ReturnCode expand(struct Global *global, DEFBUF *tokenp)
{
/*
* Expand a macro. Called from the cpp mainline routine (via subroutine
* macroid()) when a token is found in the symbol table. It calls
* expcollect() to parse actual parameters, checking for the correct number.
* It then creates a "file" containing a single line containing the
* macro with actual parameters inserted appropriately. This is
* "pushed back" onto the input stream. (When the get() routine runs
* off the end of the macro line, it will dismiss the macro itself.)
*/
int c;
FILEINFO *file;
ReturnCode ret=FPP_OK;
/*
* If no macro is pending, save the name of this macro
* for an eventual error message.
*/
if (global->recursion++ == 0)
global->macro = tokenp;
else if (global->recursion == RECURSION_LIMIT) {
cerror(global, ERROR_RECURSIVE_MACRO, tokenp->name, global->macro->name);
if (global->rec_recover) {
do {
c = get(global);
} while (global->infile != NULL && global->infile->fp == NULL);
unget(global);
global->recursion = 0;
return(FPP_OK);
}
}
/*
* Here's a macro to expand.
*/
global->nargs = 0; /* Formals counter */
global->parmp = global->parm; /* Setup parm buffer */
switch (tokenp->nargs) {
case (-2): /* __LINE__ */
if(global->infile->fp)
/* This is a file */
sprintf(global->work, "%d", global->line);
else
/* This is a macro! Find out the file line number! */
for (file = global->infile; file != NULL; file = file->parent) {
if (file->fp != NULL) {
sprintf(global->work, "%d", file->line);
break;
}
}
ret=ungetstring(global, global->work);
if(ret)
return(ret);
break;
case (-3): /* __FILE__ */
for (file = global->infile; file != NULL; file = file->parent) {
if (file->fp != NULL) {
sprintf(global->work, "\"%s\"", (file->progname != NULL)
? file->progname : file->filename);
ret=ungetstring(global, global->work);
if(ret)
return(ret);
break;
}
}
break;
case (-4): /* __FUNC__ */
sprintf(global->work, "\"%s\"", global->functionname[0]?
global->functionname : "<unknown function>");
ret=ungetstring(global, global->work);
if(ret)
return(ret);
break;
case (-5): /* __FUNC_LINE__ */
sprintf(global->work, "%d", global->funcline);
ret=ungetstring(global, global->work);
if(ret)
return(ret);
break;
default:
/*
* Nothing funny about this macro.
*/
if (tokenp->nargs < 0) {
cfatal(global, FATAL_ILLEGAL_MACRO, tokenp->name);
return(FPP_ILLEGAL_MACRO);
}
while ((c = skipws(global)) == '\n') /* Look for (, skipping */
global->wrongline = TRUE; /* spaces and newlines */
if (c != '(') {
/*
* If the programmer writes
* #define foo() ...
* ...
* foo [no ()]
* just write foo to the output stream.
*/
unget(global);
cwarn(global, WARN_MACRO_NEEDS_ARGUMENTS, tokenp->name);
/* fputs(tokenp->name, stdout); */
Putstring(global, tokenp->name);
return(FPP_OK);
} else if (!(ret=expcollect(global))) { /* Collect arguments */
if (tokenp->nargs != global->nargs) { /* Should be an error? */
cwarn(global, WARN_WRONG_NUMBER_ARGUMENTS, tokenp->name);
}
} else { /* Collect arguments */
return(ret); /* We failed in argument colleting! */
}
case DEF_NOARGS: /* No parameters just stuffs */
ret=expstuff(global, tokenp->name, tokenp->repl); /* expand macro */
} /* nargs switch */
return(ret);
}
/*
* Expand a macro. Called from the cpp mainline routine (via subroutine
* macroid()) when a token is found in the symbol table. It calls
* expcollect() to parse actual parameters, checking for the correct number.
