/* $OpenBSD: tree.c,v 1.46 2007/10/17 20:10:44 chl Exp $ */ /* $NetBSD: tree.c,v 1.12 1995/10/02 17:37:57 jpo Exp $ */ /* * Copyright (c) 1994, 1995 Jochen Pohl * All Rights Reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Jochen Pohl for * The NetBSD Project. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef lint static char rcsid[] = "$OpenBSD: tree.c,v 1.46 2007/10/17 20:10:44 chl Exp $"; #endif #include #include #include #include #include #include "lint1.h" #include "y.tab.h" /* Various flags for each operator. */ static mod_t modtab[NOPS]; static tnode_t *getinode(tspec_t, quad_t); static void ptrcmpok(op_t, tnode_t *, tnode_t *); static int asgntypok(op_t, farg_t *, tnode_t *, tnode_t *); static void chkbeop(op_t, tnode_t *, tnode_t *); static void chkeop2(op_t, farg_t *, tnode_t *, tnode_t *); static void chkeop1(op_t, farg_t *, tnode_t *, tnode_t *); static tnode_t *mktnode(op_t, type_t *, tnode_t *, tnode_t *); static void balance(op_t, tnode_t **, tnode_t **); static void incompat(op_t, tspec_t, tspec_t); static void illptrc(mod_t *, type_t *, type_t *); static void mrgqual(type_t **, type_t *, type_t *); static int conmemb(type_t *); static tspec_t fcnconv(farg_t *, tspec_t, tspec_t, type_t *, tnode_t *); static void iiconv(op_t, farg_t *, tspec_t, tspec_t, type_t *, tnode_t *); static void piconv(op_t, tspec_t, type_t *, tnode_t *); static void ppconv(op_t, tnode_t *, type_t *); static tnode_t *bldstr(op_t, tnode_t *, tnode_t *); static tnode_t *bldincdec(op_t, tnode_t *); static tnode_t *bldamper(tnode_t *, int); static tnode_t *bldplmi(op_t, tnode_t *, tnode_t *); static tnode_t *bldshft(op_t, tnode_t *, tnode_t *); static tnode_t *bldcol(tnode_t *, tnode_t *); static tnode_t *bldasgn(op_t, tnode_t *, tnode_t *); static tnode_t *plength(type_t *); static tnode_t *fold(tnode_t *); static tnode_t *foldtst(tnode_t *); static tnode_t *foldflt(tnode_t *); static tnode_t *chkfarg(tnode_t *, tnode_t *); static tnode_t *parg(farg_t *, tnode_t *); static int chkdbz(op_t, tnode_t *); static void nulleff(tnode_t *); static int nulleffexpr(tnode_t *); static void chkaidx(tnode_t *, int); static void chkcomp(op_t, tnode_t *, tnode_t *); static void precconf(tnode_t *); static const char *funcname(tnode_t *); /* * Initialize mods of operators. */ void initmtab(void) { static struct { op_t op; mod_t m; } imods[] = { { ARROW, { 1,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0, "->" } }, { POINT, { 1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "." } }, { NOT, { 0,1,0,1,0,1,0,1,0,0,0,0,0,0,0,1,0, "!" } }, { COMPL, { 0,0,1,0,0,1,1,0,0,0,0,0,0,0,0,1,1, "~" } }, { INCBEF, { 0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,1,0, "prefix++" } }, { DECBEF, { 0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,1,0, "prefix--" } }, { INCAFT, { 0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,1,0, "postfix++" } }, { DECAFT, { 0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,1,0, "postfix--" } }, { UPLUS, { 0,0,0,0,1,1,1,0,0,0,0,0,0,0,0,1,1, "unary +" } }, { UMINUS, { 0,0,0,0,1,1,1,0,0,0,1,0,0,0,0,1,1, "unary -" } }, { STAR, { 0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0, "unary *" } }, { AMPER, { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "unary &" } }, { MULT, { 1,0,0,0,1,1,1,0,1,0,0,1,0,0,0,1,1, "*" } }, { DIV, { 1,0,0,0,1,1,1,0,1,0,1,1,0,0,0,1,1, "/" } }, { MOD, { 1,0,1,0,0,1,1,0,1,0,1,1,0,0,0,1,1, "%" } }, { PLUS, { 1,0,0,1,0,1,1,0,1,0,0,0,0,0,0,1,0, "+" } }, { MINUS, { 1,0,0,1,0,1,1,0,1,0,0,0,0,0,0,1,0, "-" } }, { SHL, { 1,0,1,0,0,1,1,0,0,0,0,0,1,0,0,1,1, "<<" } }, { SHR, { 1,0,1,0,0,1,1,0,0,0,1,0,1,0,0,1,1, ">>" } }, { LT, { 1,1,0,1,0,1,1,0,1,0,1,1,0,1,1,0,1, "<" } }, { LE, { 1,1,0,1,0,1,1,0,1,0,1,1,0,1,1,0,1, "<=" } }, { GT, { 1,1,0,1,0,1,1,0,1,0,1,1,0,1,1,0,1, ">" } }, { GE, { 1,1,0,1,0,1,1,0,1,0,1,1,0,1,1,0,1, ">=" } }, { EQ, { 1,1,0,1,0,1,1,0,1,0,0,0,0,1,1,0,0, "==" } }, { NE, { 1,1,0,1,0,1,1,0,1,0,0,0,0,1,1,0,1, "!=" } }, { AND, { 1,0,1,0,0,1,1,0,1,0,0,0,1,0,0,1,0, "&" } }, { XOR, { 1,0,1,0,0,1,1,0,1,0,0,0,1,0,0,1,0, "^" } }, { OR, { 1,0,1,0,0,1,1,0,1,0,0,0,1,0,0,1,0, "|" } }, { LOGAND, { 1,1,0,1,0,1,0,1,0,0,0,0,0,0,0,1,0, "&&" } }, { LOGOR, { 1,1,0,1,0,1,0,1,0,0,0,0,1,0,0,1,0, "||" } }, { QUEST, { 1,0,0,0,0,1,0,1,0,0,0,0,0,0,0,0,0, "?" } }, { COLON, { 1,0,0,0,0,0,1,0,0,0,0,0,0,0,1,0,0, ":" } }, { ASSIGN, { 1,0,0,0,0,0,0,0,0,1,0,0,0,0,1,0,0, "=" } }, { MULASS, { 1,0,0,0,1,0,0,0,0,1,0,0,0,0,0,1,0, "*=" } }, { DIVASS, { 1,0,0,0,1,0,0,0,0,1,0,1,0,0,0,1,0, "/=" } }, { MODASS, { 1,0,1,0,0,0,0,0,0,1,0,1,0,0,0,1,0, "%=" } }, { ADDASS, { 1,0,0,1,0,0,0,0,0,1,0,0,0,0,0,1,0, "+=" } }, { SUBASS, { 1,0,0,1,0,0,0,0,0,1,0,0,0,0,0,1,0, "-=" } }, { SHLASS, { 1,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0, "<<=" } }, { SHRASS, { 1,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0, ">>=" } }, { ANDASS, { 1,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0, "&=" } }, { XORASS, { 1,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0, "^=" } }, { ORASS, { 1,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0, "|=" } }, { NAME, { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "NAME" } }, { CON, { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "CON" } }, { STRING, { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "STRING" } }, { FSEL, { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "FSEL" } }, { CALL, { 1,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0, "CALL" } }, { COMMA, { 1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1, "," } }, { CVT, { 0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0, "CVT" } }, { ICALL, { 1,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0, "ICALL" } }, { LOAD, { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, "LOAD" } }, { PUSH, { 0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0, "PUSH" } }, { RETURN, { 1,0,0,0,0,0,0,0,0,1,0,0,0,0,1,0,0, "RETURN" } }, { INIT, { 1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0, "INIT" } }, { FARG, { 1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0, "FARG" } }, { NOOP } }; int i; for (i = 0; imods[i].op != NOOP; i++) STRUCT_ASSIGN(modtab[imods[i].op], imods[i].m); } /* * Increase degree of reference. * This is most often used to change type "T" in type "pointer to T". */ type_t * incref(type_t *tp, tspec_t t) { type_t *tp2; tp2 = getblk(sizeof (type_t)); tp2->t_tspec = t; tp2->t_subt = tp; return (tp2); } /* * same for use in expressions */ type_t * tincref(type_t *tp, tspec_t t) { type_t *tp2; tp2 = tgetblk(sizeof (type_t)); tp2->t_tspec = t; tp2->t_subt = tp; return (tp2); } /* * Create a node for a constant. */ tnode_t * getcnode(type_t *tp, val_t *v) { tnode_t *n; n = getnode(); n->tn_op = CON; n->tn_type = tp; n->tn_val = tgetblk(sizeof (val_t)); n->tn_val->v_tspec = tp->t_tspec; n->tn_val->v_lspec = v->v_lspec; n->tn_val->v_ansiu = v->v_ansiu; n->tn_val->v_u = v->v_u; free(v); return (n); } /* * Create a node for a integer constant. */ static tnode_t * getinode(tspec_t t, quad_t q) { tnode_t *n; n = getnode(); n->tn_op = CON; n->tn_type = gettyp(t); n->tn_val = tgetblk(sizeof (val_t)); n->tn_val->v_tspec = t; n->tn_val->v_quad = q; return (n); } /* * Create a node for a name (symbol table entry). * ntok is the token which follows the name. */ tnode_t * getnnode(sym_t *sym, int ntok) { tnode_t *n; if (sym->s_scl == NOSCL) { sym->s_scl = EXTERN; sym->s_def = DECL; if (ntok == T_LPARN) { if (sflag) { /* function implicitly declared to ... */ warning(215); } sym->s_type = incref(sym->s_type, FUNC); } else { /* %s undefined */ error(99, sym->s_name); } } if (sym->s_kind != FVFT && sym->s_kind != FMOS) lerror("getnnode() 1"); n = getnode(); n->tn_type = sym->s_type; if (sym->s_scl != ENUMCON) { n->tn_op = NAME; n->tn_sym = sym; if (sym->s_kind == FVFT && sym->s_type->t_tspec != FUNC) n->tn_lvalue = 1; } else { n->tn_op = CON; n->tn_val = tgetblk(sizeof (val_t)); *n->tn_val = sym->s_value; } return (n); } /* * Create a node for a string. */ tnode_t * getsnode(strg_t *strg) { size_t len; tnode_t *n; len = strg->st_len; n = getnode(); n->tn_op = STRING; n->tn_type = tincref(gettyp(strg->st_tspec), ARRAY); n->tn_type->t_dim = len + 1; n->tn_lvalue = 1; n->tn_strg = tgetblk(sizeof (strg_t)); n->tn_strg->st_tspec = strg->st_tspec; n->tn_strg->st_len = len; if (strg->st_tspec == CHAR) { n->tn_strg->st_cp = tgetblk(len + 1); (void)memcpy(n->tn_strg->st_cp, strg->st_cp, len + 1); free(strg->st_cp); } else { n->tn_strg->st_wcp = tgetblk((len + 1) * sizeof (wchar_t)); (void)memcpy(n->tn_strg->st_wcp, strg->st_wcp, (len + 1) * sizeof (wchar_t)); free(strg->st_wcp); } free(strg); return (n); } /* * Returns a symbol which has the same name as the msym argument and is a * member of the struct or union specified by the tn argument. */ sym_t * strmemb(tnode_t *tn, op_t op, sym_t *msym) { str_t *str; type_t *tp; sym_t *sym, *csym; int eq; tspec_t t; /* * Remove the member if it was unknown until now (Which means * that no defined struct or union has a member with the same name). */ if (msym->s_scl == NOSCL) { /* undefined struct/union member: %s */ error(101, msym->s_name); rmsym(msym); msym->s_kind = FMOS; msym->s_scl = MOS; msym->s_styp = tgetblk(sizeof (str_t)); msym->s_styp->stag = tgetblk(sizeof (sym_t)); msym->s_styp->stag->s_name = unnamed; msym->s_value.v_tspec = INT; return (msym); } /* Set str to the tag of which msym is expected to be a member. */ str = NULL; t = (tp = tn->tn_type)->t_tspec; if (op == POINT) { if (t == STRUCT || t == UNION) str = tp->t_str; } else if (op == ARROW && t == PTR) { t = (tp = tp->t_subt)->t_tspec; if (t == STRUCT || t == UNION) str = tp->t_str; } /* * If this struct/union has a member with the name of msym, return * return this it. */ if (str != NULL) { for (sym = msym; sym != NULL; sym = sym->s_link) { if (sym->s_scl != MOS && sym->s_scl != MOU) continue; if (sym->s_styp != str) continue; if (strcmp(sym->s_name, msym->s_name) != 0) continue; return (sym); } } /* * Set eq to 0 if there are struct/union members with the same name * and different types and/or offsets. */ eq = 1; for (csym = msym; csym != NULL; csym = csym->s_link) { if (csym->s_scl != MOS && csym->s_scl != MOU) continue; if (strcmp(msym->s_name, csym->s_name) != 0) continue; for (sym = csym->s_link ; sym != NULL; sym = sym->s_link) { int w; if (sym->s_scl != MOS && sym->s_scl != MOU) continue; if (strcmp(csym->s_name, sym->s_name) != 0) continue; if (csym->s_value.v_quad != sym->s_value.v_quad) { eq = 0; break; } w = 0; eq = eqtype(csym->s_type, sym->s_type, 0, 0, &w) && !w; if (!eq) break; if (csym->s_field != sym->s_field) { eq = 0; break; } if (csym->s_field) { type_t *tp1, *tp2; tp1 = csym->s_type; tp2 = sym->s_type; if (tp1->t_flen != tp2->t_flen) { eq = 0; break; } if (tp1->t_foffs != tp2->t_foffs) { eq = 0; break; } } } if (!eq) break; } /* * Now handle the case in which the left operand refers really * to a struct/union, but the right operand is not member of it. */ if (str != NULL) { /* illegal member use: %s */ error(102, msym->s_name); return (msym); } /* * Now the left operand of ARROW does not point to a struct/union * or the left operand of POINT is no struct/union. */ if (eq) { if (op == POINT) { /* left operand of "." must be struct/union object */ error(103); } else { /* left operand of "->" must be pointer to ... */ error(104); } } else { /* unacceptable operand of %s */ error(111, modtab[op].m_name); } return (msym); } /* * Create a tree node. Called for most operands except function calls, * sizeof and casts. * * op operator * ln left operand * rn if not NULL, right operand */ tnode_t * build(op_t op, tnode_t *ln, tnode_t *rn) { mod_t *mp; tnode_t *ntn; type_t *rtp; mp = &modtab[op]; /* If there was an error in one of the operands, return. */ if (ln == NULL || (mp->m_binary && rn == NULL)) return (NULL); /* * Apply class conversions to the left operand, but only if its * value is needed or it is compared with null. */ if (mp->m_vctx || mp->m_tctx) ln = cconv(ln); /* * The right operand is almost always in a test or value context, * except if it is a struct or union member. */ if (mp->m_binary && op != ARROW && op != POINT) rn = cconv(rn); /* * Print some warnings for comparisons of unsigned values with * constants lower than or equal to null. This must be done * before promote() because otherwise unsigned char and unsigned * short would be promoted to int. Also types are tested to be * CHAR, which would also become int. */ if (mp->m_comp) chkcomp(op, ln, rn); /* * Promote the left operand if it is in a test or value context */ if (mp->m_vctx || mp->m_tctx) ln = promote(op, 0, ln); /* * Promote the right operand, but only if it is no struct or * union member, or if it is not to be assigned to the left operand */ if (mp->m_binary && op != ARROW && op != POINT && op != ASSIGN && op != RETURN) { rn = promote(op, 0, rn); } /* * If the result of the operation is different for signed or * unsigned operands and one of the operands is signed only in * ANSI C, print a warning. */ if (mp->m_tlansiu && ln->tn_op == CON && ln->tn_val->v_ansiu) { /* ANSI C treats constant as unsigned, op %s */ warning(218, mp->m_name); ln->tn_val->v_ansiu = 0; } if (mp->m_transiu && rn->tn_op == CON && rn->tn_val->v_ansiu) { /* ANSI C treats constant as unsigned, op %s */ warning(218, mp->m_name); rn->tn_val->v_ansiu = 0; } /* Make sure both operands are of the same type */ if (mp->m_balance) balance(op, &ln, &rn); /* * Check types for compatibility with the operation and mutual * compatibility. Return if there are serious problems. */ if (!typeok(op, NULL, ln, rn)) return (NULL); /* And now create the node. */ switch (op) { case POINT: case ARROW: ntn = bldstr(op, ln, rn); break; case INCAFT: case DECAFT: case INCBEF: case DECBEF: ntn = bldincdec(op, ln); break; case AMPER: ntn = bldamper(ln, 0); break; case STAR: ntn = mktnode(STAR, ln->tn_type->t_subt, ln, NULL); break; case PLUS: case MINUS: ntn = bldplmi(op, ln, rn); break; case SHL: case SHR: ntn = bldshft(op, ln, rn); break; case COLON: ntn = bldcol(ln, rn); break; case ASSIGN: case MULASS: case DIVASS: case MODASS: case ADDASS: case SUBASS: case SHLASS: case SHRASS: case ANDASS: case XORASS: case ORASS: case RETURN: ntn = bldasgn(op, ln, rn); break; case COMMA: case QUEST: ntn = mktnode(op, rn->tn_type, ln, rn); break; default: rtp = mp->m_logop ? gettyp(INT) : ln->tn_type; if (!mp->m_binary && rn != NULL) lerror("build() 1"); ntn = mktnode(op, rtp, ln, rn); break; } /* Return if an error occurred. */ if (ntn == NULL) return (NULL); /* Print a warning if precedence confusion is possible */ if (mp->m_tpconf) precconf(ntn); /* * Print a warning if one of the operands is in a context where * it is compared with null and if this operand is a constant. */ if (mp->m_tctx) { if (ln->tn_op == CON || ((mp->m_binary && op != QUEST) && rn->tn_op == CON)) { if (hflag && !ccflg) { /* constant in conditional context */ warning(161); } } } /* Fold if the operator requires it */ if (mp->m_fold) { if (ln->tn_op == CON && (!mp->m_binary || rn->tn_op == CON)) { if (mp->m_tctx) { ntn = foldtst(ntn); } else if (isftyp(ntn->tn_type->t_tspec)) { ntn = foldflt(ntn); } else { ntn = fold(ntn); } } else if (op == QUEST && ln->tn_op == CON) { ntn = ln->tn_val->v_quad ? rn->tn_left : rn->tn_right; } } return (ntn); } /* * Perform class conversions. * * Arrays of type T are converted into pointers to type T. * Functions are converted to pointers to functions. * Lvalues are converted to rvalues. */ tnode_t * cconv(tnode_t *tn) { type_t *tp; /* * Array-lvalue (array of type T) is converted into rvalue * (pointer to type T) */ if (tn->tn_type->t_tspec == ARRAY) { if (!tn->tn_lvalue) { /* operand of '%s' must be lvalue */ /* XXX print correct operator */ (void)gnuism(114, "", modtab[AMPER].m_name); } tn = mktnode(AMPER, tincref(tn->tn_type->t_subt, PTR), tn, NULL); } /* * Expression of type function (function with return value of type T) * in rvalue-expression (pointer to function with return value * of type T) */ if (tn->tn_type->t_tspec == FUNC) tn = bldamper(tn, 1); /* lvalue to rvalue */ if (tn->tn_lvalue) { tp = tduptyp(tn->tn_type); tp->t_const = tp->t_volatile = 0; tn = mktnode(LOAD, tp, tn, NULL); } return (tn); } /* * Perform most type checks. First the types are checked using * information from modtab[]. After that it is done by hand for * more complicated operators and type combinations. * * If the types are ok, typeok() returns 1, otherwise 0. */ int typeok(op_t op, farg_t *farg, tnode_t *ln, tnode_t *rn) { mod_t *mp; tspec_t lt, rt = NOTSPEC, lst = NOTSPEC, rst = NOTSPEC, olt = NOTSPEC, ort = NOTSPEC; type_t *ltp, *rtp, *lstp, *rstp; tnode_t *tn; mp = &modtab[op]; if ((lt = (ltp = ln->tn_type)->t_tspec) == PTR) lst = (lstp = ltp->t_subt)->t_tspec; if (mp->m_binary) { if ((rt = (rtp = rn->tn_type)->t_tspec) == PTR) rst = (rstp = rtp->t_subt)->t_tspec; } if (mp->m_rqint) { /* integer types required */ if (!isityp(lt) || (mp->m_binary && !isityp(rt))) { incompat(op, lt, rt); return (0); } } else if (mp->m_rqsclt) { /* scalar types required */ if (!issclt(lt) || (mp->m_binary && !issclt(rt))) { incompat(op, lt, rt); return (0); } } else if (mp->m_rqatyp) { /* arithmetic types required */ if (!isatyp(lt) || (mp->m_binary && !isatyp(rt))) { incompat(op, lt, rt); return (0); } } if (op == SHL || op == SHR || op == SHLASS || op == SHRASS) { /* * For these operations we need the types before promotion * and balancing. */ for (tn=ln; tn->tn_op==CVT && !tn->tn_cast; tn=tn->tn_left) ; olt = tn->tn_type->t_tspec; for (tn=rn; tn->tn_op==CVT && !tn->tn_cast; tn=tn->tn_left) ; ort = tn->tn_type->t_tspec; } switch (op) { case POINT: /* * Most errors required by ANSI C are reported in strmemb(). * Here we only must check for totally wrong things. */ if (lt == FUNC || lt == VOID || ltp->t_isfield || ((lt != STRUCT && lt != UNION) && !ln->tn_lvalue)) { /* we already have an error from strmemb() */ return (0); } /* Now we have an object we can create a pointer to */ break; case ARROW: if (lt != PTR) { /* we already have an error from strmemb() */ return (0); } break; case INCAFT: case DECAFT: case INCBEF: case DECBEF: /* operands have scalar types (checked above) */ if (!ln->tn_lvalue) { if (ln->tn_op == CVT && ln->tn_cast && ln->tn_left->tn_op == LOAD) { /* a cast does not yield an lvalue */ error(163); } /* %soperand of %s must be lvalue */ error(114, "", mp->m_name); return (0); } else if (ltp->t_const) { /* %soperand of %s must be modifiable lvalue */ warning(115, "", mp->m_name); } break; case AMPER: if (lt == ARRAY || lt == FUNC) { /* ok, a warning comes later (in bldamper()) */ } else if (!ln->tn_lvalue) { if (ln->tn_op == CVT && ln->tn_cast && ln->tn_left->tn_op == LOAD) { /* a cast does not yield an lvalue */ error(163); } /* %soperand of %s must be lvalue */ error(114, "", mp->m_name); return (0); } else if (issclt(lt)) { if (ltp->t_isfield) { /* cannot take address of bit-field */ error(112); return (0); } } else if (lt != STRUCT && lt != UNION) { /* unacceptable operand of %s */ error(111, mp->m_name); return (0); } if (ln->tn_op == NAME && ln->tn_sym->s_reg) { /* cannot take address of register %s */ error(113, ln->tn_sym->s_name); return (0); } break; case STAR: /* until now there were no type checks for this operator */ if (lt != PTR) { /* cannot dereference non-pointer type */ error(96); return (0); } break; case PLUS: /* operands have scalar types (checked above) */ if ((lt == PTR && !isityp(rt)) || (rt == PTR && !isityp(lt))) { incompat(op, lt, rt); return (0); } break; case MINUS: /* operands have scalar types (checked above) */ if (lt == PTR && (!isityp(rt) && rt != PTR)) { incompat(op, lt, rt); return (0); } else if (rt == PTR && lt != PTR) { incompat(op, lt, rt); return (0); } if (lt == PTR && rt == PTR) { if (!eqtype(lstp, rstp, 1, 0, NULL)) { /* illegal pointer subtraction */ error(116); } } break; case SHR: /* operands have integer types (checked above) */ if (pflag && !isutyp(lt)) { /* * The left operand is signed. This means that * the operation is (possibly) nonportable. */ /* bitwise operation on signed value nonportable */ if (ln->tn_op != CON) { /* possibly nonportable */ warning(117); } else if (ln->tn_val->v_quad < 0) { warning(120); } } else if (!sflag && !isutyp(olt) && isutyp(ort)) { /* * The left operand would become unsigned in * traditional C. */ if (hflag && (ln->tn_op != CON || ln->tn_val->v_quad < 0)) { /* semantics of %s change in ANSI C; use ... */ warning(118, mp->m_name); } } else if (!sflag && !isutyp(olt) && !isutyp(ort) && psize(lt) < psize(rt)) { /* * In traditional C the left operand would be extended, * possibly with 1, and then shifted. */ if (hflag && (ln->tn_op != CON || ln->tn_val->v_quad < 0)) { /* semantics of %s change in ANSI C; use ... */ warning(118, mp->m_name); } } /* right shift of %d-bit quantity by %lld bits */ if (rn->tn_op == CON && size(olt) <= rn->tn_val->v_quad) warning(310, size(olt), rn->tn_val->v_quad); goto shift; case SHL: /* * ANSI C does not perform balancing for shift operations, * but traditional C does. If the width of the right operand * is greather than the width