/* -*-C-*- * * Copyright 1994 Martin von Loewis * Copyright 1998 Bertho A. Stultiens (BS) * * 20-Jun-1998 BS - Changed the filename conversion. Filenames are * case-sensitive inder *nix, but not under dos. * default behaviour is to convert to lower case. * - All backslashes are converted to forward and * both single and double slash is recognized as * MS/Borland does. * - Fixed a bug in 'yywf' case that prevented * double quoted names to be scanned propperly. * * 19-May-1998 BS - Started to build a preprocessor. * - Changed keyword processing completely to * table-lookups. * * 20-Apr-1998 BS - Added ';' comment stripping * * 17-Apr-1998 BS - Made the win32 keywords optional when compiling in * 16bit mode * * 15-Apr-1998 BS - Changed string handling to include escapes * - Added unicode string handling (no codepage * translation though). * - 'Borrowed' the main idea of string scanning from * the flex manual pages. * - Added conditional handling of scanning depending * on the state of the parser. This was mainly required * to distinguish a file to load or raw data that * follows. MS's definition of filenames is rather * complex... It can be unquoted or double quoted. If * double quoted, then the '\\' char is not automatically * escaped according to Borland's rc compiler, but it * accepts both "\\path\\file.rc" and "\path\file.rc". * This makes life very hard! I go for the escaped * version, as this seems to be the documented way... * - Single quoted strings are now parsed and converted * here. * - Added comment stripping. The implementation is * 'borrowed' from the flex manpages. * - Rebuild string processing so that it may contain * escaped '\0'. */ /* Exclusive rules when looking for a filename */ %x yywf %x yywf_s /* Exclusive string handling */ %x yystr /* Exclusive unicode string handling */ %x yylstr /* Exclusive rcdata single quoted data handling */ %x yyrcd /* Exclusive comment eating... */ %x comment /* Preprocessor exclusives */ %x pp_incl %x pp_def %x pp_undef %x pp_if %x pp_ifdef %x pp_ifndef %x pp_elif %x pp_else %x pp_endif %x pp_error /* Set when accumulating #define's expansion text */ %x pp_def_s /* Set when processing function type defines */ %x pp_ignore /* Set when need to strip to eol */ %x pp_ignore_eol /* Set when handling a false #if case */ %x pp_false /* Set when stripping c-junk */ %x pp_strips %x pp_stripp %x pp_stripp_final /*%option stack*/ %option never-interactive /*%option noyywrap */ /* Some shortcut definitions */ ws [ \f\t\r] cident [a-zA-Z_][0-9a-zA-Z_]* %{ #if !defined(YY_FLEX_MAJOR_VERSION) || (1000 * YY_FLEX_MAJOR_VERSION + YY_FLEX_MINOR_VERSION < 2005) #error Must use flex version 2.5.1 or higher (yy_scan_* routines are required). #endif /*#define LEX_DEBUG*/ #include "config.h" #include #include #include #include #include "wrc.h" #include "utils.h" #include "preproc.h" #include "parser.h" #include "newstruc.h" #include "y.tab.h" #define YY_USE_PROTOS #define YY_NO_UNPUT /* Always update the current character position within a line */ #define