CV_HREG_e
Applies to: Visual Studio Visual Studio for Mac
Note
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Specifies a target register.
Note
Because the CV_HREG_e
enumeration is too large to duplicate in its entirety here, an abbreviated version is provided as a reference. Missing entries are notated in italics. The complete enumeration is available in the cvconst.h header file.
Syntax
enum CV_HREG_e {
// Register subset shared by all processor types
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 Intel 80x86 and ix86 processor series **//
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 through CV_REG_PCDR7 defined
CV_REG_CR0 = 80, // CR0 -- control registers
// CV_REG_CR1 through CV_REG_CR4 defined
CV_REG_DR0 = 90, // Debug register
// CV_REG_DR1 through CV_REG_DR7 defined
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 through CV_REG_PSEUDO9 defined
CV_REG_ST0 = 128,
// CV_REG_ST1 through CV_REG_ST7 defined
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 through CV_REG_MM7 defined
CV_REG_XMM0 = 154, // KATMAI registers
// CV_REG_XMM1 through CV_REG_XMM7 defined
CV_REG_XMM00 = 162, // KATMAI sub-registers
// CV_REG_XMM01, 02, and 03 defined
// CV_REG_XMM10, 11, 12, and 13 defined
// CV_REG_XMM20, 21, 22, and 23 defined
// CV_REG_XMM30, 31, 32, and 33 defined
// CV_REG_XMM40, 41, 42, and 43 defined
// CV_REG_XMM50, 51, 52, and 53 defined
// CV_REG_XMM60, 61, 62, and 63 defined
// CV_REG_XMM70, 71, 72, and 73 defined
CV_REG_XMM0L = 194,
// CV_REG_XMM1L through CV_REG_XMM7L defined
CV_REG_XMM0H = 202,
// CV_REG_XMM1H through CV_REG_XMM7H defined
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 through CV_REG_EMM7L defined
CV_REG_EMM0H = 228,
// CV_REG_EMM1H through CV_REG_EMM7H defined
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,
//** Register set for the 68K processors **//
CV_R68_D0 = 0,
// CV_R68_D1 through CV_R68_D7 defined
CV_R68_A0 = 8,
// CV_R68_A1 through CV_R68_A7 defined
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 through CV_R68_FP7 defined
//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 through CV_R68_BAD7 defined
CV_R68_BAC0 = 72,
// CV_R68_BAC1 through CV_R68_BAC7 defined
//** 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, A2, and A3 defined
CV_M4_IntT0 = 18,
// CV_M4_IntT1 through CV_M4_IntT7 defined
CV_M4_IntS0 = 26,
// CV_M4_IntS1 through CV_M4_IntS7 defined
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 through CV_M4_FltF31 defined
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 through CV_ALPHA_FltF31 defined
CV_ALPHA_IntV0 = 42, // Integer registers
CV_ALPHA_IntT0 = 43,
// CV_ALPHA_IntT1 through CV_ALPHA_IntT7 defined
CV_ALPHA_IntS0 = 51,
// CV_ALPHA_IntS1 through CV_ALPHA_IntS5 defined
CV_ALPHA_IntFP = 57,
CV_ALPHA_IntA0 = 58,
// CV_ALPHA_IntA1 through CV_ALPHA_IntA5 defined
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 **//
CV_PPC_GPR0 = 1, // PowerPC general registers (User Level)
// CV_PPC_GPR1 through CV_PPC_GPR31 defined
CV_PPC_CR = 33, // PowerPC condition register (User Level)
CV_PPC_CR0 = 34,
// CV_PPC_CR1 through CV_PPC_CR7 defined
CV_PPC_FPR0 = 42, // PowerPC floating point registers (User Level)
// CV_PPC_FPR1 through CV_PPC_FPR31 defined
CV_PPC_FPSCR = 74, // PowerPC floating point status and control register (User Level)
CV_PPC_MSR = 75, // PowerPC machine state register (Supervisor Level)
CV_PPC_SR0 = 76, // PowerPC segment registers (Supervisor Level)
// CV_PPC_SR1 through CV_PPC_SR15 defined
