned short leaf; + unsigned char data[CV_ZEROLEN]; +} TYPTYPE; // general types record + +__INLINE char *NextType ( _In_ char * pType) { + return (pType + ((TYPTYPE *)pType)->len + sizeof(unsigned short)); +} + +typedef enum CV_PMEMBER { + CV_PDM16_NONVIRT = 0x00, // 16:16 data no virtual fcn or base + CV_PDM16_VFCN = 0x01, // 16:16 data with virtual functions + CV_PDM16_VBASE = 0x02, // 16:16 data with virtual bases + CV_PDM32_NVVFCN = 0x03, // 16:32 data w/wo virtual functions + CV_PDM32_VBASE = 0x04, // 16:32 data with virtual bases + + CV_PMF16_NEARNVSA = 0x05, // 16:16 near method nonvirtual single address point + CV_PMF16_NEARNVMA = 0x06, // 16:16 near method nonvirtual multiple address points + CV_PMF16_NEARVBASE = 0x07, // 16:16 near method virtual bases + CV_PMF16_FARNVSA = 0x08, // 16:16 far method nonvirtual single address point + CV_PMF16_FARNVMA = 0x09, // 16:16 far method nonvirtual multiple address points + CV_PMF16_FARVBASE = 0x0a, // 16:16 far method virtual bases + + CV_PMF32_NVSA = 0x0b, // 16:32 method nonvirtual single address point + CV_PMF32_NVMA = 0x0c, // 16:32 method nonvirtual multiple address point + CV_PMF32_VBASE = 0x0d // 16:32 method virtual bases +} CV_PMEMBER; + + + +// memory representation of pointer to member. These representations are +// indexed by the enumeration above in the LF_POINTER record + + + + +// representation of a 16:16 pointer to data for a class with no +// virtual functions or virtual bases + + +struct CV_PDMR16_NONVIRT { + CV_off16_t mdisp; // displacement to data (NULL = -1) +}; + + + + +// representation of a 16:16 pointer to data for a class with virtual +// functions + + +struct CV_PMDR16_VFCN { + CV_off16_t mdisp; // displacement to data ( NULL = 0) +}; + + + + +// representation of a 16:16 pointer to data for a class with +// virtual bases + + +struct CV_PDMR16_VBASE { + CV_off16_t mdisp; // displacement to data + CV_off16_t pdisp; // this pointer displacement to vbptr + CV_off16_t vdisp; // displacement within vbase table + // NULL = (,,0xffff) +}; + + + + +// representation of a 32 bit pointer to data for a class with +// or without virtual functions and no virtual bases + + +struct CV_PDMR32_NVVFCN { + CV_off32_t mdisp; // displacement to data (NULL = 0x80000000) +}; + + + + +// representation of a 32 bit pointer to data for a class +// with virtual bases + + +struct CV_PDMR32_VBASE { + CV_off32_t mdisp; // displacement to data + CV_off32_t pdisp; // this pointer displacement + CV_off32_t vdisp; // vbase table displacement + // NULL = (,,0xffffffff) +}; + + + + +// representation of a 16:16 pointer to near member function for a +// class with no virtual functions or bases and a single address point + + +struct CV_PMFR16_NEARNVSA { + CV_uoff16_t off; // near address of function (NULL = 0) +}; + + + +// representation of a 16 bit pointer to member functions of a +// class with no virtual bases and multiple address points + + +struct CV_PMFR16_NEARNVMA { + CV_uoff16_t off; // offset of function (NULL = 0,x) + signed short disp; +}; + + + + +// representation of a 16 bit pointer to member function of a +// class with virtual bases + + +struct CV_PMFR16_NEARVBASE { + CV_uoff16_t off; // offset of function (NULL = 0,x,x,x) + CV_off16_t mdisp; // displacement to data + CV_off16_t pdisp; // this pointer displacement + CV_off16_t vdisp; // vbase table displacement +}; + + + + +// representation of a 16:16 pointer to far member function for a +// class with no virtual bases and a single address point + + +struct CV_PMFR16_FARNVSA { + CV_uoff16_t off; // offset of function (NULL = 0:0) + unsigned short seg; // segment of function +}; + + + + +// representation of a 16:16 far pointer to member functions of a +// class with no virtual bases and multiple address points + + +struct CV_PMFR16_FARNVMA { + CV_uoff16_t off; // offset of function (NULL = 0:0,x) + unsigned short seg; + signed short disp; +}; + + + + +// representation of a 16:16 far pointer to member function of a +// class with virtual bases + + +struct CV_PMFR16_FARVBASE { + CV_uoff16_t off; // offset of function (NULL = 0:0,x,x,x) + unsigned short seg; + CV_off16_t mdisp; // displacement to data + CV_off16_t pdisp; // this pointer displacement + CV_off16_t vdisp; // vbase table displacement + +}; + + + + +// representation of a 32 bit pointer to member function for a +// class with no virtual bases and a single address point + + +struct CV_PMFR32_NVSA { + CV_uoff32_t off; // near address of function (NULL = 0L) +}; + + + + +// representation of a 32 bit pointer to member function for a +// class with no virtual bases and multiple address points + + +struct CV_PMFR32_NVMA { + CV_uoff32_t off; // near address of function (NULL = 0L,x) + CV_off32_t disp; +}; + + + + +// representation of a 32 bit pointer to member function for a +// class with virtual bases + + +struct CV_PMFR32_VBASE { + CV_uoff32_t off; // near address of function (NULL = 0L,x,x,x) + CV_off32_t mdisp; // displacement to data + CV_off32_t pdisp; // this pointer displacement + CV_off32_t vdisp; // vbase table displacement +}; + + + + + +// Easy leaf - used for generic casting to reference leaf field +// of a subfield of a complex list + +typedef struct lfEasy { + unsigned short leaf; // LF_... +} lfEasy; + + +/** The following type records are basically variant records of the + * above structure. The "unsigned short leaf" of the above structure and + * the "unsigned short leaf" of the following type definitions are the same + * symbol. When the OMF record is locked via the MHOMFLock API + * call, the address of the "unsigned short leaf" is returned + */ + +/** Notes on alignment + * Alignment of the fields in most of the type records is done on the + * basis of the TYPTYPE record base. That is why in most of the lf* + * records that the CV_typ_t (32-bit types) is located on what appears to + * be a offset mod 4 == 2 boundary. The exception to this rule are those + * records that are in a list (lfFieldList, lfMethodList), which are + * aligned to their own bases since they don't have the length field + */ + +/**** Change log for 16-bit to 32-bit type and symbol records + + Record type Change (f == field arrangement, p = padding added) + ---------------------------------------------------------------------- + lfModifer f + lfPointer fp + lfClass f + lfStructure f + lfUnion f + lfEnum f + lfVFTPath p + lfPreComp p + lfOEM p + lfArgList p + lfDerived p + mlMethod p (method list member) + lfBitField f + lfDimCon f + lfDimVar p + lfIndex p (field list member) + lfBClass f (field list member) + lfVBClass f (field list member) + lfFriendCls p (field list member) + lfFriendFcn p (field list member) + lfMember f (field list member) + lfSTMember f (field list member) + lfVFuncTab p (field list member) + lfVFuncOff p (field list member) + lfNestType p (field list member) + + DATASYM32 f + PROCSYM32 f + VPATHSYM32 f + REGREL32 f + THREADSYM32 f + PROCSYMMIPS f + + +*/ + +// Type record for LF_MODIFIER + +typedef struct lfModifier_16t { + unsigned short leaf; // LF_MODIFIER_16t + CV_modifier_t attr; // modifier attribute modifier_t + CV_typ16_t type; // modified type +} lfModifier_16t; + +typedef struct lfModifier { + unsigned short leaf; // LF_MODIFIER + CV_typ_t type; // modified type + CV_modifier_t attr; // modifier attribute modifier_t +} lfModifier; + + + + +// type record for LF_POINTER + +#ifndef __cplusplus +typedef struct lfPointer_16t { +#endif + struct lfPointerBody_16t { + unsigned short leaf; // LF_POINTER_16t + struct lfPointerAttr_16t { + unsigned char ptrtype :5; // ordinal specifying pointer type (CV_ptrtype_e) + unsigned char ptrmode :3; // ordinal specifying pointer mode (CV_ptrmode_e) + unsigned char isflat32 :1; // true if 0:32 pointer + unsigned char isvolatile :1; // TRUE if volatile pointer + unsigned char isconst :1; // TRUE if const pointer + unsigned char isunaligned :1; // TRUE if unaligned pointer + unsigned char unused :4; + } attr; + CV_typ16_t utype; // type index of the underlying type +#if (defined(__cplusplus) || defined(_MSC_VER)) // for C++ and MS compilers that support unnamed unions + }; +#else + } u; +#endif +#ifdef __cplusplus +typedef struct lfPointer_16t : public lfPointerBody_16t { +#endif + union { + struct { + CV_typ16_t pmclass; // index of containing class for pointer to member + unsigned short pmenum; // enumeration specifying pm format (CV_pmtype_e) + } pm; + unsigned short bseg; // base segment if PTR_BASE_SEG + unsigned char Sym[1]; // copy of base symbol record (including length) + struct { + CV_typ16_t index; // type index if CV_PTR_BASE_TYPE + unsigned char name[1]; // name of base type + } btype; + } pbase; +} lfPointer_16t; + +#ifndef __cplusplus +typedef struct lfPointer { +#endif + struct lfPointerBody { + unsigned short leaf; // LF_POINTER + CV_typ_t utype; // type index of the underlying type + struct lfPointerAttr { + unsigned long ptrtype :5; // ordinal specifying pointer type (CV_ptrtype_e) + unsigned long ptrmode :3; // ordinal specifying pointer mode (CV_ptrmode_e) + unsigned long isflat32 :1; // true if 0:32 pointer + unsigned long isvolatile :1; // TRUE if volatile pointer + unsigned long isconst :1; // TRUE if const pointer + unsigned long isunaligned :1; // TRUE if unaligned pointer + unsigned long isrestrict :1; // TRUE if restricted pointer (allow agressive opts) + unsigned long size :6; // size of pointer (in bytes) + unsigned long ismocom :1; // TRUE if it is a MoCOM pointer (^ or %) + unsigned long islref :1; // TRUE if it is this pointer of member function with & ref-qualifier + unsigned long isrref :1; // TRUE if it is this pointer of member function with && ref-qualifier + unsigned long unused :10;// pad out to 32-bits for following cv_typ_t's + } attr; +#if (defined(__cplusplus) || defined(_MSC_VER)) // for C++ and MS compilers that support unnamed unions + }; +#else + } u; +#endif +#ifdef __cplusplus +typedef struct lfPointer : public lfPointerBody { +#endif + union { + struct { + CV_typ_t pmclass; // index of containing class for pointer to member + unsigned short pmenum; // enumeration specifying pm format (CV_pmtype_e) + } pm; + unsigned short bseg; // base segment if PTR_BASE_SEG + unsigned char Sym[1]; // copy of base symbol record (including length) + struct { + CV_typ_t index; // type index if CV_PTR_BASE_TYPE + unsigned char name[1]; // name of base type + } btype; + } pbase; +} lfPointer; + + + + +// type record for LF_ARRAY + + +typedef struct lfArray_16t { + unsigned short leaf; // LF_ARRAY_16t + CV_typ16_t elemtype; // type index of element type + CV_typ16_t idxtype; // type index of indexing type + unsigned char data[CV_ZEROLEN]; // variable length data specifying + // size in bytes and name +} lfArray_16t; + +typedef struct lfArray { + unsigned short leaf; // LF_ARRAY + CV_typ_t elemtype; // type index of element type + CV_typ_t idxtype; // type index of indexing type + unsigned char data[CV_ZEROLEN]; // variable length data specifying + // size in bytes and name +} lfArray; + +typedef struct lfStridedArray { + unsigned short leaf; // LF_STRIDED_ARRAY + CV_typ_t elemtype; // type index of element type + CV_typ_t idxtype; // type index of indexing type + unsigned long stride; + unsigned char data[CV_ZEROLEN]; // variable length data specifying + // size in bytes and name +} lfStridedArray; + + + + +// type record for LF_VECTOR + + +typedef struct lfVector { + unsigned short leaf; // LF_VECTOR + CV_typ_t elemtype; // type index of element type + unsigned long count; // number of elements in the vector + unsigned char data[CV_ZEROLEN]; // variable length data specifying + // size in bytes and name +} lfVector; + + + + +// type record for LF_MATRIX + + +typedef struct lfMatrix { + unsigned short leaf; // LF_MATRIX + CV_typ_t elemtype; // type index of element type + unsigned long rows; // number of rows + unsigned long cols; // number of columns + unsigned long majorStride; + CV_matrixattr_t matattr; // attributes + unsigned char data[CV_ZEROLEN]; // variable length data specifying + // size in bytes and name +} lfMatrix; + + + + +// type record for LF_CLASS, LF_STRUCTURE + + +typedef struct lfClass_16t { + unsigned short leaf; // LF_CLASS_16t, LF_STRUCT_16t + unsigned short count; // count of number of elements in class + CV_typ16_t field; // type index of LF_FIELD descriptor list + CV_prop_t property; // property attribute field (prop_t) + CV_typ16_t derived; // type index of derived from list if not zero + CV_typ16_t vshape; // type index of vshape table for this class + unsigned char data[CV_ZEROLEN]; // data describing length of structure in + // bytes and name +} lfClass_16t; +typedef lfClass_16t lfStructure_16t; + + +typedef struct lfClass { + unsigned short leaf; // LF_CLASS, LF_STRUCT, LF_INTERFACE + unsigned short count; // count of number of elements in class + CV_prop_t property; // property attribute field (prop_t) + CV_typ_t field; // type index of LF_FIELD descriptor list + CV_typ_t derived; // type index of derived from list if not zero + CV_typ_t vshape; // type index of vshape table for this class + unsigned char data[CV_ZEROLEN]; // data describing length of structure in + // bytes and name +} lfClass; +typedef lfClass lfStructure; +typedef lfClass lfInterface; + +// type record for LF_UNION + + +typedef struct lfUnion_16t { + unsigned short leaf; // LF_UNION_16t + unsigned short count; // count of number of elements in class + CV_typ16_t field; // type index of LF_FIELD descriptor list + CV_prop_t property; // property attribute field + unsigned char data[CV_ZEROLEN]; // variable length data describing length of + // structure and name +} lfUnion_16t; + + +typedef struct lfUnion { + unsigned short leaf; // LF_UNION + unsigned short count; // count of number of elements in class + CV_prop_t property; // property attribute field + CV_typ_t field; // type index of LF_FIELD descriptor list + unsigned char data[CV_ZEROLEN]; // variable length data describing length of + // structure and name +} lfUnion; + + +// type record for LF_ALIAS + +typedef struct lfAlias { + unsigned short leaf; // LF_ALIAS + CV_typ_t utype; // underlying type + unsigned char Name[1]; // alias name +} lfAlias; + +// Item Id is a stricter typeindex which may referenced from symbol stream. +// The code item always had a name. + +typedef CV_typ_t CV_ItemId; + +typedef struct lfFuncId { + unsigned short leaf; // LF_FUNC_ID + CV_ItemId scopeId; // parent scope of the ID, 0 if global + CV_typ_t type; // function type + unsigned char name[CV_ZEROLEN]; +} lfFuncId; + +typedef struct lfMFuncId { + unsigned short leaf; // LF_MFUNC_ID + CV_typ_t