/* * Copyright (C) 2014-2019 Free Software Foundation, Inc. * * This file is part of GNU lightning. * * GNU lightning is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published * by the Free Software Foundation; either version 3, or (at your option) * any later version. * * GNU lightning 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 Lesser General Public * License for more details. * * Authors: * Paulo Cesar Pereira de Andrade */ #if PROTO # define _u2(v) ((v) & 0x3) # define _s2_p(v) ((v) >= -0x2 && (v) <= 0x1) # define _u2_p(v) ((v) >= 0 && (v) <= 0x3) # define _u5(v) ((v) & 0x1f) # define _s5_p(v) ((v) >= -0x10 && (v) <= 0xf) # define _u5_p(v) ((v) >= 0 && (v) <= 0x1f) # define _u6(v) ((v) & 0x3f) # define _s6_p(v) ((v) >= -0x20 && (v) <= 0x1f) # define _u6_p(v) ((v) >= 0 && (v) <= 0x3f) # define _u7(v) ((v) & 0x7f) # define _s7_p(v) ((v) >= -0x40 && (v) <= 0x3f) # define _u7_p(v) ((v) >= 0 && (v) <= 0x7f) # define _u8(v) ((v) & 0xff) # define _s8_p(v) ((v) >= -0x80 && (v) <= 0x7f) # define _u8_p(v) ((v) >= 0 && (v) <= 0xff) # define _u11(v) ((v) & 0x7ff) # define _s11_p(v) ((v) >= -0x400 && (v) <= 0x3ff) # define _u11_p(v) ((v) >= 0 && (v) <= 0x7ff) # define _u14(v) ((v) & 0x3fff) # define _s14_p(v) ((v) >= -0x2000 && (v) <= 0x1fff) # define _u14_p(v) ((v) >= 0 && (v) <= 0x3fff) # define _u16(v) ((v) & 0xffff) # define _s16_p(v) ((v) >= -0x8000 && (v) <= 0x7fff) # define _u16_p(v) ((v) >= 0 && (v) <= 0xffff) # define _u21(v) ((v) & 0x1fffff) # define _s21_p(v) ((v) >= -0x100000 && (v) <= 0xfffff) # define _u21_p(v) ((v) >= 0 && (v) <= 0x1fffff) # define _u26(v) ((v) & 0x3ffffff) # define _s26_p(v) ((v) >= -0x2000000 && (v) <= 0x1ffffff) # define _u26_p(v) ((v) >= 0 && (v) <= 0x3ffffff) # define _u32(v) ((v) & 0xffffffff) # define _s32_p(v) ((v) >= -0x80000000 && (v) <= 0x7fffffff) # define _u32_p(v) ((v) >= 0 && (v) <= 0xffffffff) # define ii(i) *_jit->pc.ui++ = i # define stack_framesize 224 # define _S0_REGNO 0x09 # define _S1_REGNO 0x0a # define _S2_REGNO 0x0b # define _S3_REGNO 0x0c # define _S4_REGNO 0x0d # define _S5_REGNO 0x0e # define _FP_REGNO 0x0f # define _A0_REGNO 0x10 # define _A1_REGNO 0x11 # define _A2_REGNO 0x12 # define _V0_REGNO 0x00 # define _T0_REGNO 0x01 # define _T1_REGNO 0x02 # define _RA_REGNO 0x1a # define _PV_REGNO 0x1b # define _GP_REGNO 0x1d # define _SP_REGNO 0x1e # define _R31_REGNO 0x1f # define Pcd(o,n) _Pcd(_jit,o,n) static void _Pcd(jit_state_t*,int,unsigned int) maybe_unused; # define Bra(o,ra,d) _Bra(_jit,o,ra,d) static void _Bra(jit_state_t*,int,int,int); # define Mem(o,ra,rb,d) _Mem(_jit,o,ra,rb,d) static void _Mem(jit_state_t*,int,int,int,unsigned int); # define Mbr(o,ra,rb,h,d) _Mbr(_jit,o,ra,rb,h,d) static void _Mbr(jit_state_t*,int,int,int,int,int); # define Opr(o,ra,rb,f,rc) _Opr(_jit,o,ra,rb,f,rc) static void _Opr(jit_state_t*,int,int,int,unsigned int,int); # define Opi(o,ra,i,f,rc) _Opi(_jit,o,ra,i,f,rc) static void _Opi(jit_state_t*,int,int,unsigned int,unsigned int,int); # define ADDL(ra,rb,rc) Opr(0x10,ra,rb,0x00,rc) # define ADDLi(ra,im,rc) Opi(0x10,ra,im,0x00,rc) # define ADDL_V(ra,rb,rc) Opr(0x10,ra,rb,0x40,rc) # define ADDL_Vi(ra,im,rc) Opi(0x10,ra,im,0x40,rc) # define ADDQ(ra,rb,rc) Opr(0x10,ra,rb,0x20,rc) # define ADDQi(ra,im,rc) Opi(0x10,ra,im,0x20,rc) # define ADDQ_V(ra,rb,rc) Opr(0x10,ra,rb,0x60,rc) # define ADDQ_Vi(ra,im,rc) Opi(0x10,ra,im,0x60,rc) # define AMASK(rb,rc) Opr(0x11,_R31_REGNO,rb,0x61,rc) # define AND(ra,rb,rc) Opr(0x11,ra,rb,0x00,rc) # define ANDi(ra,im,rc) Opi(0x11,ra,im,0x00,rc) # define BEQ(ra,d) Bra(0x39,ra,d) # define BGE(ra,d) Bra(0x3e,ra,d) # define BGT(ra,d) Bra(0x3f,ra,d) # define BIC(ra,rb,rc) Opr(0x11,ra,rb,0x08,rc) # define ANDNOT(ra,rb,rc) BIC(ra,rb,rc) # define BICi(ra,im,rc) Opi(0x11,ra,im,0x08,rc) # define ANDNOTi(ra,im,rc) BICi(ra,im,rc) # define BIS(ra,rb,rc) Opr(0x11,ra,rb,0x20,rc) # define BISi(ra,im,rc) Opi(0x11,ra,im,0x20,rc) # define OR(ra,rb,rc) BIS(ra,rb,rc) # define ORi(ra,im,rc) BISi(ra,im,rc) # define BLBC(ra,d) Bra(0x38,ra,d) # define BLBS(ra,d) Bra(0x3c,ra,d) # define BLE(ra,d) Bra(0x3b,ra,d) # define BLT(ra,d) Bra(0x3a,ra,d) # define BNE(ra,d) Bra(0x3d,ra,d) # define BR(ra,d) Bra(0x30,ra,d) # define BSR(ra,d) Bra(0x34,ra,d) # define CALL_PAL(c) Pcd(0x00,c) # define CMOVEQ(ra,rb,rc) Opr(0x11,ra,rb,0x24,rc) # define CMOVEQi(ra,im,rc) Opi(0x11,ra,im,0x24,rc) # define CMOVGE(ra,rb,rc) Opr(0x11,ra,rb,0x46,rc) # define CMOVGEi(ra,im,rc) Opi(0x11,ra,im,0x46,rc) # define CMOVGT(ra,rb,rc) Opr(0x11,ra,rb,0x66,rc) # define CMOVGTi(ra,im,rc) Opi(0x11,ra,im,0x66,rc) # define CMOVLBC(ra,rb,rc) Opr(0x11,ra,rb,0x16,rc) # define CMOVLBCi(ra,im,rc) Opi(0x11,ra,im,0x16,rc) # define CMOVLBS(ra,rb,rc) Opr(0x11,ra,rb,0x14,rc) # define CMOVLBSi(ra,im,rc) Opi(0x11,ra,im,0x14,rc) # define CMOVLE(ra,rb,rc) Opr(0x11,ra,rb,0x64,rc) # define CMOVLEi(ra,im,rc) Opi(0x11,ra,im,0x64,rc) # define CMOVLT(ra,rb,rc) Opr(0x11,ra,rb,0x44,rc) # define CMOVLTi(ra,im,rc) Opi(0x11,ra,im,0x44,rc) # define CMOVNE(ra,rb,rc) Opr(0x11,ra,rb,0x26,rc) # define CMOVNEi(ra,im,rc) Opi(0x11,ra,im,0x26,rc) # define CMPBGE(ra,rb,rc) Opr(0x10,ra,rb,0x0f,rc) # define CMPBGEi(ra,im,rc) Opi(0x10,ra,im,0x0f,rc) # define CMPEQ(ra,rb,rc) Opr(0x10,ra,rb,0x2d,rc) # define CMPEQi(ra,im,rc) Opi(0x10,ra,im,0x2d,rc) # define CMPLE(ra,rb,rc) Opr(0x10,ra,rb,0x6d,rc) # define CMPLEi(ra,im,rc) Opi(0x10,ra,im,0x6d,rc) # define CMPLT(ra,rb,rc) Opr(0x10,ra,rb,0x4d,rc) # define CMPLTi(ra,im,rc) Opi(0x10,ra,im,0x4d,rc) # define CMPULE(ra,rb,rc) Opr(0x10,ra,rb,0x3d,rc) # define CMPULEi(ra,im,rc) Opi(0x10,ra,im,0x3d,rc) # define CMPULT(ra,rb,rc) Opr(0x10,ra,rb,0x1d,rc) # define CMPULTi(ra,im,rc) Opi(0x10,ra,im,0x1d,rc) # define CTLZ(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x32,rc) # define CTPOP(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x30,rc) # define CTTZ(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x33,rc) # define ECB(rb,d) Mem(0x18,_R31_REGNO,rb,0xe800) # define EQV(ra,rb,rc) Opr(0x11,ra,rb,0x48,rc) # define XORNOT(ra,rb,rc) EQV(ra,rb,rc) # define EQVi(ra,im,rc) Opi(0x11,ra,im,0x48,rc) # define XORNOTi(ra,im,rc) EQVi(ra,im,rc) # define EXCB() Mem(0x18,0,0,0x0400) # define EXTBL(ra,rb,rc) Opr(0x12,ra,rb,0x06,rc) # define EXTBLi(ra,im,rc) Opi(0x12,ra,im,0x06,rc) # define EXTLH(ra,rb,rc) Opr(0x12,ra,rb,0x6a,rc) # define EXTLHi(ra,im,rc) Opi(0x12,ra,im,0x6a,rc) # define EXTLL(ra,rb,rc) Opr(0x12,ra,rb,0x26,rc) # define EXTLLi(ra,im,rc) Opi(0x12,ra,im,0x26,rc) # define EXTQH(ra,rb,rc) Opr(0x12,ra,rb,0x7a,rc) # define EXTQHi(ra,im,rc) Opi(0x12,ra,im,0x7a,rc) # define EXTQL(ra,rb,rc) Opr(0x12,ra,rb,0x36,rc) # define EXTQLi(ra,im,rc) Opi(0x12,ra,im,0x36,rc) # define EXTWH(ra,rb,rc) Opr(0x12,ra,rb,0x5a,rc) # define EXTWHi(ra,im,rc) Opi(0x12,ra,im,0x5a,rc) # define EXTWL(ra,rb,rc) Opr(0x12,ra,rb,0x16,rc) # define EXTWLi(ra,im,rc) Opi(0x12,ra,im,0x16,rc) # define FETCH(rb,d) Mem(0x18,_R31_REGNO,rb,0x8000) # define FETCH_Mem(rb,d) Mem(0x18,_R31_REGNO,rb,0xa000) /* FIXME IMPLVER not disassembled */ # define IMPLVER(rc) Opr(0x11,_R31_REGNO,1,0x6c,rc) # define INSBL(ra,rb,rc) Opr(0x12,ra,rb,0x0b,rc) # define INSBLi(ra,im,rc) Opi(0x12,ra,im,0x0b,rc) # define INSLH(ra,rb,rc) Opr(0x12,ra,rb,0x67,rc) # define INSLHi(ra,im,rc) Opi(0x12,ra,im,0x67,rc) # define INSLL(ra,rb,rc) Opr(0x12,ra,rb,0x2b,rc) # define INSLLi(ra,im,rc) Opi(0x12,ra,im,0x2b,rc) # define INSQH(ra,rb,rc) Opr(0x12,ra,rb,0x77,rc) # define INSQHi(ra,im,rc) Opi(0x12,ra,im,0x77,rc) # define INSQL(ra,rb,rc) Opr(0x12,ra,rb,0x3b,rc) # define INSQLi(ra,im,rc) Opi(0x12,ra,im,0x3b,rc) # define INSWH(ra,rb,rc) Opr(0x12,ra,rb,0x57,rc) # define INSWHi(ra,im,rc) Opi(0x12,ra,im,0x57,rc) # define INSWL(ra,rb,rc) Opr(0x12,ra,rb,0x1b,rc) # define INSWLi(ra,im,rc) Opi(0x12,ra,im,0x1b,rc) # define JMP(ra,rb,d) Mbr(0x1a,ra,rb,0,d) # define JSR(ra,rb,d) Mbr(0x1a,ra,rb,1,d) # define JSR_COROUTINE(ra,rb,d) Mbr(0x1a,ra,rb,3,d) # define JCR(ra,rb,rd) JSR_COROUTINE(ra,rb,d) # define LDA(ra,rb,d) Mem(0x08,ra,rb,d) # define LDAH(ra,rb,d) Mem(0x09,ra,rb,d) # define LDBU(ra,rb,d) Mem(0x0a,ra,rb,d) # define LDWU(ra,rb,d) Mem(0x0c,ra,rb,d) # define LDL(ra,rb,d) Mem(0x28,ra,rb,d) # define LDL_L(ra,rb,d) Mem(0x2a,ra,rb,d) # define LDQ(ra,rb,d) Mem(0x29,ra,rb,d) # define LDQ_L(ra,rb,d) Mem(0x2b,ra,rb,d) # define LDQ_U(ra,rb,d) Mem(0x0b,ra,rb,d) # define MAXSB8(ra,rb,rc) Opr(0x1c,ra,rb,0x3e,rc) # define