/* ** Definitions for ARM CPUs. ** Copyright (C) 2005-2013 Mike Pall. See Copyright Notice in luajit.h */ #ifndef _LJ_TARGET_ARM_H #define _LJ_TARGET_ARM_H /* -- Registers IDs ------------------------------------------------------- */ #define GPRDEF(_) \ _(R0) _(R1) _(R2) _(R3) _(R4) _(R5) _(R6) _(R7) \ _(R8) _(R9) _(R10) _(R11) _(R12) _(SP) _(LR) _(PC) #if LJ_SOFTFP #define FPRDEF(_) #else #define FPRDEF(_) \ _(D0) _(D1) _(D2) _(D3) _(D4) _(D5) _(D6) _(D7) \ _(D8) _(D9) _(D10) _(D11) _(D12) _(D13) _(D14) _(D15) #endif #define VRIDDEF(_) #define RIDENUM(name) RID_##name, enum { GPRDEF(RIDENUM) /* General-purpose registers (GPRs). */ FPRDEF(RIDENUM) /* Floating-point registers (FPRs). */ RID_MAX, RID_TMP = RID_LR, /* Calling conventions. */ RID_RET = RID_R0, RID_RETLO = RID_R0, RID_RETHI = RID_R1, #if LJ_SOFTFP RID_FPRET = RID_R0, #else RID_FPRET = RID_D0, #endif /* These definitions must match with the *.dasc file(s): */ RID_BASE = RID_R9, /* Interpreter BASE. */ RID_LPC = RID_R6, /* Interpreter PC. */ RID_DISPATCH = RID_R7, /* Interpreter DISPATCH table. */ RID_LREG = RID_R8, /* Interpreter L. */ /* Register ranges [min, max) and number of registers. */ RID_MIN_GPR = RID_R0, RID_MAX_GPR = RID_PC+1, RID_MIN_FPR = RID_MAX_GPR, #if LJ_SOFTFP RID_MAX_FPR = RID_MIN_FPR, #else RID_MAX_FPR = RID_D15+1, #endif RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR, RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR }; #define RID_NUM_KREF RID_NUM_GPR #define RID_MIN_KREF RID_R0 /* -- Register sets ------------------------------------------------------- */ /* Make use of all registers, except sp, lr and pc. */ #define RSET_GPR (RSET_RANGE(RID_MIN_GPR, RID_R12+1)) #define RSET_GPREVEN \ (RID2RSET(RID_R0)|RID2RSET(RID_R2)|RID2RSET(RID_R4)|RID2RSET(RID_R6)| \ RID2RSET(RID_R8)|RID2RSET(RID_R10)) #define RSET_GPRODD \ (RID2RSET(RID_R1)|RID2RSET(RID_R3)|RID2RSET(RID_R5)|RID2RSET(RID_R7)| \ RID2RSET(RID_R9)|RID2RSET(RID_R11)) #if LJ_SOFTFP #define RSET_FPR 0 #else #define RSET_FPR (RSET_RANGE(RID_MIN_FPR, RID_MAX_FPR)) #endif #define RSET_ALL (RSET_GPR|RSET_FPR) #define RSET_INIT RSET_ALL /* ABI-specific register sets. lr is an implicit scratch register. */ #define RSET_SCRATCH_GPR_ (RSET_RANGE(RID_R0, RID_R3+1)|RID2RSET(RID_R12)) #ifdef __APPLE__ #define RSET_SCRATCH_GPR (RSET_SCRATCH_GPR_|RID2RSET(RID_R9)) #else #define RSET_SCRATCH_GPR RSET_SCRATCH_GPR_ #endif #if LJ_SOFTFP #define RSET_SCRATCH_FPR 0 #else #define RSET_SCRATCH_FPR (RSET_RANGE(RID_D0, RID_D7+1)) #endif #define RSET_SCRATCH (RSET_SCRATCH_GPR|RSET_SCRATCH_FPR) #define REGARG_FIRSTGPR RID_R0 #define REGARG_LASTGPR RID_R3 #define REGARG_NUMGPR 4 #if LJ_ABI_SOFTFP #define REGARG_FIRSTFPR 0 #define REGARG_LASTFPR 0 #define REGARG_NUMFPR 0 #else #define REGARG_FIRSTFPR RID_D0 #define REGARG_LASTFPR RID_D7 #define REGARG_NUMFPR 8 #endif /* -- Spill slots --------------------------------------------------------- */ /* Spill slots are 32 bit wide. An even/odd pair is used for FPRs. ** ** SPS_FIXED: Available fixed spill slots in interpreter frame. ** This definition must match with the *.dasc file(s). ** ** SPS_FIRST: First spill slot for general use. Reserve min. two 32 bit slots. */ #define SPS_FIXED 2 #define SPS_FIRST 2 #define SPOFS_TMP 0 #define sps_scale(slot) (4 * (int32_t)(slot)) #define sps_align(slot) (((slot) - SPS_FIXED + 1) & ~1) /* -- Exit state ---------------------------------------------------------- */ /* This definition must match with