%{ /* $OpenBSD: scan.l,v 1.6 2008/08/17 18:40:13 ragge Exp $ */ /* * Copyright (c) 2002 Anders Magnusson. 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. 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. */ %} D [0-9] L [a-zA-Z_] H [a-fA-F0-9] E [Ee][+-]?{D}+ P [Pp][+-]?{D}+ FS (f|F|l|L) IS (u|U|l|L)* %{ #include #include #include #include #include "pass1.h" #include "cgram.h" static NODE *cvtdig(int radix); static NODE *charcon(void); static void control(int); static void pragma(void); static NODE *floatcon(void); static NODE *fhexcon(void); int notype, parbal; #define CPP_IDENT 2 #define CPP_LINE 3 #define CPP_HASH 4 #ifdef STABS #define STABS_LINE(x) if (gflag && cftnsp) stabs_line(x) #else #define STABS_LINE(x) #endif #if defined(FLEX_SCANNER) && YY_FLEX_SUBMINOR_VERSION >= 31 /* Hack to avoid unnecessary warnings */ FILE *yyget_in (void); FILE *yyget_out (void); int yyget_leng (void); char *yyget_text (void); void yyset_in (FILE *); void yyset_out (FILE *); int yyget_debug (void); void yyset_debug (int); int yylex_destroy (void); extern int yyget_lineno (void); extern void yyset_lineno (int); #endif %} %% "__func__" { if (cftnsp == NULL) uerror("__func__ outside function"); yylval.strp = cftnsp->sname; /* XXX - not C99 */ return(C_STRING); } "asm" { return(C_ASM); } "auto" { yylval.intval = AUTO; return(C_CLASS); } "_Bool" { yylval.nodep = mkty((TWORD)BOOL, 0, MKSUE(BOOL)); return(C_TYPE); } "break" { return(C_BREAK); } "case" { return(C_CASE); } "char" { yylval.nodep = mkty((TWORD)CHAR, 0, MKSUE(CHAR)); notype=1; return(C_TYPE); } "_Complex" { yylval.nodep = mkty((TWORD)COMPLEX, 0, MKSUE(DOUBLE)); notype=1; return(C_TYPE); } "const" { yylval.nodep = block(QUALIFIER, NIL, NIL, CON, 0, 0); return(C_QUALIFIER); } "continue" { return(C_CONTINUE); } "default" { return(C_DEFAULT); } "do" { return(C_DO); } "double" { yylval.nodep = mkty((TWORD)DOUBLE, 0, MKSUE(DOUBLE)); notype=1; return(C_TYPE); } "else" { return(C_ELSE); } "enum" { notype=1; return(C_ENUM); } "extern" { yylval.intval = EXTERN; return(C_CLASS); } "float" { yylval.nodep = mkty((TWORD)FLOAT, 0, MKSUE(FLOAT)); notype=1; return(C_TYPE); } "for" { return(C_FOR); } "goto" { return(C_GOTO); } "if" { return(C_IF); } "inline" { return(C_FUNSPEC); } "int" { yylval.nodep = mkty((TWORD)INT, 0, MKSUE(INT)); notype=1; return(C_TYPE); } "long" { yylval.nodep = mkty((TWORD)LONG, 0, MKSUE(LONG)); notype=1; return(C_TYPE); } "register" { yylval.intval = REGISTER; return(C_CLASS); } "restrict" { ; /* just ignore */ } "return" { return(C_RETURN); } "short" { yylval.nodep = mkty((TWORD)SHORT, 0, MKSUE(SHORT)); notype=1; return(C_TYPE); } "signed" { yylval.nodep = mkty((TWORD)SIGNED, 0, MKSUE(SIGNED)); notype=1; return(C_TYPE); } "sizeof" { return(C_SIZEOF); } "static" { yylval.intval = STATIC; return(C_CLASS); } "struct" { yylval.intval = STNAME; notype=1; return(C_STRUCT); } "switch" { return(C_SWITCH); } "typedef" { yylval.intval = TYPEDEF; return(C_CLASS); } "union" { yylval.intval = UNAME; notype=1; return(C_STRUCT); } "unsigned" { yylval.nodep = mkty((TWORD)UNSIGNED, 0, MKSUE(UNSIGNED)); notype=1; return(C_TYPE); } "void" { yylval.nodep = mkty((TWORD)VOID, 0, MKSUE(VOID)); notype=1; return(C_TYPE); } "volatile" { yylval.nodep = block(QUALIFIER, NIL, NIL, VOL, 0, 0); return(C_QUALIFIER); } "while" { return(C_WHILE); } {L}({L}|{D})* { struct symtab *s; int i = 0; yylval.strp = addname(yytext); #ifdef GCC_COMPAT if ((i = gcc_keyword(yylval.strp, &yylval.nodep)) > 0) return i; #endif if (i == 0) { if (notype) return(C_NAME); s = lookup(yylval.strp, SNOCREAT); return s && s->sclass == TYPEDEF ? notype=1, C_TYPENAME : C_NAME; } } 0[xX]{H}+{IS}? { yylval.nodep = cvtdig(16); return(C_ICON); } 0{D}+{IS}? { yylval.nodep = cvtdig(8); return(C_ICON); } {D}+{IS}? { yylval.nodep = cvtdig(10); return(C_ICON); } L?'(\\.|[^\\'])+' { yylval.nodep = charcon(); return(C_ICON); } {D}+{E}{FS}? { yylval.nodep = floatcon(); return(C_FCON); } {D}*"."{D}+({E})?{FS}? { yylval.nodep = floatcon(); return(C_FCON); } {D}+"."{D}*({E})?{FS}? { yylval.nodep = floatcon(); return(C_FCON); } 0[xX]{H}*"."{H}+{P}{FS}? { yylval.nodep = fhexcon(); return(C_FCON); } 0[xX]{H}+"."{P}{FS}? { yylval.nodep = fhexcon(); return(C_FCON); } 0[xX]{H}+{P}{FS}? { yylval.nodep = fhexcon(); return(C_FCON); } L?\"(\\.|[^\\"])*\" { yylval.strp = yytext; return C_STRING; } "..." { return(C_ELLIPSIS); } ">>=" { yylval.intval = RSEQ; return(C_ASOP); } "<<=" { yylval.intval = LSEQ; return(C_ASOP); } "+=" { yylval.intval = PLUSEQ; return(C_ASOP); } "-=" { yylval.intval = MINUSEQ; return(C_ASOP); } "*=" { yylval.intval = MULEQ; return(C_ASOP); } "/=" { yylval.intval = DIVEQ; return(C_ASOP); } "%=" { yylval.intval = MODEQ; return(C_ASOP); } "&=" { yylval.intval = ANDEQ; return(C_ASOP); } "^=" { yylval.intval = EREQ; return(C_ASOP); } "|=" { yylval.intval = OREQ; return(C_ASOP); } ">>" { yylval.intval = RS; return(C_SHIFTOP); } "<<" { yylval.intval = LS; return(C_SHIFTOP); } "++" { yylval.intval = INCR; return(C_INCOP); } "--" { yylval.intval = DECR; return(C_INCOP); } "->" { yylval.intval = STREF; return(C_STROP); } "&&" { yylval.intval = ANDAND; return(C_ANDAND); } "||" { yylval.intval = OROR; return(C_OROR); } "<=" { yylval.intval = LE; return(C_RELOP); } ">=" { yylval.intval = GE; return(C_RELOP); } "==" { yylval.intval = EQ; return(C_EQUOP); } "!