wine/tools/wrc/preproc.c
Bertho Stultiens 27337af65c - Implemented a new preprocessor that is (nearly) ANSI-C compliant. The
old parser has been stripped from the old preprocessor-code which
  cleaned up both resource-scanner and -parser.
- Standard defines have been introduced (see README.wrc)
- Both preprocessor- and resource-scanner have been optimized slightly
  so that no backing up is required (one char lookahead is enough).
- Filename-scanning has been cleaned up, though not perfect yet.
- User-type resources are compatible now.
- Line-continuation in strings is corrected so that it does not
  introduce a newline in the output.
2000-05-01 20:05:58 +00:00

482 lines
11 KiB
C

/*
* Copyright 1998 Bertho A. Stultiens (BS)
*
*/
#include "config.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "wrc.h"
#include "utils.h"
#include "preproc.h"
extern void set_pp_ignore(int); /* From parser.l */
#define HASHKEY 2039
static pp_entry_t *pp_defines[HASHKEY];
#define MAXIFSTACK 64
static if_state_t if_stack[MAXIFSTACK];
static int if_stack_idx = 0;
#if 0
void pp_status(void) __attribute__((destructor));
void pp_status(void)
{
int i;
int sum;
int total = 0;
pp_entry_t *ppp;
fprintf(stderr, "Defines statistics:\n");
for(i = 0; i < HASHKEY; i++)
{
sum = 0;
for(ppp = pp_defines[i]; ppp; ppp = ppp->next)
sum++;
total += sum;
fprintf(stderr, "%4d, %3d\n", i, sum);
}
fprintf(stderr, "Total defines: %d\n", total);
}
#endif
/* Don't comment on the hash, its primitive but functional... */
int pphash(char *str)
{
int sum = 0;
while(*str)
sum += *str++;
return sum % HASHKEY;
}
pp_entry_t *pplookup(char *ident)
{
int idx = pphash(ident);
pp_entry_t *ppp;
for(ppp = pp_defines[idx]; ppp; ppp = ppp->next)
{
if(!strcmp(ident, ppp->ident))
return ppp;
}
return NULL;
}
void del_define(char *name)
{
int idx;
pp_entry_t *ppp;
if((ppp = pplookup(name)) == NULL)
{
if(pedantic)
yywarning("%s was not defined", name);
return;
}
if(ppp->iep)
{
if(debuglevel & DEBUGLEVEL_PPMSG)
fprintf(stderr, "del_define: %s:%d: includelogic removed, include_ppp='%s', file=%s\n", input_name, line_number, name, ppp->iep->filename);
if(ppp->iep == includelogiclist)
{
includelogiclist = ppp->iep->next;
if(includelogiclist)
includelogiclist->prev = NULL;
}
else
{
ppp->iep->prev->next = ppp->iep->next;
if(ppp->iep->next)
ppp->iep->next->prev = ppp->iep->prev;
}
free(ppp->iep->filename);
free(ppp->iep);
}
idx = pphash(name);
if(pp_defines[idx] == ppp)
{
pp_defines[idx] = ppp->next;
if(pp_defines[idx])
pp_defines[idx]->prev = NULL;
}
else
{
ppp->prev->next = ppp->next;
if(ppp->next)
ppp->next->prev = ppp->prev;
}
free(ppp);
if(debuglevel & DEBUGLEVEL_PPMSG)
printf("Deleted (%s, %d) <%s>\n", input_name, line_number, name);
}
pp_entry_t *add_define(char *def, char *text)
{
int len;
char *cptr;
int idx = pphash(def);
pp_entry_t *ppp;
if((ppp = pplookup(def)) != NULL)
{
if(pedantic)
yywarning("Redefinition of %s\n\tPrevious definition: %s:%d", def, ppp->filename, ppp->linenumber);
del_define(def);
}
ppp = (pp_entry_t *)xmalloc(sizeof(pp_entry_t));
ppp->ident = def;
ppp->type = def_define;
ppp->subst.text = text;
ppp->filename = input_name ? xstrdup(input_name) : "<internal or cmdline>";
ppp->linenumber = input_name ? line_number : 0;
ppp->next = pp_defines[idx];
pp_defines[idx] = ppp;
if(ppp->next)
ppp->next->prev = ppp;
if(text)
{
/* Strip trailing white space from subst text */
len = strlen(text);
while(len && strchr(" \t\r\n", text[len-1]))
{
text[--len] = '\0';
}
/* Strip leading white space from subst text */
for(cptr = text; *cptr && strchr(" \t\r", *cptr); cptr++)
;
if(text != cptr)
memmove(text, cptr, strlen(cptr)+1);
}
if(debuglevel & DEBUGLEVEL_PPMSG)
printf("Added define (%s, %d) <%s> to <%s>\n", input_name, line_number, ppp->ident, text ? text : "(null)");
return ppp;
}