YY_USER_ACTION char_number+=yyleng; raw_data_t *new_raw_data(void); void addcchar(char c); void addwchar(short s); string_t *get_buffered_cstring(void); string_t *get_buffered_wstring(void); string_t *make_string(char *s); string_t *make_filename(char *s, int len); int line_number = 1; /* The current line */ int char_number = 1; /* The current char pos within the line */ static char cbuffer[1024]; /* Buffers for string collection */ static int cbufidx; static short wbuffer[1024]; static int wbufidx; static int want_nl = 0; /* Set when newline needs to go to parser */ static int want_ident = 0; /* Set is #ifdef, #ifndef or defined is seen */ static int stripslevel = 0; /* Count {} during pp_strips mode */ static int stripplevel = 0; /* Count () during pp_strips mode */ static char *substtext = NULL; /* Holds the substition text while getting a define */ static int cjunk_tagline; /* Where did we start stripping (helps error tracking) */ #ifdef YY_USE_STACK void push_to(int start) { yy_push_state(start); } void pop_start(void) { yy_pop_state(start); } #else #define MAXSTARTSTACK 32 static int startstack[MAXSTARTSTACK]; static int startstackidx = 0; void push_to(int start) { if(yydebug) printf("push_to(%d): %d -> %d\n", line_number, YY_START, start); if(startstackidx >= MAXSTARTSTACK-1) internal_error(__FILE__, __LINE__, "Start condition stack overflow"); startstack[startstackidx++] = YY_START; BEGIN(start); } void pop_start(void) { if(yydebug) printf("pop_start(%d): %d <- %d\n", line_number, startstack[startstackidx-1], YY_START); if(startstackidx <= 0) internal_error(__FILE__, __LINE__, "Start condition stack underflow"); --startstackidx; BEGIN(startstack[startstackidx]); } #endif struct bufferstackentry { YY_BUFFER_STATE bufferstate; /* Buffer to switch back to */ struct pp_entry *define; /* Points to expanding define or NULL if handling includes */ int line_number; /* Line that we were handling */ int char_number; /* The current position */ char *filename; /* Filename that we were handling */ }; #define MAXBUFFERSTACK 128 static struct bufferstackentry bufferstack[MAXBUFFERSTACK]; static int bufferstackidx = 0; void push_buffer(YY_BUFFER_STATE buf, struct pp_entry *ppp, char *filename) { if(yydebug) printf("push_buffer: %p %p %p\n", buf, ppp, filename); if(bufferstackidx >= MAXBUFFERSTACK-1) internal_error(__FILE__, __LINE__, "Buffer stack overflow"); memset(&bufferstack[bufferstackidx], 0, sizeof(bufferstack[0])); bufferstack[bufferstackidx].bufferstate = buf; bufferstack[bufferstackidx].define = ppp; if(ppp) ppp->expanding = 1; else if(filename) { /* These will track the yyerror to the correct file and line */ bufferstack[bufferstackidx].line_number = line_number; bufferstack[bufferstackidx].char_number = char_number; line_number = 1; char_number = 1; bufferstack[bufferstackidx].filename = input_name; input_name = filename; } else internal_error(__FILE__, __LINE__, "Pushing buffer without knowing where to go to"); bufferstackidx++; } YY_BUFFER_STATE pop_buffer(void) { if(bufferstackidx <= 