//** ADDITIONAL PowerPC REGISTERS DEFINED IN cvconst.h **//
//** Register set for the Hitachi SH3 **//
CV_SH3_NOREG = CV_REG_NONE,
CV_SH3_IntR0 = 10, // CPU register
// CV_SH3_IntR1 through CV_SH3_IntR13 defined
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 through CV_SH_FpR15 defined
CV_SH_XFpR0 = 96,
// CV_SH_XFpR1 through CV_SH_XFpR15 defined
//** Register set for the ARM processor **//
CV_ARM_NOREG = CV_REG_NONE,
CV_ARM_R0 = 10,
// CV_ARM_R1 through CV_ARM_R12 defined
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
//** Register set for Intel IA64 **//
CV_IA64_NOREG = CV_REG_NONE,
CV_IA64_Br0 = 512, // Branch registers
// CV_IA64_Br1 through CV_IA64_Br7 defined
CV_IA64_P0 = 704, // Predicate registers
// CV_IA64_P1 through CV_IA64_P63 defined
CV_IA64_Preds = 768,
CV_IA64_IntH0 = 832, // Banked general registers
// CV_IA64_IntH1 through CV_IA64_IntH15 defined
CV_IA64_Ip = 1016, // Special registers
CV_IA64_Umask = 1017,
CV_IA64_Cfm = 1018,
CV_IA64_Psr = 1019,
CV_IA64_Nats = 1020, // Banked general registers
CV_IA64_Nats2 = 1021,
CV_IA64_Nats3 = 1022,
CV_IA64_IntR0 = 1024, // Integer registers
// CV_IA64_IntR1 through CV_IA64_IntR127 defined
CV_IA64_FltF0 = 2048, // Low floating point registers
// CV_IA64_FltF1 through CV_IA64_FltF127 defined
//** ADDITIONAL Intel IA64 REGISTERS DEFINED IN cvconst.h **//
//** Register set for the TriCore processor **//
CV_TRI_NOREG = CV_REG_NONE,
CV_TRI_D0 = 10, // General purpose data registers
// CV_TRI_D1 through CV_TRI_D15 defined
CV_TRI_A0 = 26, // General purpose address registers
// CV_TRI_A1 through CV_TRI_A15 defined
CV_TRI_E0 = 42, // Extended (64-bit) data registers
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,
CV_TRI_EA0 = 50, // Extended (64-bit) address registers
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,
//** ADDITIONAL TriCore REGISTERS DEFINED IN cvconst.h **//
//** 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 through CV_AM33_E7 defined
CV_AM33_A0 = 20, // Address registers
// CV_AM33_A1 through CV_AM33_A3 defined
CV_AM33_D0 = 30, // Integer data registers
// CV_AM33_D1 CV_AM33_D3 defined
CV_AM33_FS0 = 40, // (Single-precision) floating-point registers
// CV_AM33_FS1 through CV_AM33_FS31 defined
//** ADDITIONAL AM33 REGISTERS DEFINED IN cvconst.h **//
//** Register set for the Mitsubishi M32R **//
CV_M32R_NOREG = CV_REG_NONE,
CV_M32R_R0 = 10,
// CV_M32R_R1 through CV_M32R_R11 defined
CV_M32R_R12 = 22, // Global 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, // Preprocessor 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
} CV_HREG_e;
Elements
CV_REG_* Registers used by Intel 80x86 and ix86 processors, and p-code.
CV_R68_* Registers used by 68K processor.
CV_M4_* Registers used by MIPS 4000 series processor.
CV_ALPHA_* Registers used by Digital Equipment Corporation Alpha AXP series processor.
CV_PPC_* Registers used by Motorola/IBM PowerPC processor.
CV_SH3_* and CV_SH_* Registers used by Hitachi SH3 and Hitachi SH series processor.
CV_ARM_* Registers used by Advanced RISC Machine (ARM) processors.
CV_IA64_* Registers used by Intel IA64 series processors.
CV_TRI_* Registers used by Infineon Technologies TriCore processor.
CV_AM33_* Registers used by Matsushita/Panasonic AM33 and related processors.
CV_M32R_* Registers used by Mitsubishi M32R processor.
Remarks
Each processor type uses its own unique set of registers.
The values in this enumeration are passed to the following methods:
Requirements:
Header: cvconst.h