ref: af36a8b50ad95196fdc21deac251919cd7bbd18a
dir: /sys/src/cmd/1c/swt.c/
#include "gc.h" int swcmp(const void *a1, const void *a2) { C1 *p1, *p2; p1 = (C1*)a1; p2 = (C1*)a2; if(p1->val < p2->val) return -1; return p1->val > p2->val; } void doswit(int g, Node *n) { Case *c; C1 *q, *iq; long def, nc, i; def = 0; nc = 0; for(c = cases; c->link != C; c = c->link) { if(c->def) { if(def) diag(n, "more than one default in switch"); def = c->label; continue; } nc++; } iq = alloc(nc*sizeof(C1)); q = iq; for(c = cases; c->link != C; c = c->link) { if(c->def) continue; q->label = c->label; q->val = c->val; q++; } qsort(iq, nc, sizeof(C1), swcmp); if(def == 0) def = breakpc; for(i=0; i<nc-1; i++) if(iq[i].val == iq[i+1].val) diag(n, "duplicate cases in switch %lld", iq[i].val); swit1(iq, nc, def, g, n); } #define N1 4 /* ncase: always linear */ /* else binary */ void swit1(C1 *q, int nc, long def, int g, Node *n) { C1 *r; int i; long v; Prog *sp1, *sp2; /* note that g and g+1 are not allocated */ if(nc <= N1) goto linear; /* * divide and conquer */ i = nc / 2; r = q+i; v = r->val; /* compare median */ if(v >= -128 && v < 128) { gopcode(OAS, n->type, D_CONST, nodconst(v), g+1, n); gopcode(OEQ, n->type, g, n, g+1, n); } else gopcode(OEQ, n->type, g, n, D_CONST, nodconst(v)); gbranch(OLT); sp1 = p; gbranch(OGT); sp2 = p; gbranch(OGOTO); patch(p, r->label); patch(sp1, pc); swit1(q, i, def, g, n); patch(sp2, pc); swit1(r+1, nc-i-1, def, g, n); return; linear: for(i=0; i<nc; i++) { v = q->val; if(v >= -128 && v < 128) { gopcode(OAS, n->type, D_CONST, nodconst(v), g+1, n); gopcode(OEQ, n->type, g+1, n, g, n); } else gopcode(OEQ, n->type, g, n, D_CONST, nodconst(v)); gbranch(OEQ); patch(p, q->label); q++; } gbranch(OGOTO); patch(p, def); } void casf(void) { Case *c; c = alloc(sizeof(*c)); c->link = cases; cases = c; } int bitload(Node *b, int n1, int n2, int n3, Node *nn) { int sh, g, gs; long v; Node *l; Type *t; /* * n1 gets adjusted/masked value * n2 gets address of cell * n3 gets contents of cell */ gs = 0; t = tfield; l = b->left; g = regalloc(t, n3); if(n2 != D_NONE) { lcgen(l, n2, Z); n2 |= I_INDIR; gmove(t, t, n2, l, g, l); gmove(t, t, g, l, n1, l); } else cgen(l, g, nn); if(b->type->shift == 0 && typeu[b->type->etype]) { v = ~0 + (1L << b->type->nbits); gopcode(OAND, t, D_CONST, nodconst(v), g, l); } else { sh = 32 - b->type->shift - b->type->nbits; if(sh > 0) if(sh >= 8) { gs = regalloc(t, D_NONE); gmove(t, t, D_CONST, nodconst(sh), gs, l); gopcode(OASHL, t, gs, l, g, l); if(b->type->shift) regfree(gs); } else gopcode(OASHL, t, D_CONST, nodconst(sh), g, l); sh += b->type->shift; if(sh > 0) { if(sh >= 8) { if(b->type->shift) { gs = regalloc(t, D_NONE); gmove(t, t, D_CONST, nodconst(sh), gs, l); } if(typeu[b->type->etype]) gopcode(OLSHR, t, gs, l, g, l); else gopcode(OASHR, t, gs, l, g, l); regfree(gs); } else { if(typeu[b->type->etype]) gopcode(OLSHR, t, D_CONST, nodconst(sh), g, l); else gopcode(OASHR, t, D_CONST, nodconst(sh), g, l); } } } return