MAXSW4(ra,rb,rc) Opr(0x1c,ra,rb,0x3f,rc) # define MAXSUB8(ra,rb,rc) Opr(0x1c,ra,rb,0x3c,rc) # define MAXSUW4(ra,rb,rc) Opr(0x1c,ra,rb,0x3d,rc) # define MB() Mem(0x18,_R31_REGNO,_R31_REGNO,0x4000) # define MINSB8(ra,rb,rc) Opr(0x1c,ra,rb,0x38,rc) # define MINSW4(ra,rb,rc) Opr(0x1c,ra,rb,0x39,rc) # define MINSUB8(ra,rb,rc) Opr(0x1c,ra,rb,0x3a,rc) # define MINSUW4(ra,rb,rc) Opr(0x1c,ra,rb,0x3b,rc) # define MSKBL(ra,rb,rc) Opr(0x12,ra,rb,0x02,rc) # define MSKBLi(ra,im,rc) Opi(0x12,ra,im,0x02,rc) # define MSKLH(ra,rb,rc) Opr(0x12,ra,rb,0x62,rc) # define MSKLHi(ra,im,rc) Opi(0x12,ra,im,0x62,rc) # define MSKLL(ra,rb,rc) Opr(0x12,ra,rb,0x22,rc) # define MSKLLi(ra,im,rc) Opi(0x12,ra,im,0x22,rc) # define MSKQH(ra,rb,rc) Opr(0x12,ra,rb,0x72,rc) # define MSKQHi(ra,im,rc) Opi(0x12,ra,im,0x72,rc) # define MSKQL(ra,rb,rc) Opr(0x12,ra,rb,0x32,rc) # define MSKQLi(ra,im,rc) Opi(0x12,ra,im,0x32,rc) # define MSKWH(ra,rb,rc) Opr(0x12,ra,rb,0x52,rc) # define MSKWHi(ra,im,rc) Opi(0x12,ra,im,0x52,rc) # define MSKWL(ra,rb,rc) Opr(0x12,ra,rb,0x12,rc) # define MSKWLi(ra,im,rc) Opi(0x12,ra,im,0x12,rc) # define MULL(ra,rb,rc) Opr(0x13,ra,rb,0x00,rc) # define MULLi(ra,im,rc) Opi(0x13,ra,im,0x00,rc) # define MULL_V(ra,rb,rc) Opr(0x13,ra,rb,0x40,rc) # define MULL_Vi(ra,im,rc) Opi(0x13,ra,im,0x40,rc) # define MULQ(ra,rb,rc) Opr(0x13,ra,rb,0x20,rc) # define MULQi(ra,im,rc) Opi(0x13,ra,im,0x20,rc) # define MULQ_V(ra,rb,rc) Opr(0x13,ra,rb,0x60,rc) # define MULQ_Vi(ra,im,rc) Opi(0x13,ra,im,0x60,rc) # define ORNOT(ra,rb,rc) Opr(0x11,ra,rb,0x28,rc) # define ORNOTi(ra,im,rc) Opi(0x11,ra,im,0x28,rc) # define PERR(ra,rb,rc) Opr(0x1c,ra,rb,0x31,rc) # define PKLB(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x37,rc) # define PKWB(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x36,rc) /* FIXME PREFETCH* not disassembled */ # define PREFETCH(rb,d) Mem(0x28,_R31_REGNO,rb,d) # define PREFETCH_EN(rb,d) Mem(0x29,_R31_REGNO,rb,d) # define PREFETCH_M(rb,d) Mem(0x22,_R31_REGNO,rb,d) # define PREFETCH_MEN(rb,d) Mem(0x23,_R31_REGNO,rb,d) # define RC(ra) Mem(0x18,ra,_R31_REGNO,0xe000) # define RET(ra,rb,d) Mbr(0x1a,ra,rb,2,d) # define RPCC(ra) Mem(0x18,ra,_R31_REGNO,0xc000) # define RS(ra) Mem(0x18,ra,_R31_REGNO,0xf000) # define S4ADDL(ra,rb,rc) Opr(0x10,ra,rb,0x02,rc) # define S4ADDi(ra,im,rc) Opi(0x10,ra,im,0x02,rc) # define S4ADDQ(ra,rb,rc) Opr(0x10,ra,rb,0x22,rc) # define S4ADDQi(ra,im,rc) Opi(0x10,ra,im,0x22,rc) # define S4SUBL(ra,rb,rc) Opr(0x10,ra,rb,0x0b,rc) # define S4SUBLi(ra,im,rc) Opi(0x10,ra,im,0x0b,rc) # define S4SUBQ(ra,rb,rc) Opr(0x10,ra,rb,0x2b,rc) # define S4SUBQi(ra,im,rc) Opi(0x10,ra,im,0x2b,rc) # define S8ADDL(ra,rb,rc) Opr(0x10,ra,rb,0x12,rc) # define S8ADDLi(ra,im,rc) Opi(0x10,ra,im,0x12,rc) # define S8ADDQ(ra,rb,rc) Opr(0x10,ra,rb,0x32,rc) # define S8ADDQi(ra,im,rc) Opi(0x10,ra,im,0x32,rc) # define S8SUBL(ra,rb,rc) Opr(0x10,ra,rb,0x1b,rc) # define S8SUBLi(ra,im,rc) Opi(0x10,ra,im,0x1b,rc) # define S8SUBQ(ra,rb,rc) Opr(0x10,ra,rb,0x3b,rc) # define S8SUBQi(ra,im,rc) Opi(0x10,ra,im,0x3b,rc) # define SEXTB(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x00,rc) /* FIXME not disassembled */ # define SEXTBi(im,rc) Opi(0x1c,_R31_REGNO,im,0x00,rc) # define SEXTW(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x01,rc) /* FIXME not disassembled */ # define SEXTWi(im,rc) Opi(0x1c,_R31_REGNO,im,0x01,rc) # define SLL(ra,rb,rc) Opr(0x12,ra,rb,0x39,rc) # define SLLi(ra,im,rc) Opi(0x12,ra,im,0x39,rc) # define SRA(ra,rb,rc) Opr(0x12,ra,rb,0x3c,rc) # define SRAi(ra,im,rc) Opi(0x12,ra,im,0x3c,rc) # define SRL(ra,rb,rc) Opr(0x12,ra,rb,0x34,rc) # define SRLi(ra,im,rc) Opi(0x12,ra,im,0x34,rc) # define STB(ra,rb,d) Mem(0x0e,ra,rb,d) # define STL(ra,rb,d) Mem(0x2c,ra,rb,d) # define STL_C(ra,rb,d) Mem(0x2e,ra,rb,d) # define STQ(ra,rb,d) Mem(0x2d,ra,rb,d) # define STQ_C(ra,rb,d) Mem(0x2f,ra,rb,d) # define STQ_U(ra,rb,d) Mem(0x0f,ra,rb,d) # define STW(ra,rb,d) Mem(0x0d,ra,rb,d) # define SUBL(ra,rb,rc) Opr(0x10,ra,rb,0x09,rc) # define SUBLi(ra,im,rc) Opi(0x10,ra,im,0x09,rc) # define SUBL_V(ra,rb,rc) Opr(0x10,ra,rb,0x49,rc) # define SUBL_Vi(ra,im,rc) Opi(0x10,ra,im,0x49,rc) # define SUBQ(ra,rb,rc) Opr(0x10,ra,rb,0x29,rc) # define SUBQi(ra,im,rc) Opi(0x10,ra,im,0x29,rc) # define SUBQ_V(ra,rb,rc) Opr(0x10,ra,rb,0x69,rc) # define SUBQ_Vi(ra,im,rc) Opi(0x10,ra,im,0x69,rc) # define TRAPB() Mem(0x18,_R31_REGNO,_R31_REGNO,0x0000) # define UMULH(ra,rb,rc) Opr(0x13,ra,rb,0x30,rc) # define UMULHi(ra,im,rc) Opi(0x13,ra,im,0x30,rc) # define UNPKBL(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x35,rc) # define UNPKBW(rb,rc) Opr(0x1c,_R31_REGNO,rb,0x34,rc) # define WH64(ra) Mem(0x18,ra,_R31_REGNO,0xf800) # define WH64EN(ra) Mem(0x18,ra,_R31_REGNO,0xfc00) # define WMB() Mem(0x18,_R31_REGNO,_R31_REGNO,0x4400) # define XOR(ra,rb,rc) Opr(0x11,ra,rb,0x40,rc) # define XORi(ra,im,rc) Opi(0x11,ra,im,0x40,rc) # define ZAP(ra,rb,rc) Opr(0x12,ra,rb,0x30,rc) # define ZAPi(ra,im,rc) Opi(0x12,ra,im,0x30,rc) # define ZAPNOT(ra,rb,rc) Opr(0x12,ra,rb,0x31,rc) # define ZAPNOTi(ra,im,rc) Opi(0x12,ra,im,0x31,rc) # define NOP() BIS(_R31_REGNO,_R31_REGNO,_R31_REGNO) # define MOV(ra,rc) BIS(ra,ra,rc) # define MOVi(im,rc) BISi(_R31_REGNO,im,rc) # define NEGL(ra,rc) SUBL(_R31_REGNO,ra,rc) # define NEGQ(ra,rc) SUBQ(_R31_REGNO,ra,rc) # define NOT(ra,rc) ORNOT(_R31_REGNO,ra,rc) # define nop(i0) _nop(_jit,i0) static void _nop(jit_state_t*,jit_int32_t); # define movr(r0,r1) _movr(_jit,r0,r1) static void _movr(jit_state_t*,jit_int32_t,jit_int32_t); # define movi(r0,i0) _movi(_jit,r0,i0) static void _movi(jit_state_t*,jit_int32_t,jit_word_t); # define movi_p(r0,i0) _movi_p(_jit,r0,i0) static jit_word_t _movi_p(jit_state_t*,jit_int32_t,jit_word_t); # define negr(r0,r1) NEGQ(r1,r0) # define comr(r0,r1) NOT(r1,r0) # define addr(r0,r1,r2) ADDQ(r1,r2,r0) # define addi(r0,r1,i0) _addi(_jit,r0,r1,i0) static void _addi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define addcr(r0,r1,i0) _addcr(_jit,r0,r1,i0) static void _addcr(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define addci(r0,r1,i0) _addci(_jit,r0,r1,i0) static void _addci(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define addxr(r0,r1,i0) _addxr(_jit,r0,r1,i0) static void _addxr(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define addxi(r0,r1,i0) _addxi(_jit,r0,r1,i0) static void _addxi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define subr(r0,r1,r2) SUBQ(r1,r2,r0) # define subi(r0,r1,i0) _subi(_jit,r0,r1,i0) static void _subi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define subcr(r0,r1,i0) _subcr(_jit,r0,r1,i0) static void _subcr(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define subci(r0,r1,i0) _subci(_jit,r0,r1,i0) static void _subci(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define subxr(r0,r1,i0) _subxr(_jit,r0,r1,i0) static void _subxr(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define subxi(r0,r1,i0) _subxi(_jit,r0,r1,i0) static void _subxi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define rsbi(r0, r1, i0) _rsbi(_jit, r0, r1, i0) static void _rsbi(jit_state_t*,jit_int32_t,jit_int32_t, jit_word_t); # define mulr(r0,r1,r2) MULQ(r1,r2,r0) # define muli(r0,r1,i0) _muli(_jit,r0,r1,i0) static void _muli(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define qmulr(r0,r1,r2,r3) _qmulr(_jit,r0,r1,r2,r3) static void _qmulr(jit_state_t*,jit_int32_t, jit_int32_t,jit_int32_t,jit_int32_t); # define qmuli(r0,r1,r2,i0) _qmuli(_jit,r0,r1,r2,i0) static void _qmuli(jit_state_t*,jit_int32_t, jit_int32_t,jit_int32_t,jit_word_t); # define qmulr_u(r0,r1,r2,r3) _qmulr_u(_jit,r0,r1,r2,r3) static void _qmulr_u(jit_state_t*,jit_int32_t, jit_int32_t,jit_int32_t,jit_int32_t); # define qmuli_u(r0,r1,r2,i0) _qmuli_u(_jit,r0,r1,r2,i0) static void _qmuli_u(jit_state_t*,jit_int32_t, jit_int32_t,jit_int32_t,jit_word_t); static jit_word_t __idiv(jit_word_t, jit_word_t); # define divr(r0,r1,r2) _divr(_jit,r0,r1,r2) static void _divr(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define divi(r0,r1,i0) _divi(_jit,r0,r1,i0) static void _divi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); static jit_uword_t __udiv(jit_uword_t, jit_uword_t); # define divr_u(r0,r1,r2) _divr_u(_jit,r0,r1,r2) static void _divr_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define divi_u(r0,r1,i0) _divi_u(_jit,r0,r1,i0) static void _divi_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); static jit_word_t __irem(jit_word_t, jit_word_t); # define remr(r0,r1,r2) _remr(_jit,r0,r1,r2) static void _remr(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define remi(r0,r1,i0) _remi(_jit,r0,r1,i0) static void _remi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); static jit_uword_t __urem(jit_uword_t, jit_uword_t); # define remr_u(r0,r1,r2) _remr_u(_jit,r0,r1,r2) static void _remr_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define remi_u(r0,r1,i0) _remi_u(_jit,r0,r1,i0) static void _remi_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); static jit_word_t __idivrem(jit_word_t, jit_word_t, jit_word_t*); # define qdivr(r0,r1,r2,r3) _qdivr(_jit,r0,r1,r2,r3) static void _qdivr(jit_state_t*, jit_int32_t,jit_int32_t,jit_int32_t,jit_int32_t); # define qdivi(r0,r1,r2,i0) _qdivi(_jit,r0,r1,r2,i0) static void _qdivi(jit_state_t*, jit_int32_t,jit_int32_t,jit_int32_t,jit_word_t); static jit_word_t __udivrem(jit_uword_t, jit_uword_t, jit_uword_t*); # define qdivr_u(r0,r1,r2,r3) _qdivr_u(_jit,r0,r1,r2,r3) static void _qdivr_u(jit_state_t*, jit_int32_t,jit_int32_t,jit_int32_t,jit_int32_t); # define qdivi_u(r0,r1,r2,i0) _qdivi_u(_jit,r0,r1,r2,i0) static void _qdivi_u(jit_state_t*, jit_int32_t,jit_int32_t,jit_int32_t,jit_word_t); # define lshr(r0,r1,r2) SLL(r1,r2,r0) # define lshi(r0,r1,i0) _lshi(_jit,r0,r1,i0) static void _lshi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define rshr(r0,r1,r2) SRA(r1,r2,r0) # define rshi(r0,r1,i0) _rshi(_jit,r0,r1,i0) static void _rshi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define rshr_u(r0,r1,r2) SRL(r1,r2,r0) # define rshi_u(r0,r1,i0) _rshi_u(_jit,r0,r1,i0) static void _rshi_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define andr(r0,r1,r2) AND(r1,r2,r0) # define andi(r0,r1,i0) _andi(_jit,r0,r1,i0) static void _andi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define orr(r0,r1,r2) OR(r1,r2,r0) # define ori(r0,r1,i0) _ori(_jit,r0,r1,i0) static void _ori(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define xorr(r0,r1,r2) XOR(r1,r2,r0) # define xori(r0,r1,i0) _xori(_jit,r0,r1,i0) static void _xori(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ltr(r0,r1,r2) CMPLT(r1,r2,r0) # define lti(r0,r1,i0) _lti(_jit,r0,r1,i0) static void _lti(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ltr_u(r0,r1,r2) CMPULT(r1,r2,r0) # define lti_u(r0,r1,i0) _lti_u(_jit,r0,r1,i0) static void _lti_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ler(r0,r1,r2) CMPLE(r1,r2,r0) # define lei(r0,r1,i0) _lei(_jit,r0,r1,i0) static void _lei(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ler_u(r0,r1,r2) CMPULE(r1,r2,r0) # define lei_u(r0,r1,i0) _lei_u(_jit,r0,r1,i0) static void _lei_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define eqr(r0,r1,r2) CMPEQ(r1,r2,r0) # define eqi(r0,r1,i0) _eqi(_jit,r0,r1,i0) static void _eqi(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ger(r0,r1,r2) CMPLE(r2,r1,r0) # define gei(r0,r1,i0) _gei(_jit,r0,r1,i0) static void _gei(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ger_u(r0,r1,r2) CMPULE(r2,r1,r0) # define gei_u(r0,r1,i0) _gei_u(_jit,r0,r1,i0) static void _gei_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define gtr(r0,r1,r2) CMPLT(r2,r1,r0) # define gti(r0,r1,i0) _gti(_jit,r0,r1,i0) static void _gti(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define gtr_u(r0,r1,r2) CMPULT(r2,r1,r0) # define gti_u(r0,r1,i0) _gti_u(_jit,r0,r1,i0) static void _gti_u(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ner(r0,r1,r2) _ner(_jit,r0,r1,r2) static void _ner(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define nei(r0,r1,i0) _nei(_jit,r0,r1,i0) static void _nei(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define bltr(i0,r0,r1) _bltr(_jit,i0,r0,r1) static jit_word_t _bltr(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define blti(i0,r0,i1) _blti(_jit,i0,r0,i1) static jit_word_t _blti(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bltr_u(i0,r0,r1) _bltr_u(_jit,i0,r0,r1) static jit_word_t _bltr_u(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define blti_u(i0,r0,i1) _blti_u(_jit,i0,r0,i1) static jit_word_t _blti_u(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bler(i0,r0,r1) _bler(_jit,i0,r0,r1) static jit_word_t _bler(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define blei(i0,r0,i1) _blei(_jit,i0,r0,i1) static jit_word_t _blei(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bler_u(i0,r0,r1) _bler_u(_jit,i0,r0,r1) static jit_word_t _bler_u(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define blei_u(i0,r0,i1) _blei_u(_jit,i0,r0,i1) static jit_word_t _blei_u(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define beqr(i0,r0,r1) _beqr(_jit,i0,r0,r1) static jit_word_t _beqr(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define beqi(i0,r0,i1) _beqi(_jit,i0,r0,i1) static jit_word_t _beqi(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bger(i0,r0,r1) _bger(_jit,i0,r0,r1) static jit_word_t _bger(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define bgei(i0,r0,i1) _bgei(_jit,i0,r0,i1) static jit_word_t _bgei(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bger_u(i0,r0,r1) _bger_u(_jit,i0,r0,r1) static jit_word_t _bger_u(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define bgei_u(i0,r0,i1) _bgei_u(_jit,i0,r0,i1) static jit_word_t _bgei_u(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bgtr(i0,r0,r1) _bgtr(_jit,i0,r0,r1) static jit_word_t _bgtr(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define bgti(i0,r0,i1) _bgti(_jit,i0,r0,i1) static jit_word_t _bgti(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bgtr_u(i0,r0,r1) _bgtr_u(_jit,i0,r0,r1) static jit_word_t _bgtr_u(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define bgti_u(i0,r0,i1) _bgti_u(_jit,i0,r0,i1) static jit_word_t _bgti_u(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define bner(i0,r0,r1) _bner(_jit,i0,r0,r1) static jit_word_t _bner(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define bnei(i0,r0,i1) _bnei(_jit,i0,r0,i1) static jit_word_t _bnei(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t); # define baddr(i0,r0,r1,cc) _baddr(_jit,i0,r0,r1,cc) static jit_word_t _baddr(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t, jit_bool_t); # define baddi(i0,r0,i1,cc) _baddi(_jit,i0,r0,i1,cc) static jit_word_t _baddi(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t, jit_bool_t); # define baddr_u(i0,r0,r1,cc) _baddr_u(_jit,i0,r0,r1,cc) static jit_word_t _baddr_u(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t, jit_bool_t); # define baddi_u(i0,r0,i1,cc) _baddi_u(_jit,i0,r0,i1,cc) static jit_word_t _baddi_u(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t, jit_bool_t); # define boaddr(i0,r0,r1) baddr(i0,r0,r1,1) # define boaddi(i0,r0,i1) baddi(i0,r0,i1,1) # define boaddr_u(i0,r0,r1) baddr_u(i0,r0,r1,1) # define boaddi_u(i0,r0,i1) baddi_u(i0,r0,i1,1) # define bxaddr(i0,r0,r1) baddr(i0,r0,r1,0) # define bxaddi(i0,r0,i1) baddi(i0,r0,i1,0) # define bxaddr_u(i0,r0,r1) baddr_u(i0,r0,r1,0) # define bxaddi_u(i0,r0,i1) baddi_u(i0,r0,i1,0) # define bsubr(i0,r0,r1,cc) _bsubr(_jit,i0,r0,r1,cc) static jit_word_t _bsubr(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t, jit_bool_t); # define bsubi(i0,r0,i1,cc) _bsubi(_jit,i0,r0,i1,cc) static jit_word_t _bsubi(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t, jit_bool_t); # define bsubr_u(i0,r0,r1,cc) _bsubr_u(_jit,i0,r0,r1,cc) static jit_word_t _bsubr_u(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t, jit_bool_t); # define bsubi_u(i0,r0,i1,cc) _bsubi_u(_jit,i0,r0,i1,cc) static jit_word_t _bsubi_u(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t, jit_bool_t); # define bosubr(i0,r0,r1) bsubr(i0,r0,r1,1) # define bosubi(i0,r0,i1) bsubi(i0,r0,i1,1) # define bosubr_u(i0,r0,r1) bsubr_u(i0,r0,r1,1) # define bosubi_u(i0,r0,i1) bsubi_u(i0,r0,i1,1) # define bxsubr(i0,r0,r1) bsubr(i0,r0,r1,0) # define bxsubi(i0,r0,i1) bsubi(i0,r0,i1,0) # define bxsubr_u(i0,r0,r1) bsubr_u(i0,r0,r1,0) # define bxsubi_u(i0,r0,i1) bsubi_u(i0,r0,i1,0) # define bmxr(i0,r0,r1,cc) _bmxr(_jit,i0,r0,r1,cc) static jit_word_t _bmxr(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t, jit_bool_t); # define bmxi(i0,r0,i1,cc) _bmxi(_jit,i0,r0,i1,cc) static jit_word_t _bmxi(jit_state_t*,jit_word_t,jit_int32_t,jit_word_t, jit_bool_t); # define bmsr(i0,r0,r1) bmxr(i0,r0,r1,1) # define bmsi(i0,r0,i1) bmxi(i0,r0,i1,1) # define bmcr(i0,r0,r1) bmxr(i0,r0,r1,0) # define bmci(i0,r0,i1) bmxi(i0,r0,i1,0) # define ldr_c(r0,r1) _ldr_c(_jit,r0,r1) static void _ldr_c(jit_state_t*,jit_int32_t,jit_int32_t); # define ldi_c(r0,i0) _ldi_c(_jit,r0,i0) static void _ldi_c(jit_state_t*,jit_int32_t,jit_word_t); # define ldr_uc(r0,r1) LDBU(r0,r1,0) # define ldi_uc(r0,i0) _ldi_uc(_jit,r0,i0) static void _ldi_uc(jit_state_t*,jit_int32_t,jit_word_t); # define ldr_s(r0,r1) _ldr_s(_jit,r0,r1) static void _ldr_s(jit_state_t*,jit_int32_t,jit_int32_t); # define ldi_s(r0,i0) _ldi_s(_jit,r0,i0) static void _ldi_s(jit_state_t*,jit_int32_t,jit_word_t); # define ldr_us(r0,r1) LDWU(r0,r1,0) # define ldi_us(r0,i0) _ldi_us(_jit,r0,i0) static void _ldi_us(jit_state_t*,jit_int32_t,jit_word_t); # define ldr_i(r0,r1) LDL(r0,r1,0) # define ldi_i(r0,i0) _ldi_i(_jit,r0,i0) static void _ldi_i(jit_state_t*,jit_int32_t,jit_word_t); # define ldr_ui(r0,r1) _ldr_ui(_jit,r0,r1) static void _ldr_ui(jit_state_t*,jit_int32_t,jit_int32_t); # define ldi_ui(r0,i0) _ldi_ui(_jit,r0,i0) static void _ldi_ui(jit_state_t*,jit_int32_t,jit_word_t); # define ldr(r0,r1) ldr_l(r0,r1) # define ldr_l(r0,r1) LDQ(r0,r1,0) # define ldi_l(r0,i0) _ldi_l(_jit,r0,i0) static void _ldi_l(jit_state_t*,jit_int32_t,jit_word_t); # define ldxr_c(r0,r1,r2) _ldxr_c(_jit,r0,r1,r2) static void _ldxr_c(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi_c(r0,r1,i0) _ldxi_c(_jit,r0,r1,i0) static void _ldxi_c(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ldxr_uc(r0,r1,r2) _ldxr_uc(_jit,r0,r1,r2) static void _ldxr_uc(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi_uc(r0,r1,i0) _ldxi_uc(_jit,r0,r1,i0) static void _ldxi_uc(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ldxr_s(r0,r1,r2) _ldxr_s(_jit,r0,r1,r2) static void _ldxr_s(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi_s(r0,r1,i0) _ldxi_s(_jit,r0,r1,i0) static void _ldxi_s(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ldxr_us(r0,r1,r2) _ldxr_us(_jit,r0,r1,r2) static void _ldxr_us(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi_us(r0,r1,i0) _ldxi_us(_jit,r0,r1,i0) static void _ldxi_us(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ldxr_i(r0,r1,r2) _ldxr_i(_jit,r0,r1,r2) static void _ldxr_i(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi_i(r0,r1,i0) _ldxi_i(_jit,r0,r1,i0) static void _ldxi_i(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ldxr_ui(r0,r1,r2) _ldxr_ui(_jit,r0,r1,r2) static void _ldxr_ui(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi_ui(r0,r1,i0) _ldxi_ui(_jit,r0,r1,i0) static void _ldxi_ui(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define ldxr(r0,r1,r2) ldxr_l(r0,r1,r2) # define ldxr_l(r0,r1,r2) _ldxr_l(_jit,r0,r1,r2) static void _ldxr_l(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define ldxi(r0,r1,i0) ldxi_l(r0,r1,i0) # define ldxi_l(r0,r1,i0) _ldxi_l(_jit,r0,r1,i0) static void _ldxi_l(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define str_c(r0,r1) STB(r1,r0,0) # define sti_c(i0,r0) _sti_c(_jit,i0,r0) static void _sti_c(jit_state_t*,jit_word_t,jit_int32_t); # define str_s(r0,r1) STW(r1,r0,0) # define sti_s(i0,r0) _sti_s(_jit,i0,r0) static void _sti_s(jit_state_t*,jit_word_t,jit_int32_t); # define str_i(r0,r1) STL(r1,r0,0) # define sti_i(i0,r0) _sti_i(_jit,i0,r0) static void _sti_i(jit_state_t*,jit_word_t,jit_int32_t); # define str(r0,r1) str_l(r0,r1) # define str_l(r0,r1) STQ(r1,r0,0) # define sti_l(i0,r0) _sti_l(_jit,i0,r0) static void _sti_l(jit_state_t*,jit_word_t,jit_int32_t); # define stxr_c(r0,r1,r2) _stxr_c(_jit,r0,r1,r2) static void _stxr_c(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define stxi_c(i0,r0,r1) _stxi_c(_jit,i0,r0,r1) static void _stxi_c(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define stxr_s(r0,r1,r2) _stxr_s(_jit,r0,r1,r2) static void _stxr_s(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define stxi_s(i0,r0,r1) _stxi_s(_jit,i0,r0,r1) static void _stxi_s(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define stxr_i(r0,r1,r2) _stxr_i(_jit,r0,r1,r2) static void _stxr_i(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define stxi_i(i0,r0,r1) _stxi_i(_jit,i0,r0,r1) static void _stxi_i(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define stxr_l(r0,r1,r2) _stxr_l(_jit,r0,r1,r2) static void _stxr_l(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define stxi(i0,r0,r1) stxi_l(i0,r0,r1) # define stxi_l(i0,r0,r1) _stxi_l(_jit,i0,r0,r1) static void _stxi_l(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define extr_c(r0,r1) _extr_c(_jit,r0,r1) static void _extr_c(jit_state_t*,jit_int32_t,jit_int32_t); # define extr_uc(r0,r1) _extr_uc(_jit,r0,r1) static void _extr_uc(jit_state_t*,jit_int32_t,jit_int32_t); # define extr_s(r0,r1) _extr_s(_jit,r0,r1) static void _extr_s(jit_state_t*,jit_int32_t,jit_int32_t); # define extr_us(r0,r1) _extr_us(_jit,r0,r1) static void _extr_us(jit_state_t*,jit_int32_t,jit_int32_t); # define extr_i(r0,r1) _extr_i(_jit,r0,r1) static void _extr_i(jit_state_t*,jit_int32_t,jit_int32_t); # define extr_ui(r0,r1) _extr_ui(_jit,r0,r1) static void _extr_ui(jit_state_t*,jit_int32_t,jit_int32_t); # if __BYTE_ORDER == __LITTLE_ENDIAN # define htonr_us(r0,r1) _htonr_us(_jit,r0,r1) static void _htonr_us(jit_state_t*,jit_int32_t,jit_int32_t); # define htonr_ui(r0,r1) _htonr_ui(_jit,r0,r1) static void _htonr_ui(jit_state_t*,jit_int32_t,jit_int32_t); # define htonr_ul(r0,r1) _htonr_ul(_jit,r0,r1) static void _htonr_ul(jit_state_t*,jit_int32_t,jit_int32_t); # else # define htonr_us(r0,r1) extr_us(r0,r1) # define htonr_ui(r0,r1) extr_ui(r0,r1) # define htonr_ul(r0,r1) movr(r0,r1) # endif # define jmpr(r0) JMP(_R31_REGNO,r0,0) # define jmpi(i0) _jmpi(_jit,i0) static void _jmpi(jit_state_t*, jit_word_t); # define jmpi_p(i0) _jmpi_p(_jit,i0) static jit_word_t _jmpi_p(jit_state_t*, jit_word_t); #define callr(r0) _callr(_jit,r0) static void _callr(jit_state_t*, jit_int32_t); # define calli(i0) _calli(_jit,i0) static void _calli(jit_state_t*, jit_word_t); # define calli_p(i0) _calli_p(_jit,i0) static jit_word_t _calli_p(jit_state_t*, jit_word_t); # define prolog(node) _prolog(_jit,node) static void _prolog(jit_state_t*,jit_node_t*); # define epilog(node) _epilog(_jit,node) static void _epilog(jit_state_t*,jit_node_t*); # define vastart(r0) _vastart(_jit, r0) static void _vastart(jit_state_t*, jit_int32_t); # define vaarg(r0, r1) _vaarg(_jit, r0, r1) static void _vaarg(jit_state_t*, jit_int32_t, jit_int32_t); # define patch_at(jump,label) _patch_at(_jit,jump,label) static void _patch_at(jit_state_t*,jit_word_t,jit_word_t); #endif #if CODE static void _Pcd(jit_state_t *_jit, int o, unsigned int n) { assert(_u6_p(o)); assert(_u26_p(n)); ii((o<<26)|_u26(n)); } static void _Bra(jit_state_t *_jit, int o, int ra, int d) { assert(_u6_p(o)); assert(_u5_p(ra)); assert(_s21_p(d)); ii((o<<26)|(ra<<21)|_u21(d)); } static void _Mem(jit_state_t *_jit, int o, int ra, int rb, unsigned int d) { assert(_u6_p(o)); assert(_u5_p(ra)); assert(_u5_p(rb)); assert(_u16_p(d)); ii((o<<26)|(ra<<21)|(rb<<16)|_u16(d)); } static void _Mbr(jit_state_t *_jit, int o, int ra, int rb, int h, int d) { assert(_u6_p(o)); assert(_u5_p(ra)); assert(_u5_p(rb)); assert(_u2_p(h)); assert(_s14_p(d)); ii((o<<26)|(ra<<21)|(rb<<16)|(h<<14)|_u14(d)); } static void _Opr(jit_state_t *_jit, int o, int ra, int rb, unsigned int f, int rc) { assert(_u6_p(o)); assert(_u5_p(ra)); assert(_u5_p(rb)); assert(_u5_p(rc)); assert(_u11_p(f)); ii((o<<26)|(ra<<21)|(rb<<16)|(_u11(f)<<5)|rc); } static void _Opi(jit_state_t *_jit, int o, int ra, unsigned int i, unsigned int f, int rc) { assert(_u6_p(o)); assert(_u5_p(ra)); assert(_u8_p(i)); assert(_u5_p(rc)); assert(_u7_p(f)); ii((o<<26)|(ra<<21)|(_u8(i)<<13)|(1<<12)|(_u7(f)<<5)|rc); } static void _nop(jit_state_t *_jit, jit_int32_t i0) { for (; i0 > 0; i0 -= 4) NOP(); assert(i0 == 0); } static void _movr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { if (r0 != r1) MOV(r1, r0); } static void _movi(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; jit_int16_t s0, s1, s2, s3; s0 = i0; s1 = i0 >> 16; s2 = i0 >> 32; s3 = i0 >> 48; if (s0 < 0) ++s1; if (s2 < 0) ++s3; if (_u8_p(i0)) MOVi(_u8(i0), r0); else if (_s16_p(i0)) LDA(r0, _R31_REGNO, _u16(s0)); else if (_s32_p(i0)) { LDA(r0, _R31_REGNO, _u16(s0)); LDAH(r0, r0, _u16(s1)); } else if (_u32_p(i0)) { LDA(r0, _R31_REGNO, _u16(s0)); if (s1) LDAH(r0, r0, _u16(s1)); lshi(r0, r0, 32); rshi_u(r0, r0, 32); } else if (_u32(i0) == 0) { LDA(r0, _R31_REGNO, _u16(s2)); if (s3) LDAH(r0, r0, _u16(s3)); lshi(r0, r0, 32); } else { reg = jit_get_reg(jit_class_gpr); LDA(r0, _R31_REGNO, _u16(s0)); LDA(rn(reg), _R31_REGNO, _u16(s2)); if (s1) LDAH(r0, r0, _u16(s1)); if (s3) LDAH(rn(reg), rn(reg), _u16(s3)); lshi(r0, r0, 32); rshi_u(r0, r0, 32); lshi(rn(reg), rn(reg), 32); orr(r0, r0, rn(reg)); jit_unget_reg(reg); } } static jit_word_t _movi_p(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_word_t w; jit_int32_t reg; jit_int16_t s0, s1, s2, s3; w = _jit->pc.w; reg = jit_get_reg(jit_class_gpr); s0 = i0; s1 = i0 >> 16; s2 = i0 >> 32; s3 = i0 >> 48; if (s0 < 0) ++s1; if (s2 < 0) ++s3; LDA(r0, _R31_REGNO, _u16(s0)); LDA(rn(reg), _R31_REGNO, _u16(s2)); LDAH(r0, r0, _u16(s1)); LDAH(rn(reg), rn(reg), _u16(s3)); lshi(r0, r0, 32); rshi_u(r0, r0, 32); lshi(rn(reg), rn(reg), 32); orr(r0, r0, rn(reg)); jit_unget_reg(reg); return (w); } static void _addi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) ADDQi(r1, i0, r0); else if (_s16_p(i0)) LDA(r0, r1, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); addr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _addcr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; if (jit_carry == _NOREG) jit_carry = jit_get_reg(jit_class_gpr); if (r0 == r1) { reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ltr_u(rn(jit_carry), rn(reg), r1); movr(r0, rn(reg)); jit_unget_reg(reg); } else { addr(r0, r1, r2); ltr_u(rn(jit_carry), r0, r1); } } static void _addci(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (jit_carry == _NOREG) jit_carry = jit_get_reg(jit_class_gpr); if (r0 == r1) { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ltr_u(rn(jit_carry), rn(reg), r1); movr(r0, rn(reg)); jit_unget_reg(reg); } else { addi(r0, r1, i0); ltr_u(rn(jit_carry), r0, r1); } } static void _addxr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; assert(jit_carry != _NOREG); reg = jit_get_reg(jit_class_gpr); movr(rn(reg), rn(jit_carry)); addcr(r0, r1, r2); addcr(r0, r0, rn(reg)); jit_unget_reg(reg); } static void _addxi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; assert(jit_carry != _NOREG); reg = jit_get_reg(jit_class_gpr); movr(rn(reg), rn(jit_carry)); addci(r0, r1, i0); addcr(r0, r0, rn(reg)); jit_unget_reg(reg); } static void _subi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) SUBQi(r1, i0, r0); else if (_s16_p(-i0)) LDA(r0, r1, _u16(-i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); subr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _subcr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; if (jit_carry == _NOREG) jit_carry = jit_get_reg(jit_class_gpr); if (r0 == r1) { reg = jit_get_reg(jit_class_gpr); subr(rn(reg), r1, r2); ltr_u(rn(jit_carry), r1, rn(reg)); movr(r0, rn(reg)); jit_unget_reg(reg); } else { subr(r0, r1, r2); ltr_u(rn(jit_carry), r1, r0); } } static void _subci(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (jit_carry == _NOREG) jit_carry = jit_get_reg(jit_class_gpr); if (r0 == r1) { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, -i0); ltr_u(rn(jit_carry), r1, rn(reg)); movr(r0, rn(reg)); jit_unget_reg(reg); } else { addi(r0, r1, -i0); ltr_u(rn(jit_carry), r1, r0); } } static void _subxr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; assert(jit_carry != _NOREG); reg = jit_get_reg(jit_class_gpr); movr(rn(reg), rn(jit_carry)); subcr(r0, r1, r2); subcr(r0, r0, rn(reg)); jit_unget_reg(reg); } static void _subxi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; assert(jit_carry != _NOREG); reg = jit_get_reg(jit_class_gpr); movr(rn(reg), rn(jit_carry)); subci(r0, r1, i0); subcr(r0, r0, rn(reg)); jit_unget_reg(reg); } static void _rsbi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { subi(r0, r1, i0); negr(r0, r0); } static void _muli(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) MULQi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); mulr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _qmulr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_int32_t r3) { jit_int32_t reg; /* The only invalid condition is r0 == r1 */ jit_int32_t t2, t3, s2, s3; if (r2 == r0 || r2 == r1) { s2 = jit_get_reg(jit_class_gpr); t2 = rn(s2); movr(t2, r2); } else t2 = r2; if (r3 == r0 || r3 == r1) { s3 = jit_get_reg(jit_class_gpr); t3 = rn(s3); movr(t3, r3); } else t3 = r3; qmulr_u(r0, r1, r2, r3); reg = jit_get_reg(jit_class_gpr); /**/ rshi(rn(reg), t2, 63); mulr(rn(reg), rn(reg), t3); addr(r1, r1, rn(reg)); /**/ rshi(rn(reg), t3, 63); mulr(rn(reg), rn(reg), t2); addr(r1, r1, rn(reg)); jit_unget_reg(reg); if (t2 != r2) jit_unget_reg(s2); if (t3 != r3) jit_unget_reg(s3); } static void _qmuli(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_word_t i0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); qmulr(r0, r1, r2, rn(reg)); jit_unget_reg(reg); } static void _qmulr_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_int32_t r3) { jit_int32_t reg; if (r0 == r2 || r0 == r3) { reg = jit_get_reg(jit_class_gpr); mulr(rn(reg), r2, r3); } else mulr(r0, r2, r3); UMULH(r2, r3, r1); if (r0 == r2 || r0 == r3) { movr(r0, rn(reg)); jit_unget_reg(reg); } } static void _qmuli_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) { if (r0 == r2) { reg = jit_get_reg(jit_class_gpr); muli(rn(reg), r2, i0); } else muli(r0, r2, i0); UMULHi(r2, i0, r1); if (r0 == r2) { movr(r0, rn(reg)); jit_unget_reg(reg); } } else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); qmulr_u(r0, r1, r2, rn(reg)); jit_unget_reg(reg); } } static jit_word_t __idiv(jit_word_t u, jit_word_t v) { return (u / v); } static void _divr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { movr(_A0_REGNO, r1); movr(_A1_REGNO, r2); calli((jit_word_t)__idiv); movr(r0, _V0_REGNO); } static void _divi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { movr(_A0_REGNO, r1); movi(_A1_REGNO, i0); calli((jit_word_t)__idiv); movr(r0, _V0_REGNO); } static jit_uword_t __udiv(jit_uword_t u, jit_uword_t v) { return (u / v); } static void _divr_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { movr(_A0_REGNO, r1); movr(_A1_REGNO, r2); calli((jit_word_t)__udiv); movr(r0, _V0_REGNO); } static void _divi_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { movr(_A0_REGNO, r1); movi(_A1_REGNO, i0); calli((jit_word_t)__udiv); movr(r0, _V0_REGNO); } static jit_word_t __irem(jit_word_t u, jit_word_t v) { return (u % v); } static void _remr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { movr(_A0_REGNO, r1); movr(_A1_REGNO, r2); calli((jit_word_t)__irem); movr(r0, _V0_REGNO); } static void _remi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { movr(_A0_REGNO, r1); movi(_A1_REGNO, i0); calli((jit_word_t)__irem); movr(r0, _V0_REGNO); } static jit_uword_t __urem(jit_uword_t u, jit_uword_t v) { return (u % v); } static void _remr_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { movr(_A0_REGNO, r1); movr(_A1_REGNO, r2); calli((jit_word_t)__urem); movr(r0, _V0_REGNO); } static void _remi_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { movr(_A0_REGNO, r1); movi(_A1_REGNO, i0); calli((jit_word_t)__urem); movr(r0, _V0_REGNO); } static jit_word_t __idivrem(jit_word_t u, jit_word_t v, jit_word_t *rem) { *rem = u % v; return (u / v); } static void _qdivr(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_int32_t r3) { movr(_A0_REGNO, r2); movr(_A1_REGNO, r3); subi(_A2_REGNO, _FP_REGNO, 8); calli((jit_word_t)__idivrem); movr(r0, _V0_REGNO); ldxi(r1, _FP_REGNO, -8); } static void _qdivi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_word_t i0) { movr(_A0_REGNO, r2); movi(_A1_REGNO, i0); subi(_A2_REGNO, _FP_REGNO, 8); calli((jit_word_t)__idivrem); movr(r0, _V0_REGNO); ldxi(r1, _FP_REGNO, -8); } static jit_word_t __udivrem(jit_uword_t u, jit_uword_t v, jit_uword_t *rem) { *rem = u % v; return (u / v); } static void _qdivr_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_int32_t r3) { movr(_A0_REGNO, r2); movr(_A1_REGNO, r3); subi(_A2_REGNO, _FP_REGNO, 8); calli((jit_word_t)__udivrem); movr(r0, _V0_REGNO); ldxi(r1, _FP_REGNO, -8); } static void _qdivi_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2, jit_word_t