ref: fed50d79d38881437639f3189b4a99aee93daa9a
dir: /sys/src/cmd/ql/asmout.c/
#include "l.h" #define OPVCC(o,xo,oe,rc) (((o)<<26)|((xo)<<1)|((oe)<<10)|((rc)&1)) #define OPCC(o,xo,rc) OPVCC((o),(xo),0,(rc)) #define OP(o,xo) OPVCC((o),(xo),0,0) /* the order is dest, a/s, b/imm for both arithmetic and logical operations */ #define AOP_RRR(op,d,a,b) ((op)|(((d)&31L)<<21)|(((a)&31L)<<16)|(((b)&31L)<<11)) #define AOP_IRR(op,d,a,simm) ((op)|(((d)&31L)<<21)|(((a)&31L)<<16)|((simm)&0xFFFF)) #define LOP_RRR(op,a,s,b) ((op)|(((s)&31L)<<21)|(((a)&31L)<<16)|(((b)&31L)<<11)) #define LOP_IRR(op,a,s,uimm) ((op)|(((s)&31L)<<21)|(((a)&31L)<<16)|((uimm)&0xFFFF)) #define OP_BR(op,li,aa) ((op)|((li)&0x03FFFFFC)|((aa)<<1)) #define OP_BC(op,bo,bi,bd,aa) ((op)|(((bo)&0x1F)<<21)|(((bi)&0x1F)<<16)|((bd)&0xFFFC)|((aa)<<1)) #define OP_BCR(op,bo,bi) ((op)|(((bo)&0x1F)<<21)|(((bi)&0x1F)<<16)) #define OP_RLW(op,a,s,sh,mb,me) ((op)|(((s)&31L)<<21)|(((a)&31L)<<16)|(((sh)&31L)<<11)|\ (((mb)&31L)<<6)|(((me)&31L)<<1)) #define OP_ADD OPVCC(31,266,0,0) #define OP_ADDI OPVCC(14,0,0,0) #define OP_ADDIS OPVCC(15,0,0,0) #define OP_ANDI OPVCC(28,0,0,0) #define OP_EXTSB OPVCC(31,954,0,0) #define OP_EXTSH OPVCC(31,922,0,0) #define OP_MCRF OPVCC(19,0,0,0) #define OP_MCRFS OPVCC(63,64,0,0) #define OP_MCRXR OPVCC(31,512,0,0) #define OP_MFCR OPVCC(31,19,0,0) #define OP_MFFS OPVCC(63,583,0,0) #define OP_MFMSR OPVCC(31,83,0,0) #define OP_MFSPR OPVCC(31,339,0,0) #define OP_MFSR OPVCC(31,595,0,0) #define OP_MFSRIN OPVCC(31,659,0,0) #define OP_MTCRF OPVCC(31,144,0,0) #define OP_MTFSF OPVCC(63,711,0,0) #define OP_MTFSFI OPVCC(63,134,0,0) #define OP_MTMSR OPVCC(31,146,0,0) #define OP_MTSPR OPVCC(31,467,0,0) #define OP_MTSR OPVCC(31,210,0,0) #define OP_MTSRIN OPVCC(31,242,0,0) #define OP_MULLW OPVCC(31,235,0,0) #define OP_OR OPVCC(31,444,0,0) #define OP_ORI OPVCC(24,0,0,0) #define OP_RLWINM OPVCC(21,0,0,0) #define OP_SUBF OPVCC(31,40,0,0) #define oclass(v) ((v).class-1) long oprrr(int), opirr(int), opload(int), opstore(int), oploadx(int), opstorex(int); int getmask(uchar *m, ulong v) { int i; m[0] = m[1] = 0; if(v != ~0L && v & (1<<31) && v & 1){ /* MB > ME */ if(getmask(m, ~v)){ i = m[0]; m[0] = m[1]+1; m[1] = i-1; return 1; } return 0; } for(i=0; i<32; i++) if(v & (1<<(31-i))){ m[0] = i; do { m[1] = i; } while(++i<32 && (v & (1<<(31-i))) != 0); for(; i<32; i++) if(v & (1<<(31-i))) return 0; return 1; } return 0; } void maskgen(Prog *p, uchar *m, ulong v) { if(!getmask(m, v)) diag("cannot generate mask #%lux\n%P", v, p); } static void reloc(Adr *a, long pc, int sext) { if(a->name == D_EXTERN || a->name == D_STATIC) dynreloc(a->sym, pc, 1, 1, sext); } int asmout(Prog *p, Optab *o, int aflag) { long o1, o2, o3, o4, o5, v, t; Prog *ct; int r, a; uchar mask[2]; o1 = 0; o2 = 0; o3 = 0; o4 = 0; o5 = 0; switch(o->type) { default: if(aflag) return 0; diag("unknown type %d", o->type); if(!debug['a']) prasm(p); break; case 0: /* pseudo ops */ if(aflag) { if(p->link) { if(p->as == ATEXT) { ct = curtext; o2 = autosize; curtext = p; autosize = p->to.offset + 4; o1 = asmout(p->link, oplook(p->link), aflag); curtext = ct; autosize = o2; } else o1 = asmout(p->link, oplook(p->link), aflag); } return o1; } break; case 1: /* mov r1,r2 ==> OR Rs,Rs,Ra */ if(p->to.reg == REGZERO && p->from.type == D_CONST) { v = regoff(&p->from); if(r0iszero && v != 0) { nerrors--; diag("literal operation on R0\n%P", p); } o1 = LOP_IRR(OP_ADDI, REGZERO, REGZERO, v); break; } o1 = LOP_RRR(OP_OR, p->to.reg, p->from.reg, p->from.reg); break; case 2: /* int/cr/fp op Rb,[Ra],Rd */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(p->as), p->to.reg, r, p->from.reg); break; case 3: /* mov $soreg/addcon/ucon, r ==> addis/addi $i,reg',r */ v = regoff(&p->from); r = p->from.reg; if(r == NREG) r = o->param; a = OP_ADDI; if(o->a1 == C_UCON) { a = OP_ADDIS; v >>= 16; } if(r0iszero && p->to.reg == 0 && (r != 0 || v != 0)) diag("literal operation on R0\n%P", p); o1 = AOP_IRR(a, p->to.reg, r, v); break; case 4: /* add/mul $scon,[r1],r2 */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; if(r0iszero && p->to.reg == 0) diag("literal operation on R0\n%P", p); o1 = AOP_IRR(opirr(p->as), p->to.reg, r, v); break; case 5: /* syscall */ if(aflag) return 0; o1 = oprrr(p->as); break; case 6: /* logical op Rb,[Rs,]Ra; no literal */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = LOP_RRR(oprrr(p->as), p->to.reg, r, p->from.reg); break; case 7: /* mov r, soreg ==> stw o(r) */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if(p->to.type == D_OREG && p->reg != NREG) { if(v) diag("illegal indexed instruction\n%P", p); o1 = AOP_RRR(opstorex(p->as), p->from.reg, p->reg, r); } else