* It then creates a "file" containing a single line containing the
* macro with actual parameters inserted appropriately. This is
* "pushed back" onto the input stream. (When the get() routine runs
* off the end of the macro line, it will dismiss the macro itself.)
*/
void expand(DEFBUF* tokenp)
{
int c;
FILEINFO* file;
#if OSL_DEBUG_LEVEL > 1
if (debug)
dumpadef("expand entry", tokenp);
#endif
/*
* If no macro is pending, save the name of this macro
* for an eventual error message.
*/
if (recursion++ == 0)
macro = tokenp;
else if (recursion == RECURSION_LIMIT)
{
cerror("Recursive macro definition of \"%s\"", tokenp->name);
fprintf(stderr, "(Defined by \"%s\")\n", macro->name);
if (rec_recover)
{
do
{
c = get();
}
while (infile != NULL && infile->fp == NULL);
unget();
recursion = 0;
return;
}
}
/*
* Here's a macro to expand.
*/
nargs = 0; /* Formals counter */
parmp = parm; /* Setup parm buffer */
switch (tokenp->nargs)
{
case (-2): /* __LINE__ */
sprintf(work, "%d", line);
ungetstring(work);
break;
case (-3): /* __FILE__ */
for (file = infile; file != NULL; file = file->parent)
{
if (file->fp != NULL)
{
sprintf(work, "\"%s\"", (file->progname != NULL)
? file->progname : file->filename);
ungetstring(work);
break;
}
}
break;
default:
/*
* Nothing funny about this macro.
*/
if (tokenp->nargs < 0)
cfatal("Bug: Illegal __ macro \"%s\"", tokenp->name);
while ((c = skipws()) == '\n') /* Look for (, skipping */
wrongline = TRUE; /* spaces and newlines */
if (c != '(')
{
/*
* If the programmer writes
* #define foo() ...
* ...
* foo [no ()]
* just write foo to the output stream.
*/
unget();
cwarn("Macro \"%s\" needs arguments", tokenp->name);
fputs(tokenp->name, pCppOut );
return;
}
else if (expcollect()) /* Collect arguments */
{
if (tokenp->nargs != nargs) /* Should be an error? */
{
cwarn("Wrong number of macro arguments for \"%s\"",
tokenp->name);
}
#if OSL_DEBUG_LEVEL > 1
if (debug)
dumpparm("expand");
#endif
} /* Collect arguments */
case DEF_NOARGS: /* No parameters just stuffs */
expstuff(tokenp); /* Do actual parameters */
} /* nargs switch */
}
INLINE FILE_LOCAL
ReturnCode cppmain(struct Global *global)
{
/*
* Main process for cpp -- copies tokens from the current input
* stream (main file, include file, or a macro) to the output
* file.
*/
int c; /* Current character */
int counter; /* newlines and spaces */
ReturnCode ret; /* return code variable type */
long bracelevel = 0;
long parenlevel = 0;
long bracketlevel = 0;
int fake = 0;
#define MAX_FUNC_LENGTH 50
char tempfunc[MAX_FUNC_LENGTH + 1];
char tempfunc2[MAX_FUNC_LENGTH + 1];
char define = 0; /* probability of a function define phase in the program */
char prev = 0; /* previous type */
char go = 0;
char include = 0;
char initfunc = 0;
/* Initialize for reading tokens */
global->tokenbsize = 50;
global->tokenbuf = malloc(global->tokenbsize + 1);
if(!global->tokenbuf)
return(FPP_OUT_OF_MEMORY);
global->functionname = malloc(global->tokenbsize + 1);
if(!global->functionname)
return(FPP_OUT_OF_MEMORY);
global->functionname[0] = '\0';
if(global->showspace) {
global->spacebuf = (char *)malloc(MAX_SPACE_SIZE);
if(!global->spacebuf)
return(FPP_OUT_OF_MEMORY);
}
if(global->showversion)
Error(global, VERSION_TEXT);
/*
* Explicitly output a #line at the start of cpp output so
* that lint (etc.) knows the name of the original source
* file. If we don't do this explicitly, we may get
* the name of the first #include file instead.
