示例#1
0
/* Allocate and initialize an external filter.
 * @param chain the current chain or NULL for new chain
 * @param cmd the command to execute.
 * @param ... a NULL terminated list of (const char*) arguments to command,
 *            not including argv[0].
 * @return newest filter in chain
 */
struct filter *filter_create_ext (struct filter *chain, const char *cmd,
				  ...)
{
	struct filter *f;
	int     max_args;
	const char *s;
	va_list ap;

	/* allocate and initialize new filter */
	f = (struct filter *) flex_alloc (sizeof (struct filter));
	if (!f)
		flexerror (_("flex_alloc failed (f) in filter_create_ext"));
	memset (f, 0, sizeof (*f));
	f->filter_func = NULL;
	f->extra = NULL;
	f->next = NULL;
	f->argc = 0;

	if (chain != NULL) {
		/* append f to end of chain */
		while (chain->next)
			chain = chain->next;
		chain->next = f;
	}


	/* allocate argv, and populate it with the argument list. */
	max_args = 8;
	f->argv =
		(const char **) flex_alloc (sizeof (char *) *
					    (max_args + 1));
	if (!f->argv)
		flexerror (_("flex_alloc failed (f->argv) in filter_create_ext"));
	f->argv[f->argc++] = cmd;

	va_start (ap, cmd);
	while ((s = va_arg (ap, const char *)) != NULL) {
		if (f->argc >= max_args) {
			max_args += 8;
			f->argv =
				(const char **) flex_realloc (f->argv,
							      sizeof (char
								      *) *
							      (max_args +
							       1));
		}
		f->argv[f->argc++] = s;
	}
	f->argv[f->argc] = NULL;

	va_end (ap);
	return f;
}
示例#2
0
文件: misc.c 项目: Kampbell/ReFlex
/* copy_string - returns a dynamically allocated copy of a string */
char *
copy_string(const char *str)
{
    const char *c1;
    char *c2;
    char *copy;
    size_t size;

    /* find length */
    for (c1 = str; *c1; ++c1) {
	;
    }

    size = (unsigned) (c1 - str + 1) * sizeof(char);
    copy = (char *) flex_alloc(size);

    if (copy == NULL)
	flexfatal(_("dynamic memory failure in copy_string()"));

    assert(copy != NULL);

    for (c2 = copy; (*c2++ = *str++) != 0;) {
	;
    }

    return copy;
}
示例#3
0
文件: filter.c 项目: bonzini/flex
/* Allocate and initialize an internal filter.
 * @param chain the current chain or NULL for new chain
 * @param filter_func The function that will perform the filtering.
 *        filter_func should return 0 if successful, and -1
 *        if an error occurs -- or it can simply exit().
 * @param extra optional user-defined data to pass to the filter.
 * @return newest filter in chain
 */
struct filter *filter_create_int (struct filter *chain,
				  int (*filter_func) (struct filter *),
				  void *extra)
{
	struct filter *f;

	/* allocate and initialize new filter */
	f = (struct filter *) flex_alloc (sizeof (struct filter));
	memset (f, 0, sizeof (*f));
	f->next = NULL;
	f->argc = 0;
	f->argv = NULL;

	f->filter_func = filter_func;
	f->extra = extra;

	if (chain != NULL) {
		/* append f to end of chain */
		while (chain->next)
			chain = chain->next;
		chain->next = f;
	}

	return f;
}
示例#4
0
/* one-time initialization. Should be called before any sf_ functions. */
void
sf_init (void)
{
    assert(_sf_stk == NULL);
    _sf_stk = (scanflags_t*) flex_alloc ( sizeof(scanflags_t) * (_sf_max = 32));
    if (!_sf_stk)
        lerr_fatal(_("Unable to allocate %zu of stack"), sizeof(scanflags_t));
    _sf_stk[_sf_top_ix] = 0;
}
示例#5
0
/* The following is only needed when building flex's parser using certain
 * broken versions of bison.
 */
void *yy_flex_xmalloc(int size)
	{
	void *result = flex_alloc( (size_t) size );

	if ( ! result  )
		flexfatal(
			_( "memory allocation failed in yy_flex_xmalloc()" ) );

	return result;
	}
示例#6
0
文件: buf.c 项目: bonzini/flex
/** Append a line directive to the string buffer.
 * @param buf A string buffer.
 * @param filename file name
 * @param lineno line number
 * @return buf
 */
struct Buf *buf_linedir (struct Buf *buf, const char* filename, int lineno)
{
    char   *t, *fmt = "#line %d \"%s\"\n";

