%{ /* $OpenBSD: scan.l,v 1.12 2005/11/24 01:45:28 deraadt Exp $ */ /* $NetBSD: scan.l,v 1.8 1995/10/23 13:38:51 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: scan.l,v 1.12 2005/11/24 01:45:28 deraadt Exp $"; #endif #include #include #include #include #include #include #include #include #include "lint1.h" #include "y.tab.h" #define CHAR_MASK (~(~0 << CHAR_BIT)) /* XXX declaration of strtouq() is missing in stdlib.h ? */ extern u_quad_t strtouq(const char *, char **, int); /* Current position (its also updated when an included file is parsed) */ pos_t curr_pos = { 1, "" }; /* * Current position in C source (not updated when an included file is * parsed). */ pos_t csrc_pos = { 1, "" }; static void incline(void); static void badchar(int); static sbuf_t *allocsb(void); static void freesb(sbuf_t *); static int inpc(void); static int hash(const char *); static sym_t *search(sbuf_t *); static int name(void); static int keyw(sym_t *); static int icon(int); static int fcon(void); static int operator(int, op_t); static int ccon(void); static int wccon(void); static int getescc(int); static void directive(void); static void comment(void); static int string(void); static int wcstrg(void); %} L [_A-Za-z] D [0-9] NZD [1-9] OD [0-7] HD [0-9A-Fa-f] EX ([eE][+-]?[0-9]+) %% {L}({L}|{D})* return (name()); 0{OD}*[lLuU]* return (icon(8)); {NZD}{D}*[lLuU]* return (icon(10)); 0[xX]{HD}+[lLuU]* return (icon(16)); {D}+\.{D}*{EX}?[fFlL]? | {D}+{EX}[fFlL]? | \.{D}+{EX}?[fFlL]? return (fcon()); "=" return (operator(T_ASSIGN, ASSIGN)); "*=" return (operator(T_OPASS, MULASS)); "/=" return (operator(T_OPASS, DIVASS)); "%=" return (operator(T_OPASS, MODASS)); "+=" return (operator(T_OPASS, ADDASS)); "-=" return (operator(T_OPASS, SUBASS)); "<<=" return (operator(T_OPASS, SHLASS)); ">>=" return (operator(T_OPASS, SHRASS)); "&=" return (operator(T_OPASS, ANDASS)); "^=" return (operator(T_OPASS, XORASS)); "|=" return (operator(T_OPASS, ORASS)); "||" return (operator(T_LOGOR, LOGOR)); "&&" return (operator(T_LOGAND, LOGAND)); "|" return (operator(T_OR, OR)); "&" return (operator(T_AND, AND)); "^" return (operator(T_XOR, XOR)); "==" return (operator(T_EQOP, EQ)); "!=" return (operator(T_EQOP, NE)); "<" return (operator(T_RELOP, LT)); ">" return (operator(T_RELOP, GT)); "<=" return (operator(T_RELOP, LE)); ">=" return (operator(T_RELOP, GE)); "<<" return (operator(T_SHFTOP, SHL)); ">>" return (operator(T_SHFTOP, SHR)); "++" return (operator(T_INCDEC, INC)); "--" return (operator(T_INCDEC, DEC)); "->" return (operator(T_STROP, ARROW)); "." return (operator(T_STROP, POINT)); "+" return (operator(T_ADDOP, PLUS)); "-" return (operator(T_ADDOP, MINUS)); "*" return (operator(T_MULT, MULT)); "/" return (operator(T_DIVOP, DIV)); "%" return (operator(T_DIVOP, MOD)); "!" return (operator(T_UNOP, NOT)); "~" return (operator(T_UNOP, COMPL)); "\"" return (string()); "L\"" return (wcstrg()); ";" return (T_SEMI); "{" return (T_LBRACE); "}" return (T_RBRACE); "," return (T_COMMA); ":" return (T_COLON); "?" return (T_QUEST); "[" return (T_LBRACK); "]" return (T_RBRACK); "(" return (T_LPARN); ")" return (T_RPARN); "..." return (T_ELLIPSE); "'" return (ccon()); "L'" return (wccon()); ^#.