o1 = AOP_IRR(opstore(p->as), p->from.reg, r, v); break; case 8: /* mov soreg, r ==> lbz/lhz/lwz o(r) */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if(p->from.type == D_OREG && p->reg != NREG) { if(v) diag("illegal indexed instruction\n%P", p); o1 = AOP_RRR(oploadx(p->as), p->to.reg, p->reg, r); } else o1 = AOP_IRR(opload(p->as), p->to.reg, r, v); break; case 9: /* movb soreg, r ==> lbz o(r),r2; extsb r2,r2 */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if(p->from.type == D_OREG && p->reg != NREG) { if(v) diag("illegal indexed instruction\n%P", p); o1 = AOP_RRR(oploadx(p->as), p->to.reg, p->reg, r); } else o1 = AOP_IRR(opload(p->as), p->to.reg, r, v); o2 = LOP_RRR(OP_EXTSB, p->to.reg, p->to.reg, 0); break; case 10: /* sub Ra,[Rb],Rd => subf Rd,Ra,Rb */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(p->as), p->to.reg, p->from.reg, r); break; case 11: /* br/bl lbra */ if(aflag) return 0; v = 0; if(p->cond == UP){ if(p->to.sym->type != SUNDEF) diag("bad branch sym type"); v = (ulong)p->to.sym->value >> (Roffset-2); dynreloc(p->to.sym, p->pc, 0, 0, 0); } else if(p->cond) v = p->cond->pc - p->pc; if(v & 03) { diag("odd branch target address\n%P", p); v &= ~03; } if(v < -(1L<<25) || v >= (1L<<25)) diag("branch too far\n%P", p); o1 = OP_BR(opirr(p->as), v, 0); break; case 12: /* movb r,r (signed); extsb is on PowerPC but not POWER */ o1 = LOP_RRR(OP_EXTSB, p->to.reg, p->from.reg, 0); break; case 13: /* mov[bh]z r,r; uses rlwinm not andi. to avoid changing CC */ if(p->as == AMOVBZ) o1 = OP_RLW(OP_RLWINM, p->to.reg, p->from.reg, 0, 24, 31); else if(p->as == AMOVH) o1 = LOP_RRR(OP_EXTSH, p->to.reg, p->from.reg, 0); else if(p->as == AMOVHZ) o1 = OP_RLW(OP_RLWINM, p->to.reg, p->from.reg, 0, 16, 31); else diag("internal: bad mov[bh]z\n%P", p); break; /*14 */ case 17: /* bc bo,bi,lbra (same for now) */ case 16: /* bc bo,bi,sbra */ if(aflag) return 0; a = 0; if(p->from.type == D_CONST) a = regoff(&p->from); r = p->reg; if(r == NREG) r = 0; v = 0; if(p->cond) v = p->cond->pc - p->pc; if(v & 03) { diag("odd branch target address\n%P", p); v &= ~03; } if(v < -(1L<<16) || v >= (1L<<16)) diag("branch too far\n%P", p); o1 = OP_BC(opirr(p->as), a, r, v, 0); break; case 15: /* br/bl (r) => mov r,lr; br/bl (lr) */ if(aflag) return 0; if(p->as == ABC || p->as == ABCL) v = regoff(&p->to)&31L; else v = 20; /* unconditional */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(OP_MTSPR, p->to.reg, 0, 0) | ((D_LR&0x1f)<<16) | (((D_LR>>5)&0x1f)<<11); o2 = OPVCC(19, 16, 0, 0); if(p->as == ABL || p->as == ABCL) o2 |= 1; o2 = OP_BCR(o2, v, r); break; case 18: /* br/bl (lr/ctr); bc/bcl bo,bi,(lr/ctr) */ if(aflag) return 0; if(p->as == ABC || p->as == ABCL) v = regoff(&p->from)&31L; else v = 20; /* unconditional */ r = p->reg; if(r == NREG) r = 0; switch(oclass(p->to)) { case C_CTR: o1 = OPVCC(19, 528, 0, 0); break; case C_LR: o1 = OPVCC(19, 16, 0, 0); break; default: diag("bad optab entry (18): %d\n%P", p->to.class, p); v = 0; } if(p->as == ABL || p->as == ABCL) o1 |= 1; o1 = OP_BCR(o1, v, r); break; case 19: /* mov $lcon,r ==> cau+or */ v = regoff(&p->from); o1 = AOP_IRR(OP_ADDIS, p->to.reg, REGZERO, v>>16); o2 = LOP_IRR(OP_ORI, p->to.reg, p->to.reg, v); if(dlm) reloc(&p->from, p->pc, 0); break; case 20: /* add $ucon,,r */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; if(p->as == AADD && (!r0iszero && p->reg == 0 || r0iszero && p->to.reg == 0)) diag("literal operation on R0\n%P", p); o1 = AOP_IRR(opirr(p->as+AEND), p->to.reg, r, v>>16); break; case 22: /* add $lcon,r1,r2 ==> cau+or+add */ /* could do add/sub more efficiently */ v = regoff(&p->from); if(p->to.reg == REGTMP || p->reg == REGTMP) diag("cant synthesize large constant\n%P", p); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = LOP_IRR(OP_ORI, REGTMP, REGTMP, v); r = p->reg; if(r == NREG) r = p->to.reg; o3 = AOP_RRR(oprrr(p->as), p->to.reg, REGTMP, r); if(dlm) reloc(&p->from, p->pc, 0); break; case 23: /* and $lcon,r1,r2 ==> cau+or+and */ /* masks could be done using rlnm etc. */ v = regoff(&p->from); if(p->to.reg == REGTMP || p->reg == REGTMP) diag("cant synthesize large constant\n%P", p); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = LOP_IRR(OP_ORI, REGTMP, REGTMP, v); r = p->reg; if(r == NREG) r = p->to.reg; o3 = LOP_RRR(oprrr(p->as), p->to.reg, REGTMP, r); if(dlm) reloc(&p->from, p->pc, 0); break; /*24*/ case 26: /* mov $lsext/auto/oreg,,r2 ==> cau+add */ v = regoff(&p->from); if(v & 0x8000L) v += 0x10000L; if(p->to.reg == REGTMP) diag("can't synthesize large constant\n%P", p); r = p->from.