i0) { movr(_A0_REGNO, r2); movi(_A1_REGNO, i0); subi(_A2_REGNO, _FP_REGNO, 8); calli((jit_word_t)__udivrem); movr(r0, _V0_REGNO); ldxi(r1, _FP_REGNO, -8); } static void _lshi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { assert(i0 >= 0 && i0 < 64); SLLi(r1, i0, r0); } static void _rshi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { assert(i0 >= 0 && i0 < 64); SRAi(r1, i0, r0); } static void _rshi_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { assert(i0 >= 0 && i0 < 64); SRLi(r1, i0, r0); } static void _andi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) ANDi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); andr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _ori(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) ORi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); orr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _xori(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) XORi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); xorr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _lti(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) CMPLTi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ltr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _lti_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) CMPULTi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ltr_u(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _lei(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) CMPLEi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ler(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _lei_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; jit_word_t ni0; ni0 = -i0; if (_u8_p(i0)) CMPULEi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ler_u(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _eqi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) CMPEQi(r1, i0, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); eqr(r0, r1, rn(reg)); jit_unget_reg(reg); } } static void _gei(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ger(r0, r1, rn(reg)); jit_unget_reg(reg); } static void _gei_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ger_u(r0, r1, rn(reg)); jit_unget_reg(reg); } static void _gti(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); gtr(r0, r1, rn(reg)); jit_unget_reg(reg); } static void _gti_u(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); gtr_u(r0, r1, rn(reg)); jit_unget_reg(reg); } static void _ner(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { CMPEQ(r1, r2, r0); CMPEQi(r0, 0, r0); } static void _nei(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_u8_p(i0)) { CMPEQi(r1, i0, r0); CMPEQi(r0, 0, r0); } else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ner(r0, r1, rn(reg)); jit_unget_reg(reg); } } static jit_word_t _bltr(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); ltr(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _blti(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BLT(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); lti(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _bltr_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); ltr_u(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _blti_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; /* FIXME cannot optimize zero because need to return a patcheable address */ reg = jit_get_reg(jit_class_gpr|jit_class_nospill); lti_u(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bler(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); ler(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _blei(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BLE(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); lei(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _bler_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); ler_u(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _blei_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BEQ(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); lei_u(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _beqr(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); eqr(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _beqi(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BEQ(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); eqi(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _bger(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); ger(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bgei(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BGE(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); gei(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _bger_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); ger_u(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bgei_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; /* always true if i1 == 0 */ if (i0 == 0) { w = _jit->pc.w; BR(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); gei_u(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _bgtr(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); gtr(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bgti(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BGT(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); gti(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _bgtr_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); gtr_u(rn(reg), r0, r1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bgti_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); gti_u(rn(reg), r0, i1); w = _jit->pc.w; BNE(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bner(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); eqr(rn(reg), r0, r1); w = _jit->pc.w; BEQ(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); return (w); } static jit_word_t _bnei(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1) { jit_word_t w; jit_int32_t reg; if (i1 == 0) { w = _jit->pc.w; BNE(r0, ((i0 - w) >> 2) - 1); } else { reg = jit_get_reg(jit_class_gpr|jit_class_nospill); eqi(rn(reg), r0, i1); w = _jit->pc.w; BEQ(rn(reg), ((i0 - w) >> 2) - 1); jit_unget_reg(reg); } return (w); } static jit_word_t _baddr(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1, jit_bool_t carry) { jit_word_t w; jit_int32_t t0; jit_int32_t t1; jit_int32_t t2; jit_int32_t t3; /* t0 = r0 + r1; overflow = r1 < 0 ? r0 < t0 : t0 < r0 */ t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr); t2 = jit_get_reg(jit_class_gpr); t3 = jit_get_reg(jit_class_gpr|jit_class_nospill); addr(rn(t0), r0, r1); /* t0 = r0 + r1 */ ltr(rn(t1), r1, _R31_REGNO); /* t1 = r1 < 0 */ ltr(rn(t2), r0, rn(t0)); /* t2 = r0 < t0 */ ltr(rn(t3), rn(t0), r0); /* t3 = t0 < r0 */ movr(r0, rn(t0)); /* r0 += r1 */ CMOVNE(rn(t1), rn(t2), rn(t3)); /* if (t1 == 0) t3 = t2; */ jit_unget_reg(t2); jit_unget_reg(t1); jit_unget_reg(t0); w = _jit->pc.w; if (carry) BNE(rn(t3), ((i0 - w) >> 2) - 1); else BEQ(rn(t3), ((i0 - w) >> 2) - 1); jit_unget_reg(t3); return (w); } static jit_word_t _baddi(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1, jit_bool_t carry) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); movi(rn(reg), i1); w = baddr(i0, r0, rn(reg), carry); jit_unget_reg(reg); return (w); } static jit_word_t _baddr_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1, jit_bool_t carry) { jit_word_t w; jit_int32_t t0; jit_int32_t t1; t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr|jit_class_nospill); addr(rn(t0), r0, r1); ltr_u(rn(t1), rn(t0), r0); movr(r0, rn(t0)); jit_unget_reg(t0); w = _jit->pc.w; if (carry) BNE(rn(t1), ((i0 - w) >> 2) - 1); else BEQ(rn(t1), ((i0 - w) >> 2) - 1); jit_unget_reg(t1); return (w); } static jit_word_t _baddi_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1, jit_bool_t carry) { jit_word_t w; jit_int32_t t0; jit_int32_t t1; t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr|jit_class_nospill); addi(rn(t0), r0, i1); ltr_u(rn(t1), rn(t0), r0); movr(r0, rn(t0)); jit_unget_reg(t0); w = _jit->pc.w; if (carry) BNE(rn(t1), ((i0 - w) >> 2) - 1); else BEQ(rn(t1), ((i0 - w) >> 2) - 1); jit_unget_reg(t1); return (w); } static jit_word_t _bsubr(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1, jit_bool_t carry) { jit_word_t w; jit_int32_t t0; jit_int32_t t1; jit_int32_t t2; jit_int32_t t3; /* t0 = r0 - r1; overflow = 0 < r1 ? r0 < t0 : t0 < r0 */ t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr); t2 = jit_get_reg(jit_class_gpr); t3 = jit_get_reg(jit_class_gpr|jit_class_nospill); subr(rn(t0), r0, r1); /* r0 = r0 - r1 */ ltr(rn(t1), _R31_REGNO, r1); /* t1 = 0 < r1 */ ltr(rn(t2), r0, rn(t0)); /* t2 = r0 < t0 */ ltr(rn(t3), rn(t0), r0); /* t3 = t0 < r0 */ movr(r0, rn(t0)); /* r0 -= r1 */ CMOVNE(rn(t1), rn(t2), rn(t3)); /* if (t1 == 0) t3 = t2; */ jit_unget_reg(t2); jit_unget_reg(t1); jit_unget_reg(t0); w = _jit->pc.w; if (carry) BNE(rn(t3), ((i0 - w) >> 2) - 1); else BEQ(rn(t3), ((i0 - w) >> 2) - 1); jit_unget_reg(t3); return (w); } static jit_word_t _bsubi(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1, jit_bool_t carry) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); movi(rn(reg), i1); w = bsubr(i0, r0, rn(reg), carry); jit_unget_reg(reg); return (w); } static jit_word_t _bsubr_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1, jit_bool_t carry) { jit_word_t w; jit_int32_t t0; jit_int32_t t1; t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr|jit_class_nospill); subr(rn(t0), r0, r1); ltr_u(rn(t1), r0, rn(t0)); movr(r0, rn(t0)); jit_unget_reg(t0); w = _jit->pc.w; if (carry) BNE(rn(t1), ((i0 - w) >> 2) - 1); else BEQ(rn(t1), ((i0 - w) >> 2) - 1); jit_unget_reg(t1); return (w); } static jit_word_t _bsubi_u(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1, jit_bool_t carry) { jit_word_t w; jit_int32_t t0; jit_int32_t t1; t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr|jit_class_nospill); subi(rn(t0), r0, i1); ltr_u(rn(t1), r0, rn(t0)); movr(r0, rn(t0)); jit_unget_reg(t0); w = _jit->pc.w; if (carry) BNE(rn(t1), ((i0 - w) >> 2) - 1); else BEQ(rn(t1), ((i0 - w) >> 2) - 1); jit_unget_reg(t1); return (w); } static jit_word_t _bmxr(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1, jit_bool_t set) { jit_word_t w; jit_int32_t t0; t0 = jit_get_reg(jit_class_gpr|jit_class_nospill); andr(rn(t0), r0, r1); w = _jit->pc.w; if (set) BNE(rn(t0), ((i0 - w) >> 2) - 1); else BEQ(rn(t0), ((i0 - w) >> 2) - 1); jit_unget_reg(t0); return (w); } static jit_word_t _bmxi(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_word_t i1, jit_bool_t set) { jit_word_t w; jit_int32_t t0; t0 = jit_get_reg(jit_class_gpr|jit_class_nospill); andi(rn(t0), r0, i1); w = _jit->pc.w; if (set) BNE(rn(t0), ((i0 - w) >> 2) - 1); else BEQ(rn(t0), ((i0 - w) >> 2) - 1); jit_unget_reg(t0); return (w); } static void _ldr_c(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { ldr_uc(r0, r1); extr_c(r0, r0); } static void _ldi_c(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) { LDBU(r0, _R31_REGNO, _u16(i0)); extr_c(r0, r0); } else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_c(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldi_uc(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDBU(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_uc(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldr_s(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { ldr_us(r0, r1); extr_s(r0, r0); } static void _ldi_s(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) { LDWU(r0, _R31_REGNO, _u16(i0)); extr_s(r0, r0); } else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_s(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldi_us(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDWU(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_us(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldi_i(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDL(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_i(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldr_ui(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { ldr_i(r0, r1); extr_ui(r0, r0); } static void _ldi_ui(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) { LDL(r0, _R31_REGNO, _u16(i0)); extr_ui(r0, r0); } else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_ui(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldi_l(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDQ(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); ldr_l(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_c(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_c(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_c(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) { LDBU(r0, r1, _u16(i0)); extr_c(r0, r0); } else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_c(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_uc(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_uc(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_uc(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDBU(r0, r1, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_uc(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_s(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_s(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_s(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) { LDWU(r0, r1, _u16(i0)); extr_s(r0, r0); } else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_s(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_us(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_us(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_us(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDWU(r0, r1, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_us(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_i(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_i(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_i(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDL(r0, r1, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_i(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_ui(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_ui(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_ui(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) { LDL(r0, r1, _u16(i0)); extr_ui(r0, r0); } else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_ui(r0, rn(reg)); jit_unget_reg(reg); } } static void _ldxr_l(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); ldr_l(r0, rn(reg)); jit_unget_reg(reg); } static void _ldxi_l(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (_s16_p(i0)) LDQ(r0, r1, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_l(r0, rn(reg)); jit_unget_reg(reg); } } static void _sti_c(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0) { jit_int32_t reg; if (_s16_p(i0)) STB(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); str_c(rn(reg), r0); jit_unget_reg(reg); } } static void _sti_s(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0) { jit_int32_t reg; if (_s16_p(i0)) STW(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); str_s(rn(reg), r0); jit_unget_reg(reg); } } static void _sti_i(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0) { jit_int32_t reg; if (_s16_p(i0)) STL(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); str_i(rn(reg), r0); jit_unget_reg(reg); } } static void _sti_l(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0) { jit_int32_t reg; if (_s16_p(i0)) STQ(r0, _R31_REGNO, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); str_l(rn(reg), r0); jit_unget_reg(reg); } } static void _stxr_c(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r0, r1); str_c(rn(reg), r2); jit_unget_reg(reg); } static void _stxi_c(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (_s16_p(i0)) STB(r1, r0, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); str_c(rn(reg), r1); jit_unget_reg(reg); } } static void _stxr_s(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r0, r1); str_s(rn(reg), r2); jit_unget_reg(reg); } static void _stxi_s(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (_s16_p(i0)) STW(r1, r0, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); str_s(rn(reg), r1); jit_unget_reg(reg); } } static void _stxr_i(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r0, r1); str_i(rn(reg), r2); jit_unget_reg(reg); } static void _stxi_i(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (_s16_p(i0)) STL(r1, r0, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); str_i(rn(reg), r1); jit_unget_reg(reg); } } static void _stxr_l(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r0, r1); str_l(rn(reg), r2); jit_unget_reg(reg); } static void _stxi_l(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (_s16_p(i0)) STQ(r1, r0, _u16(i0)); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); str_l(rn(reg), r1); jit_unget_reg(reg); } } static