#include "c.h" static char prec[] = { #define xx(a,b,c,d,e,f,g) c, #define yy(a,b,c,d,e,f,g) c, #include "token.h" }; static int oper[] = { #define xx(a,b,c,d,e,f,g) d, #define yy(a,b,c,d,e,f,g) d, #include "token.h" }; float refinc = 1.0; static Tree expr2(void); static Tree expr3(int); static Tree nullcheck(Tree); static Tree postfix(Tree); static Tree unary(void); static Tree primary(void); static Type super(Type ty); static Type super(Type ty) { switch (ty->op) { case INT: if (ty->size < inttype->size) return inttype; break; case UNSIGNED: if (ty->size < unsignedtype->size) return unsignedtype; break; case POINTER: return unsignedptr; } return ty; } Tree expr(int tok) { static char stop[] = { IF, ID, '}', 0 }; Tree p = expr1(0); while (t == ',') { Tree q; t = gettok(); q = pointer(expr1(0)); p = tree(RIGHT, q->type, root(value(p)), q); } if (tok) test(tok, stop); return p; } Tree expr0(int tok) { return root(expr(tok)); } Tree expr1(int tok) { static char stop[] = { IF, ID, 0 }; Tree p = expr2(); if (t == '=' || (prec[t] >= 6 && prec[t] <= 8) || (prec[t] >= 11 && prec[t] <= 13)) { int op = t; t = gettok(); if (oper[op] == ASGN) p = asgntree(ASGN, p, value(expr1(0))); else { expect('='); p = incr(op, p, expr1(0)); } } if (tok) test(tok, stop); return p; } Tree incr(int op, Tree v, Tree e) { return asgntree(ASGN, v, (*optree[op])(oper[op], v, e)); } static Tree expr2(void) { Tree p = expr3(4); if (t == '?') { Tree l, r; Coordinate pts[2]; if (Aflag > 1 && isfunc(p->type)) warning("%s used in a conditional expression\n", funcname(p)); p = pointer(p); t = gettok(); pts[0] = src; l = pointer(expr(':')); pts[1] = src; r = pointer(expr2()); if (events.points) { apply(events.points, &pts[0], &l); apply(events.points, &pts[1], &r); } p = condtree(p, l, r); } return p; } Tree value(Tree p) { int op = generic(rightkid(p)->op); if (p->type != voidtype && (op==AND || op==OR || op==NOT || op==EQ || op==NE || op== LE || op==LT || op== GE || op==GT)) p = condtree(p, consttree(1, inttype), consttree(0, inttype)); return p; } static Tree expr3(int k) { int k1; Tree p = unary(); for (k1 = prec[t]; k1 >= k; k1--) while (prec[t] == k1 && *cp != '=') { Tree r; Coordinate pt; int op = t; t = gettok(); pt = src; p = pointer(p); if (op == ANDAND || op == OROR) { r = pointer(expr3(k1)); if (events.points) apply(events.points, &pt, &r); } else r = pointer(expr3(k1 + 1)); p = (*optree[op])(oper[op], p, r); } return p; } static Tree unary(void) { Tree p; switch (t) { case '*': t = gettok(); p = unary(); p = pointer(p); if (isptr(p->type) && (isfunc(p->type->type) || isarray(p->type->type))) p = retype(p, p->type->type); else { if (YYnull) p = nullcheck(p); p = rvalue(p); } break; case '&': t = gettok(); p = unary(); if (isarray(p->type) || isfunc(p->type)) p = retype(p, ptr(p->type)); else p = lvalue(p); if (isaddrop(p->op) && p->u.sym->sclass == REGISTER) error("invalid operand of unary &; `%s' is declared register\n", p->u.sym->name); else if (isaddrop(p->op)) p->u.sym->addressed = 1; break; case '+': t = gettok(); p = unary(); p = pointer(p); if (isarith(p->type)) p = cast(p, promote(p->type)); else typeerror(ADD, p, NULL); break; case '-': t = gettok(); p = unary(); p = pointer(p); if (isarith(p->type)) { Type ty = promote(p->type); p = cast(p, ty); if (isunsigned(ty)) { warning("unsigned operand of unary -\n"); p = simplify(ADD, ty, simplify(BCOM, ty, p, NULL), cnsttree(ty, 1UL)); } else p = simplify(NEG, ty, p, NULL); } else typeerror(SUB, p, NULL); break; case '~': t = gettok(); p = unary(); p = pointer(p); if (isint(p->type)) { Type ty = promote(p->type); p = simplify(BCOM, ty, cast(p, ty), NULL); } else typeerror(BCOM, p, NULL); break; case '!': t = gettok(); p = unary(); p = pointer(p); if (isscalar(p->type)) p = simplify(NOT, inttype, cond(p), NULL); else typeerror(NOT, p, NULL); break; case INCR: t = gettok(); p = unary(); p = incr(INCR, pointer(p), consttree(1, inttype)); break; case DECR: t = gettok(); p = unary(); p = incr(DECR, pointer(p), consttree(1, inttype)); break; case TYPECODE: case SIZEOF: { int op = t; Type ty; p = NULL; t = gettok(); if (t == '(') { t = gettok(); if (istypename(t, tsym)) { ty = typename(); expect(')'); } else { p = postfix(expr(')')); ty = p->type; } } else { p = unary(); ty = p->type; } assert(ty); if (op == TYPECODE) p = cnsttree(inttype, (long)ty->op); else { if (isfunc(ty) || ty->size == 0) error("invalid type argument `%t' to `sizeof'\n", ty); else if (p && rightkid(p)->op == FIELD) error("`sizeof' applied to a bit field\n"); p = cnsttree(unsignedlong, (unsigned long)ty->size); } } break; case '(': t = gettok(); if (istypename(t, tsym)) { Type ty, ty1 = typename(), pty; expect(')'); ty = unqual(ty1); if (isenum(ty)) { Type ty2 = ty->type; if (isconst(ty1)) ty2 = qual(CONST, ty2); if (isvolatile(ty1)) ty2 = qual(VOLATILE, ty2); ty1 = ty2; ty = ty->type; } p = pointer(unary()); pty = p->type; if (isenum(pty)) pty = pty->type; if (isarith(pty) && isarith(ty) || isptr(pty) && isptr(ty)) { explicitCast++; p = cast(p, ty); explicitCast--; } else if (isptr(pty) && isint(ty) || isint(pty) && isptr(ty)) { if (Aflag >= 1 && ty->size < pty->size) warning("conversion from `%t' to `%t' is compiler dependent\n", p->type, ty); p = cast(p, ty); } else if (ty != voidtype) { error("cast from `%t' to `%t' is illegal\n", p->type, ty1); ty1 = inttype; } if (generic(p->op) == INDIR || ty->size == 0) p = tree(RIGHT, ty1, NULL, p); else p = retype(p, ty1); } else p = postfix(expr(')')); break; default: p = postfix(primary()); } return p; } static Tree postfix(Tree p) { for (;;) switch (t) { case INCR: p = tree(RIGHT, p->type, tree(RIGHT, p->type, p, incr(t, p, consttree(1, inttype))), p); t = gettok(); break; case DECR: p = tree(RIGHT, p->type, tree(RIGHT, p->type, p, incr(t, p, consttree(1, inttype))), p); t = gettok(); break; case '[': { Tree q; t = gettok(); q = expr(']'); if (YYnull) if (isptr(p->type)) p = nullcheck(p); else if (isptr(q->type)) q = nullcheck(q); p = (*optree['+'])(ADD, pointer(p), pointer(q)); if (isptr(p->type) && isarray(p->type->type)) p = retype(p, p->type->type); else p = rvalue(p); } break; case '(': { Type ty; Coordinate pt; p = pointer(p); if (isptr(p->type) && isfunc(p->type->type)) ty = p->type->type; else { error("found `%t' expected a function\n", p->type); ty = func(voidtype, NULL, 1); p = retype(p, ptr(ty)); } pt = src; t = gettok(); p = call(p, ty, pt); } break; case '.': t = gettok(); if (t == ID) { if (isstruct(p->type)) { Tree q = addrof(p); p = field(q, token); q = rightkid(q); if (isaddrop(q->op) && q->u.sym->temporary) p = tree(RIGHT, p->type, p, NULL); } else error("left operand of . has incompatible type `%t'\n", p->type); t = gettok(); } else error("field name expected\n"); break; case DEREF: t = gettok(); p = pointer(p); if (t == ID) { if (isptr(p->type) && isstruct(p->type->type)) { if (YYnull) p = nullcheck(p); p = field(p, token); } else error("left operand of -> has incompatible type `%t'\n", p->type); t = gettok(); } else error("field name expected\n"); break; default: return p; } } static Tree primary(void) { Tree p; assert(t != '('); switch (t) { case ICON: case FCON: p = tree(mkop(CNST,tsym->type), tsym->type, NULL, NULL); p->u.v = tsym->u.c.v; break; case SCON: if (ischar(tsym->type->type)) tsym->u.c.v.p = stringn(tsym->u.c.v.p, tsym->type->size); else tsym->u.c.v.p = memcpy(allocate(tsym->type->size, PERM), tsym->u.c.v.p, tsym->type->size); tsym = constant(tsym->type, tsym->u.c.v); if (tsym->u.c.loc == NULL) tsym->u.c.loc = genident(STATIC, tsym->type, GLOBAL); p = idtree(tsym->u.c.loc); break; case ID: if (tsym == NULL) { Symbol p = install(token, &identifiers, level, FUNC); p->src = src; if (getchr() == '(') { Symbol q = lookup(token, externals); p->type = func(inttype, NULL, 1); p->sclass = EXTERN; if (Aflag >= 1) warning("missing prototype\n"); if (q && !eqtype(q->type, p->type, 1)) warning("implicit declaration of `%s' does not match previous declaration at %w\n", q->name, &q->src); if (q == NULL) { q = install(p->name, &externals, GLOBAL, PERM); q->type = p->type; q->sclass = EXTERN; q->src = src; (*IR->defsymbol)(q); } p->u.alias = q; } else { error("undeclared identifier `%s'\n", p->name); p->sclass = AUTO; p->type = inttype; if (p->scope == GLOBAL) (*IR->defsymbol)(p); else addlocal(p); } t = gettok(); if (xref) use(p, src); return idtree(p); } if (xref) use(tsym, src); if (tsym->sclass == ENUM) p = consttree(tsym->u.value, inttype); else { if (tsym->sclass == TYPEDEF) error("illegal use of type name `%s'\n", tsym->name); p = idtree(tsym); } break; case FIRSTARG: if (level > PARAM && cfunc && cfunc->u.f.callee[0]) p = idtree(cfunc->u.f.callee[0]); else { error("illegal use of `%k'\n", FIRSTARG); p = cnsttree(inttype, 0L); } break; default: error("illegal expression\n"); p = cnsttree(inttype, 0L); } t = gettok(); return p; } Tree idtree(Symbol p) { int op; Tree e; Type ty = p->type ? unqual(p->type) : voidptype; if (p->scope == GLOBAL || p->sclass == STATIC) op = ADDRG; else if (p->scope == PARAM) { op = ADDRF; if (isstruct(p->type) && !IR->wants_argb) { e = tree(mkop(op,voidptype), ptr(ptr(p->type)), NULL, NULL); e->u.sym = p; return rvalue(rvalue(e)); } } else if (p->sclass == EXTERN) { assert(p->u.alias); p = p->u.alias; op = ADDRG; } else op = ADDRL; p->ref += refinc; if (isarray(ty)) e = tree(mkop(op,voidptype), p->type, NULL, NULL); else if (isfunc(ty)) e = tree(mkop(op,funcptype), p->type, NULL, NULL); else e = tree(mkop(op,voidptype), ptr(p->type), NULL, NULL); e->u.sym = p; if (isptr(e->type)) e = rvalue(e); return e; } Tree rvalue(Tree p) { Type ty = deref(p->type); ty = unqual(ty); return tree(mkop(INDIR,ty), ty, p, NULL); } Tree lvalue(Tree p) { if (generic(p->op) != INDIR) { error("lvalue required\n"); return value(p); } else if (unqual(p->type) == voidtype) warning("`%t' used as an lvalue\n", p->type); return p->kids[0]; } Tree retype(Tree p, Type ty) { Tree q; if (p->type == ty) return p; q = tree(p->op, ty, p->kids[0], p->kids[1]); q->node = p->node; q->u = p->u; return q; } Tree rightkid(Tree p) { while (p && p->op == RIGHT) if (p->kids[1]) p = p->kids[1]; else if (p->kids[0]) p = p->kids[0]; else assert(0); assert(p); return p; } int hascall(Tree p) { if (p == 0) return 0; if (generic(p->op) == CALL || (IR->mulops_calls && (p->op == DIV+I || p->op == MOD+I || p->op == MUL+I || p->op == DIV+U || p->op == MOD+U || p->op == MUL+U))) return 1; return hascall(p->kids[0]) || hascall(p->kids[1]); } Type binary(Type xty, Type yty) { #define xx(t) if (xty == t || yty == t) return t xx(longdouble); xx(doubletype); xx(floattype); xx(unsignedlonglong); xx(longlong); xx(unsignedlong); if (xty == longtype && yty == unsignedtype || xty == unsignedtype && yty == longtype) if (longtype->size > unsignedtype->size) return longtype; else return unsignedlong; xx(longtype); xx(unsignedtype); return inttype; #undef xx } Tree pointer(Tree p) { if (isarray(p->type)) /* assert(p->op != RIGHT || p->u.sym == NULL), */ p = retype(p, atop(p->type)); else if (isfunc(p->type)) p = retype(p, ptr(p->type)); return p; } Tree cond(Tree p) { int op = generic(rightkid(p)->op); if (op == AND || op == OR || op == NOT || op == EQ || op == NE || op == LE || op == LT || op == GE || op == GT) return p; p = pointer(p); return (*optree[NEQ])(NE, p, consttree(0, inttype)); } Tree cast(Tree p, Type type) { Type src, dst; p = value(p); if (p->type == type) return p; dst = unqual(type); src = unqual(p->type); if (src->op != dst->op || src->size != dst->size) { switch (src->op) { case INT: if (src->size < inttype->size) p = simplify(CVI, inttype, p, NULL); break; case UNSIGNED: if (src->size < inttype->size) p = simplify(CVU, inttype, p, NULL); else if (src->size < unsignedtype->size) p = simplify(CVU, unsignedtype, p, NULL); break; case ENUM: p = retype(p, inttype); break; case POINTER: if (isint(dst) && src->size > dst->size) warning("conversion from `%t' to `%t' is undefined\n", p->type, type); p = simplify(CVP, super(src), p, NULL); break; case FLOAT: break; default: assert(0); } { src = unqual(p->type); dst = super(dst); if (src->op != dst->op) switch (src->op) { case INT: p = simplify(CVI, dst, p, NULL); break; case UNSIGNED: if (isfloat(dst)) { Type ssrc = signedint(src); Tree two = cnsttree(longdouble, (long double)2.0); p = (*optree['+'])(ADD, (*optree['*'])(MUL, two, simplify(CVU, ssrc, simplify(RSH, src, p, consttree(1, inttype)), NULL)), simplify(CVU, ssrc, simplify(BAND, src, p, consttree(1, unsignedtype)), NULL)); } else p = simplify(CVU, dst, p, NULL); break; case FLOAT: if (isunsigned(dst)) { Type sdst = signedint(dst); Tree c = cast(cnsttree(longdouble, (long double)sdst->u.sym->u.limits.max.i + 1), src); p = condtree( simplify(GE, src, p, c), (*optree['+'])(ADD, cast(cast(simplify(SUB, src, p, c), sdst), dst), cast(cnsttree(unsignedlong, (unsigned long)sdst->u.sym->u.limits.max.i + 1), dst)), simplify(CVF, sdst, p, NULL)); } else p = simplify(CVF, dst, p, NULL); break; default: assert(0); } dst = unqual(type); } } src = unqual(p->type); switch (src->op) { case INT: if (src->op != dst->op || src->size != dst->size) p = simplify(CVI, dst, p, NULL); break; case UNSIGNED: if (src->op != dst->op || src->size != dst->size) p = simplify(CVU, dst, p, NULL); break; case FLOAT: if (src->op != dst->op || src->size != dst->size) p = simplify(CVF, dst, p, NULL); break; case POINTER: if (src->op != dst->op) p = simplify(CVP, dst, p, NULL); else { if (isfunc(src->type) && !isfunc(dst->type) || !isfunc(src->type) && isfunc(dst->type)) warning("conversion from `%t' to `%t' is compiler dependent\n", p->type, type); if (src->size != dst->size) p = simplify(CVP, dst, p, NULL); } break; default: assert(0); } return retype(p, type); } Tree field(Tree p, const char *name) { Field q; Type ty1, ty = p->type; if (isptr(ty)) ty = deref(ty); ty1 = ty; ty = unqual(ty); if ((q = fieldref(name, ty)) != NULL) { if (isarray(q->type)) { ty = q->type->type; if (isconst(ty1) && !isconst(ty)) ty = qual(CONST, ty); if (isvolatile(ty1) && !isvolatile(ty)) ty = qual(VOLATILE, ty); ty = array(ty, q->type->size/ty->size, q->type->align); } else { ty = q->type; if (isconst(ty1) && !isconst(ty)) ty = qual(CONST, ty); if (isvolatile(ty1) && !isvolatile(ty)) ty = qual(VOLATILE, ty); ty = ptr(ty); } if (YYcheck && !isaddrop(p->op) && q->offset > 0) /* omit */ p = nullcall(ty, YYcheck, p, consttree(q->offset, inttype)); /* omit */ else /* omit */ p = simplify(ADD+P, ty, p, consttree(q->offset, inttype)); if (q->lsb) { p = tree(FIELD, ty->type, rvalue(p), NULL); p->u.field = q; } else if (!isarray(q->type)) p = rvalue(p); } else { error("unknown field `%s' of `%t'\n", name, ty); p = rvalue(retype(p, ptr(inttype))); } return p; } /* funcname - return name of function f or a function' */ char *funcname(Tree f) { if (isaddrop(f->op)) return stringf("`%s'", f->u.sym->name); return "a function"; } static Tree nullcheck(Tree p) { if (!needconst && YYnull && isptr(p->type)) { p = value(p); if (strcmp(YYnull->name, "_YYnull") == 0) { Symbol t1 = temporary(REGISTER, voidptype); p = tree(RIGHT, p->type, tree(OR, voidtype, cond(asgn(t1, cast(p, voidptype))), vcall(YYnull, voidtype, (file && *file ? pointer(idtree(mkstr(file)->u.c.loc)) : cnsttree(voidptype, NULL)), cnsttree(inttype, (long)lineno) , NULL)), idtree(t1)); } else p = nullcall(p->type, YYnull, p, cnsttree(inttype, 0L)); } return p; } Tree nullcall(Type pty, Symbol f, Tree p, Tree e) { Type ty; if (isarray(pty)) return retype(nullcall(atop(pty), f, p, e), pty); ty = unqual(unqual(p->type)->type); return vcall(f, pty, p, e, cnsttree(inttype, (long)ty->size), cnsttree(inttype, (long)ty->align), (file && *file ? pointer(idtree(mkstr(file)->u.c.loc)) : cnsttree(voidptype, NULL)), cnsttree(inttype, (long)lineno) , NULL); }