parentType; // type index of parent + CV_typ_t type; // function type + unsigned char name[CV_ZEROLEN]; +} lfMFuncId; + +typedef struct lfStringId { + unsigned short leaf; // LF_STRING_ID + CV_ItemId id; // ID to list of sub string IDs + unsigned char name[CV_ZEROLEN]; +} lfStringId; + +typedef struct lfUdtSrcLine { + unsigned short leaf; // LF_UDT_SRC_LINE + CV_typ_t type; // UDT's type index + CV_ItemId src; // index to LF_STRING_ID record where source file name is saved + unsigned long line; // line number +} lfUdtSrcLine; + +typedef struct lfUdtModSrcLine { + unsigned short leaf; // LF_UDT_MOD_SRC_LINE + CV_typ_t type; // UDT's type index + CV_ItemId src; // index into string table where source file name is saved + unsigned long line; // line number + unsigned short imod; // module that contributes this UDT definition +} lfUdtModSrcLine; + +typedef enum CV_BuildInfo_e { + CV_BuildInfo_CurrentDirectory = 0, + CV_BuildInfo_BuildTool = 1, // Cl.exe + CV_BuildInfo_SourceFile = 2, // foo.cpp + CV_BuildInfo_ProgramDatabaseFile = 3, // foo.pdb + CV_BuildInfo_CommandArguments = 4, // -I etc + CV_BUILDINFO_KNOWN +} CV_BuildInfo_e; + +// type record for build information + +typedef struct lfBuildInfo { + unsigned short leaf; // LF_BUILDINFO + unsigned short count; // number of arguments + CV_ItemId arg[CV_BUILDINFO_KNOWN]; // arguments as CodeItemId +} lfBuildInfo; + +// type record for LF_MANAGED + +typedef struct lfManaged { + unsigned short leaf; // LF_MANAGED + unsigned char Name[1]; // utf8, zero terminated managed type name +} lfManaged; + + +// type record for LF_ENUM + + +typedef struct lfEnum_16t { + unsigned short leaf; // LF_ENUM_16t + unsigned short count; // count of number of elements in class + CV_typ16_t utype; // underlying type of the enum + CV_typ16_t field; // type index of LF_FIELD descriptor list + CV_prop_t property; // property attribute field + unsigned char Name[1]; // length prefixed name of enum +} lfEnum_16t; + +typedef struct lfEnum { + unsigned short leaf; // LF_ENUM + unsigned short count; // count of number of elements in class + CV_prop_t property; // property attribute field + CV_typ_t utype; // underlying type of the enum + CV_typ_t field; // type index of LF_FIELD descriptor list + unsigned char Name[1]; // length prefixed name of enum +} lfEnum; + + + +// Type record for LF_PROCEDURE + + +typedef struct lfProc_16t { + unsigned short leaf; // LF_PROCEDURE_16t + CV_typ16_t rvtype; // type index of return value + unsigned char calltype; // calling convention (CV_call_t) + CV_funcattr_t funcattr; // attributes + unsigned short parmcount; // number of parameters + CV_typ16_t arglist; // type index of argument list +} lfProc_16t; + +typedef struct lfProc { + unsigned short leaf; // LF_PROCEDURE + CV_typ_t rvtype; // type index of return value + unsigned char calltype; // calling convention (CV_call_t) + CV_funcattr_t funcattr; // attributes + unsigned short parmcount; // number of parameters + CV_typ_t arglist; // type index of argument list +} lfProc; + + + +// Type record for member function + + +typedef struct lfMFunc_16t { + unsigned short leaf; // LF_MFUNCTION_16t + CV_typ16_t rvtype; // type index of return value + CV_typ16_t classtype; // type index of containing class + CV_typ16_t thistype; // type index of this pointer (model specific) + unsigned char calltype; // calling convention (call_t) + CV_funcattr_t funcattr; // attributes + unsigned short parmcount; // number of parameters + CV_typ16_t arglist; // type index of argument list + long thisadjust; // this adjuster (long because pad required anyway) +} lfMFunc_16t; + +typedef struct lfMFunc { + unsigned short leaf; // LF_MFUNCTION + CV_typ_t rvtype; // type index of return value + CV_typ_t classtype; // type index of containing class + CV_typ_t thistype; // type index of this pointer (model specific) + unsigned char calltype; // calling convention (call_t) + CV_funcattr_t funcattr; // attributes + unsigned short parmcount; // number of parameters + CV_typ_t arglist; // type index of argument list + long thisadjust; // this adjuster (long because pad required anyway) +} lfMFunc; + + + + +// type record for virtual function table shape + + +typedef struct lfVTShape { + unsigned short leaf; // LF_VTSHAPE + unsigned short count; // number of entries in vfunctable + unsigned char desc[CV_ZEROLEN]; // 4 bit (CV_VTS_desc) descriptors +} lfVTShape; + +// type record for a virtual function table +typedef struct lfVftable { + unsigned short leaf; // LF_VFTABLE + CV_typ_t type; // class/structure that owns the vftable + CV_typ_t baseVftable; // vftable from which this vftable is derived + unsigned long offsetInObjectLayout; // offset of the vfptr to this table, relative to the start of the object layout. + unsigned long len; // length of the Names array below in bytes. + unsigned char Names[1]; // array of names. + // The first is the name of the vtable. + // The others are the names of the methods. + // TS-TODO: replace a name with a NamedCodeItem once Weiping is done, to + // avoid duplication of method names. +} lfVftable; + +// type record for cobol0 + + +typedef struct lfCobol0_16t { + unsigned short leaf; // LF_COBOL0_16t + CV_typ16_t type; // parent type record index + unsigned char data[CV_ZEROLEN]; +} lfCobol0_16t; + +typedef struct lfCobol0 { + unsigned short leaf; // LF_COBOL0 + CV_typ_t type; // parent type record index + unsigned char data[CV_ZEROLEN]; +} lfCobol0; + + + + +// type record for cobol1 + + +typedef struct lfCobol1 { + unsigned short leaf; // LF_COBOL1 + unsigned char data[CV_ZEROLEN]; +} lfCobol1; + + + + +// type record for basic array + + +typedef struct lfBArray_16t { + unsigned short leaf; // LF_BARRAY_16t + CV_typ16_t utype; // type index of underlying type +} lfBArray_16t; + +typedef struct lfBArray { + unsigned short leaf; // LF_BARRAY + CV_typ_t utype; // type index of underlying type +} lfBArray; + +// type record for assembler labels + + +typedef struct lfLabel { + unsigned short leaf; // LF_LABEL + unsigned short mode; // addressing mode of label +} lfLabel; + + + +// type record for dimensioned arrays + + +typedef struct lfDimArray_16t { + unsigned short leaf; // LF_DIMARRAY_16t + CV_typ16_t utype; // underlying type of the array + CV_typ16_t diminfo; // dimension information + unsigned char name[1]; // length prefixed name +} lfDimArray_16t; + +typedef struct lfDimArray { + unsigned short leaf; // LF_DIMARRAY + CV_typ_t utype; // underlying type of the array + CV_typ_t diminfo; // dimension information + unsigned char name[1]; // length prefixed name +} lfDimArray; + + + +// type record describing path to virtual function table + + +typedef struct lfVFTPath_16t { + unsigned short leaf; // LF_VFTPATH_16t + unsigned short count; // count of number of bases in path + CV_typ16_t base[1]; // bases from root to leaf +} lfVFTPath_16t; + +typedef struct lfVFTPath { + unsigned short leaf; // LF_VFTPATH + unsigned long count; // count of number of bases in path + CV_typ_t base[1]; // bases from root to leaf +} lfVFTPath; + + +// type record describing inclusion of precompiled types + + +typedef struct lfPreComp_16t { + unsigned short leaf; // LF_PRECOMP_16t + unsigned short start; // starting type index included + unsigned short count; // number of types in inclusion + unsigned long signature; // signature + unsigned char name[CV_ZEROLEN]; // length prefixed name of included type file +} lfPreComp_16t; + +typedef struct lfPreComp { + unsigned short leaf; // LF_PRECOMP + unsigned long start; // starting type index included + unsigned long count; // number of types in inclusion + unsigned long signature; // signature + unsigned char name[CV_ZEROLEN]; // length prefixed name of included type file +} lfPreComp; + + + +// type record describing end of precompiled types that can be +// included by another file + + +typedef struct lfEndPreComp { + unsigned short leaf; // LF_ENDPRECOMP + unsigned long signature; // signature +} lfEndPreComp; + + + + + +// type record for OEM definable type strings + + +typedef struct lfOEM_16t { + unsigned short leaf; // LF_OEM_16t + unsigned short cvOEM; // MS assigned OEM identified + unsigned short recOEM; // OEM assigned type identifier + unsigned short count; // count of type indices to follow + CV_typ16_t index[CV_ZEROLEN]; // array of type indices followed + // by OEM defined data +} lfOEM_16t; + +typedef struct lfOEM { + unsigned short leaf; // LF_OEM + unsigned short cvOEM; // MS assigned OEM identified + unsigned short recOEM; // OEM assigned type identifier + unsigned long count; // count of type indices to follow + CV_typ_t index[CV_ZEROLEN]; // array of type indices followed + // by OEM defined data +} lfOEM; + +#define OEM_MS_FORTRAN90 0xF090 +#define OEM_ODI 0x0010 +#define OEM_THOMSON_SOFTWARE 0x5453 +#define OEM_ODI_REC_BASELIST 0x0000 + +typedef struct lfOEM2 { + unsigned short leaf; // LF_OEM2 + unsigned char idOem[16]; // an oem ID (GUID) + unsigned long count; // count of type indices to follow + CV_typ_t index[CV_ZEROLEN]; // array of type indices followed + // by OEM defined data +} lfOEM2; + +// type record describing using of a type server + +typedef struct lfTypeServer { + unsigned short leaf; // LF_TYPESERVER + unsigned long signature; // signature + unsigned long age; // age of database used by this module + unsigned char name[CV_ZEROLEN]; // length prefixed name of PDB +} lfTypeServer; + +// type record describing using of a type server with v7 (GUID) signatures + +typedef struct lfTypeServer2 { + unsigned short leaf; // LF_TYPESERVER2 + SIG70 sig70; // guid signature + unsigned long age; // age of database used by this module + unsigned char name[CV_ZEROLEN]; // length prefixed name of PDB +} lfTypeServer2; + +// description of type records that can be referenced from +// type records referenced by symbols + + + +// type record for skip record + + +typedef struct lfSkip_16t { + unsigned short leaf; // LF_SKIP_16t + CV_typ16_t type; // next valid index + unsigned char data[CV_ZEROLEN]; // pad data +} lfSkip_16t; + +typedef struct lfSkip { + unsigned short leaf; // LF_SKIP + CV_typ_t type; // next valid index + unsigned char data[CV_ZEROLEN]; // pad data +} lfSkip; + + + +// argument list leaf + + +typedef struct lfArgList_16t { + unsigned short leaf; // LF_ARGLIST_16t + unsigned short count; // number of arguments + CV_typ16_t arg[CV_ZEROLEN]; // number of arguments +} lfArgList_16t; + +typedef struct lfArgList { + unsigned short leaf; // LF_ARGLIST, LF_SUBSTR_LIST + unsigned long count; // number of arguments + CV_typ_t arg[CV_ZEROLEN]; // number of arguments +} lfArgList; + + + + +// derived class list leaf + + +typedef struct lfDerived_16t { + unsigned short leaf; // LF_DERIVED_16t + unsigned short count; // number of arguments + CV_typ16_t drvdcls[CV_ZEROLEN]; // type indices of derived classes +} lfDerived_16t; + +typedef struct lfDerived { + unsigned short leaf; // LF_DERIVED + unsigned long count; // number of arguments + CV_typ_t drvdcls[CV_ZEROLEN]; // type indices of derived classes +} lfDerived; + + + + +// leaf for default arguments + + +typedef struct lfDefArg_16t { + unsigned short leaf; // LF_DEFARG_16t + CV_typ16_t type; // type of resulting expression + unsigned char expr[CV_ZEROLEN]; // length prefixed expression string +} lfDefArg_16t; + +typedef struct lfDefArg { + unsigned short leaf; // LF_DEFARG + CV_typ_t type; // type of resulting expression + unsigned char expr[CV_ZEROLEN]; // length prefixed expression string +} lfDefArg; + + + +// list leaf +// This list should no longer be used because the utilities cannot +// verify the contents of the list without knowing what type of list +// it is. New specific leaf indices should be used instead. + + +typedef struct lfList { + unsigned short leaf; // LF_LIST + char data[CV_ZEROLEN]; // data format specified by indexing type +} lfList; + + + + +// field list leaf +// This is the header leaf for a complex list of class and structure +// subfields. + + +typedef struct lfFieldList_16t { + unsigned short leaf; // LF_FIELDLIST_16t + char data[CV_ZEROLEN]; // field list sub lists +} lfFieldList_16t; + + +typedef struct lfFieldList { + unsigned short leaf; // LF_FIELDLIST + char data[CV_ZEROLEN]; // field list sub lists +} lfFieldList; + + + + + + + +// type record for non-static methods and friends in overloaded method list + +typedef struct mlMethod_16t { + CV_fldattr_t attr; // method attribute + CV_typ16_t index; // index to type record for procedure + unsigned long vbaseoff[CV_ZEROLEN]; // offset in vfunctable if intro virtual +} mlMethod_16t; + +typedef struct mlMethod { + CV_fldattr_t attr; // method attribute + _2BYTEPAD pad0; // internal padding, must be 0 + CV_typ_t index; // index to type record for procedure + unsigned long vbaseoff[CV_ZEROLEN]; // offset in vfunctable if intro virtual +} mlMethod; + + +typedef struct lfMethodList_16t { + unsigned short leaf; + unsigned char mList[CV_ZEROLEN]; // really a mlMethod_16t type +} lfMethodList_16t; + +typedef struct lfMethodList { + unsigned short leaf; + unsigned char mList[CV_ZEROLEN]; // really a mlMethod type +} lfMethodList; + + + + + +// type record for LF_BITFIELD + + +typedef struct lfBitfield_16t { + unsigned short leaf; // LF_BITFIELD_16t + unsigned char length; + unsigned char position; + CV_typ16_t type; // type of bitfield + +} lfBitfield_16t; + +typedef struct lfBitfield { + unsigned short leaf; // LF_BITFIELD + CV_typ_t type; // type of bitfield + unsigned char length; + unsigned char position; + +} lfBitfield; + + + + +// type record for dimensioned array with constant bounds + + +typedef struct lfDimCon_16t { + unsigned short leaf; // LF_DIMCONU_16t or LF_DIMCONLU_16t + unsigned short rank; // number of dimensions + CV_typ16_t typ; // type of index + unsigned char dim[CV_ZEROLEN]; // array of dimension information with + // either upper bounds or lower/upper bound +} lfDimCon_16t; + +typedef struct lfDimCon { + unsigned short leaf; // LF_DIMCONU or LF_DIMCONLU + CV_typ_t typ; // type of index + unsigned short rank; // number of dimensions + unsigned char dim[CV_ZEROLEN]; // array of dimension information with + // either upper bounds or lower/upper bound +} lfDimCon; + + + + +// type record for dimensioned array with variable bounds + + +typedef struct lfDimVar_16t { + unsigned short leaf; // LF_DIMVARU_16t or LF_DIMVARLU_16t + unsigned short rank; // number of dimensions + CV_typ16_t typ; // type of index + CV_typ16_t dim[CV_ZEROLEN]; // array of type indices for either + // variable upper bound or variable + // lower/upper bound. The referenced + // types must be LF_REFSYM or T_VOID +} lfDimVar_16t; + +typedef struct lfDimVar { + unsigned short leaf; // LF_DIMVARU or LF_DIMVARLU + unsigned long rank; // number of dimensions + CV_typ_t typ; // type of index + CV_typ_t dim[CV_ZEROLEN]; // array of type indices for either + // variable upper bound or variable + // lower/upper bound. The count of type + // indices is rank or rank*2 depending on + // whether it is LFDIMVARU or LF_DIMVARLU. + // The referenced types must be + // LF_REFSYM or T_VOID +} lfDimVar; + + + + +// type record for referenced symbol + + +typedef struct lfRefSym { + unsigned short leaf; // LF_REFSYM + unsigned char Sym[1]; // copy of referenced symbol record + // (including length) +} lfRefSym; + + + +// type record for generic HLSL type + + +typedef struct lfHLSL { + unsigned short leaf; // LF_HLSL + CV_typ_t subtype; // sub-type index, if any + unsigned short kind; // kind of built-in type from CV_builtin_e + unsigned short numprops : 4; // number of numeric properties + unsigned short unused : 12; // padding, must be 0 + unsigned char data[CV_ZEROLEN]; // variable-length array of numeric properties + // followed by byte size +} lfHLSL; + + + + +// type record for a generalized built-in type modifier + + +typedef struct lfModifierEx { + unsigned short leaf; // LF_MODIFIER_EX + CV_typ_t type; // type being modified + unsigned short count; // count of modifier values + unsigned short mods[CV_ZEROLEN]; // modifiers from CV_modifier_e +} lfModifierEx; + + + + +/** the following are numeric leaves. They are used to indicate the + * size of the following variable length data. When the numeric + * data is a single byte less than 0x8000, then the data is output + * directly. If the data is more the 0x8000 or is a negative value, + * then the data is preceeded by the proper index. + */ + + + +// signed character leaf + +typedef struct lfChar { + unsigned short leaf; // LF_CHAR + signed char val; // signed 8-bit value +} lfChar; + + + + +// signed short leaf + +typedef struct lfShort { + unsigned short leaf; // LF_SHORT + short val; // signed 16-bit value +} lfShort; + + + + +// unsigned short leaf + +typedef struct lfUShort { + unsigned short leaf; // LF_unsigned short + unsigned short val; // unsigned 16-bit value +} lfUShort; + + + + +// signed long leaf + +typedef struct lfLong { + unsigned short leaf; // LF_LONG + long val; // signed 32-bit value +} lfLong; + + + + +// unsigned long leaf + +typedef struct lfULong { + unsigned short leaf; // LF_ULONG + unsigned long val; // unsigned 32-bit value +} lfULong; + + + + +// signed quad leaf + +typedef struct lfQuad { + unsigned short leaf; // LF_QUAD + unsigned char val[8]; // signed 64-bit value +} lfQuad; + + + + +// unsigned quad leaf + +typedef struct lfUQuad { + unsigned short leaf; // LF_UQUAD + unsigned char val[8]; // unsigned 64-bit value +} lfUQuad; + + +// signed int128 leaf + +typedef struct lfOct { + unsigned short leaf; // LF_OCT + unsigned char val[16]; // signed 128-bit value +} lfOct; + +// unsigned int128 leaf + +typedef struct lfUOct { + unsigned short leaf; // LF_UOCT + unsigned char val[16]; // unsigned 128-bit value +} lfUOct; + + + + +// real 16-bit leaf + +typedef struct lfReal16 { + unsigned short leaf; // LF_REAL16 + unsigned short val; // 16-bit real value +} lfReal16; + + + + +// real 32-bit leaf + +typedef struct lfReal32 { + unsigned short leaf; // LF_REAL32 + float val; // 32-bit real value +} lfReal32; + + + + +// real 48-bit leaf + +typedef struct lfReal48 { + unsigned short leaf; // LF_REAL48 + unsigned char val[6]; // 48-bit real value +} lfReal48; + + + + +// real 64-bit leaf + +typedef struct lfReal64 { + unsigned short leaf; // LF_REAL64 + double val; // 64-bit real value +} lfReal64; + + + + +// real 80-bit leaf + +typedef struct lfReal80 { + unsigned short leaf; // LF_REAL80 + FLOAT10 val; // real 80-bit value +} lfReal80; + + + + +// real 128-bit leaf + +typedef struct lfReal128 { + unsigned short leaf; // LF_REAL128 + char val[16]; // real 128-bit value +} lfReal128; + + + + +// complex 32-bit leaf + +typedef struct lfCmplx32 { + unsigned short leaf; // LF_COMPLEX32 + float val_real; // real component + float val_imag; // imaginary component +} lfCmplx32; + + + + +// complex 64-bit leaf + +typedef struct lfCmplx64 { + unsigned short leaf; // LF_COMPLEX64 + double val_real; // real component + double val_imag; // imaginary component +} flCmplx64; + + + + +// complex 80-bit leaf + +typedef struct lfCmplx80 { + unsigned short leaf; // LF_COMPLEX80 + FLOAT10 val_real; // real component + FLOAT10 val_imag; // imaginary component +} lfCmplx80; + + + + +// complex 128-bit leaf + +typedef struct lfCmplx128 { + unsigned short leaf; // LF_COMPLEX128 + char val_real[16]; // real component + char val_imag[16]; // imaginary component +} lfCmplx128; + + + +// variable length numeric field + +typedef struct lfVarString { + unsigned short leaf; // LF_VARSTRING + unsigned short len; // length of value in bytes + unsigned char value[CV_ZEROLEN]; // value +} lfVarString; + +//*********************************************************************** + + +// index leaf - contains type index of another leaf +// a major use of this leaf is to allow the compilers to emit a +// long complex list (LF_FIELD) in smaller pieces. + +typedef struct lfIndex_16t { + unsigned short leaf; // LF_INDEX_16t + CV_typ16_t index; // type index of referenced leaf +} lfIndex_16t; + +typedef struct lfIndex { + unsigned short leaf; // LF_INDEX + _2BYTEPAD pad0; // internal padding, must be 0 + CV_typ_t index; // type index of referenced leaf +} lfIndex; + + +// subfield record for base class field + +typedef struct lfBClass_16t { + unsigned short leaf; // LF_BCLASS_16t + CV_typ16_t index; // type index of base class + CV_fldattr_t attr; // attribute + unsigned char offset[CV_ZEROLEN]; // variable length offset of base within class +} lfBClass_16t; + +typedef struct lfBClass { + unsigned short leaf; // LF_BCLASS, LF_BINTERFACE + CV_fldattr_t attr; // attribute + CV_typ_t index; // type index of base class + unsigned char offset[CV_ZEROLEN]; // variable length offset of base within class +} lfBClass; +typedef lfBClass lfBInterface; + + + + +// subfield record for direct and indirect virtual base class field + +typedef struct lfVBClass_16t { + unsigned short leaf; // LF_VBCLASS_16t | LV_IVBCLASS_16t + CV_typ16_t index; // type index of direct virtual base class + CV_typ16_t vbptr; // type index of virtual base pointer + CV_fldattr_t attr; // attribute + unsigned char vbpoff[CV_ZEROLEN]; // virtual base pointer offset from address point + // followed by virtual base offset from vbtable +} lfVBClass_16t; + +typedef struct lfVBClass { + unsigned short leaf; // LF_VBCLASS | LV_IVBCLASS + CV_fldattr_t attr; // attribute + CV_typ_t index; // type index of direct virtual base class + CV_typ_t vbptr; // type index of virtual base pointer + unsigned char vbpoff[CV_ZEROLEN]; // virtual base pointer offset from address point + // followed by virtual base offset from vbtable +} lfVBClass; + + + + + +// subfield record for friend class + + +typedef struct lfFriendCls_16t { + unsigned short leaf; // LF_FRIENDCLS_16t + CV_typ16_t index; // index to type record of friend class +} lfFriendCls_16t; + +typedef struct lfFriendCls { + unsigned short leaf; // LF_FRIENDCLS + _2BYTEPAD pad0; // internal padding, must be 0 + CV_typ_t index; // index to type record of friend class +} lfFriendCls; + + + + + +// subfield record for friend function + + +typedef struct lfFriendFcn_16t { + unsigned short leaf; // LF_FRIENDFCN_16t + CV_typ16_t index; // index to type record of friend function + unsigned char Name[1]; // name of friend function +} lfFriendFcn_16t; + +typedef struct lfFriendFcn { + unsigned short leaf; // LF_FRIENDFCN + _2BYTEPAD pad0; // internal padding, must be 0 + CV_typ_t index; // index to type record of friend function + unsigned char Name[1]; // name of friend function +} lfFriendFcn; + + + +// subfield record for non-static data members + +typedef struct lfMember_16t { + unsigned short leaf; // LF_MEMBER_16t + CV_typ16_t index; // index of type record for field + CV_fldattr_t attr; // attribute mask + unsigned char offset[CV_ZEROLEN]; // variable length offset of field followed + // by length prefixed name of field +} lfMember_16t; + +typedef struct lfMember { + unsigned short leaf; // LF_MEMBER + CV_fldattr_t attr; // attribute mask + CV_typ_t index; // index of type record for field + unsigned char offset[CV_ZEROLEN]; // variable length offset of field followed + // by length prefixed name of field +} lfMember; + + + +// type record for static data members + +typedef struct lfSTMember_16t { + unsigned short leaf; // LF_STMEMBER_16t + CV_typ16_t index; // index of type record for field + CV_fldattr_t attr; // attribute mask + unsigned char Name[1]; // length prefixed name of field +} lfSTMember_16t; + +typedef struct lfSTMember { + unsigned short leaf; // LF_STMEMBER + CV_fldattr_t attr; // attribute mask + CV_typ_t index; // index of type record for field + unsigned char Name[1]; // length prefixed name of field +} lfSTMember; + + + +// subfield record for virtual function table pointer + +typedef struct lfVFuncTab_16t { + unsigned short leaf; // LF_VFUNCTAB_16t + CV_typ16_t type; // type index of pointer +} lfVFuncTab_16t; + +typedef struct lfVFuncTab { + unsigned short leaf; // LF_VFUNCTAB + _2BYTEPAD pad0; // internal padding, must be 0 + CV_typ_t type; // type index of pointer +} lfVFuncTab; + + + +// subfield record for virtual function table pointer with offset + +typedef struct lfVFuncOff_16t { + unsigned short leaf; // LF_VFUNCOFF_16t + CV_typ16_t type; // type index of pointer + CV_off32_t offset; // offset of virtual function table pointer +} lfVFuncOff_16t; + +typedef struct lfVFuncOff { + unsigned short leaf; // LF_VFUNCOFF + _2BYTEPAD pad0; // internal padding, must be 0. + CV_typ_t type; // type index of pointer + CV_off32_t offset; // offset of virtual function table pointer +} lfVFuncOff; + + + +// subfield record for overloaded method list + + +typedef struct lfMethod_16t { + unsigned short leaf; // LF_METHOD_16t + unsigned short count; // number of occurrences of function + CV_typ16_t mList; // index to LF_METHODLIST record + unsigned char Name[1]; // length prefixed name of method +} lfMethod_16t; + +typedef struct lfMethod { + unsigned short leaf; // LF_METHOD + unsigned short count; // number of occurrences of function + CV_typ_t mList; // index to LF_METHODLIST record + unsigned char Name[1]; // length prefixed name of method +} lfMethod; + + + +// subfield record for nonoverloaded method + + +typedef struct lfOneMethod_16t { + unsigned short leaf; // LF_ONEMETHOD_16t + CV_fldattr_t attr; // method attribute + CV_typ16_t index; // index to type record for procedure + unsigned long vbaseoff[CV_ZEROLEN]; // offset in vfunctable if + // intro virtual followed by + // length prefixed name of method +} lfOneMethod_16t; + +typedef struct lfOneMethod { + unsigned short leaf; // LF_ONEMETHOD + CV_fldattr_t attr; // method attribute + CV_typ_t index; // index to type record for procedure + unsigned long vbaseoff[CV_ZEROLEN]; // offset in vfunctable if + // intro virtual followed by + // length prefixed name of method +} lfOneMethod; + + +// subfield record for enumerate + +typedef struct lfEnumerate { + unsigned short leaf; // LF_ENUMERATE + CV_fldattr_t attr; // access + unsigned char value[CV_ZEROLEN]; // variable length value field followed + // by length prefixed name +} lfEnumerate; + + +// type record for nested (scoped) type definition + +typedef struct lfNestType_16t { + unsigned short leaf; // LF_NESTTYPE_16t + CV_typ16_t index; // index of nested type definition + unsigned char Name[1]; // length prefixed type name +} lfNestType_16t; + +typedef struct lfNestType { + unsigned short leaf; // LF_NESTTYPE + _2BYTEPAD pad0; // internal padding, must be 0 + CV_typ_t index; // index of nested type definition + unsigned char Name[1]; // length prefixed type name +} lfNestType; + +// type record for nested (scoped) type definition, with attributes +// new records for vC v5.0, no need to have 16-bit ti versions. + +typedef struct lfNestTypeEx { + unsigned short leaf; // LF_NESTTYPEEX + CV_fldattr_t attr; // member access + CV_typ_t index; // index of nested type definition + unsigned char Name[1]; // length prefixed type name +} lfNestTypeEx; + +// type record for modifications to members + +typedef struct lfMemberModify { + unsigned short leaf; // LF_MEMBERMODIFY + CV_fldattr_t attr; // the new attributes + CV_typ_t index; // index of base class type definition + unsigned char Name[1]; // length prefixed member name +} lfMemberModify; + +// type record for pad leaf + +typedef struct lfPad { + unsigned char leaf; +} SYM_PAD; + + + +// Symbol definitions + +typedef enum SYM_ENUM_e { + S_COMPILE = 0x0001, // Compile flags symbol + S_REGISTER_16t = 0x0002, // Register variable + S_CONSTANT_16t = 0x0003, // constant symbol + S_UDT_16t = 0x0004, // User defined type + S_SSEARCH = 0x0005, // Start Search + S_END = 0x0006, // Block, procedure, "with" or thunk end + S_SKIP = 0x0007, // Reserve symbol space in $$Symbols table + S_CVRESERVE = 0x0008, // Reserved symbol for CV internal use + S_OBJNAME_ST = 0x0009, // path to object file name + S_ENDARG = 0x000a, // end of argument/return list + S_COBOLUDT_16t = 0x000b, // special UDT for cobol that does not symbol pack + S_MANYREG_16t = 0x000c, // multiple register variable + S_RETURN = 0x000d, // return description symbol + S_ENTRYTHIS = 0x000e, // description of this pointer on entry + + S_BPREL16 = 0x0100, // BP-relative + S_LDATA16 = 0x0101, // Module-local symbol + S_GDATA16 = 0x0102, // Global data symbol + S_PUB16 = 0x0103, // a public symbol + S_LPROC16 = 0x0104, // Local procedure start + S_GPROC16 = 0x0105, // Global procedure start + S_THUNK16 = 0x0106, // Thunk Start + S_BLOCK16 = 0x0107, // block start + S_WITH16 = 0x0108, // with start + S_LABEL16 = 0x0109, // code label + S_CEXMODEL16 = 0x010a, // change execution model + S_VFTABLE16 = 0x010b, // address of virtual function table + S_REGREL16 = 0x010c, // register relative address + + S_BPREL32_16t = 0x0200, // BP-relative + S_LDATA32_16t = 0x0201, // Module-local symbol + S_GDATA32_16t = 0x0202, // Global data symbol + S_PUB32_16t = 0x0203, // a public symbol (CV internal reserved) + S_LPROC32_16t = 0x0204, // Local procedure start + S_GPROC32_16t = 0x0205, // Global procedure start + S_THUNK32_ST = 0x0206, // Thunk Start + S_BLOCK32_ST = 0x0207, // block start + S_WITH32_ST = 0x0208, // with start + S_LABEL32_ST = 0x0209, // code label + S_CEXMODEL32 = 0x020a, // change execution model + S_VFTABLE32_16t = 0x020b, // address of virtual function table + S_REGREL32_16t = 0x020c, // register relative address + S_LTHREAD32_16t = 0x020d, // local thread storage + S_GTHREAD32_16t = 0x020e, // global thread storage + S_SLINK32 = 0x020f, // static link for MIPS EH implementation + + S_LPROCMIPS_16t = 0x0300, // Local procedure start + S_GPROCMIPS_16t = 0x0301, // Global procedure start + + // if these ref symbols have names following then the names are in ST format + S_PROCREF_ST = 0x0400, // Reference to a procedure + S_DATAREF_ST = 0x0401, // Reference to data + S_ALIGN = 0x0402, // Used for page alignment of symbols + + S_LPROCREF_ST = 0x0403, // Local Reference to a procedure + S_OEM = 0x0404, // OEM defined symbol + + // sym records with 32-bit types embedded instead of 16-bit + // all have 0x1000 bit set for easy identification + // only do the 32-bit target versions since we don't really + // care about 16-bit ones anymore. + S_TI16_MAX = 0x1000, + + S_REGISTER_ST = 0x1001, // Register variable + S_CONSTANT_ST = 0x1002, // constant symbol + S_UDT_ST = 0x1003, // User defined type + S_COBOLUDT_ST = 0x1004, // special UDT for cobol that does not symbol pack + S_MANYREG_ST = 0x1005, // multiple register variable + S_BPREL32_ST = 0x1006, // BP-relative + S_LDATA32_ST = 0x1007, // Module-local symbol + S_GDATA32_ST = 0x1008, // Global data symbol + S_PUB32_ST = 0x1009, // a public symbol (CV internal reserved) + S_LPROC32_ST = 0x100a, // Local procedure start + S_GPROC32_ST = 0x100b, // Global procedure start + S_VFTABLE32 = 0x100c, // address of virtual function table + S_REGREL32_ST = 0x100d, // register relative address + S_LTHREAD32_ST = 0x100e, // local thread storage + S_GTHREAD32_ST = 0x100f, // global thread storage + + S_LPROCMIPS_ST = 0x1010, // Local procedure start + S_GPROCMIPS_ST = 0x1011, // Global procedure start + + S_FRAMEPROC = 0x1012, // extra frame and proc information + S_COMPILE2_ST = 0x1013, // extended compile flags and info + + // new symbols necessary for 16-bit enumerates of IA64 registers + // and IA64 specific symbols + + S_MANYREG2_ST = 0x1014, // multiple register variable + S_LPROCIA64_ST = 0x1015, // Local procedure start (IA64) + S_GPROCIA64_ST = 0x1016, // Global procedure start (IA64) + + // Local symbols for IL + S_LOCALSLOT_ST = 0x1017, // local IL sym with field for local slot index + S_PARAMSLOT_ST = 0x1018, // local IL sym with field for parameter slot index + + S_ANNOTATION = 0x1019, // Annotation string literals + + // symbols to support managed code debugging + S_GMANPROC_ST = 0x101a, // Global proc + S_LMANPROC_ST = 0x101b, // Local proc + S_RESERVED1 = 0x101c, // reserved + S_RESERVED2 = 0x101d, // reserved + S_RESERVED3 = 0x101e, // reserved + S_RESERVED4 = 0x101f, // reserved + S_LMANDATA_ST = 0x1020, + S_GMANDATA_ST = 0x1021, + S_MANFRAMEREL_ST= 0x1022, + S_MANREGISTER_ST= 0x1023, + S_MANSLOT_ST = 0x1024, + S_MANMANYREG_ST = 0x1025, + S_MANREGREL_ST = 0x1026, + S_MANMANYREG2_ST= 0x1027, + S_MANTYPREF = 0x1028, // Index for type referenced by name from metadata + S_UNAMESPACE_ST = 0x1029, // Using namespace + + // Symbols w/ SZ name fields. All name fields contain utf8 encoded strings. + S_ST_MAX = 0x1100, // starting point for SZ name symbols + + S_OBJNAME = 0x1101, // path to object file name + S_THUNK32 = 0x1102, // Thunk Start + S_BLOCK32 = 0x1103, // block start + S_WITH32 = 0x1104, // with start + S_LABEL32 = 0x1105, // code label + S_REGISTER = 0x1106, // Register variable + S_CONSTANT = 0x1107, // constant symbol + S_UDT = 0x1108, // User defined type + S_COBOLUDT = 0x1109, // special UDT for cobol that does not symbol pack + S_MANYREG = 0x110a, // multiple register variable + S_BPREL32 = 0x110b, // BP-relative + S_LDATA32 = 0x110c, // Module-local symbol + S_GDATA32 = 0x110d, // Global data symbol + S_PUB32 = 0x110e, // a public symbol (CV internal reserved) + S_LPROC32 = 0x110f, // Local procedure start + S_GPROC32 = 0x1110, // Global procedure start + S_REGREL32 = 0x1111, // register relative address + S_LTHREAD32 = 0x1112, // local thread storage + S_GTHREAD32 = 0x1113, // global thread storage + + S_LPROCMIPS = 0x1114, // Local procedure start + S_GPROCMIPS = 0x1115, // Global procedure start + S_COMPILE2 = 0x1116, // extended compile flags and info + S_MANYREG2 = 0x1117, // multiple register variable + S_LPROCIA64 = 0x1118, // Local procedure start (IA64) + S_GPROCIA64 = 0x1119, // Global procedure start (IA64) + S_LOCALSLOT = 0x111a, // local IL sym with field for local slot index + S_SLOT = S_LOCALSLOT, // alias for LOCALSLOT + S_PARAMSLOT = 0x111b, // local IL sym with field for parameter slot index + + // symbols to support managed code debugging + S_LMANDATA = 0x111c, + S_GMANDATA = 0x111d, + S_MANFRAMEREL = 0x111e, + S_MANREGISTER = 0x111f, + S_MANSLOT = 0x1120, + S_MANMANYREG = 0x1121, + S_MANREGREL = 0x1122, + S_MANMANYREG2 = 0x1123, + S_UNAMESPACE = 0x1124, // Using namespace + + // ref symbols with name fields + S_PROCREF = 0x1125, // Reference to a procedure + S_DATAREF = 0x1126, // Reference to data + S_LPROCREF = 0x1127, // Local Reference to a procedure + S_ANNOTATIONREF = 0x1128, // Reference to an S_ANNOTATION symbol + S_TOKENREF = 0x1129, // Reference to one of the many MANPROCSYM's + + // continuation of managed symbols + S_GMANPROC = 0x112a, // Global proc + S_LMANPROC = 0x112b, // Local proc + + // short, light-weight thunks + S_TRAMPOLINE = 0x112c, // trampoline thunks + S_MANCONSTANT = 0x112d, // constants with metadata type info + + // native attributed local/parms + S_ATTR_FRAMEREL = 0x112e, // relative to virtual frame ptr + S_ATTR_REGISTER = 0x112f, // stored in a register + S_ATTR_REGREL = 0x1130, // relative to register (alternate frame ptr) + S_ATTR_MANYREG = 0x1131, // stored in >1 register + + // Separated code (from the compiler) support + S_SEPCODE = 0x1132, + + S_LOCAL_2005 = 0x1133, // defines a local symbol in optimized code + S_DEFRANGE_2005 = 0x1134, // defines a single range of addresses in which symbol can be evaluated + S_DEFRANGE2_2005 = 0x1135, // defines ranges of addresses in which symbol can be evaluated + + S_SECTION = 0x1136, // A COFF section in a PE executable + S_COFFGROUP = 0x1137, // A COFF group + S_EXPORT = 0x1138, // A export + + S_CALLSITEINFO = 0x1139, // Indirect call site information + S_FRAMECOOKIE = 0x113a, // Security cookie information + + S_DISCARDED = 0x113b, // Discarded by LINK /OPT:REF (experimental, see richards) + + S_COMPILE3 = 0x113c, // Replacement for S_COMPILE2 + S_ENVBLOCK = 0x113d, // Environment block split off from S_COMPILE2 + + S_LOCAL = 0x113e, // defines a local symbol in optimized code + S_DEFRANGE = 0x113f, // defines a single range of addresses in which symbol can be evaluated + S_DEFRANGE_SUBFIELD = 0x1140, // ranges for a subfield + + S_DEFRANGE_REGISTER = 0x1141, // ranges for en-registered symbol + S_DEFRANGE_FRAMEPOINTER_REL = 0x1142, // range for stack symbol. + S_DEFRANGE_SUBFIELD_REGISTER = 0x1143, // ranges for en-registered field of symbol + S_DEFRANGE_FRAMEPOINTER_REL_FULL_SCOPE = 0x1144, // range for stack symbol span valid full scope of function body, gap might apply. + S_DEFRANGE_REGISTER_REL = 0x1145, // range for symbol address as register + offset. + + // S_PROC symbols that reference ID instead of type + S_LPROC32_ID = 0x1146, + S_GPROC32_ID = 0x1147, + S_LPROCMIPS_ID = 0x1148, + S_GPROCMIPS_ID = 0x1149, + S_LPROCIA64_ID = 0x114a, + S_GPROCIA64_ID = 0x114b, + + S_BUILDINFO = 0x114c, // build information. + S_INLINESITE = 0x114d, // inlined function callsite. + S_INLINESITE_END = 0x114e, + S_PROC_ID_END = 0x114f, + + S_DEFRANGE_HLSL = 0x1150, + S_GDATA_HLSL = 0x1151, + S_LDATA_HLSL = 0x1152, + + S_FILESTATIC = 0x1153, + +#if defined(CC_DP_CXX) && CC_DP_CXX + + S_LOCAL_DPC_GROUPSHARED = 0x1154, // DPC groupshared variable + S_LPROC32_DPC = 0x1155, // DPC local procedure start + S_LPROC32_DPC_ID = 0x1156, + S_DEFRANGE_DPC_PTR_TAG = 0x1157, // DPC pointer tag definition range + S_DPC_SYM_TAG_MAP = 0x1158, // DPC pointer tag value to symbol record map + +#endif // CC_DP_CXX + + S_ARMSWITCHTABLE = 0x1159, + S_CALLEES = 0x115a, + S_CALLERS = 0x115b, + S_POGODATA = 0x115c, + S_INLINESITE2 = 0x115d, // extended inline site information + + S_HEAPALLOCSITE = 0x115e, // heap allocation site + + S_MOD_TYPEREF = 0x115f, // only generated at link time + + S_REF_MINIPDB = 0x1160, // only generated at link time for mini PDB + S_PDBMAP = 0x1161, // only generated at link time for mini PDB + + S_GDATA_HLSL32 = 0x1162, + S_LDATA_HLSL32 = 0x1163, + + S_GDATA_HLSL32_EX = 0x1164, + S_LDATA_HLSL32_EX = 0x1165, + + S_RECTYPE_MAX, // one greater than last + S_RECTYPE_LAST = S_RECTYPE_MAX - 1, + S_RECTYPE_PAD = S_RECTYPE_MAX + 0x100 // Used *only* to verify symbol record types so that current PDB code can potentially read + // future PDBs (assuming no format change, etc). + +} SYM_ENUM_e; + + +// enum describing compile flag ambient data model + + +typedef enum CV_CFL_DATA { + CV_CFL_DNEAR = 0x00, + CV_CFL_DFAR = 0x01, + CV_CFL_DHUGE = 0x02 +} CV_CFL_DATA; + + + + +// enum describing compile flag ambiant code model + + +typedef enum CV_CFL_CODE_e { + CV_CFL_CNEAR = 0x00, + CV_CFL_CFAR = 0x01, + CV_CFL_CHUGE = 0x02 +} CV_CFL_CODE_e; + + + + +// enum describing compile flag target floating point package + +typedef enum CV_CFL_FPKG_e { + CV_CFL_NDP = 0x00, + CV_CFL_EMU = 0x01, + CV_CFL_ALT = 0x02 +} CV_CFL_FPKG_e; + + +// enum describing function return method + + +typedef struct CV_PROCFLAGS { + union { + unsigned char bAll; + unsigned char grfAll; + struct { + unsigned char CV_PFLAG_NOFPO :1; // frame pointer present + unsigned char CV_PFLAG_INT :1; // interrupt return + unsigned char CV_PFLAG_FAR :1; // far return + unsigned char CV_PFLAG_NEVER :1; // function does not return + unsigned char CV_PFLAG_NOTREACHED:1; // label isn't fallen into + unsigned char CV_PFLAG_CUST_CALL :1; // custom calling convention + unsigned char CV_PFLAG_NOINLINE :1; // function marked as noinline + unsigned char CV_PFLAG_OPTDBGINFO:1; // function has debug information for optimized code + }; + }; +} CV_PROCFLAGS; + +// Extended proc flags +// +typedef struct CV_EXPROCFLAGS { + CV_PROCFLAGS cvpf; + union { + unsigned char grfAll; + struct { + unsigned char __reserved_byte :8; // must be zero + }; + }; +} CV_EXPROCFLAGS; + +// local variable flags +typedef struct CV_LVARFLAGS { + unsigned short fIsParam :1; // variable is a parameter + unsigned short fAddrTaken :1; // address is taken + unsigned short fCompGenx :1; // variable is compiler generated + unsigned short fIsAggregate :1; // the symbol is splitted in temporaries, + // which are treated by compiler as + // independent entities + unsigned short fIsAggregated :1; // Counterpart of fIsAggregate - tells + // that it is a part of a fIsAggregate symbol + unsigned short fIsAliased :1; // variable has multiple simultaneous lifetimes + unsigned short fIsAlias :1; // represents one of the multiple simultaneous lifetimes + unsigned short fIsRetValue :1; // represents a function return value + unsigned short fIsOptimizedOut :1; // variable has no lifetimes + unsigned short fIsEnregGlob :1; // variable is an enregistered global + unsigned short fIsEnregStat :1; // variable is an enregistered static + + unsigned short unused :5; // must be zero + +} CV_LVARFLAGS; + +// extended attributes common to all local variables +typedef struct CV_lvar_attr { + CV_uoff32_t off; // first code address where var is live + unsigned short seg; + CV_LVARFLAGS flags; // local var flags +} CV_lvar_attr; + +// This is max length of a lexical linear IP range. +// The upper number are reserved for seeded and flow based range + +#define CV_LEXICAL_RANGE_MAX 0xF000 + +// represents an address range, used for optimized code debug info + +typedef struct CV_LVAR_ADDR_RANGE { // defines a range of addresses + CV_uoff32_t offStart; + unsigned short isectStart; + unsigned short cbRange; +} CV_LVAR_ADDR_RANGE; + +// Represents the holes in overall address range, all address is pre-bbt. +// it is for compress and reduce the amount of relocations need. + +typedef struct CV_LVAR_ADDR_GAP { + unsigned short gapStartOffset; // relative offset from the beginning of the live range. + unsigned short cbRange; // length of this gap. +} CV_LVAR_ADDR_GAP; + +#if defined(CC_DP_CXX) && CC_DP_CXX + +// Represents a mapping from a DPC pointer tag value to the corresponding symbol record +typedef struct CV_DPC_SYM_TAG_MAP_ENTRY { + unsigned int tagValue; // address taken symbol's pointer tag value. + CV_off32_t symRecordOffset; // offset of the symbol record from the S_LPROC32_DPC record it is nested within +} CV_DPC_SYM_TAG_MAP_ENTRY; + +#endif // CC_DP_CXX + +// enum describing function data return method + +typedef enum CV_GENERIC_STYLE_e { + CV_GENERIC_VOID = 0x00, // void return type + CV_GENERIC_REG = 0x01, // return data is in registers + CV_GENERIC_ICAN = 0x02, // indirect caller allocated near + CV_GENERIC_ICAF = 0x03, // indirect caller allocated far + CV_GENERIC_IRAN = 0x04, // indirect returnee allocated near + CV_GENERIC_IRAF = 0x05, // indirect returnee allocated far + CV_GENERIC_UNUSED = 0x06 // first unused +} CV_GENERIC_STYLE_e; + + +typedef struct CV_GENERIC_FLAG { + unsigned short cstyle :1; // true push varargs right to left + unsigned short rsclean :1; // true if returnee stack cleanup + unsigned short unused :14; // unused +} CV_GENERIC_FLAG; + + +// flag bitfields for separated code attributes + +typedef struct CV_SEPCODEFLAGS { + unsigned long fIsLexicalScope : 1; // S_SEPCODE doubles as lexical scope + unsigned long fReturnsToParent : 1; // code frag returns to parent + unsigned long pad : 30; // must be zero +} CV_SEPCODEFLAGS; + +// Generic layout for symbol records + +typedef struct SYMTYPE { + unsigned short reclen; // Record length + unsigned short rectyp; // Record type + char data[CV_ZEROLEN]; +} SYMTYPE; + +__INLINE SYMTYPE *NextSym (SYMTYPE * pSym) { + return (SYMTYPE *) ((char *)pSym + pSym->reclen + sizeof(unsigned short)); +} + +// non-model specific symbol types + + + +typedef struct REGSYM_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_REGISTER_16t + CV_typ16_t typind; // Type index + unsigned short reg; // register enumerate + unsigned char name[1]; // Length-prefixed name +} REGSYM_16t; + +typedef struct REGSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_REGISTER + CV_typ_t typind; // Type index or Metadata token + unsigned short reg; // register enumerate + unsigned char name[1]; // Length-prefixed name +} REGSYM; + +typedef struct ATTRREGSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANREGISTER | S_ATTR_REGISTER + CV_typ_t typind; // Type index or Metadata token + CV_lvar_attr attr; // local var attributes + unsigned short reg; // register enumerate + unsigned char name[1]; // Length-prefixed name +} ATTRREGSYM; + +typedef struct MANYREGSYM_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANYREG_16t + CV_typ16_t typind; // Type index + unsigned char count; // count of number of registers + unsigned char reg[1]; // count register enumerates followed by + // length-prefixed name. Registers are + // most significant first. +} MANYREGSYM_16t; + +typedef struct MANYREGSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANYREG + CV_typ_t typind; // Type index or metadata token + unsigned char count; // count of number of registers + unsigned char reg[1]; // count register enumerates followed by + // length-prefixed name. Registers are + // most significant first. +} MANYREGSYM; + +typedef struct MANYREGSYM2 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANYREG2 + CV_typ_t typind; // Type index or metadata token + unsigned short count; // count of number of registers + unsigned short reg[1]; // count register enumerates followed by + // length-prefixed name. Registers are + // most significant first. +} MANYREGSYM2; + +typedef struct ATTRMANYREGSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANMANYREG + CV_typ_t typind; // Type index or metadata token + CV_lvar_attr attr; // local var attributes + unsigned char count; // count of number of registers + unsigned char reg[1]; // count register enumerates followed by + // length-prefixed name. Registers are + // most significant first. + unsigned char name[CV_ZEROLEN]; // utf-8 encoded zero terminate name +} ATTRMANYREGSYM; + +typedef struct ATTRMANYREGSYM2 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANMANYREG2 | S_ATTR_MANYREG + CV_typ_t typind; // Type index or metadata token + CV_lvar_attr attr; // local var attributes + unsigned short count; // count of number of registers + unsigned short reg[1]; // count register enumerates followed by + // length-prefixed name. Registers are + // most significant first. + unsigned char name[CV_ZEROLEN]; // utf-8 encoded zero terminate name +} ATTRMANYREGSYM2; + +typedef struct CONSTSYM_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_CONSTANT_16t + CV_typ16_t typind; // Type index (containing enum if enumerate) + unsigned short value; // numeric leaf containing value + unsigned char name[CV_ZEROLEN]; // Length-prefixed name +} CONSTSYM_16t; + +typedef struct CONSTSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_CONSTANT or S_MANCONSTANT + CV_typ_t typind; // Type index (containing enum if enumerate) or metadata token + unsigned short value; // numeric leaf containing value + unsigned char name[CV_ZEROLEN]; // Length-prefixed name +} CONSTSYM; + + +typedef struct UDTSYM_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_UDT_16t | S_COBOLUDT_16t + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} UDTSYM_16t; + + +typedef struct UDTSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_UDT | S_COBOLUDT + CV_typ_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} UDTSYM; + +typedef struct MANTYPREF { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANTYPREF + CV_typ_t typind; // Type index +} MANTYPREF; + +typedef struct SEARCHSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_SSEARCH + unsigned long startsym; // offset of the procedure + unsigned short seg; // segment of symbol +} SEARCHSYM; + + +typedef struct CFLAGSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_COMPILE + unsigned char machine; // target processor + struct { + unsigned char language :8; // language index + unsigned char pcode :1; // true if pcode present + unsigned char floatprec :2; // floating precision + unsigned char floatpkg :2; // float package + unsigned char ambdata :3; // ambient data model + unsigned char ambcode :3; // ambient code model + unsigned char mode32 :1; // true if compiled 32 bit mode + unsigned char pad :4; // reserved + } flags; + unsigned char ver[1]; // Length-prefixed compiler version string +} CFLAGSYM; + + +typedef struct COMPILESYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_COMPILE2 + struct { + unsigned long iLanguage : 8; // language index + unsigned long fEC : 1; // compiled for E/C + unsigned long fNoDbgInfo : 1; // not compiled with debug info + unsigned long fLTCG : 1; // compiled with LTCG + unsigned long fNoDataAlign : 1; // compiled with -Bzalign + unsigned long fManagedPresent : 1; // managed code/data present + unsigned long fSecurityChecks : 1; // compiled with /GS + unsigned long fHotPatch : 1; // compiled with /hotpatch + unsigned long fCVTCIL : 1; // converted with CVTCIL + unsigned long fMSILModule : 1; // MSIL netmodule + unsigned long pad : 15; // reserved, must be 0 + } flags; + unsigned short machine; // target processor + unsigned short verFEMajor; // front end major version # + unsigned short verFEMinor; // front end minor version # + unsigned short verFEBuild; // front end build version # + unsigned short verMajor; // back end major version # + unsigned short verMinor; // back end minor version # + unsigned short verBuild; // back end build version # + unsigned char verSt[1]; // Length-prefixed compiler version string, followed + // by an optional block of zero terminated strings + // terminated with a double zero. +} COMPILESYM; + +typedef struct COMPILESYM3 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_COMPILE3 + struct { + unsigned long iLanguage : 8; // language index + unsigned long fEC : 1; // compiled for E/C + unsigned long fNoDbgInfo : 1; // not compiled with debug info + unsigned long fLTCG : 1; // compiled with LTCG + unsigned long fNoDataAlign : 1; // compiled with -Bzalign + unsigned long fManagedPresent : 1; // managed code/data present + unsigned long fSecurityChecks : 1; // compiled with /GS + unsigned long fHotPatch : 1; // compiled with /hotpatch + unsigned long fCVTCIL : 1; // converted with CVTCIL + unsigned long fMSILModule : 1; // MSIL netmodule + unsigned long fSdl : 1; // compiled with /sdl + unsigned long fPGO : 1; // compiled with /ltcg:pgo or pgu + unsigned long fExp : 1; // .exp module + unsigned long pad : 12; // reserved, must be 0 + } flags; + unsigned short machine; // target processor + unsigned short verFEMajor; // front end major version # + unsigned short verFEMinor; // front end minor version # + unsigned short verFEBuild; // front end build version # + unsigned short verFEQFE; // front end QFE version # + unsigned short verMajor; // back end major version # + unsigned short verMinor; // back end minor version # + unsigned short verBuild; // back end build version # + unsigned short verQFE; // back end QFE version # + char verSz[1]; // Zero terminated compiler version string +} COMPILESYM3; + +typedef struct ENVBLOCKSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_ENVBLOCK + struct { + unsigned char rev : 1; // reserved + unsigned char pad : 7; // reserved, must be 0 + } flags; + unsigned char rgsz[1]; // Sequence of zero-terminated strings +} ENVBLOCKSYM; + +typedef struct OBJNAMESYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_OBJNAME + unsigned long signature; // signature + unsigned char name[1]; // Length-prefixed name +} OBJNAMESYM; + + +typedef struct ENDARGSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_ENDARG +} ENDARGSYM; + + +typedef struct RETURNSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_RETURN + CV_GENERIC_FLAG flags; // flags + unsigned char style; // CV_GENERIC_STYLE_e return style + // followed by return method data +} RETURNSYM; + + +typedef struct ENTRYTHISSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_ENTRYTHIS + unsigned char thissym; // symbol describing this pointer on entry +} ENTRYTHISSYM; + + +// symbol types for 16:16 memory model + + +typedef struct BPRELSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BPREL16 + CV_off16_t off; // BP-relative offset + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} BPRELSYM16; + + +typedef struct DATASYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LDATA or S_GDATA + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} DATASYM16; +typedef DATASYM16 PUBSYM16; + + +typedef struct PROCSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROC16 or S_LPROC16 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned short len; // Proc length + unsigned short DbgStart; // Debug start offset + unsigned short DbgEnd; // Debug end offset + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + CV_typ16_t typind; // Type index + CV_PROCFLAGS flags; // Proc flags + unsigned char name[1]; // Length-prefixed name +} PROCSYM16; + + +typedef struct THUNKSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_THUNK + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + unsigned short len; // length of thunk + unsigned char ord; // THUNK_ORDINAL specifying type of thunk + unsigned char name[1]; // name of thunk + unsigned char variant[CV_ZEROLEN]; // variant portion of thunk +} THUNKSYM16; + +typedef struct LABELSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LABEL16 + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + CV_PROCFLAGS flags; // flags + unsigned char name[1]; // Length-prefixed name +} LABELSYM16; + + +typedef struct BLOCKSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BLOCK16 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned short len; // Block length + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + unsigned char name[1]; // Length-prefixed name +} BLOCKSYM16; + + +typedef struct WITHSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_WITH16 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned short len; // Block length + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + unsigned char expr[1]; // Length-prefixed expression +} WITHSYM16; + + +typedef enum CEXM_MODEL_e { + CEXM_MDL_table = 0x00, // not executable + CEXM_MDL_jumptable = 0x01, // Compiler generated jump table + CEXM_MDL_datapad = 0x02, // Data padding for alignment + CEXM_MDL_native = 0x20, // native (actually not-pcode) + CEXM_MDL_cobol = 0x21, // cobol + CEXM_MDL_codepad = 0x22, // Code padding for alignment + CEXM_MDL_code = 0x23, // code + CEXM_MDL_sql = 0x30, // sql + CEXM_MDL_pcode = 0x40, // pcode + CEXM_MDL_pcode32Mac = 0x41, // macintosh 32 bit pcode + CEXM_MDL_pcode32MacNep = 0x42, // macintosh 32 bit pcode native entry point + CEXM_MDL_javaInt = 0x50, + CEXM_MDL_unknown = 0xff +} CEXM_MODEL_e; + +// use the correct enumerate name +#define CEXM_MDL_SQL CEXM_MDL_sql + +typedef enum CV_COBOL_e { + CV_COBOL_dontstop, + CV_COBOL_pfm, + CV_COBOL_false, + CV_COBOL_extcall +} CV_COBOL_e; + +typedef struct CEXMSYM16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_CEXMODEL16 + CV_uoff16_t off; // offset of symbol + unsigned short seg; // segment of symbol + unsigned short model; // execution model + union { + struct { + CV_uoff16_t pcdtable; // offset to pcode function table + CV_uoff16_t pcdspi; // offset to segment pcode information + } pcode; + struct { + unsigned short subtype; // see CV_COBOL_e above + unsigned short flag; + } cobol; + }; +} CEXMSYM16; + + +typedef struct VPATHSYM16 { + unsigned short reclen; // record length + unsigned short rectyp; // S_VFTPATH16 + CV_uoff16_t off; // offset of virtual function table + unsigned short seg; // segment of virtual function table + CV_typ16_t root; // type index of the root of path + CV_typ16_t path; // type index of the path record +} VPATHSYM16; + + +typedef struct REGREL16 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_REGREL16 + CV_uoff16_t off; // offset of symbol + unsigned short reg; // register index + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} REGREL16; + + +typedef struct BPRELSYM32_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BPREL32_16t + CV_off32_t off; // BP-relative offset + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} BPRELSYM32_16t; + +typedef struct BPRELSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BPREL32 + CV_off32_t off; // BP-relative offset + CV_typ_t typind; // Type index or Metadata token + unsigned char name[1]; // Length-prefixed name +} BPRELSYM32; + +typedef struct FRAMERELSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANFRAMEREL | S_ATTR_FRAMEREL + CV_off32_t off; // Frame relative offset + CV_typ_t typind; // Type index or Metadata token + CV_lvar_attr attr; // local var attributes + unsigned char name[1]; // Length-prefixed name +} FRAMERELSYM; + +typedef FRAMERELSYM ATTRFRAMERELSYM; + + +typedef struct SLOTSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LOCALSLOT or S_PARAMSLOT + unsigned long iSlot; // slot index + CV_typ_t typind; // Type index or Metadata token + unsigned char name[1]; // Length-prefixed name +} SLOTSYM32; + +typedef struct ATTRSLOTSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANSLOT + unsigned long iSlot; // slot index + CV_typ_t typind; // Type index or Metadata token + CV_lvar_attr attr; // local var attributes + unsigned char name[1]; // Length-prefixed name +} ATTRSLOTSYM; + +typedef struct ANNOTATIONSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_ANNOTATION + CV_uoff32_t off; + unsigned short seg; + unsigned short csz; // Count of zero terminated annotation strings + unsigned char rgsz[1]; // Sequence of zero terminated annotation strings +} ANNOTATIONSYM; + +typedef struct DATASYM32_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LDATA32_16t, S_GDATA32_16t or S_PUB32_16t + CV_uoff32_t off; + unsigned short seg; + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} DATASYM32_16t; +typedef DATASYM32_16t PUBSYM32_16t; + +typedef struct DATASYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LDATA32, S_GDATA32, S_LMANDATA, S_GMANDATA + CV_typ_t typind; // Type index, or Metadata token if a managed symbol + CV_uoff32_t off; + unsigned short seg; + unsigned char name[1]; // Length-prefixed name +} DATASYM32; + +typedef struct DATASYMHLSL { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GDATA_HLSL, S_LDATA_HLSL + CV_typ_t typind; // Type index + unsigned short regType; // register type from CV_HLSLREG_e + unsigned short dataslot; // Base data (cbuffer, groupshared, etc.) slot + unsigned short dataoff; // Base data byte offset start + unsigned short texslot; // Texture slot start + unsigned short sampslot; // Sampler slot start + unsigned short uavslot; // UAV slot start + unsigned char name[1]; // name +} DATASYMHLSL; + +typedef struct DATASYMHLSL32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GDATA_HLSL32, S_LDATA_HLSL32 + CV_typ_t typind; // Type index + unsigned long dataslot; // Base data (cbuffer, groupshared, etc.) slot + unsigned long dataoff; // Base data byte offset start + unsigned long texslot; // Texture slot start + unsigned long sampslot; // Sampler slot start + unsigned long uavslot; // UAV slot start + unsigned short regType; // register type from CV_HLSLREG_e + unsigned char name[1]; // name +} DATASYMHLSL32; + +typedef struct DATASYMHLSL32_EX { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GDATA_HLSL32_EX, S_LDATA_HLSL32_EX + CV_typ_t typind; // Type index + unsigned long regID; // Register index + unsigned long dataoff; // Base data byte offset start + unsigned long bindSpace; // Binding space + unsigned long bindSlot; // Lower bound in binding space + unsigned short regType; // register type from CV_HLSLREG_e + unsigned char name[1]; // name +} DATASYMHLSL32_EX; + +typedef enum CV_PUBSYMFLAGS_e + { + cvpsfNone = 0, + cvpsfCode = 0x00000001, + cvpsfFunction = 0x00000002, + cvpsfManaged = 0x00000004, + cvpsfMSIL = 0x00000008, +} CV_PUBSYMFLAGS_e; + +typedef union CV_PUBSYMFLAGS { + CV_pubsymflag_t grfFlags; + struct { + CV_pubsymflag_t fCode : 1; // set if public symbol refers to a code address + CV_pubsymflag_t fFunction : 1; // set if public symbol is a function + CV_pubsymflag_t fManaged : 1; // set if managed code (native or IL) + CV_pubsymflag_t fMSIL : 1; // set if managed IL code + CV_pubsymflag_t __unused : 28; // must be zero + }; +} CV_PUBSYMFLAGS; + +typedef struct PUBSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_PUB32 + CV_PUBSYMFLAGS pubsymflags; + CV_uoff32_t off; + unsigned short seg; + unsigned char name[1]; // Length-prefixed name +} PUBSYM32; + + +typedef struct PROCSYM32_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROC32_16t or S_LPROC32_16t + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + CV_uoff32_t off; + unsigned short seg; + CV_typ16_t typind; // Type index + CV_PROCFLAGS flags; // Proc flags + unsigned char name[1]; // Length-prefixed name +} PROCSYM32_16t; + +typedef struct PROCSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROC32, S_LPROC32, S_GPROC32_ID, S_LPROC32_ID, S_LPROC32_DPC or S_LPROC32_DPC_ID + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + CV_typ_t typind; // Type index or ID + CV_uoff32_t off; + unsigned short seg; + CV_PROCFLAGS flags; // Proc flags + unsigned char name[1]; // Length-prefixed name +} PROCSYM32; + +typedef struct MANPROCSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GMANPROC, S_LMANPROC, S_GMANPROCIA64 or S_LMANPROCIA64 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + CV_tkn_t token; // COM+ metadata token for method + CV_uoff32_t off; + unsigned short seg; + CV_PROCFLAGS flags; // Proc flags + unsigned short retReg; // Register return value is in (may not be used for all archs) + unsigned char name[1]; // optional name field +} MANPROCSYM; + +typedef struct MANPROCSYMMIPS { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GMANPROCMIPS or S_LMANPROCMIPS + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + unsigned long regSave; // int register save mask + unsigned long fpSave; // fp register save mask + CV_uoff32_t intOff; // int register save offset + CV_uoff32_t fpOff; // fp register save offset + CV_tkn_t token; // COM+ token type + CV_uoff32_t off; + unsigned short seg; + unsigned char retReg; // Register return value is in + unsigned char frameReg; // Frame pointer register + unsigned char name[1]; // optional name field +} MANPROCSYMMIPS; + +typedef struct THUNKSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_THUNK32 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + CV_uoff32_t off; + unsigned short seg; + unsigned short len; // length of thunk + unsigned char ord; // THUNK_ORDINAL specifying type of thunk + unsigned char name[1]; // Length-prefixed name + unsigned char variant[CV_ZEROLEN]; // variant portion of thunk +} THUNKSYM32; + +typedef enum TRAMP_e { // Trampoline subtype + trampIncremental, // incremental thunks + trampBranchIsland, // Branch island thunks +} TRAMP_e; + +typedef struct TRAMPOLINESYM { // Trampoline thunk symbol + unsigned short reclen; // Record length + unsigned short rectyp; // S_TRAMPOLINE + unsigned short trampType; // trampoline sym subtype + unsigned short cbThunk; // size of the thunk + CV_uoff32_t offThunk; // offset of the thunk + CV_uoff32_t offTarget; // offset of the target of the thunk + unsigned short sectThunk; // section index of the thunk + unsigned short sectTarget; // section index of the target of the thunk +} TRAMPOLINE; + +typedef struct LABELSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LABEL32 + CV_uoff32_t off; + unsigned short seg; + CV_PROCFLAGS flags; // flags + unsigned char name[1]; // Length-prefixed name +} LABELSYM32; + + +typedef struct BLOCKSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BLOCK32 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long len; // Block length + CV_uoff32_t off; // Offset in code segment + unsigned short seg; // segment of label + unsigned char name[1]; // Length-prefixed name +} BLOCKSYM32; + + +typedef struct WITHSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_WITH32 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long len; // Block length + CV_uoff32_t off; // Offset in code segment + unsigned short seg; // segment of label + unsigned char expr[1]; // Length-prefixed expression string +} WITHSYM32; + + + +typedef struct CEXMSYM32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_CEXMODEL32 + CV_uoff32_t off; // offset of symbol + unsigned short seg; // segment of symbol + unsigned short model; // execution model + union { + struct { + CV_uoff32_t pcdtable; // offset to pcode function table + CV_uoff32_t pcdspi; // offset to segment pcode information + } pcode; + struct { + unsigned short subtype; // see CV_COBOL_e above + unsigned short flag; + } cobol; + struct { + CV_uoff32_t calltableOff; // offset to function table + unsigned short calltableSeg; // segment of function table + } pcode32Mac; + }; +} CEXMSYM32; + + + +typedef struct VPATHSYM32_16t { + unsigned short reclen; // record length + unsigned short rectyp; // S_VFTABLE32_16t + CV_uoff32_t off; // offset of virtual function table + unsigned short seg; // segment of virtual function table + CV_typ16_t root; // type index of the root of path + CV_typ16_t path; // type index of the path record +} VPATHSYM32_16t; + +typedef struct VPATHSYM32 { + unsigned short reclen; // record length + unsigned short rectyp; // S_VFTABLE32 + CV_typ_t root; // type index of the root of path + CV_typ_t path; // type index of the path record + CV_uoff32_t off; // offset of virtual function table + unsigned short seg; // segment of virtual function table +} VPATHSYM32; + + + + + +typedef struct REGREL32_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_REGREL32_16t + CV_uoff32_t off; // offset of symbol + unsigned short reg; // register index for symbol + CV_typ16_t typind; // Type index + unsigned char name[1]; // Length-prefixed name +} REGREL32_16t; + +typedef struct REGREL32 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_REGREL32 + CV_uoff32_t off; // offset of symbol + CV_typ_t typind; // Type index or metadata token + unsigned short reg; // register index for symbol + unsigned char name[1]; // Length-prefixed name +} REGREL32; + +typedef struct ATTRREGREL { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MANREGREL | S_ATTR_REGREL + CV_uoff32_t off; // offset of symbol + CV_typ_t typind; // Type index or metadata token + unsigned short reg; // register index for symbol + CV_lvar_attr attr; // local var attributes + unsigned char name[1]; // Length-prefixed name +} ATTRREGREL; + +typedef ATTRREGREL ATTRREGRELSYM; + +typedef struct THREADSYM32_16t { + unsigned short reclen; // record length + unsigned short rectyp; // S_LTHREAD32_16t | S_GTHREAD32_16t + CV_uoff32_t off; // offset into thread storage + unsigned short seg; // segment of thread storage + CV_typ16_t typind; // type index + unsigned char name[1]; // length prefixed name +} THREADSYM32_16t; + +typedef struct THREADSYM32 { + unsigned short reclen; // record length + unsigned short rectyp; // S_LTHREAD32 | S_GTHREAD32 + CV_typ_t typind; // type index + CV_uoff32_t off; // offset into thread storage + unsigned short seg; // segment of thread storage + unsigned char name[1]; // length prefixed name +} THREADSYM32; + +typedef struct SLINK32 { + unsigned short reclen; // record length + unsigned short rectyp; // S_SLINK32 + unsigned long framesize; // frame size of parent procedure + CV_off32_t off; // signed offset where the static link was saved relative to the value of reg + unsigned short reg; +} SLINK32; + +typedef struct PROCSYMMIPS_16t { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROCMIPS_16t or S_LPROCMIPS_16t + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + unsigned long regSave; // int register save mask + unsigned long fpSave; // fp register save mask + CV_uoff32_t intOff; // int register save offset + CV_uoff32_t fpOff; // fp register save offset + CV_uoff32_t off; // Symbol offset + unsigned short seg; // Symbol segment + CV_typ16_t typind; // Type index + unsigned char retReg; // Register return value is in + unsigned char frameReg; // Frame pointer register + unsigned char name[1]; // Length-prefixed name +} PROCSYMMIPS_16t; + +typedef struct PROCSYMMIPS { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROCMIPS or S_LPROCMIPS + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + unsigned long regSave; // int register save mask + unsigned long fpSave; // fp register save mask + CV_uoff32_t intOff; // int register save offset + CV_uoff32_t fpOff; // fp register save offset + CV_typ_t typind; // Type index + CV_uoff32_t off; // Symbol offset + unsigned short seg; // Symbol segment + unsigned char retReg; // Register return value is in + unsigned char frameReg; // Frame pointer register + unsigned char name[1]; // Length-prefixed name +} PROCSYMMIPS; + +typedef struct PROCSYMIA64 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROCIA64 or S_LPROCIA64 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol + unsigned long len; // Proc length + unsigned long DbgStart; // Debug start offset + unsigned long DbgEnd; // Debug end offset + CV_typ_t typind; // Type index + CV_uoff32_t off; // Symbol offset + unsigned short seg; // Symbol segment + unsigned short retReg; // Register return value is in + CV_PROCFLAGS flags; // Proc flags + unsigned char name[1]; // Length-prefixed name +} PROCSYMIA64; + +typedef struct REFSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_PROCREF_ST, S_DATAREF_ST, or S_LPROCREF_ST + unsigned long sumName; // SUC of the name + unsigned long ibSym; // Offset of actual symbol in $$Symbols + unsigned short imod; // Module containing the actual symbol + unsigned short usFill; // align this record +} REFSYM; + +typedef struct REFSYM2 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_PROCREF, S_DATAREF, or S_LPROCREF + unsigned long sumName; // SUC of the name + unsigned long ibSym; // Offset of actual symbol in $$Symbols + unsigned short imod; // Module containing the actual symbol + unsigned char name[1]; // hidden name made a first class member +} REFSYM2; + +typedef struct ALIGNSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_ALIGN +} ALIGNSYM; + +typedef struct OEMSYMBOL { + unsigned short reclen; // Record length + unsigned short rectyp; // S_OEM + unsigned char idOem[16]; // an oem ID (GUID) + CV_typ_t typind; // Type index + unsigned long rgl[]; // user data, force 4-byte alignment +} OEMSYMBOL; + +// generic block definition symbols +// these are similar to the equivalent 16:16 or 16:32 symbols but +// only define the length, type and linkage fields + +typedef struct PROCSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_GPROC16 or S_LPROC16 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol +} PROCSYM; + + +typedef struct THUNKSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_THUNK + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end + unsigned long pNext; // pointer to next symbol +} THUNKSYM; + +typedef struct BLOCKSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BLOCK16 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end +} BLOCKSYM; + + +typedef struct WITHSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_WITH16 + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this blocks end +} WITHSYM; + +typedef struct FRAMEPROCSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_FRAMEPROC + unsigned long cbFrame; // count of bytes of total frame of procedure + unsigned long cbPad; // count of bytes of padding in the frame + CV_uoff32_t offPad; // offset (relative to frame poniter) to where + // padding starts + unsigned long cbSaveRegs; // count of bytes of callee save registers + CV_uoff32_t offExHdlr; // offset of exception handler + unsigned short sectExHdlr; // section id of exception handler + + struct { + unsigned long fHasAlloca : 1; // function uses _alloca() + unsigned long fHasSetJmp : 1; // function uses setjmp() + unsigned long fHasLongJmp : 1; // function uses longjmp() + unsigned long fHasInlAsm : 1; // function uses inline asm + unsigned long fHasEH : 1; // function has EH states + unsigned long fInlSpec : 1; // function was speced as inline + unsigned long fHasSEH : 1; // function has SEH + unsigned long fNaked : 1; // function is __declspec(naked) + unsigned long fSecurityChecks : 1; // function has buffer security check introduced by /GS. + unsigned long fAsyncEH : 1; // function compiled with /EHa + unsigned long fGSNoStackOrdering : 1; // function has /GS buffer checks, but stack ordering couldn't be done + unsigned long fWasInlined : 1; // function was inlined within another function + unsigned long fGSCheck : 1; // function is __declspec(strict_gs_check) + unsigned long fSafeBuffers : 1; // function is __declspec(safebuffers) + unsigned long encodedLocalBasePointer : 2; // record function's local pointer explicitly. + unsigned long encodedParamBasePointer : 2; // record function's parameter pointer explicitly. + unsigned long fPogoOn : 1; // function was compiled with PGO/PGU + unsigned long fValidCounts : 1; // Do we have valid Pogo counts? + unsigned long fOptSpeed : 1; // Did we optimize for speed? + unsigned long fGuardCF : 1; // function contains CFG checks (and no write checks) + unsigned long fGuardCFW : 1; // function contains CFW checks and/or instrumentation + unsigned long pad : 9; // must be zero + } flags; +} FRAMEPROCSYM; + +#ifdef __cplusplus +namespace CodeViewInfo +{ +__inline unsigned short ExpandEncodedBasePointerReg(unsigned machineType, unsigned encodedFrameReg) +{ + static const unsigned short rgFramePointerRegX86[] = { + CV_REG_NONE, CV_ALLREG_VFRAME, CV_REG_EBP, CV_REG_EBX}; + static const unsigned short rgFramePointerRegX64[] = { + CV_REG_NONE, CV_AMD64_RSP, CV_AMD64_RBP, CV_AMD64_R13}; + static const unsigned short rgFramePointerRegArm[] = { + CV_REG_NONE, CV_ARM_SP, CV_ARM_R7, CV_REG_NONE}; + + if (encodedFrameReg >= 4) { + return CV_REG_NONE; + } + switch (machineType) { + case CV_CFL_8080 : + case CV_CFL_8086 : + case CV_CFL_80286 : + case CV_CFL_80386 : + case CV_CFL_80486 : + case CV_CFL_PENTIUM : + case CV_CFL_PENTIUMII : + case CV_CFL_PENTIUMIII : + return rgFramePointerRegX86[encodedFrameReg]; + case CV_CFL_AMD64 : + return rgFramePointerRegX64[encodedFrameReg]; + case CV_CFL_ARMNT : + return rgFramePointerRegArm[encodedFrameReg]; + default: + return CV_REG_NONE; + } +} +} +#endif + +typedef struct UNAMESPACE { + unsigned short reclen; // Record length + unsigned short rectyp; // S_UNAMESPACE + unsigned char name[1]; // name +} UNAMESPACE; + +typedef struct SEPCODESYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_SEPCODE + unsigned long pParent; // pointer to the parent + unsigned long pEnd; // pointer to this block's end + unsigned long length; // count of bytes of this block + CV_SEPCODEFLAGS scf; // flags + CV_uoff32_t off; // sect:off of the separated code + CV_uoff32_t offParent; // sectParent:offParent of the enclosing scope + unsigned short sect; // (proc, block, or sepcode) + unsigned short sectParent; +} SEPCODESYM; + +typedef struct BUILDINFOSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_BUILDINFO + CV_ItemId id; // CV_ItemId of Build Info. +} BUILDINFOSYM; + +typedef struct INLINESITESYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_INLINESITE + unsigned long pParent; // pointer to the inliner + unsigned long pEnd; // pointer to this block's end + CV_ItemId inlinee; // CV_ItemId of inlinee + unsigned char binaryAnnotations[CV_ZEROLEN]; // an array of compressed binary annotations. +} INLINESITESYM; + +typedef struct INLINESITESYM2 { + unsigned short reclen; // Record length + unsigned short rectyp; // S_INLINESITE2 + unsigned long pParent; // pointer to the inliner + unsigned long pEnd; // pointer to this block's end + CV_ItemId inlinee; // CV_ItemId of inlinee + unsigned long invocations; // entry count + unsigned char binaryAnnotations[CV_ZEROLEN]; // an array of compressed binary annotations. +} INLINESITESYM2; + + +// Defines a locals and it is live range, how to evaluate. +// S_DEFRANGE modifies previous local S_LOCAL, it has to consecutive. + +typedef struct LOCALSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LOCAL + CV_typ_t typind; // type index + CV_LVARFLAGS flags; // local var flags + + unsigned char name[CV_ZEROLEN]; // Name of this symbol, a null terminated array of UTF8 characters. +} LOCALSYM; + +typedef struct FILESTATICSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_FILESTATIC + CV_typ_t typind; // type index + CV_uoff32_t modOffset; // index of mod filename in stringtable + CV_LVARFLAGS flags; // local var flags + + unsigned char name[CV_ZEROLEN]; // Name of this symbol, a null terminated array of UTF8 characters +} FILESTATICSYM; + +typedef struct DEFRANGESYM { // A live range of sub field of variable + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE + + CV_uoff32_t program; // DIA program to evaluate the value of the symbol + + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + CV_LVAR_ADDR_GAP gaps[CV_ZEROLEN]; // The value is not available in following gaps. +} DEFRANGESYM; + +typedef struct DEFRANGESYMSUBFIELD { // A live range of sub field of variable. like locala.i + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_SUBFIELD + + CV_uoff32_t program; // DIA program to evaluate the value of the symbol + + CV_uoff32_t offParent; // Offset in parent variable. + + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + CV_LVAR_ADDR_GAP gaps[CV_ZEROLEN]; // The value is not available in following gaps. +} DEFRANGESYMSUBFIELD; + +typedef struct CV_RANGEATTR { + unsigned short maybe : 1; // May have no user name on one of control flow path. + unsigned short padding : 15; // Padding for future use. +} CV_RANGEATTR; + +typedef struct DEFRANGESYMREGISTER { // A live range of en-registed variable + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_REGISTER + unsigned short reg; // Register to hold the value of the symbol + CV_RANGEATTR attr; // Attribute of the register range. + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + CV_LVAR_ADDR_GAP gaps[CV_ZEROLEN]; // The value is not available in following gaps. +} DEFRANGESYMREGISTER; + +typedef struct DEFRANGESYMFRAMEPOINTERREL { // A live range of frame variable + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_FRAMEPOINTER_REL + + CV_off32_t offFramePointer; // offset to frame pointer + + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + CV_LVAR_ADDR_GAP gaps[CV_ZEROLEN]; // The value is not available in following gaps. +} DEFRANGESYMFRAMEPOINTERREL; + +typedef struct DEFRANGESYMFRAMEPOINTERREL_FULL_SCOPE { // A frame variable valid in all function scope + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_FRAMEPOINTER_REL + + CV_off32_t offFramePointer; // offset to frame pointer +} DEFRANGESYMFRAMEPOINTERREL_FULL_SCOPE; + +#define CV_OFFSET_PARENT_LENGTH_LIMIT 12 + +// Note DEFRANGESYMREGISTERREL and DEFRANGESYMSUBFIELDREGISTER had same layout. +typedef struct DEFRANGESYMSUBFIELDREGISTER { // A live range of sub field of variable. like locala.i + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_SUBFIELD_REGISTER + + unsigned short reg; // Register to hold the value of the symbol + CV_RANGEATTR attr; // Attribute of the register range. + CV_uoff32_t offParent : CV_OFFSET_PARENT_LENGTH_LIMIT; // Offset in parent variable. + CV_uoff32_t padding : 20; // Padding for future use. + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + CV_LVAR_ADDR_GAP gaps[CV_ZEROLEN]; // The value is not available in following gaps. +} DEFRANGESYMSUBFIELDREGISTER; + +// Note DEFRANGESYMREGISTERREL and DEFRANGESYMSUBFIELDREGISTER had same layout. +// Used when /GS Copy parameter as local variable or other variable don't cover by FRAMERELATIVE. +typedef struct DEFRANGESYMREGISTERREL { // A live range of variable related to a register. + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_REGISTER_REL + + unsigned short baseReg; // Register to hold the base pointer of the symbol + unsigned short spilledUdtMember : 1; // Spilled member for s.i. + unsigned short padding : 3; // Padding for future use. + unsigned short offsetParent : CV_OFFSET_PARENT_LENGTH_LIMIT; // Offset in parent variable. + CV_off32_t offBasePointer; // offset to register + + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + CV_LVAR_ADDR_GAP gaps[CV_ZEROLEN]; // The value is not available in following gaps. +} DEFRANGESYMREGISTERREL; + +typedef struct DEFRANGESYMHLSL { // A live range of variable related to a symbol in HLSL code. + unsigned short reclen; // Record length + unsigned short rectyp; // S_DEFRANGE_HLSL or S_DEFRANGE_DPC_PTR_TAG + + unsigned short regType; // register type from CV_HLSLREG_e + + unsigned short regIndices : 2; // 0, 1 or 2, dimensionality of register space + unsigned short spilledUdtMember : 1; // this is a spilled member + unsigned short memorySpace : 4; // memory space + unsigned short padding : 9; // for future use + + unsigned short offsetParent; // Offset in parent variable. + unsigned short sizeInParent; // Size of enregistered portion + + CV_LVAR_ADDR_RANGE range; // Range of addresses where this program is valid + unsigned char data[CV_ZEROLEN]; // variable length data specifying gaps where the value is not available + // followed by multi-dimensional offset of variable location in register + // space (see CV_DEFRANGESYMHLSL_* macros below) +} DEFRANGESYMHLSL; + +#define CV_DEFRANGESYM_GAPS_COUNT(x) \ + (((x)->reclen + sizeof((x)->reclen) - sizeof(DEFRANGESYM)) / sizeof(CV_LVAR_ADDR_GAP)) + +#define CV_DEFRANGESYMSUBFIELD_GAPS_COUNT(x) \ + (((x)->reclen + sizeof((x)->reclen) - sizeof(DEFRANGESYMSUBFIELD)) / sizeof(CV_LVAR_ADDR_GAP)) + +#define CV_DEFRANGESYMHLSL_GAPS_COUNT(x) \ + (((x)->reclen + sizeof((x)->reclen) - sizeof(DEFRANGESYMHLSL) - (x)->regIndices * sizeof(CV_uoff32_t)) / sizeof(CV_LVAR_ADDR_GAP)) + +#define CV_DEFRANGESYMHLSL_GAPS_PTR_BASE(x, t) reinterpret_cast((x)->data) + +#define CV_DEFRANGESYMHLSL_GAPS_CONST_PTR(x) \ + CV_DEFRANGESYMHLSL_GAPS_PTR_BASE(x, const CV_LVAR_ADDR_GAP*) + +#define CV_DEFRANGESYMHLSL_GAPS_PTR(x) \ + CV_DEFRANGESYMHLSL_GAPS_PTR_BASE(x, CV_LVAR_ADDR_GAP*) + +#define CV_DEFRANGESYMHLSL_OFFSET_PTR_BASE(x, t) \ + reinterpret_cast(((CV_LVAR_ADDR_GAP*)(x)->data) + CV_DEFRANGESYMHLSL_GAPS_COUNT(x)) + +#define CV_DEFRANGESYMHLSL_OFFSET_CONST_PTR(x) \ + CV_DEFRANGESYMHLSL_OFFSET_PTR_BASE(x, const CV_uoff32_t*) + +#define CV_DEFRANGESYMHLSL_OFFSET_PTR(x) \ + CV_DEFRANGESYMHLSL_OFFSET_PTR_BASE(x, CV_uoff32_t*) + +#if defined(CC_DP_CXX) && CC_DP_CXX + +// Defines a local DPC group shared variable and its location. +typedef struct LOCALDPCGROUPSHAREDSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_LOCAL_DPC_GROUPSHARED + CV_typ_t typind; // type index + CV_LVARFLAGS flags; // local var flags + + unsigned short dataslot; // Base data (cbuffer, groupshared, etc.) slot + unsigned short dataoff; // Base data byte offset start + + unsigned char name[CV_ZEROLEN]; // Name of this symbol, a null terminated array of UTF8 characters. +} LOCALDPCGROUPSHAREDSYM; + +typedef struct DPCSYMTAGMAP { // A map for DPC pointer tag values to symbol records. + unsigned short reclen; // Record length + unsigned short rectyp; // S_DPC_SYM_TAG_MAP + + CV_DPC_SYM_TAG_MAP_ENTRY mapEntries[CV_ZEROLEN]; // Array of mappings from DPC pointer tag values to symbol record offsets +} DPCSYMTAGMAP; + +#define CV_DPCSYMTAGMAP_COUNT(x) \ + (((x)->reclen + sizeof((x)->reclen) - sizeof(DPCSYMTAGMAP)) / sizeof(CV_DPC_SYM_TAG_MAP_ENTRY)) + +#endif // CC_DP_CXX + +typedef enum CV_armswitchtype { + CV_SWT_INT1 = 0, + CV_SWT_UINT1 = 1, + CV_SWT_INT2 = 2, + CV_SWT_UINT2 = 3, + CV_SWT_INT4 = 4, + CV_SWT_UINT4 = 5, + CV_SWT_POINTER = 6, + CV_SWT_UINT1SHL1 = 7, + CV_SWT_UINT2SHL1 = 8, + CV_SWT_INT1SHL1 = 9, + CV_SWT_INT2SHL1 = 10, + CV_SWT_TBB = CV_SWT_UINT1SHL1, + CV_SWT_TBH = CV_SWT_UINT2SHL1, +} CV_armswitchtype; + +typedef struct FUNCTIONLIST { + unsigned short reclen; // Record length + unsigned short rectyp; // S_CALLERS or S_CALLEES + + unsigned long count; // Number of functions + CV_typ_t funcs[CV_ZEROLEN]; // List of functions, dim == count + // unsigned long invocations[CV_ZEROLEN]; Followed by a parallel array of + // invocation counts. Counts > reclen are assumed to be zero +} FUNCTIONLIST; + +typedef struct POGOINFO { + unsigned short reclen; // Record length + unsigned short rectyp; // S_POGODATA + + unsigned long invocations; // Number of times function was called + __int64 dynCount; // Dynamic instruction count + unsigned long numInstrs; // Static instruction count + unsigned long staInstLive; // Final static instruction count (post inlining) +} POGOINFO; + +typedef struct ARMSWITCHTABLE { + unsigned short reclen; // Record length + unsigned short rectyp; // S_ARMSWITCHTABLE + + CV_uoff32_t offsetBase; // Section-relative offset to the base for switch offsets + unsigned short sectBase; // Section index of the base for switch offsets + unsigned short switchType; // type of each entry + CV_uoff32_t offsetBranch; // Section-relative offset to the table branch instruction + CV_uoff32_t offsetTable; // Section-relative offset to the start of the table + unsigned short sectBranch; // Section index of the table branch instruction + unsigned short sectTable; // Section index of the table + unsigned long cEntries; // number of switch table entries +} ARMSWITCHTABLE; + +typedef struct MODTYPEREF { + unsigned short reclen; // Record length + unsigned short rectyp; // S_MOD_TYPEREF + + unsigned long fNone : 1; // module doesn't reference any type + unsigned long fRefTMPCT : 1; // reference /Z7 PCH types + unsigned long fOwnTMPCT : 1; // module contains /Z7 PCH types + unsigned long fOwnTMR : 1; // module contains type info (/Z7) + unsigned long fOwnTM : 1; // module contains type info (/Zi or /ZI) + unsigned long fRefTM : 1; // module references type info owned by other module + unsigned long reserved : 9; + + unsigned short word0; // these two words contain SN or module index depending + unsigned short word1; // on above flags +} MODTYPEREF; + +typedef struct SECTIONSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_SECTION + + unsigned short isec; // Section number + unsigned char align; // Alignment of this section (power of 2) + unsigned char bReserved; // Reserved. Must be zero. + unsigned long rva; + unsigned long cb; + unsigned long characteristics; + unsigned char name[1]; // name +} SECTIONSYM; + +typedef struct COFFGROUPSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_COFFGROUP + + unsigned long cb; + unsigned long characteristics; + CV_uoff32_t off; // Symbol offset + unsigned short seg; // Symbol segment + unsigned char name[1]; // name +} COFFGROUPSYM; + +typedef struct EXPORTSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_EXPORT + + unsigned short ordinal; + unsigned short fConstant : 1; // CONSTANT + unsigned short fData : 1; // DATA + unsigned short fPrivate : 1; // PRIVATE + unsigned short fNoName : 1; // NONAME + unsigned short fOrdinal : 1; // Ordinal was explicitly assigned + unsigned short fForwarder : 1; // This is a forwarder + unsigned short reserved : 10; // Reserved. Must be zero. + unsigned char name[1]; // name of +} EXPORTSYM; + +// +// Symbol for describing indirect calls when they are using +// a function pointer cast on some other type or temporary. +// Typical content will be an LF_POINTER to an LF_PROCEDURE +// type record that should mimic an actual variable with the +// function pointer type in question. +// +// Since the compiler can sometimes tail-merge a function call +// through a function pointer, there may be more than one +// S_CALLSITEINFO record at an address. This is similar to what +// you could do in your own code by: +// +// if (expr) +// pfn = &function1; +// else +// pfn = &function2; +// +// (*pfn)(arg list); +// + +typedef struct CALLSITEINFO { + unsigned short reclen; // Record length + unsigned short rectyp; // S_CALLSITEINFO + CV_off32_t off; // offset of call site + unsigned short sect; // section