#include "cc.h" Node* new(int t, Node *l, Node *r) { Node *n; n = alloc(sizeof(*n)); n->op = t; n->left = l; n->right = r; if(l && t != OGOTO) n->lineno = l->lineno; else if(r) n->lineno = r->lineno; else n->lineno = lineno; newflag = 1; return n; } Node* new1(int o, Node *l, Node *r) { Node *n; n = new(o, l, r); n->lineno = nearln; return n; } void prtree(Node *n, char *s) { print(" == %s ==\n", s); prtree1(n, 0, 0); print("\n"); } void prtree1(Node *n, int d, int f) { int i; if(f) for(i=0; iop == OLIST) { prtree1(n->left, d, 0); prtree1(n->right, d, 1); return; } d++; print("%O", n->op); i = 3; switch(n->op) { case ONAME: print(" \"%F\"", n); print(" %ld", n->xoffset); i = 0; break; case OINDREG: print(" %ld(R%d)", n->xoffset, n->reg); i = 0; break; case OREGISTER: if(n->xoffset) print(" %ld+R%d", n->xoffset, n->reg); else print(" R%d", n->reg); i = 0; break; case OSTRING: print(" \"%s\"", n->cstring); i = 0; break; case OLSTRING: if(sizeof(TRune) == sizeof(Rune)) print(" \"%S\"", (Rune*)n->rstring); else print(" \"...\""); i = 0; break; case ODOT: case OELEM: print(" \"%F\"", n); break; case OCONST: if(typefd[n->type->etype]) print(" \"%.8e\"", n->fconst); else print(" \"%lld\"", n->vconst); i = 0; break; } if(n->addable != 0) print(" <%d>", n->addable); if(n->type != T) print(" %T", n->type); if(n->complex != 0) print(" (%d)", n->complex); print(" %L\n", n->lineno); if(i & 2) prtree1(n->left, d, 1); if(i & 1) prtree1(n->right, d, 1); } Type* typ(int et, Type *d) { Type *t; t = alloc(sizeof(*t)); t->etype = et; t->link = d; t->down = T; t->sym = S; t->width = ewidth[et]; t->offset = 0; t->shift = 0; t->nbits = 0; t->garb = 0; return t; } Type* copytyp(Type *t) { Type *nt; nt = typ(TXXX, T); *nt = *t; return nt; } Type* garbt(Type *t, long b) { Type *t1; if(b & BGARB) { t1 = copytyp(t); t1->garb = simpleg(b); return t1; } return t; } int simpleg(long b) { b &= BGARB; switch(b) { case BCONSTNT: return GCONSTNT; case BVOLATILE: return GVOLATILE; case BVOLATILE|BCONSTNT: return GCONSTNT|GVOLATILE; } return GXXX; } int simplec(long b) { b &= BCLASS; switch(b) { case 0: case BREGISTER: return CXXX; case BAUTO: case BAUTO|BREGISTER: return CAUTO; case BEXTERN: return CEXTERN; case BEXTERN|BREGISTER: return CEXREG; case BSTATIC: return CSTATIC; case BTYPEDEF: return CTYPEDEF; case BTYPESTR: return CTYPESTR; } diag(Z, "illegal combination of classes %Q", b); return CXXX; } Type* simplet(long b) { b &= ~BCLASS & ~BGARB; switch(b) { case BCHAR: case BCHAR|BSIGNED: return types[TCHAR]; case BCHAR|BUNSIGNED: return types[TUCHAR]; case BSHORT: case BSHORT|BINT: case BSHORT|BSIGNED: case BSHORT|BINT|BSIGNED: return types[TSHORT]; case BUNSIGNED|BSHORT: case BUNSIGNED|BSHORT|BINT: return types[TUSHORT]; case 0: case BINT: case BINT|BSIGNED: case BSIGNED: return types[TINT]; case BUNSIGNED: case BUNSIGNED|BINT: return types[TUINT]; case BLONG: case BLONG|BINT: case BLONG|BSIGNED: case BLONG|BINT|BSIGNED: return types[TLONG]; case BUNSIGNED|BLONG: case BUNSIGNED|BLONG|BINT: return types[TULONG]; case BVLONG|BLONG: case BVLONG|BLONG|BINT: case BVLONG|BLONG|BSIGNED: case BVLONG|BLONG|BINT|BSIGNED: return types[TVLONG]; case BVLONG|BLONG|BUNSIGNED: case BVLONG|BLONG|BINT|BUNSIGNED: return types[TUVLONG]; case BFLOAT: return types[TFLOAT]; case BDOUBLE: case BDOUBLE|BLONG: case BFLOAT|BLONG: return types[TDOUBLE]; case BVOID: return types[TVOID]; } diag(Z, "illegal combination of types %Q", b); return types[TINT]; } int stcompat(Node *n, Type *t1, Type *t2, long ttab[]) { int i; ulong b; i = 0; if(t2 != T) i = t2->etype; b = 1L << i; i = 0; if(t1 != T) i = t1->etype; if(b & ttab[i]) { if(ttab == tasign) if(b == BSTRUCT || b == BUNION) if(!sametype(t1, t2)) return 1; if(n->op != OCAST) if(b == BIND && i == TIND) if(!sametype(t1, t2)) return 1; return 0; } return 1; } int tcompat(Node *n, Type *t1, Type *t2, long ttab[]) { if(stcompat(n, t1, t2, ttab)) { if(t1 == T) diag(n, "incompatible type: \"%T\" for op \"%O\"", t2, n->op); else diag(n, "incompatible types: \"%T\" and \"%T\" for op \"%O\"", t1, t2, n->op); return 1; } return 0; } void makedot(Node *n, Type *t, long o) { Node *n1, *n2; if(t->nbits) { n1 = new(OXXX, Z, Z); *n1 = *n; n->op = OBIT; n->left = n1; n->right = Z; n->type = t; n->addable = n1->left->addable; n = n1; } n->addable = n->left->addable; if(n->addable == 0) { n1 = new1(OCONST, Z, Z); n1->vconst = o; n1->type = types[TLONG]; n->right = n1; n->type = t; return; } n->left->type = t; if(o == 0) { *n = *n->left; return; } n->type = t; n1 = new1(OCONST, Z, Z); n1->vconst = o; t = typ(TIND, t); t->width = types[TIND]->width; n1->type = t; n2 = new1(OADDR, n->left, Z); n2->type = t; n1 = new1(OADD, n1, n2); n1->type = t; n->op = OIND; n->left = n1; n->right = Z; } Type* dotsearch(Sym *s, Type *t, Node *n, long *off) { Type *t1, *xt, *rt; xt = T; /* * look it up by name */ for(t1 = t; t1 != T; t1 = t1->down) if(t1->sym == s) { if(xt != T) goto ambig; xt = t1; } /* * look it up by type */ if(s->class == CTYPEDEF || s->class == CTYPESTR) for(t1 = t; t1 != T; t1 = t1->down) if(t1->sym == S && typesu[t1->etype]) if(sametype(s->type, t1)) { if(xt != T) goto ambig; xt = t1; } if(xt != T) { *off = xt->offset; return xt; } /* * look it up in unnamed substructures */ for(t1 = t; t1 != T; t1 = t1->down) if(t1->sym == S && typesu[t1->etype]){ rt = dotsearch(s, t1->link, n, off); if(rt != T) { if(xt != T) goto ambig; xt = rt; *off += t1->offset; } } return xt; ambig: diag(n, "ambiguous structure element: %s", s->name); return xt; } long dotoffset(Type *st, Type *lt, Node *n) { Type *t; Sym *g; long o, o1; o = -1; /* * first try matching at the top level * for matching tag names */ g = st->tag; if(g != S) for(t=lt->link; t!=T; t=t->down) if(t->sym == S) if(g == t->tag) { if(o >= 0) goto ambig; o = t->offset; } if(o >= 0) return o; /* * second try matching at the top level * for similar types */ for(t=lt->link; t!=T; t=t->down) if(t->sym == S) if(sametype(st, t)) { if(o >= 0) goto ambig; o = t->offset; } if(o >= 0) return o; /* * last try matching sub-levels */ for(t=lt->link; t!=T; t=t->down) if(t->sym == S) if(typesu[t->etype]) { o1 = dotoffset(st, t, n); if(o1 >= 0) { if(o >= 0) goto ambig; o = o1 + t->offset; } } return o; ambig: diag(n, "ambiguous unnamed structure element"); return o; } /* * look into tree for floating point constant expressions */ int allfloat(Node *n, int flag) { if(n != Z) { if(n->type->etype != TDOUBLE) return 1; switch(n->op) { case OCONST: if(flag) n->type = types[TFLOAT]; return 1; case OADD: /* no need to get more exotic than this */ case OSUB: case OMUL: case ODIV: if(!allfloat(n->right, flag)) break; case OCAST: if(!allfloat(n->left, flag)) break; if(flag) n->type = types[TFLOAT]; return 1; } } return 0; } void constas(Node *n, Type *il, Type *ir) { Type *l, *r; l = il; r = ir; if(l == T) return; if(l->garb & GCONSTNT) { warn(n, "assignment to a constant type (%T)", il); return; } if(r == T) return; for(;;) { if(l->etype != TIND || r->etype != TIND) break; l = l->link; r = r->link; if(l == T || r == T) break; if(r->garb & GCONSTNT) if(!(l->garb & GCONSTNT)) { warn(n, "assignment of a constant pointer type (%T)", ir); break; } } } void typeext1(Type *st, Node *l) { if(st->etype == TFLOAT && allfloat(l, 0)) allfloat(l, 1); } void typeext(Type *st, Node *l) { Type *lt; Node *n1, *n2; long o; lt = l->type; if(lt == T) return; if(st->etype == TIND && vconst(l) == 0) { l->type = st; l->vconst = 0; return; } typeext1(st, l); /* * extension of C * if assign of struct containing unnamed sub-struct * to type of sub-struct, insert the DOT. * if assign of *struct containing unnamed substruct * to type of *sub-struct, insert the add-offset */ if(typesu[st->etype] && typesu[lt->etype]) { o = dotoffset(st, lt, l); if(o >= 0) { n1 = new1(OXXX, Z, Z); *n1 = *l; l->op = ODOT; l->left = n1; l->right = Z; makedot(l, st, o); } return; } if(st->etype == TIND && typesu[st->link->etype]) if(lt->etype == TIND && typesu[lt->link->etype]) { o = dotoffset(st->link, lt->link, l); if(o >= 0) { l->type = st; if(o == 0) return; n1 = new1(OXXX, Z, Z); *n1 = *l; n2 = new1(OCONST, Z, Z); n2->vconst = o; n2->type = st; l->op = OADD; l->left = n1; l->right = n2; } return; } } /* * a cast that generates no code * (same size move) */ int nocast(Type *t1, Type *t2) { int i, b; if(t1->nbits) return 0; i = 0; if(t2 != T) i = t2->etype; b = 1<etype; if(b & ncast[i]) return 1; return 0; } /* * a cast that has a noop semantic * (small to large, convert) */ int nilcast(Type *t1, Type *t2) { int et1, et2; if(t1 == T) return 0; if(t1->nbits) return 0; if(t2 == T) return 0; et1 = t1->etype; et2 = t2->etype; if(et1 == et2) return 1; if(typefd[et1] && typefd[et2]) { if(ewidth[et1] < ewidth[et2]) return 1; return 0; } if(typechlp[et1] && typechlp[et2]) { if(ewidth[et1] < ewidth[et2]) return 1; return 0; } return 0; } /* * "the usual arithmetic conversions are performed" */ void arith(Node *n, int f) { Type *t1, *t2; int i, j, k; Node *n1; long w; t1 = n->left->type; if(n->right == Z) t2 = t1; else t2 = n->right->type; i = TXXX; if(t1 != T) i = t1->etype; j = TXXX; if(t2 != T) j = t2->etype; k = tab[i][j]; if(k == TIND) { if(i == TIND) n->type = t1; else if(j == TIND) n->type = t2; } else { /* convert up to at least int */ if(f == 1) while(k < TINT) k += 2; n->type = types[k]; } if(n->op == OSUB) if(i == TIND && j == TIND) { w = n->right->type->link->width; if(w < 1 || n->left->type->link == T || n->left->type->link->width < 1) goto bad; n->type = types[ewidth[TIND] <= ewidth[TLONG]? TLONG: TVLONG]; if(1 && ewidth[TIND] > ewidth[TLONG]){ n1 = new1(OXXX, Z, Z); *n1 = *n; n->op = OCAST; n->left = n1; n->right = Z; n->type = types[TLONG]; } if(w > 1) { n1 = new1(OXXX, Z, Z); *n1 = *n; n->op = ODIV; n->left = n1; n1 = new1(OCONST, Z, Z); n1->vconst = w; n1->type = n->type; n->right = n1; w = vlog(n1); if(w >= 0) { n->op = OASHR; n1->vconst = w; } } return; } if(!sametype(n->type, n->left->type)) { n->left = new1(OCAST, n->left, Z); n->left->type = n->type; if(n->type->etype == TIND) { w = n->type->link->width; if(w < 1) { snap(n->type->link); w = n->type->link->width; if(w < 1) goto bad; } if(w > 1) { n1 = new1(OCONST, Z, Z); n1->vconst = w; n1->type = n->type; n->left = new1(OMUL, n->left, n1); n->left->type = n->type; } } } if(n->right != Z) if(!sametype(n->type, n->right->type)) { n->right = new1(OCAST, n->right, Z); n->right->type = n->type; if(n->type->etype == TIND) { w = n->type->link->width; if(w < 1) { snap(n->type->link); w = n->type->link->width; if(w < 1) goto bad; } if(w != 1) { n1 = new1(OCONST, Z, Z); n1->vconst = w; n1->type = n->type; n->right = new1(OMUL, n->right, n1); n->right->type = n->type; } } } return; bad: diag(n, "pointer addition not fully declared: %T", n->type->link); } /* * try to rewrite shift & mask */ void simplifyshift(Node *n) { ulong c3; int o, s1, s2, c1, c2; if(!typechlp[n->type->etype]) return; switch(n->op) { default: return; case OASHL: s1 = 0; break; case OLSHR: s1 = 1; break; case OASHR: s1 = 2; break; } if(n->right->op != OCONST) return; if(n->left->op != OAND) return; if(n->left->right->op != OCONST) return; switch(n->left->left->op) { default: return; case OASHL: s2 = 0; break; case OLSHR: s2 = 1; break; case OASHR: s2 = 2; break; } if(n->left->left->right->op != OCONST) return; c1 = n->right->vconst; c2 = n->left->left->right->vconst; c3 = n->left->right->vconst; /* if(debug['h']) print("%.3o %ld %ld %d #%.lux\n", (s1<<3)|s2, c1, c2, topbit(c3), c3); */ o = n->op; switch((s1<<3)|s2) { case 000: /* (((e <>= c2; c1 += c2; if(c1 >= 32) break; goto rewrite1; case 002: /* (((e >>s c2) & c3) <= (32-c2)) break; case 001: /* (((e >>u c2) & c3) < c2) { c3 <<= c2; c1 -= c2; o = OASHL; goto