/* $NetBSD: emit1.c,v 1.19 2008/09/26 22:52:24 matt Exp $ */ /* * Copyright (c) 1996 Christopher G. Demetriou. All Rights Reserved. * 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. */ #if HAVE_NBTOOL_CONFIG_H #include "nbtool_config.h" #endif #include #if defined(__RCSID) && !defined(lint) __RCSID("$NetBSD: emit1.c,v 1.19 2008/09/26 22:52:24 matt Exp $"); #endif #include #include "lint1.h" static void outtt(sym_t *, sym_t *); static void outfstrg(strg_t *); /* * Write type into the output buffer. * The type is written as a sequence of substrings, each of which describes a * node of type type_t * a node is coded as follows: * _Bool B * _Complex float s X * _Complex double X * _Complex long double l X * char C * signed char s C * unsigned char u C * short S * unsigned short u S * int I * unsigned int u I * long L * unsigned long u L * long long Q * unsigned long long u Q * float s D * double D * long double l D * void V * * P * [n] A n * () F * (void) F 0 * (n arguments) F n arg1 arg2 ... argn * (n arguments, ...) F n arg1 arg2 ... argn-1 E * (a, b, c, ...) f n arg1 arg2 ... * enum tag e T tag_or_typename * struct tag s T tag_or_typename * union tag u T tag_or_typename * * tag_or_typename 0 no tag or type name * 1 n tag Tag * 2 n typename only type name * * spaces are only for better readability * additionaly it is possible to prepend the characters 'c' (for const) * and 'v' (for volatile) */ void outtype(type_t *tp) { int t, s, na; sym_t *arg; tspec_t ts; while (tp != NULL) { if ((ts = tp->t_tspec) == INT && tp->t_isenum) ts = ENUM; switch (ts) { case BOOL: t = 'B'; s = '\0'; break; case CHAR: t = 'C'; s = '\0'; break; case SCHAR: t = 'C'; s = 's'; break; case UCHAR: t = 'C'; s = 'u'; break; case SHORT: t = 'S'; s = '\0'; break; case USHORT: t = 'S'; s = 'u'; break; case INT: t = 'I'; s = '\0'; break; case UINT: t = 'I'; s = 'u'; break; case LONG: t = 'L'; s = '\0'; break; case ULONG: t = 'L'; s = 'u'; break; case QUAD: t = 'Q'; s = '\0'; break; case UQUAD: t = 'Q'; s = 'u'; break; case FLOAT: t = 'D'; s = 's'; break; case DOUBLE: t = 'D'; s = '\0'; break; case LDOUBLE: t = 'D'; s = 'l'; break; case VOID: t = 'V'; s = '\0'; break; case PTR: t = 'P'; s = '\0'; break; case ARRAY: t = 'A'; s = '\0'; break; case FUNC: t = 'F'; s = '\0'; break; case ENUM: t = 'T'; s = 'e'; break; case STRUCT: t = 'T'; s = 's'; break; case UNION: t = 'T'; s = 'u'; break; case FCOMPLEX: t = 'X'; s = 's'; break; case DCOMPLEX: t = 'X'; s = '\0'; break; case LCOMPLEX: t = 'X'; s = 'l'; break; default: LERROR("outtyp()"); } if (tp->t_const) outchar('c'); if (tp->t_volatile) outchar('v'); if (s != '\0') outchar(s); outchar(t); if (ts == ARRAY) { outint(tp->t_dim); } else if (ts == ENUM) { outtt(tp->t_enum->etag, tp->t_enum->etdef); } else if (ts == STRUCT || ts == UNION) { outtt(tp->t_str->stag, tp->t_str->stdef); } else if (ts == FUNC && tp->t_proto) { na = 0; for (arg = tp->t_args; arg != NULL; arg = arg->s_nxt) na++; if (tp->t_vararg) na++; outint(na); for (arg = tp->t_args; arg != NULL; arg = arg->s_nxt) outtype(arg->s_type); if (tp->t_vararg) outchar('E'); } tp = tp->t_subt; } } /* * type to string * used for debugging output * * it uses its own output buffer for conversion */ const char * ttos(type_t *tp) { static ob_t tob; ob_t tmp; if (tob.o_buf == NULL) { tob.o_len = 64; tob.o_buf = tob.o_nxt = xmalloc(tob.o_len); tob.o_end = tob.o_buf + tob.o_len; } tmp = ob; ob = tob; ob.o_nxt = ob.o_buf; outtype(tp); outchar('\0'); tob = ob; ob = tmp; return (tob.o_buf); } /* * write the name of a tag or typename * * if the tag is named, the name of the * tag is written, otherwise, if a typename exists which * refers to this tag, this typename is written */ static void outtt(sym_t *tag, sym_t *tdef) { /* * 0 is no longer