%{ /* m2.flex implements lexical analysis for Modula-2. Copyright (C) 2004-2024 Free Software Foundation, Inc. Contributed by Gaius Mulley . This file is part of GNU Modula-2. GNU Modula-2 is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GNU Modula-2 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Modula-2; see the file COPYING3. If not see . */ #include "gm2-gcc/gcc-consolidation.h" #include "GM2Reserved.h" #include "GM2LexBuf.h" #include "input.h" #include "m2options.h" static int cpreprocessor = 0; /* Replace this with correct getter. */ #if defined(GM2USEGGC) # include "ggc.h" #endif #include "timevar.h" #define START_FILE(F,L) m2linemap_StartFile(F,L) #define END_FILE() m2linemap_EndFile() #define START_LINE(N,S) m2linemap_StartLine(N,S) #define GET_LOCATION(COLUMN_START,COLUMN_END) \ m2linemap_GetLocationRange(COLUMN_START,COLUMN_END) #define TIMEVAR_PUSH_LEX timevar_push (TV_LEX) #define TIMEVAR_POP_LEX timevar_pop (TV_LEX) #ifdef __cplusplus #define EXTERN extern "C" #endif /* m2.flex provides a lexical analyser for GNU Modula-2. */ struct lineInfo { char *linebuf; /* line contents */ int linelen; /* length */ int tokenpos; /* start position of token within line */ int toklen; /* a copy of yylen (length of token) */ int nextpos; /* position after token */ int lineno; /* line number of this line */ int column; /* first column number of token on this line */ bool inuse; /* do we need to keep this line info? */ location_t location; /* the corresponding gcc location_t */ struct lineInfo *next; }; struct functionInfo { char *name; /* function name */ bool module; /* is it really a module? */ struct functionInfo *next; /* list of nested functions */ }; static int lineno =1; /* a running count of the file line number */ static char *filename =NULL; static int commentLevel=0; static int commentCLevel=0; static struct lineInfo *currentLine=NULL; static struct functionInfo *currentFunction=NULL; static bool seenFunctionStart=false; static bool seenEnd=false; static bool seenModuleStart=false; static bool isDefinitionModule=false; static int totalLines=0; static void pushLine (void); static void popLine (void); static void finishedLine (void); static void resetpos (void); static void consumeLine (void); static void updatepos (void); static void skippos (void); static void poperrorskip (const char *); static void endOfComment (void); static void endOfCComment (void); static void splitSlashStar (void); static void handleDate (void); static void handleLine (void); static void handleFile (void); static void handleFunction (void); static void handleColumn (void); static void pushFunction (char *function, bool module); static void popFunction (void); static void checkFunction (void); EXTERN void m2flex_M2Error (const char *); EXTERN location_t m2flex_GetLocation (void); EXTERN int m2flex_GetColumnNo (void); EXTERN bool m2flex_OpenSource (char *s); EXTERN int m2flex_GetLineNo (void); EXTERN void m2flex_CloseSource (void); EXTERN char *m2flex_GetToken (void); EXTERN void _M2_m2flex_init (void); EXTERN int m2flex_GetTotalLines (void); extern void yylex (void); #define YY_DECL void yylex (void) %} %option nounput %x COMMENT COMMENT1 COMMENTC LINE0 LINE1 LINE2 %% "(*" { updatepos(); commentLevel=1; pushLine(); skippos(); BEGIN COMMENT; } "*)" { endOfComment(); } "(*" { commentLevel++; pushLine(); updatepos(); skippos(); } "<*" { if (commentLevel == 1) { updatepos(); pushLine(); skippos(); BEGIN COMMENT1; } else { updatepos(); skippos(); } } \n.