*$ directive(); \n incline(); \t|" "|\f|\v ; "/*" comment(); . badchar(yytext[0]); %% static void incline() { curr_pos.p_line++; if (curr_pos.p_file == csrc_pos.p_file) csrc_pos.p_line++; } static void badchar(c) int c; { /* unknown character \%o */ error(250, c); } /* * Keywords. * During initialisation they are written to the symbol table. */ static struct kwtab { const char *kw_name; /* keyword */ int kw_token; /* token returned by yylex() */ scl_t kw_scl; /* storage class if kw_token T_SCLASS */ tspec_t kw_tspec; /* type spec. if kw_token T_TYPE or T_SOU */ tqual_t kw_tqual; /* type qual. fi kw_token T_QUAL */ u_int kw_stdc : 1; /* STDC keyword */ u_int kw_gcc : 1; /* GCC keyword */ } kwtab[] = { { "asm", T_ASM, 0, 0, 0, 0, 1 }, { "__asm", T_ASM, 0, 0, 0, 0, 0 }, { "__asm__", T_ASM, 0, 0, 0, 0, 0 }, { "__attribute__", T_ATTRIBUTE, 0, 0, 0, 0, 0 }, { "__lint_equal__", T_LEQUAL, 0, 0, 0, 0, 0 }, { "auto", T_SCLASS, AUTO, 0, 0, 0, 0 }, { "break", T_BREAK, 0, 0, 0, 0, 0 }, { "case", T_CASE, 0, 0, 0, 0, 0 }, { "char", T_TYPE, 0, CHAR, 0, 0, 0 }, { "const", T_QUAL, 0, 0, CONST, 1, 0 }, { "__const__", T_QUAL, 0, 0, CONST, 0, 0 }, { "__const", T_QUAL, 0, 0, CONST, 0, 0 }, { "continue", T_CONTINUE, 0, 0, 0, 0, 0 }, { "default", T_DEFAULT, 0, 0, 0, 0, 0 }, { "do", T_DO, 0, 0, 0, 0, 0 }, { "double", T_TYPE, 0, DOUBLE, 0, 0, 0 }, { "else", T_ELSE, 0, 0, 0, 0, 0 }, { "enum", T_ENUM, 0, 0, 0, 0, 0 }, { "extern", T_SCLASS, EXTERN, 0, 0, 0, 0 }, { "float", T_TYPE, 0, FLOAT, 0, 0, 0 }, { "for", T_FOR, 0, 0, 0, 0, 0 }, { "goto", T_GOTO, 0, 0, 0, 0, 0 }, { "if", T_IF, 0, 0, 0, 0, 0 }, { "inline", T_SCLASS, INLINE, 0, 0, 1, 0 }, { "__inline__", T_SCLASS, INLINE, 0, 0, 0, 0 }, { "__inline", T_SCLASS, INLINE, 0, 0, 0, 0 }, { "int", T_TYPE, 0, INT, 0, 0, 0 }, { "long", T_TYPE, 0, LONG, 0, 0, 0 }, { "register", T_SCLASS, REG, 0, 0, 0, 0 }, { "__restrict", T_QUAL, 0, 0, RESTRICT, 0, 0 }, { "__restrict__", T_QUAL, 0, 0, RESTRICT, 0, 0 }, { "return", T_RETURN, 0, 0, 0, 0, 0 }, { "short", T_TYPE, 0, SHORT, 0, 0, 0 }, { "signed", T_TYPE, 0, SIGNED, 0, 1, 0 }, { "__signed__", T_TYPE, 0, SIGNED, 0, 0, 0 }, { "__signed", T_TYPE, 0, SIGNED, 0, 0, 0 }, { "sizeof", T_SIZEOF, 0, 0, 0, 0, 0 }, { "static", T_SCLASS, STATIC, 0, 0, 0, 0 }, { "struct", T_SOU, 0, STRUCT, 0, 0, 0 }, { "switch", T_SWITCH, 0, 0, 0, 0, 0 }, { "typedef", T_SCLASS, TYPEDEF, 0, 0, 0, 0 }, { "union", T_SOU, 0, UNION, 0, 0, 0 }, { "unsigned", T_TYPE, 0, UNSIGN, 0, 0, 0 }, { "void", T_TYPE, 0, VOID, 0, 0, 0 }, { "volatile", T_QUAL, 0, 0, VOLATILE, 1, 0 }, { "__volatile__", T_QUAL, 0, 0, VOLATILE, 0, 0 }, { "__volatile", T_QUAL, 0, 0, VOLATILE, 0, 0 }, { "while", T_WHILE, 0, 0, 0, 0, 0 }, { NULL, 0, 0, 0, 0, 0, 0 } }; /* Symbol table */ static sym_t *symtab[HSHSIZ1]; /* bit i of the entry with index i is set */ u_quad_t qbmasks[sizeof(u_quad_t) * CHAR_BIT]; /* least significant i bits are set in the entry with index i */ u_quad_t qlmasks[sizeof(u_quad_t) * CHAR_BIT + 1]; /* least significant i bits are not set in the entry with index i */ u_quad_t qumasks[sizeof(u_quad_t) * CHAR_BIT + 1]; /* free list for sbuf structures */ static sbuf_t *sbfrlst; /* Typ of next expected symbol */ symt_t symtyp; /* * All keywords are written to the symbol table. This saves us looking * in a extra table for each name we found. */ void initscan() { struct kwtab *kw; sym_t *sym; int h, i; u_quad_t uq; for (kw = kwtab; kw->kw_name != NULL; kw++) { if (kw->kw_stdc && tflag) continue; if (kw->kw_gcc && !gflag) continue; sym = getblk(sizeof (sym_t)); sym->s_name = kw->kw_name; sym->s_keyw = 1; sym->s_value.v_quad = kw->kw_token; if (kw->kw_token == T_TYPE || kw->kw_token == T_SOU) { sym->s_tspec = kw->kw_tspec; } else