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(OP_ADDI, p->to.reg, REGTMP, v); break; case 27: /* subc ra,$simm,rd => subfic rd,ra,$simm */ v = regoff(&p->from3); r = p->from.reg; o1 = AOP_IRR(opirr(p->as), p->to.reg, r, v); break; case 28: /* subc r1,$lcon,r2 ==> cau+or+subfc */ v = regoff(&p->from3); if(p->to.reg == REGTMP || p->from.reg == REGTMP) diag("can't synthesize large constant\n%P", p); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = LOP_IRR(OP_ORI, REGTMP, REGTMP, v); o3 = AOP_RRR(oprrr(p->as), p->to.reg, p->from.reg, REGTMP); if(dlm) reloc(&p->from3, p->pc, 0); break; /*29, 30, 31 */ case 32: /* fmul frc,fra,frd */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(p->as), p->to.reg, r, 0)|((p->from.reg&31L)<<6); break; case 33: /* fabs [frb,]frd; fmr. frb,frd */ r = p->from.reg; if(oclass(p->from) == C_NONE) r = p->to.reg; o1 = AOP_RRR(oprrr(p->as), p->to.reg, 0, r); break; case 34: /* FMADDx fra,frb,frc,frd (d=a*b+c) */ o1 = AOP_RRR(oprrr(p->as), p->to.reg, p->from.reg, p->reg)|((p->from3.reg&31L)<<6); break; case 35: /* mov r,lext/lauto/loreg ==> cau $(v>>16),sb,r'; store o(r') */ v = regoff(&p->to); if(v & 0x8000L) v += 0x10000L; r = p->to.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(opstore(p->as), p->from.reg, REGTMP, v); break; case 36: /* mov bz/h/hz lext/lauto/lreg,r ==> lbz/lha/lhz etc */ v = regoff(&p->from); if(v & 0x8000L) v += 0x10000L; r = p->from.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(opload(p->as), p->to.reg, REGTMP, v); break; case 37: /* movb lext/lauto/lreg,r ==> lbz o(reg),r; extsb r */ v = regoff(&p->from); if(v & 0x8000L) v += 0x10000L; r = p->from.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(opload(p->as), p->to.reg, REGTMP, v); o3 = LOP_RRR(OP_EXTSB, p->to.reg, p->to.reg, 0); break; case 40: /* word */ if(aflag) return 0; o1 = regoff(&p->from); break; case 41: /* stswi */ o1 = AOP_RRR(opirr(p->as), p->from.reg, p->to.reg, 0) | ((regoff(&p->from3)&0x7F)<<11); break; case 42: /* lswi */ o1 = AOP_RRR(opirr(p->as), p->to.reg, p->from.reg, 0) | ((regoff(&p->from3)&0x7F)<<11); break; case 43: /* unary indexed source: dcbf (b); dcbf (a+b) */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(oprrr(p->as), 0, r, p->from.reg); break; case 44: /* indexed store */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(opstorex(p->as), p->from.reg, r, p->to.reg); break; case 45: /* indexed load */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(oploadx(p->as), p->to.reg, r, p->from.reg); break; case 46: /* plain op */ o1 = oprrr(p->as); break; case 47: /* op Ra, Rd; also op [Ra,] Rd */ r = p->from.reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(p->as), p->to.reg, r, 0); break; case 48: /* op Rs, Ra */ r = p->from.reg; if(r == NREG) r = p->to.reg; o1 = LOP_RRR(oprrr(p->as), p->to.reg, r, 0); break; case 49: /* op Rb */ o1 = AOP_RRR(oprrr(p->as), 0, 0, p->from.reg); break; /*50*/ case 51: /* rem[u] r1[,r2],r3 */ r = p->reg; if(r == NREG) r = p->to.reg; v = oprrr(p->as); t = v & ((1<<10)|1); /* OE|Rc */ o1 = AOP_RRR(v&~t, REGTMP, r, p->from.reg); o2 = AOP_RRR(OP_MULLW, REGTMP, REGTMP, p->from.reg); o3 = AOP_RRR(OP_SUBF|t, p->to.reg, REGTMP, r); break; case 52: /* mtfsbNx cr(n) */ v = regoff(&p->from)&31L; o1 = AOP_RRR(oprrr(p->as), v, 0, 0); break; case 53: /* mffsX ,fr1 */ o1 = AOP_RRR(OP_MFFS, p->to.reg, 0, 0); break; case 54: /* mov msr,r1; mov r1, msr*/ if(oclass(p->from) == C_REG) o1 = AOP_RRR(OP_MTMSR, p->from.reg, 0, 0); else o1 = AOP_RRR(OP_MFMSR, p->to.reg, 0, 0); break; case 55: /* mov sreg,r1; mov r1,sreg */ v = 0; if(p->from.type == D_SREG) { r = p->from.reg; o1 = OP_MFSR; if(r == NREG && p->reg != NREG) { r = 0; v = p->reg; o1 = OP_MFSRIN; } o1 = AOP_RRR(o1, p->to.reg, r&15L, v); } else { r = p->to.reg; o1 = OP_MTSR; if(r == NREG && p->reg != NREG) { r = 0; v = p->reg; o1 = OP_MTSRIN; } o1 = AOP_RRR(o1, p->from.reg, r&15L, v); } if(r == NREG) diag("illegal move indirect to/from segment register\n%P", p); break; case 56: /* sra $sh,[s,]a */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(opirr(p->as), r, p->to.reg, v&31L); break; case 57: /* slw $sh,[s,]a -> rlwinm ... */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; /* * Let user (gs) shoot himself in the foot. * qc has already complained. * if(v < 0 || v > 31) diag("illegal shift %ld\n%P", v, p); */ if(v < 0) v = 0; else if(v > 32) v = 32; if(p->as == ASRW || p->as == ASRWCC) { /* shift right */ mask[0] = v; mask[1] = 31; v = 32-v; } else { mask[0] = 0; mask[1] = 31-v; } o1 = OP_RLW(OP_RLWINM, p->to.reg, r, v, mask[0], mask[1]); if(p->as == ASLWCC || p->as == ASRWCC) o1 |= 1; /* Rc */ break; case 58: /* logical $andcon,[s],a */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = LOP_IRR(opirr(p->as), p->to.reg, r, v); break; case 