rewrite1; } c3 <<= c1; if(c1 == c2) goto rewrite0; c1 = c2-c1; o = OLSHR; goto rewrite2; case 022: /* (((e >>s c2) & c3) >>s c1) */ if(c2 <= 0) break; case 012: /* (((e >>s c2) & c3) >>u c1) */ if(topbit(c3) >= (32-c2)) break; goto s11; case 021: /* (((e >>u c2) & c3) >>s c1) */ if(topbit(c3) >= 31 && c2 <= 0) break; goto s11; case 011: /* (((e >>u c2) & c3) >>u c1) */ s11: c3 <<= c2; c1 += c2; if(c1 >= 32) break; o = OLSHR; goto rewrite1; case 020: /* (((e <>s c1) */ if(topbit(c3) >= 31) break; case 010: /* (((e <>u c1) */ c3 >>= c1; if(c1 == c2) goto rewrite0; if(c1 > c2) { c1 -= c2; goto rewrite2; } c1 = c2 - c1; o = OASHL; goto rewrite2; } return; rewrite0: /* get rid of both shifts */ if(debug['<'])prtree(n, "rewrite0"); *n = *n->left; n->left = n->left->left; n->right->vconst = c3; return; rewrite1: /* get rid of lower shift */ if(debug['<'])prtree(n, "rewrite1"); n->left->left = n->left->left->left; n->left->right->vconst = c3; n->right->vconst = c1; n->op = o; return; rewrite2: /* get rid of upper shift */ if(debug['<'])prtree(n, "rewrite2"); *n = *n->left; n->right->vconst = c3; n->left->right->vconst = c1; n->left->op = o; } int side(Node *n) { loop: if(n != Z) switch(n->op) { case OCAST: case ONOT: case OADDR: case OIND: n = n->left; goto loop; case OCOND: if(side(n->left)) break; n = n->right; case OEQ: case ONE: case OLT: case OGE: case OGT: case OLE: case OADD: case OSUB: case OMUL: case OLMUL: case ODIV: case OLDIV: case OLSHR: case OASHL: case OASHR: case OAND: case OOR: case OXOR: case OMOD: case OLMOD: case OANDAND: case OOROR: case OCOMMA: case ODOT: if(side(n->left)) break; n = n->right; goto loop; case OSIGN: case OSIZE: case OCONST: case OSTRING: case OLSTRING: case ONAME: return 0; } return 1; } int vconst(Node *n) { int i; if(n == Z) goto no; if(n->op != OCONST) goto no; if(n->type == T) goto no; switch(n->type->etype) { case TFLOAT: case TDOUBLE: i = 100; if(n->fconst > i || n->fconst < -i) goto no; i = n->fconst; if(i != n->fconst) goto no; return i; case TVLONG: case TUVLONG: i = n->vconst; if(i != n->vconst) goto no; return i; case TCHAR: case TUCHAR: case TSHORT: case TUSHORT: case TINT: case TUINT: case TLONG: case TULONG: case TIND: i = n->vconst; if(i != n->vconst) goto no; return i; } no: return -159; /* first uninteresting constant */ } /* * return log(n) if n is a power of 2 constant */ int log2(uvlong v) { int s, i; uvlong m; s = 0; m = MASK(8*sizeof(uvlong)); for(i=32; i; i>>=1) { m >>= i; if(!(v & m)) { v >>= i; s += i; } } if(v == 1) return s; return -1; } int vlog(Node *n) { if(n->op != OCONST) goto bad; if(typefd[n->type->etype]) goto bad; return log2(n->vconst); bad: return -1; } int topbit(ulong v) { int i; for(i = -1; v; i++) v >>= 1; return i; } /* * try to cast a constant down * rather than cast a variable up * example: * if(c == 'a') */ void relcon(Node *l, Node *r) { vlong v; if(l->op != OCONST) return; if(r->op != OCAST) return; if(!nilcast(r->left->type, r->type)) return; switch(r->type->etype) { default: return; case TCHAR: case TUCHAR: case TSHORT: case TUSHORT: v = convvtox(l->vconst, r->type->etype); if(v != l->vconst) return; break; } l->type = r->left->type; *r = *r->left; } int relindex(int o) { switch(o) { default: diag(Z, "bad in relindex: %O", o); case OEQ: return 0; case ONE: return 1; case OLE: return 2; case OLS: return 3; case OLT: return 4; case OLO: return 5; case OGE: return 6; case OHS: return 7; case OGT: return 8; case OHI: return 9; } } Node* invert(Node *n) { Node *i; if(n == Z || n->op != OLIST) return n; i = n; for(n = n->left; n != Z; n = n->left) { if(n->op != OLIST) break; i->left = n->right; n->right = i; i = n; } i->left = n; return i; } int bitno(long b) { int i; for(i=0; i<32; i++) if(b & (1L< vlong */ else warn(Z, "once is enough: %Q", a & b); return c; } void diag(Node *n, char *fmt, ...) { char buf[STRINGSZ]; va_list