if (kw->kw_token == T_SCLASS) { sym->s_scl = kw->kw_scl; } else if (kw->kw_token == T_QUAL) { sym->s_tqual = kw->kw_tqual; } h = hash(sym->s_name); if ((sym->s_link = symtab[h]) != NULL) symtab[h]->s_rlink = &sym->s_link; (symtab[h] = sym)->s_rlink = &symtab[h]; } /* initialize bit-masks for quads */ for (i = 0; i < sizeof (u_quad_t) * CHAR_BIT; i++) { qbmasks[i] = (u_quad_t)1 << i; uq = ~(u_quad_t)0 << i; qumasks[i] = uq; qlmasks[i] = ~uq; } qumasks[i] = 0; qlmasks[i] = ~(u_quad_t)0; } /* * Get a free sbuf structure, if possible from the free list */ static sbuf_t * allocsb() { sbuf_t *sb; if ((sb = sbfrlst) != NULL) { sbfrlst = sb->sb_nxt; } else { sb = xmalloc(sizeof (sbuf_t)); } (void)memset(sb, 0, sizeof (sb)); return (sb); } /* * Put a sbuf structure to the free list */ static void freesb(sb) sbuf_t *sb; { sb->sb_nxt = sbfrlst; sbfrlst = sb; } /* * Read a character and ensure that it is positive (except EOF). * Increment line count(s) if necessary. */ static int inpc() { int c; if ((c = input()) != EOF && (c &= CHAR_MASK) == '\n') incline(); return (c); } static int hash(s) const char *s; { u_int v; const u_char *us; v = 0; for (us = (const u_char *)s; *us != '\0'; us++) { v = (v << sizeof (v)) + *us; v ^= v >> (sizeof (v) * CHAR_BIT - sizeof (v)); } return (v % HSHSIZ1); } /* * Lex has found a letter followed by zero or more letters or digits. * It looks for a symbol in the symbol table with the same name. This * symbol must either be a keyword or a symbol of the type required by * symtyp (label, member, tag, ...). * * If it is a keyword, the token is returned. In some cases it is described * more deeply by data written to yylval. * * If it is a symbol, T_NAME is returned and the pointer to a sbuf struct * is stored in yylval. This struct contains the name of the symbol, it's * length and hash value. If there is already a symbol of the same name * and type in the symbol table, the sbuf struct also contains a pointer * to the symbol table entry. */ static int name() { char *s; sbuf_t *sb; sym_t *sym; int tok; sb = allocsb(); sb->sb_name = yytext; sb->sb_len = yyleng; sb->sb_hash = hash(yytext); if ((sym = search(sb)) != NULL && sym->s_keyw) { freesb(sb); return (keyw(sym)); } sb->sb_sym = sym; if (sym != NULL) { if (blklev < sym->s_blklev) lerror("name() 1"); sb->sb_name = sym->s_name; sb->sb_len = strlen(sym->s_name); tok = sym->s_scl == TYPEDEF ? T_TYPENAME : T_NAME; } else { s = getblk(yyleng + 1); (void)memcpy(s, yytext, yyleng + 1); sb->sb_name = s; sb->sb_len = yyleng; tok = T_NAME; } yylval.y_sb = sb; return (tok); } static sym_t * search(sb) sbuf_t *sb; { sym_t *sym; for (sym = symtab[sb->sb_hash]; sym != NULL; sym = sym->s_link) { if (strcmp(sym->s_name, sb->sb_name) == 0) { if (sym->s_keyw || sym->s_kind == symtyp) return (sym); } } return (NULL); } static int keyw(sym) sym_t *sym; { int t; if ((t = (int)sym->s_value.v_quad) == T_SCLASS) { yylval.y_scl = sym->s_scl; } else if (t == T_TYPE || t == T_SOU) { yylval.y_tspec = sym->s_tspec; } else if (t == T_QUAL) { yylval.y_tqual = sym->s_tqual; } return (t); } /* * Convert a string representing an integer into internal representation. * The value is returned in yylval. icon() (and yylex()) returns T_CON. */ static int icon(base) int base; { int l_suffix, u_suffix; int len; const char *cp; char c, *eptr; tspec_t typ; u_long ul; u_quad_t uq; int ansiu; static tspec_t contypes[2][3] = { { INT, LONG, QUAD }, { UINT, ULONG, UQUAD } }; cp = yytext; len = yyleng; /* skip 0x */ if (base == 16) { cp += 2; len -= 2; } /* read suffixes */ l_suffix = u_suffix = 0; for ( ; ; ) { if ((c = cp[len - 1]) == 'l' || c == 'L') { l_suffix++; } else if (c == 'u' || c == 'U') { u_suffix++; } else { break; } len--; } if (l_suffix > 2 || u_suffix > 1) { /* malformed integer constant */ warning(251); if (l_suffix > 2) l_suffix = 2; if (u_suffix > 1) u_suffix = 1; } if (tflag && u_suffix != 0) { /* suffix U is illegal in traditional C */ warning(97); } typ = contypes[u_suffix][l_suffix]; errno = 0; if (l_suffix < 2) { ul = strtoul(cp, &eptr, base); } else { uq = strtouq(cp, &eptr, base); } if (eptr != cp + len) lerror("icon() 1"); if (errno != 0) /* integer constant out of range */ warning(252); /* * If the value is to big for the current type, we must choose * another type. */ ansiu = 0; switch (typ) { case INT: if (ul <= INT_MAX) { /* ok */ } else if (ul <= (unsigned)UINT_MAX && base != 10) { typ = UINT; } else if (ul <= LONG_MAX) { typ = LONG; } else { typ = ULONG; } if (typ == UINT || typ == ULONG) { if (tflag) { typ = LONG; } else if (!sflag) { /* * Remember that the constant is unsigned * only in ANSI C */ ansiu = 1; } } break; case UINT: if (ul > (u_int)UINT_MAX) typ = ULONG; break; case LONG: if (ul > LONG_MAX && !tflag) { typ = ULONG; if (!sflag) ansiu = 1; } break; case QUAD: if (uq > QUAD_MAX && !tflag) { typ = UQUAD; if (!sflag) ansiu = 1; } break; /* LINTED (enumeration values not handled in switch) */ } if (typ != QUAD && typ != UQUAD) { if (isutyp(typ)) { uq = ul; } else { uq = (quad_t)(long)ul; } } uq = (u_quad_t)xsign((quad_t)uq, typ, -1); (yylval.y_val = xcalloc(1, sizeof (val_t)))->v_tspec = typ; yylval.y_val->v_ansiu = ansiu; yylval.y_val->v_quad = (quad_t)uq; return (T_CON); } /* * Returns 1 if t is a signed type and the value is negative. * * len is the number of significant bits. If len is -1, len is set * to the width of type t. */ int sign(q, t, len) quad_t q; tspec_t t; int len; { if (t == PTR || isutyp(t)) return (0); return (msb(q, t, len)); } int msb(q, t, len) quad_t q; tspec_t t; int len; { if (len <= 0) len = size(t); return ((q & qbmasks[len - 1]) != 0); } /* * Extends the sign of q. */ quad_t xsign(q, t, len) quad_t q; tspec_t t; int len; { if (len <= 0) len = size(t); if (t == PTR || isutyp(t) || !sign(q, t, len)) { q &= qlmasks[len]; } else { q |= qumasks[len]; } return (q); } /* * Convert a string representing a floating point value into its interal * representation. Type and value are returned in yylval. fcon() * (and yylex()) returns T_CON. * XXX Currently it is not possible to convert constants of type * long double which are greater then DBL_MAX. */ static int fcon() { const char *cp; int len; tspec_t typ; char c, *eptr; double d; float f; cp = yytext; len = yyleng; if ((c = cp[len - 1]) == 'f' || c == 'F') { typ = FLOAT; len--; } else if (c == 'l' || c == 'L') { typ = LDOUBLE; len--; } else { typ = DOUBLE; } if (tflag && typ != DOUBLE) { /* suffixes F and L are illegal in traditional C */ warning(98); } errno = 0; d = strtod(cp, &eptr); if (eptr != cp + len) lerror("fcon() 1"); if (errno != 0) /* floating-point constant out of range */ warning(248); if (typ == FLOAT) { f = (float)d; if (isinf(f)) { /* floating-point constant out of range */ warning(248); f = f > 0 ? FLT_MAX : -FLT_MAX; } } (yylval.y_val = xcalloc(1, sizeof (val_t)))->v_tspec = typ; if (typ == FLOAT) { yylval.y_val->v_ldbl = f; } else { yylval.y_val->v_ldbl = d; } return (T_CON); } static int operator(t, o) int t; op_t o; { yylval.y_op = o; return (t); } /* * Called if lex found a leading \'. */ static int ccon() { int n, val, c; char cv; n = 0; val = 0; while ((c = getescc('\'')) >= 0) { val = (val << CHAR_BIT) + c; n++; } if (c == -2) { /* unterminated character constant */ error(253); } else { if (n > sizeof (int) || (n > 1 && (pflag || hflag))) { /* too many characters in character constant */ error(71); } else if (n > 1) { /* multi-character character constant */ warning(294); } else if (n == 0) { /* empty character constant */ error(73); } } if (n == 1) { cv = (char)val; val = cv; } yylval.y_val = xcalloc(1, sizeof (val_t)); yylval.y_val->v_tspec = INT; yylval.y_val->v_quad = val; return (T_CON); } /* * Called if lex found a leading L\' */ static int wccon() { static char buf[MB_LEN_MAX + 1]; int i, c; wchar_t wc; i = 0; while ((c = getescc('\'')) >= 0) { if (i < MB_CUR_MAX) buf[i] = (char)c; i++; } wc = 0; if (c == -2) { /* unterminated character constant */ error(253); } else if (c == 0) { /* empty character constant */ error(73); } else { if (i > MB_CUR_MAX) { i = MB_CUR_MAX; /* too many characters in character constant */ error(71); } else { buf[i] = '\0'; (void)mbtowc(NULL, NULL, 0); if (mbtowc(&wc, buf, MB_CUR_MAX) < 0) /* invalid multibyte character */ error(291); } } yylval.y_val = xcalloc(1, sizeof (val_t)); yylval.y_val->v_tspec = WCHAR; yylval.y_val->v_quad = wc; return (T_CON); } /* * Read a character which is part of a character constant or of a string * and handle escapes. * * The Argument is the character which delimits the character constant or * string. * * Returns -1 if the end of the character constant or string is reached, * -2 if the EOF is reached, and the charachter otherwise. */ static int getescc(d) int d; { static int pbc = -1; int n, c, v; if (pbc == -1) { c = inpc(); } else { c = pbc; pbc = -1; } if (c == d) return (-1); switch (c) { case '\n': /* newline in string or char constant */ error(254); return (-2); case EOF: return (-2); case '\\': switch (c = inpc()) { case '"': if (tflag && d == '\'') /* \" inside character constant undef. ... */ warning(262); return ('"'); case '\'': return ('\''); case '?': if (tflag) /* \? undefined in traditional C */ warning(263); return ('?'); case '\\': return ('\\'); case 'a': if (tflag) /* \a undefined in traditional C */ warning(81); return ('\a'); case 'b': return ('\b'); case 'f': return ('\f'); case 'n': return ('\n'); case 'r': return ('\r'); case 't': return ('\t'); case 'v': if (tflag) /* \v undefined in traditional C */ warning(264); return ('\v'); case '8': case '9': /* bad octal digit %c */ warning(77, c); /* FALLTHROUGH */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': n = 3; v = 0; do { v = (v << 3) + (c - '0'); c = inpc(); } while (--n && isdigit(c) && (tflag || c <= '7')); if (tflag && n > 0 && isdigit(c)) /* bad octal digit %c */ warning(77, c); pbc = c; if (v > UCHAR_MAX) { /* character escape does not fit in char. */ warning(76); v &= CHAR_MASK; } return (v); case 'x': if (tflag) /* \x undefined in traditional C */ warning(82); v = 0; n = 0; while ((c = inpc()) >= 0 && isxdigit(c)) { c = isdigit(c) ? c - '0' : toupper(c) - 'A' + 10; v = (v << 4) + c; if (n >= 0) { if ((v & ~CHAR_MASK) != 0) { /* overflow in hex escape */ warning(75); n = -1; } else { n++; } } } pbc = c; if (n == 0) { /* no hex digits