ref: 6042bb8adffe111049edfcb8b2eb1ad84814ed69
dir: /utils/kl/asm.c/
#include "l.h" #define LPUT(c)\ {\ cbp[0] = (c)>>24;\ cbp[1] = (c)>>16;\ cbp[2] = (c)>>8;\ cbp[3] = (c);\ cbp += 4;\ cbc -= 4;\ if(cbc <= 0)\ cflush();\ } #define CPUT(c)\ {\ cbp[0] = (c);\ cbp++;\ cbc--;\ if(cbc <= 0)\ cflush();\ } long entryvalue(void) { char *a; Sym *s; a = INITENTRY; if(*a >= '0' && *a <= '9') return atolwhex(a); s = lookup(a, 0); if(s->type == 0) return INITTEXT; if(s->type != STEXT && s->type != SLEAF) diag("entry not text: %s", s->name); return s->value; } void asmb(void) { Prog *p; long t; Optab *o; if(debug['v']) Bprint(&bso, "%5.2f asm\n", cputime()); Bflush(&bso); seek(cout, HEADR, 0); pc = INITTEXT; for(p = firstp; p != P; p = p->link) { if(p->as == ATEXT) { curtext = p; autosize = p->to.offset + 4; } if(p->pc != pc) { diag("phase error %lux sb %lux", p->pc, pc); if(!debug['a']) prasm(curp); pc = p->pc; } curp = p; o = oplook(p); /* could probably avoid this call */ if(asmout(p, o, 0)) { p = p->link; pc += 4; } pc += o->size; } if(debug['a']) Bprint(&bso, "\n"); Bflush(&bso); cflush(); curtext = P; switch(HEADTYPE) { case 0: case 3: seek(cout, HEADR+textsize, 0); break; case 1: case 2: seek(cout, HEADR+textsize, 0); break; } for(t = 0; t < datsize; t += sizeof(buf)-100) { if(datsize-t > sizeof(buf)-100) datblk(t, sizeof(buf)-100); else datblk(t, datsize-t); } symsize = 0; lcsize = 0; if(!debug['s']) { if(debug['v']) Bprint(&bso, "%5.2f sym\n", cputime()); Bflush(&bso); switch(HEADTYPE) { case 0: case 3: seek(cout, HEADR+textsize+datsize, 0); break; case 2: case 1: seek(cout, HEADR+textsize+datsize, 0); break; } if(!debug['s']) asmsym(); if(debug['v']) Bprint(&bso, "%5.2f sp\n", cputime()); Bflush(&bso); if(!debug['s']) asmlc(); /* round up file length for boot image */ if(HEADTYPE == 0 || HEADTYPE == 3) if((symsize+lcsize) & 1) CPUT(0); cflush(); } seek(cout, 0L, 0); switch(HEADTYPE) { case 0: lput(0x1030107); /* magic and sections */ lput(textsize); /* sizes */ lput(datsize); lput(bsssize); lput(symsize); /* nsyms */ lput(entryvalue()); /* va of entry */ lput(0L); lput(lcsize); break; case 1: break; case 2: lput(4*13*13+7); /* magic */ lput(textsize); /* sizes */ lput(datsize); lput(bsssize); lput(symsize); /* nsyms */ lput(entryvalue()); /* va of entry */ lput(0L); lput(lcsize); break; case 3: lput(0x1030107); /* magic and sections */ lput(0x90100000); #define SPARC_NOOP 0x01000000 lput(SPARC_NOOP); lput(SPARC_NOOP); lput(SPARC_NOOP); lput(SPARC_NOOP); lput(SPARC_NOOP); lput(SPARC_NOOP); break; } cflush(); } void lput(long l) { LPUT(l); } void cflush(void) { int n; n = sizeof(buf.cbuf) - cbc; if(n) write(cout, buf.cbuf, n); cbp = buf.cbuf; cbc = sizeof(buf.cbuf); } void asmsym(void) { Prog *p; Auto *a; Sym *s; int h; s = lookup("etext", 0); if(s->type == STEXT) putsymb(s->name, 'T', s->value, s->version); for(h=0; h<NHASH; h++) for(s=hash[h]; s!