59: /* or/and $ucon,,r */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = LOP_IRR(opirr(p->as+AEND), p->to.reg, r, v>>16); /* oris, xoris, andis */ break; case 60: /* tw to,a,b */ r = regoff(&p->from)&31L; o1 = AOP_RRR(oprrr(p->as), r, p->reg, p->to.reg); break; case 61: /* tw to,a,$simm */ r = regoff(&p->from)&31L; v = regoff(&p->to); o1 = AOP_IRR(opirr(p->as), r, p->reg, v); break; case 62: /* rlwmi $sh,s,$mask,a */ v = regoff(&p->from); maskgen(p, mask, regoff(&p->from3)); o1 = AOP_RRR(opirr(p->as), p->reg, p->to.reg, v); o1 |= ((mask[0]&31L)<<6)|((mask[1]&31L)<<1); break; case 63: /* rlwmi b,s,$mask,a */ maskgen(p, mask, regoff(&p->from3)); o1 = AOP_RRR(opirr(p->as), p->reg, p->to.reg, p->from.reg); o1 |= ((mask[0]&31L)<<6)|((mask[1]&31L)<<1); break; case 64: /* mtfsf fr[, $m] {,fpcsr} */ if(p->from3.type != D_NONE) v = regoff(&p->from3)&255L; else v = 255; o1 = OP_MTFSF | (v<<17) | (p->from.reg<<11); break; case 65: /* MOVFL $imm,FPSCR(n) => mtfsfi crfd,imm */ if(p->to.reg == NREG) diag("must specify FPSCR(n)\n%P", p); o1 = OP_MTFSFI | ((p->to.reg&15L)<<23) | ((regoff(&p->from)&31L)<<12); break; case 66: /* mov spr,r1; mov r1,spr, also dcr */ if(p->from.type == D_REG) { r = p->from.reg; v = p->to.offset; if(p->to.type == D_DCR) { if(p->to.reg != NREG) { o1 = OPVCC(31,387,0,0); /* mtdcrx */ v = p->to.reg; }else o1 = OPVCC(31,451,0,0); /* mtdcr */ }else o1 = OPVCC(31,467,0,0); /* mtspr */ } else { r = p->to.reg; v = p->from.offset; if(p->from.type == D_DCR) { if(p->from.reg != NREG) { o1 = OPVCC(31,259,0,0); /* mfdcrx */ v = p->from.reg; }else o1 = OPVCC(31,323,0,0); /* mfdcr */ }else o1 = OPVCC(31,339,0,0); /* mfspr */ } o1 = AOP_RRR(o1, r, 0, 0) | ((v&0x1f)<<16) | (((v>>5)&0x1f)<<11); break; case 67: /* mcrf crfD,crfS */ if(p->from.type != D_CREG || p->from.reg == NREG || p->to.type != D_CREG || p->to.reg == NREG) diag("illegal CR field number\n%P", p); o1 = AOP_RRR(OP_MCRF, ((p->to.reg&7L)<<2), ((p->from.reg&7)<<2), 0); break; case 68: /* mfcr rD */ if(p->from.type == D_CREG && p->from.reg != NREG) diag("must move whole CR to register\n%P", p); o1 = AOP_RRR(OP_MFCR, p->to.reg, 0, 0); break; case 69: /* mtcrf CRM,rS */ if(p->from3.type != D_NONE) { if(p->to.reg != NREG) diag("can't use both mask and CR(n)\n%P", p); v = regoff(&p->from3) & 0xff; } else { if(p->to.reg == NREG) v = 0xff; /* CR */ else v = 1<<(7-(p->to.reg&7)); /* CR(n) */ } o1 = AOP_RRR(OP_MTCRF, p->from.reg, 0, 0) | (v<<12); break; case 70: /* [f]cmp r,r,cr*/ if(p->reg == NREG) r = 0; else r = (p->reg&7)<<2; o1 = AOP_RRR(oprrr(p->as), r, p->from.reg, p->to.reg); break; case 71: /* cmp[l] r,i,cr*/ if(p->reg == NREG) r = 0; else r = (p->reg&7)<<2; o1 = AOP_RRR(opirr(p->as), r, p->from.reg, 0) | (regoff(&p->to)&0xffff); break; case 72: /* mcrxr crfD */ if(p->to.reg == NREG) diag("must move XER to CR(n)\n%P", p); o1 = AOP_RRR(OP_MCRXR, ((p->to.reg&7L)<<2), 0, 0); break; case 73: /* mcrfs crfD,crfS */ if(p->from.type != D_FPSCR || p->from.reg == NREG || p->to.type != D_CREG || p->to.reg == NREG) diag("illegal FPSCR/CR field number\n%P", p); o1 = AOP_RRR(OP_MCRFS, ((p->to.reg&7L)<<2), ((p->from.reg&7)<<2), 0); break; /* relocation operations */ case 74: v = regoff(&p->to); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = AOP_IRR(opstore(p->as), p->from.reg, REGTMP, v); if(dlm) reloc(&p->to, p->pc, 1); break; case 75: v = regoff(&p->from); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = AOP_IRR(opload(p->as), p->to.reg, REGTMP, v); if(dlm) reloc(&p->from, p->pc, 1); break; case 76: v = regoff(&p->from); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = AOP_IRR(opload(p->as), p->to.reg, REGTMP, v); o3 = LOP_RRR(OP_EXTSB, p->to.reg, p->to.reg, 0); if(dlm) reloc(&p->from, p->pc, 1); break; } if(aflag) return o1; v = p->pc; switch(o->size) { default: if(debug['a']) Bprint(&bso, " %.8lux:\t\t%P\n", v, p); break; case 4: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux\t%P\n", v, o1, p); lput(o1); break; case 8: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux%P\n", v, o1, o2, p); lput(o1); lput(o2); break; case 12: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, p); lput(o1); lput(o2); lput(o3); break; case 16: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, o4, p); lput(o1); lput(o2); lput(o3); lput(o4); break; case 20: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, o4, o5, p); lput(o1); lput(o2); lput(o3); lput(o4); lput(o5); break; } return 0; } long oprrr(int a) { switch(a) { case AADD: return OPVCC(31,266,0,0); case AADDCC: return OPVCC(31,266,0,1); case AADDV: return OPVCC(31,266,1,0); case AADDVCC: return OPVCC(31,266,1,1); case