follow \x */ error(74); } if (n == -1) { v &= CHAR_MASK; } return (v); case '\n': return (getescc(d)); case EOF: return (-2); default: if (isprint(c)) { /* dubious escape \%c */ warning(79, c); } else { /* dubious escape \%o */ warning(80, c); } } } return (c); } /* * Called for preprocessor directives. Currently implemented are: * # lineno * # lineno "filename" */ static void directive() { const char *cp, *fn; char c, *eptr; size_t fnl; long ln; static int first = 1; /* Go to first non-whitespace after # */ for (cp = yytext + 1; (c = *cp) == ' ' || c == '\t'; cp++) ; if (!isdigit(c)) { error: /* undefined or invalid # directive */ warning(255); return; } ln = strtol(--cp, &eptr, 10); if (cp == eptr) goto error; if ((c = *(cp = eptr)) != ' ' && c != '\t' && c != '\0') goto error; while ((c = *cp++) == ' ' || c == '\t') ; if (c != '\0') { if (c != '"') goto error; fn = cp; while ((c = *cp) != '"' && c != '\0') cp++; if (c != '"') goto error; if ((fnl = cp++ - fn) > PATH_MAX) goto error; while ((c = *cp++) == ' ' || c == '\t') ; #if 0 if (c != '\0') warning("extra character(s) after directive"); #endif curr_pos.p_file = fnnalloc(fn, fnl); /* * If this is the first directive, the name is the name * of the C source file as specified at the command line. * It is written to the output file. */ if (first) { csrc_pos.p_file = curr_pos.p_file; outsrc(curr_pos.p_file); first = 0; } } curr_pos.p_line = (int)ln - 1; if (curr_pos.p_file == csrc_pos.p_file) csrc_pos.p_line = (int)ln - 1; } /* * Handle lint comments. Following comments are currently understood: * ARGSUSEDn * CONSTCOND CONSTANTCOND CONSTANTCONDITION * FALLTHRU FALLTHROUGH * LINTLIBRARY * LINTED NOSTRICT * LONGLONG * NOTREACHED * PRINTFLIKEn * PROTOLIB * SCANFLIKEn * VARARGSn * If one of this comments is recognized, the arguments, if any, are * parsed and a function which handles this comment is called. */ static void comment() { int c, lc; static struct { const char *keywd; int arg; void (*func)(int); } keywtab[] = { { "ARGSUSED", 1, argsused }, { "CONSTCOND", 0, constcond }, { "CONSTANTCOND", 0, constcond }, { "CONSTANTCONDITION", 0, constcond }, { "FALLTHRU", 0, fallthru }, { "FALLTHROUGH", 0, fallthru }, { "LINTLIBRARY", 0, lintlib }, { "LINTED", 0, linted }, { "LONGLONG", 0, longlong }, { "NOSTRICT", 0, linted }, { "NOTREACHED", 0, notreach }, { "PRINTFLIKE", 1, printflike }, { "PROTOLIB", 1, protolib }, { "SCANFLIKE", 1, scanflike }, { "VARARGS", 1, varargs }, }; char keywd[32]; char arg[32]; int l, i, a; int eoc; eoc = 0; /* Skip white spaces after the start of the comment */ while ((c = inpc()) != EOF && isspace(c)) ; /* Read the potential keyword to keywd */ l = 0; while (c != EOF && isupper(c) && l < sizeof (keywd) - 1) { keywd[l++] = (char)c; c = inpc(); } keywd[l] = '\0'; /* look for the keyword */ for (i = 0; i < sizeof (keywtab) / sizeof (keywtab[0]); i++) { if (strcmp(keywtab[i].keywd, keywd) == 0) break; } if (i == sizeof (keywtab) / sizeof (keywtab[0])) goto skip_rest; /* skip white spaces after the keyword */ while (c != EOF && isspace(c)) c = inpc(); /* read the argument, if the keyword accepts one and there is one */ l = 0; if (keywtab[i].arg) { while (c != EOF && isdigit(c) && l < sizeof (arg) - 1) { arg[l++] = (char)c; c = inpc(); } } arg[l] = '\0'; a = l != 0 ? atoi(arg) : -1; /* skip white spaces after the argument */ while (c != EOF && isspace(c)) c = inpc(); if (c != '*' || (c = inpc()) != '/') { if (keywtab[i].func != linted) /* extra characters in lint comment */ warning(257); } else { /* * remember that we have already found the end of the * comment */ eoc = 1; } if (keywtab[i].func != NULL) (*keywtab[i].func)(a); skip_rest: while (!eoc) { lc = c; if ((c = inpc()) == EOF) { /* unterminated comment */ error(256); break; } if (lc == '*' && c == '/') eoc = 1; } } /* * Clear flags for lint comments LINTED, LONGLONG and CONSTCOND. * clrwflgs() is called after function definitions and global and * local declarations and definitions. It is also called between * the controlling expression and the body of control statements * (if, switch, for, while). */ void clrwflgs() { nowarn = 0; quadflg = 1; ccflg = 0; } /* * Strings are stored in a dynamically alloceted buffer and passed * in yylval.y_xstrg to the parser. The parser or the routines called * by the parser are responsible for freeing this buffer. */ static int string() { u_char *s; int c; size_t len, max; strg_t *strg; s = xmalloc(max = 64); len = 0; while ((c = getescc('"')) >= 0) { /* +1 to reserve space for a trailing NUL character */ if (len + 1 == max) s = xrealloc(s, max *= 2); s[len++] = (char)c; } s[len] = '\0'; if (c == -2) /* unterminated string constant */ error(258); strg = xcalloc(1, sizeof (strg_t)); strg->st_tspec = CHAR; strg->st_len = len; strg->st_cp = s; yylval.y_strg = strg; return (T_STRING); } static int wcstrg() { char *s; int c, i, n, wi; size_t len, max, wlen; wchar_t *ws; strg_t *strg; s = xmalloc(max = 64); len = 0; while ((c = getescc('"')) >= 0) { /* +1 to save space for a trailing NUL character */ if (len + 1 >= max) s = xrealloc(s, max *= 2); s[len++] = (char)c; } s[len] = '\0'; if (c == -2) /* unterminated string constant */ error(258); /* get length of wide character string */ (void)mblen(NULL, 0); for (i = 0, wlen = 0; i < len; i += n, wlen++) { if ((n = mblen(&s[i], MB_CUR_MAX)) == -1) { /* invalid multibyte character */ error(291); break; } if (n == 0) n = 1; } ws = xmalloc((wlen + 1) * sizeof (wchar_t)); /* convert from multibyte to wide char */ (void)mbtowc(NULL, NULL, 0); for (i = 0, wi = 0; i < len; i += n, wi++) { if ((n = mbtowc(&ws[wi], &s[i], MB_CUR_MAX)) == -1) break; if (n == 0) n = 1; } ws[wi] = 0; free(s); strg = xcalloc(1, sizeof (strg_t)); strg->st_tspec = WCHAR; strg->st_len = wlen; strg->st_wcp = ws; yylval.y_strg = strg; return (T_STRING); } /* * As noted above the scanner does not create new symbol table entries * for symbols it cannot find in the symbol table. This is to avoid * putting undeclared symbols into the symbol table if a syntax error * occurs. * * getsym() is called as soon as it is probably ok to put the symbol to * the symbol table. This does not mean that it is not possible that * symbols are put to the symbol table which are than not completely * declared due to syntax errors. To avoid too many problems in this * case symbols get type int in getsym(). * * XXX calls to getsym() should be delayed until decl1*() is called */ sym_t * getsym(sb) sbuf_t *sb; { dinfo_t *di; char *s; sym_t *sym; sym = sb->sb_sym; /* * During member declaration it is possible that name() looked * for symbols of type FVFT, although it should have looked for * symbols of type FTAG. Same can happen for labels. Both cases * are compensated here. */ if (symtyp == FMOS || symtyp == FLAB) { if (sym == NULL || sym->s_kind == FVFT) sym = search(sb); } if (sym != NULL) { if (sym->s_kind != symtyp) lerror("storesym() 