* { consumeLine(); } . { updatepos(); skippos(); } . { updatepos(); skippos(); } "*>" { updatepos(); skippos(); finishedLine(); BEGIN COMMENT; } \n.* { consumeLine(); } "*)" { poperrorskip("unterminated source code directive, missing *>"); endOfComment(); } <> { poperrorskip("unterminated source code directive, missing *>"); BEGIN COMMENT; } <> { poperrorskip("unterminated comment found at the end of the file, missing *)"); BEGIN INITIAL; } "/*" { /* Possibly handle C preprocessor comment. */ if (cpreprocessor) { updatepos (); commentCLevel++; if (commentCLevel == 1) { pushLine (); skippos (); } BEGIN COMMENTC; } else splitSlashStar (); } . { updatepos(); skippos(); } \n.* { consumeLine(); } "*/" { endOfCComment(); } ^\#.* { consumeLine(); /* printf("found: %s\n", currentLine->linebuf); */ BEGIN LINE0; } \n\#.* { consumeLine(); /* printf("found: %s\n", currentLine->linebuf); */ BEGIN LINE0; } \#[ \t]* { updatepos(); } [0-9]+[ \t]*\" { updatepos(); lineno=atoi(yytext); BEGIN LINE1; } \n { m2flex_M2Error("missing initial quote after #line directive"); resetpos(); BEGIN INITIAL; } [^\n] [^\"\n]+ { m2flex_M2Error("missing final quote after #line directive"); resetpos(); BEGIN INITIAL; } .*\" { updatepos(); filename = (char *)xrealloc(filename, yyleng+1); strcpy(filename, yytext); filename[yyleng-1] = (char)0; /* remove trailing quote */ START_FILE (filename, lineno); BEGIN LINE2; } [ \t]* { updatepos(); } \n { M2LexBuf_SetFile(filename); updatepos(); BEGIN INITIAL; } 2[ \t]*\n { M2LexBuf_SetFile(filename); updatepos(); BEGIN INITIAL; } 1[ \t]*\n { M2LexBuf_SetFile(filename); updatepos(); BEGIN INITIAL; } 1[ \t]*.*\n { M2LexBuf_SetFile(filename); updatepos(); BEGIN INITIAL; } 2[ \t]*.*\n { M2LexBuf_SetFile(filename); updatepos(); BEGIN INITIAL; } 3[ \t]*.*\n { M2LexBuf_SetFile(filename); updatepos(); BEGIN INITIAL; } \n[^\#].* { consumeLine(); /* printf("found: %s\n", currentLine->linebuf); */ } \n { consumeLine(); /* printf("found: %s\n", currentLine->linebuf); */ } \"[^\"\n]*\" { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_stringtok, yytext); return; } \"[^\"\n]*$ { updatepos(); m2flex_M2Error("missing terminating quote, \""); resetpos(); return; } '[^'\n]*' { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_stringtok, yytext); return; } '[^'\n]*$ { updatepos(); m2flex_M2Error("missing terminating quote, '"); resetpos(); return; } <> { updatepos(); M2LexBuf_AddTok(M2Reserved_eoftok); return; } \+ { updatepos(); M2LexBuf_AddTok(M2Reserved_plustok); return; } - { updatepos(); M2LexBuf_AddTok(M2Reserved_minustok); return; } "*" { updatepos(); M2LexBuf_AddTok(M2Reserved_timestok); return; } \/ { updatepos(); M2LexBuf_AddTok(M2Reserved_dividetok); return; } := { updatepos(); M2LexBuf_AddTok(M2Reserved_becomestok); return; } \& { updatepos(); M2LexBuf_AddTok(M2Reserved_ambersandtok); return; } \. { updatepos(); M2LexBuf_AddTok(M2Reserved_periodtok); return; } \, { updatepos(); M2LexBuf_AddTok(M2Reserved_commatok); return; } \; { updatepos(); M2LexBuf_AddTok(M2Reserved_semicolontok); return; } \( { updatepos(); M2LexBuf_AddTok(M2Reserved_lparatok); return; } \) { updatepos(); M2LexBuf_AddTok(M2Reserved_rparatok); return; } \[ { updatepos(); M2LexBuf_AddTok(M2Reserved_lsbratok); return; } \] { updatepos(); M2LexBuf_AddTok(M2Reserved_rsbratok); return; } \(\! { updatepos(); M2LexBuf_AddTok(M2Reserved_lsbratok); return; } \!