/* nds32.h -- Header file for nds32 opcode table Copyright (C) 2012-2014 Free Software Foundation, Inc. Contributed by Andes Technology Corporation. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef OPCODE_NDS32_H #define OPCODE_NDS32_H /* Registers. */ #define REG_R5 5 #define REG_R8 8 #define REG_R10 10 #define REG_R12 12 #define REG_R15 15 #define REG_R16 16 #define REG_R20 20 #define REG_TA 15 #define REG_TP 27 #define REG_FP 28 #define REG_GP 29 #define REG_LP 30 #define REG_SP 31 /* Macros for extracting fields or making an instruction. */ static const int nds32_r45map[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 16, 17, 18, 19 }; static const int nds32_r54map[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, -1, -1, -1, -1, 12, 13, 14, 15, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 }; #define __BIT(n) (1 << (n)) #define __MASK(n) (__BIT (n) - 1) #define __MF(v, off, bs) (((v) & __MASK (bs)) << (off)) #define __GF(v, off, bs) (((v) >> off) & __MASK (bs)) #define __SEXT(v, bs) ((((v) & ((1 << (bs)) - 1)) ^ (1 << ((bs) - 1))) - (1 << ((bs) - 1))) /* Make nds32 instructions. */ #define N32_TYPE4(op6, rt5, ra5, rb5, rd5, sub5) \ (__MF (N32_OP6_##op6, 25, 6) | __MF (rt5, 20, 5) \ | __MF (ra5, 15, 5) | __MF (rb5, 10, 5) \ | __MF (rd5, 5, 5) | __MF (sub5, 0, 5)) #define N32_TYPE3(op6, rt5, ra5, rb5, sub10) \ (N32_TYPE4 (op6, rt5, ra5, rb5, 0, 0) \ | __MF (sub10, 0, 10)) #define N32_TYPE2(op6, rt5, ra5, imm15) \ (N32_TYPE3 (op6, rt5, ra5, 0, 0) | __MF (imm15, 0, 15)) #define N32_TYPE1(op6, rt5, imm20) \ (N32_TYPE2 (op6, rt5, 0, 0) | __MF (imm20, 0, 20)) #define N32_TYPE0(op6, imm25) \ (N32_TYPE1 (op6, 0, 0) | __MF (imm25, 0, 25)) #define N32_ALU1(sub, rt, ra, rb) \ N32_TYPE4 (ALU1, rt, ra, rb, 0, N32_ALU1_##sub) #define N32_ALU1_SH(sub, rt, ra, rb, rd) \ N32_TYPE4 (ALU1, rt, ra, rb, rd, N32_ALU1_##sub) #define N32_ALU2(sub, rt, ra, rb) \ N32_TYPE3 (ALU2, rt, ra, rb, N32_ALU2_##sub) #define N32_BR1(sub, rt, ra, imm14s) \ N32_TYPE2 (BR1, rt, ra, (N32_BR1_##sub << 14) | (imm14s & __MASK (14))) #define N32_BR2(sub, rt, imm16s) \ N32_TYPE1 (BR2, rt, (N32_BR2_##sub << 16) | (imm16s & __MASK (16))) #define N32_BR3(sub, rt, imm11s, imm8s) \ N32_TYPE1 (BR3, rt, (N32_BR3_##sub << 19) \ | ((imm11s & __MASK (11)) << 8) \ | (imm8s & __MASK (8))) #define N32_JI(sub, imm24s) \ N32_TYPE0 (JI, (N32_JI_##sub << 24) | (imm24s & __MASK (24))) #define N32_JREG(sub, rt, rb, dtit, hint) \ N32_TYPE4(JREG, rt, 0, rb, (dtit << 