1"); symtyp = FVFT; freesb(sb); return (sym); } /* create a new symbol table entry */ /* labels must always be allocated at level 1 (outhermost block) */ if (symtyp == FLAB) { sym = getlblk(1, sizeof (sym_t)); s = getlblk(1, sb->sb_len + 1); (void)memcpy(s, sb->sb_name, sb->sb_len + 1); sym->s_name = s; sym->s_blklev = 1; di = dcs; while (di->d_nxt != NULL && di->d_nxt->d_nxt != NULL) di = di->d_nxt; if (di->d_ctx != AUTO) lerror("storesym() 2"); } else { sym = getblk(sizeof (sym_t)); sym->s_name = sb->sb_name; sym->s_blklev = blklev; di = dcs; } STRUCT_ASSIGN(sym->s_dpos, curr_pos); if ((sym->s_kind = symtyp) != FLAB) sym->s_type = gettyp(INT); symtyp = FVFT; if ((sym->s_link = symtab[sb->sb_hash]) != NULL) symtab[sb->sb_hash]->s_rlink = &sym->s_link; (symtab[sb->sb_hash] = sym)->s_rlink = &symtab[sb->sb_hash]; *di->d_ldlsym = sym; di->d_ldlsym = &sym->s_dlnxt; freesb(sb); return (sym); } /* * Remove a symbol forever from the symbol table. s_blklev * is set to -1 to avoid that the symbol will later be put * back to the symbol table. */ void rmsym(sym) sym_t *sym; { if ((*sym->s_rlink = sym->s_link) != NULL) sym->s_link->s_rlink = sym->s_rlink; sym->s_blklev = -1; sym->s_link = NULL; } /* * Remove a list of symbols declared at one level from the symbol * table. */ void rmsyms(syms) sym_t *syms; { sym_t *sym; for (sym = syms; sym != NULL; sym = sym->s_dlnxt) { if (sym->s_blklev != -1) { if ((*sym->s_rlink = sym->s_link) != NULL) sym->s_link->s_rlink = sym->s_rlink; sym->s_link = NULL; sym->s_rlink = NULL; } } } /* * Put a symbol into the symbol table */ void inssym(bl, sym) int bl; sym_t *sym; { int h; h = hash(sym->s_name); if ((sym->s_link = symtab[h]) != NULL) symtab[h]->s_rlink = &sym->s_link; (symtab[h] = sym)->s_rlink = &symtab[h]; sym->s_blklev = bl; if (sym->s_link != NULL && sym->s_blklev < sym->s_link->s_blklev) lerror("inssym()"); } /* * Called at level 0 after syntax errors * Removes all symbols which are not declared at level 0 from the * symbol table. Also frees all memory which is not associated with * level 0. */ void cleanup() { sym_t *sym, *nsym; int i; for (i = 0; i < HSHSIZ1; i++) { for (sym = symtab[i]; sym != NULL; sym = nsym) { nsym = sym->s_link; if (sym->s_blklev >= 1) { if ((*sym->s_rlink = nsym) != NULL) nsym->s_rlink = sym->s_rlink; } } } for (i = mblklev; i > 0; i--) freelblk(i); } /* * Create a new symbol with the name of an existing symbol. */ sym_t * pushdown(sym) sym_t *sym; { int h; sym_t *nsym; h = hash(sym->s_name); nsym = getblk(sizeof (sym_t)); if (sym->s_blklev > blklev) lerror("pushdown()"); nsym->s_name = sym->s_name; STRUCT_ASSIGN(nsym->s_dpos, curr_pos); nsym->s_kind = sym->s_kind; nsym->s_blklev = blklev; if ((nsym->s_link = symtab[h]) != NULL) symtab[h]->s_rlink = &nsym->s_link; (symtab[h] = nsym)->s_rlink = &symtab[h]; *dcs->d_ldlsym = nsym; dcs->d_ldlsym = &nsym->s_dlnxt; return (nsym); } /* * Free any dynamically allocated memory referenced by * the value stack or yylval. * The type of information in yylval is described by tok. */ void freeyyv(sp, tok) void *sp; int tok; { if (tok == T_NAME || tok == T_TYPENAME) { sbuf_t *sb = *(sbuf_t **)sp; freesb(sb); } else if (tok == T_CON) { val_t *val = *(val_t **)sp; free(val); } else if (tok == T_STRING) { strg_t *strg = *(strg_t **)sp; if (strg->st_tspec == CHAR) { free(strg->st_cp); } else if (strg->st_tspec == WCHAR) { free(strg->st_wcp); } else { lerror("fryylv() 1"); } free(strg); } }