\) { updatepos(); M2LexBuf_AddTok(M2Reserved_rsbratok); return; } \^ { updatepos(); M2LexBuf_AddTok(M2Reserved_uparrowtok); return; } \@ { updatepos(); M2LexBuf_AddTok(M2Reserved_uparrowtok); return; } \{ { updatepos(); M2LexBuf_AddTok(M2Reserved_lcbratok); return; } \} { updatepos(); M2LexBuf_AddTok(M2Reserved_rcbratok); return; } \(\: { updatepos(); M2LexBuf_AddTok(M2Reserved_lcbratok); return; } \:\) { updatepos(); M2LexBuf_AddTok(M2Reserved_rcbratok); return; } \' { updatepos(); M2LexBuf_AddTok(M2Reserved_singlequotetok); return; } \= { updatepos(); M2LexBuf_AddTok(M2Reserved_equaltok); return; } \# { updatepos(); M2LexBuf_AddTok(M2Reserved_hashtok); return; } \< { updatepos(); M2LexBuf_AddTok(M2Reserved_lesstok); return; } \> { updatepos(); M2LexBuf_AddTok(M2Reserved_greatertok); return; } \<\> { updatepos(); M2LexBuf_AddTok(M2Reserved_lessgreatertok); return; } \<\= { updatepos(); M2LexBuf_AddTok(M2Reserved_lessequaltok); return; } \>\= { updatepos(); M2LexBuf_AddTok(M2Reserved_greaterequaltok); return; } "<*" { updatepos(); M2LexBuf_AddTok(M2Reserved_ldirectivetok); return; } "*>" { updatepos(); M2LexBuf_AddTok(M2Reserved_rdirectivetok); return; } \.\. { updatepos(); M2LexBuf_AddTok(M2Reserved_periodperiodtok); return; } \.\.\. { updatepos(); M2LexBuf_AddTok(M2Reserved_periodperiodperiodtok); return; } \: { updatepos(); M2LexBuf_AddTok(M2Reserved_colontok); return; } \" { updatepos(); M2LexBuf_AddTok(M2Reserved_doublequotestok); return; } \| { updatepos(); M2LexBuf_AddTok(M2Reserved_bartok); return; } \! { updatepos(); M2LexBuf_AddTok(M2Reserved_bartok); return; } \~ { updatepos(); M2LexBuf_AddTok(M2Reserved_nottok); return; } AND { updatepos(); M2LexBuf_AddTok(M2Reserved_andtok); return; } ARRAY { updatepos(); M2LexBuf_AddTok(M2Reserved_arraytok); return; } BEGIN { updatepos(); M2LexBuf_AddTok(M2Reserved_begintok); return; } BY { updatepos(); M2LexBuf_AddTok(M2Reserved_bytok); return; } CASE { updatepos(); M2LexBuf_AddTok(M2Reserved_casetok); return; } CONST { updatepos(); M2LexBuf_AddTok(M2Reserved_consttok); return; } DEFINITION { updatepos(); isDefinitionModule = true; M2LexBuf_AddTok(M2Reserved_definitiontok); return; } DIV { updatepos(); M2LexBuf_AddTok(M2Reserved_divtok); return; } DO { updatepos(); M2LexBuf_AddTok(M2Reserved_dotok); return; } ELSE { updatepos(); M2LexBuf_AddTok(M2Reserved_elsetok); return; } ELSIF { updatepos(); M2LexBuf_AddTok(M2Reserved_elsiftok); return; } END { updatepos(); seenEnd=true; M2LexBuf_AddTok(M2Reserved_endtok); return; } EXCEPT { updatepos(); M2LexBuf_AddTok(M2Reserved_excepttok); return; } EXIT { updatepos(); M2LexBuf_AddTok(M2Reserved_exittok); return; } EXPORT { updatepos(); M2LexBuf_AddTok(M2Reserved_exporttok); return; } FINALLY { updatepos(); M2LexBuf_AddTok(M2Reserved_finallytok); return; } FOR { updatepos(); M2LexBuf_AddTok(M2Reserved_fortok); return; } FROM { updatepos(); M2LexBuf_AddTok(M2Reserved_fromtok); return; } IF { updatepos(); M2LexBuf_AddTok(M2Reserved_iftok); return; } IMPLEMENTATION { updatepos(); M2LexBuf_AddTok(M2Reserved_implementationtok); return; } IMPORT { updatepos(); M2LexBuf_AddTok(M2Reserved_importtok); return; } IN { updatepos(); M2LexBuf_AddTok(M2Reserved_intok); return; } LOOP { updatepos(); M2LexBuf_AddTok(M2Reserved_looptok); return; } MOD { updatepos(); M2LexBuf_AddTok(M2Reserved_modtok); return; } MODULE { updatepos(); seenModuleStart=true; M2LexBuf_AddTok(M2Reserved_moduletok); return; } NOT { updatepos(); M2LexBuf_AddTok(M2Reserved_nottok); return; } OF { updatepos(); M2LexBuf_AddTok(M2Reserved_oftok); return; } OR { updatepos(); M2LexBuf_AddTok(M2Reserved_ortok); return; } PACKEDSET { updatepos(); M2LexBuf_AddTok(M2Reserved_packedsettok); return; } POINTER { updatepos(); M2LexBuf_AddTok(M2Reserved_pointertok); return; } PROCEDURE { updatepos(); seenFunctionStart=true; M2LexBuf_AddTok(M2Reserved_proceduretok); return; } QUALIFIED { updatepos(); M2LexBuf_AddTok(M2Reserved_qualifiedtok); return; } UNQUALIFIED { updatepos(); M2LexBuf_AddTok(M2Reserved_unqualifiedtok); return; } RECORD { updatepos(); M2LexBuf_AddTok(M2Reserved_recordtok); return; } REM { updatepos(); M2LexBuf_AddTok(M2Reserved_remtok); return; } REPEAT { updatepos(); M2LexBuf_AddTok(M2Reserved_repeattok); return; } RETRY { updatepos(); M2LexBuf_AddTok(M2Reserved_retrytok); return; } RETURN { updatepos(); M2LexBuf_AddTok(M2Reserved_returntok); return; } SET { updatepos(); M2LexBuf_AddTok(M2Reserved_settok); return; } THEN { updatepos(); M2LexBuf_AddTok(M2Reserved_thentok); return; } TO { updatepos(); M2LexBuf_AddTok(M2Reserved_totok); return; } TYPE { updatepos(); M2LexBuf_AddTok(M2Reserved_typetok); return; } UNTIL { updatepos(); M2LexBuf_AddTok(M2Reserved_untiltok); return; } VAR { updatepos(); M2LexBuf_AddTok(M2Reserved_vartok); return; } WHILE { updatepos(); M2LexBuf_AddTok(M2Reserved_whiletok); return; } WITH { updatepos(); M2LexBuf_AddTok(M2Reserved_withtok); return; } ASM { updatepos(); M2LexBuf_AddTok(M2Reserved_asmtok); return; } VOLATILE { updatepos(); M2LexBuf_AddTok(M2Reserved_volatiletok); return; } \_\_DATE\_\_ { updatepos(); handleDate(); return; } \_\_LINE\_\_ { updatepos(); handleLine(); return; } \_\_FILE\_\_ { updatepos(); handleFile(); return; } \_\_FUNCTION\_\_ { updatepos(); handleFunction(); return; } \_\_COLUMN\_\_ { updatepos(); handleColumn(); return; } \_\_ATTRIBUTE\_\_ { updatepos(); M2LexBuf_AddTok(M2Reserved_attributetok); return; } \_\_BUILTIN\_\_ { updatepos(); M2LexBuf_AddTok(M2Reserved_builtintok); return; } \_\_INLINE\_\_ { updatepos(); M2LexBuf_AddTok(M2Reserved_inlinetok); return; } (([0-9]*\.[0-9]+)(E[+-]?[0-9]+)?) { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_realtok, yytext); return; } [0-9]*\.E[+-]?[0-9]+ { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_realtok, yytext); return; } [a-zA-Z_][a-zA-Z0-9_]* { checkFunction(); updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_identtok, yytext); return; } [0-9]+ { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_integertok, yytext); return; } [0-1]+A { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_integertok, yytext); return; } [0-9]+B { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_integertok, yytext); return; } [0-9]+C { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_integertok, yytext); return; } [0-9A-F]+H { updatepos(); M2LexBuf_AddTokCharStar(M2Reserved_integertok, yytext); return; } [\t\r ]+ { currentLine->tokenpos += yyleng; /* Ignore space. */; } . { updatepos(); m2flex_M2Error("unrecognised symbol"); skippos(); } %% /* have removed the -? from the beginning of the real/integer constant literal rules */ /* * hand built routines */ /* * handleFile - handles the __FILE__ construct by wraping it in double quotes and putting * it into the token buffer as a string. */ static void handleFile (void) { char *s = (char *)alloca(strlen(filename)+2+1); strcpy(s, "\""); strcat(s, filename); strcat(s, "\""); M2LexBuf_AddTokCharStar(M2Reserved_stringtok, s); } /* * handleLine - handles the __LINE__ construct by passing an integer to * the token buffer. */ static void handleLine (void) { M2LexBuf_AddTokInteger(M2Reserved_integertok, lineno); } /* * handleColumn - handles the __COLUMN__ construct by passing an integer to * the token buffer. */ static void handleColumn (void) { M2LexBuf_AddTokInteger(M2Reserved_integertok, m2flex_GetColumnNo()); } /* * handleDate - handles the __DATE__ construct by passing the date * as a string to the token buffer. */ static void handleDate (void) { time_t clock = time ((time_t *)0); char *sdate = ctime (&clock); char *s = (char *) alloca (strlen (sdate) + 2 + 1); char *p = index (sdate, '\n'); if (p != NULL) { *p = (char) 0; } strcpy(s, "\""); strcat(s, sdate); strcat(s, "\""); M2LexBuf_AddTokCharStar (M2Reserved_stringtok, s); } /* * handleFunction - handles the __FUNCTION__ construct by wrapping * it in double quotes and putting it into the token * buffer as a string. */ static void handleFunction (void) { if (currentFunction == NULL) M2LexBuf_AddTokCharStar(M2Reserved_stringtok, const_cast("\"\"")); else if (currentFunction->module) { char *s = (char *) alloca(strlen(yytext) + strlen("\"module initialization\"") + 1); strcpy(s, "\"module "); strcat(s, currentFunction->name); strcat(s, " initialization\""); M2LexBuf_AddTokCharStar(M2Reserved_stringtok, s); } else { char *function = currentFunction->name; char *s = (char *)alloca(strlen(function)+2+1); strcpy(s, "\""); strcat(s, function); strcat(s, "\""); M2LexBuf_AddTokCharStar(M2Reserved_stringtok, s); } } /* * pushFunction - pushes the function name onto the stack. */ static void pushFunction (char *function, bool module) { if (currentFunction == NULL) { currentFunction = (struct functionInfo *)xmalloc (sizeof (struct functionInfo)); currentFunction->name = xstrdup(function); currentFunction->next = NULL; currentFunction->module = module; } else { struct functionInfo *f = (struct functionInfo *)xmalloc (sizeof (struct functionInfo)); f->name = xstrdup(function); f->next = currentFunction; f->module = module; currentFunction = f; } } /* * popFunction - pops the current function. */ static void popFunction (void) { if (currentFunction != NULL && currentFunction->next != NULL) { struct functionInfo *f = currentFunction; currentFunction = currentFunction->next; if (f->name != NULL) free(f->name); free(f); } } /* * endOfComment - handles the end of comment */ static void endOfComment (void) { commentLevel--; updatepos(); skippos(); if (commentLevel==0) { BEGIN INITIAL; finishedLine(); } else popLine(); } /* * endOfCComment - handles the end of C comment. */ static void endOfCComment (void) { commentCLevel = 0; updatepos(); skippos(); BEGIN INITIAL; finishedLine(); } /* * m2flex_M2Error - displays the error message, s, after the code line and pointer * to the erroneous token. */ EXTERN void m2flex_M2Error (const char *s) { if (currentLine->linebuf != NULL) { int i=1; printf("%s:%d:%s\n", filename, currentLine->lineno, currentLine->linebuf); printf("%s:%d:%*s", filename, currentLine->lineno, 1+currentLine->tokenpos, "^"); while (itoklen) { putchar('^'); i++; } putchar('\n'); } printf("%s:%d:%s\n", filename, currentLine->lineno, s); } static void poperrorskip (const char *s) { int nextpos =currentLine->nextpos; int tokenpos=currentLine->tokenpos; popLine(); m2flex_M2Error(s); if (currentLine != NULL) { currentLine->nextpos = nextpos; currentLine->tokenpos = tokenpos; } } /* * consumeLine - reads a line into a buffer, it then pushes back the whole * line except the initial \n. */ static void consumeLine (void) { if (currentLine->linelenlinebuf = (char *)xrealloc (currentLine->linebuf, yyleng); currentLine->linelen = yyleng; } strcpy(currentLine->linebuf, yytext+1); /* copy all except the initial \n */ lineno++; totalLines++; currentLine->lineno = lineno; currentLine->tokenpos=0; currentLine->nextpos=0; currentLine->column=0; START_LINE (lineno, yyleng); yyless(1); /* push back all but the \n */ } static void assert_location (location_t location ATTRIBUTE_UNUSED) { #if 0 if ((location != BUILTINS_LOCATION) && (location != UNKNOWN_LOCATION) && (! M2Options_GetCpp ())) { expanded_location xl = expand_location (location); if (xl.line != currentLine->lineno) { m2flex_M2Error ("mismatched gcc location and front end token number"); } } #endif } /* * splitSlashStar - called if we are not tokenizing source code after it * has been preprocessed by cpp. It is only called * if the current token was a / immediately followed by * and * therefore it will be split into two m2 tokens: / and *. */ static void splitSlashStar (void) { seenFunctionStart = false; seenEnd = false; seenModuleStart = false; currentLine->nextpos = currentLine->tokenpos+1; /* "/". */ currentLine->toklen = 1; currentLine->column = currentLine->tokenpos+1; currentLine->location = M2Options_OverrideLocation (GET_LOCATION (currentLine->column, currentLine->column+currentLine->toklen-1)); assert_location (GET_LOCATION (currentLine->column, currentLine->column+currentLine->toklen-1)); M2LexBuf_AddTok (M2Reserved_dividetok); currentLine->nextpos = currentLine->tokenpos+1; /* "*". */ currentLine->toklen = 1; currentLine->column = currentLine->tokenpos+1; currentLine->location = M2Options_OverrideLocation (GET_LOCATION (currentLine->column, currentLine->column+currentLine->toklen-1)); assert_location (GET_LOCATION (currentLine->column, currentLine->column+currentLine->toklen-1)); M2LexBuf_AddTok (M2Reserved_timestok); } /* * updatepos - updates the current token position. * Should be used when a rule matches a token. */ static void updatepos (void) { seenFunctionStart = false; seenEnd = false; seenModuleStart = false; currentLine->nextpos = currentLine->tokenpos+yyleng; currentLine->toklen = yyleng; /* if (currentLine->column == 0) */ currentLine->column = currentLine->tokenpos+1; currentLine->location = M2Options_OverrideLocation (GET_LOCATION (currentLine->column, currentLine->column+currentLine->toklen-1)); assert_location (GET_LOCATION (currentLine->column, currentLine->column+currentLine->toklen-1)); } /* * checkFunction - checks to see whether we have seen the start * or end of a function. */ static void checkFunction (void) { if (! isDefinitionModule) { if (seenModuleStart) pushFunction(yytext, 1); if (seenFunctionStart) pushFunction(yytext, 0); if (seenEnd && currentFunction != NULL && (strcmp(currentFunction->name, yytext) == 0)) popFunction(); } seenFunctionStart = false; seenEnd = false; seenModuleStart = false; } /* * skippos - skips over this token. This function should be called * if we are not returning and thus not calling getToken. */ static void skippos (void) { currentLine->tokenpos = currentLine->nextpos; } /* * initLine - initializes a currentLine */ static void initLine (void) { currentLine = (struct lineInfo *)xmalloc (sizeof(struct