    t = flex_alloc (strlen (fmt) + strlen (filename) + (int)(1 + log10(lineno>=0?lineno:-lineno)) + 1);
    sprintf (t, fmt, lineno, filename);
    buf = buf_strappend (buf, t);
    flex_free (t);
    return buf;
}
示例#7
0
文件: buf.c 项目: bonzini/flex
/* Append a "%s" formatted string to a string buffer */
struct Buf *buf_prints (struct Buf *buf, const char *fmt, const char *s)
{
    char   *t;

    t = flex_alloc (strlen (fmt) + strlen (s) + 1);
    sprintf (t, fmt, s);
    buf = buf_strappend (buf, t);
    flex_free (t);
    return buf;
}
示例#8
0
void *allocate_array(int size, size_t element_size)
	{
	void *mem;
	size_t num_bytes = element_size * size;

	mem = flex_alloc( num_bytes );
	if ( ! mem )
		flexfatal(
			_( "memory allocation failed in allocate_array()" ) );

	return mem;
	}
示例#9
0
/* Append a "%s" formatted string to a string buffer */
struct Buf *buf_prints (struct Buf *buf, const char *fmt, const char *s)
{
	char   *t;
        size_t tsz;

	t = flex_alloc (tsz = strlen (fmt) + strlen (s) + 1);
	if (!t)
	    flexfatal (_("Allocation of buffer to print string failed"));
	snprintf (t, tsz, fmt, s);
	buf = buf_strappend (buf, t);
	flex_free (t);
	return buf;
}
示例#10
0
文件: buf.c 项目: stefanreinauer/flex
/** Pushes "m4_undefine([[def]])m4_dnl" to end of buffer.
 * @param buf A buffer as a list of strings.
 * @param def The m4 symbol to undefine.
 * @return buf
 */
struct Buf *buf_m4_undefine (struct Buf *buf, const char* def)
{
    const char * fmt = "m4_undefine( [[%s]])m4_dnl\n";
    char * str;
    size_t strsz;

    str = (char*)flex_alloc(strsz = strlen(fmt) + strlen(def) + 2);
    if (!str)
        flexfatal (_("Allocation of buffer for m4 undef failed"));

    snprintf(str, strsz, fmt, def);
    buf_append(buf, &str, 1);
    return buf;
}
示例#11
0
文件: buf.c 项目: Gwenio/DragonFlyBSD
/** Append a line directive to the string buffer.
 * @param buf A string buffer.
 * @param filename file name
 * @param lineno line number
 * @return buf
 */
struct Buf *buf_linedir (struct Buf *buf, const char* filename, int lineno)
{
    char *dst, *src, *t;
    char *dupe;

    dupe = flex_alloc (strlen(filename) + 1);
    strncpy(dupe, filename, strlen(filename));
    t = flex_alloc (strlen ("#line \"\"\n")          +   /* constant parts */
                    2 * strlen (filename)            +   /* filename with possibly all backslashes escaped */
                    (int) (1 + log10 (abs (lineno))) +   /* line number */
                    1);                                  /* NUL */
    if (!t)
      flexfatal (_("Allocation of buffer for line directive failed"));
    for (dst = t + sprintf (t, "#line %d \"", lineno), src = dupe; *src; *dst++ = *src++)
      if (*src == '\\')   /* escape backslashes */
        *dst++ = '\\';
    *dst++ = '"';
    *dst++ = '\n';
    *dst   = '\0';
    buf = buf_strappend (buf, t);
    flex_free (t);
    return buf;
}
示例#12
0
文件: regex.c 项目: 0mp/freebsd
/** Compiles a regular expression or dies trying.
 * @param preg  Same as for regcomp().
 * @param regex Same as for regcomp().
 * @param cflags Same as for regcomp().
 */
void flex_regcomp(regex_t *preg, const char *regex, int cflags)
{
    int err;

	memset (preg, 0, sizeof (regex_t));

	if ((err = regcomp (preg, regex, cflags)) != 0) {
        const int errbuf_sz = 200;
        char *errbuf, *rxerr;