3) | (hint & 7), N32_JREG_##sub) #define N32_MEM(sub, rt, ra, rb, sv) \ N32_TYPE3 (MEM, rt, ra, rb, (sv << 8) | N32_MEM_##sub) #define N16_TYPE55(op5, rt5, ra5) \ (0x8000 | __MF (N16_T55_##op5, 10, 5) | __MF (rt5, 5, 5) \ | __MF (ra5, 0, 5)) #define N16_TYPE45(op6, rt4, ra5) \ (0x8000 | __MF (N16_T45_##op6, 9, 6) | __MF (rt4, 5, 4) \ | __MF (ra5, 0, 5)) #define N16_TYPE333(op6, rt3, ra3, rb3) \ (0x8000 | __MF (N16_T333_##op6, 9, 6) | __MF (rt3, 6, 3) \ | __MF (ra3, 3, 3) | __MF (rb3, 0, 3)) #define N16_TYPE36(op6, rt3, imm6) \ (0x8000 | __MF (N16_T36_##op6, 9, 6) | __MF (rt3, 6, 3) \ | __MF (imm6, 0, 6)) #define N16_TYPE38(op4, rt3, imm8) \ (0x8000 | __MF (N16_T38_##op4, 11, 4) | __MF (rt3, 8, 3) \ | __MF (imm8, 0, 8)) #define N16_TYPE37(op4, rt3, ls, imm7) \ (0x8000 | __MF (N16_T37_##op4, 11, 4) | __MF (rt3, 8, 3) \ | __MF (imm7, 0, 7) | __MF (ls, 7, 1)) #define N16_TYPE5(op10, imm5) \ (0x8000 | __MF (N16_T5_##op10, 5, 10) | __MF (imm5, 0, 5)) #define N16_TYPE8(op7, imm8) \ (0x8000 | __MF (N16_T8_##op7, 8, 7) | __MF (imm8, 0, 8)) #define N16_TYPE9(op6, imm9) \ (0x8000 | __MF (N16_T9_##op6, 9, 6) | __MF (imm9, 0, 9)) #define N16_TYPE10(op5, imm10) \ (0x8000 | __MF (N16_T10_##op5, 10, 5) | __MF (imm10, 0, 10)) #define N16_TYPE25(op8, re, imm5) \ (0x8000 | __MF (N16_T25_##op8, 7, 8) | __MF (re, 5, 2) \ | __MF (imm5, 0, 5)) #define N16_MISC33(sub, rt, ra) \ N16_TYPE333 (MISC33, rt, ra, N16_MISC33_##sub) #define N16_BFMI333(sub, rt, ra) \ N16_TYPE333 (BFMI333, rt, ra, N16_BFMI333_##sub) /* Get instruction fields. Macros used for handling 32-bit and 16-bit instructions are prefixed with N32_ and N16_ respectively. */ #define N32_OP6(insn) (((insn) >> 25) & 0x3f) #define N32_RT5(insn) (((insn) >> 20) & 0x1f) #define N32_RT53(insn) (N32_RT5 (insn) & 0x7) #define N32_RT54(insn) nds32_r54map[N32_RT5 (insn)] #define N32_RA5(insn) (((insn) >> 15) & 0x1f) #define N32_RA53(insn) (N32_RA5 (insn) & 0x7) #define N32_RA54(insn) nds32_r54map[N32_RA5 (insn)] #define N32_RB5(insn) (((insn) >> 10) & 0x1f) #define N32_UB5(insn) (((insn) >> 10) & 0x1f) #define N32_RB53(insn) (N32_RB5 (insn) & 0x7) #define N32_RB54(insn) nds32_r54map[N32_RB5 (insn)] #define N32_RD5(insn) (((insn) >> 5) & 0x1f) #define N32_SH5(insn) (((insn) >> 5) & 0x1f) #define N32_SUB5(insn) (((insn) >> 0) & 0x1f) #define N32_SWID(insn) (((insn) >> 5) & 0x3ff) #define N32_IMMU(insn, bs) ((insn) & __MASK (bs)) #define N32_IMMS(insn, bs) ((signed) __SEXT (((insn) & __MASK (bs)), bs)) #define