*/
if(global->linelines) /* if #line lines are wanted! */
sharp(global);
/*
* This loop is started "from the top" at the beginning of each line
* wrongline is set TRUE in many places if it is necessary to write
* a #line record. (But we don't write them when expanding macros.)
*
* The counter variable has two different uses: at
* the start of a line, it counts the number of blank lines that
* have been skipped over. These are then either output via
* #line records or by outputting explicit blank lines.
* When expanding tokens within a line, the counter remembers
* whether a blank/tab has been output. These are dropped
* at the end of the line, and replaced by a single blank
* within lines.
*/
include = global->included;
while(include--) {
openinclude(global, global->include[include], TRUE);
}
for (;;) {
counter = 0; /* Count empty lines */
for (;;) { /* For each line, ... */
global->comment = FALSE; /* No comment yet! */
global->chpos = 0; /* Count whitespaces */
while (type[(c = get(global))] == SPA) /* Skip leading blanks */
if(global->showspace) {
if(global->chpos<MAX_SPACE_SIZE-1)
/* we still have buffer to store this! */
global->spacebuf[global->chpos++]=(char)c;
}
if (c == '\n') { /* If line's all blank, */
if(global->comment) {
/* A comment was output! */
Putchar(global, '\n');
}
else
++counter; /* Do nothing now */
}
else if (c == '#') { /* Is 1st non-space '#' */
global->keepcomments = FALSE; /* Don't pass comments */
ret = control(global, &counter); /* Yes, do a #command */
if(ret)
return(ret);
global->keepcomments = (global->cflag && compiling);
}
else if (c == EOF_CHAR) /* At end of file? */
break;
else if (!compiling) { /* #ifdef false? */
skipnl(global); /* Skip to newline */
counter++; /* Count it, too. */
} else {
break; /* Actual token */
}
}
if (c == EOF_CHAR) /* Exit process at */
break; /* End of file */
/*
* If the loop didn't terminate because of end of file, we
* know there is a token to compile. First, clean up after
* absorbing newlines. counter has the number we skipped.
*/
if(global->linelines) { /* if #line lines are wanted! */
if ((global->wrongline && global->infile->fp != NULL) || counter > 4)
sharp(global); /* Output # line number */
else { /* If just a few, stuff */
while (--counter >= 0) /* them out ourselves */
Putchar(global, (int)'\n');
}
}
if(global->showspace) {
/* Show all whitespaces! */
global->spacebuf[global->chpos] = '\0';
Putstring(global, global->spacebuf);
}
/*
* Process each token on this line.
*/
unget(global); /* Reread the char. */
for (;;) { /* For the whole line, */
do { /* Token concat. loop */
for (global->chpos = counter = 0; (type[(c = get(global))] == SPA);) {
#if COMMENT_INVISIBLE
if (c != COM_SEP)
counter++;
#else
if(global->showspace && global->chpos < MAX_SPACE_SIZE-1) {
global->spacebuf[global->chpos++]=(char)c;
}
counter++; /* Skip over blanks */
#endif
}
if (c == EOF_CHAR || c == '\n')
break; /* Exit line loop */
else if (counter > 0) { /* If we got any spaces */
if(!global->showspace) /* We don't output all spaces */
Putchar(global, (int)' ');/* Output one space */
else {
global->spacebuf[global->chpos] = '\0';
Putstring(global, global->spacebuf); /* Output all whitespaces */
}
}
if(ret=macroid(global, &c)) /* Grab the token */
return(ret);
} while (type[c] == LET && catenate(global, &ret) && !ret);
if(ret)
/* If the loop was broken because of a fatal error! */
return(ret);
if (c == EOF_CHAR || c == '\n') /* From macro exp error */
break; /* Exit line loop */
go++;
switch (type[c]) {
case LET:
go =0;
/* Quite ordinary token */
Putstring(global, global->tokenbuf);
if(!define) {
/* Copy the name */
strncpy(tempfunc, global->tokenbuf, MAX_FUNC_LENGTH);
tempfunc[MAX_FUNC_LENGTH]=0;
}
/* fputs(global->tokenbuf, stdout); */
break;
case DIG: /* Output a number */
case DOT: /* Dot may begin floats */
go = 0;
ret=scannumber(global, c, (ReturnCode(*)(struct Global *, int))output);
if(ret)
return(ret);
break;
case QUO: /* char or string const */
go = 0;
/* Copy it to output */
if(!global->webmode) {
ret=scanstring(global, c,
(ReturnCode(*)(struct Global *, int))output);
if(ret)
return(ret);
break;
}
/* FALLTHROUGH */
default: /* Some other character */
define++;
switch(c) {
case '{':
if(! bracelevel++ && define > 2) {
/*
* This is a starting brace. If there is a probability of a
* function defining, we copy the `tempfunc' function name to
* `global->functionname'.