the *.dasc file(s). */ typedef struct { #if !LJ_SOFTFP lua_Number fpr[RID_NUM_FPR]; /* Floating-point registers. */ #endif int32_t gpr[RID_NUM_GPR]; /* General-purpose registers. */ int32_t spill[256]; /* Spill slots. */ } ExitState; /* PC after instruction that caused an exit. Used to find the trace number. */ #define EXITSTATE_PCREG RID_PC /* Highest exit + 1 indicates stack check. */ #define EXITSTATE_CHECKEXIT 1 #define EXITSTUB_SPACING 4 #define EXITSTUBS_PER_GROUP 32 /* -- Instructions -------------------------------------------------------- */ /* Instruction fields. */ #define ARMF_CC(ai, cc) (((ai) ^ ARMI_CCAL) | ((cc) << 28)) #define ARMF_N(r) ((r) << 16) #define ARMF_D(r) ((r) << 12) #define ARMF_S(r) ((r) << 8) #define ARMF_M(r) (r) #define ARMF_SH(sh, n) (((sh) << 5) | ((n) << 7)) #define ARMF_RSH(sh, r) (0x10 | ((sh) << 5) | ARMF_S(r)) typedef enum ARMIns { ARMI_CCAL = 0xe0000000, ARMI_S = 0x000100000, ARMI_K12 = 0x02000000, ARMI_KNEG = 0x00200000, ARMI_LS_W = 0x00200000, ARMI_LS_U = 0x00800000, ARMI_LS_P = 0x01000000, ARMI_LS_R = 0x02000000, ARMI_LSX_I = 0x00400000, ARMI_AND = 0xe0000000, ARMI_EOR = 0xe0200000, ARMI_SUB = 0xe0400000, ARMI_RSB = 0xe0600000, ARMI_ADD = 0xe0800000, ARMI_ADC = 0xe0a00000, ARMI_SBC = 0xe0c00000, ARMI_RSC = 0xe0e00000, ARMI_TST = 0xe1100000, ARMI_TEQ = 0xe1300000, ARMI_CMP = 0xe1500000, ARMI_CMN = 0xe1700000, ARMI_ORR = 0xe1800000, ARMI_MOV = 0xe1a00000, ARMI_BIC = 0xe1c00000, ARMI_MVN = 0xe1e00000, ARMI_NOP = 0xe1a00000, ARMI_MUL = 0xe0000090, ARMI_SMULL = 0xe0c00090, ARMI_LDR = 0xe4100000, ARMI_LDRB = 0xe4500000, ARMI_LDRH = 0xe01000b0, ARMI_LDRSB = 0xe01000d0, ARMI_LDRSH = 0xe01000f0, ARMI_LDRD = 0xe00000d0, ARMI_STR = 0xe4000000, ARMI_STRB = 0xe4400000, ARMI_STRH = 0xe00000b0, ARMI_STRD = 0xe00000f0, ARMI_PUSH = 0xe92d0000, ARMI_B = 0xea000000, ARMI_BL = 0xeb000000, ARMI_BLX = 0xfa000000, ARMI_BLXr = 0xe12fff30, /* ARMv6 */ ARMI_REV = 0xe6bf0f30, ARMI_SXTB = 0xe6af0070, ARMI_SXTH = 0xe6bf0070, ARMI_UXTB = 0xe6ef0070, ARMI_UXTH = 0xe6ff0070, /* ARMv6T2 */ ARMI_MOVW = 0xe3000000, ARMI_MOVT = 0xe3400000, /* VFP */ ARMI_VMOV_D = 0xeeb00b40, ARMI_VMOV_S = 0xeeb00a40, ARMI_VMOVI_D = 0xeeb00b00, ARMI_VMOV_R_S = 0xee100a10, ARMI_VMOV_S_R = 0xee000a10, ARMI_VMOV_RR_D = 0xec500b10, ARMI_VMOV_D_RR = 0xec400b10, ARMI_VADD_D = 0xee300b00, ARMI_VSUB_D = 0xee300b40, ARMI_VMUL_D = 0xee200b00, ARMI_VMLA_D = 0xee000b00, ARMI_VMLS_D = 0xee000b40, ARMI_VNMLS_D = 0xee100b00, ARMI_VDIV_D = 0xee800b00, ARMI_VABS_D = 0xeeb00bc0, ARMI_VNEG_D = 0xeeb10b40, ARMI_VSQRT_D = 0xeeb10bc0, ARMI_VCMP_D = 0xeeb40b40, ARMI_VCMPZ_D = 0xeeb50b40, ARMI_VMRS = 0xeef1fa10, ARMI_VCVT_S32_F32 = 0xeebd0ac0, ARMI_VCVT_S32_F64 = 0xeebd0bc0, ARMI_VCVT_U32_F32 = 0xeebc0ac0, ARMI_VCVT_U32_F64 = 0xeebc0bc0, ARMI_VCVTR_S32_F32 = 0xeebd0a40, ARMI_VCVTR_S32_F64 = 0xeebd0b40, ARMI_VCVTR_U32_F32 = 0xeebc0a40, ARMI_VCVTR_U32_F64 = 0xeebc0b40, ARMI_VCVT_F32_S32 = 0xeeb80ac0, ARMI_VCVT_F64_S32 = 0xeeb80bc0, ARMI_VCVT_F32_U32 = 0xeeb80a40, ARMI_VCVT_F64_U32 = 0xeeb80b40, ARMI_VCVT_F32_F64 = 0xeeb70bc0, ARMI_VCVT_F64_F32 = 0xeeb70ac0, ARMI_VLDR_S = 0xed100a00, ARMI_VLDR_D = 0xed100b00, ARMI_VSTR_S = 0xed000a00, ARMI_VSTR_D = 0xed000b00, } ARMIns; typedef enum ARMShift { ARMSH_LSL, ARMSH_LSR, ARMSH_ASR, ARMSH_ROR } ARMShift; /* ARM condition codes. */ typedef enum ARMCC { CC_EQ, CC_NE, CC_CS, CC_CC, CC_MI, CC_PL, CC_VS, CC_VC, CC_HI, CC_LS, CC_GE, CC_LT, CC_GT, CC_LE, CC_AL, CC_HS = CC_CS, CC_LO = CC_CC } ARMCC; #endif