index of call site + unsigned short __reserved_0; // alignment padding field, must be zero + CV_typ_t typind; // type index describing function signature +} CALLSITEINFO; + +typedef struct HEAPALLOCSITE { + unsigned short reclen; // Record length + unsigned short rectyp; // S_HEAPALLOCSITE + CV_off32_t off; // offset of call site + unsigned short sect; // section index of call site + unsigned short cbInstr; // length of heap allocation call instruction + CV_typ_t typind; // type index describing function signature +} HEAPALLOCSITE; + +// Frame cookie information + +typedef enum CV_cookietype_e +{ + CV_COOKIETYPE_COPY = 0, + CV_COOKIETYPE_XOR_SP, + CV_COOKIETYPE_XOR_BP, + CV_COOKIETYPE_XOR_R13, +} CV_cookietype_e; + +// Symbol for describing security cookie's position and type +// (raw, xor'd with esp, xor'd with ebp). + +typedef struct FRAMECOOKIE { + unsigned short reclen; // Record length + unsigned short rectyp; // S_FRAMECOOKIE + CV_off32_t off; // Frame relative offset + unsigned short reg; // Register index + CV_cookietype_e cookietype; // Type of the cookie + unsigned char flags; // Flags describing this cookie +} FRAMECOOKIE; + +typedef enum CV_DISCARDED_e +{ + CV_DISCARDED_UNKNOWN, + CV_DISCARDED_NOT_SELECTED, + CV_DISCARDED_NOT_REFERENCED, +} CV_DISCARDED_e; + +typedef struct DISCARDEDSYM { + unsigned short reclen; // Record length + unsigned short rectyp; // S_DISCARDED + unsigned long discarded : 8; // CV_DISCARDED_e + unsigned long reserved : 24; // Unused + unsigned long fileid; // First FILEID if line number info present + unsigned long linenum; // First line number + char data[CV_ZEROLEN]; // Original record(s) with invalid type indices +} DISCARDEDSYM; + +typedef struct REFMINIPDB { + unsigned short reclen; // Record length + unsigned short rectyp; // S_REF_MINIPDB + union { + unsigned long isectCoff; // coff section + CV_typ_t typind; // type index + }; + unsigned short imod; // mod index + unsigned short fLocal : 1; // reference to local (vs. global) func or data + unsigned short fData : 1; // reference to data (vs. func) + unsigned short fUDT : 1; // reference to UDT + unsigned short fLabel : 1; // reference to label + unsigned short fConst : 1; // reference to const + unsigned short reserved : 11; // reserved, must be zero + unsigned char name[1]; // zero terminated name string +} REFMINIPDB; + +typedef struct PDBMAP { + unsigned short reclen; // Record length + unsigned short rectyp; // S_PDBMAP + unsigned char name[CV_ZEROLEN]; // zero terminated source PDB filename followed by zero + // terminated destination PDB filename, both in wchar_t +} PDBMAP; + +// +// V7 line number data types +// + +enum DEBUG_S_SUBSECTION_TYPE { + DEBUG_S_IGNORE = 0x80000000, // if this bit is set in a subsection type then ignore the subsection contents + + DEBUG_S_SYMBOLS = 0xf1, + DEBUG_S_LINES, + DEBUG_S_STRINGTABLE, + DEBUG_S_FILECHKSMS, + DEBUG_S_FRAMEDATA, + DEBUG_S_INLINEELINES, + DEBUG_S_CROSSSCOPEIMPORTS, + DEBUG_S_CROSSSCOPEEXPORTS, + + DEBUG_S_IL_LINES, + DEBUG_S_FUNC_MDTOKEN_MAP, + DEBUG_S_TYPE_MDTOKEN_MAP, + DEBUG_S_MERGED_ASSEMBLYINPUT, + + DEBUG_S_COFF_SYMBOL_RVA, +}; + +struct CV_DebugSSubsectionHeader_t { + enum DEBUG_S_SUBSECTION_TYPE type; + CV_off32_t cbLen; +}; + +struct CV_DebugSLinesHeader_t { + CV_off32_t offCon; + unsigned short segCon; + unsigned short flags; + CV_off32_t cbCon; +}; + +struct CV_DebugSLinesFileBlockHeader_t { + CV_off32_t offFile; + CV_off32_t nLines; + CV_off32_t cbBlock; + // CV_Line_t lines[nLines]; + // CV_Column_t columns[nColumns]; +}; + +// +// Line flags (data present) +// +#define CV_LINES_HAVE_COLUMNS 0x0001 + +struct CV_Line_t { + unsigned long offset; // Offset to start of code bytes for line number + unsigned long linenumStart:24; // line where statement/expression starts + unsigned long deltaLineEnd:7; // delta to line where statement ends (optional) + unsigned long fStatement:1; // true if a statement linenumber, else an expression line num +}; + +typedef unsigned short CV_columnpos_t; // byte offset in a source line + +struct CV_Column_t { + CV_columnpos_t offColumnStart; + CV_columnpos_t offColumnEnd; +}; + +struct tagFRAMEDATA { + unsigned long ulRvaStart; + unsigned long cbBlock; + unsigned long cbLocals; + unsigned long cbParams; + unsigned long cbStkMax; + unsigned long frameFunc; + unsigned short cbProlog; + unsigned short cbSavedRegs; + unsigned long fHasSEH:1; + unsigned long fHasEH:1; + unsigned long fIsFunctionStart:1; + unsigned long reserved:29; +}; + +typedef struct tagFRAMEDATA FRAMEDATA, * PFRAMEDATA; + +typedef struct tagXFIXUP_DATA { + unsigned short wType; + unsigned short wExtra; + unsigned long rva; + unsigned long rvaTarget; +} XFIXUP_DATA; + +// Those cross scope IDs are private convention, +// it used to delay the ID merging for frontend and backend even linker. +// It is transparent for DIA client. +// Use those ID will let DIA run a litter slower and but +// avoid the copy type tree in some scenarios. + +#ifdef __cplusplus +namespace CodeViewInfo +{ + +typedef struct ComboID +{ + static const unsigned int IndexBitWidth = 20; + static const unsigned int ImodBitWidth = 12; + + ComboID(unsigned short imod, unsigned int index) + { + m_comboID = (((unsigned int) imod) << IndexBitWidth) | index; + } + + ComboID(unsigned int comboID) + { + m_comboID = comboID; + } + + operator unsigned int() + { + return m_comboID; + } + + unsigned short GetModIndex() + { + return (unsigned short) (m_comboID >> IndexBitWidth); + } + + unsigned int GetIndex() + { + return (m_comboID & ((1 << IndexBitWidth) - 1)); + } + +private: + + unsigned int m_comboID; +} ComboID; + + +typedef struct CrossScopeId +{ + static const unsigned int LocalIdBitWidth = 20; + static const unsigned int IdScopeBitWidth = 11; + static const unsigned int StartCrossScopeId = + (unsigned int) (1 << (LocalIdBitWidth + IdScopeBitWidth)); + static const unsigned int LocalIdMask = (1 << LocalIdBitWidth) - 1; + static const unsigned int ScopeIdMask = StartCrossScopeId - (1 << LocalIdBitWidth); + + // Compilation unit at most reference 1M constructed type. + static const unsigned int MaxLocalId = (1 << LocalIdBitWidth) - 1; + + // Compilation unit at most reference to another 2K compilation units. + static const unsigned int MaxScopeId = (1 << IdScopeBitWidth) - 1; + + CrossScopeId(unsigned short aIdScopeId, unsigned int aLocalId) + { + crossScopeId = StartCrossScopeId + | (aIdScopeId << LocalIdBitWidth) + | aLocalId; + } + + operator unsigned int() { + return crossScopeId; + } + + unsigned int GetLocalId() { + return crossScopeId & LocalIdMask; + } + + unsigned int GetIdScopeId() { + return (crossScopeId & ScopeIdMask) >> LocalIdBitWidth; + } + + static bool IsCrossScopeId(unsigned int i) + { + return (StartCrossScopeId & i) != 0; + } + + static CrossScopeId Decode(unsigned int i) + { + CrossScopeId retval; + retval.crossScopeId = i; + return retval; + } + +private: + + CrossScopeId() {} + + unsigned int crossScopeId; + +} CrossScopeId; + +// Combined encoding of TI or FuncId, In compiler implementation +// Id prefixed by 1 if it is function ID. + +typedef struct DecoratedItemId +{ + DecoratedItemId(bool isFuncId, CV_ItemId inputId) { + if (isFuncId) { + decoratedItemId = 0x80000000 | inputId; + } else { + decoratedItemId = inputId; + } + } + + DecoratedItemId(CV_ItemId encodedId) { + decoratedItemId = encodedId; + } + + operator unsigned int() { + return decoratedItemId; + } + + bool IsFuncId() + { + return (decoratedItemId & 0x80000000) == 0x80000000; + } + + CV_ItemId GetItemId() + { + return decoratedItemId & 0x7fffffff; + } + +private: + + unsigned int decoratedItemId; + +} DecoratedItemId; + +// Compilation Unit object file path include library name +// Or compile time PDB full path + +typedef struct tagPdbIdScope { + CV_off32_t offObjectFilePath; +} PdbIdScope; + +// An array of all imports by import module. +// List all cross reference for a specific ID scope. +// Format of DEBUG_S_CROSSSCOPEIMPORTS subsection is +typedef struct tagCrossScopeReferences { + PdbIdScope externalScope; // Module of definition Scope. + unsigned int countOfCrossReferences; // Count of following array. + CV_ItemId referenceIds[CV_ZEROLEN]; // CV_ItemId in another compilation unit. +} CrossScopeReferences; + +// An array of all exports in this module. +// Format of DEBUG_S_CROSSSCOPEEXPORTS subsection is +typedef struct tagLocalIdAndGlobalIdPair { + CV_ItemId localId; // local id inside the compile time PDB scope. 0 based + CV_ItemId globalId; // global id inside the link time PDB scope, if scope are different. +} LocalIdAndGlobalIdPair; + +// Format of DEBUG_S_INLINEELINEINFO subsection +// List start source file information for an inlined function. + +#define CV_INLINEE_SOURCE_LINE_SIGNATURE 0x0 +#define CV_INLINEE_SOURCE_LINE_SIGNATURE_EX 0x1 + +typedef struct tagInlineeSourceLine { + CV_ItemId inlinee; // function id. + CV_off32_t fileId; // offset into file table DEBUG_S_FILECHKSMS + CV_off32_t sourceLineNum; // definition start line number. +} InlineeSourceLine; + +typedef struct tagInlineeSourceLineEx { + CV_ItemId inlinee; // function id + CV_off32_t fileId; // offset into file table DEBUG_S_FILECHKSMS + CV_off32_t sourceLineNum; // definition start line number + unsigned int countOfExtraFiles; + CV_off32_t extraFileId[CV_ZEROLEN]; +} InlineeSourceLineEx; + +// BinaryAnnotations ::= BinaryAnnotationInstruction+ +// BinaryAnnotationInstruction ::= BinaryAnnotationOpcode Operand+ +// +// The binary annotation mechanism supports recording a list of annotations +// in an instruction stream. The X64 unwind code and the DWARF standard have +// similar design. +// +// One annotation contains opcode and a number of 32bits operands. +// +// The initial set of annotation instructions are for line number table +// encoding only. These annotations append to S_INLINESITE record, and +// operands are unsigned except for BA_OP_ChangeLineOffset. + +enum BinaryAnnotationOpcode +{ + BA_OP_Invalid, // link time pdb contains PADDINGs + BA_OP_CodeOffset, // param : start offset + BA_OP_ChangeCodeOffsetBase, // param : nth separated code chunk (main code chunk == 0) + BA_OP_ChangeCodeOffset, // param : delta of offset + BA_OP_ChangeCodeLength, // param : length of code, default next start + BA_OP_ChangeFile, // param : fileId + BA_OP_ChangeLineOffset, // param : line offset (signed) + BA_OP_ChangeLineEndDelta, // param : how many lines, default 1 + BA_OP_ChangeRangeKind, // param : either 1 (default, for statement) + // or 0 (for expression) + + BA_OP_ChangeColumnStart, // param : start column number, 0 means no column info + BA_OP_ChangeColumnEndDelta, // param : end column number delta (signed) + + // Combo opcodes for smaller encoding size. + + BA_OP_ChangeCodeOffsetAndLineOffset, // param : ((sourceDelta << 4) | CodeDelta) + BA_OP_ChangeCodeLengthAndCodeOffset, // param : codeLength, codeOffset + + BA_OP_ChangeColumnEnd, // param : end column number +}; + +inline int BinaryAnnotationInstructionOperandCount(BinaryAnnotationOpcode op) +{ + return (op == BA_OP_ChangeCodeLengthAndCodeOffset) ? 2 : 1; +} + +/////////////////////////////////////////////////////////////////////////////// +// +// This routine a simplified variant from cor.h. +// +// Compress an unsigned integer (iLen) and store the result into pDataOut. +// +// Return value is the number of bytes that the compressed data occupies. It +// is caller's responsibilityt to ensure *pDataOut has at least 4 bytes to be +// written to. +// +// Note that this function returns -1 if iLen is too big to be compressed. +// We currently can only encode numbers no larger than 0x1FFFFFFF. +// +/////////////////////////////////////////////////////////////////////////////// + +typedef unsigned __int8 UInt8; +typedef unsigned __int32 UInt32; + +typedef UInt8 CompressedAnnotation; +typedef CompressedAnnotation* PCompressedAnnotation; + +inline UInt32 CVCompressData( + UInt32 iLen, // [IN] given uncompressed data + void * pDataOut) // [OUT] buffer for the compressed data +{ + UInt8 *pBytes = reinterpret_cast(pDataOut); + + if (iLen <= 0x7F) { + *pBytes = UInt8(iLen); + return 1; + } + + if (iLen <= 0x3FFF) { + *pBytes = UInt8((iLen >> 8) | 0x80); + *(pBytes+1) = UInt8(iLen & 0xff); + return 2; + } + + if (iLen <= 0x1FFFFFFF) { + *pBytes = UInt8((iLen >> 24) | 0xC0); + *(pBytes+1) = UInt8((iLen >> 16) & 0xff); + *(pBytes+2) = UInt8((iLen >> 8) & 0xff); + *(pBytes+3) = UInt8(iLen & 0xff); + return 4; + } + + return (UInt32) -1; +} + +/////////////////////////////////////////////////////////////////////////////// +// +// Uncompress the data in pData and store the result into pDataOut. +// +// Return value is the uncompressed unsigned integer. pData is incremented to +// point to the next piece of uncompressed data. +// +// Returns -1 if what is passed in is incorrectly compressed data, such as +// (*pBytes & 0xE0) == 0xE0. +// +/////////////////////////////////////////////////////////////////////////////// + +inline UInt32 CVUncompressData( + PCompressedAnnotation & pData) // [IN,OUT] compressed data +{ + UInt32 res = (UInt32)(-1); + + if ((*pData & 0x80) == 0x00) { + // 0??? ???? + + res = (UInt32)(*pData++); + } + else if ((*pData & 0xC0) == 0x80) { + // 10?? ???? + + res = (UInt32)((*pData++ & 0x3f) << 8); + res |= *pData++; + } + else if ((*pData & 0xE0) == 0xC0) { + // 110? ???? + + res = (*pData++ & 0x1f) << 24; + res |= *pData++ << 16; + res |= *pData++ << 8; + res |= *pData++; + } + + return res; +} + +// Encode smaller absolute numbers with smaller buffer. +// +// General compression only work for input < 0x1FFFFFFF +// algorithm will not work on 0x80000000 + +inline unsigned __int32 EncodeSignedInt32(__int32 input) +{ + unsigned __int32 rotatedInput; + + if (input >= 0) { + rotatedInput = input << 1; + } else { + rotatedInput = ((-input) << 1) | 1; + } + + return rotatedInput; +} + +inline __int32 DecodeSignedInt32(unsigned __int32 input) +{ + __int32 rotatedInput; + + if (input & 1) { + rotatedInput = - (int)(input >> 1); + } else { + rotatedInput = input >> 1; + } + + return rotatedInput; +} + +} +#endif +#pragma pack ( pop ) + +#endif /* CV_INFO_INCLUDED */ diff --git a/src/tools/crossgen/CMakeLists.txt b/src/tools/crossgen/CMakeLists.txt index f16c188..ee29e57 100644 --- a/src/tools/crossgen/CMakeLists.txt +++ b/src/tools/crossgen/CMakeLists.txt @@ -14,10 +14,10 @@ endif() if(CLR_CMAKE_PLATFORM_UNIX) add_compile_options(-fPIE) + add_definitions(-DNO_NGENPDB) endif(CLR_CMAKE_PLATFORM_UNIX) add_definitions(-DFX_VER_INTERNALNAME_STR=crossgen.exe) -add_definitions(-DNO_NGENPDB) add_executable_clr(crossgen ${crossgen_SOURCES} -- 2.7.4