used. */ if (tag->s_name != unnamed) { outint(1); outname(tag->s_name); } else if (tdef != NULL) { outint(2); outname(tdef->s_name); } else { outint(3); outint(tag->s_dpos.p_line); outchar('.'); outint(getfnid(tag->s_dpos.p_file)); outchar('.'); outint(tag->s_dpos.p_uniq); } } /* * write information about an global declared/defined symbol * with storage class extern * * informations about function definitions are written in outfdef(), * not here */ void outsym(sym_t *sym, scl_t sc, def_t def) { /* * Static function declarations must also be written to the output * file. Compatibility of function declarations (for both static * and extern functions) must be checked in lint2. Lint1 can't do * this, especially not, if functions are declared at block level * before their first declaration at level 0. */ if (sc != EXTERN && !(sc == STATIC && sym->s_type->t_tspec == FUNC)) return; /* reset buffer */ outclr(); /* * line number of .c source, 'd' for declaration, Id of current * source (.c or .h), and line in current source. */ outint(csrc_pos.p_line); outchar('d'); outint(getfnid(sym->s_dpos.p_file)); outchar('.'); outint(sym->s_dpos.p_line); /* flags */ switch (def) { case DEF: /* defined */ outchar('d'); break; case TDEF: /* tentative defined */ outchar('t'); break; case DECL: /* declared */ outchar('e'); break; default: LERROR("outsym()"); } if (llibflg && def != DECL) { /* * mark it as used so we get no warnings from lint2 about * unused symbols in libraries. */ outchar('u'); } if (sc == STATIC) outchar('s'); /* name of the symbol */ outname(sym->s_name); /* renamed name of symbol, if necessary */ if (sym->s_rename) { outchar('r'); outname(sym->s_rename); } /* type of the symbol */ outtype(sym->s_type); } /* * write information about function definition * * this is also done for static functions so we are able to check if * they are called with proper argument types */ void outfdef(sym_t *fsym, pos_t *posp, int rval, int osdef, sym_t *args) { int narg; sym_t *arg; /* reset the buffer */ outclr(); /* * line number of .c source, 'd' for declaration, Id of current * source (.c or .h), and line in current source * * we are already at the end of the function. If we are in the * .c source, posp->p_line is correct, otherwise csrc_pos.p_line * (for functions defined in header files). */ if (posp->p_file == csrc_pos.p_file) { outint(posp->p_line); } else { outint(csrc_pos.p_line); } outchar('d'); outint(getfnid(posp->p_file)); outchar('.'); outint(posp->p_line); /* flags */ /* both SCANFLIKE and PRINTFLIKE imply VARARGS */ if (prflstrg != -1) { nvararg = prflstrg; } else if (scflstrg != -1) { nvararg = scflstrg; } if (nvararg != -1) { outchar('v'); outint(nvararg); } if (scflstrg != -1) { outchar('S'); outint(scflstrg); } if (prflstrg != -1) { outchar('P'); outint(prflstrg); } nvararg = prflstrg = scflstrg = -1; outchar('d'); if (rval) /* has return value */ outchar('r'); if (llibflg) /* * mark it as used so lint2 does not complain about * unused symbols in libraries */ outchar('u'); if (osdef) /* old style function definition */ outchar('o'); if (fsym->s_scl == STATIC) outchar('s'); /* name of function */ outname(fsym->s_name); /* renamed name of function, if necessary */ if (fsym->s_rename) { outchar('r'); outname(fsym->s_rename); } /* argument types and return value */ if (osdef) { narg = 0; for (arg = args; arg != NULL; arg = arg->s_nxt) narg++; outchar('f'); outint(narg); for (arg = args; arg != NULL; arg = arg->s_nxt) outtype(arg->s_type); outtype(fsym->s_type->t_subt); } else { outtype(fsym->s_type); } } /* * write out all information necessary for lint2 to check function * calls * * rvused is set if the return value is used (asigned to a variable) * rvdisc is set if the return value is not used and not ignored * (casted to void) */ void outcall(tnode_t *tn, int rvused, int rvdisc) { tnode_t *args, *arg; int narg, n, i; int64_t q; tspec_t t; /* reset buffer */ outclr(); /* * line number of .c source, 'c' for function call, Id of current * source (.c or .h), and line in current source */ outint(csrc_pos.p_line); outchar('c'); outint(getfnid(curr_pos.p_file)); outchar('.'); outint(curr_pos.p_line); /* * flags; 'u' and 'i' must be last to make sure a letter * is between the numeric argument of a flag and the name of * the function */ narg = 0; args = tn->tn_right; for (arg = args; arg != NULL; arg = arg->tn_right) narg++; /* informations about arguments */ for (n = 1; n <= narg; n++) { /* the last argument is the top one in the tree */ for (i = narg, arg = args; i > n; i--, arg = arg->tn_right) continue; arg = arg->tn_left; if (arg->tn_op == CON) { if (isityp(t = arg->tn_type->t_tspec)) { /* * XXX it would probably be better to * explicitly test the sign */ if ((q = arg->tn_val->v_quad) == 0) { /* zero constant */ outchar('z'); } else if (msb(q, t, 0) == 0) { /* positive if casted to signed */ outchar('p'); } else { /* negative if casted to signed */ outchar('n'); } outint(n); } } else if (arg->tn_op == AMPER && arg->tn_left->tn_op == STRING && arg->tn_left->tn_strg->st_tspec == CHAR) { /* constant string, write all format specifiers */ outchar('s'); outint(n); outfstrg(arg->tn_left->tn_strg); } } /* return value discarded/used/ignored */ outchar(rvdisc ? 'd' : (rvused ? 'u' : 'i')); /* name of the called function */ outname(tn->tn_left->tn_left->tn_sym->s_name); /* types of arguments */ outchar('f'); outint(narg); for (n = 1; n <= narg; n++) { /* the last argument is the top one in the tree */ for (i = narg, arg = args; i > n; i--, arg = arg->tn_right) continue; outtype(arg->tn_left->tn_type); } /* expected type of return value */ outtype(tn->tn_type); } /* * extracts potential format specifiers for printf() and scanf() and * writes them, enclosed in "" and qouted if necessary, to the output buffer */ static void outfstrg(strg_t *strg) { int c, oc, first; u_char *cp; if (strg->st_tspec != CHAR) LERROR("outfstrg()"); cp = strg->st_cp; outchar('"'); c = *cp++; while (c != '\0') { if (c != '%') { c = *cp++; continue; } outqchar('%'); c = *cp++; /* flags for printf and scanf and *-fieldwidth for printf */ while (c != '\0' && (c == '-' || c == '+' || c == ' ' || c == '#' || c == '0' || c == '*')) { outqchar(c); c = *cp++; } /* numeric field width */ while (c != '\0' && isdigit(c)) { outqchar(c); c = *cp++; } /* precision for printf */ if (c == '.') { outqchar(c); if ((c = *cp++) == '*') { outqchar(c); c = *cp++; } else { while (c != '\0' && isdigit(c)) { outqchar(c); c = *cp++; } } } /* h, l, L and q flags fpr printf and scanf */ if (c == 'h' || c == 'l' || c == 'L' || c == 'q') { outqchar(c); c = *cp++; } /* * The last character. It is always written so we can detect * invalid format specifiers. */ if (c != '\0') { outqchar(c); oc = c; c = *cp++; /* * handle [ for scanf. [-] means that a minus sign * was found at an undefined position. */ if (oc == '[') { if (c == '^') c = *cp++; if (c == ']') c = *cp++; first = 1; while (c != '\0' && c != ']') { if (c == '-') { if (!first && *cp != ']') outqchar(c); } first = 0; c = *cp++; } if (c == ']') { outqchar(c); c = *cp++; } } } } outchar('"'); } /* * writes a record if sym was used */ void outusg(sym_t *sym) { /* reset buffer */ outclr(); /* * line number of .c source, 'u' for used, Id of current * source (.c or .h), and line in current source */ outint(csrc_pos.p_line); outchar('u'); outint(getfnid(curr_pos.p_file)); outchar('.'); outint(curr_pos.p_line); /* necessary to delimit both numbers */ outchar('x'); /* Den Namen des Symbols ausgeben */ outname(sym->s_name); }