pp_entry_t *add_cmdline_define(char *set)
{
char *cpy = xstrdup(set); /* Because gcc passes a R/O string */
char *cptr = strchr(cpy, '=');
if(cptr)
*cptr = '\0';
return add_define(cpy, xstrdup(cptr ? cptr+1 : ""));
}
pp_entry_t *add_special_define(char *id)
{
pp_entry_t *ppp = add_define(xstrdup(id), xstrdup(""));
ppp->type = def_special;
return ppp;
}
pp_entry_t *add_macro(char *id, marg_t *args[], int nargs, mtext_t *exp)
{
int idx = pphash(id);
pp_entry_t *ppp;
if((ppp = pplookup(id)) != NULL)
{
if(pedantic)
yywarning("Redefinition of %s\n\tPrevious definition: %s:%d", id, ppp->filename, ppp->linenumber);
del_define(id);
}
ppp = (pp_entry_t *)xmalloc(sizeof(pp_entry_t));
ppp->ident = id;
ppp->type = def_macro;
ppp->margs = args;
ppp->nargs = nargs;
ppp->subst.mtext= exp;
ppp->filename = input_name ? xstrdup(input_name) : "<internal or cmdline>";
ppp->linenumber = input_name ? line_number : 0;
ppp->next = pp_defines[idx];
pp_defines[idx] = ppp;
if(ppp->next)
ppp->next->prev = ppp;
if(debuglevel & DEBUGLEVEL_PPMSG)
{
fprintf(stderr, "Added macro (%s, %d) <%s(%d)> to <", input_name, line_number, ppp->ident, nargs);
for(; exp; exp = exp->next)
{
switch(exp->type)
{
case exp_text:
fprintf(stderr, " \"%s\" ", exp->subst.text);
break;
case exp_stringize:
fprintf(stderr, " #(%d) ", exp->subst.argidx);
break;
case exp_concat:
fprintf(stderr, "##");
break;
case exp_subst:
fprintf(stderr, " <%d> ", exp->subst.argidx);
break;
}
}
fprintf(stderr, ">\n");
}
return ppp;
}
/*
*-------------------------------------------------------------------------
* Include management
*-------------------------------------------------------------------------
*/
#if defined(_Windows) || defined(__MSDOS__)
#define INCLUDESEPARATOR ";"
#else
#define INCLUDESEPARATOR ":"
#endif
static char **includepath;
static int nincludepath = 0;
void add_include_path(char *path)
{
char *tok;
char *cpy = xstrdup(path);
tok = strtok(cpy, INCLUDESEPARATOR);
while(tok)
{
char *dir;
char *cptr;
if(strlen(tok) == 0)
continue;
dir = xstrdup(tok);
for(cptr = dir; *cptr; cptr++)
{
/* Convert to forward slash */
if(*cptr == '\\')
*cptr = '/';
}
/* Kill eventual trailing '/' */
if(*(cptr = dir + strlen(dir)-1) == '/')
*cptr = '\0';
/* Add to list */
nincludepath++;
includepath = (char **)xrealloc(includepath, nincludepath * sizeof(*includepath));
includepath[nincludepath-1] = dir;
tok = strtok(NULL, INCLUDESEPARATOR);
}
free(cpy);
}
FILE *open_include(const char *name, int search, char **newpath)
{
char *cpy = xstrdup(name);
char *cptr;
FILE *fp;
int i;
for(cptr = cpy; *cptr; cptr++)
{
/* kill double backslash */
if(*cptr == '\\' && *(cptr+1) == '\\')
memmove(cptr, cptr+1, strlen(cptr));
/* Convert to forward slash */
if(*cptr == '\\')
*cptr = '/';
}
if(search)
{
/* Search current dir and then -I path */
fp = fopen(cpy, "rt");
if(fp)
{
if(debuglevel & DEBUGLEVEL_PPMSG)
printf("Going to include <%s>\n", name);
if(newpath)
*newpath = cpy;
else
free(cpy);
return fp;
}
}
/* Search -I path */
for(i = 0; i < nincludepath; i++)
{
char *path;
path = (char *)xmalloc(strlen(includepath[i]) + strlen(cpy) + 2);
strcpy(path, includepath[i]);
strcat(path, "/");
strcat(path, cpy);
fp = fopen(path, "rt");
if(fp && (debuglevel & DEBUGLEVEL_PPMSG))
printf("Going to include <%s>\n", path);
if(fp)
{
if(newpath)
*newpath = path;
else
free(path);
free(cpy);
return fp;
}
free(path);
}
free(cpy);
if(newpath)
*newpath = NULL;
return NULL;
}
/*
*-------------------------------------------------------------------------
* #if, #ifdef, #ifndef, #else, #elif and #endif state management
*
* #if state transitions are made on basis of the current TOS and the next
* required state. The state transitions are required to housekeep because
* #if:s can be nested. The ignore case is activated to prevent output from
* within a false clause.