=S; s=s->link) switch(s->type) { case SCONST: putsymb(s->name, 'D', s->value, s->version); continue; case SDATA: putsymb(s->name, 'D', s->value+INITDAT, s->version); continue; case SBSS: putsymb(s->name, 'B', s->value+INITDAT, s->version); continue; case SFILE: putsymb(s->name, 'f', s->value, s->version); continue; } for(p=textp; p!=P; p=p->cond) { s = p->from.sym; if(s->type != STEXT && s->type != SLEAF) continue; /* filenames first */ for(a=p->to.autom; a; a=a->link) if(a->type == D_FILE) putsymb(a->asym->name, 'z', a->aoffset, 0); else if(a->type == D_FILE1) putsymb(a->asym->name, 'Z', a->aoffset, 0); if(s->type == STEXT) putsymb(s->name, 'T', s->value, s->version); else putsymb(s->name, 'L', s->value, s->version); /* frame, auto and param after */ putsymb(".frame", 'm', p->to.offset+4, 0); for(a=p->to.autom; a; a=a->link) if(a->type == D_AUTO) putsymb(a->asym->name, 'a', -a->aoffset, 0); else if(a->type == D_PARAM) putsymb(a->asym->name, 'p', a->aoffset, 0); } if(debug['v'] || debug['n']) Bprint(&bso, "symsize = %lud\n", symsize); Bflush(&bso); } void putsymb(char *s, int t, long v, int ver) { int i, f; if(t == 'f') s++; LPUT(v); if(ver) t += 'a' - 'A'; CPUT(t+0x80); /* 0x80 is variable length */ if(t == 'Z' || t == 'z') { CPUT(s[0]); for(i=1; s[i] != 0 || s[i+1] != 0; i += 2) { CPUT(s[i]); CPUT(s[i+1]); } CPUT(0); CPUT(0); i++; } else { for(i=0; s[i]; i++) CPUT(s[i]); CPUT(0); } symsize += 4 + 1 + i + 1; if(debug['n']) { if(t == 'z' || t == 'Z') { Bprint(&bso, "%c %.8lux ", t, v); for(i=1; s[i] != 0 || s[i+1] != 0; i+=2) { f = ((s[i]&0xff) << 8) | (s[i+1]&0xff); Bprint(&bso, "/%x", f); } Bprint(&bso, "\n"); return; } if(ver) Bprint(&bso, "%c %.8lux %s<%d>\n", t, v, s, ver); else Bprint(&bso, "%c %.8lux %s\n", t, v, s); } } #define MINLC 4 void asmlc(void) { long oldpc, oldlc; Prog *p; long v, s; oldpc = INITTEXT; oldlc = 0; for(p = firstp; p != P; p = p->link) { if(p->line == oldlc || p->as == ATEXT || p->as == ANOP) { if(p->as == ATEXT) curtext = p; if(debug['L']) Bprint(&bso, "%6lux %P\n", p->pc, p); continue; } if(debug['L']) Bprint(&bso, "\t\t%6ld", lcsize); v = (p->pc - oldpc) / MINLC; while(v) { s = 127; if(v < 127) s = v; CPUT(s+128); /* 129-255 +pc */ if(debug['L']) Bprint(&bso, " pc+%ld*%d(%ld)", s, MINLC, s+128); v -= s; lcsize++; } s = p->line - oldlc; oldlc = p->line; oldpc = p->pc + MINLC; if(s > 64 || s < -64) { CPUT(0); /* 0 vv +lc */ CPUT(s>>24); CPUT(s>>16); CPUT(s>>8); CPUT(s); if(debug['L']) { if(s > 0) Bprint(&bso, " lc+%ld(%d,%ld)\n", s, 0, s); else Bprint(&bso, " lc%ld(%d,%ld)\n", s, 0, s); Bprint(&bso, "%6lux %P\n", p->pc, p); } lcsize += 5; continue; } if(s > 0) { CPUT(0+s); /* 1-64 +lc */ if(debug['L']) { Bprint(&bso, " lc+%ld(%ld)\n", s, 0+s); Bprint(&bso, "%6lux %P\n", p->pc, p); } } else { CPUT(64-s); /* 65-128 -lc */ if(debug['L']) { Bprint(&bso, " lc%ld(%ld)\n", s, 64-s); Bprint(&bso, "%6lux %P\n", p->pc, p); } } lcsize++; } while(lcsize & 1) { s = 129; CPUT(s); lcsize++; } if(debug['v'] || debug['L']) Bprint(&bso, "lcsize = %ld\n", lcsize); Bflush(&bso); } void datblk(long s, long n) { Prog *p; char *cast; long l, fl, j, d; int i, c; memset(buf.dbuf, 0, n+100); for(p = datap; p != P; p = p->link) { curp = p; l = p->from.sym->value + p->from.offset - s; c = p->reg; i = 0; if(l < 0) { if(l+c <= 0) continue; while(l < 0) { l++; i++; } } if(l >= n) continue; if(p->as != AINIT && p->as != ADYNT) { for(j=l+(c-i)-1; j>=l; j--) if(buf.dbuf[j]) { print("%P\n", p); diag("multiple initialization"); break; } } switch(p->to.type) { default: diag("unknown mode in initialization\n%P", p); break; case D_FCONST: switch(c) { default: case 4: fl = ieeedtof(&p->to.ieee); cast = (char*)&fl; for(; i<c; i++) { buf.dbuf[l] = cast[fnuxi8[i+4]]; l++; } break; case 8: cast = (char*)&p->to.ieee; for(; i<c; i++) { buf.dbuf[l] = cast[fnuxi8[i]]; l++; } break; } break; case D_SCONST: for(; i<c; i++) { buf.dbuf[l] = p->to.sval[i]; l++; } break; case D_CONST: d = p->to.offset; if(p->to.sym) { if(p->to.sym->type == STEXT || p->to.sym->type == SLEAF) d += p->to.sym->value; if(p->to.sym->type == SDATA) d += p->to.sym->value + INITDAT; if(p->to.sym->type == SBSS) d += p->to.sym->value + INITDAT; } cast = (char*)&d; switch(c) { default: diag("bad nuxi %d %d\n%P", c, i, curp); break; case 1: for(; i<c; i++) { buf.dbuf[l] = cast[inuxi1[i]]; l++; } break; case 2: for(; i<c; i++) { buf.dbuf[l] = cast[inuxi2[i]]; l++; } break; case 4: for(; i<c; i++) { buf.dbuf[l] = cast[inuxi4[i]]; l++; } break; } break; } } write(cout, buf.dbuf, n); } #define OP2(x) (0x80000000|((x)<<19)) #define OP3(x) (0xc0000000|((x)<<19)) #define OPB(x) (0x00800000|((x)<<25)) #define OPT(x) (0x81d02000|((x)<<25)) #define OPF1(x) (0x81a00000|((x)<<5)) #define OPF2(x) (0x81a80000|((x)<<5)) #define OPFB(x) (0x01800000|((x)<<25)) #define OP_RRR(op,r1,r2,r3)\ (0x00000000 | op |\ (((r1)&31L)<<0) |\ (((r2)&31L)<<14) |\ (((r3)&31L)<<25)) #define OP_IRR(op,i,r2,r3)\ (0x00002000L | (op) |\ (((i)&0x1fffL)<<0) |\ (((r2)&31L)<<14) |\ (((r3)&31L)<<25)) #define OP_BRA(op,pc)\ ((op) |\ (((pc)&0x3fffff)<<0)) int asmout(Prog *p, Optab *o, int aflag) { long o1, o2, o3, o4, o5, v; Prog *ct; int r; 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 r1,r0,r2 */ o1 = OP_RRR(opcode(AOR), p->from.reg, REGZERO, p->to.reg); break; case 2: /* mov $c,r ==> add r1,r0,r2 */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = OP_IRR(opcode(AADD), v, r, p->to.reg); break; case 3: /* mov soreg, r */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if(v == 0 && p->reg != NREG) o1 = OP_RRR(opcode(p->as), p->reg, r, p->to.reg); else o1 = OP_IRR(opcode(p->as), v, r, p->to.reg); break; case 4: /* mov r, soreg */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if(v == 0 && p->reg != NREG) o1 = OP_RRR(opcode(p->as+AEND), p->reg, r, p->from.reg); else o1 = OP_IRR(opcode(p->as+AEND), v, r, p->from.reg); break; case 5: /* mov $lcon, reg => sethi, add */ v = regoff(&p->from); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_IRR(opcode(AADD), (v&0x3ff), REGTMP, p->to.reg); break; case 6: /* mov asi, r[+r] */ o1 = OP_RRR(opcode(p->as), p->reg, p->from.reg, p->to.reg); o1 |= (1<<23) | ((p->from.offset&0xff)<<5); break; case 7: /* mov [+r]r, asi */ o1 = OP_RRR(opcode(p->as+AEND), p->reg, p->to.reg, p->from.reg); o1 |= (1<<23) | ((p->to.offset&0xff)<<5); break; case 8: /* mov r, preg and mov preg, r */ if(p->to.type == D_PREG) { r = p->from.reg; switch(p->to.reg) { default: diag("unknown register P%d", p->to.reg); case D_Y: o1 = OP2(48); /* wry */ break; case D_PSR: o1 = OP2(49); /* wrpsr */ break; case D_WIM: o1 = OP2(50); /* wrwim */ break; case D_TBR: o1 = OP2(51); /* wrtbr */ break; } o1 = OP_IRR(o1, 0, r, 0); break; } if(p->from.type == D_PREG) { r = p->to.reg; switch(p->from.reg) { default: diag("unknown register P%d", p->to.reg); case D_Y: o1 = OP2(40); /* rdy */ break; case D_PSR: o1 = OP2(41); /* rdpsr */ break; case D_WIM: o1 = OP2(42); /* rdwim */ break; case D_TBR: o1 = OP2(43); /* rdtbr */ break; } o1 = OP_RRR(o1, 0, 0, r); break; } break; case 9: /* movb r,r */ v = 24; if(p->as == AMOVH || p->as == AMOVHU) v = 16; r = ASRA; if(p->as == AMOVBU || p->as == AMOVHU) r = ASRL; o1 = OP_IRR(opcode(ASLL), v, p->from.reg, p->to.reg); o2 = OP_IRR(opcode(r), v, p->to.reg, p->to.reg); break; case 10: /* mov $loreg, reg */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(opcode(AADD), (v&0x3ff), REGTMP, p->to.reg); break; case 11: /* mov loreg, r */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(opcode(p->as), (v&0x3ff), REGTMP, p->to.reg); break; case 12: /* mov r, loreg */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(opcode(p->as+AEND), (v&0x3ff), REGTMP, p->from.reg); break; case 13: /* mov $ucon, r */ v = regoff(&p->from); o1 = 0x1000000 | (p->to.reg<<25) | ((v>>10) & 0x3fffff); /* sethi */ break; case 20: /* op $scon,r */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_IRR(opcode(p->as), v, r, p->to.reg); break; case 21: /* op r1,r2 */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_RRR(opcode(p->as), p->from.reg, r, p->to.reg); break; case 22: /* op $lcon,r */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_IRR(opcode(AADD), (v&0x3ff), REGTMP, REGTMP); o3 = OP_RRR(opcode(p->as), REGTMP, r, p->to.reg); break; case 23: /* cmp r,r */ o1 = OP_RRR(opcode(ASUBCC), p->to.reg, p->from.reg, REGZERO); break; case 24: /* cmp r,$c */ v = regoff(&p->to); o1 = OP_IRR(opcode(ASUBCC), v, p->from.reg, REGZERO); break; case 25: /* cmp $c,r BOTCH, fix compiler */ v = regoff(&p->from); o1 = OP_IRR(opcode(AADD), v, NREG, REGTMP); o2 = OP_RRR(opcode(ASUBCC), p->to.reg, REGTMP, REGZERO); break; case 26: /* op $ucon,r */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(p->as), REGTMP, r, p->to.reg); break; case 30: /* jmp/jmpl soreg */ if(aflag) return 0; v = regoff(&p->to); r = p->reg; if(r == NREG && p->as == AJMPL) r = 15; o1 = OP_IRR(opcode(AJMPL), v, p->to.reg, r); break; case 31: /* ba jmp */ if(aflag) return 0; r = p->as; if(r == AJMP) r = ABA; v = 0; if(p->cond) v = p->cond->pc - p->pc; o1 = OP_BRA(opcode(r), v/4); if(r == ABA && p->link && p->cond && isnop(p->link)) { o2 = asmout(p->cond, oplook(p->cond), 1); if(o2) { o1 += 1; if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux%P\n", p->pc, o1, o2, p); LPUT(o1); LPUT(o2); return 1; } /* cant set annul here because pc has already been counted */ } break; case 32: /* jmpl lbra */ if(aflag) return 0; v = 0; if(p->cond) v = p->cond->pc - p->pc; r = p->reg; if(r != NREG && r != 15) diag("cant jmpl other than R15"); o1 = 0x40000000 | ((v/4) & 0x3fffffffL); /* call */ if(p->link && p->cond && isnop(p->link)) { o2 = asmout(p->cond, oplook(p->cond), 1); if(o2) { o1 += 1; if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux%P\n", p->pc, o1, o2, p); LPUT(o1); LPUT(o2); return 1; } } break; case 33: /* trap r */ if(aflag) return 0; o1 = opcode(p->as) | (p->from.reg<<14); break; case 34: /* rett r1,r2 -> jmpl (r1); rett (r2) */ if(aflag) return 0; o1 = OP_IRR(opcode(AJMPL), 0, p->from.reg, REGZERO); o2 = OP_IRR(opcode(ARETT), 0, p->to.reg, REGZERO); break; case 40: /* ldfsr, stfsr, stdq */ if(p->to.type == D_PREG) { r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if(p->to.reg == D_FSR) { o1 = OP_IRR(OP3(33), v, r, 0); break; } diag("unknown reg load %d", p->to.reg); } else { r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if(p->from.reg == D_FSR) { o1 = OP_IRR(OP3(37), v, r, 0); break; } if(p->as == AMOVD && p->from.reg == D_FPQ) { o1 = OP_IRR(OP3(38), v, r, 0); break; } diag("unknown reg store %d", p->from.reg); } break; case 41: /* ldf,ldd */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if(p->as == AFMOVF || p->as == AMOVW) { o1 = OP_IRR(OP3(32), v, r, p->to.reg); break; } if(p->as == AMOVD || p->as == AFMOVD) { o1 = OP_IRR(OP3(35), v, r, p->to.reg); break; } diag("only MOVD and MOVW to FREG"); break; case 42: /* ldd -> ldf,ldf */ /* note should be ldd with proper allignment */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = OP_IRR(OP3(32), v, r, p->to.reg); o2 = OP_IRR(OP3(32), v+4, r, p->to.reg+1); break; case 43: /* stf */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if(p->as == AFMOVF || p->as == AMOVW) { o1 = OP_IRR(OP3(36), v, r, p->from.reg); break; } if(p->as == AMOVD || p->as == AFMOVD) { o1 = OP_IRR(OP3(39), v, r, p->from.reg); break; } diag("only MOVD and MOVW from FREG"); break; case 44: /* std -> stf,stf */ /* note should be std with proper allignment */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); o1 = OP_IRR(OP3(36), v, r, p->from.reg); o2 = OP_IRR(OP3(36), v+4, r, p->from.reg+1); break; case 45: /* ldf lorg */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(OP3(32), v&0x3ff, REGTMP, p->to.reg); break; case 46: /* ldd lorg -> ldf,ldf */ /* note should be ldd with proper allignment */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(OP3(32), (v&0x3ff), REGTMP, p->to.reg); o4 = OP_IRR(OP3(32), (v&0x3ff)+4, REGTMP, p->to.reg+1); break; case 47: /* stf lorg */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(OP3(36), v&0x3ff, REGTMP, p->from.reg); break; case 48: /* std lorg -> stf,stf */ /* note should be std with proper allignment */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); o1 = 0x1000000 | (REGTMP<<25) | ((v>>10) & 0x3fffff); /* sethi */ o2 = OP_RRR(opcode(AADD), r, REGTMP, REGTMP); o3 = OP_IRR(OP3(36), (v&0x3ff), REGTMP, p->from.reg); o4 = OP_IRR(OP3(36), (v&0x3ff)+4, REGTMP, p->from.reg+1); break; case 49: /* fmovd -> fmovf,fmovf */ o1 = OP_RRR(opcode(AFMOVF), p->from.reg, 0, p->to.reg); o2 = OP_RRR(opcode(AFMOVF), p->from.reg+1, 0, p->to.reg+1); break; case 50: /* fcmp */ o1 = OP_RRR(opcode(p->as), p->to.reg, p->from.reg, 0); break; case 51: /* word */ if(aflag) return 0; o1 = regoff(&p->from); break; case 52: /* div */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_IRR(opcode(ASRA), 31, r, REGTMP); o2 = OP_IRR(OP2(48), 0, REGTMP, 0); o3 = OP_RRR(opcode(ADIV), p->from.reg, r, p->to.reg); break; case 53: /* divl */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_IRR(OP2(48), 0, REGZERO, 0); o2 = OP_RRR(opcode(ADIVL), p->from.reg, r, p->to.reg); break; case 54: /* mod */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_IRR(opcode(ASRA), 31, r, REGTMP); o2 = OP_IRR(OP2(48), 0, REGTMP, 0); o3 = OP_RRR(opcode(ADIV), p->from.reg, r, REGTMP); o4 = OP_RRR(opcode(AMUL), p->from.reg, REGTMP, REGTMP); o5 = OP_RRR(opcode(ASUB), REGTMP, r, p->to.reg); break; case 55: /* modl */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_IRR(OP2(48), 0, REGZERO, 0); o2 = OP_RRR(opcode(ADIVL), p->from.reg, r, REGTMP); o3 = OP_RRR(opcode(AMUL), p->from.reg, REGTMP, REGTMP); o4 = OP_RRR(opcode(ASUB), REGTMP, r, p->to.reg); break; case 56: /* b(cc) -- annullable */ if(aflag) return 0; r = p->as; v = 0; if(p->cond) v = p->cond->pc - p->pc; o1 = OP_BRA(opcode(r), v/4); if(p->link && p->cond && isnop(p->link)) if(!debug['A']) { o2 = asmout(p->cond, oplook(p->cond), 2); if(o2) { o1 |= 1<<29; /* annul */ o1 += 1; if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux%P\n", p->pc, o1, o2, p); LPUT(o1); LPUT(o2); return 1; } } break; case 57: /* op r1,r2 with reserved rs1 */ r = 0; o1 = OP_RRR(opcode(p->as), p->from.reg, r, p->to.reg); 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; } int isnop(Prog *p) { if(p->as != AORN) return 0; if(p->reg != REGZERO && p->reg != NREG) return 0; if(p->from.type != D_REG || p->from.reg != REGZERO) return 0; if(p->to.type != D_REG || p->to.reg != REGZERO) return 0; return 1; } long opcode(int a) { switch(a) { case AADD: return OP2(0); case AADDCC: return OP2(16); case AADDX: return OP2(8); case AADDXCC: return OP2(24); case AMUL: return OP2(10); case ADIV: return OP2(15); case ADIVL: return OP2(14); case ATADDCC: return OP2(32); case ATADDCCTV: return OP2(34); case ASUB: return OP2(4); case ASUBCC: return OP2(20); case ASUBX: return OP2(12); case ASUBXCC: return OP2(28); case ATSUBCC: return OP2(33); case ATSUBCCTV: return OP2(35); case AMULSCC: return OP2(36); case ASAVE: return OP2(60); case ARESTORE: return OP2(61); case AAND: return OP2(1); case AANDCC: return OP2(17); case AANDN: return OP2(5); case AANDNCC: return OP2(21); case AOR: return OP2(2); case AORCC: return OP2(18); case AORN: return OP2(6); case AORNCC: return OP2(22); case AXOR: return OP2(3); case AXORCC: return OP2(19); case AXNOR: return OP2(7); case AXNORCC: return OP2(23); case ASLL: return OP2(37); case ASRL: return OP2(38); case ASRA: return OP2(39); case AJMPL: case