of the left operand, than in * traditional C the left operand would be extended to the * width of the right operand. For SHL this may result in * different results. */ if (psize(lt) < psize(rt)) { /* * XXX If both operands are constant make sure * that there is really a difference between * ANSI C and traditional C. */ if (hflag) /* semantics of %s change in ANSI C; use ... */ warning(118, mp->m_name); } shift: if (rn->tn_op == CON) { if (!isutyp(rt) && rn->tn_val->v_quad < 0) { /* negative shift */ warning(121); } else if ((u_quad_t)rn->tn_val->v_quad == size(lt)) { /* shift equal to size of object */ warning(267); } else if ((u_quad_t)rn->tn_val->v_quad > size(lt)) { /* shift greater than size of object */ warning(122); } } break; case EQ: case NE: /* * Accept some things which are allowed with EQ and NE, * but not with ordered comparisons. */ if (lt == PTR && ((rt == PTR && rst == VOID) || isityp(rt))) { if (rn->tn_op == CON && rn->tn_val->v_quad == 0) break; } if (rt == PTR && ((lt == PTR && lst == VOID) || isityp(lt))) { if (ln->tn_op == CON && ln->tn_val->v_quad == 0) break; } /* FALLTHROUGH */ case LT: case GT: case LE: case GE: if ((lt == PTR || rt == PTR) && lt != rt) { if (isityp(lt) || isityp(rt)) { /* illegal comb. of pointer and int., op %s */ warning(123, mp->m_name); } else { incompat(op, lt, rt); return (0); } } else if (lt == PTR && rt == PTR) { ptrcmpok(op, ln, rn); } break; case QUEST: if (!issclt(lt)) { /* first operand must have scalar type, op ? : */ error(170); return (0); } if (rn->tn_op != COLON) lerror("typeok() 2"); break; case COLON: if (isatyp(lt) && isatyp(rt)) break; if (lt == STRUCT && rt == STRUCT && ltp->t_str == rtp->t_str) break; if (lt == UNION && rt == UNION && ltp->t_str == rtp->t_str) break; /* combination of any pointer and 0, 0L or (void *)0 is ok */ if (lt == PTR && ((rt == PTR && rst == VOID) || isityp(rt))) { if (rn->tn_op == CON && rn->tn_val->v_quad == 0) break; } if (rt == PTR && ((lt == PTR && lst == VOID) || isityp(lt))) { if (ln->tn_op == CON && ln->tn_val->v_quad == 0) break; } if ((lt == PTR && isityp(rt)) || (isityp(lt) && rt == PTR)) { /* illegal comb. of ptr. and int., op %s */ warning(123, mp->m_name); break; } if (lt == VOID || rt == VOID) { if (lt != VOID || rt != VOID) /* incompatible types in conditional */ warning(126); break; } if (lt == PTR && rt == PTR && ((lst == VOID && rst == FUNC) || (lst == FUNC && rst == VOID))) { /* (void *)0 handled above */ if (sflag) /* ANSI C forbids conv. of %s to %s, op %s */ warning(305, "function pointer", "'void *'", mp->m_name); break; } if (rt == PTR && lt == PTR) { if (!eqtype(lstp, rstp, 1, 0, NULL)) illptrc(mp, ltp, rtp); break; } /* incompatible types in conditional */ error(126); return (0); case ASSIGN: case INIT: case FARG: case RETURN: if (!asgntypok(op, farg, ln, rn)) return (0); goto assign; case MULASS: case DIVASS: case MODASS: goto assign; case ADDASS: case SUBASS: /* operands have scalar types (checked above) */ if ((lt == PTR && !isityp(rt)) || rt == PTR) { incompat(op, lt, rt); return (0); } goto assign; case SHLASS: goto assign; case SHRASS: if (pflag && !isutyp(lt)) { /* bitwise operation on s.v. possibly nonportable */ warning(117); } /* right shift of %d-bit quantity by %d bits */ if (rn->tn_op == CON && size(olt) <= rn->tn_val->v_quad) warning(310, size(olt), rn->tn_val->v_quad); goto assign; case ANDASS: case XORASS: case ORASS: goto assign; assign: if (!ln->tn_lvalue) { if (ln->tn_op == CVT && ln->tn_cast && ln->tn_left->tn_op == LOAD) { /* a cast does not yield an lvalue */ error(163); } /* %soperand of %s must be lvalue */ error(114, "left ", mp->m_name); return (0); } else if (ltp->t_const || ((lt == STRUCT || lt == UNION) && conmemb(ltp))) { /* %soperand of %s must be modifiable lvalue */ warning(115, "left ", mp->m_name); } break; case COMMA: if (!modtab[ln->tn_op].m_sideeff) nulleff(ln); break; /* LINTED (enumeration values not handled in switch) */ } if (mp->m_badeop && (ltp->t_isenum || (mp->m_binary && rtp->t_isenum))) { chkbeop(op, ln, rn); } else if (mp->m_enumop && (ltp->t_isenum && rtp->t_isenum)) { chkeop2(op, farg, ln, rn); } else if (mp->m_enumop && (ltp->t_isenum || rtp->t_isenum)) { chkeop1(op, farg, ln, rn); } return (1); } static void ptrcmpok(op_t op, tnode_t *ln, tnode_t *rn) { type_t *ltp, *rtp; tspec_t lt, rt; const char *lts, *rts; lt = (ltp = ln->tn_type)->t_subt->t_tspec; rt = (rtp = rn->tn_type)->t_subt->t_tspec; if (lt == VOID || rt == VOID) { if (sflag && (lt == FUNC || rt == FUNC)) { /* (void *)0 already handled in typeok() */ *(lt == FUNC ? <s : &rts) = "function pointer"; *(lt == VOID ? <s : &rts) = "'void *'"; /* ANSI C forbids comparison of %s with %s */ warning(274, lts, rts); } return; } if (!eqtype(ltp->t_subt, rtp->t_subt, 1, 0, NULL)) { illptrc(&modtab[op], ltp, rtp); return; } if (lt == FUNC && rt == FUNC) { if (sflag && op != EQ && op != NE) /* ANSI C forbids ordered comp. of func ptr */ warning(125); } } /* * Checks type compatibility for ASSIGN, INIT, FARG and RETURN * and prints warnings/errors if necessary. * If the types are (almost) compatible, 1 is returned, otherwise 0. */ static int asgntypok(op_t op, farg_t *farg, tnode_t *ln, tnode_t *rn) { tspec_t lt, rt, lst = NOTSPEC, rst = NOTSPEC; type_t *ltp, *rtp, *lstp, *rstp; mod_t *mp; const char *lts, *rts; int arg = (farg) ? farg->fa_num : 0; if ((lt = (ltp = ln->tn_type)->t_tspec) == PTR) lst = (lstp = ltp->t_subt)->t_tspec; if ((rt = (rtp = rn->tn_type)->t_tspec) == PTR) rst = (rstp = rtp->t_subt)->t_tspec; mp = &modtab[op]; /* be picky about conversion of function return types */ if (rn->tn_op == CALL) { if (size(lt) < size(rt) || (size(lt) == size(rt) && isutyp(lt) && !isutyp(rt))) { warning(313, funcname(rn), tyname(rn->tn_type), tyname(ln->tn_type)); } } if (isatyp(lt) && isatyp(rt)) return (1); if ((lt == STRUCT || lt == UNION) && (rt == STRUCT || rt == UNION)) /* both are struct or union */ return (ltp->t_str == rtp->t_str); /* 0, 0L and (void *)0 may be assigned to any pointer */ if (lt == PTR && ((rt == PTR && rst == VOID) || isityp(rt))) { if (rn->tn_op == CON && rn->tn_val->v_quad == 0) return (1); } if (lt == PTR && rt == PTR && (lst == VOID || rst == VOID)) { /* two pointers, at least one pointer to void */ if (sflag && (lst == FUNC || rst == FUNC)) { /* comb. of ptr to func and ptr to void */ *(lst == FUNC ? <s : &rts) = "function pointer"; *(lst == VOID ? <s : &rts) = "'void *'"; switch (op) { case INIT: case RETURN: /* ANSI C forbids conversion of %s to %s */ warning(303, rts, lts); break; case FARG: /* ANSI C forbids conv. of %s to %s, arg #%d */ warning(304, rts, lts, arg); break; default: /* ANSI C forbids conv. of %s to %s, op %s */ warning(305, rts, lts, mp->m_name); break; } } } if (lt == PTR && rt == PTR && (lst == VOID || rst == VOID || eqtype(lstp, rstp, 1, 0, NULL))) { /* compatible pointer types (qualifiers ignored) */ if (((!lstp->t_const && rstp->t_const) || (!lstp->t_volatile && rstp->t_volatile))) { /* left side has not all qualifiers of right */ switch (op) { case INIT: case RETURN: /* incompatible pointer types */ warning(182); break; case FARG: /* %s arg #%d: incompatible ptr. type */ warning(153, funcname(farg->fa_func), arg); break; default: /* operands have incompat. ptr. types, op %s */ warning(128, mp->m_name); break; } } return (1); } if ((lt == PTR && isityp(rt)) || (isityp(lt) && rt == PTR)) { switch (op) { case INIT: case RETURN: /* illegal combination of pointer and integer */ warning(183); break; case FARG: /* %s arg #%d: illegal comb. of ptr. and int. */ warning(154, funcname(farg->fa_func), arg); break; default: /* illegal comb. of ptr. and int., op %s */ warning(123, mp->m_name); break; } return (1); } if (lt == PTR && rt == PTR) { switch (op) { case INIT: case RETURN: illptrc(NULL, ltp, rtp); break; case FARG: /* %s arg #%d: incompatible pointer type */ warning(153, funcname(farg->fa_func), arg); break; default: illptrc(mp, ltp, rtp); break; } return (1); } switch (op) { case INIT: /* initialisation type mismatch */ error(185); break; case RETURN: /* return value type mismatch */ error(211); break; case FARG: /* %s arg #%d: argument is incompatible with prototype */ warning(155, funcname(farg->fa_func), arg); break; default: incompat(op, lt, rt); break; } return (0); } /* * Prints a warning if an operator, which should be senseless for an * enum type, is applied to an enum type. */ static void chkbeop(op_t op, tnode_t *ln, tnode_t *rn) { mod_t *mp; if (!eflag) return; mp = &modtab[op]; if (!(ln->tn_type->t_isenum || (mp->m_binary && rn->tn_type->t_isenum))) { return; } /* * Enum as offset to a pointer is an exception (otherwise enums * could not be used as array indizes). */ if (op == PLUS && ((ln->tn_type->t_isenum && rn->tn_type->t_tspec == PTR) || (rn->tn_type->t_isenum && ln->tn_type->t_tspec == PTR))) { return; } /* dubious operation on enum, op %s */ warning(241, mp->m_name); } /* * Prints a warning if an operator is applied to two different enum types. */ static void chkeop2(op_t op, farg_t *farg, tnode_t *ln, tnode_t *rn) { mod_t *mp; int arg = (farg) ? farg->fa_num : 0; mp = &modtab[op]; if (ln->tn_type->t_enum != rn->tn_type->t_enum) { switch (op) { case INIT: /* enum type mismatch in initialisation */ warning(210); break; case FARG: /* %s arg #%d: enum type mismatch */ warning(156, funcname(farg->fa_func), arg); break; case RETURN: /* return value type mismatch */ warning(211); break; default: /* enum type mismatch, op %s */ warning(130, mp->m_name); break; } #if 0 } else if (mp->m_comp && op != EQ && op != NE) { if (eflag) /* dubious comparisons of enums */ warning(243, mp->m_name); #endif } } /* * Prints a warning if an operator has both enum end other integer * types. */ static void chkeop1(op_t op, farg_t *farg, tnode_t *ln, tnode_t *rn) { int arg = (farg) ? farg->fa_num : 0; if (!eflag) return; switch (op) { case INIT: /* * Initializations with 0 should be allowed. Otherwise, * we should complain about all uninitialized enums, * consequently. */ if (!rn->tn_type->t_isenum && rn->tn_op == CON && isityp(rn->tn_type->t_tspec) && rn->tn_val->v_quad == 0) { return; } /* initialisation of '%s' with '%s' */ warning(277, tyname(ln->tn_type), tyname(rn->tn_type)); break; case FARG: /* %s arg #%d: combination of '%s' and '%s' */ warning(278, funcname(farg->fa_func), arg, tyname(ln->tn_type), tyname(rn->tn_type)); break; case RETURN: /* combination of '%s' and '%s' in return */ warning(279, tyname(ln->tn_type), tyname(rn->tn_type)); break; default: /* combination of '%s' and %s, op %s */ warning(242, tyname(ln->tn_type), tyname(rn->tn_type), modtab[op].m_name); break; } } /* * Build and initialize a new node. */ static tnode_t * mktnode(op_t op, type_t *type, tnode_t *ln, tnode_t *rn) { tnode_t *ntn; tspec_t t; ntn = getnode(); ntn->tn_op = op; ntn->tn_type = type; ntn->tn_left = ln; ntn->tn_right = rn; if (op == STAR || op == FSEL) { if (ln->tn_type->t_tspec == PTR) { t = ln->tn_type->t_subt->t_tspec; if (t != FUNC && t != VOID) ntn->tn_lvalue = 1; } else { lerror("mktnode() 2"); } } return (ntn); } /* * Performs usual conversion of operands to (unsigned) int. * * If the operand is a function argument with no type information * (no prototype or variable # of args), convert float to double. */ tnode_t * promote(op_t op, int farg, tnode_t *tn) { tspec_t t; type_t *ntp; int len; t = tn->tn_type->t_tspec; if (!isatyp(t)) return (tn); /* * ANSI C requires that the result is always of type INT * if INT can represent all possible values of the previous * type (it is "value preserving" rather than "sign * preserving"). * * XXX: Adjust value-preserving rules for longs and long * longs, too. */ if (tn->tn_type->t_isfield) { len = tn->tn_type->t_flen; if (size(INT) > len) { t = INT; } else { if (size(INT) != len) lerror("promote() 1"); if (isutyp(t)) { t = UINT; } else { t = INT; } } } else if (t == CHAR || t == UCHAR || t == SCHAR) { t = (size(CHAR) < size(INT) || t != UCHAR) ? INT : UINT; } else if (t == SHORT || t == USHORT) { t = (size(SHORT) < size(INT) || t == SHORT) ? INT : UINT; } else if (t == ENUM) { t = INT; } else if (farg && t == FLOAT) { t = DOUBLE; } if (t != tn->tn_type->t_tspec) { ntp = tduptyp(tn->tn_type); ntp->t_tspec = t; /* * Keep t_isenum so we are later able to check compatibility * of enum types. */ tn = convert(op, NULL, ntp, tn); } return (tn); } /* * Insert conversions which are necessary to give both operands the same * type. This is done in different ways for traditional C and ANSI C. */ static void balance(op_t op, tnode_t **lnp, tnode_t **rnp) { tspec_t lt, rt, t; int i; type_t *ntp; static tspec_t tl[] = { LDOUBLE, DOUBLE, FLOAT, UQUAD, QUAD, ULONG, LONG, UINT, INT, }; lt = (*lnp)->tn_type->t_tspec; rt = (*rnp)->tn_type->t_tspec; if (!isatyp(lt) || !isatyp(rt)) return; if (lt == rt) { t = lt; } else if (lt == LDOUBLE || rt == LDOUBLE) { t = LDOUBLE; } else if (lt == DOUBLE || rt == DOUBLE) { t = DOUBLE; } else if (lt == FLOAT || rt == FLOAT) { t = FLOAT; } else { /* * If type A has more bits than type B it should * be able to hold all possible values of type B. */ if (size(lt) > size(rt)) { t = lt; } else if (size(lt) < size(rt)) { t = rt; } else { for (i = 3; tl[i] != INT; i++) { if (tl[i] == lt || tl[i] == rt) break; } if ((isutyp(lt) || isutyp(rt)) && !isutyp(tl[i])) { i--; } t = tl[i]; } } if (t != lt) { ntp = tduptyp((*lnp)->tn_type); ntp->t_tspec = t; *lnp = convert(op, NULL, ntp, *lnp); } if (t != rt) { ntp = tduptyp((*rnp)->tn_type); ntp->t_tspec = t; *rnp = convert(op, NULL, ntp, *rnp); } } /* * Insert a conversion operator, which converts the type of the node * to another given type. * If op is FARG, farg contains the passed argument information. */ tnode_t * convert(op_t op, farg_t *farg, type_t *tp, tnode_t *tn) { tnode_t *ntn; tspec_t nt, ot, ost = NOTSPEC; int arg = (farg) ? farg->fa_num : 0; if (tn->tn_lvalue) lerror("convert() 1"); nt = tp->t_tspec; if ((ot = tn->tn_type->t_tspec) == PTR) ost = tn->tn_type->t_subt->t_tspec; if (op == FARG) nt = fcnconv(farg, nt, ot, tp, tn); if (isityp(nt) && isityp(ot)) { iiconv(op, farg, nt, ot, tp, tn); } else if (nt == PTR && ((ot == PTR && ost == VOID) || isityp(ot)) && tn->tn_op == CON && tn->tn_val->v_quad == 0) { /* 0, 0L and (void *)0 may be assigned to any pointer. */ } else if (isityp(nt) && ot == PTR) { piconv(op, nt, tp, tn); } else if (nt == PTR && ot == PTR) { ppconv(op, tn, tp); } else if (isftyp(ot) && !isftyp(nt)) { /* conversion from floating point to fixed point */ if (tn->tn_op == CON) { /* ok. cvtcon() warns if constant out of range */ } else { if (op == FARG) /* %s arg #%d: converted from '%s' to '%s' */ warning(259, funcname(farg->fa_func), arg, tyname(tn->tn_type), tyname(tp)); else warning(132, tyname(tn->tn_type), tyname(tp)); } } ntn = getnode(); ntn->tn_op = CVT; ntn->tn_type = tp; ntn->tn_cast = op == CVT; if (tn->tn_op != CON || nt == VOID) { ntn->tn_left = tn; } else { ntn->tn_op = CON; ntn->tn_val = tgetblk(sizeof (val_t)); cvtcon(op, farg, ntn->tn_type, ntn->tn_val, tn->tn_val); } return (ntn); } /* * Print warnings for conversions of function call arguments. Conversions * happen differently between standard C and traditional C, and also happen * differently in standard C depending on whether a prototype is present. * * Errors/Warnings about illegal type combinations are already printed * in asgntypok(). */ static tspec_t fcnconv(farg_t *farg, tspec_t nt, tspec_t ot, type_t *tp, tnode_t *tn) { tnode_t *ptn; type_t *fcn = farg->fa_func->tn_type->t_subt; tspec_t pt; int arg = farg->fa_num; /* In standard C, if the function call is governed by a prototype, * the arguments don't necessarily undergo the usual argument conversions * before the call. They can be converted directly to the type of the * formal parameter, without necessarily widening/narrowing. */ if (fcn->t_proto || !isatyp(nt) || !isatyp(ot)) return nt; /* get default promotion */ ptn = promote(NOOP, 1, tn); pt = ptn->tn_type->t_tspec; /* * If the type of the formal parameter is char/short, a warning * would be useless, because functions declared the old style * can't expect char/short arguments. */ if (nt == CHAR || nt == UCHAR || nt == SHORT || nt == USHORT) return pt; /* return if types are the same with and without promotion */ if (nt == pt || (nt == ENUM && pt == INT)) return pt; if (isftyp(nt) != isftyp(pt) || psize(nt) != psize(pt)) { /* representation and/or width change */ if (styp(nt) != SHORT || !isityp(pt) || psize(pt) > psize(INT)) { if (ptn->tn_op == CON) { /* ok. promote() warns if constant out of range */ } else { /* %s arg #%d: converted from '%s' to '%s' */ warning(259, funcname(farg->fa_func), arg, tyname(tn->tn_type), tyname(tp)); } } } else if (hflag) { /* * they differ in sign or base type (char, short, int, * long, long long, float, double, long double) * * if they differ only in sign and the argument is a constant * and the msb of the argument is not set, print no warning */ if (ptn->tn_op == CON && isityp(nt) && styp(nt) == styp(pt) && msb(ptn->tn_val->v_quad, ot, -1) == 0) { /* ok */ } else if (ptn->tn_op != CON) { /* %s arg #%d: converted from '%s' to '%s' */ warning(259, funcname(farg->fa_func), arg, tyname(tn->tn_type), tyname(tp)); } } return pt; } /* * Print warnings for conversions of integer types which may cause * problems. */ /* ARGSUSED */ static void iiconv(op_t op, farg_t *farg, tspec_t nt, tspec_t ot, type_t *tp, tnode_t *tn) { int arg = (farg) ? farg->fa_num : 0; if (tn->tn_op == CON) return; if (op == CVT) return; if (rank(nt) < rank(ot)) { /* coercion from greater to lesser width */ if (op == FARG) { warning(259, funcname(farg->fa_func), arg, tyname(tn->tn_type), tyname(tp)); } else { warning(132, tyname(tn->tn_type), tyname(tp)); } } else if (!isutyp(ot) && isutyp(nt)) { /* signed to unsigned conversion */ if (op == FARG) { warning(259, funcname(farg->fa_func), arg, tyname(tn->tn_type), tyname(tp)); } else { warning(132, tyname(tn->tn_type), tyname(tp)); } } else if (isutyp(ot) && !isutyp(nt) && rank(nt) == rank(ot)) { /* signed to unsigned conversion */ if (op == FARG) { warning(259, funcname(farg->fa_func), arg, tyname(tn->tn_type), tyname(tp)); } else { warning(132, tyname(tn->tn_type), tyname(tp)); } } } /* * Print warnings for dubious conversions of pointer to integer. */ static void piconv(op_t op, tspec_t nt, type_t *tp, tnode_t *tn) { if (tn->tn_op == CON) return; if (op != CVT) { /* We already have an error. */ return; } if (psize(nt) < psize(PTR)) { if (pflag && size(nt) >= size(PTR)) { /* conv. of pointer to %s may lose bits */ warning(134, tyname(tp)); } else { /* conv. of pointer to %s loses bits */ warning(133, tyname(tp)); } } } /* * Print warnings for questionable pointer conversions. */ static void ppconv(op_t op, tnode_t *tn, type_t *tp) { tspec_t nt, ot; const char *nts, *ots; /* * We already have an error (pointers of different types * without a cast) or we will not get a warning. */ if (op != CVT) return; nt = tp->t_subt->t_tspec; ot = tn->tn_type->t_subt->t_tspec; if (nt == VOID || ot == VOID) { if (sflag && (nt == FUNC || ot == FUNC)) { /* (void *)0 already handled in convert() */ *(nt == FUNC ? &nts : &ots) = "function pointer"; *(nt == VOID ? &nts : &ots) = "'void *'"; /* ANSI C forbids conversion of %s to %s */ warning(303, ots, nts); } return; } else if (nt == FUNC && ot == FUNC) { return; } else if (nt == FUNC || ot == FUNC) { /* questionable conversion of function pointer */ warning(229); return; } if (getbound(tp->t_subt) > getbound(tn->tn_type->t_subt)) { if (hflag) /* possible pointer alignment problem */ warning(135); } if (((nt == STRUCT || nt == UNION) && tp->t_subt->t_str != tn->tn_type->t_subt->t_str) || (psize(nt) != CHAR_BIT && psize(nt) != psize(ot))) { if (cflag) { /* pointer casts may be troublesome */ warning(247); } } } /* * Converts a typed constant to a constant of another type. * * op operator which requires conversion * farg if op is FARG, the passed argument info (else NULL) * tp type to which to convert the constant * nv new constant * v old constant */ void cvtcon(op_t op, farg_t *farg, type_t *tp, val_t *nv, val_t *v) { tspec_t ot, nt; ldbl_t max = 0, min = 0; int sz, rchk; quad_t xmask, xmsk1; int osz, nsz, arg = (farg) ? farg->fa_num : 0; ot = v->v_tspec; nt = nv->v_tspec = tp->t_tspec; rchk = 0; if (ot == FLOAT || ot == DOUBLE || ot == LDOUBLE) { switch (nt) { case CHAR: max = CHAR_MAX; min = CHAR_MIN; break; case UCHAR: max = UCHAR_MAX; min = 0; break; case SCHAR: max = SCHAR_MAX; min = SCHAR_MIN; break; case SHORT: max = SHRT_MAX; min = SHRT_MIN; break; case USHORT: max = USHRT_MAX; min = 0; break; case ENUM: case INT: max = INT_MAX; min = INT_MIN; break; case UINT: max = (u_int)UINT_MAX; min = 0; break; case LONG: max = LONG_MAX; min = LONG_MIN; break; case ULONG: max = (u_long)ULONG_MAX; min = 0; break; case QUAD: max = QUAD_MAX; min = QUAD_MIN; break; case UQUAD: max = (u_quad_t)UQUAD_MAX; min = 0; break; case FLOAT: max = FLT_MAX; min = -FLT_MAX; break; case DOUBLE: max = DBL_MAX; min = -DBL_MAX; break; case PTR: /* Already an error because of float --> ptr */ case LDOUBLE: max = LDBL_MAX; min = -LDBL_MAX; break; default: lerror("cvtcon() 1"); } if (v->v_ldbl > max || v->v_ldbl < min) { if (nt == LDOUBLE) lerror("cvtcon() 2"); if (op == FARG) { /* %s arg #%d: conv. of %s to %s is out of range */ warning(295, funcname(farg->fa_func), arg, tyname(gettyp(ot)), tyname(tp)); } else { /* conversion of %s to %s is out of range */ warning(119, tyname(gettyp(ot)), tyname(tp)); } v->v_ldbl = v->v_ldbl > 0 ? max : min; } if (nt == FLOAT) { nv->v_ldbl = (float)v->v_ldbl; } else if (nt == DOUBLE) { nv->v_ldbl = (double)v->v_ldbl; } else if (nt == LDOUBLE) { nv->v_ldbl = v->v_ldbl; } else { nv->v_quad = (nt == PTR || isutyp(nt)) ? (u_quad_t)v->v_ldbl : (quad_t)v->v_ldbl; } } else { if (nt == FLOAT) { nv->v_ldbl = (ot == PTR || isutyp(ot)) ? (float)(u_quad_t)v->v_quad : (float)v->v_quad; } else if (nt == DOUBLE) { nv->v_ldbl = (ot == PTR || isutyp(ot)) ? (double)(u_quad_t)v->v_quad : (double)v->v_quad; } else if (nt == LDOUBLE) { nv->v_ldbl = (ot == PTR || isutyp(ot)) ? (ldbl_t)(u_quad_t)v->v_quad : (ldbl_t)v->v_quad; } else { rchk = 1; /* Check for lost precision. */ nv->v_quad = v->v_quad; } } if (v->v_ansiu && isftyp(nt)) { /* ANSI C treats constant as unsigned */ warning(157); v->v_ansiu = 0; } else if (v->v_ansiu && (isityp(nt) && !isutyp(nt) && psize(nt) > psize(ot))) { /* ANSI C treats constant as unsigned */ warning(157); v->v_ansiu = 0; } if (nt != FLOAT && nt != DOUBLE && nt != LDOUBLE) { sz = tp->t_isfield ? tp->t_flen : size(nt); nv->v_quad = xsign(nv->v_quad, nt, sz); } if (rchk && op != CVT) { osz = size(ot); nsz = tp->t_isfield ? tp->t_flen : size(nt); xmask = qlmasks[nsz] ^ qlmasks[osz]; xmsk1 = qlmasks[nsz] ^ qlmasks[osz - 1]; /* * For bitwise operations we are not interested in the * value, but in the bits itself. */ if (op == ORASS || op == OR || op == XOR) { /* * Print a warning if bits which were set are * lost due to the conversion. * This can happen with operator ORASS only. */ if (nsz < osz && (v->v_quad & xmask) != 0) { /* constant truncated by conv., op %s */ warning(306, modtab[op].m_name); } } else if (op == ANDASS || op == AND) { /* * Print a warning if additional bits are not all 1 * and the most significant bit of the old value is 1, * or if at least one (but not all) removed bit was 0. */ if (nsz > osz && (nv->v_quad & qbmasks[osz - 1]) != 0 && (nv->v_quad & xmask) != xmask) { /* * extra bits set to 0 in conversion * of '%s' to '%s', op %s */ warning(309, tyname(gettyp(ot)), tyname(tp), modtab[op].m_name); } else if (nsz < osz && (v->v_quad & xmask) != xmask && (v->v_quad & xmask) != 0) { /* const. truncated by conv., op %s */ warning(306, modtab[op].m_name); } } else if ((nt != PTR && isutyp(nt)) && (ot != PTR && !isutyp(ot)) && v->v_quad < 0) { if ((nt == CHAR || nt == UCHAR || nt == SCHAR) && v->v_lspec == CHAR) { /* * Don't warn when assigning a character * literal to any kind of character (signed, * unsigned, or unspecified). */ } else if (op == ASSIGN) { /* assignment of negative constant to ... */ warning(164); } else if (op == INIT) { /* initialisation of unsigned with neg. ... */ warning(221); } else if (op == FARG) { /* %s arg #%d: conversion of neg. const... */ warning(296, funcname(farg->fa_func), arg); } else if (modtab[op].m_comp) { /* we get this warning already in chkcomp() */ } else { /* conversion of negative constant to ... */ warning(222); } } else if (nv->v_quad != v->v_quad && nsz <= osz && (v->v_quad & xmask) != 0 && (isutyp(ot) || (v->v_quad & xmsk1) != xmsk1)) { /* * Loss of significant bit(s). All truncated bits * of unsigned types or all truncated bits plus the * msb of the target for signed types are considered * to be significant bits. Loss of significant bits * means that at least on of the bits was set in an * unsigned type or that at least one, but not all of * the bits was set in an signed type. * Loss of significant bits means that it is not * possible, also not with necessary casts, to convert * back to the original type. A example for a * necessary cast is: * char c; int i; c = 128; * i = c; ** yields -128 ** * i = (unsigned char)c; ** yields 128 ** */ if ((nt == CHAR || nt == UCHAR || nt == SCHAR) && v->v_lspec == CHAR) { /* * Don't warn when assigning a character * literal to any kind of character (signed, * unsigned, or unspecified). */ } else if (op == ASSIGN && tp->t_isfield) { /* precision lost in bit-field assignment */ warning(166); } else if (op == ASSIGN) { /* constant truncated by assignment */ warning(165); } else if (op == INIT && tp->t_isfield) { /* bit-field initializer does not fit */ warning(180); } else if (op == INIT) { /* initializer does not fit */ warning(178); } else if (op == CASE) { /* case label affected by conversion */ warning(196); } else if (op == FARG) { /* %s arg #%d: conv. of %s to %s is out of rng. */ warning(295, funcname(farg->fa_func), arg, tyname(gettyp(ot)), tyname(tp)); } else { /* conversion of %s to %s is out of range */ warning(119, tyname(gettyp(ot)), tyname(tp)); } } else if (nv->v_quad != v->v_quad) { if ((nt == CHAR || nt == UCHAR || nt == SCHAR) && v->v_lspec == CHAR) { /* * Don't warn when assigning a character * literal to any kind of character (signed, * unsigned, or unspecified). */ } else if (op == ASSIGN && tp->t_isfield) { /* precision lost in bit-field assignment */ warning(166); } else if (op == INIT && tp->t_isfield) { /* bit-field initializer out of range */ warning(11); } else if (op == CASE) { /* case label affected by conversion */ warning(196); } else if (op == FARG) { /* %s arg #%d: conv. of %s to %s is out of rng. */ warning(295, funcname(farg->fa_func), arg, tyname(gettyp(ot)), tyname(tp)); } else { /* conversion of %s to %s is out of range */ warning(119, tyname(gettyp(ot)), tyname(tp)); } } } } /* * Called if incompatible types were detected. * Prints a appropriate warning. */ static void incompat(op_t op, tspec_t lt, tspec_t rt) { mod_t *mp; mp = &modtab[op]; if (lt == VOID || (mp->m_binary && rt == VOID)) { /* void type illegal in expression */ error(109); } else if (op == ASSIGN) { if ((lt == STRUCT || lt == UNION) && (rt == STRUCT || rt == UNION)) { /* assignment of different structures */ error(240); } else { /* assignment type mismatch */ error(171); } } else if (mp->m_binary) { /* operands of %s have incompatible types */ error(107, mp->m_name); } else { /* operand of %s has incompatible type */ error(108, mp->m_name); } } /* * Called if incompatible pointer types are detected. * Print an appropriate warning. */ static void illptrc(mod_t *mp, type_t *ltp, type_t *rtp) { tspec_t lt, rt; if (ltp->t_tspec != PTR || rtp->t_tspec != PTR) lerror("illptrc() 1"); lt = ltp->t_subt->t_tspec; rt = rtp->t_subt->t_tspec; if ((lt == STRUCT || lt == UNION) && (rt == STRUCT || rt == UNION)) { if (mp == NULL) { /* illegal structure pointer combination */ warning(244); } else { /* illegal structure pointer combination, op %s */ warning(245, mp->m_name); } } else { if (mp == NULL) { /* illegal pointer combination */ warning(184); } else { /* illegal pointer combination, op %s */ warning(124, mp->m_name); } } } /* * Make sure type (*tpp)->t_subt has at least the qualifiers * of tp1->t_subt and tp2->t_subt. */ static void mrgqual(type_t **tpp, type_t *tp1, type_t *tp2) { if ((*tpp)->t_tspec != PTR || tp1->t_tspec != PTR || tp2->t_tspec != PTR) { lerror("mrgqual()"); } if ((*tpp)->t_subt->t_const == (tp1->t_subt->t_const | tp2->t_subt->t_const) && (*tpp)->t_subt->t_volatile == (tp1->t_subt->t_volatile | tp2->t_subt->t_volatile)) { return; } *tpp = tduptyp(*tpp); (*tpp)->t_subt = tduptyp((*tpp)->t_subt); (*tpp)->t_subt->t_const = tp1->t_subt->t_const | tp2->t_subt->t_const; (*tpp)->t_subt->t_volatile = tp1->t_subt->t_volatile | tp2->t_subt->t_volatile; } /* * Returns 1 if the given structure or union has a constant member * (maybe recursively). */ static int conmemb(type_t *tp) { sym_t *m; tspec_t t; if ((t = tp->t_tspec) != STRUCT && t != UNION) lerror("conmemb()"); for (m = tp->t_str->memb; m != NULL; m = m->s_nxt) { tp = m->s_type; if (tp->t_const) return (1); if ((t = tp->t_tspec) == STRUCT || t == UNION) { if (conmemb(m->s_type)) return (1); } } return (0); } const char * tyname(type_t *tp) { tspec_t t; const char *s; if ((t = tp->t_tspec) == INT && tp->t_isenum) t = ENUM; switch (t) { case CHAR: s = "char"; break; case UCHAR: s = "unsigned char"; break; case SCHAR: s = "signed char"; break; case SHORT: s = "short"; break; case USHORT: s = "unsigned short"; break; case INT: s = "int"; break; case UINT: s = "unsigned int"; break; case LONG: s = "long"; break; case ULONG: s = "unsigned long"; break; case QUAD: s = "long long"; break; case UQUAD: s = "unsigned long long"; break; case FLOAT: s = "float"; break; case DOUBLE: s = "double"; break; case LDOUBLE: s = "long double"; break; case PTR: s = "pointer"; break; case ENUM: s = "enum"; break; case STRUCT: s = "struct"; break; case UNION: s = "union"; break; case FUNC: s = "function"; break; case ARRAY: s = "array"; break; default: lerror("tyname()"); } return (s); } /* * Create a new node for one of the operators POINT and ARROW. */ static tnode_t * bldstr(op_t op, tnode_t *ln, tnode_t *rn) { tnode_t *ntn, *ctn; int nolval; if (rn->tn_op != NAME) lerror("bldstr() 1"); if (rn->tn_sym->s_value.v_tspec != INT) lerror("bldstr() 2"); if (rn->tn_sym->s_scl != MOS && rn->tn_sym->s_scl != MOU) lerror("bldstr() 3"); /* * Remember if the left operand is an lvalue (structure members * are lvalues if and only if the structure itself is an lvalue). */ nolval = op == POINT && !ln->tn_lvalue; if (op == POINT) { ln = bldamper(ln, 1); } else if (ln->tn_type->t_tspec != PTR) { lerror("bldstr() 4"); ln = convert(NOOP, NULL, tincref(gettyp(VOID), PTR), ln); } #if PTRDIFF_IS_LONG ctn = getinode(LONG, rn->tn_sym->s_value.v_quad / CHAR_BIT); #else ctn = getinode(INT, rn->tn_sym->s_value.v_quad / CHAR_BIT); #endif ntn = mktnode(PLUS, tincref(rn->tn_type, PTR), ln, ctn); if (ln->tn_op == CON) ntn = fold(ntn); if (rn->tn_type->t_isfield) { ntn = mktnode(FSEL, ntn->tn_type->t_subt, ntn, NULL); } else { ntn = mktnode(STAR, ntn->tn_type->t_subt, ntn, NULL); } if (nolval) ntn->tn_lvalue = 0; return (ntn); } /* * Create a node for INCAFT, INCBEF, DECAFT and DECBEF. */ static tnode_t * bldincdec(op_t op, tnode_t *ln) { tnode_t *cn, *ntn; if (ln == NULL) lerror("bldincdec() 1"); if (ln->tn_type->t_tspec == PTR) { cn = plength(ln->tn_type); } else { cn = getinode(INT, (quad_t)1); } ntn = mktnode(op, ln->tn_type, ln, cn); return (ntn); } /* * Create a tree node for the & operator */ static tnode_t * bldamper(tnode_t *tn, int noign) { tnode_t *ntn; tspec_t t; if (!noign && ((t = tn->tn_type->t_tspec) == ARRAY || t == FUNC)) { /* & before array or function: ignored */ return (tn); } /* eliminate &* */ if (tn->tn_op == STAR && tn->tn_left->tn_type->t_tspec == PTR && tn->tn_left->tn_type->t_subt == tn->tn_type) { return (tn->tn_left); } ntn = mktnode(AMPER, tincref(tn->tn_type, PTR), tn, NULL); return (ntn); } /* * Create a node for operators PLUS and MINUS. */ static tnode_t * bldplmi(op_t op, tnode_t *ln, tnode_t *rn) { tnode_t *ntn, *ctn; type_t *tp; /* If pointer and integer, then pointer to the lhs. */ if (rn->tn_type->t_tspec == PTR && isityp(ln->tn_type->t_tspec)) { ntn = ln; ln = rn; rn = ntn; } if (ln->tn_type->t_tspec == PTR && rn->tn_type->t_tspec != PTR) { if (!isityp(rn->tn_type->t_tspec)) lerror("bldplmi() 1"); ctn = plength(ln->tn_type); if (rn->tn_type->t_tspec != ctn->tn_type->t_tspec) rn = convert(NOOP, NULL, ctn->tn_type, rn); rn = mktnode(MULT, rn->tn_type, rn, ctn); if (rn->tn_left->tn_op == CON) rn = fold(rn); ntn = mktnode(op, ln->tn_type, ln, rn); } else if (rn->tn_type->t_tspec == PTR) { if (ln->tn_type->t_tspec != PTR || op != MINUS) lerror("bldplmi() 2"); #if PTRDIFF_IS_LONG tp = gettyp(LONG); #else tp = gettyp(INT); #endif ntn = mktnode(op, tp, ln, rn); if (ln->tn_op == CON && rn->tn_op == CON) ntn = fold(ntn); ctn = plength(ln->tn_type); balance(NOOP, &ntn, &ctn); ntn = mktnode(DIV, tp, ntn, ctn); } else { ntn = mktnode(op, ln->tn_type, ln, rn); } return (ntn); } /* * Create a node for operators SHL and SHR. */ static tnode_t * bldshft(op_t op, tnode_t *ln, tnode_t *rn) { tspec_t t; tnode_t *ntn; if ((t = rn->tn_type->t_tspec) != INT && t != UINT) rn = convert(CVT, NULL, gettyp(INT), rn); ntn = mktnode(op, ln->tn_type, ln, rn); return (ntn); } /* * Create a node for COLON. */ static tnode_t * bldcol(tnode_t *ln, tnode_t *rn) { tspec_t lt, rt, pdt; type_t *rtp; tnode_t *ntn; lt = ln->tn_type->t_tspec; rt = rn->tn_type->t_tspec; #if PTRDIFF_IS_LONG pdt = LONG; #else pdt = INT; #endif /* * Arithmetic types are balanced, all other type combinations * still need to be handled. */ if (isatyp(lt) && isatyp(rt)) { rtp = ln->tn_type; } else if (lt == VOID || rt == VOID) { rtp = gettyp(VOID); } else if (lt == STRUCT || lt == UNION) { /* Both types must be identical. */ if (rt != STRUCT && rt != UNION) lerror("bldcol() 1"); if (ln->tn_type->t_str != rn->tn_type->t_str) lerror("bldcol() 2"); if (incompl(ln->tn_type)) { /* unknown operand size, op %s */ error(138, modtab[COLON].m_name); return (NULL); } rtp = ln->tn_type; } else if (lt == PTR && isityp(rt)) { if (rt != pdt) { rn = convert(NOOP, NULL, gettyp(pdt), rn); rt = pdt; } rtp = ln->tn_type; } else if (rt == PTR && isityp(lt)) { if (lt != pdt) { ln = convert(NOOP, NULL, gettyp(pdt), ln); lt = pdt; } rtp = rn->tn_type; } else if (lt == PTR && ln->tn_type->t_subt->t_tspec == VOID) { if (rt != PTR) lerror("bldcol() 4"); rtp = ln->tn_type; mrgqual(&rtp, ln->tn_type, rn->tn_type); } else if (rt == PTR && rn->tn_type->t_subt->t_tspec == VOID) { if (lt != PTR) lerror("bldcol() 5"); rtp = rn->tn_type; mrgqual(&rtp, ln->tn_type, rn->tn_type); } else { if (lt != PTR || rt != PTR) lerror("bldcol() 6"); /* * XXX For now we simply take the left type. This is * probably wrong, if one type contains a function prototype * and the other one, at the same place, only an old style * declaration. */ rtp = ln->tn_type; mrgqual(&rtp, ln->tn_type, rn->tn_type); } ntn = mktnode(COLON, rtp, ln, rn); return (ntn); } /* * Create a node for an assignment operator (both = and op= ). */ static tnode_t * bldasgn(op_t op, tnode_t *ln, tnode_t *rn) { tspec_t lt, rt; tnode_t *ntn, *ctn; if (ln == NULL || rn == NULL) lerror("bldasgn() 1"); lt = ln->tn_type->t_tspec; rt = rn->tn_type->t_tspec; if ((op == ADDASS || op == SUBASS) && lt == PTR) { if (!isityp(rt)) lerror("bldasgn() 2"); ctn = plength(ln->tn_type); if (rn->tn_type->t_tspec != ctn->tn_type->t_tspec) rn = convert(NOOP, NULL, ctn->tn_type, rn); rn = mktnode(MULT, rn->tn_type, rn, ctn); if (rn->tn_left->tn_op == CON) rn = fold(rn); } if ((op == ASSIGN || op == RETURN) && (lt == STRUCT || rt == STRUCT)) { if (rt != lt || ln->tn_type->t_str != rn->tn_type->t_str) lerror("bldasgn() 3"); if (incompl(ln->tn_type)) { if (op == RETURN) { /* cannot return incomplete type */ error(212); } else { /* unknown operand size, op %s */ error(138, modtab[op].m_name); } return (NULL); } } if (op == SHLASS || op == SHRASS) { if (rt != INT) { rn = convert(NOOP, NULL, gettyp(INT), rn); rt = INT; } } else { if (op == ASSIGN || lt != PTR) { if (lt != rt || (ln->tn_type->t_isfield && rn->tn_op == CON)) { rn = convert(op, NULL, ln->tn_type, rn); rt = lt; } } } ntn = mktnode(op, ln->tn_type, ln, rn); return (ntn); } /* * Check for division by zero. Returns 1 if a division by zero is * present, 0 otherwise. */ static int chkdbz(op_t op, tnode_t *rn) { int code; switch (op) { case DIV: case DIVASS: code = 139; /* division by 0 */ break; case MOD: case MODASS: code = 140; /* modular division by 0 */ break; default: return 0; } /* no way of checking unless right side is a constant */ if (rn->tn_op != CON) return 0; if (isftyp(rn->tn_type->t_tspec)) { if (rn->tn_val->v_ldbl == 0.0) { /* division by 0 */ warning(code); return 1; } } else { if (rn->tn_val->v_quad == 0) { /* division by 0 */ warning(code); return 1; } } return 0; } /* * Get length of type tp->t_subt. */ static tnode_t * plength(type_t *tp) { int elem, elsz; tspec_t st; if (tp->t_tspec != PTR) lerror("plength() 1"); tp = tp->t_subt; elem = 1; elsz = 0; while (tp->t_tspec == ARRAY) { elem *= tp->t_dim; tp = tp->t_subt; } switch (tp->t_tspec) { case FUNC: /* pointer to function is not allowed here */ error(110); break; case VOID: /* cannot do pointer arithmetic on operand of ... */ (void)gnuism(136); break; case STRUCT: case UNION: if ((elsz = tp->t_str->size) == 0) /* cannot do pointer arithmetic on operand of ... */ error(136); break; case ENUM: if (incompl(tp)) { /* cannot do pointer arithmetic on operand of ... */ warning(136); } /* FALLTHROUGH */ default: if ((elsz = size(tp->t_tspec)) == 0) { /* cannot do pointer arithmetic on operand of ... */ error(136); } else if (elsz == -1) { lerror("plength() 2"); } break; } if (elem == 0 && elsz != 0) { /* cannot do pointer arithmetic on operand of ... */ error(136); } if (elsz == 0) elsz = CHAR_BIT; #if PTRDIFF_IS_LONG st = LONG; #else st = INT; #endif return (getinode(st, (quad_t)(elem * elsz / CHAR_BIT))); } /* * Do only as much as necessary to compute constant expressions. * Called only if the operator allows folding and (both) operands * are constants. */ static tnode_t * fold(tnode_t *tn) { val_t *v; tspec_t t; int utyp, ovfl; quad_t sl, sr, q, mask; u_quad_t ul, ur; tnode_t *cn; v = xcalloc(1, sizeof (val_t)); v->v_tspec = t = tn->tn_type->t_tspec; utyp = t == PTR || isutyp(t); ul = sl = tn->tn_left->tn_val->v_quad; if (modtab[tn->tn_op].m_binary) ur = sr = tn->tn_right->tn_val->v_quad; ovfl = 0; switch (tn->tn_op) { case UPLUS: q = sl; break; case UMINUS: q = -sl; if (msb(q, t, -1) == msb(sl, t, -1)) ovfl = 1; break; case COMPL: q = ~sl; break; case MULT: q = utyp ? ul * ur : sl * sr; if (msb(q, t, -1) != (msb(sl, t, -1) ^ msb(sr, t, -1))) ovfl = 1; break; case DIV: if (chkdbz(tn->tn_op, tn->tn_right)) { q = utyp ? 0U: 0; } else { q = utyp ? ul / ur : sl / sr; } break; case MOD: if (chkdbz(tn->tn_op, tn->tn_right)) { q = 0; } else { q = utyp ? ul % ur : sl % sr; } break; case PLUS: q = utyp ? ul + ur : sl + sr; if (msb(sl, t, -1) != 0 && msb(sr, t, -1) != 0) { if (msb(q, t, -1) == 0) ovfl = 1; } else if (msb(sl, t, -1) == 0 && msb(sr, t, -1) == 0) { if (msb(q, t, -1) != 0) ovfl = 1; } break; case MINUS: q = utyp ? ul - ur : sl - sr; if (msb(sl, t, -1) != 0 && msb(sr, t, -1) == 0) { if (msb(q, t, -1) == 0) ovfl = 1; } else if (msb(sl, t, -1) == 0 && msb(sr, t, -1) != 0) { if (msb(q, t, -1) != 0) ovfl = 1; } break; case SHL: q = utyp ? ul << sr : sl << sr; break; case SHR: /* * The sign must be explicitly extended because * shifts of signed values are implementation dependent. */ q = ul >> sr; q = xsign(q, t, size(t) - (int)sr); break; case LT: q = utyp ? ul < ur : sl < sr; break; case LE: q = utyp ? ul <= ur : sl <= sr; break; case GE: q = utyp ? ul >= ur : sl >= sr; break; case GT: q = utyp ? ul > ur : sl > sr; break; case EQ: q = utyp ? ul == ur : sl == sr; break; case NE: q = utyp ? ul != ur : sl != sr; break; case AND: q = utyp ? ul & ur : sl & sr; break; case XOR: q = utyp ? ul ^ ur : sl ^ sr; break; case OR: q = utyp ? ul | ur : sl | sr; break; default: lerror("fold() 5"); } mask = qlmasks[size(t)]; /* XXX does not work for quads. */ if (ovfl || ((q | mask) != ~(u_quad_t)0 && (q & ~mask) != 0)) { if (hflag) /* integer overflow detected, op %s */ warning(141, modtab[tn->tn_op].m_name); } v->v_quad = xsign(q, t, -1); cn = getcnode(tn->tn_type, v); return (cn); } /* * Same for operators whose operands are compared with 0 (test context). */ static tnode_t * foldtst(tnode_t *tn) { int l, r; val_t *v; v = xcalloc(1, sizeof (val_t)); v->v_tspec = tn->tn_type->t_tspec; if (tn->tn_type->t_tspec != INT) lerror("foldtst() 1"); if (isftyp(tn->tn_left->tn_type->t_tspec)) { l = tn->tn_left->tn_val->v_ldbl != 0.0; } else { l = tn->tn_left->tn_val->v_quad != 0; } if (modtab[tn->tn_op].m_binary) { if (isftyp(tn->tn_right->tn_type->t_tspec)) { r = tn->tn_right->tn_val->v_ldbl != 0.0; } else { r = tn->tn_right->tn_val->v_quad != 0; } } switch (tn->tn_op) { case NOT: if (hflag) /* constant argument to NOT */ warning(239); v->v_quad = !l; break; case LOGAND: v->v_quad = l && r; break; case LOGOR: v->v_quad = l || r; break; default: lerror("foldtst() 1"); } return (getcnode(tn->tn_type, v)); } /* * Same for operands with floating point type. */ static tnode_t * foldflt(tnode_t *tn) { val_t *v; tspec_t t; ldbl_t l, r; v = xcalloc(1, sizeof (val_t)); v->v_tspec = t = tn->tn_type->t_tspec; if (!isftyp(t)) lerror("foldflt() 1"); if (t != tn->tn_left->tn_type->t_tspec) lerror("foldflt() 2"); if (modtab[tn->tn_op].m_binary && t != tn->tn_right->tn_type->t_tspec) lerror("foldflt() 3"); l = tn->tn_left->tn_val->v_ldbl; if (modtab[tn->tn_op].m_binary) r = tn->tn_right->tn_val->v_ldbl; switch (tn->tn_op) { case UPLUS: v->v_ldbl = l; break; case UMINUS: v->v_ldbl = -l; break; case MULT: v->v_ldbl = l * r; break; case DIV: if (chkdbz(tn->tn_op, tn->tn_right)) { if (t == FLOAT) { v->v_ldbl = l < 0 ? -FLT_MAX : FLT_MAX; } else if (t == DOUBLE) { v->v_ldbl = l < 0 ? -DBL_MAX : DBL_MAX; } else { v->v_ldbl = l < 0 ? -LDBL_MAX : LDBL_MAX; } } else { v->v_ldbl = l / r; } break; case PLUS: v->v_ldbl = l + r; break; case MINUS: v->v_ldbl = l - r; break; case LT: v->v_quad = l < r; break; case LE: v->v_quad = l <= r; break; case GE: v->v_quad = l >= r; break; case GT: v->v_quad = l > r; break; case EQ: v->v_quad = l == r; break; case NE: v->v_quad = l != r; break; default: lerror("foldflt() 4"); } if (isnan((double)v->v_ldbl)) lerror("foldflt() 5"); if (isinf((double)v->v_ldbl) || (t == FLOAT && (v->v_ldbl > FLT_MAX || v->v_ldbl < -FLT_MAX)) || (t == DOUBLE && (v->v_ldbl > DBL_MAX || v->v_ldbl < -DBL_MAX))) { /* floating point overflow detected, op %s */ warning(142, modtab[tn->tn_op].m_name); if (t == FLOAT) { v->v_ldbl = v->v_ldbl < 0 ? -FLT_MAX : FLT_MAX; } else if (t == DOUBLE) { v->v_ldbl = v->v_ldbl < 0 ? -DBL_MAX : DBL_MAX; } else { v->v_ldbl = v->v_ldbl < 0 ? -LDBL_MAX: LDBL_MAX; } } return (getcnode(tn->tn_type, v)); } /* * Create a constant node for sizeof(term). */ tnode_t * bldszoftrm(tnode_t *tn) { switch (tn->tn_op) { case POINT: case STAR: case NAME: case STRING: break; default: warning(312, modtab[tn->tn_op].m_name); } return bldszof(tn->tn_type); } /* * Create a constant node for sizeof. */ tnode_t * bldszof(type_t *tp) { int elem, elsz; tspec_t st; elem = 1; while (tp->t_tspec == ARRAY) { elem *= tp->t_dim; tp = tp->t_subt; } if (elem == 0) { /* cannot take size of incomplete type */ error(143); elem = 1; } switch (tp->t_tspec) { case FUNC: /* cannot take size of function */ error(144); elsz = 1; break; case STRUCT: case UNION: if (incompl(tp)) { /* cannot take size of incomplete type */ error(143); elsz = 1; } else { elsz = tp->t_str->size; } break; case ENUM: if (incompl(tp)) { /* cannot take size of incomplete type */ warning(143); } /* FALLTHROUGH */ default: if (tp->t_isfield) { /* cannot take size of bit-field */ error(145); } if (tp->t_tspec == VOID) { /* cannot take size of void */ error(146); elsz = 1; } else { elsz = size(tp->t_tspec); if (elsz <= 0) lerror("bldszof() 1"); } break; } #if SIZEOF_IS_ULONG st = ULONG; #else st = UINT; #endif return (getinode(st, (quad_t)(elem * elsz / CHAR_BIT))); } /* * Type casts. */ tnode_t * cast(tnode_t *tn, type_t *tp) { tspec_t nt, ot; if (tn == NULL) return (NULL); tn = cconv(tn); nt = tp->t_tspec; ot = tn->tn_type->t_tspec; if (nt == VOID) { /* * XXX ANSI C requires scalar types or void (Plauger&Brodie). * But this seams really questionable. */ } else if (nt == STRUCT || nt == UNION || nt == ARRAY || nt == FUNC) { /* invalid cast expression */ error(147); return (NULL); } else if (ot == STRUCT || ot == UNION) { /* invalid cast expression */ error(147); return (NULL); } else if (ot == VOID) { /* improper cast of void expression */ error(148); return (NULL); } else if (isityp(nt) && issclt(ot)) { /* ok */ } else if (isftyp(nt) && isatyp(ot)) { /* ok */ } else if (nt == PTR && isityp(ot)) { /* ok */ } else if (nt == PTR && ot == PTR) { if (!tp->t_subt->t_const && tn->tn_type->t_subt->t_const) { if (hflag) /* cast discards 'const' from ... */ warning(275); } } else { /* invalid cast expression */ error(147); return (NULL); } tn = convert(CVT, NULL, tp, tn); tn->tn_cast = 1; return (tn); } /* * Create the node for a function argument. * All necessary conversions and type checks are done in funccall(), because * in funcarg() we have no information about expected argument types. */ tnode_t * funcarg(tnode_t *args, tnode_t *arg) { tnode_t *ntn; /* * If there was a serious error in the expression for the argument, * create a dummy argument so the positions of the remaining arguments * will not change. */ if (arg == NULL) arg = getinode(INT, (quad_t)0); ntn = mktnode(PUSH, arg->tn_type, arg, args); return (ntn); } /* * Create the node for a function call. Also check types of * function arguments and insert conversions, if necessary. */ tnode_t * funccall(tnode_t *func, tnode_t *args) { tnode_t *ntn; op_t fcop; if (func == NULL) return (NULL); if (func->tn_op == NAME && func->tn_type->t_tspec == FUNC) { fcop = CALL; } else { fcop = ICALL; } /* * after cconv() func will always be a pointer to a function * if it is a valid function designator. */ func = cconv(func); if (func->tn_type->t_tspec != PTR || func->tn_type->t_subt->t_tspec != FUNC) { /* illegal function */ error(149); return (NULL); } args = chkfarg(func, args); ntn = mktnode(fcop, func->tn_type->t_subt->t_subt, func, args); return (ntn); } /* * Check types of all function arguments and insert conversions, * if necessary. * * func: called function * args: arguments to function */ static tnode_t * chkfarg(tnode_t *func, tnode_t *args) { type_t *ftp; tnode_t *arg; sym_t *asym; farg_t farg; tspec_t at; int narg, npar, n, i; ftp = func->tn_type->t_subt; /* get # of args in the prototype */ npar = 0; for (asym = ftp->t_args; asym != NULL; asym = asym->s_nxt) npar++; /* get # of args in function call */ narg = 0; for (arg = args; arg != NULL; arg = arg->tn_right) narg++; asym = ftp->t_args; if (ftp->t_proto && npar != narg && !(ftp->t_vararg && npar < narg)) { /* argument mismatch: %d arg%s passed, %d expected */ error(150, narg, narg > 1 ? "s" : "", npar); asym = NULL; } for (n = 1; n <= narg; n++) { /* * The rightmost argument is at the top of the argument * subtree. */ for (i = narg, arg = args; i > n; i--, arg = arg->tn_right) ; /* some things which are never allowed */ if ((at = arg->tn_left->tn_type->t_tspec) == VOID) { /* void expressions may not be arguments, arg #%d */ error(151, n); return (NULL); } else if ((at == STRUCT || at == UNION) && incompl(arg->tn_left->tn_type)) { /* argument cannot have unknown size, arg #%d */ error(152, n); return (NULL); } else if (isityp(at) && arg->tn_left->tn_type->t_isenum && incompl(arg->tn_left->tn_type)) { /* argument cannot have unknown size, arg #%d */ warning(152, n); } /* class conversions (arg in value context) */ arg->tn_left = cconv(arg->tn_left); farg.fa_num = n; farg.fa_sym = asym; farg.fa_func = func; if (asym != NULL) { arg->tn_left = parg(&farg, arg->tn_left); } else { arg->tn_left = promote(NOOP, 1, arg->tn_left); } arg->tn_type = arg->tn_left->tn_type; if (asym != NULL) asym = asym->s_nxt; } return (args); } /* * Compare the type of an argument with the corresponding type of a * prototype parameter. If it is a valid combination, but both types * are not the same, insert a conversion to convert the argument into * the type of the parameter. * * n: position of arg * tp: expected type (from prototype) * tn: argument */ static tnode_t * parg(farg_t *farg, tnode_t *tn) { tnode_t *ln; type_t *tp; int warn; tp = farg->fa_sym->s_type; ln = xcalloc(1, sizeof (tnode_t)); ln->tn_type = tduptyp(tp); ln->tn_type->t_const = 0; ln->tn_lvalue = 1; if (typeok(FARG, farg, ln, tn)) { if (!eqtype(tp, tn->tn_type, 1, 0, (warn = 0, &warn)) || warn) tn = convert(FARG, farg, tp, tn); } free(ln); return (tn); } /* * Return the value of an integral constant expression. * If the expression is not constant or its type is not an integer * type, an error message is printed. */ val_t * constant(tnode_t *tn) { val_t *v; if (tn != NULL) tn = cconv(tn); if (tn != NULL) tn = promote(NOOP, 0, tn); v = xcalloc(1, sizeof (val_t)); if (tn == NULL) { if (nerr == 0) lerror("constant() 1"); v->v_tspec = INT; v->v_quad = 1; return (v); } v->v_tspec = tn->tn_type->t_tspec; if (tn->tn_op == CON) { if (tn->tn_type->t_tspec != tn->tn_val->v_tspec) lerror("constant() 2"); if (isityp(tn->tn_val->v_tspec)) { v->v_ansiu = tn->tn_val->v_ansiu; v->v_quad = tn->tn_val->v_quad; return (v); } v->v_quad = tn->tn_val->v_ldbl; } else { v->v_quad = 1; } /* integral constant expression expected */ error(55); if (!isityp(v->v_tspec)) v->v_tspec = INT; return (v); } /* * Perform some tests on expressions which can't be done in build() and * functions called by build(). These tests must be done here because * we need some information about the context in which the operations * are performed. * After all tests are performed, expr() frees the memory which is used * for the expression. */ void expr(tnode_t *tn, int vctx, int tctx) { if (tn == NULL && nerr == 0) lerror("expr() 1"); if (tn == NULL) { tfreeblk(); return; } /* expr() is also called in global initialisations */ if (dcs->d_ctx != EXTERN) chkreach(); chkmisc(tn, vctx, tctx, !tctx, 0, 0, 0); if (tn->tn_op == ASSIGN) { if (hflag && tctx && !tn->tn_parn) /* assignment in conditional context */ warning(159); } else if (tn->tn_op == CON) { if (hflag && tctx && !ccflg) { if (!isityp(tn->tn_type->t_tspec) || (tn->tn_val->v_quad != 0 && tn->tn_val->v_quad != 1)) { /* constant in conditional context */ warning(161); } } } else if (tn->tn_op == CALL && tn->tn_left->tn_op == AMPER) { if (tn->tn_left->tn_left->tn_sym->s_noreturn) reached = rchflg = 0; } if (!modtab[tn->tn_op].m_sideeff) { /* * for left operands of COMMA this warning is already * printed */ if (tn->tn_op != COMMA && !vctx && !tctx) nulleff(tn); } if (dflag) displexpr(tn, 0); /* free the tree memory */ tfreeblk(); } static void nulleff(tnode_t *tn) { if (!hflag) return; if (nulleffexpr(tn)) { /* expression has null effect */ warning(129); } } static int nulleffexpr(tnode_t *tn) { int r1, r2; if (modtab[tn->tn_op].m_sideeff) return (0); switch (tn->tn_op) { case CVT: if (tn->tn_type->t_tspec == VOID) return (0); else return (nulleffexpr(tn->tn_left)); case LOGAND: case LOGOR: /* * && and || have a null effect if the right operand * has null effect. */ return (nulleffexpr(tn->tn_right)); case QUEST: /* * ? has null effect if both of its right * operands * have null effect */ return (nulleffexpr(tn->tn_right)); case COLON: case COMMA: /* * : and , have null effect if both of the operands have * null effect */ r1 = nulleffexpr(tn->tn_left); r2 = nulleffexpr(tn->tn_right); return (r1 && r2); default: return (1); } } /* * Dump an expression to stdout * only used for debugging */ void displexpr(tnode_t *tn, int offs) { u_quad_t uq; if (tn == NULL) { (void)printf("%*s%s\n", offs, "", "NULL"); return; } (void)printf("%*sop %s ", offs, "", modtab[tn->tn_op].m_name); if (tn->tn_op == NAME) { (void)printf("%s: %s ", tn->tn_sym->s_name, scltoa(tn->tn_sym->s_scl)); } else if (tn->tn_op == CON && isftyp(tn->tn_type->t_tspec)) { (void)printf("%#g ", (double)tn->tn_val->v_ldbl); } else if (tn->tn_op == CON && isityp(tn->tn_type->t_tspec)) { uq = tn->tn_val->v_quad; (void)printf("0x %08lx %08lx ", (long)(uq >> 32) & 0xffffffffl, (long)uq & 0xffffffffl); } else if (tn->tn_op == CON) { if (tn->tn_type->t_tspec != PTR) lerror("displexpr() 1"); (void)printf("0x%0*lx ", (int)(sizeof (void *) * CHAR_BIT / 4), (u_long)tn->tn_val->v_quad); } else