=" { yylval.intval = NE; return(C_EQUOP); } ";" { notype = 0; return(';'); } ("{"|"<%") { notype = 0; return('{'); } ("}"|"%>") { if (rpole) notype = 1; return('}'); } "," { if (parbal) notype = 0; return(','); } ":" { return(':'); } "=" { return('='); } "(" { parbal++; notype = 0; return('('); } ")" { parbal--; if (parbal==0) { notype = 0; } return(')'); } ("["|"<:") { return('['); } ("]"|":>") { return(']'); } "." { yylval.intval = DOT; return(C_STROP); } "&" { return('&'); } "!" { yylval.intval = NOT; return(C_UNOP); } "~" { yylval.intval = COMPL; return(C_UNOP); } "-" { return('-'); } "+" { return('+'); } "*" { if (parbal && notype == 0) notype = 1; return('*'); } "/" { yylval.intval = DIV; return(C_DIVOP); } "%" { yylval.intval = MOD; return(C_DIVOP); } "<" { yylval.intval = LT; return(C_RELOP); } ">" { yylval.intval = GT; return(C_RELOP); } "^" { return('^'); } "|" { return('|'); } "?" { return('?'); } ^#pragma[ \t].* { pragma(); } ^#ident[ \t].* { control(CPP_IDENT); } ^#line[ \t].* { control(CPP_LINE); } ^#.* { control(CPP_HASH); } [ \t\v\f] { } "\n" { ++lineno; STABS_LINE(lineno); } . { /* ignore bad characters */ } %% int lineno; char *ftitle = ""; int yywrap(void) { if (0) unput(0); /* quiet gcc */ return(1); } /* * XXX floatcon() and fhexcon() should be in support libraries for * the target floating point. */ static NODE * f2(char *str) { TWORD tw; NODE *p; double dc; char *eptr; dc = strtod(str, &eptr); /* XXX - avoid strtod() */ tw = (*eptr == 'f' || *eptr == 'F' ? FLOAT : DOUBLE); p = block(FCON, NIL, NIL, tw, 0, MKSUE(tw)); p->n_dcon = dc; return p; } NODE * floatcon(void) { return f2(yytext); } static int h2n(int ch) { if (ch >= '0' && ch <= '9') return ch - '0'; if (ch >= 'a' && ch <= 'f') return ch - 'a' + 10; return ch - 'A' + 10; } NODE * fhexcon(void) { char buf[500]; char *c = yytext; unsigned long long num1, num2; /* XXX - convert it to a decimal float number and use strtod */ c+= 2; /* skip 0x */ for (num1 = 0; *c != '.' && *c != 'p' && *c != 'P'; c++) num1 = (num1 << 4) | h2n(*c); if (*c != '.' && *c != 'p' && *c != 'P') cerror("fhexcon"); num2 = 0; if (*c == '.') { c++; for (; *c != 'p' && *c != 'P'; c++) num2 = (num2 << 4) | h2n(*c); } if (*c != 'P' && *c != 'p') cerror("fhexcon2"); c++; snprintf(buf, sizeof(buf), "%llu.%lluE%s", num1, num2, c); return f2(buf); } unsigned int esccon(char **sptr) { char *wr = *sptr; unsigned int val; switch (*wr++) { case 'a': val = '\a'; break; case 'b': val = '\b'; break; case 'f': val = '\f'; break; case 'n': val = '\n'; break; case 'r': val = '\r'; break; case 't': val = '\t'; break; case 'v': val = '\v'; break; case '\"': val = '\"'; break; case 'x': val = strtoul(wr, &wr, 16); break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': val = wr[-1] - '0'; if (*wr >= '0' && *wr <= '7') { val = (val << 3) + (*wr++ - '0'); if (*wr >= '0' && *wr <= '7') val = (val << 3) + (*wr++ - '0'); } break; default: val = wr[-1]; } *sptr = wr; return val; } NODE * cvtdig(int radix) { NODE *p; TWORD ntype; unsigned long long v; char *ch = yytext; int n, numl, numu; if (radix == 16) ch += 2; /* Skip 0x */ v = 0; while ((*ch >= '0' && *ch <= '9') || (*ch >= 'a' && *ch <= 'f') || (*ch >= 'A' && *ch <= 'F')) { v *= radix; n = *ch; n = (n <= '9' ? n - '0' : (n > 'F' ? n - 'a' : n - 'A') + 10); ch++; v += n; } /* Parse trailing chars */ ntype = INT; numl = numu = 0; for (n = 0; n < 3; n++) { if (*ch == 0) break; if ((*ch == 'l' || *ch == 'L') && numl < 2) ntype+=2, numl++; else if ((*ch == 'u' || *ch == 'U') && numu < 1) ntype = ENUNSIGN(ntype), numu++; else break; ch++; } if (*ch) uerror("constant has too many '%c'", *ch); if (ntype == INT) { /* v contains a number. Get type correct */ if (v > MAX_LONGLONG && radix != 10) ntype = ULONGLONG; else if (v > MAX_ULONG) ntype = LONGLONG; else if (v > MAX_LONG && radix != 10) ntype = ULONG; else if (v > MAX_UNSIGNED) ntype = LONG; else if (v > MAX_INT && radix != 10) ntype = UNSIGNED; } ntype = ctype(ntype); p = xbcon(v, NULL, ntype); ASGLVAL(p->n_slval, v); return p; } /* * Convert a character constant to an integer. */ NODE * charcon(void) { int lastcon = 0; int val, i = 0; char *pp = yytext; if (*pp == 'L') pp++; pp++; while (*pp != '\'') { if (*pp++ == '\\') { val = esccon(&pp); } else val = pp[-1]; makecc(val, i); i++; } if (i == 0) uerror("empty character constant"); if (i > (SZINT/SZCHAR) || (i>1)) werror("too many characters in character constant"); return bcon(lastcon); } void control(int t) { char *wr = yytext; char *eptr; int val; wr++; /* Skip initial '#' */ switch (t) { case CPP_IDENT: return; /* Just skip these for now. */ case CPP_LINE: wr += 4; /* FALLTHROUGH */ case CPP_HASH: val = strtol(wr, &eptr, 10); if (wr == eptr) /* Illegal string */ goto bad; wr = eptr; lineno = val - 1; while (*wr && *wr != '\"') wr++; if (*wr == 0) return; if (*wr++ != '\"') goto bad; eptr = wr; while (*wr && *wr != '\"') wr++; if (*wr != '\"') goto bad; *wr = 0; ftitle = addstring(eptr); #ifdef STABS if (gflag) stabs_file(ftitle); #endif } return; bad: werror("%s: illegal control", yytext); } /* * split a pragma string in parts. */ static char ** splitup(char *str) { char *s, **ary; int i; /* count ws. at least needed array size, add 2 to terminate */ for (i = 2, s = str; *s; s++) if (*s == ' ' || *s == '\t' || *s == '(' || *s == ')' || *s == ',') i++; ary = tmpalloc(sizeof(char *)*i); for (i = 0, s = strtok(str, " \t(,)"); s; s = strtok(NULL, " \t(,)")) ary[i++] = s; ary[i] = NULL; return ary; } int pragma_allpacked; int pragma_packed, pragma_aligned; char *pragma_renamed; /* * got a full pragma line. Split it up here. */ static void pragma() { char **ary; ary = splitup(yytext); if (ary[1] == NULL) goto bad; if (strcmp(ary[1], "pack") == 0) { pragma_allpacked = ary[2] ? atoi(ary[2]) : 0; } else if (strcmp(ary[1], "packed") == 0) { pragma_packed = ary[2] ? atoi(ary[2]) : 1; } else if (strcmp(ary[1], "aligned") == 0) { pragma_aligned = ary[2] ? atoi(ary[2]) : 1; } else if (strcmp(ary[1], "rename") == 0) { pragma_renamed = newstring(ary[2], strlen(ary[2])); } else if (mypragma(ary)) { return; } else { bad: if (Wunknown_pragmas) werror("unknown pragma"); } } void cunput(char c) { unput(c); }