N32_IMM5U(insn) N32_IMMU (insn, 5) #define N32_IMM12S(insn) N32_IMMS (insn, 12) #define N32_IMM14S(insn) N32_IMMS (insn, 14) #define N32_IMM15U(insn) N32_IMMU (insn, 15) #define N32_IMM15S(insn) N32_IMMS (insn, 15) #define N32_IMM16S(insn) N32_IMMS (insn, 16) #define N32_IMM17S(insn) N32_IMMS (insn, 17) #define N32_IMM20S(insn) N32_IMMS (insn, 20) #define N32_IMM20U(insn) N32_IMMU (insn, 20) #define N32_IMM24S(insn) N32_IMMS (insn, 24) #define N16_RT5(insn) (((insn) >> 5) & 0x1f) #define N16_RT4(insn) nds32_r45map[(((insn) >> 5) & 0xf)] #define N16_RT3(insn) (((insn) >> 6) & 0x7) #define N16_RT38(insn) (((insn) >> 8) & 0x7) #define N16_RT8(insn) (((insn) >> 8) & 0x7) #define N16_RA5(insn) ((insn) & 0x1f) #define N16_RA3(insn) (((insn) >> 3) & 0x7) #define N16_RB3(insn) ((insn) & 0x7) #define N16_IMM3U(insn) N32_IMMU (insn, 3) #define N16_IMM5U(insn) N32_IMMU (insn, 5) #define N16_IMM5S(insn) N32_IMMS (insn, 5) #define N16_IMM6U(insn) N32_IMMU (insn, 6) #define N16_IMM7U(insn) N32_IMMU (insn, 7) #define N16_IMM8S(insn) N32_IMMS (insn, 8) #define N16_IMM9U(insn) N32_IMMU (insn, 9) #define N16_IMM10S(insn) N32_IMMS (insn, 10) #define IS_WITHIN_U(v, n) (((v) >> n) == 0) #define IS_WITHIN_S(v, n) IS_WITHIN_U ((v) + (1 << ((n) - 1)), n) /* Get fields for specific instruction. */ #define N32_JREG_T(insn) (((insn) >> 8) & 0x3) #define N32_JREG_HINT(insn) (((insn) >> 5) & 0x7) #define N32_BR2_SUB(insn) (((insn) >> 16) & 0xf) #define N32_COP_SUB(insn) ((insn) & 0xf) #define N32_COP_CP(insn) (((insn) >> 4) & 0x3) /* Check fields. */ #define N32_IS_RT3(insn) (N32_RT5 (insn) < 8) #define N32_IS_RA3(insn) (N32_RA5 (insn) < 8) #define N32_IS_RB3(insn) (N32_RB5 (insn) < 8) #define N32_IS_RT4(insn) (nds32_r54map[N32_RT5 (insn)] != -1) #define N32_IS_RA4(insn) (nds32_r54map[N32_RA5 (insn)] != -1) #define N32_IS_RB4(insn) (nds32_r54map[N32_RB5 (insn)] != -1) /* These are opcodes for Nxx_TYPE macros. They are prefixed by corresponding TYPE to avoid misusing. */ enum n32_opcodes { /* Main opcodes (OP6). */ N32_OP6_LBI = 0x0, N32_OP6_LHI, N32_OP6_LWI, N32_OP6_LDI, N32_OP6_LBI_BI, N32_OP6_LHI_BI, N32_OP6_LWI_BI, N32_OP6_LDI_BI, N32_OP6_SBI = 0x8, N32_OP6_SHI, N32_OP6_SWI, N32_OP6_SDI, N32_OP6_SBI_BI, N32_OP6_SHI_BI, N32_OP6_SWI_BI, N32_OP6_SDI_BI, N32_OP6_LBSI = 0x10, N32_OP6_LHSI, N32_OP6_LWSI, N32_OP6_DPREFI, N32_OP6_LBSI_BI, N32_OP6_LHSI_BI, N32_OP6_LWSI_BI, N32_OP6_LBGP, N32_OP6_LWC = 0x18, N32_OP6_SWC, N32_OP6_LDC, N32_OP6_SDC, N32_OP6_MEM, N32_OP6_LSMW, N32_OP6_HWGP, N32_OP6_SBGP, N32_OP6_ALU1 = 0x20, N32_OP6_ALU2, N32_OP6_MOVI, N32_OP6_SETHI, N32_OP6_JI, N32_OP6_JREG, N32_OP6_BR1, N32_OP6_BR2, N32_OP6_ADDI = 0x28, N32_OP6_SUBRI, N32_OP6_ANDI, N32_OP6_XORI, N32_OP6_ORI, N32_OP6_BR3, N32_OP6_SLTI, N32_OP6_SLTSI, N32_OP6_AEXT = 0x30, N32_OP6_CEXT, N32_OP6_MISC, N32_OP6_BITCI, N32_OP6_0x34, N32_OP6_COP, N32_OP6_0x36, N32_OP6_0x37, N32_OP6_SIMD = 0x38, /* Sub-opcodes of specific opcode. */ /* bit-24 */ N32_BR1_BEQ = 0, N32_BR1_BNE = 1, /* bit[16:19] */ N32_BR2_IFCALL = 0, N32_BR2_BEQZ = 2, N32_BR2_BNEZ = 3, N32_BR2_BGEZ = 4, N32_BR2_BLTZ = 5, N32_BR2_BGTZ = 6, N32_BR2_BLEZ = 7, N32_BR2_BGEZAL = 0xc, N32_BR2_BLTZAL = 0xd, /* bit-19 */ N32_BR3_BEQC = 0, N32_BR3_BNEC = 1, /* bit-24 */ N32_JI_J = 0, N32_JI_JAL = 1, /* bit[0:4] */ N32_JREG_JR = 0, N32_JREG_JRAL = 1, N32_JREG_JRNEZ = 2, N32_JREG_JRALNEZ = 3, /* bit[0:4] */ N32_ALU1_ADD_SLLI = 0x0, N32_ALU1_SUB_SLLI, N32_ALU1_AND_SLLI, N32_ALU1_XOR_SLLI, N32_ALU1_OR_SLLI, N32_ALU1_ADD = 0x0, N32_ALU1_SUB, N32_ALU1_AND, N32_ALU1_XOR, N32_ALU1_OR, N32_ALU1_NOR, N32_ALU1_SLT, N32_ALU1_SLTS, N32_ALU1_SLLI = 0x8, N32_ALU1_SRLI, N32_ALU1_SRAI, N32_ALU1_ROTRI, N32_ALU1_SLL, N32_ALU1_SRL, N32_ALU1_SRA, N32_ALU1_ROTR, N32_ALU1_SEB = 0x10, N32_ALU1_SEH, N32_ALU1_BITC, N32_ALU1_ZEH, N32_ALU1_WSBH, N32_ALU1_OR_SRLI, N32_ALU1_DIVSR, N32_ALU1_DIVR, N32_ALU1_SVA = 0x18, N32_ALU1_SVS, N32_ALU1_CMOVZ, N32_ALU1_CMOVN, N32_ALU1_ADD_SRLI, N32_ALU1_SUB_SRLI, N32_ALU1_AND_SRLI, N32_ALU1_XOR_SRLI, /* bit[0:5], where bit[6:9] == 0 */ N32_ALU2_MAX = 0, N32_ALU2_MIN, N32_ALU2_AVE, N32_ALU2_ABS, N32_ALU2_CLIPS, N32_ALU2_CLIP, N32_ALU2_CLO, N32_ALU2_CLZ, N32_ALU2_BSET = 0x8, N32_ALU2_BCLR, N32_ALU2_BTGL, N32_ALU2_BTST, N32_ALU2_BSE, N32_ALU2_BSP, N32_ALU2_FFB, N32_ALU2_FFMISM, N32_ALU2_ADD_SC = 0x10, N32_ALU2_SUB_SC, N32_ALU2_ADD_WC, N32_ALU2_SUB_WC, N32_ALU2_KMxy, N32_ALU2_0x15, N32_ALU2_0x16, N32_ALU2_FFZMISM, N32_ALU2_KADD = 0x18, N32_ALU2_KSUB, N32_ALU2_KSLRA, N32_ALU2_MFUSR = 0x20, N32_ALU2_MTUSR, N32_ALU2_0x22, N32_ALU2_0x23, N32_ALU2_MUL, N32_ALU2_0x25, N32_ALU2_0x26, N32_ALU2_MULTS64 = 0x28, N32_ALU2_MULT64, N32_ALU2_MADDS64, N32_ALU2_MADD64, N32_ALU2_MSUBS64, N32_ALU2_MSUB64, N32_ALU2_DIVS, N32_ALU2_DIV, N32_ALU2_0x30 = 0x30, N32_ALU2_MULT32, N32_ALU2_0x32, N32_ALU2_MADD32, N32_ALU2_0x34, N32_ALU2_MSUB32, /* bit[0:5], where bit[6:9] != 0 */ N32_ALU2_FFBI = 0xe, N32_ALU2_FLMISM = 0xf, N32_ALU2_MULSR64 = 0x28, N32_ALU2_MULR64 = 0x29, N32_ALU2_MADDR32 = 0x33, N32_ALU2_MSUBR32 = 0x35, /* bit[0:5] */ N32_MEM_LB = 0, N32_MEM_LH, N32_MEM_LW, N32_MEM_LD, N32_MEM_LB_BI, N32_MEM_LH_BI, N32_MEM_LW_BI, N32_MEM_LD_BI, N32_MEM_SB, N32_MEM_SH, N32_MEM_SW, N32_MEM_SD, N32_MEM_SB_BI, N32_MEM_SH_BI, N32_MEM_SW_BI, N32_MEM_SD_BI, N32_MEM_LBS, N32_MEM_LHS, N32_MEM_LWS, /* Not used. */ N32_MEM_DPREF, N32_MEM_LBS_BI, N32_MEM_LHS_BI, N32_MEM_LWS_BI, /* Not used. */ N32_MEM_0x17, /* Not used. */ N32_MEM_LLW, N32_MEM_SCW, N32_MEM_LBUP = 0x20, N32_MEM_LWUP = 0x22, N32_MEM_SBUP = 0x28, N32_MEM_SWUP = 0x2a, /* bit[0:1] */ N32_LSMW_LSMW = 0, N32_LSMW_LSMWA, N32_LSMW_LSMWZB, /* bit[2:4] */ N32_LSMW_BI = 0, N32_LSMW_BIM, N32_LSMW_BD, N32_LSMW_BDM, N32_LSMW_AI, N32_LSMW_AIM, N32_LSMW_AD, N32_LSMW_ADM, /* bit[0:4] */ N32_MISC_STANDBY = 0, N32_MISC_CCTL, N32_MISC_MFSR, N32_MISC_MTSR, N32_MISC_IRET, N32_MISC_TRAP, N32_MISC_TEQZ, N32_MISC_TNEZ, N32_MISC_DSB = 0x8, N32_MISC_ISB, N32_MISC_BREAK, N32_MISC_SYSCALL, N32_MISC_MSYNC, N32_MISC_ISYNC, N32_MISC_TLBOP, N32_MISC_0xf, /* bit[0:4] */ N32_SIMD_PBSAD = 0, N32_SIMD_PBSADA = 1, /* bit[0:3] */ N32_COP_CPE1 = 0, N32_COP_MFCP, N32_COP_CPLW, N32_COP_CPLD, N32_COP_CPE2, N32_COP_CPE3 = 8, N32_COP_MTCP, N32_COP_CPSW, N32_COP_CPSD, N32_COP_CPE4, /* cop/0 b[3:0] */ N32_FPU_FS1 = 0, N32_FPU_MFCP, N32_FPU_FLS, N32_FPU_FLD, N32_FPU_FS2, N32_FPU_FD1 = 8, N32_FPU_MTCP, N32_FPU_FSS, N32_FPU_FSD, N32_FPU_FD2, /* FS1 b[9:6] */ N32_FPU_FS1_FADDS = 0, N32_FPU_FS1_FSUBS, N32_FPU_FS1_FCPYNSS, N32_FPU_FS1_FCPYSS, N32_FPU_FS1_FMADDS, N32_FPU_FS1_FMSUBS, N32_FPU_FS1_FCMOVNS, N32_FPU_FS1_FCMOVZS, N32_FPU_FS1_FNMADDS, N32_FPU_FS1_FNMSUBS, N32_FPU_FS1_10, N32_FPU_FS1_11, N32_FPU_FS1_FMULS = 12, N32_FPU_FS1_FDIVS, N32_FPU_FS1_14, N32_FPU_FS1_F2OP = 15, /* FS1/F2OP b[14:10] */ N32_FPU_FS1_F2OP_FS2D = 0x00, N32_FPU_FS1_F2OP_FSQRTS = 0x01, N32_FPU_FS1_F2OP_FABSS = 0x05, N32_FPU_FS1_F2OP_FUI2S = 0x08, N32_FPU_FS1_F2OP_FSI2S = 0x0c, N32_FPU_FS1_F2OP_FS2UI = 0x10, N32_FPU_FS1_F2OP_FS2UI_Z = 0x14, N32_FPU_FS1_F2OP_FS2SI = 0x18, N32_FPU_FS1_F2OP_FS2SI_Z = 0x1c, /* FS2 b[9:6] */ N32_FPU_FS2_FCMPEQS = 0x0, N32_FPU_FS2_FCMPLTS = 0x2, N32_FPU_FS2_FCMPLES = 0x4, N32_FPU_FS2_FCMPUNS = 0x6, N32_FPU_FS2_FCMPEQS_E = 0x1, N32_FPU_FS2_FCMPLTS_E = 0x3, N32_FPU_FS2_FCMPLES_E = 0x5, N32_FPU_FS2_FCMPUNS_E = 0x7, /* FD1 b[9:6] */ N32_FPU_FD1_FADDD = 0, N32_FPU_FD1_FSUBD, N32_FPU_FD1_FCPYNSD, N32_FPU_FD1_FCPYSD, N32_FPU_FD1_FMADDD, N32_FPU_FD1_FMSUBD, N32_FPU_FD1_FCMOVND, N32_FPU_FD1_FCMOVZD, N32_FPU_FD1_FNMADDD, N32_FPU_FD1_FNMSUBD, N32_FPU_FD1_10, N32_FPU_FD1_11, N32_FPU_FD1_FMULD = 12, N32_FPU_FD1_FDIVD, N32_FPU_FD1_14, N32_FPU_FD1_F2OP = 15, /* FD1/F2OP b[14:10] */ N32_FPU_FD1_F2OP_FD2S = 0x00, N32_FPU_FD1_F2OP_FSQRTD = 0x01, N32_FPU_FD1_F2OP_FABSD = 0x05, N32_FPU_FD1_F2OP_FUI2D = 0x08, N32_FPU_FD1_F2OP_FSI2D = 0x0c, N32_FPU_FD1_F2OP_FD2UI = 0x10, N32_FPU_FD1_F2OP_FD2UI_Z = 0x14, N32_FPU_FD1_F2OP_FD2SI = 0x18, N32_FPU_FD1_F2OP_FD2SI_Z = 0x1c, /* FD2 b[9:6] */ N32_FPU_FD2_FCMPEQD = 0x0, N32_FPU_FD2_FCMPLTD = 0x2, N32_FPU_FD2_FCMPLED = 0x4, N32_FPU_FD2_FCMPUND = 0x6, N32_FPU_FD2_FCMPEQD_E = 0x1, N32_FPU_FD2_FCMPLTD_E = 0x3, N32_FPU_FD2_FCMPLED_E = 0x5, N32_FPU_FD2_FCMPUND_E = 0x7, /* MFCP b[9:6] */ N32_FPU_MFCP_FMFSR = 0x0, N32_FPU_MFCP_FMFDR = 0x1, N32_FPU_MFCP_XR = 0xc, /* MFCP/XR b[14:10] */ N32_FPU_MFCP_XR_FMFCFG = 0x0, N32_FPU_MFCP_XR_FMFCSR = 0x1, /* MTCP b[9:6] */ N32_FPU_MTCP_FMTSR = 0x0, N32_FPU_MTCP_FMTDR = 0x1, N32_FPU_MTCP_XR = 0xc, /* MTCP/XR b[14:10] */ N32_FPU_MTCP_XR_FMTCSR = 0x1 }; enum n16_opcodes { N16_T55_MOV55 = 0x0, N16_T55_MOVI55 = 0x1, N16_T45_0 = 0, N16_T45_ADD45 = 0x4, N16_T45_SUB45 = 0x5, N16_T45_ADDI45 = 0x6, N16_T45_SUBI45 = 0x7, N16_T45_SRAI45 = 0x8, N16_T45_SRLI45 = 0x9, N16_T45_LWI45_FE = 0x19, N16_T45_LWI450 = 0x1a, N16_T45_SWI450 = 0x1b, N16_T45_SLTS45 = 0x30, N16_T45_SLT45 = 0x31, N16_T45_SLTSI45 = 0x32, N16_T45_SLTI45 = 0x33, N16_T45_MOVPI45 = 0x3d, N15_T44_MOVD44 = 0x7d, N16_T333_0 = 0, N16_T333_SLLI333 = 0xa, N16_T333_BFMI333 = 0xb, N16_T333_ADD333 = 0xc, N16_T333_SUB333 = 0xd, N16_T333_ADDI333 = 0xe, N16_T333_SUBI333 = 0xf, N16_T333_LWI333 = 0x10, N16_T333_LWI333_BI = 0x11, N16_T333_LHI333 = 0x12, N16_T333_LBI333 = 0x13, N16_T333_SWI333 = 0x14, N16_T333_SWI333_BI = 0x15, N16_T333_SHI333 = 0x16, N16_T333_SBI333 = 0x17, N16_T333_MISC33 = 0x3f, N16_T36_ADDRI36_SP = 0x18, N16_T37_XWI37 = 0x7, N16_T37_XWI37SP = 0xe, N16_T38_BEQZ38 = 0x8, N16_T38_BNEZ38 = 0x9, N16_T38_BEQS38 = 0xa, N16_T38_BNES38 = 0xb, N16_T5_JR5 = 0x2e8, N16_T5_JRAL5 = 0x2e9, N16_T5_EX9IT = 0x2ea, /* 0x2eb reserved. */ N16_T5_RET5 = 0x2ec, N16_T5_ADD5PC = 0x2ed, /* 0x2e[ef] reserved. */ N16_T5_BREAK16 = 0x350, N16_T8_J8 = 0x55, N16_T8_BEQZS8 = 0x68, N16_T8_BNEZS8 = 0x69, /* N16_T9_BREAK16 = 0x35 Since v3, SWID of BREAK16 above 32 are used for encoding EX9.IT. */ N16_T9_EX9IT = 0x35, N16_T9_IFCALL9 = 0x3c, N16_T10_ADDI10S = 0x1b, N16_T25_PUSH25 = 0xf8, N16_T25_POP25 = 0xf9, /* Sub-opcodes. */ N16_MISC33_0 = 0, N16_MISC33_1 = 