0) return (YY_BUFFER_STATE)0; bufferstackidx--; if(bufferstack[bufferstackidx].define) bufferstack[bufferstackidx].define->expanding = 0; else { line_number = bufferstack[bufferstackidx].line_number; char_number = bufferstack[bufferstackidx].char_number; input_name = bufferstack[bufferstackidx].filename; fclose(yyin); } if(yydebug) printf("pop_buffer: %p %p (%d, %d) %p\n", bufferstack[bufferstackidx].bufferstate, bufferstack[bufferstackidx].define, bufferstack[bufferstackidx].line_number, bufferstack[bufferstackidx].char_number, bufferstack[bufferstackidx].filename); yy_switch_to_buffer(bufferstack[bufferstackidx].bufferstate); return bufferstack[bufferstackidx].bufferstate; } void do_include(char *name, int namelen) { char *cpy = (char *)xmalloc(namelen); strcpy(cpy, name+1); /* strip leading " or < */ cpy[namelen-2] = '\0'; /* strip trailing " or > */ if((yyin = open_include(cpy, name[0] == '"')) == NULL) yyerror("Unable to open include file %s", cpy); push_buffer(YY_CURRENT_BUFFER, NULL, cpy); yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE)); } struct keyword { char *keyword; int token; int isextension; int needcase; int alwayskeyword; }; static struct keyword keywords[] = { { "ACCELERATORS", ACCELERATORS, 0, 0, 0}, { "ALT", ALT, 0, 0, 0}, { "ASCII", ASCII, 0, 0, 0}, { "AUTO3STATE", AUTO3STATE, 1, 0, 0}, { "AUTOCHECKBOX", AUTOCHECKBOX, 1, 0, 0}, { "AUTORADIOBUTTON", AUTORADIOBUTTON, 1, 0, 0}, { "BEGIN", tBEGIN, 0, 0, 1}, { "BITMAP", tBITMAP, 0, 0, 0}, { "BLOCK", BLOCK, 0, 0, 1}, { "BUTTON", BUTTON, 1, 0, 0}, { "CAPTION", CAPTION, 0, 0, 0}, { "CHARACTERISTICS", CHARACTERISTICS, 1, 0, 0}, { "CHECKBOX", CHECKBOX, 0, 0, 0}, { "CHECKED", CHECKED, 0, 0, 0}, { "CLASS", CLASS, 0, 0, 0}, { "COMBOBOX", COMBOBOX, 0, 0, 0}, { "CONTROL", CONTROL, 0, 0, 0}, { "CTEXT", CTEXT, 0, 0, 0}, { "CURSOR", CURSOR, 0, 0, 0}, { "defined", tDEFINED, 0, 1, 1}, { "DEFPUSHBUTTON", DEFPUSHBUTTON, 0, 0, 1}, { "DIALOG", DIALOG, 0, 0, 0}, { "DIALOGEX", DIALOGEX, 1, 0, 0}, { "DISCARDABLE", DISCARDABLE, 0, 0, 0}, { "EDITTEXT", EDITTEXT, 0, 0, 0}, { "END", tEND, 0, 0, 1}, { "EXSTYLE", EXSTYLE, 0, 0, 0}, { "extern", tEXTERN, 0, 1, 1}, { "FILEFLAGS", FILEFLAGS, 0, 0, 0}, { "FILEFLAGSMASK", FILEFLAGSMASK, 0, 0, 0}, { "FILEOS", FILEOS, 0, 0, 0}, { "FILESUBTYPE", FILESUBTYPE, 0, 0, 0}, { "FILETYPE", FILETYPE, 0, 0, 0}, { "FILEVERSION", FILEVERSION, 0, 0, 0}, { "FIXED", tFIXED, 0, 0, 0}, { "FONT", FONT, 0, 0, 0}, { "GRAYED", GRAYED, 0, 0, 0}, { "GROUPBOX", GROUPBOX, 0, 0, 0}, { "HELP", HELP, 0, 0, 0}, { "ICON", ICON, 0, 0, 0}, { "IMPURE", IMPURE, 0, 0, 0}, { "INACTIVE", INACTIVE, 0, 0, 0}, { "LANGUAGE", LANGUAGE, 1, 0, 1}, { "LISTBOX", LISTBOX, 0, 0, 0}, { "LOADONCALL", LOADONCALL, 0, 0, 0}, { "LTEXT", LTEXT, 0, 0, 0}, { "MENU", MENU, 0, 0, 0}, { "MENUBARBREAK", MENUBARBREAK, 0, 0, 0}, { "MENUBREAK", MENUBREAK, 0, 0, 0}, { "MENUEX", MENUEX, 1, 0, 0}, { "MENUITEM", MENUITEM, 0, 0, 0}, { "MESSAGETABLE", MESSAGETABLE, 1, 0, 0}, { "MOVEABLE", MOVEABLE, 0, 0, 0}, { "NOINVERT", NOINVERT, 0, 0, 0}, { "NOT", NOT, 0, 0, 