arg; va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); Bprint(&diagbuf, "%L %s\n", (n==Z)? nearln: n->lineno, buf); if(debug['X']){ Bflush(&diagbuf); abort(); } if(n != Z) if(debug['v']) prtree(n, "diagnostic"); nerrors++; if(nerrors > 10) { Bprint(&diagbuf, "too many errors\n"); errorexit(); } } void warn(Node *n, char *fmt, ...) { char buf[STRINGSZ]; va_list arg; if(debug['w'] || debug['W']) { va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); if(debug['W']) { diag(n, "%s", buf); return; } Bprint(&diagbuf, "warning: %L %s\n", (n==Z)? nearln: n->lineno, buf); if(n != Z) if(debug['v']) prtree(n, "warning"); } } void yyerror(char *fmt, ...) { char buf[STRINGSZ]; va_list arg; /* * hack to intercept message from yaccpar */ if(strcmp(fmt, "syntax error") == 0) { yyerror("syntax error, last name: %s", symb); return; } va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); Bprint(&diagbuf, "%L %s\n", lineno, buf); nerrors++; if(nerrors > 10) { Bprint(&diagbuf, "too many errors\n"); errorexit(); } } void fatal(Node *n, char *fmt, ...) { char buf[STRINGSZ]; va_list arg; va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); Bprint(&diagbuf, "%L %s\n", (n==Z)? nearln: n->lineno, buf); if(debug['X']){ Bflush(&diagbuf); abort(); } if(n != Z) if(debug['v']) prtree(n, "diagnostic"); nerrors++; errorexit(); } ulong thash1 = 0x2edab8c9; ulong thash2 = 0x1dc74fb8; ulong thash3 = 0x1f241331; ulong thash[NALLTYPES]; Init thashinit[] = { TXXX, 0x17527bbd, 0, TCHAR, 0x5cedd32b, 0, TUCHAR, 0x552c4454, 0, TSHORT, 0x63040b4b, 0, TUSHORT, 0x32a45878, 0, TINT, 0x4151d5bd, 0, TUINT, 0x5ae707d6, 0, TLONG, 0x5ef20f47, 0, TULONG, 0x36d8eb8f, 0, TVLONG, 0x6e5e9590, 0, TUVLONG, 0x75910105, 0, TFLOAT, 0x25fd7af1, 0, TDOUBLE, 0x7c40a1b2, 0, TIND, 0x1b832357, 0, TFUNC, 0x6babc9cb, 0, TARRAY, 0x7c50986d, 0, TVOID, 0x44112eff, 0, TSTRUCT, 0x7c2da3bf, 0, TUNION, 0x3eb25e98, 0, TENUM, 0x44b54f61, 0, TFILE, 0x19242ac3, 0, TOLD, 0x22b15988, 0, TDOT, 0x0204f6b3, 0, -1, 0, 0, }; char* bnames[NALIGN]; Init bnamesinit[] = { Axxx, 0, "Axxx", Ael1, 0, "el1", Ael2, 0, "el2", Asu2, 0, "su2", Aarg0, 0, "arg0", Aarg1, 0, "arg1", Aarg2, 0, "arg2", Aaut3, 0, "aut3", -1, 0, 0, }; char* tnames[NALLTYPES]; Init tnamesinit[] = { TXXX, 0, "TXXX", TCHAR, 0, "CHAR", TUCHAR, 0, "UCHAR", TSHORT, 0, "SHORT", TUSHORT, 0, "USHORT", TINT, 0, "INT", TUINT, 0, "UINT", TLONG, 0, "LONG", TULONG, 0, "ULONG", TVLONG, 0, "VLONG", TUVLONG, 0, "UVLONG", TFLOAT, 0, "FLOAT", TDOUBLE, 0, "DOUBLE", TIND, 0, "IND", TFUNC, 0, "FUNC", TARRAY, 0, "ARRAY", TVOID, 0, "VOID", TSTRUCT, 0, "STRUCT", TUNION, 0, "UNION", TENUM, 0, "ENUM", TFILE, 0, "FILE", TOLD, 0, "OLD", TDOT, 0, "DOT", -1, 0, 0, }; char* gnames[NGTYPES]; Init gnamesinit[] = { GXXX, 0, "GXXX", GCONSTNT, 0, "CONST", GVOLATILE, 0, "VOLATILE", GVOLATILE|GCONSTNT, 0, "CONST-VOLATILE", -1, 0, 0, }; char* qnames[NALLTYPES]; Init qnamesinit[] = { TXXX, 0, "TXXX", TCHAR, 0, "CHAR", TUCHAR, 0, "UCHAR", TSHORT, 0, "SHORT", TUSHORT, 0, "USHORT", TINT, 0, "INT", TUINT, 0, "UINT", TLONG, 0, "LONG", TULONG, 0, "ULONG", TVLONG, 0, "VLONG", TUVLONG, 0, "UVLONG", TFLOAT, 0, "FLOAT", TDOUBLE, 0, "DOUBLE", TIND, 0, "IND", TFUNC, 0, "FUNC", TARRAY, 0, "ARRAY", TVOID, 0, "VOID", TSTRUCT, 0, "STRUCT", TUNION, 0, "UNION", TENUM, 0, "ENUM", TAUTO, 0, "AUTO", TEXTERN, 0, "EXTERN", TSTATIC, 0, "STATIC", TTYPEDEF, 0, "TYPEDEF", TTYPESTR, 0, "TYPESTR", TREGISTER, 0, "REGISTER", TCONSTNT, 0, "CONSTNT", TVOLATILE, 0, "VOLATILE", TUNSIGNED, 0, "UNSIGNED", TSIGNED, 0, "SIGNED", TDOT, 0, "DOT", TFILE, 0, "FILE", TOLD, 0, "OLD", -1, 0, 0, }; char* cnames[NCTYPES]; Init cnamesinit[] = { CXXX, 0, "CXXX", CAUTO, 0, "AUTO", CEXTERN, 0, "EXTERN", CGLOBL, 0, "GLOBL", CSTATIC, 0, "STATIC", CLOCAL, 0, "LOCAL", CTYPEDEF, 0, "TYPEDEF", CTYPESTR, 0, "TYPESTR", CPARAM, 0, "PARAM", CSELEM, 0, "SELEM", CLABEL, 0, "LABEL", CEXREG, 0, "EXREG", -1, 0, 0, }; char* onames[OEND+1]; Init onamesinit[] = { OXXX, 0, "OXXX", OADD, 