ref: 37a5e86bf0aaffb1cdc841150ecc9c847b795e9b
dir: /sys/src/cmd/5l/sched.c/
#include "l.h" enum { E_PSR = 1<<0, E_MEM = 1<<3, E_MEMSP = 1<<4, /* uses offset and size */ E_MEMSB = 1<<5, /* uses offset and size */ ANYMEM = E_MEM|E_MEMSP|E_MEMSB, DELAY = BRANCH|LOAD|FCMP, }; typedef struct Sch Sch; typedef struct Dep Dep; struct Dep { ulong ireg; ulong freg; ulong cc; }; struct Sch { Prog p; Dep set; Dep used; long offset; char size; char nop; char comp; }; void regused(Sch*, Prog*); int depend(Sch*, Sch*); int conflict(Sch*, Sch*); int offoverlap(Sch*, Sch*); void dumpbits(Sch*, Dep*); void sched(Prog *p0, Prog *pe) { Prog *p, *q; Sch sch[NSCHED], *s, *t, *u, *se, stmp; /* * build side structure */ s = sch; for(p=p0;; p=p->link) { memset(s, 0, sizeof(*s)); s->p = *p; regused(s, p); if(debug['X']) { Bprint(&bso, "%P\t\tset", &s->p); dumpbits(s, &s->set); Bprint(&bso, "; used"); dumpbits(s, &s->used); if(s->comp) Bprint(&bso, "; compound"); if(s->p.mark & LOAD) Bprint(&bso, "; load"); if(s->p.mark & BRANCH) Bprint(&bso, "; branch"); if(s->p.mark & FCMP) Bprint(&bso, "; fcmp"); Bprint(&bso, "\n"); } if(p == pe) break; s++; } se = s; /* * prepass to move things around * does nothing, but tries to make * the actual scheduler work better */ for(s=sch; s<=se; s++) { if(!(s->p.mark & LOAD)) continue; /* always good to put nonconflict loads together */ for(t=s+1; t<=se; t++) { if(!(t->p.mark & LOAD)) continue; if(t->p.mark & BRANCH) break; if(conflict(s, t)) break; for(u=t-1; u>s; u--) if(depend(u, t)) goto no11; u = s+1; stmp = *t; memmove(s+2, u, (uchar*)t - (uchar*)u); *u = stmp; break; } no11: /* put schedule fodder above load */ for(t=s+1; t<=se; t++) { if(t->p.mark & BRANCH) break; if(s > sch && conflict(s-1, t)) continue; for(u=t-1; u>=s; u--) if(depend(t, u)) goto no1; stmp = *t; memmove(s+1, s, (uchar*)t - (uchar*)s); *s = stmp; if(!(s->p.mark & LOAD)) break; no1:; } } for(s=se; s>=sch; s--) { if(!(s->p.mark & DELAY)) continue; if(s < se) if(!conflict(s, s+1)) goto out3; /* * s is load, s+1 is immediate use of result or end of block * t is the trial instruction to insert between s and s+1 */ if(!debug['Y']) for(t=s-1; t>=sch; t--) { if(t->comp) if(s->p.mark & BRANCH) goto no2; if(t->p.mark & DELAY) if(s >= se || conflict(t, s+1)) goto no2; for(u=t+1; u<=s; u++) if(depend(u, t)) goto no2; goto out2; no2:; } if(debug['X']) Bprint(&bso, "?l%P\n", &s->p); s->nop = 1; if(debug['v']) { if(s->p.mark & LOAD) { nop.load.count++; nop.load.outof++; } if(s->p.mark & BRANCH) { nop.branch.count++; nop.branch.outof++; } if(s->p.mark & FCMP) { nop.fcmp.count++; nop.fcmp.outof++; } } continue; out2: if(debug['X']) { Bprint(&bso, "!l%P\n", &t->p); Bprint(&bso, "%P\n", &s->p); } stmp = *t; memmove(t, t+1, (uchar*)s - (uchar*)t); *s = stmp; s--; out3: if(debug['v']) { if(s->p.mark & LOAD) nop.load.outof++; if(s->p.mark & BRANCH) nop.branch.outof++; if(s->p.mark & FCMP) nop.fcmp.outof++; } } /* Avoid HI/LO use->set */ t = sch+1; for(s=sch; s<se-1; s++, t++) { if((s->used.cc & E_PSR) == 0) continue; if(t->set.cc & E_PSR) s->nop = 2; } /* * put it all back */ for(s=sch, p=p0; s<=se; s++, p=q) { q = p->link; if(q != s->p.link) { *p = s->p; p->link = q; } while(s->nop--) addnop(p); } if(debug['X']) { Bprint(&bso, "\n"); Bflush(&bso); } } void regused(Sch *s, Prog *realp) { int c, ar, ad, ld, sz; ulong m; Prog *p; p = &s->p; s->comp = compound(p); s->nop = 0; if(s->comp) { s->set.ireg |= 1<<REGTMP; s->used.ireg |= 1<<REGTMP; } ar = 0; /* dest is really reference */ ad = 0; /* source/dest is really address */ ld = 0; /* opcode is load instruction */ sz = 20; /* size of load/store for overlap computation */ /* * flags based on opcode */ switch(p->as) { case ATEXT: curtext = realp; autosize = p->to.offset + 4; ad = 1; break; case ABL: c = p->reg; if(c == NREG) c = REGLINK; s->set.ireg |= 1<<c; ar = 1; ad = 1; break; case ACMP: case ACMPF: case ACMPD: ar = 1; s->set.cc |= E_PSR; p->mark |= FCMP; break; case AB: ar = 1; ad = 1; break; case AMOVB: case AMOVBU: sz = 1; ld = 1; break; case AMOVH: case AMOVHU: sz = 2; ld = 1; break; case AMOVF: case AMOVW: sz = 4; ld = 1; break; case AMOVD: sz = 8; ld = 1; break; case ADIV: case ADIVU: case AMUL: case AMULU: case AMOD: case AMODU: case AADD: case AAND: case ANOR: case AORR: case ASLL: case ASRA: case ASRL: case AROR: case ASUB: case AEOR: case AADDD: case AADDF: case ASUBD: case ASUBF: case AMULF: case AMULD: case ADIVF: if(p->reg == NREG) { if(p->to.type == D_REG || p->to.type == D_FREG) p->reg = p->to.reg; if(p->reg == NREG) print("botch %P\n", p); } break; } /* * flags based on 'to' field */ c = p->to.class; if(c == 0) { c = aclass(&p->to) + 1; p->to.class = c; } c--; switch(c) { default: print("unknown class %d %D\n", c, &p->to); case C_ZCON: case C_ICON: case C_SCON: case C_SICON: case C_LCON: case C_NONE: case C_SBRA: case C_LBRA: break; case C_PSR: s->set.cc |= E_PSR; break; case C_ZOREG: case C_SOREG: case C_LOREG: c = p->to.reg; s->used.ireg |= 1<<c; if(ad) break; s->size = sz; s->offset = regoff(&p->to); m = ANYMEM; if(c == REGSB) m = E_MEMSB; if(c == REGSP) m = E_MEMSP; if(ar) s->used.cc |= m; else s->set.cc |= m; break; case C_SACON: case C_LACON: s->used.ireg |= 1<<REGSP; break; case C_SECON: case C_LECON: s->used.ireg |= 1<<REGSB; break; case C_REG: if(ar) s->used.ireg |= 1<<p->to.reg; else s->set.ireg |= 1<<p->to.reg; break; case C_REGREG: if(ar){ s->used.ireg |= 1<<p->to.reg; s->used.ireg |= 1<<p->to.offset; }else{ s->set.ireg |= 1<<p->to.reg; s->set.ireg |= 1<<p->to.offset; } break; case C_FREG: /* do better -- determine double prec */ if(ar) { s->used.freg |= 1<<p->to.reg; s->used.freg |= 1<<(p->to.reg|1); } else { s->set.freg |= 1<<p->to.reg; s->set.freg |= 1<<(p->to.reg|1); } if(ld && p->from.type == D_REG) p->mark |= LOAD; break; case C_SAUTO: case C_LAUTO: s->used.ireg |= 1<<REGSP; if(ad) break; s->size = sz; s->offset = regoff(&p->to); if(ar) s->used.cc |= E_MEMSP; else s->set.cc |= E_MEMSP; break; case C_SEXT: case C_LEXT: s->used.ireg |= 1<<REGSB; if(ad) break; s->size = sz; s->offset = regoff(&p->to); if(ar) s->used.cc |= E_MEMSB; else s->set.cc |= E_MEMSB; break; } /* * flags based on 'from' field */ c = p->from.class; if(c == 0) { c = aclass(&p->from) + 1; p->from.class = c; } c--; switch(c) { default: print("unknown class %d %D\n", c, &p->from); case C_ZCON: case C_ICON: case C_SCON: case C_SICON: case C_LCON: case C_NONE: case C_SBRA: case C_LBRA: break; case C_PSR: s->used.cc |= E_PSR; break; case C_ZOREG: case C_SOREG: case C_LOREG: c = p->from.reg; s->used.ireg |= 1<<c; if(ld) p->mark |= LOAD; s->size = sz; s->offset = regoff(&p->from); m = ANYMEM; if(c == REGSB) m = E_MEMSB; if(c == REGSP) m = E_MEMSP; s->used.cc |= m; break; case C_SACON: case C_LACON: s->used.ireg |= 1<<REGSP; break; case C_SECON: case C_LECON: s->used.ireg |= 1<<REGSB; break; case C_REG: s->used.ireg |= 1<<p->from.reg; break; case C_REGREG: s->used.ireg |= 1<<p->from.reg; s->used.ireg |= 1<<p->from.offset; break; case C_FREG: /* do better -- determine double prec */ s->used.freg |= 1<<p->from.reg; s->used.freg |= 1<<(p->from.reg|1); if(ld && p->to.type == D_REG) p->mark |= LOAD; break; case C_SAUTO: case C_LAUTO: s->used.ireg |= 1<<REGSP; if(ld) p->mark |= LOAD; if(ad) break; s->size = sz; s->offset = regoff(&p->from); s->used.cc |= E_MEMSP; break; case C_SEXT: case C_LEXT: s->used.ireg |= 1<<REGSB; if(ld) p->mark |= LOAD; if(ad) break; s->size = sz; s->offset = regoff(&p->from); s->used.cc |= E_MEMSB; break; } c = p->reg; if(c != NREG) { if(p->from.type == D_FREG || p->to.type == D_FREG) { s->used.freg |= 1<<c; s->used.freg |= 1<<(c|1); } else s->used.ireg |= 1<<c; } } /* * test to see if 2 instrictions can be * interchanged without changing semantics */ int depend(Sch *sa, Sch *sb) { ulong x; if(sa->set.ireg & (sb->set.ireg|sb->used.ireg)) return 1; if(sb->set.ireg & sa->used.ireg) return 1; if(sa->set.freg & (sb->set.freg|sb->used.freg)) return 1; if(sb->set.freg & sa->used.freg) return 1; /* * special case. * loads from same address cannot pass. * this is for hardware fifo's and the like */ if(sa->used.cc & sb->used.cc & E_MEM) if(sa->p.reg == sb->p.reg) if(regoff(&sa->p.from) == regoff(&sb->p.from)) return 1; x = (sa->set.cc & (sb->set.cc|sb->used.cc)) | (sb->set.cc & sa->used.cc); if(x) { /* * allow SB and SP to pass each other. * allow SB to pass SB iff doffsets are ok * anything else conflicts */ if(x != E_MEMSP && x != E_MEMSB) return 1; x = sa->set.cc | sb->set.cc | sa->used.cc | sb->used.cc; if(x & E_MEM) return 1; if(offoverlap(sa, sb)) return 1; } return 0; } int offoverlap(Sch *sa, Sch *sb) { if(sa->offset < sb->offset) { if(sa->offset+sa->size > sb->offset) return 1; return 0; } if(sb->offset+sb->size > sa->offset) return 1; return 0; } /* * test 2 adjacent instructions * and find out if inserted instructions * are desired to prevent stalls. */ int conflict(Sch *sa, Sch *sb) { if(sa->set.ireg & sb->used.ireg) return 1; if(sa->set.freg & sb->used.freg) return 1; if(sa->set.cc & sb->used.cc) return 1; return 0; } int compound(Prog *p) { Optab *o; o = oplook(p); if(o->size != 4) return 1; if(p->to.type == D_REG && p->to.reg == REGSB) return 1; return 0; } void dumpbits(Sch *s, Dep *d) { int i; for(i=0; i<32; i++) if(d->ireg & (1<<i)) Bprint(&bso, " R%d", i); for(i=0; i<32; i++) if(d->freg & (1<<i)) Bprint(&bso, " F%d", i); for(i=0; i<32; i++) switch(d->cc & (1<<i)) { default: break; case E_PSR: Bprint(&bso, " PSR"); break; case E_MEM: Bprint(&bso, " MEM%d", s->size); break; case E_MEMSB: Bprint(&bso, " SB%d", s->size); break; case E_MEMSP: Bprint(&bso, " SP%d", s->size); break; } }