AADDC: return OPVCC(31,10,0,0); case AADDCCC: return OPVCC(31,10,0,1); case AADDCV: return OPVCC(31,10,1,0); case AADDCVCC: return OPVCC(31,10,1,1); case AADDE: return OPVCC(31,138,0,0); case AADDECC: return OPVCC(31,138,0,1); case AADDEV: return OPVCC(31,138,1,0); case AADDEVCC: return OPVCC(31,138,1,1); case AADDME: return OPVCC(31,234,0,0); case AADDMECC: return OPVCC(31,234,0,1); case AADDMEV: return OPVCC(31,234,1,0); case AADDMEVCC: return OPVCC(31,234,1,1); case AADDZE: return OPVCC(31,202,0,0); case AADDZECC: return OPVCC(31,202,0,1); case AADDZEV: return OPVCC(31,202,1,0); case AADDZEVCC: return OPVCC(31,202,1,1); case AAND: return OPVCC(31,28,0,0); case AANDCC: return OPVCC(31,28,0,1); case AANDN: return OPVCC(31,60,0,0); case AANDNCC: return OPVCC(31,60,0,1); case ACMP: return OPVCC(31,0,0,0); case ACMPU: return OPVCC(31,32,0,0); case ACNTLZW: return OPVCC(31,26,0,0); case ACNTLZWCC: return OPVCC(31,26,0,1); case ACRAND: return OPVCC(19,257,0,0); case ACRANDN: return OPVCC(19,129,0,0); case ACREQV: return OPVCC(19,289,0,0); case ACRNAND: return OPVCC(19,225,0,0); case ACRNOR: return OPVCC(19,33,0,0); case ACROR: return OPVCC(19,449,0,0); case ACRORN: return OPVCC(19,417,0,0); case ACRXOR: return OPVCC(19,193,0,0); case ADCBF: return OPVCC(31,86,0,0); case ADCBI: return OPVCC(31,470,0,0); case ADCBST: return OPVCC(31,54,0,0); case ADCBT: return OPVCC(31,278,0,0); case ADCBTST: return OPVCC(31,246,0,0); case ADCBZ: return OPVCC(31,1014,0,0); case AREM: case ADIVW: return OPVCC(31,491,0,0); case AREMCC: case ADIVWCC: return OPVCC(31,491,0,1); case AREMV: case ADIVWV: return OPVCC(31,491,1,0); case AREMVCC: case ADIVWVCC: return OPVCC(31,491,1,1); case AREMU: case ADIVWU: return OPVCC(31,459,0,0); case AREMUCC: case ADIVWUCC: return OPVCC(31,459,0,1); case AREMUV: case ADIVWUV: return OPVCC(31,459,1,0); case AREMUVCC: case ADIVWUVCC: return OPVCC(31,459,1,1); case AEIEIO: return OPVCC(31,854,0,0); case AEQV: return OPVCC(31,284,0,0); case AEQVCC: return OPVCC(31,284,0,1); case AEXTSB: return OPVCC(31,954,0,0); case AEXTSBCC: return OPVCC(31,954,0,1); case AEXTSH: return OPVCC(31,922,0,0); case AEXTSHCC: return OPVCC(31,922,0,1); case AFABS: return OPVCC(63,264,0,0); case AFABSCC: return OPVCC(63,264,0,1); case AFADD: return OPVCC(63,21,0,0); case AFADDCC: return OPVCC(63,21,0,1); case AFADDS: return OPVCC(59,21,0,0); case AFADDSCC: return OPVCC(59,21,0,1); case AFCMPO: return OPVCC(63,32,0,0); case AFCMPU: return OPVCC(63,0,0,0); case AFCTIW: return OPVCC(63,14,0,0); case AFCTIWCC: return OPVCC(63,14,0,1); case AFCTIWZ: return OPVCC(63,15,0,0); case AFCTIWZCC: return OPVCC(63,15,0,1); case AFDIV: return OPVCC(63,18,0,0); case AFDIVCC: return OPVCC(63,18,0,1); case AFDIVS: return OPVCC(59,18,0,0); case AFDIVSCC: return OPVCC(59,18,0,1); case AFMADD: return OPVCC(63,29,0,0); case AFMADDCC: return OPVCC(63,29,0,1); case AFMADDS: return OPVCC(59,29,0,0); case AFMADDSCC: return OPVCC(59,29,0,1); case AFMOVS: case AFMOVD: return OPVCC(63,72,0,0); /* load */ case AFMOVDCC: return OPVCC(63,72,0,1); case AFMSUB: return OPVCC(63,28,0,0); case AFMSUBCC: return OPVCC(63,28,0,1); case AFMSUBS: return OPVCC(59,28,0,0); case AFMSUBSCC: return OPVCC(59,28,0,1); case AFMUL: return OPVCC(63,25,0,0); case AFMULCC: return OPVCC(63,25,0,1); case AFMULS: return OPVCC(59,25,0,0); case AFMULSCC: return OPVCC(59,25,0,1); case AFNABS: return OPVCC(63,136,0,0); case AFNABSCC: return OPVCC(63,136,0,1); case AFNEG: return OPVCC(63,40,0,0); case AFNEGCC: return OPVCC(63,40,0,1); case AFNMADD: return OPVCC(63,31,0,0); case AFNMADDCC: return OPVCC(63,31,0,1); case AFNMADDS: return OPVCC(59,31,0,0); case AFNMADDSCC: return OPVCC(59,31,0,1); case AFNMSUB: return OPVCC(63,30,0,0); case AFNMSUBCC: return OPVCC(63,30,0,1); case AFNMSUBS: return OPVCC(59,30,0,0); case AFNMSUBSCC: return OPVCC(59,30,0,1); case AFRES: return OPVCC(59,24,0,0); case AFRESCC: return OPVCC(59,24,0,1); case AFRSP: return OPVCC(63,12,0,0); case AFRSPCC: return OPVCC(63,12,0,1); case AFRSQRTE: return OPVCC(63,26,0,0); case AFRSQRTECC: return OPVCC(63,26,0,1); case AFSEL: return OPVCC(63,23,0,0); case AFSELCC: return OPVCC(63,23,0,1); case AFSQRT: return OPVCC(63,22,0,0); case AFSQRTCC: return OPVCC(63,22,0,1); case AFSQRTS: return OPVCC(59,22,0,0); case AFSQRTSCC: return OPVCC(59,22,0,1); case AFSUB: return OPVCC(63,20,0,0); case AFSUBCC: return OPVCC(63,20,0,1); case AFSUBS: return OPVCC(59,20,0,0); case AFSUBSCC: return OPVCC(59,20,0,1); /* fp2 */ case AFPMUL: return OPVCC(0,8,0,0); case AFXMUL: return OPVCC(0,9,0,0); case AFXPMUL: return OPVCC(0,10,0,0); case AFXSMUL: return OPVCC(0,11,0,0); case AFPADD: return