lineInfo)); if (currentLine == NULL) perror("xmalloc"); currentLine->linebuf = NULL; currentLine->linelen = 0; currentLine->tokenpos = 0; currentLine->toklen = 0; currentLine->nextpos = 0; currentLine->lineno = lineno; currentLine->column = 0; currentLine->inuse = true; currentLine->next = NULL; } /* * pushLine - pushes a new line structure. */ static void pushLine (void) { if (currentLine == NULL) initLine(); else if (currentLine->inuse) { struct lineInfo *l = (struct lineInfo *)xmalloc (sizeof(struct lineInfo)); if (currentLine->linebuf == NULL) { l->linebuf = NULL; l->linelen = 0; } else { l->linebuf = (char *)xstrdup (currentLine->linebuf); l->linelen = strlen (l->linebuf)+1; } l->tokenpos = currentLine->tokenpos; l->toklen = currentLine->toklen; l->nextpos = currentLine->nextpos; l->lineno = currentLine->lineno; l->column = currentLine->column; l->next = currentLine; currentLine = l; } currentLine->inuse = true; } /* * popLine - pops a line structure. */ static void popLine (void) { if (currentLine != NULL) { struct lineInfo *l = currentLine; if (currentLine->linebuf != NULL) free(currentLine->linebuf); currentLine = l->next; free(l); } } /* * resetpos - resets the position of the next token to the start of the line. */ static void resetpos (void) { if (currentLine != NULL) currentLine->nextpos = 0; } /* * finishedLine - indicates that the current line does not need to be * preserved when a pushLine occurs. */ static void finishedLine (void) { currentLine->inuse = false; } /* * m2flex_GetToken - returns a new token. */ EXTERN char *m2flex_GetToken (void) { TIMEVAR_PUSH_LEX; if (currentLine == NULL) initLine(); currentLine->tokenpos = currentLine->nextpos; yylex(); TIMEVAR_POP_LEX; return yytext; } /* * CloseSource - provided for semantic sugar */ EXTERN void m2flex_CloseSource (void) { END_FILE (); } /* * OpenSource - returns true if file s can be opened and * all tokens are taken from this file. */ EXTERN bool m2flex_OpenSource (char *s) { FILE *f = fopen(s, "r"); if (f == NULL) return( false ); else { isDefinitionModule = false; while (currentFunction != NULL) { struct functionInfo *f = currentFunction; currentFunction = f->next; if (f->name != NULL) free(f->name); free(f); } yy_delete_buffer (YY_CURRENT_BUFFER); yy_switch_to_buffer (yy_create_buffer(f, YY_BUF_SIZE)); filename = xstrdup (s); lineno = 1; if (currentLine == NULL) pushLine (); else currentLine->lineno = lineno; START_FILE (filename, lineno); BEGIN INITIAL; resetpos (); return true; } } /* * m2flex_GetLineNo - returns the current line number. */ EXTERN int m2flex_GetLineNo (void) { if (currentLine != NULL) return currentLine->lineno; else return 0; } /* * m2flex_GetColumnNo - returns the column where the current * token starts. */ EXTERN int m2flex_GetColumnNo (void) { if (currentLine != NULL) return currentLine->column; else return 0; } /* * m2flex_GetLocation - returns the gcc location_t of the current token. */ EXTERN location_t m2flex_GetLocation (void) { if (currentLine != NULL) return currentLine->location; else return 0; } /* * GetTotalLines - returns the total number of lines parsed. */ EXTERN int m2flex_GetTotalLines (void) { return totalLines; } /* * yywrap is called when end of file is seen. We push an eof token * and tell the lexical analysis to stop. */ int yywrap (void) { updatepos(); M2LexBuf_AddTok(M2Reserved_eoftok); return 1; } EXTERN void _M2_m2flex_init (void) {} EXTERN void _M2_m2flex_fini (void) {}