g; } void bitstore(Node *b, int n1, int n2, int n3, int result, Node *nn) { long v; Node *l; Type *t; int sh, g, gs; /* * n1 has adjusted/masked value * n2 has address of cell * n3 has contents of cell */ t = tfield; l = b->left; g = regalloc(t, D_NONE); v = ~0 + (1L << b->type->nbits); gopcode(OAND, t, D_CONST, nodconst(v), n1, l); gmove(t, t, n1, l, g, l); if(result != D_NONE) gmove(t, nn->type, n1, l, result, nn); sh = b->type->shift; if(sh > 0) { if(sh >= 8) { gs = regalloc(t, D_NONE); gmove(t, t, D_CONST, nodconst(sh), gs, l); gopcode(OASHL, t, gs, l, g, l); regfree(gs); } else gopcode(OASHL, t, D_CONST, nodconst(sh), g, l); } v <<= sh; gopcode(OAND, t, D_CONST, nodconst(~v), n3, l); gopcode(OOR, t, n3, l, g, l); gmove(t, t, g, l, n2|I_INDIR, l); regfree(g); 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, D_SCONST, 0L); memmove(p->to.sval, string, NSNAME); p->from.offset = nstring - NSNAME; p->from.displace = NSNAME; mnstring = 0; } n--; } return r; } long outlstring(Rune *s, long n) { char buf[sizeof(Rune)]; int c, i; long r; while(nstring % sizeof buf) outstring("", 1); r = nstring; while(n > 0) { c = *s++; if(align(0, types[TCHAR], Aarg1)) { for(i = sizeof buf; i > 0; c >>= 8) buf[--i] = c; } else { for(i = 0; i < sizeof buf; c >>= 8) buf[i++] = c; } outstring(buf, sizeof buf); n -= sizeof buf; } return r; } int doinc(Node *n, int f) { Node *l; int a; loop: if(n == Z) return 0; l = n->left; switch(n->op) { case OPOSTINC: case OPOSTDEC: if(f & POST) { a = n->addable; if(a >= INDEXED) { if(f & TEST) return 1; n->addable = 0; cgen(n, D_NONE, n); n->addable = a; } } break; case OAS: case OASLMUL: case OASLDIV: case OASLMOD: case OASMUL: case OASDIV: case OASMOD: case OASXOR: case OASOR: case OASADD: case OASSUB: case OASLSHR: case OASASHR: case OASASHL: case OASAND: case OPREINC: case OPREDEC: if(f & PRE) { a = n->addable; if(a >= INDEXED) { if(f & TEST) return 1; n->addable = 0; doinc(n, PRE); cgen(n, D_NONE, n); n->addable = a; return 0; } } break; case OFUNC: if(f & PRE) break; return 0; case ONAME: case OREGISTER: case OSTRING: case OCONST: case OANDAND: case OOROR: return 0; case OCOND: return 0; case OCOMMA: n = n->right; if(f & PRE) n = l; goto loop; } if(l != Z) if(doinc(l, f)) return 1; n = n->right; goto loop; } void setsp(void) { nextpc(); p->as = AADJSP; p->from.type = D_CONST; p->from.offset = 0; } void adjsp(long o) { if(o != 0) { nextpc(); p->as = AADJSP; p->from.type = D_CONST; p->from.offset = o; argoff += o; } } int simplv(Node *n) { if(n->addable <= INDEXED) return 0; while(n->op == OIND) n = n->left; if(n->op == ONAME) return 1; return 0; } int eval(Node *n, int g) { if(n->addable >= INDEXED) return D_TREE; g = regalloc(n->type, g); cgen(n, g, n); return g; } void outhist(Biobuf*); void zname(Biobuf*, Sym*, int); void zaddr(Biobuf*, Adr*, int); void zwrite(Biobuf*, Prog*, int, int); void outcode(void) { struct { Sym *sym; short type; } h[NSYM]; Prog *p; Sym *s; int f, sf, st, t, sym; Biobuf b; 