0}, { "POPUP", POPUP, 0, 0, 0}, { "PRELOAD", PRELOAD, 0, 0, 0}, { "PRODUCTVERSION", PRODUCTVERSION, 0, 0, 0}, { "PURE", tPURE, 0, 0, 0}, { "PUSHBUTTON", PUSHBUTTON, 0, 0, 0}, { "RADIOBUTTON", RADIOBUTTON, 0, 0, 0}, { "RCDATA", RCDATA, 0, 0, 0}, { "RTEXT", RTEXT, 0, 0, 0}, { "SCROLLBAR", SCROLLBAR, 0, 0, 0}, { "SEPARATOR", SEPARATOR, 0, 0, 0}, { "SHIFT", SHIFT, 0, 0, 0}, { "STATE3", STATE3, 1, 0, 0}, { "STRING", tSTRING, 0, 0, 0}, { "STRINGTABLE", STRINGTABLE, 0, 0, 1}, { "STYLE", STYLE, 0, 0, 0}, { "TOOLBAR", TOOLBAR, 1, 0, 0}, { "typedef", tTYPEDEF, 0, 1, 1}, { "VALUE", VALUE, 0, 0, 0}, { "VERSION", VERSION, 1, 0, 0}, { "VERSIONINFO", VERSIONINFO, 0, 0, 0}, { "VIRTKEY", VIRTKEY, 0, 0, 0} }; #define NKEYWORDS (sizeof(keywords)/sizeof(keywords[0])) #define KWP(p) ((struct keyword *)(p)) int kw_cmp_func(const void *s1, const void *s2) { int ret; ret = strcasecmp(KWP(s1)->keyword, KWP(s2)->keyword); if(!ret && (KWP(s1)->needcase || KWP(s2)->needcase)) return strcmp(KWP(s1)->keyword, KWP(s2)->keyword); else return ret; } #define KW_BSEARCH #define DO_SORT struct keyword *iskeyword(char *kw) { struct keyword *kwp; struct keyword key; key.keyword = kw; key.needcase = 0; #ifdef DO_SORT { /* Make sure that it is sorted for bsearsh */ static int sorted = 0; if(!sorted) { qsort(keywords, NKEYWORDS, sizeof(keywords[0]), kw_cmp_func); sorted = 1; } } #endif #ifdef KW_BSEARCH kwp = bsearch(&key, keywords, NKEYWORDS, sizeof(keywords[0]), kw_cmp_func); #else { int i; for(i = 0; i < NKEYWORDS; i++) { if(!kw_cmp_func(&key, &keywords[i])) break; } if(i < NKEYWORDS) kwp = &keywords[i]; else kwp = NULL; } #endif #ifdef LEX_DEBUG if(kwp && !strcmp(kwp->keyword, "LANGUAGE")) printf("Got Language\n"); #endif if(kwp == NULL || (kwp->isextension && !extensions)) return NULL; else return kwp; } void add_to_substtext(char *text, int len) { if(!substtext) { substtext = xstrdup(text); } else { substtext = (char *)xrealloc(substtext, strlen(substtext)+len+1); strcat(substtext, text); } } %} %% /* #include handling */ ^{ws}*#{ws}*include{ws}* push_to(pp_incl); \<[^\n\>]+\> do_include(yytext, yyleng); pop_start(); \"[^\n\>]+\" do_include(yytext, yyleng); pop_start(); . yyerror("Malformed #include"); /* #define handling */ ^{ws}*#{ws}*define{ws}* push_to(pp_def); {cident} { set_define(yytext); push_to(pp_def_s); } {cident}\( push_to(pp_ignore); /* Ignore function-like defines for now*/ . yyerror("Malformed #define"); [^\/\\\n]* { if(YY_START == pp_def_s) add_to_substtext(yytext, yyleng); } \/[^\/\*][^\/\\\n]* { /* Comment is handled in normal handling */ if(YY_START == pp_def_s) add_to_substtext(yytext, yyleng); } \\{ws}*\n line_number++; char_number = 1; /* Line continuation */ \n { if(YY_START == pp_def_s) { add_define(substtext ? substtext : ""); free(substtext); substtext = NULL; } line_number++; char_number = 1; pop_start(); pop_start(); } /* #undef handling */ ^{ws}*#{ws}*undef{ws}* push_to(pp_undef); {cident} { del_define(yytext); pop_start(); /*push_to(pp_ignore);*/ } /* Conditional handling */ ^{ws}*#{ws}*if{ws}* { if(YY_START == pp_false) { if(yydebug) printf("(%d)#if ignored\n", line_number); push_if(0, 0, 1); push_to(pp_ignore_eol); } else { push_to(INITIAL); want_nl = 1; return tIF; } } ^{ws}*#{ws}*ifdef{ws}* { if(YY_START == pp_false) { if(yydebug) printf("(%d)#ifdef ignored\n", line_number); push_if(0, 0, 1); push_to(pp_ignore_eol); } else { push_to(INITIAL); want_nl = 1; want_ident = 1; return tIFDEF; } } ^{ws}*#{ws}*ifndef{ws}* { if(YY_START == pp_false) { if(yydebug) printf("(%d)#ifndef ignored\n", line_number); push_if(0, 0, 1); push_to(pp_ignore_eol); } else { push_to(INITIAL); want_nl = 1; want_ident = 1; return tIFNDEF; } } ^{ws}*#{ws}*elif{ws}* { if(!isnevertrue_if()) { push_to(INITIAL); want_nl = 1; return tELIF; } else if(YY_START == pp_false) push_to(pp_ignore_eol); if(yydebug) printf("(%d)#elif ignored\n", line_number); } ^{ws}*#{ws}*else{ws}* { if(!isnevertrue_if()) { push_to(INITIAL); want_nl = 1; return tELSE; } if(yydebug) printf("(%d)#else ignored\n", line_number); } ^{ws}*#{ws}*endif{ws}* { if(!isnevertrue_if()) { want_nl = 1; return tENDIF; } else { if(yydebug) printf("(%d)#endif ignored\n", line_number); pop_if(); } } /* The error directive */ ^{ws}*#{ws}*error{ws}* push_to(pp_error); [^\n]* yyerror("Error directive: %s", yytext); /* preprocessor junk */ ^{ws}*#{ws}*pragma[^\n]* ; /* Ignore #pragma */ ^{ws}*#{ws}*line[^\n]* ; /* Ignore #line */ /* We'll get an error on malformed #xxx statements * by not recognising '#' at all. This helps tracking * preprocessor errors. */ /*^{ws}*#{ws}* ; Ignore # */ \{ stripslevel++; \} stripslevel--; ; if(!stripslevel) pop_start(); [^\{\};\n#]* ; /* Ignore rest */ \( stripplevel++; \) { stripplevel--; if(!stripplevel) { pop_start(); push_to(pp_stripp_final); } } [^\(\);\n#]* ; /* Ignore rest */ {ws}* ; /* Ignore */ ; pop_start(); /* Kill the semicolon */ \n line_number++; char_number = 1; pop_start(); . yyless(0); pop_start(); . ; /* Ignore everything except #xxx during false #if state */ [^\n]* pop_start(); /* These are special cases due to filename scanning */ [Dd][Ii][Ss][Cc][Aa][Rr][Dd][Aa][Bb][Ll][Ee] return DISCARDABLE; [Ff][Ii][Xx][Ee][Dd] return tFIXED; [Ii][Mm][Pp][Uu][Rr][Ee] return IMPURE; [Mm][Oo][Vv][Ee][Aa][Bb][Ll][Ee] return MOVEABLE; [Ll][Oo][Aa][Dd][Oo][Nn][Cc][Aa][Ll][Ll] return LOADONCALL; [Pp][Rr][Ee][Ll][Oo][Aa][Dd] return PRELOAD; [Pp][Uu][Rr][Ee] return tPURE; \{ return tBEGIN; \} return tEND; [0-9]+[lL]? { yylval.num = atoi(yytext); return NUMBER; } 0[xX][0-9A-Fa-f]+[lL]? { yylval.num = strtoul(yytext,0,16); return NUMBER; } 0[oO][0-7]+ { yylval.num = strtoul(yytext+2,0,8); return NUMBER; } [A-Za-z_0-9]+ { struct keyword *token; struct pp_entry *ppp; want_rscname = 0; if(want_ident) { /* Prevent preprocessor subst */ want_ident = 0; yylval.str = make_string(yytext); #ifdef LEX_DEBUG printf("want IDENT (%s, %d, %d): <%s>\n", input_name, line_number, char_number, yytext); #endif return IDENT; } else if((ppp = pp_lookup(yytext)) != NULL) { /* Do preprocessor substitution, * but expand only if macro is not * already expanding. */ if(!ppp->expanding) { #ifdef LEX_DEBUG printf("expand IDENT (%s, %d, %d): <%s>\n", input_name, line_number, char_number, yytext); #endif push_buffer(YY_CURRENT_BUFFER, ppp, NULL); yy_scan_string(ppp->subst); } } else if((token = iskeyword(yytext)) != NULL && !