0, "ADD", OADDR, 0, "ADDR", OAND, 0, "AND", OANDAND, 0, "ANDAND", OARRAY, 0, "ARRAY", OAS, 0, "AS", OASI, 0, "ASI", OASADD, 0, "ASADD", OASAND, 0, "ASAND", OASASHL, 0, "ASASHL", OASASHR, 0, "ASASHR", OASDIV, 0, "ASDIV", OASHL, 0, "ASHL", OASHR, 0, "ASHR", OASLDIV, 0, "ASLDIV", OASLMOD, 0, "ASLMOD", OASLMUL, 0, "ASLMUL", OASLSHR, 0, "ASLSHR", OASMOD, 0, "ASMOD", OASMUL, 0, "ASMUL", OASOR, 0, "ASOR", OASSUB, 0, "ASSUB", OASXOR, 0, "ASXOR", OBIT, 0, "BIT", OBREAK, 0, "BREAK", OCASE, 0, "CASE", OCAST, 0, "CAST", OCOMMA, 0, "COMMA", OCOND, 0, "COND", OCONST, 0, "CONST", OCONTINUE, 0, "CONTINUE", ODIV, 0, "DIV", ODOT, 0, "DOT", ODOTDOT, 0, "DOTDOT", ODWHILE, 0, "DWHILE", OENUM, 0, "ENUM", OEQ, 0, "EQ", OFOR, 0, "FOR", OFUNC, 0, "FUNC", OGE, 0, "GE", OGOTO, 0, "GOTO", OGT, 0, "GT", OHI, 0, "HI", OHS, 0, "HS", OIF, 0, "IF", OIND, 0, "IND", OINDREG, 0, "INDREG", OINIT, 0, "INIT", OLABEL, 0, "LABEL", OLDIV, 0, "LDIV", OLE, 0, "LE", OLIST, 0, "LIST", OLMOD, 0, "LMOD", OLMUL, 0, "LMUL", OLO, 0, "LO", OLS, 0, "LS", OLSHR, 0, "LSHR", OLT, 0, "LT", OMOD, 0, "MOD", OMUL, 0, "MUL", ONAME, 0, "NAME", ONE, 0, "NE", ONOT, 0, "NOT", OOR, 0, "OR", OOROR, 0, "OROR", OPOSTDEC, 0, "POSTDEC", OPOSTINC, 0, "POSTINC", OPREDEC, 0, "PREDEC", OPREINC, 0, "PREINC", OPROTO, 0, "PROTO", OREGISTER, 0, "REGISTER", ORETURN, 0, "RETURN", OSET, 0, "SET", OSIGN, 0, "SIGN", OSIZE, 0, "SIZE", OSTRING, 0, "STRING", OLSTRING, 0, "LSTRING", OSTRUCT, 0, "STRUCT", OSUB, 0, "SUB", OSWITCH, 0, "SWITCH", OUNION, 0, "UNION", OUSED, 0, "USED", OWHILE, 0, "WHILE", OXOR, 0, "XOR", OPOS, 0, "POS", ONEG, 0, "NEG", OCOM, 0, "COM", OELEM, 0, "ELEM", OTST, 0, "TST", OINDEX, 0, "INDEX", OFAS, 0, "FAS", OREGPAIR, 0, "REGPAIR", OEXREG, 0, "EXREG", OEND, 0, "END", -1, 0, 0, }; /* OEQ, ONE, OLE, OLS, OLT, OLO, OGE, OHS, OGT, OHI */ char comrel[12] = { ONE, OEQ, OGT, OHI, OGE, OHS, OLT, OLO, OLE, OLS, }; char invrel[12] = { OEQ, ONE, OGE, OHS, OGT, OHI, OLE, OLS, OLT, OLO, }; char logrel[12] = { OEQ, ONE, OLS, OLS, OLO, OLO, OHS, OHS, OHI, OHI, }; char typei[NTYPE]; int typeiinit[] = { TCHAR, TUCHAR, TSHORT, TUSHORT, TINT, TUINT, TLONG, TULONG, TVLONG, TUVLONG, -1, }; char typeu[NTYPE]; int typeuinit[] = { TUCHAR, TUSHORT, TUINT, TULONG, TUVLONG, TIND, -1, }; char typesuv[NTYPE]; int typesuvinit[] = { TVLONG, TUVLONG, TSTRUCT, TUNION, -1, }; char typeilp[NTYPE]; int typeilpinit[] = { TINT, TUINT, TLONG, TULONG, TIND, -1 }; char typechl[NTYPE]; char typechlv[NTYPE]; char typechlvp[NTYPE]; int typechlinit[] = { TCHAR, TUCHAR, TSHORT, TUSHORT, TINT, TUINT, TLONG, TULONG, -1, }; char typechlp[NTYPE]; int typechlpinit[] = { TCHAR, TUCHAR, TSHORT, TUSHORT, TINT, TUINT, TLONG, TULONG, TIND, -1, }; char typechlpfd[NTYPE]; int typechlpfdinit[] = { TCHAR, TUCHAR, TSHORT, TUSHORT, TINT, TUINT, TLONG, TULONG, TFLOAT, TDOUBLE, TIND, -1, }; char typec[NTYPE]; int typecinit[] = { TCHAR, TUCHAR, -1 }; char typeh[NTYPE]; int typehinit[] = { TSHORT, TUSHORT, -1, }; char typeil[NTYPE]; int typeilinit[] = { TINT, TUINT, TLONG, TULONG, -1, }; char typev[NTYPE]; int typevinit[] = { TVLONG, TUVLONG, -1, }; char typefd[NTYPE]; int typefdinit[] = { TFLOAT, TDOUBLE, -1, }; char typeaf[NTYPE]; int typeafinit[] = { TFUNC, TARRAY, -1, }; char typesu[NTYPE]; int typesuinit[] = { TSTRUCT, TUNION, -1, }; long tasign[NTYPE]; Init tasigninit[] = { TCHAR, BNUMBER, 0, TUCHAR, BNUMBER, 0, TSHORT, BNUMBER, 0, TUSHORT, BNUMBER, 0, TINT, BNUMBER, 0, TUINT, BNUMBER, 0, TLONG, BNUMBER, 0, TULONG, BNUMBER, 0, TVLONG, BNUMBER, 0, TUVLONG, BNUMBER, 0, TFLOAT, BNUMBER, 0, TDOUBLE, BNUMBER, 0, TIND, BIND, 0, TSTRUCT, BSTRUCT, 0, TUNION, BUNION, 0, -1, 0, 0, }; long tasadd[NTYPE]; Init tasaddinit[] = { TCHAR, BNUMBER, 0, TUCHAR, BNUMBER, 0, TSHORT, BNUMBER, 0, TUSHORT, BNUMBER, 0, TINT, BNUMBER, 0, TUINT, BNUMBER, 0, TLONG, BNUMBER, 0, TULONG, BNUMBER, 0, TVLONG, BNUMBER, 0, TUVLONG, BNUMBER, 0, TFLOAT, BNUMBER, 0, TDOUBLE, BNUMBER, 