* Some special cases come from the fact that the #elif cases are not
* binary, but three-state. The problem is that all other elif-cases must
* be false when one true one has been found. A second problem is that the
* #else clause is a final clause. No extra #else:s may follow.
*
* The states mean:
* if_true Process input to output
* if_false Process input but no output
* if_ignore Process input but no output
* if_elif Process input but no output
* if_elsefalse Process input but no output
* if_elsettrue Process input to output
*
* The possible state-sequences are [state(stack depth)] (rest can be deduced):
* TOS #if 1 #else #endif
* if_true(n) if_true(n+1) if_elsefalse(n+1)
* if_false(n) if_ignore(n+1) if_ignore(n+1)
* if_elsetrue(n) if_true(n+1) if_elsefalse(n+1)
* if_elsefalse(n) if_ignore(n+1) if_ignore(n+1)
* if_elif(n) if_ignore(n+1) if_ignore(n+1)
* if_ignore(n) if_ignore(n+1) if_ignore(n+1)
*
* TOS #if 1 #elif 0 #else #endif
* if_true(n) if_true(n+1) if_elif(n+1) if_elif(n+1)
* if_false(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
* if_elsetrue(n) if_true(n+1) if_elif(n+1) if_elif(n+1)
* if_elsefalse(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
* if_elif(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
* if_ignore(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
*
* TOS #if 0 #elif 1 #else #endif
* if_true(n) if_false(n+1) if_true(n+1) if_elsefalse(n+1)
* if_false(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
* if_elsetrue(n) if_false(n+1) if_true(n+1) if_elsefalse(n+1)
* if_elsefalse(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
* if_elif(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
* if_ignore(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1)
*
*-------------------------------------------------------------------------
*/
static char *if_state_str[] = {
"if_false",
"if_true",
"if_elif",
"if_elsefalse",
"if_elsetrue",
"if_ignore"
};
void push_if(if_state_t s)
{
if(if_stack_idx >= MAXIFSTACK)
internal_error(__FILE__, __LINE__, "#if-stack overflow; #{if,ifdef,ifndef} nested too deeply (> %d)", MAXIFSTACK);
if(debuglevel & DEBUGLEVEL_PPLEX)
fprintf(stderr, "Push if %s:%d: %s(%d) -> %s(%d)\n", input_name, line_number, if_state_str[if_state()], if_stack_idx, if_state_str[s], if_stack_idx+1);
if_stack[if_stack_idx++] = s;
switch(s)
{
case if_true:
case if_elsetrue:
break;
case if_false:
case if_elsefalse:
case if_elif:
case if_ignore:
push_ignore_state();
break;
}
}
if_state_t pop_if(void)
{
if(if_stack_idx <= 0)
yyerror("#{endif,else,elif} without #{if,ifdef,ifndef} (#if-stack underflow)");
switch(if_state())
{
case if_true:
case if_elsetrue:
break;
case if_false:
case if_elsefalse:
case if_elif:
case if_ignore:
pop_ignore_state();
break;
}
if(debuglevel & DEBUGLEVEL_PPLEX)
fprintf(stderr, "Pop if %s:%d: %s(%d) -> %s(%d)\n",
input_name,
line_number,
if_state_str[if_state()],
if_stack_idx,
if_state_str[if_stack[if_stack_idx <= 1 ? if_true : if_stack_idx-2]],
if_stack_idx-1);
return if_stack[--if_stack_idx];
}
if_state_t if_state(void)
{
if(!if_stack_idx)
return if_true;
else
return if_stack[if_stack_idx-1];
}
void next_if_state(int i)
{
switch(if_state())
{
case if_true:
case if_elsetrue:
push_if(i ? if_true : if_false);
break;
case if_false:
case if_elsefalse:
case if_elif:
case if_ignore:
push_if(if_ignore);
break;
default:
internal_error(__FILE__, __LINE__, "Invalid if_state (%d) in #{if,ifdef,ifndef} directive", (int)if_state());
}
}
int get_if_depth(void)
{
return if_stack_idx;
}