(!token->alwayskeyword && want_rscname)) { switch(token->token) { case tDEFINED: want_ident = 1; break; /*case RCDATA:*/ case CURSOR: case tBITMAP: case MESSAGETABLE: push_to(yywf); break; case FONT: case ICON: if(!indialog) push_to(yywf); break; case DIALOG: case DIALOGEX: indialog = 1; break; } return token->token; } else { yylval.str = make_string(yytext); #ifdef LEX_DEBUG printf("%s IDENT (%s, %d, %d): <%s>\n", want_rscname ? "rscname" : "just", input_name, line_number, char_number, yytext); #endif return IDENT; } } \|\| return LOGOR; \&\& return LOGAND; \=\= return EQ; \!\= return NE; \<\= return LTE; \>\= return GTE; [^ \f\t\r\n\"]* { pop_start(); yylval.str = make_filename(yytext, yyleng); return FILENAME; } \" push_to(yywf_s); [^\"\n]*\" { pop_start(); pop_start(); yylval.str = make_filename(yytext, yyleng-1); return FILENAME; } \n yyerror("Newline in filename"); L\" { push_to(yylstr); wbufidx = 0; if(!win32) yywarning("16bit resource contains unicode strings\n"); } \" { pop_start(); yylval.str = get_buffered_wstring(); return tSTRING; } \n yyerror("Unterminated string"); \\[0-7]{1,6} { /* octal escape sequence */ int result; result = strtol(yytext+1, 0, 8); if ( result > 0xffff ) yyerror("Character constant out of range"); addwchar((short)result); } \\x[0-9a-fA-F]{4} { /* hex escape sequence */ int result; result = strtol(yytext+2, 0, 16); addwchar((short)result); } \\[0-9]+ yyerror("Bad escape secuence"); \\a addwchar('\a'); \\b addwchar('\b'); \\f addwchar('\f'); \\n addwchar('\n'); \\r addwchar('\r'); \\t addwchar('\t'); \\v addwchar('\v'); \\(.|\n) addwchar(yytext[1]); [^\\\n\"]+ { char *yptr = yytext; while(*yptr) /* FIXME: codepage translation */ addwchar(*yptr++ & 0xff); } \" { push_to(yystr); cbufidx = 0; } \" { pop_start(); yylval.str = get_buffered_cstring(); return tSTRING; } \n yyerror("Unterminated string"); \\[0-7]{1,3} { /* octal escape sequence */ int result; result = strtol(yytext+1, 0, 8); if ( result > 0xff ) yyerror("Character constant out of range"); addcchar((char)result); } \\x[0-9a-fA-F]{2} { /* hex escape sequence */ int result; result = strtol(yytext+2, 0, 16); addcchar((char)result); } \\[0-9]+ yyerror("Bad escape secuence"); \\a addcchar('\a'); \\b addcchar('\b'); \\f addcchar('\f'); \\n addcchar('\n'); \\r addcchar('\r'); \\t addcchar('\t'); \\v addcchar('\v'); \\(.