0, TIND, BINTEGER, 0, -1, 0, 0, }; long tcast[NTYPE]; Init tcastinit[] = { TCHAR, BNUMBER|BIND|BVOID, 0, TUCHAR, BNUMBER|BIND|BVOID, 0, TSHORT, BNUMBER|BIND|BVOID, 0, TUSHORT, BNUMBER|BIND|BVOID, 0, TINT, BNUMBER|BIND|BVOID, 0, TUINT, BNUMBER|BIND|BVOID, 0, TLONG, BNUMBER|BIND|BVOID, 0, TULONG, BNUMBER|BIND|BVOID, 0, TVLONG, BNUMBER|BIND|BVOID, 0, TUVLONG, BNUMBER|BIND|BVOID, 0, TFLOAT, BNUMBER|BVOID, 0, TDOUBLE, BNUMBER|BVOID, 0, TIND, BINTEGER|BIND|BVOID, 0, TVOID, BVOID, 0, TSTRUCT, BSTRUCT|BVOID, 0, TUNION, BUNION|BVOID, 0, -1, 0, 0, }; long tadd[NTYPE]; Init taddinit[] = { TCHAR, BNUMBER|BIND, 0, TUCHAR, BNUMBER|BIND, 0, TSHORT, BNUMBER|BIND, 0, TUSHORT, BNUMBER|BIND, 0, TINT, BNUMBER|BIND, 0, TUINT, BNUMBER|BIND, 0, TLONG, BNUMBER|BIND, 0, TULONG, BNUMBER|BIND, 0, TVLONG, BNUMBER|BIND, 0, TUVLONG, BNUMBER|BIND, 0, TFLOAT, BNUMBER, 0, TDOUBLE, BNUMBER, 0, TIND, BINTEGER, 0, -1, 0, 0, }; long tsub[NTYPE]; Init tsubinit[] = { TCHAR, BNUMBER, 0, TUCHAR, BNUMBER, 0, TSHORT, BNUMBER, 0, TUSHORT, BNUMBER, 0, TINT, BNUMBER, 0, TUINT, BNUMBER, 0, TLONG, BNUMBER, 0, TULONG, BNUMBER, 0, TVLONG, BNUMBER, 0, TUVLONG, BNUMBER, 0, TFLOAT, BNUMBER, 0, TDOUBLE, BNUMBER, 0, TIND, BINTEGER|BIND, 0, -1, 0, 0, }; long tmul[NTYPE]; Init tmulinit[] = { TCHAR, BNUMBER, 0, TUCHAR, BNUMBER, 0, TSHORT, BNUMBER, 0, TUSHORT, BNUMBER, 0, TINT, BNUMBER, 0, TUINT, BNUMBER, 0, TLONG, BNUMBER, 0, TULONG, BNUMBER, 0, TVLONG, BNUMBER, 0, TUVLONG, BNUMBER, 0, TFLOAT, BNUMBER, 0, TDOUBLE, BNUMBER, 0, -1, 0, 0, }; long tand[NTYPE]; Init tandinit[] = { TCHAR, BINTEGER, 0, TUCHAR, BINTEGER, 0, TSHORT, BINTEGER, 0, TUSHORT, BINTEGER, 0, TINT, BNUMBER, 0, TUINT, BNUMBER, 0, TLONG, BINTEGER, 0, TULONG, BINTEGER, 0, TVLONG, BINTEGER, 0, TUVLONG, BINTEGER, 0, -1, 0, 0, }; long trel[NTYPE]; Init trelinit[] = { TCHAR, BNUMBER, 0, TUCHAR, BNUMBER, 0, TSHORT, BNUMBER, 0, TUSHORT, BNUMBER, 0, TINT, BNUMBER, 0, TUINT, BNUMBER, 0, TLONG, BNUMBER, 0, TULONG, BNUMBER, 0, TVLONG, BNUMBER, 0, TUVLONG, BNUMBER, 0, TFLOAT, BNUMBER, 0, TDOUBLE, BNUMBER, 0, TIND, BIND, 0, -1, 0, 0, }; long tfunct[1] = { BFUNC, }; long tindir[1] = { BIND, }; long tdot[1] = { BSTRUCT|BUNION, }; long tnot[1] = { BNUMBER|BIND, }; long targ[1] = { BNUMBER|BIND|BSTRUCT|BUNION, }; char tab[NTYPE][NTYPE] = { /*TXXX*/ { 0, }, /*TCHAR*/ { 0, TCHAR, TUCHAR, TSHORT, TUSHORT, TINT, TUINT, TLONG, TULONG, TVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TUCHAR*/ { 0, TUCHAR, TUCHAR, TUSHORT, TUSHORT, TUINT, TUINT, TULONG, TULONG, TUVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TSHORT*/ { 0, TSHORT, TUSHORT, TSHORT, TUSHORT, TINT, TUINT, TLONG, TULONG, TVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TUSHORT*/ { 0, TUSHORT, TUSHORT, TUSHORT, TUSHORT, TUINT, TUINT, TULONG, TULONG, TUVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TINT*/ { 0, TINT, TUINT, TINT, TUINT, TINT, TUINT, TLONG, TULONG, TVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TUINT*/ { 0, TUINT, TUINT, TUINT, TUINT, TUINT, TUINT, TULONG, TULONG, TUVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TLONG*/ { 0, TLONG, TULONG, TLONG, TULONG, TLONG, TULONG, TLONG, TULONG, TVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TULONG*/ { 0, TULONG, TULONG, TULONG, TULONG, TULONG, TULONG, TULONG, TULONG, TUVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TVLONG*/ { 0, TVLONG, TUVLONG, TVLONG, TUVLONG, TVLONG, TUVLONG, TVLONG, TUVLONG, TVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TUVLONG*/ { 0, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TUVLONG, TFLOAT, TDOUBLE, TIND, }, /*TFLOAT*/ { 0, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TFLOAT, TDOUBLE, TIND, }, /*TDOUBLE*/ { 0, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TDOUBLE, TFLOAT, TDOUBLE, TIND, }, /*TIND*/ { 0, TIND, TIND, TIND, TIND, TIND, TIND, TIND, TIND, TIND, TIND, TIND, TIND, TIND, }, }; void urk(char *name, int max, int i) { if(i >= max) { fprint(2, "bad tinit: %s %d>=%d\n", name, i, max); exits("init"); } } void tinit(void) { int *ip; Init *p; for(p=thashinit; p->code >= 0; p++) { urk("thash", nelem(thash), p->code); thash[p->code] = p->value; } for(p=bnamesinit; p->code >= 0; p++) { urk("bnames", nelem(bnames), p->code); bnames[p->code] = p->s; } for(p=tnamesinit; p->code >= 0; p++) { urk("tnames", nelem(tnames), p->code); tnames[p->code] = p->s; } for(p=gnamesinit; p->code >= 0; p++) { urk("gnames", nelem(gnames), p->code); gnames[p->code] = p->s; } for(p=qnamesinit; p->code >= 0; p++) { urk("qnames", nelem(qnames), p->code); qnames[p->code] = p->s; } for(p=cnamesinit; p->code >= 0; p++) { urk("cnames", nelem(cnames), p->code); cnames[p->code] = p->s; } for(p=onamesinit; p->code >= 0; p++) { urk("onames", nelem(onames), p->code); onames[p->code] = p->s; } for(ip=typeiinit; *ip>=0; ip++) { urk("typei", nelem(typei), *ip); typei[*ip] = 1; } for(ip=typeuinit; *ip>=0; ip++) { urk("typeu", nelem(typeu), *ip); typeu[*ip] = 1; } for(ip=typesuvinit; *ip>=0; ip++) { urk("typesuv", nelem(typesuv), *ip); typesuv[*ip] = 1; } for(ip=typeilpinit; *ip>=0; ip++) { urk("typeilp", nelem(typeilp), *ip); typeilp[*ip] = 1; } for(ip=typechlinit; *ip>=0; ip++) { urk("typechl", nelem(typechl), *ip); typechl[*ip] = 1; typechlv[*ip] = 1; typechlvp[*ip] = 1; } for(ip=typechlpinit; *ip>=0; ip++) { urk("typechlp", nelem(typechlp), *ip); typechlp[*ip] = 1; typechlvp[*ip] = 1; } for(ip=typechlpfdinit; *ip>=0; ip++) { urk("typechlpfd", nelem(typechlpfd), *ip); typechlpfd[*ip] = 1; } for(ip=typecinit; *ip>=0; ip++) { urk("typec", nelem(typec), *ip); typec[*ip] = 1; } for(ip=typehinit; *ip>=0; ip++) { urk("typeh", nelem(typeh), *ip); typeh[*ip] = 1; } for(ip=typeilinit; *ip>=0; ip++) { urk("typeil", nelem(typeil), *ip); typeil[*ip] = 1; } for(ip=typevinit; *ip>=0; ip++) { urk("typev", nelem(typev), *ip); typev[*ip] = 1; typechlv[*ip] = 1; typechlvp[*ip] = 1; } for(ip=typefdinit; *ip>=0; ip++) { urk("typefd", nelem(typefd), *ip); typefd[*ip] = 1; } for(ip=typeafinit; *ip>=0; ip++) { urk("typeaf", nelem(typeaf), *ip); typeaf[*ip] = 1; } for(ip=typesuinit; *ip >= 0; ip++) { urk("typesu", nelem(typesu), *ip); typesu[*ip] = 1; } for(p=tasigninit; p->code >= 0; p++) { urk("tasign", nelem(tasign), p->code); tasign[p->code] = p->value; } for(p=tasaddinit; p->code >= 0; p++) { urk("tasadd", nelem(tasadd), p->code); tasadd[p->code] = p->value; } for(p=tcastinit; p->code >= 0; p++) { urk("tcast", nelem(tcast), p->code); tcast[p->code] = p->value; } for(p=taddinit; p->code >= 0; p++) { urk("tadd", nelem(tadd), p->code); tadd[p->code] = p->value; } for(p=tsubinit; p->code >= 0; p++) { urk("tsub", nelem(tsub), p->code); tsub[p->code] = p->value; } for(p=tmulinit; p->code >= 0; p++) { urk("tmul", nelem(tmul), p->code); tmul[p->code] = p->value; } for(p=tandinit; p->code >= 0; p++) { urk("tand", nelem(tand), p->code); tand[p->code] = p->value; } for(p=trelinit; p->code >= 0; p++) { urk("trel", nelem(trel), p->code); trel[p->code] = p->value; } /* 32-bit defaults */ typeword = typechlp; typeswitch = typechl; typecmplx = typesuv; } /* * return 1 if it is impossible to jump into the middle of n. */ static int deadhead(Node *n, int caseok) { loop: if(n == Z) return 1; switch(n->op) { case OLIST: if(!deadhead(n->left, caseok)) return 0; rloop: n = n->right; goto loop; case ORETURN: break; case OLABEL: return 0; case OGOTO: break; case OCASE: if(!caseok) return 0; goto rloop; case OSWITCH: return deadhead(n->right, 1); case OWHILE: case ODWHILE: goto rloop; case OFOR: goto rloop; case OCONTINUE: break; case OBREAK: break; case OIF: return deadhead(n->right->left, caseok) && deadhead(n->right->right, caseok); case OSET: case OUSED: break; } return 1; } int deadheads(Node *c) { return deadhead(c->left, 0) && deadhead(c->right, 0); } int mixedasop(Type *l, Type *r) { return !typefd[l->etype] && typefd[r->etype]; }