OPVCC(0,12,0,0); case AFPSUB: return OPVCC(0,13,0,0); case AFPRE: return OPVCC(0,14,0,0); case AFPRSQRTE: return OPVCC(0,15,0,0); case AFPMADD: return OPVCC(0,16,0,0); case AFXMADD: return OPVCC(0,17,0,0); case AFXCPMADD: return OPVCC(0,18,0,0); case AFXCSMADD: return OPVCC(0,19,0,0); case AFPNMADD: return OPVCC(0,20,0,0); case AFXNMADD: return OPVCC(0,21,0,0); case AFXCPNMADD: return OPVCC(0,22,0,0); case AFXCSNMADD: return OPVCC(0,23,0,0); case AFPMSUB: return OPVCC(0,24,0,0); case AFXMSUB: return OPVCC(0,25,0,0); case AFXCPMSUB: return OPVCC(0,26,0,0); case AFXCSMSUB: return OPVCC(0,27,0,0); case AFPNMSUB: return OPVCC(0,28,0,0); case AFXNMSUB: return OPVCC(0,29,0,0); case AFXCPNMSUB: return OPVCC(0,30,0,0); case AFXCSNMSUB: return OPVCC(0,31,0,0); case AFPABS: return OPVCC(0,96,0,0); case AFPNEG: return OPVCC(0,160,0,0); case AFPRSP: return OPVCC(0,192,0,0); case AFPNABS: return OPVCC(0,224,0,0); case AFSCMP: return OPVCC(0,320,0,0)|(3<<21); case AFSABS: return OPVCC(0,352,0,0); case AFSNEG: return OPVCC(0,416,0,0); case AFSNABS: return OPVCC(0,480,0,0); case AFPCTIW: return OPVCC(0,576,0,0); case AFPCTIWZ: return OPVCC(0,704,0,0); case AFPMOVD: return OPVCC(0,32,0,0); /* fpmr */ case AFSMOVD: return OPVCC(0,288,0,0); /* fsmr */ case AFXMOVD: return OPVCC(0,544,0,0); /* fxmr */ case AFMOVSPD: return OPVCC(0,800,0,0); /* fsmtp */ case AFMOVPSD: return OPVCC(0,928,0,0); /* fsmfp */ case AFXCPNPMA: return OPVCC(4,24,0,0); case AFXCSNPMA: return OPVCC(4,25,0,0); case AFXCPNSMA: return OPVCC(4,26,0,0); case AFXCSNSMA: return OPVCC(4,27,0,0); case AFXCXNPMA: return OPVCC(4,29,0,0); case AFXCXNSMA: return OPVCC(4,30,0,0); case AFXCXMA: return OPVCC(4,28,0,0); case AFXCXNMS: return OPVCC(4,31,0,0); case AICBI: return OPVCC(31,982,0,0); case AISYNC: return OPVCC(19,150,0,0); case AMTFSB0: return OPVCC(63,70,0,0); case AMTFSB0CC: return OPVCC(63,70,0,1); case AMTFSB1: return OPVCC(63,38,0,0); case AMTFSB1CC: return OPVCC(63,38,0,1); case AMULHW: return OPVCC(31,75,0,0); case AMULHWCC: return OPVCC(31,75,0,1); case AMULHWU: return OPVCC(31,11,0,0); case AMULHWUCC: return OPVCC(31,11,0,1); case AMULLW: return OPVCC(31,235,0,0); case AMULLWCC: return OPVCC(31,235,0,1); case AMULLWV: return OPVCC(31,235,1,0); case AMULLWVCC: return OPVCC(31,235,1,1); /* the following group is only available on IBM embedded powerpc */ case AMACCHW: return OPVCC(4,172,0,0); case AMACCHWCC: return OPVCC(4,172,0,1); case AMACCHWS: return OPVCC(4,236,0,0); case AMACCHWSCC: return OPVCC(4,236,0,1); case AMACCHWSU: return OPVCC(4,204,0,0); case AMACCHWSUCC: return OPVCC(4,204,0,1); case AMACCHWSUV: return OPVCC(4,204,1,0); case AMACCHWSUVCC: return OPVCC(4,204,1,1); case AMACCHWSV: return OPVCC(4,236,1,0); case AMACCHWSVCC: return OPVCC(4,236,1,1); case AMACCHWU: return OPVCC(4,140,0,0); case AMACCHWUCC: return OPVCC(4,140,0,1); case AMACCHWUV: return OPVCC(4,140,1,0); case AMACCHWUVCC: return OPVCC(4,140,1,1); case AMACCHWV: return OPVCC(4,172,1,0); case AMACCHWVCC: return OPVCC(4,172,1,1); case AMACHHW: return OPVCC(4,44,0,0); case AMACHHWCC: return OPVCC(4,44,0,1); case AMACHHWS: return OPVCC(4,108,0,0); case AMACHHWSCC: return OPVCC(4,108,0,1); case AMACHHWSU: return OPVCC(4,76,0,0); case AMACHHWSUCC: return OPVCC(4,76,0,1); case AMACHHWSUV: return OPVCC(4,76,1,0); case AMACHHWSUVCC: return OPVCC(4,76,1,1); case AMACHHWSV: return OPVCC(4,108,1,0); case AMACHHWSVCC: return OPVCC(4,108,1,1); case AMACHHWU: return OPVCC(4,12,0,0); case AMACHHWUCC: return OPVCC(4,12,0,1); case AMACHHWUV: return OPVCC(4,12,1,0); case AMACHHWUVCC: return OPVCC(4,12,1,1); case AMACHHWV: return OPVCC(4,44,1,0); case AMACHHWVCC: return OPVCC(4,44,1,1); case AMACLHW: return OPVCC(4,428,0,0); case AMACLHWCC: return OPVCC(4,428,0,1); case AMACLHWS: return OPVCC(4,492,0,0); case AMACLHWSCC: return OPVCC(4,492,0,1); case AMACLHWSU: return OPVCC(4,460,0,0); case AMACLHWSUCC: return OPVCC(4,460,0,1); case AMACLHWSUV: return OPVCC(4,460,1,0); case AMACLHWSUVCC: return OPVCC(4,460,1,1); case AMACLHWSV: return OPVCC(4,492,1,0); case AMACLHWSVCC: return OPVCC(4,492,1,1); case AMACLHWU: return OPVCC(4,396,0,0); case AMACLHWUCC: return OPVCC(4,396,0,1); case AMACLHWUV: return OPVCC(4,396,1,0); case AMACLHWUVCC: return OPVCC(4,396,1,1); case AMACLHWV: return OPVCC(4,428,1,0); case AMACLHWVCC: return OPVCC(4,428,1,1); case AMULCHW: return OPVCC(4,168,0,0); case AMULCHWCC: return OPVCC(4,168,0,1); case AMULCHWU: return OPVCC(4,136,0,0); case AMULCHWUCC: return OPVCC(4,136,0,1); case AMULHHW: return OPVCC(4,40,0,0); case AMULHHWCC: return OPVCC(4,40,0,1); case AMULHHWU: return OPVCC(4,8,0,0); case AMULHHWUCC: return OPVCC(4,8,0,1); case AMULLHW: return OPVCC(4,424,0,0); case AMULLHWCC: return OPVCC(4,424,0,1); case AMULLHWU: return OPVCC(4,392,0,0); case AMULLHWUCC: return OPVCC(4,392,0,1); case ANMACCHW: return OPVCC(4,174,0,0); case ANMACCHWCC: return OPVCC(4,174,0,1); case ANMACCHWS: return OPVCC(4,238,0,0); case ANMACCHWSCC: return OPVCC(4,238,0,1); case ANMACCHWSV: return OPVCC(4,238,1,0); case ANMACCHWSVCC: return OPVCC(4,238,1,1); case ANMACCHWV: return OPVCC(4,174,1,0); case ANMACCHWVCC: return OPVCC(4,174,1,1); case ANMACHHW: return OPVCC(4,46,0,0); case ANMACHHWCC: return OPVCC(4,46,0,1); case ANMACHHWS: return OPVCC(4,110,0,0); case ANMACHHWSCC: return OPVCC(4,110,0,1); case ANMACHHWSV: return OPVCC(4,110,1,0); case ANMACHHWSVCC: return OPVCC(4,110,1,1); case ANMACHHWV: return OPVCC(4,46,1,0); case ANMACHHWVCC: return OPVCC(4,46,1,1); case ANMACLHW: return OPVCC(4,430,0,0); case ANMACLHWCC: return OPVCC(4,430,0,1); case ANMACLHWS: return OPVCC(4,494,0,0); case ANMACLHWSCC: return OPVCC(4,494,0,1); case ANMACLHWSV: return OPVCC(4,494,1,0); case ANMACLHWSVCC: return OPVCC(4,494,1,1); case ANMACLHWV: return OPVCC(4,430,1,0); case ANMACLHWVCC: return OPVCC(4,430,1,1); case ANAND: return OPVCC(31,476,0,0); case ANANDCC: return OPVCC(31,476,0,1); case ANEG: return OPVCC(31,104,0,0); case ANEGCC: return OPVCC(31,104,0,1); case ANEGV: return OPVCC(31,104,1,0); case ANEGVCC: return OPVCC(31,104,1,1); case ANOR: return OPVCC(31,124,0,0); case ANORCC: return OPVCC(31,124,0,1); case AOR: return OPVCC(31,444,0,0); case AORCC: return OPVCC(31,444,0,1); case AORN: return OPVCC(31,412,0,0); case AORNCC: return OPVCC(31,412,0,1); case ARFI: return OPVCC(19,50,0,0); case ARFCI: return OPVCC(19,51,0,0); case ARLWMI: return OPVCC(20,0,0,0); case ARLWMICC: return OPVCC(20,0,0,1); case ARLWNM: return OPVCC(23,0,0,0); case ARLWNMCC: return OPVCC(23,0,0,1); case ASYSCALL: return OPVCC(17,1,0,0); case ASLW: return OPVCC(31,24,0,0); case ASLWCC: return OPVCC(31,24,0,1); case ASRAW: return OPVCC(31,792,0,0); case ASRAWCC: return OPVCC(31,792,0,1); case ASRW: return OPVCC(31,536,0,0); case ASRWCC: return OPVCC(31,536,0,1); case ASUB: return OPVCC(31,40,0,0); case ASUBCC: return OPVCC(31,40,0,1); case ASUBV: return OPVCC(31,40,1,0); case ASUBVCC: return OPVCC(31,40,1,1); case ASUBC: return OPVCC(31,8,0,0); case ASUBCCC: return OPVCC(31,8,0,1); case ASUBCV: return OPVCC(31,8,1,0); case ASUBCVCC: return OPVCC(31,8,1,1); case ASUBE: return OPVCC(31,136,0,0); case ASUBECC: return OPVCC(31,136,0,1); case ASUBEV: return OPVCC(31,136,1,0); case ASUBEVCC: return OPVCC(31,136,1,1); case ASUBME: return OPVCC(31,232,0,0); case ASUBMECC: return OPVCC(31,232,0,1); case ASUBMEV: return OPVCC(31,232,1,0); case ASUBMEVCC: return OPVCC(31,232,1,1); case ASUBZE: return OPVCC(31,200,0,0); case ASUBZECC: return OPVCC(31,200,0,1); case ASUBZEV: return OPVCC(31,200,1,0); case ASUBZEVCC: return OPVCC(31,200,1,1); case ASYNC: return OPVCC(31,598,0,0); case ATLBIE: return OPVCC(31,306,0,0); case ATW: return OPVCC(31,4,0,0); case AXOR: return OPVCC(31,316,0,0); case AXORCC: return OPVCC(31,316,0,1); } diag("bad r/r opcode %A", a); return 0; } long opirr(int a) { switch(a) { case AADD: return OPVCC(14,0,0,0); case AADDC: return OPVCC(12,0,0,0); case AADDCCC: return OPVCC(13,0,0,0); case AADD+AEND: return OPVCC(15,0,0,0); /* ADDIS/CAU */ case AANDCC: return OPVCC(28,0,0,0); case AANDCC+AEND: return OPVCC(29,0,0,0); /* ANDIS./ANDIU. */ case ABR: return OPVCC(18,0,0,0); case ABL: return OPVCC(18,0,0,0) | 1; case ABC: return OPVCC(16,0,0,0); case ABCL: return OPVCC(16,0,0,0) | 1; case ABEQ: return AOP_RRR(16<<26,12,2,0); case ABGE: return AOP_RRR(16<<26,4,0,0); case ABGT: return AOP_RRR(16<<26,12,1,0); case ABLE: return AOP_RRR(16<<26,4,1,0); case ABLT: return AOP_RRR(16<<26,12,0,0); case ABNE: return AOP_RRR(16<<26,4,2,0); case ABVC: return AOP_RRR(16<<26,4,3,0); case ABVS: return AOP_RRR(16<<26,12,3,0); case ACMP: return OPVCC(11,0,0,0); case ACMPU: return OPVCC(10,0,0,0); case ALSW: return OPVCC(31,597,0,0); case AMULLW: return OPVCC(7,0,0,0); case AOR: return OPVCC(24,0,0,0); case AOR+AEND: return OPVCC(25,0,0,0); /* ORIS/ORIU */ case ARLWMI: return OPVCC(20,0,0,0); /* rlwimi */ case ARLWMICC: return OPVCC(20,0,0,1); case ARLWNM: return OPVCC(21,0,0,0); /* rlwinm */ case ARLWNMCC: return OPVCC(21,0,0,1); case ASRAW: return OPVCC(31,824,0,0); case ASRAWCC: return OPVCC(31,824,0,1); case ASTSW: return OPVCC(31,725,0,0); case ASUBC: return OPVCC(8,0,0,0); case ATW: return OPVCC(3,0,0,0); case AXOR: return OPVCC(26,0,0,0); /* XORIL */ case AXOR+AEND: return OPVCC(27,0,0,0); /* XORIU */ } diag("bad opcode i/r %A", a); return 0; } /* * load o(a),d */ long