ref: ec628c4dfbf62891e311567034936a0b2cb584c4
dir: /sys/src/cmd/qc/swt.c/
#include "gc.h" static int doubleflag; void swit1(C1 *q, int nc, long def, Node *n) { Node tn; regalloc(&tn, ®node, Z); swit2(q, nc, def, n, &tn); regfree(&tn); } void swit2(C1 *q, int nc, long def, Node *n, Node *tn) { C1 *r; int i; Prog *sp; if(nc < 5) { for(i=0; i<nc; i++) { if(sval(q->val)) { gopcode(OEQ, n, Z, nodconst(q->val)); } else { gopcode(OSUB, nodconst(q->val), n, tn); gopcode(OEQ, tn, Z, nodconst(0)); } patch(p, q->label); q++; } gbranch(OGOTO); patch(p, def); return; } i = nc / 2; r = q+i; if(sval(r->val)) { gopcode(OGT, n, Z, nodconst(r->val)); sp = p; } else { gopcode(OSUB, nodconst(r->val), n, tn); gopcode(OGT, tn, Z, nodconst(0)); sp = p; } gbranch(OGOTO); p->as = ABEQ; patch(p, r->label); swit2(q, i, def, n, tn); patch(sp, pc); swit2(r+1, nc-i-1, def, n, tn); } void bitload(Node *b, Node *n1, Node *n2, Node *n3, Node *nn) { int sh; long v; Node *l; /* * n1 gets adjusted/masked value * n2 gets address of cell * n3 gets contents of cell */ l = b->left; if(n2 != Z) { regalloc(n1, l, nn); reglcgen(n2, l, Z); regalloc(n3, l, Z); gopcode(OAS, n2, Z, n3); gopcode(OAS, n3, Z, n1); } else { regalloc(n1, l, nn); cgen(l, n1); } if(b->type->shift == 0 && typeu[b->type->etype]) { v = ~0 + (1L << b->type->nbits); gopcode(OAND, nodconst(v), Z, n1); } else { sh = 32 - b->type->shift - b->type->nbits; if(sh > 0) gopcode(OASHL, nodconst(sh), Z, n1); sh += b->type->shift; if(sh > 0) if(typeu[b->type->etype]) gopcode(OLSHR, nodconst(sh), Z, n1); else gopcode(OASHR, nodconst(sh), Z, n1); } } void bitstore(Node *b, Node *n1, Node *n2, Node *n3, Node *nn) { long v; Node nod, *l; int sh; /* * n1 has adjusted/masked value * n2 has address of cell * n3 has contents of cell */ l = b->left; regalloc(&nod, l, Z); v = ~0 + (1L << b->type->nbits); gopcode(OAND, nodconst(v), Z, n1); gopcode(OAS, n1, Z, &nod); if(nn != Z) gopcode(OAS, n1, Z, nn); sh = b->type->shift; if(sh > 0) gopcode(OASHL, nodconst(sh), Z, &nod); v <<= sh; gopcode(OAND, nodconst(~v), Z, n3); gopcode(OOR, n3, Z, &nod); gopcode(OAS, &nod, Z, n2); regfree(&nod); regfree(n1); regfree(n2); regfree(n3); } long outstring(char *s, long n) { long r; if(suppress) return nstring; r = nstring; while(n) { string[mnstring] = *s++; mnstring++; nstring++; if(mnstring >= NSNAME) { gpseudo(ADATA, symstring, nodconst(0L)); p->from.offset += nstring - NSNAME; p->reg = NSNAME; p->to.type = D_SCONST; memmove(p->to.sval, string, NSNAME); mnstring = 0; } n--; } return r; } int mulcon(Node *n, Node *nn) { Node *l, *r, nod1, nod2; Multab *m; long v; int o; char code[sizeof(m->code)+2], *p; if(typefd[n->type->etype]) return 0; l = n->left; r = n->right; if(l->op == OCONST) { l = r; r = n->left; } if(r->op != OCONST) return 0; v = convvtox(r->vconst, n->type->etype); if(v != r->vconst) { if(debug['M']) print("%L multiply conv: %lld\n", n->lineno, r->vconst); return 0; } m = mulcon0(n, v); if(!m) { if(debug['M']) print("%L multiply table: %lld\n", n->lineno, r->vconst); return 0; } memmove(code, m->code, sizeof(m->code)); code[sizeof(m->code)] = 0; p = code; if(p[1] == 'i') p += 2; regalloc(&nod1, n, nn); cgen(l, &nod1); if(v < 0) gopcode(ONEG, &nod1, Z, &nod1); regalloc(&nod2, n, Z); loop: switch(*p) { case 0: regfree(&nod2); gopcode(OAS, &nod1, Z, nn); regfree(&nod1); return 1; case '+': o = OADD; goto addsub; case '-': o = OSUB; addsub: /* number is r,n,l */ v = p[1] - '0'; r = &nod1; if(v&4) r = &nod2; n = &nod1; if(v&2) n = &nod2; l = &nod1; if(v&1) l = &nod2; gopcode(o, l, n, r); break; default: /* op is shiftcount, number is r,l */ v = p[1] - '0'; r = &nod1; if(v&2) r = &nod2; l = &nod1; if(v&1) l = &nod2; v = *p - 'a'; if(v < 0 || v >= 32) { diag(n, "mulcon unknown op: %c%c", p[0], p[1]); break; } gopcode(OASHL, nodconst(v), l, r); break; } p += 2; goto loop; } void sextern(Sym *s, Node *a, long o, long w) { long e, lw; for(e=0; e<w; e+=NSNAME) { lw = NSNAME; if(w-e < lw) lw = w-e; gpseudo(ADATA, s, nodconst(0)); p->from.offset += o+e; p->reg = lw; p->to.type = D_SCONST; memmove(p->to.sval, a->cstring+e, lw); } } void gextern(Sym *s, Node *a, long o, long w) { if(a->op == OCONST && typev[a->type->etype]) { if(align(0, types[TCHAR], Aarg1)) /* isbigendian */ gpseudo(ADATA, s, nod32const(a->vconst>>32)); else gpseudo(ADATA, s, nod32const(a->vconst)); p->from.offset += o; p->reg = 4; if(align(0, types[TCHAR], Aarg1)) /* isbigendian */ gpseudo(ADATA, s, nod32const(a->vconst)); else gpseudo(ADATA, s, nod32const(a->vconst>>32)); p->from.offset += o + 4; p->reg = 4; return; } gpseudo(ADATA, s, a); p->from.offset += o; p->reg = w; if(p->to.type == D_OREG) p->to.type = D_CONST; } void zname(Biobuf*, Sym*, int); char* zaddr(char*, Adr*, int); void zwrite(Biobuf*, Prog*, int, int); void outhist(Biobuf*); void outcode(void) { struct { Sym *sym; short type; } h[NSYM]; Prog *p; Sym *s; int sf, st, t, sym; if(debug['S']) { for(p = firstp; p != P; p = p->link) if(p->as != ADATA && p->as != AGLOBL) pc--; for(p = firstp; p != P; p = p->link) { print("%P\n", p); if(p->as != ADATA && p->as != AGLOBL) pc++; } } outhist(&outbuf); for(sym=0; sym<NSYM; sym++) { h[sym].sym = S; h[sym].type = 0; } sym = 1; for(p = firstp; p != P; p = p->link) { jackpot: sf = 0; s = p->from.sym; while(s != S) { sf = s->sym; if(sf < 0 || sf >= NSYM) sf = 0; t = p->from.name; if(h[sf].type == t) if(h[sf].sym == s) break; s->sym = sym; zname(&outbuf, s, t); h[sym].sym = s; h[sym].type = t; sf = sym; sym++; if(sym >= NSYM) sym = 1; break; } st = 0; s = p->to.sym; while(s != S) { st = s->sym; if(st < 0 || st >= NSYM) st = 0; t = p->to.name; if(h[st].type == t) if(h[st].sym == s) break; s->sym = sym; zname(&outbuf, s, t); h[sym].sym = s; h[sym].type = t; st = sym; sym++; if(sym >= NSYM) sym = 1; if(st == sf) goto jackpot; break; } zwrite(&outbuf, p, sf, st); } firstp = P; lastp = P; } void zwrite(Biobuf *b, Prog *p, int sf, int st) { char bf[100], *bp; long l; bf[0] = p->as; bf[1] = p->as>>8; bf[2] = p->reg; if(p->from3.type != D_NONE) bf[2] |= 0x40; l = p->lineno; bf[3] = l; bf[4] = l>>8; bf[5] = l>>16; bf[6] = l>>24; bp = zaddr(bf+7, &p->from, sf); if(bf[2] & 0x40) bp = zaddr(bp, &p->from3, 0); bp = zaddr(bp, &p->to, st); Bwrite(b, bf, bp-bf); } void outhist(Biobuf *b) { Hist *h; char *p, *q, *op, c; Prog pg; int n; pg = zprog; pg.as = AHISTORY; c = pathchar(); for(h = hist; h != H; h = h->link) { p = h->name; op = 0; /* on windows skip drive specifier in pathname */ if(systemtype(Windows) && p && p[1] == ':'){ p += 2; c = *p; } if(p && p[0] != c && h->offset == 0 && pathname){ /* on windows skip drive specifier in pathname */ if(systemtype(Windows) && pathname[1] == ':') { op = p; p = pathname+2; c = *p; } else if(pathname[0] == c){ op = p; p = pathname; } } while(p) { q = utfrune(p, c); if(q) { n = q-p; if(n == 0){ n = 1; /* leading "/" */ *p = '/'; /* don't emit "\" on windows */ } q++; } else { n = strlen(p); q = 0; } if(n) { Bputc(b, ANAME); Bputc(b, ANAME>>8); Bputc(b, D_FILE); Bputc(b, 1); Bputc(b, '<'); Bwrite(b, p, n); Bputc(b, 0); } p = q; if(p == 0 && op) { p = op; op = 0; } } pg.lineno = h->line; pg.to.type = zprog.to.type; pg.to.offset = h->offset; if(h->offset) pg.to.type = D_CONST; zwrite(b, &pg, 0, 0); } } void zname(Biobuf *b, Sym *s, int t) { char *n, bf[8]; ulong sig; n = s->name; if(debug['T'] && t == D_EXTERN && s->sig != SIGDONE && s->type != types[TENUM] && s != symrathole){ sig = sign(s); bf[0] = ASIGNAME; bf[1] = ASIGNAME>>8; bf[2] = sig; bf[3] = sig>>8; bf[4] = sig>>16; bf[5] = sig>>24; bf[6] = t; bf[7] = s->sym; Bwrite(b, bf, 8); s->sig = SIGDONE; } else{ bf[0] = ANAME; bf[1] = ANAME>>8; bf[2] = t; /* type */ bf[3] = s->sym; /* sym */ Bwrite(b, bf, 4); } Bwrite(b, n, strlen(n)+1); } char* zaddr(char *bp, Adr *a, int s) { long l; Ieee e; bp[0] = a->type; bp[1] = a->reg; bp[2] = s; bp[3] = a->name; bp += 4; switch(a->type) { default: diag(Z, "unknown type %d in zaddr", a->type); case D_NONE: case D_REG: case D_FREG: case D_CREG: break; case D_OREG: case D_CONST: case D_BRANCH: l = a->offset; bp[0] = l; bp[1] = l>>8; bp[2] = l>>16; bp[3] = l>>24; bp += 4; break; case D_SCONST: memmove(bp, a->sval, NSNAME); bp += NSNAME; break; case D_FCONST: ieeedtod(&e, a->dval); l = e.l; bp[0] = l; bp[1] = l>>8; bp[2] = l>>16; bp[3] = l>>24; bp += 4; l = e.h; bp[0] = l; bp[1] = l>>8; bp[2] = l>>16; bp[3] = l>>24; bp += 4; break; } return bp; } static int doubled(Type *t) { Type *v; if(debug['4']) return 0; if(t->nbits != 0) return 0; switch(t->etype){ case TDOUBLE: return 1; case TARRAY: for(v=t; v->etype==TARRAY; v=v->link) ; return v->etype == TDOUBLE; case TSTRUCT: case TUNION: for(v = t->link; v != T; v = v->down) if(doubled(v)) return 1; break; } return 0; } long align(long i, Type *t, int op) { long o; Type *v; int w, pc; o = i; w = 1; pc = 0; switch(op) { default: diag(Z, "unknown align opcode %d", op); break; case Asu2: /* padding at end of a struct */ w = doubled(t)? SZ_DOUBLE: SZ_LONG; if(packflg) w = packflg; break; case Ael1: /* initial align of struct element (also automatic) */ for(v=t; v->etype==TARRAY; v=v->link) ; w = ewidth[v->etype]; if(w <= 0 || w >= SZ_LONG){ if(doubled(v)){ w = SZ_DOUBLE; doubleflag = 1; }else w = SZ_LONG; } if(packflg) w = packflg; break; case Ael2: /* width of a struct element */ o += t->width; break; case Aarg0: /* initial passbyptr argument in arg list */ if(typesuv[t->etype]) { o = align(o, types[TIND], Aarg1); o = align(o, types[TIND], Aarg2); } break; case Aarg1: /* initial align of parameter */ w = ewidth[t->etype]; if(w <= 0 || w >= SZ_LONG) { if(doubled(t)){ w = SZ_DOUBLE; pc = SZ_LONG; /* alignment must account for pc */ hasdoubled = 1; }else w = SZ_LONG; break; } o += SZ_LONG - w; /* big endian adjustment */ w = 1; break; case Aarg2: /* width of a parameter */ o += t->width; w = SZ_LONG; if(doubled(t)){ pc = SZ_LONG; hasdoubled = 1; } break; case Aaut3: /* total align of automatic */ doubleflag = 0; o = align(o, t, Ael1); o = align(o, t, Ael2); hasdoubled |= doubleflag; break; } o = round(o+pc, w)-pc; if(debug['A']) print("align %s %ld %T = %ld\n", bnames[op], i, t, o); return o; } long maxround(long max, long v) { int w; w = SZ_LONG; if((debug['8'] || hasdoubled) && !debug['4']) w = SZ_DOUBLE; v = round(v, w); if(v > max) return v; return max; }