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++; } } f = open(outfile, OWRITE); if(f < 0) { diag(Z, "cant open %s", outfile); errorexit(); } Binit(&b, f, OWRITE); Bseek(&b, 0L, 2); outhist(&b); 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.type & D_MASK; if(h[sf].type == t) if(h[sf].sym == s) break; s->sym = sym; zname(&b, 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.type & D_MASK; if(h[st].type == t) if(h[st].sym == s) break; s->sym = sym; zname(&b, 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(&b, p, sf, st); } Bflush(&b); close(f); firstp = P; lastp = P; } void zwrite(Biobuf *b, Prog *p, int sf, int st) { long l; l = p->as; Bputc(b, l); Bputc(b, l>>8); l = p->lineno; Bputc(b, l); Bputc(b, l>>8); Bputc(b, l>>16); Bputc(b, l>>24); zaddr(b, &p->from, sf); zaddr(b, &p->to, st); } void zname(Biobuf *b, Sym *s, int t) { char *n; ulong sig; if(debug['T'] && t == D_EXTERN && s->sig != SIGDONE && s->type != types[TENUM] && s != symrathole){ sig = sign(s); Bputc(b, ASIGNAME); Bputc(b, ASIGNAME>>8); Bputc(b, sig); Bputc(b, sig>>8); Bputc(b, sig>>16); Bputc(b, sig>>24); s->sig = SIGDONE; } else{ Bputc(b, ANAME); /* as */ Bputc(b, ANAME>>8); /* as */ } Bputc(b, t); /* type */ Bputc(b, s->sym); /* sym */ n = s->name; while(*n) { Bputc(b, *n); n++; } Bputc(b, 0); } void zaddr(Biobuf *b, Adr *a, int s) { long l; int i, t; char *n; Ieee e; t = 0; if(a->field) t |= T_FIELD; if(s) t |= T_SYM; switch(a->type) { default: if(a->offset) t |= T_OFFSET; if(a->displace) t |= T_INDEX; if(a->type & ~0xff) t |= T_TYPE; break; case D_FCONST: t |= T_FCONST; break; case D_SCONST: t |= T_SCONST; break; } Bputc(b, t); if(t & T_FIELD) { /* implies field */ i = a->field; Bputc(b, i); Bputc(b, i>>8); } if(t & T_INDEX) { /* implies index, scale, displace */ i = D_NONE; Bputc(b, i); Bputc(b, i>>8); Bputc(b, 0); l = a->displace; Bputc(b, l); Bputc(b, l>>8); Bputc(b, l>>16); Bputc(b, l>>24); } if(t & T_OFFSET) { /* implies offset */ l = a->offset; Bputc(b, l); Bputc(b, l>>8); Bputc(b, l>>16); Bputc(b, l>>24); } if(t & T_SYM) /* implies sym */ Bputc(b, s); if(t & T_FCONST) { ieeedtod(&e, a->dval); l = e.l; Bputc(b, l); Bputc(b, l>>8); Bputc(b, l>>16); Bputc(b, l>>24); l = e.h; Bputc(b, l); Bputc(b, l>>8); Bputc(b, l>>16); Bputc(b, l>>24); return; } if(t & T_SCONST) { n = a->sval; for(i=0; i<NSNAME; i++) { Bputc(b, *n); n++; } return; } i = a->type; Bputc(b, i); if(t & T_TYPE) Bputc(b, i>>8); } 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 ieeedtod(Ieee *ieee, double native) { double fr, ho, f; int exp; if(native < 0) { ieeedtod(ieee, -native); ieee->h |= 0x80000000L; return; } if(native == 0) { ieee->l = 0; ieee->h = 0; return; } fr = frexp(native, &exp); f = 2097152L; /* shouldnt use fp constants here */ fr = modf(fr*f, &ho); ieee->h = ho; ieee->h &= 0xfffffL; ieee->h |= (exp+1022L) << 20; f = 65536L; fr = modf(fr*f, &ho); ieee->l = ho; ieee->l <<= 16; ieee->l |= (long)(fr*f); } int nodalloc(Type *t, int g, Node *n) { n->type = t; n->op = OREGISTER; n->addable = 12; n->complex = 0; g = regaddr(g); n->reg = g | I_INDIR; n->xoffset = 0; return g; } int mulcon(Node *n, Node *c, int result, Node *nn) { long v; if(typefd[n->type->etype]) return 0; v = c->vconst; if(mulcon1(n, v, result, nn)) return 1; return 0; } int shlcon(Node *n, Node *c, int result, Node *nn) { long v; v = 1L << c->vconst; return mulcon1(n, v, result, nn); } int mulcon1(Node *n, long v, int result, Node *nn) { int g, g1, a1, a2, neg; int o; char code[10], *p; if(result == D_NONE) return 0; neg = 0; if(v < 0) { v = -v; neg++; } a1 = 0; a2 = multabsize; for(;;) { if(a1 >= a2) return 0; g1 = (a2 + a1)/2; if(v < multab[g1].val) { a2 = g1; continue; } if(v > multab[g1].val) { a1 = g1+1; continue; } break; } strcpy(code, "0"); strncat(code, multab[g1].code, sizeof(multab[0].code)); p = code; if(p[1] == 'i') p += 2; g = regalloc(n->type, result); cgen(n, g, n); if(neg) gopcode(ONEG, n->type, D_NONE, n, g, n); g1 = regalloc(n->type, D_NONE); loop: switch(*p) { case 0: regfree(g1); gmove(n->type, nn->type, g, n, result, nn); regfree(g); return 1; case '0': o = OAS; *p -= '0'; goto com; case '1': case '2': o = OSUB; *p -= '1'; goto com; case '3': case '4': case '5': case '6': o = OADD; *p -= '3'; com: a1 = g; if(*p == 1 || *p == 3) a1 = g1; a2 = g; if(*p == 0 || *p == 3) a2 = g1; gopcode(o, n->type, a1, n, a2, n); p++; break; default: a1 = *p++ - 'a' + 1; a2 = g; if(a1 > 8) { a2 = g1; a1 -= 8; } gopcode(OASHL, n->type, D_CONST, nodconst(a1), a2, n); break; } goto loop; } void nullwarn(Node *l, Node *r) { warn(Z, "result of operation not used"); if(l != Z) cgen(l, D_NONE, Z); if(r != Z) cgen(r, D_NONE, Z); } 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, D_SCONST, 0L); p->from.offset += o+e; p->from.displace = lw; 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]) { gpseudo(ADATA, s, D_CONST, (long)(a->vconst>>32)); p->from.offset += o; p->from.displace = 4; gpseudo(ADATA, s, D_CONST, (long)(a->vconst)); p->from.offset += o + 4; p->from.displace = 4; return; } gpseudotree(ADATA, s, a); p->from.offset += o; p->from.displace = w; } long align(long i, Type *t, int op) { long o; Type *v; int w; o = i; w = 1; switch(op) { default: diag(Z, "unknown align opcode %d", op); break; case Asu2: /* padding at end of a struct */ w = SZ_LONG; if(packflg) w = packflg; break; case Ael1: /* initial allign of struct element */ for(v=t; v->etype==TARRAY; v=v->link) ; w = ewidth[v->etype]; if(w <= 0 || w >= SZ_SHORT) w = SZ_SHORT; 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 allign of parameter */ w = ewidth[t->etype]; if(w <= 0 || w >= SZ_LONG) { 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; break; case Aaut3: /* total allign of automatic */ o = align(o, t, Ael1); o = align(o, t, Ael2); break; } o = round(o, w); if(debug['A']) print("align %s %ld %T = %ld\n", bnames[op], i, t, o); return o; } long maxround(long max, long v) { v += SZ_LONG-1; if(v > max) max = round(v, SZ_LONG); return max; }