|\n) addcchar(yytext[1]); [^\\\n\"]+ { char *yptr = yytext; while(*yptr) addcchar(*yptr++); } \' { push_to(yyrcd); cbufidx = 0; } \' { pop_start(); yylval.raw = new_raw_data(); yylval.raw->size = cbufidx; yylval.raw->data = xmalloc(yylval.raw->size); memcpy(yylval.raw->data, cbuffer, yylval.raw->size); return RAWDATA; } [0-9a-fA-F]{2} { int result; result = strtol(yytext, 0, 16); addcchar((char)result); } {ws}+ ; /* Ignore space */ . yyerror("Malformed data-line"); "/*" push_to(comment); /* Eat comment */ [^*\n]* ; "*"+[^*/\n]* ; \n line_number++; char_number = 1; "*"+"/" pop_start(); ;[^\n]* ; /* Eat comment */ "//"[^\n]* ; /* Eat comment */ \n { if(YY_START == yywf) pop_start(); line_number++; char_number = 1; if(want_nl) { want_nl = 0; return tNL; } } {ws}+ ; /* Eat whitespace */ . return yytext[0]; <> { YY_BUFFER_STATE b = YY_CURRENT_BUFFER; if(!pop_buffer()) { if(YY_START == pp_strips || YY_START == pp_stripp || YY_START == pp_stripp_final) yyerror("Unexpected end of file during c-junk scanning (started at %d)", cjunk_tagline); else yyterminate(); } yy_delete_buffer(b); } %% #ifndef yywrap int yywrap(void) { #if 0 if(bufferstackidx > 0) { return 0; } #endif return 1; } #endif /* These dup functions copy the enclosed '\0' from * the resource string. */ void addcchar(char c) { if(cbufidx >= sizeof(cbuffer)) internal_error(__FILE__, __LINE__, "Character buffer overflow"); cbuffer[cbufidx++] = c; } void addwchar(short s) { if(wbufidx >= sizeof(wbuffer)) internal_error(__FILE__, __LINE__, "Wide character buffer overflow"); wbuffer[wbufidx++] = (short)(s & 0xff); } string_t *get_buffered_cstring(void) { string_t *str = new_string(); str->size = cbufidx; str->type = str_char; str->str.cstr = (char *)xmalloc(cbufidx+1); memcpy(str->str.cstr, cbuffer, cbufidx); str->str.cstr[cbufidx] = '\0'; /* printf("got cstring \"%s\"\n", str->str.cstr); */ return str; } string_t *get_buffered_wstring(void) { string_t *str = new_string(); str->size = wbufidx; str->type = str_unicode; str->str.wstr = (short *)xmalloc(2*(wbufidx+1)); memcpy(str->str.wstr, wbuffer, wbufidx); str->str.wstr[wbufidx] = 0; return str; } string_t *make_string(char *s) { string_t *str = new_string(); str->size = strlen(s); str->type = str_char; str->str.cstr = (char *)xmalloc(str->size+1); memcpy(str->str.cstr, s, str->size+1); return str; } string_t *make_filename(char *s, int len) { char *cptr; string_t *str = new_string(); str->size = len; str->type = str_char; str->str.cstr = (char *)xmalloc(str->size+1); memcpy(str->str.cstr, s, str->size); str->str.cstr[str->size] = '\0'; /* Remove escaped backslash and convert to forward */ cptr = str->str.cstr; for(cptr = str->str.cstr; (cptr = strchr(cptr, '\\')) != NULL; cptr++) { if(cptr[1] == '\\') { memmove(cptr, cptr+1, strlen(cptr)); str->size--; } *cptr = '/'; } /* Convert to lower case. Seems to be reasonable to do */ for(cptr = str->str.cstr; !leave_case && *cptr; cptr++) { *cptr = tolower(*cptr); } return str; } /* Called from the parser to signal filename request */ void set_yywf(void) { push_to(yywf); } /* Called from the parser to signal preprocessor if case */ void set_pp_ignore(int state) { if(state) push_to(pp_false); else pop_start(); } /* Called from the parser to kill c-junk */ void strip_til_semicolon(void) { cjunk_tagline = line_number; push_to(pp_strips); } void strip_til_parenthesis(void) { cjunk_tagline = line_number; stripplevel = 1; /* One scanned already */ push_to(pp_stripp); }