AJMP: return OP2(56); case ARETT: return OP2(57); case AMOVBU: return OP3(1); /* ldub */ case AMOVB: return OP3(9); /* ldsb */ case AMOVHU: return OP3(2); /* lduh */ case AMOVH: return OP3(10); /* ldsh */ case AMOVW: return OP3(0); /* ld */ case AMOVD: return OP3(3); /* ldd */ case AMOVBU+AEND: case AMOVB+AEND:return OP3(5); /* stb */ case AMOVHU+AEND: case AMOVH+AEND:return OP3(6); /* sth */ case AMOVW+AEND:return OP3(4); /* st */ case AMOVD+AEND:return OP3(7); /* std */ case ASWAP: /* swap is symmetric */ case ASWAP+AEND:return OP3(15); case ATAS: return OP3(13); /* tas is really ldstub */ case ABN: return OPB(0); case ABE: return OPB(1); case ABLE: return OPB(2); case ABL: return OPB(3); case ABLEU: return OPB(4); case ABCS: return OPB(5); case ABNEG: return OPB(6); case ABVS: return OPB(7); case ABA: return OPB(8); case ABNE: return OPB(9); case ABG: return OPB(10); case ABGE: return OPB(11); case ABGU: return OPB(12); case ABCC: return OPB(13); case ABPOS: return OPB(14); case ABVC: return OPB(15); case AFBA: return OPFB(8); case AFBE: return OPFB(9); case AFBG: return OPFB(6); case AFBGE: return OPFB(11); case AFBL: return OPFB(4); case AFBLE: return OPFB(13); case AFBLG: return OPFB(2); case AFBN: return OPFB(0); case AFBNE: return OPFB(1); case AFBO: return OPFB(15); case AFBU: return OPFB(7); case AFBUE: return OPFB(10); case AFBUG: return OPFB(5); case AFBUGE: return OPFB(12); case AFBUL: return OPFB(3); case AFBULE: return OPFB(14); case ATN: return OPT(0); case ATE: return OPT(1); case ATLE: return OPT(2); case ATL: return OPT(3); case ATLEU: return OPT(4); case ATCS: return OPT(5); case ATNEG: return OPT(6); case ATVS: return OPT(7); case ATA: return OPT(8); case ATNE: return OPT(9); case ATG: return OPT(10); case ATGE: return OPT(11); case ATGU: return OPT(12); case ATCC: return OPT(13); case ATPOS: return OPT(14); case ATVC: return OPT(15); case AFADDF: return OPF1(65); case AFADDD: return OPF1(66); case AFADDX: return OPF1(67); case AFSUBF: return OPF1(69); case AFSUBD: return OPF1(70); case AFSUBX: return OPF1(71); case AFMULF: return OPF1(73); case AFMULD: return OPF1(74); case AFMULX: return OPF1(75); case AFDIVF: return OPF1(77); case AFDIVD: return OPF1(78); case AFDIVX: return OPF1(79); case AFMOVF: return OPF1(1); case AFNEGF: return OPF1(5); case AFABSF: return OPF1(9); case AFSQRTF: return OPF1(41); case AFSQRTD: return OPF1(42); case AFSQRTX: return OPF1(43); case AFMOVWF: return OPF1(196); case AFMOVWD: return OPF1(200); case AFMOVWX: return OPF1(204); case AFMOVFW: return OPF1(209); case AFMOVDW: return OPF1(210); case AFMOVXW: return OPF1(211); case AFMOVFD: return OPF1(201); case AFMOVFX: return OPF1(205); case AFMOVDF: return OPF1(198); case AFMOVDX: return OPF1(206); case AFMOVXF: return OPF1(199); case AFMOVXD: return OPF1(203); case AFCMPF: return OPF2(81); case AFCMPD: return OPF2(82); case AFCMPX: return OPF2(83); case AFCMPEF: return OPF2(85); case AFCMPED: return OPF2(86); case AFCMPEX: return OPF2(87); case AUNIMP: return 0; } diag("bad opcode %A", a); return 0; }