if (tn->tn_op == STRING) { if (tn->tn_strg->st_tspec == CHAR) { (void)printf("\"%s\"", tn->tn_strg->st_cp); } else { char *s; size_t n; n = MB_CUR_MAX * (tn->tn_strg->st_len + 1); s = xmalloc(n); (void)wcstombs(s, tn->tn_strg->st_wcp, n); (void)printf("L\"%s\"", s); free(s); } (void)printf(" "); } else if (tn->tn_op == FSEL) { (void)printf("o=%d, l=%d ", tn->tn_type->t_foffs, tn->tn_type->t_flen); } (void)printf("%s\n", ttos(tn->tn_type)); if (tn->tn_op == NAME || tn->tn_op == CON || tn->tn_op == STRING) return; displexpr(tn->tn_left, offs + 2); if (modtab[tn->tn_op].m_binary || (tn->tn_op == PUSH && tn->tn_right != NULL)) { displexpr(tn->tn_right, offs + 2); } } /* * Called by expr() to recursively perform some tests. */ /* ARGSUSED */ void chkmisc(tnode_t *tn, int vctx, int tctx, int eqwarn, int fcall, int rvdisc, int szof) { tnode_t *ln, *rn; mod_t *mp; int nrvdisc, cvctx, ctctx; op_t op; scl_t sc; dinfo_t *di; if (tn == NULL) return; ln = tn->tn_left; rn = tn->tn_right; mp = &modtab[op = tn->tn_op]; switch (op) { case AMPER: if (ln->tn_op == NAME && (reached || rchflg)) { if (!szof) setsflg(ln->tn_sym); setuflg(ln->tn_sym, fcall, szof); } if (ln->tn_op == STAR && ln->tn_left->tn_op == PLUS) /* check the range of array indices */ chkaidx(ln->tn_left, 1); break; case LOAD: if (ln->tn_op == STAR && ln->tn_left->tn_op == PLUS) /* check the range of array indices */ chkaidx(ln->tn_left, 0); /* FALLTHROUGH */ case PUSH: case INCBEF: case DECBEF: case INCAFT: case DECAFT: case ADDASS: case SUBASS: case MULASS: case DIVASS: case MODASS: case ANDASS: case ORASS: case XORASS: case SHLASS: case SHRASS: if (ln->tn_op == NAME && (reached || rchflg)) { sc = ln->tn_sym->s_scl; /* * Look if there was an asm statement in one of the * compound statements we are in. If not, we don't * print a warning. */ for (di = dcs; di != NULL; di = di->d_nxt) { if (di->d_asm) break; } if (sc != EXTERN && sc != STATIC && !ln->tn_sym->s_set && !szof && di == NULL) { /* %s may be used before set */ warning(158, ln->tn_sym->s_name); setsflg(ln->tn_sym); } setuflg(ln->tn_sym, 0, 0); } break; case ASSIGN: if (ln->tn_op == NAME && !szof && (reached || rchflg)) { setsflg(ln->tn_sym); if (ln->tn_sym->s_scl == EXTERN) outusg(ln->tn_sym); } if (ln->tn_op == STAR && ln->tn_left->tn_op == PLUS) /* check the range of array indices */ chkaidx(ln->tn_left, 0); break; case CALL: if (ln->tn_op != AMPER || ln->tn_left->tn_op != NAME) lerror("chkmisc() 1"); if (!szof) outcall(tn, vctx || tctx, rvdisc); break; case EQ: /* equality operator "==" found where "=" was exp. */ if (hflag && eqwarn) warning(160); break; case CON: case NAME: case STRING: return; /* LINTED (enumeration values not handled in switch) */ } cvctx = mp->m_vctx; ctctx = mp->m_tctx; /* * values of operands of ':' are not used if the type of at least * one of the operands (for gcc compatibility) is void * XXX test/value context of QUEST should probably be used as * context for both operands of COLON */ if (op == COLON && tn->tn_type->t_tspec == VOID) cvctx = ctctx = 0; nrvdisc = op == CVT && tn->tn_type->t_tspec == VOID; chkmisc(ln, cvctx, ctctx, mp->m_eqwarn, op == CALL, nrvdisc, szof); switch (op) { case PUSH: if (rn != NULL) chkmisc(rn, 0, 0, mp->m_eqwarn, 0, 0, szof); break; case LOGAND: case LOGOR: chkmisc(rn, 0, 1, mp->m_eqwarn, 0, 0, szof); break; case COLON: chkmisc(rn, cvctx, ctctx, mp->m_eqwarn, 0, 0, szof); break; default: if (mp->m_binary) chkmisc(rn, 1, 0, mp->m_eqwarn, 0, 0, szof); break; } } /* * Checks the range of array indices, if possible. * amper is set if only the address of the element is used. This * means that the index is allowd to refer to the first element * after the array. */ static void chkaidx(tnode_t *tn, int amper) { int dim; tnode_t *ln, *rn; int elsz; quad_t con; ln = tn->tn_left; rn = tn->tn_right; /* We can only check constant indices. */ if (rn->tn_op != CON) return; /* Return if the left node does not stem from an array. */ if (ln->tn_op != AMPER) return; if (ln->tn_left->tn_op != STRING && ln->tn_left->tn_op != NAME) return; if (ln->tn_left->tn_type->t_tspec != ARRAY) return; /* * For incomplete array types, we can print a warning only if * the index is negative. */ if (incompl(ln->tn_left->tn_type) && rn->tn_val->v_quad >= 0) return; /* Get the size of one array element */ if ((elsz = length(ln->tn_type->t_subt, NULL)) == 0) return; elsz /= CHAR_BIT; /* Change the unit of the index from bytes to element size. */ if (isutyp(rn->tn_type->t_tspec)) { con = (u_quad_t)rn->tn_val->v_quad / elsz; } else { con = rn->tn_val->v_quad / elsz; } dim = ln->tn_left->tn_type->t_dim + (amper ? 1 : 0); if (!isutyp(rn->tn_type->t_tspec) && con < 0) { /* array subscript cannot be negative: %ld */ warning(167, (long)con); } else if (dim > 0 && (u_quad_t)con >= dim) { /* array subscript cannot be > %d: %ld */ warning(168, dim - 1, (long)con); } } /* * Check for ordered comparisons of unsigned values with 0. */ static void chkcomp(op_t op, tnode_t *ln, tnode_t *rn) { tspec_t lt, rt; mod_t *mp; lt = ln->tn_type->t_tspec; rt = rn->tn_type->t_tspec; mp = &modtab[op]; if (ln->tn_op != CON && rn->tn_op != CON) return; if (!isityp(lt) || !isityp(rt)) return; if ((hflag || pflag) && lt == CHAR && rn->tn_op == CON && (rn->tn_val->v_quad < 0 || rn->tn_val->v_quad > ~(~0 << (CHAR_BIT - 1)))) { /* nonportable character comparison, op %s */ warning(230, mp->m_name); return; } if ((hflag || pflag) && rt == CHAR && ln->tn_op == CON && (ln->tn_val->v_quad < 0 || ln->tn_val->v_quad > ~(~0 << (CHAR_BIT - 1)))) { /* nonportable character comparison, op %s */ warning(230, mp->m_name); return; } if (isutyp(lt) && !isutyp(rt) && rn->tn_op == CON && rn->tn_val->v_quad <= 0) { if (rn->tn_val->v_quad < 0) { /* comparison of %s with %s, op %s */ warning(162, tyname(ln->tn_type), "negative constant", mp->m_name); } else if (op == LT || op == GE || (hflag && op == LE)) { /* comparison of %s with %s, op %s */ warning(162, tyname(ln->tn_type), "0", mp->m_name); } return; } if (isutyp(rt) && !isutyp(lt) && ln->tn_op == CON && ln->tn_val->v_quad <= 0) { if (ln->tn_val->v_quad < 0) { /* comparison of %s with %s, op %s */ warning(162, "negative constant", tyname(rn->tn_type), mp->m_name); } else if (op == GT || op == LE || (hflag && op == GE)) { /* comparison of %s with %s, op %s */ warning(162, "0", tyname(rn->tn_type), mp->m_name); } return; } } /* * Takes an expression and returns 0 if this expression can be used * for static initialisation, otherwise -1. * * Constant initialisation expressions must be costant or an address * of a static object with an optional offset. In the first case, * the result is returned in *offsp. In the second case, the static * object is returned in *symp and the offset in *offsp. * * The expression can consist of PLUS, MINUS, AMPER, NAME, STRING and * CON. Type conversions are allowed if they do not change binary * representation (including width). */ int conaddr(tnode_t *tn, sym_t **symp, ptrdiff_t *offsp) { sym_t *sym; ptrdiff_t offs1, offs2; tspec_t t, ot; switch (tn->tn_op) { case MINUS: if (tn->tn_right->tn_op != CON) return (-1); /* FALLTHROUGH */ case PLUS: offs1 = offs2 = 0; if (tn->tn_left->tn_op == CON) { offs1 = (ptrdiff_t)tn->tn_left->tn_val->v_quad; if (conaddr(tn->tn_right, &sym, &offs2) == -1) return (-1); } else if (tn->tn_right->tn_op == CON) { offs2 = (ptrdiff_t)tn->tn_right->tn_val->v_quad; if (tn->tn_op == MINUS) offs2 = -offs2; if (conaddr(tn->tn_left, &sym, &offs1) == -1) return (-1); } else { return (-1); } *symp = sym; *offsp = offs1 + offs2; break; case AMPER: if (tn->tn_left->tn_op == NAME) { *symp = tn->tn_left->tn_sym; *offsp = 0; } else if (tn->tn_left->tn_op == STRING) { /* * If this would be the front end of a compiler we * would return a label instead of 0. */ *offsp = 0; } break; case CVT: t = tn->tn_type->t_tspec; ot = tn->tn_left->tn_type->t_tspec; if ((!isityp(t) && t != PTR) || (!isityp(ot) && ot != PTR)) { return (-1); } else if (psize(t) != psize(ot)) { return (-1); } if (conaddr(tn->tn_left, symp, offsp) == -1) return (-1); break; default: return (-1); } return (0); } /* * Concatenate two string constants. */ strg_t * catstrg(strg_t *strg1, strg_t *strg2) { size_t len1, len2, len; if (strg1->st_tspec != strg2->st_tspec) { /* cannot concatenate wide and regular string literals */ error(292); return (strg1); } len = (len1 = strg1->st_len) + (len2 = strg2->st_len); if (strg1->st_tspec == CHAR) { strg1->st_cp = xrealloc(strg1->st_cp, len + 1); (void)memcpy(strg1->st_cp + len1, strg2->st_cp, len2 + 1); free(strg2->st_cp); } else { strg1->st_wcp = xrealloc(strg1->st_wcp, (len + 1) * sizeof (wchar_t)); (void)memcpy(strg1->st_wcp + len1, strg2->st_wcp, (len2 + 1) * sizeof (wchar_t)); free(strg2->st_wcp); } strg1->st_len = len; free(strg2); return (strg1); } /* * Print a warning if the given node has operands which should be * parenthesized. * * XXX Does not work if an operand is a constant expression. Constant * expressions are already folded. */ static void precconf(tnode_t *tn) { tnode_t *ln, *rn; op_t lop, rop = NOOP; int lparn, rparn; mod_t *mp; int warn; if (!hflag) return; mp = &modtab[tn->tn_op]; lparn = 0; for (ln = tn->tn_left; ln->tn_op == CVT; ln = ln->tn_left) lparn |= ln->tn_parn; lparn |= ln->tn_parn; lop = ln->tn_op; if (mp->m_binary) { rparn = 0; for (rn = tn->tn_right; tn->tn_op == CVT; rn = rn->tn_left) rparn |= rn->tn_parn; rparn |= rn->tn_parn; rop = rn->tn_op; } warn = 0; switch (tn->tn_op) { case SHL: case SHR: if (!lparn && (lop == PLUS || lop == MINUS)) { warn = 1; } else if (!rparn && (rop == PLUS || rop == MINUS)) { warn = 1; } break; case LOGOR: if (!lparn && lop == LOGAND) { warn = 1; } else if (!rparn && rop == LOGAND) { warn = 1; } break; case AND: case XOR: case OR: if (!lparn && lop != tn->tn_op) { if (lop == PLUS || lop == MINUS) { warn = 1; } else if (lop == AND || lop == XOR) { warn = 1; } } if (!warn && !rparn && rop != tn->tn_op) { if (rop == PLUS || rop == MINUS) { warn = 1; } else if (rop == AND || rop == XOR) { warn = 1; } } break; /* LINTED (enumeration values not handled in switch) */ } if (warn) { /* precedence confusion possible: parenthesize! */ warning(169); } } /* * Return the function name of a function (or of a pointer to a * function). */ const char * funcname(tnode_t *tn) { /* dereference function pointer */ switch (tn->tn_op) { case AMPER: return funcname(tn->tn_left); case LOAD: /* called as (*fptr)(args) */ return funcname(tn->tn_left); case CALL: return funcname(tn->tn_left); case NAME: return tn->tn_sym->s_name; default: return ""; } }