void _extr_c(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { lshi(r0, r1, 56); rshi(r0, r0, 56); } static void _extr_uc(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { lshi(r0, r1, 56); rshi_u(r0, r0, 56); } static void _extr_s(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { lshi(r0, r1, 48); rshi(r0, r0, 48); } static void _extr_us(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { lshi(r0, r1, 48); rshi_u(r0, r0, 48); } static void _extr_i(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { lshi(r0, r1, 32); rshi(r0, r0, 32); } static void _extr_ui(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { lshi(r0, r1, 32); rshi_u(r0, r0, 32); } static void _htonr_us(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t t0; t0 = jit_get_reg(jit_class_gpr); EXTBLi(r1, 0, rn(t0)); EXTBLi(r1, 1, r0); SLLi(rn(t0), 8, rn(t0)); OR(r0, rn(t0), r0); jit_unget_reg(t0); } static void _htonr_ui(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t t0; jit_int32_t t1; jit_int32_t t2; jit_int32_t t3; t0 = jit_get_reg(jit_class_gpr); t1 = jit_get_reg(jit_class_gpr); t2 = jit_get_reg(jit_class_gpr); t3 = jit_get_reg(jit_class_gpr); EXTBLi(r1, 3, rn(t0)); INSBLi(r1, 3, rn(t1)); SLLi(r1, 8, rn(t2)); ZAPNOTi(rn(t2), 4, rn(t2)); SRLi(r1, 8, rn(t3)); OR(rn(t0), rn(t1), r0); OR(rn(t2), r0, r0); ZAPNOTi(rn(t3), 2, rn(t3)); OR(rn(t3), r0, r0); jit_unget_reg(t3); jit_unget_reg(t2); jit_unget_reg(t1); jit_unget_reg(t0); } static void _htonr_ul(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t t0; jit_int32_t t1; jit_int32_t t2; assert(_jitc->function != NULL); t0 = jit_get_reg(jit_class_fpr); t1 = jit_get_reg(jit_class_gpr); t2 = jit_get_reg(jit_class_gpr); stxi(-8, _FP_REGNO, r1); /* r1 = ABCD EFGH */ LDG(rn(t0), _FP_REGNO, _u16(-8)); /* t0 = GHEF CDAB */ STT(rn(t0), _FP_REGNO, _u16(-8)); ldxi(rn(t1), _FP_REGNO, -8); /* t1 = GHEF CDAB */ lshi(rn(t2), rn(t1), 8); /* t2 = HEFC DAB. */ rshi_u(rn(t1), rn(t1), 8); /* t1 = .GHE FCDA */ ZAPi(rn(t2), 0x55, rn(t2)); /* t2 = H.F. D.B. */ ZAPi(rn(t1), 0xaa, rn(t1)); /* t1 = .G.E .C.A */ orr(r0, rn(t1), rn(t2)); /* r0 = HGFE DCBA */ jit_unget_reg(t2); jit_unget_reg(t1); jit_unget_reg(t0); } static void _jmpi(jit_state_t *_jit, jit_word_t i0) { jit_word_t w; jit_word_t d; w = _jit->pc.w; d = ((i0 - w) >> 2) - 1; if (_s21_p(d)) BR(_R31_REGNO, d); else (void)jmpi_p(i0); } static jit_word_t _jmpi_p(jit_state_t *_jit, jit_word_t i0) { jit_word_t w; jit_int32_t reg; reg = jit_get_reg(jit_class_gpr|jit_class_nospill); w = movi_p(rn(reg), i0); jmpr(rn(reg)); jit_unget_reg(reg); return (w); } static void _callr(jit_state_t *_jit, jit_int32_t r0) { if (r0 != _PV_REGNO) MOV(r0, _PV_REGNO); JSR(_RA_REGNO, _PV_REGNO, 0); } static void _calli(jit_state_t *_jit, jit_word_t i0) { /* FIXME use a small buffer to load constants - using gp */ #if 0 jit_word_t w; jit_word_t d; w = _jit->pc.w; d = ((i0 - w) >> 2) - 1; if (_s21_p(d)) BSR(_RA_REGNO, d); else (void)calli_p(i0); #else movi(_PV_REGNO, i0); callr(_PV_REGNO); #endif } static jit_word_t _calli_p(jit_state_t *_jit, jit_word_t i0) { jit_word_t w; w = movi_p(_PV_REGNO, i0); callr(_PV_REGNO); return (w); } static void _prolog(jit_state_t *_jit, jit_node_t *node) { jit_int32_t reg; if (_jitc->function->define_frame || _jitc->function->assume_frame) { jit_int32_t frame = -_jitc->function->frame; assert(_jitc->function->self.aoff >= frame); if (_jitc->function->assume_frame) return; _jitc->function->self.aoff = frame; } if (_jitc->function->allocar) _jitc->function->self.aoff &= -8; _jitc->function->stack = ((_jitc->function->self.alen - _jitc->function->self.aoff) + 7) & -8; /* ldgp gp, 0(pv) */ LDAH(_PV_REGNO, _GP_REGNO, 0); LDA(_GP_REGNO, _GP_REGNO, 0); /* callee save registers */ subi(_SP_REGNO, _SP_REGNO, stack_framesize); stxi(0, _SP_REGNO, _RA_REGNO); stxi(8, _SP_REGNO, _FP_REGNO); # define SPILL(N, O) \ if (jit_regset_tstbit(&_jitc->function->regset, N)) \ stxi(O, _SP_REGNO, N##_REGNO) # define SPILLD(N, O) \ if (jit_regset_tstbit(&_jitc->function->regset, N)) \ stxi_d(O, _SP_REGNO, N##_REGNO) SPILL(_S0, 16); SPILL(_S1, 24); SPILL(_S2, 32); SPILL(_S3, 40); SPILL(_S4, 48); SPILL(_S5, 56); SPILLD(_F2, 64); SPILLD(_F3, 72); SPILLD(_F4, 80); SPILLD(_F5, 88); SPILLD(_F6, 96); SPILLD(_F7, 104); SPILLD(_F8, 112); SPILLD(_F9, 120); # undef SPILLD # undef SPILL movr(_FP_REGNO, _SP_REGNO); /* alloca */ if (_jitc->function->stack) subi(_SP_REGNO, _SP_REGNO, _jitc->function->stack); if (_jitc->function->allocar) { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), _jitc->function->self.aoff); stxi_i(_jitc->function->aoffoff, _FP_REGNO, rn(reg)); jit_unget_reg(reg); } if (_jitc->function->self.call & jit_call_varargs) { for (reg = _jitc->function->self.argi; jit_arg_reg_p(reg); ++reg) stxi(stack_framesize - 48 + reg * 8, _FP_REGNO, rn(_A0 - reg)); for (reg = _jitc->function->self.argi; jit_arg_reg_p(reg); ++reg) stxi_d(stack_framesize - 96 + reg * 8, _FP_REGNO, rn(_F16 - reg)); } } static void _epilog(jit_state_t *_jit, jit_node_t *node) { if (_jitc->function->assume_frame) return; movr(_SP_REGNO, _FP_REGNO); ldxi(_RA_REGNO, _SP_REGNO, 0); ldxi(_FP_REGNO, _SP_REGNO, 8); # define LOAD(N, O) \ if (jit_regset_tstbit(&_jitc->function->regset, N)) \ ldxi(N##_REGNO, _SP_REGNO, O) # define LOADD(N, O) \ if (jit_regset_tstbit(&_jitc->function->regset, N)) \ ldxi_d(N##_REGNO, _SP_REGNO, O) LOAD(_S0, 16); LOAD(_S1, 24); LOAD(_S2, 32); LOAD(_S3, 40); LOAD(_S4, 48); LOAD(_S5, 56); LOADD(_F2, 64); LOADD(_F3, 72); LOADD(_F4, 80); LOADD(_F5, 88); LOADD(_F6, 96); LOADD(_F7, 104); LOADD(_F8, 112); LOADD(_F9, 120); # undef LOADD # undef LOAD addi(_SP_REGNO, _SP_REGNO, stack_framesize); RET(_R31_REGNO, _RA_REGNO, 1); /* 1 means procedure return * 0 means no procedure return * other values are reserved */ } static void _vastart(jit_state_t *_jit, jit_int32_t r0) { jit_int32_t reg; /* Return jit_va_list_t in the register argument */ addi(r0, _FP_REGNO, _jitc->function->vaoff); reg = jit_get_reg(jit_class_gpr); /* The base field is constant. */ addi(rn(reg), _FP_REGNO, stack_framesize - 48); stxi(offsetof(jit_va_list_t, base), r0, rn(reg)); /* Initialize the offset field */ if (_jitc->function->vagp < 6) movi(rn(reg), _jitc->function->vagp * 8); else movi(rn(reg), _jitc->function->self.size - (stack_framesize - 48)); stxi(offsetof(jit_va_list_t, offset), r0, rn(reg)); jit_unget_reg(reg); } static void _vaarg(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t rg0, rg1; assert(_jitc->function->self.call & jit_call_varargs); rg0 = jit_get_reg(jit_class_gpr); rg1 = jit_get_reg(jit_class_gpr); /* Load the base in first temporary. */ ldxi(rn(rg0), r1, offsetof(jit_va_list_t, base)); /* Load the offset in the second temporary. */ ldxi(rn(rg1), r1, offsetof(jit_va_list_t, offset)); /* Load the argument */ ldxr(r0, rn(rg0), rn(rg1)); /* No longer needed. */ jit_unget_reg(rg0); /* Update offset. */ addi(rn(rg1), rn(rg1), 8); stxi(offsetof(jit_va_list_t, offset), r1, rn(rg1)); jit_unget_reg(rg1); } static void _patch_at(jit_state_t *_jit, jit_word_t instr, jit_word_t label) { union { jit_int32_t *i; jit_word_t w; } u; jit_word_t d; jit_int16_t s0, s1, s2, s3; u.w = instr; switch (_u6(u.i[0] >> 26)) { /* BLT BLE BEQ BGE */ case 0x3a: case 0x3b: case 0x39: case 0x3e: /* BGT BNE BLBC BLBS */ case 0x3f: case 0x3d: case 0x38: case 0x3c: /* BR BSR */ case 0x30: case 0x34: /* FBLT FBLE FBEQ FBGE */ case 0x32: case 0x33: case 0x31: case 0x36: /* FBGT FBNE */ case 0x37: case 0x35: d = ((label - instr) >> 2) - 1; assert(_s21_p(d)); u.i[0] &= ~0x1fffff; u.i[0] |= _u21(d); break; /* LDA */ case 0x08: /* movi_p */ s0 = label; s1 = label >> 16; s2 = label >> 32; s3 = label >> 48; if (s0 < 0) ++s1; if (s2 < 0) ++s3; u.i[0] &= ~0xffff; u.i[0] |= _u16(s0); /* LDA */ assert(_u6(u.i[1] >> 26) == 0x08); u.i[1] &= ~0xffff; u.i[1] |= _u16(s2); /* LDAH */ assert(_u6(u.i[2] >> 26) == 0x09); u.i[2] &= ~0xffff; u.i[2] |= _u16(s1); /* LDAH */ assert(_u6(u.i[3] >> 26) == 0x09); u.i[3] &= ~0xffff; u.i[3] |= _u16(s3); /* SLL */ assert(_u6(u.i[4] >> 26) == 0x12 && _u7(u.i[4] >> 5) == 0x39); /* SRL */ assert(_u6(u.i[5] >> 26) == 0x12 && _u7(u.i[5] >> 5) == 0x34); /* SLL */ assert(_u6(u.i[6] >> 26) == 0x12 && _u7(u.i[6] >> 5) == 0x39); /* BIS */ assert(_u6(u.i[7] >> 26) == 0x11 && _u7(u.i[7] >> 5) == 0x20); break; default: abort(); } } #endif