opload(int a) { switch(a) { case AMOVW: return OPVCC(32,0,0,0); /* lwz */ case AMOVWU: return OPVCC(33,0,0,0); /* lwzu */ case AMOVB: case AMOVBZ: return OPVCC(34,0,0,0); /* load */ case AMOVBU: case AMOVBZU: return OPVCC(35,0,0,0); case AFMOVD: return OPVCC(50,0,0,0); case AFMOVDU: return OPVCC(51,0,0,0); case AFMOVS: return OPVCC(48,0,0,0); case AFMOVSU: return OPVCC(49,0,0,0); case AMOVH: return OPVCC(42,0,0,0); case AMOVHU: return OPVCC(43,0,0,0); case AMOVHZ: return OPVCC(40,0,0,0); case AMOVHZU: return OPVCC(41,0,0,0); case AMOVMW: return OPVCC(46,0,0,0); /* lmw */ } diag("bad load opcode %A", a); return 0; } /* * indexed load a(b),d */ long oploadx(int a) { switch(a) { case AMOVW: return OPVCC(31,23,0,0); /* lwzx */ case AMOVWU: return OPVCC(31,55,0,0); /* lwzux */ case AMOVB: case AMOVBZ: return OPVCC(31,87,0,0); /* lbzx */ case AMOVBU: case AMOVBZU: return OPVCC(31,119,0,0); /* lbzux */ case AFMOVD: return OPVCC(31,599,0,0); /* lfdx */ case AFMOVDU: return OPVCC(31,631,0,0); /* lfdux */ case AFMOVS: return OPVCC(31,535,0,0); /* lfsx */ case AFMOVSU: return OPVCC(31,567,0,0); /* lfsux */ case AMOVH: return OPVCC(31,343,0,0); /* lhax */ case AMOVHU: return OPVCC(31,375,0,0); /* lhaux */ case AMOVHBR: return OPVCC(31,790,0,0); /* lhbrx */ case AMOVWBR: return OPVCC(31,534,0,0); /* lwbrx */ case AMOVHZ: return OPVCC(31,279,0,0); /* lhzx */ case AMOVHZU: return OPVCC(31,311,0,0); /* lhzux */ case AECIWX: return OPVCC(31,310,0,0); /* eciwx */ case ALWAR: return OPVCC(31,20,0,0); /* lwarx */ case ALSW: return OPVCC(31,533,0,0); /* lswx */ case AFSMOVS: return OPVCC(31,142,0,0); /* lfssx */ case AFSMOVSU: return OPVCC(31,174,0,0); /* lfssux */ case AFSMOVD: return OPVCC(31,206,0,0); /* lfsdx */ case AFSMOVDU: return OPVCC(31,238,0,0); /* lfsdux */ case AFXMOVS: return OPVCC(31,270,0,0); /* lfxsx */ case AFXMOVSU: return OPVCC(31,302,0,0); /* lfxsux */ case AFXMOVD: return OPVCC(31,334,0,0); /* lfxdx */ case AFXMOVDU: return OPVCC(31,366,0,0); /* lfxdux */ case AFPMOVS: return OPVCC(31,398,0,0); /* lfpsx */ case AFPMOVSU: return OPVCC(31,430,0,0); /* lfpsux */ case AFPMOVD: return OPVCC(31,462,0,0); /* lfpdx */ case AFPMOVDU: return OPVCC(31,494,0,0); /* lfpdux */ } diag("bad loadx opcode %A", a); return 0; } /* * store s,o(d) */ long opstore(int a) { switch(a) { case AMOVB: case AMOVBZ: return OPVCC(38,0,0,0); /* stb */ case AMOVBU: case AMOVBZU: return OPVCC(39,0,0,0); /* stbu */ case AFMOVD: return OPVCC(54,0,0,0); /* stfd */ case AFMOVDU: return OPVCC(55,0,0,0); /* stfdu */ case AFMOVS: return OPVCC(52,0,0,0); /* stfs */ case AFMOVSU: return OPVCC(53,0,0,0); /* stfsu */ case AMOVHZ: case AMOVH: return OPVCC(44,0,0,0); /* sth */ case AMOVHZU: case AMOVHU: return OPVCC(45,0,0,0); /* sthu */ case AMOVMW: return OPVCC(47,0,0,0); /* stmw */ case ASTSW: return OPVCC(31,725,0,0); /* stswi */ case AMOVW: return OPVCC(36,0,0,0); /* stw */ case AMOVWU: return OPVCC(37,0,0,0); /* stwu */ } diag("unknown store opcode %A", a); return 0; } /* * indexed store s,a(b) */ long opstorex(int a) { switch(a) { case AMOVB: case AMOVBZ: return OPVCC(31,215,0,0); /* stbx */ case AMOVBU: case AMOVBZU: return OPVCC(31,247,0,0); /* stbux */ case AFMOVD: return OPVCC(31,727,0,0); /* stfdx */ case AFMOVDU: return OPVCC(31,759,0,0); /* stfdux */ case AFMOVS: return OPVCC(31,663,0,0); /* stfsx */ case AFMOVSU: return OPVCC(31,695,0,0); /* stfsux */ case AMOVHZ: case AMOVH: return OPVCC(31,407,0,0); /* sthx */ case AMOVHBR: return OPVCC(31,918,0,0); /* sthbrx */ case AMOVHZU: case AMOVHU: return OPVCC(31,439,0,0); /* sthux */ case AMOVW: return OPVCC(31,151,0,0); /* stwx */ case AMOVWU: return OPVCC(31,183,0,0); /* stwux */ case ASTSW: return OPVCC(31,661,0,0); /* stswx */ case AMOVWBR: return OPVCC(31,662,0,0); /* stwbrx */ case ASTWCCC: return OPVCC(31,150,0,1); /* stwcx. */ case AECOWX: return OPVCC(31,438,0,0); /* ecowx */ case AFSMOVS: return OPVCC(31,654,0,0); /* stfssx */ /* case AFSMOVSU: return OPVCC(31,yy,0,0); */ /* stfssux not known */ /* case AFSMOVD: return OPVCC(31,yy,0,0); */ /* stfsdx not known */ case AFSMOVDU: return OPVCC(31,750,0,0); /* stfsdux */ case AFXMOVS: return OPVCC(31,782,0,0); /* stfxsx */ case AFXMOVSU: return OPVCC(31,814,0,0); /* stfxsux */ case AFXMOVD: return OPVCC(31,846,0,0); /* stfxdx */ case AFXMOVDU: return OPVCC(31,878,0,0); /* stfxdux */ case AFPMOVS: return OPVCC(31,910,0,0); /* stfpsx */ case AFPMOVSU: return OPVCC(31,942,0,0); /* stfpsux */ case AFPMOVD: return OPVCC(31,974,0,0); /* stfpdx */ case AFPMOVDU: return OPVCC(31,1006,0,0); /* stfpdux */ case AFPMOVIW: return OPVCC(31,526,0,0); /* stfpiwx */ } diag("unknown storex opcode %A", a); return 0; }