1, N16_MISC33_NEG33 = 2, N16_MISC33_NOT33 = 3, N16_MISC33_MUL33 = 4, N16_MISC33_XOR33 = 5, N16_MISC33_AND33 = 6, N16_MISC33_OR33 = 7, N16_BFMI333_ZEB33 = 0, N16_BFMI333_ZEH33 = 1, N16_BFMI333_SEB33 = 2, N16_BFMI333_SEH33 = 3, N16_BFMI333_XLSB33 = 4, N16_BFMI333_X11B33 = 5, N16_BFMI333_BMSKI33 = 6, N16_BFMI333_FEXTI33 = 7 }; /* These macros a deprecated. DO NOT use them anymore. And please help rewrite code used them. */ /* 32-bit instructions without operands. */ #define INSN_SETHI 0x46000000 #define INSN_ORI 0x58000000 #define INSN_JR 0x4a000000 #define INSN_RET 0x4a000020 #define INSN_JAL 0x49000000 #define INSN_J 0x48000000 #define INSN_JRAL 0x4a000001 #define INSN_BGEZAL 0x4e0c0000 #define INSN_BLTZAL 0x4e0d0000 #define INSN_BEQ 0x4c000000 #define INSN_BNE 0x4c004000 #define INSN_BEQZ 0x4e020000 #define INSN_BNEZ 0x4e030000 #define INSN_BGEZ 0x4e040000 #define INSN_BLTZ 0x4e050000 #define INSN_BGTZ 0x4e060000 #define INSN_BLEZ 0x4e070000 #define INSN_MOVI 0x44000000 #define INSN_ADDI 0x50000000 #define INSN_ANDI 0x54000000 #define INSN_LDI 0x06000000 #define INSN_SDI 0x16000000 #define INSN_LWI 0x04000000 #define INSN_LWSI 0x24000000 #define INSN_LWIP 0x0c000000 #define INSN_LHI 0x02000000 #define INSN_LHSI 0x22000000 #define INSN_LBI 0x00000000 #define INSN_LBSI 0x20000000 #define INSN_SWI 0x14000000 #define INSN_SWIP 0x1c000000 #define INSN_SHI 0x12000000 #define INSN_SBI 0x10000000 #define INSN_SLTI 0x5c000000 #define INSN_SLTSI 0x5e000000 #define INSN_ADD 0x40000000 #define INSN_SUB 0x40000001 #define INSN_SLT 0x40000006 #define INSN_SLTS 0x40000007 #define INSN_SLLI 0x40000008 #define INSN_SRLI 0x40000009 #define INSN_SRAI 0x4000000a #define INSN_SEB 0x40000010 #define INSN_SEH 0x40000011 #define INSN_ZEB INSN_ANDI + 0xFF #define INSN_ZEH 0x40000013 #define INSN_BREAK 0x6400000a #define INSN_NOP 0x40000009 #define INSN_FLSI 0x30000000 #define INSN_FSSI 0x32000000 #define INSN_FLDI 0x34000000 #define INSN_FSDI 0x36000000 #define INSN_BEQC 0x5a000000 #define INSN_BNEC 0x5a080000 #define INSN_DSB 0x64000008 #define INSN_IFCALL 0x4e000000 #define INSN_IFRET 0x4a000060 #define INSN_BR1 0x4c000000 #define INSN_BR2 0x4e000000 /* 16-bit instructions without operand. */ #define INSN_MOV55 0x8000 #define INSN_MOVI55 0x8400 #define INSN_ADD45 0x8800 #define INSN_SUB45 0x8a00 #define INSN_ADDI45 0x8c00 #define INSN_SUBI45 0x8e00 #define INSN_SRAI45 0x9000 #define INSN_SRLI45 0x9200 #define INSN_SLLI333 0x9400 #define INSN_BFMI333 0x9600 #define INSN_ADD333 0x9800 #define INSN_SUB333 0x9a00 #define INSN_ADDI333 0x9c00 #define INSN_SUBI333 0x9e00 #define INSN_LWI333 0xa000 #define INSN_LWI333P 0xa200 #define INSN_LHI333 0xa400 #define INSN_LBI333 0xa600 #define INSN_SWI333 0xa800 #define INSN_SWI333P 0xaa00 #define INSN_SHI333 0xac00 #define INSN_SBI333 0xae00 #define INSN_RSV01 0xb000 #define INSN_RSV02 0xb200 #define INSN_LWI450 0xb400 #define INSN_SWI450 0xb600 #define INSN_LWI37 0xb800 #define INSN_SWI37 0xb880 #define INSN_BEQZ38 0xc000 #define INSN_BNEZ38 0xc800 #define INSN_BEQS38 0xd000 #define INSN_J8 0xd500 #define INSN_BNES38 0xd800 #define INSN_JR5 0xdd00 #define INSN_RET5 0xdd80 #define INSN_JRAL5 0xdd20 #define INSN_EX9_IT_2 0xdd40 #define INSN_SLTS45 0xe000 #define INSN_SLT45 0xe200 #define INSN_SLTSI45 0xe400 #define INSN_SLTI45 0xe600 #define INSN_BEQZS8 0xe800 #define INSN_BNEZS8 0xe900 #define INSN_BREAK16 0xea00 #define INSN_EX9_IT_1 0xea00 #define INSN_NOP16 0x9200 /* 16-bit version 2. */ #define INSN_ADDI10_SP 0xec00 #define INSN_LWI37SP 0xf000 #define INSN_SWI37SP 0xf080 /* 16-bit version 3. */ #define INSN_IFRET16 0x83ff #define INSN_ADDRI36_SP 0xb000 #define INSN_LWI45_FE 0xb200 #define INSN_IFCALL9 0xf800 #define INSN_MISC33 0xfe00 /* Instruction with specific operands. */ #define INSN_ADDI_GP_TO_FP 0x51cd8000 /* BASELINE_V1. */ #define INSN_ADDIGP_TO_FP 0x3fc80000 /* BASELINE_V2. */ #define INSN_MOVI_TO_FP 0x45c00000 #define INSN_MFUSR_PC 0x420F8020 #define INSN_MFUSR_PC_MASK 0xFE0FFFFF /* Instructions use $ta register as operand. */ #define INSN_SETHI_TA (INSN_SETHI | (REG_TA << 20)) #define INSN_ORI_TA (INSN_ORI | (REG_TA << 20) | (REG_TA << 15)) #define INSN_ADD_TA (INSN_ADD | (REG_TA << 20)) #define INSN_ADD45_TA (INSN_ADD45 | (REG_TA << 5)) #define INSN_JR5_TA (INSN_JR5 | (REG_TA << 0)) #define INSN_RET5_TA (INSN_RET5 | (REG_TA << 0)) #define INSN_JR_TA (INSN_JR | (REG_TA << 10)) #define INSN_RET_TA (INSN_RET | (REG_TA << 10)) #define INSN_JRAL_TA (INSN_JRAL | (REG_LP << 20) | (REG_TA << 10)) #define INSN_JRAL5_TA (INSN_JRAL5 | (REG_TA << 0)) #define INSN_BEQZ_TA (INSN_BEQZ | (REG_TA << 20)) #define INSN_BNEZ_TA (INSN_BNEZ | (REG_TA << 20)) #define INSN_MOVI_TA (INSN_MOVI | (REG_TA << 20)) #define INSN_BEQ_TA (INSN_BEQ | (REG_TA << 15)) #define INSN_BNE_TA (INSN_BNE | (REG_TA << 15)) /* Instructions use $r5 register as operand. */ #define INSN_BNE_R5 (INSN_BNE | (REG_R5 << 15)) #define INSN_BEQ_R5 (INSN_BEQ | (REG_R5 << 15)) #endif