*/
strcpy(global->functionname, tempfunc2);
global->funcline = global->line;
if(global->outputfunctions) {
/*
* Output the discovered function name to stderr!
*/
Error(global, "#> Function defined at line %d: %s <#\n",
global->line,
global->functionname);
}
if(global->initialfunc) {
int a;
for(a=0; a<global->excluded; a++) {
/* check for excluded functions */
if(!strcmp(global->functionname,
global->excludedinit[a]))
break;
}
if(a==global->excluded) {
expstuff(global, "__brace__", "{");
expstuff(global, "__init_func__", global->initialfunc);
initfunc = TRUE;
}
}
}
break;
case '}':
go = 0;
if( (--bracelevel == initfunc) &&
strcmp(global->infile->filename, "__init_func__") ) {
/* we just stepped out of the function! */
global->functionname[0] = '\0';
global->funcline = 0;
define = 1;
if(initfunc) {
Putchar(global, '}');
bracelevel--;
initfunc=0;
}
}
fake = 0;
break;
case ';':
case ',':
if(go == 2) {
define = 1;
fake = 0;
go--;
break;
}
break;
case '(':
if(! parenlevel++ && !bracelevel) {
if(go == 2) {
/* foobar(text) -> "(" is found. This can't be a
function */
go--;
define = 1;
break;
}
if( define < 2 && prev == LET) {
/* This is the first parenthesis on the ground brace
level, and we did previously not have a probable
function name */
strncpy(tempfunc2, global->tokenbuf, MAX_FUNC_LENGTH);
tempfunc2[MAX_FUNC_LENGTH]=0;
define++;
}
else {
/* we have a fake start */
fake++;
}
}
break;
case ')':
if(! --parenlevel && !bracelevel && define>1 && !fake) {
/*
* The starting parentheses level and
* the starting brace level.
* This might be the start of a function defining coming
* up!
*/
define++; /* increase probability */
fake = 0;
go = 1;
}
break;
case '[':
bracketlevel++;
break;
case ']':
bracketlevel--;
break;
}
define--; /* decrease function probability */
Putchar(global, c); /* Just output it */
break;
} /* Switch ends */
prev = type[c];
} /* Line for loop */
if (c == '\n') { /* Compiling at EOL? */
Putchar(global, '\n'); /* Output newline, if */
if (global->infile->fp == NULL) /* Expanding a macro, */
global->wrongline = TRUE; /* Output # line later */
}
} /* Continue until EOF */
if(global->showbalance) {
if(bracketlevel) {
cwarn(global, WARN_BRACKET_DEPTH, bracketlevel);
}
if(parenlevel) {
cwarn(global, WARN_PAREN_DEPTH, parenlevel);
}
if(bracelevel) {
cwarn(global, WARN_BRACE_DEPTH, bracelevel);
}
}
if (global->wflag) {
global->out = TRUE; /* enable output */
outdefines(global); /* Write out #defines */
}
return(FPP_OK);
}