		errbuf = (char*)flex_alloc(errbuf_sz *sizeof(char));
		if (!errbuf)
			flexfatal(_("Unable to allocate buffer to report regcomp"));
		rxerr = (char*)flex_alloc(errbuf_sz *sizeof(char));
		if (!rxerr)
			flexfatal(_("Unable to allocate buffer for regerror"));
		regerror (err, preg, rxerr, errbuf_sz);
		snprintf (errbuf, errbuf_sz, "regcomp for \"%s\" failed: %s", regex, rxerr);

		flexfatal (errbuf);
        free(errbuf);
        free(rxerr);
	}
}
示例#13
0
文件: regex.c 项目: 0mp/freebsd
/** Extract a copy of the match, or NULL if no match.
 * @param m A match as returned by regexec().
 * @param src The source string that was passed to regexec().
 * @return The allocated string.
 */
char   *regmatch_dup (regmatch_t * m, const char *src)
{
	char   *str;
	int     len;

	if (m == NULL || m->rm_so < 0)
		return NULL;
	len = m->rm_eo - m->rm_so;
	str = (char *) flex_alloc ((len + 1) * sizeof (char));
	if (!str)
		flexfatal(_("Unable to allocate a copy of the match"));
	strncpy (str, src + m->rm_so, len);
	str[len] = 0;
	return str;
}
示例#14
0
static void sko_push(bool dc)
{
    if(!sko_stack){
        sko_sz = 1;
        sko_stack = (struct sko_state*)flex_alloc(sizeof(struct sko_state)*sko_sz);
        if (!sko_stack)
            flexfatal(_("allocation of sko_stack failed"));
        sko_len = 0;
    }
    if(sko_len >= sko_sz){
        sko_sz *= 2;
        sko_stack = (struct sko_state*)flex_realloc(sko_stack,sizeof(struct sko_state)*sko_sz);
    }
    
    /* initialize to zero and push */
    sko_stack[sko_len].dc = dc;
    sko_len++;
}
示例#15
0
int addsym(char *sym, char *str_def, int int_def, hash_table table,
           int table_size)
	{
	int hash_val = hashfunct( sym, table_size );
	struct hash_entry *sym_entry = table[hash_val];
	struct hash_entry *new_entry;
	struct hash_entry *successor;

	while ( sym_entry )
		{
		if ( ! strcmp( sym, sym_entry->name ) )
			{ /* entry already exists */
			return -1;
			}

		sym_entry = sym_entry->next;
		}

	/* create new entry */
	new_entry = (struct hash_entry *)
		flex_alloc( sizeof( struct hash_entry ) );

	if ( new_entry == NULL )
		flexfatal( _( "symbol table memory allocation failed" ) );

	if ( (successor = table[hash_val]) != NULL )
		{
		new_entry->next = successor;
		successor->prev = new_entry;
		}
	else
		new_entry->next = NULL;

	new_entry->prev = NULL;
	new_entry->name = sym;
	new_entry->str_val = str_def;
	new_entry->int_val = int_def;

	table[hash_val] = new_entry;

	return 0;
	}
示例#16
0
/** Splits the chain in order to write to a header file.
 *  Similar in spirit to the 'tee' program.
 *  The header file name is in extra.
 *  @return 0 (zero) on success, and -1 on failure.
 */
int filter_tee_header (struct filter *chain)
{
	/* This function reads from stdin and writes to both the C file and the
	 * header file at the same time.
	 */

	const int readsz = 512;
	char   *buf;
	int     to_cfd = -1;
	FILE   *to_c = NULL, *to_h = NULL;
	bool    write_header;

	write_header = (chain->extra != NULL);

	/* Store a copy of the stdout pipe, which is already piped to C file
	 * through the running chain. Then create a new pipe to the H file as
	 * stdout, and fork the rest of the chain again.
	 */

	if ((to_cfd = dup (1)) == -1)
		flexfatal (_("dup(1) failed"));
	to_c = fdopen (to_cfd, "w");

	if (write_header) {
		if (freopen ((char *) chain->extra, "w", stdout) == NULL)
			flexfatal (_("freopen(headerfilename) failed"));

		filter_apply_chain (chain->next);
		to_h = stdout;
	}

	/* Now to_c is a pipe to the C branch, and to_h is a pipe to the H branch.
	 */

	if (write_header) {
        fputs (check_4_gnu_m4, to_h);
		fputs ("m4_changecom`'m4_dnl\n", to_h);
		fputs ("m4_changequote`'m4_dnl\n", to_h);
		fputs ("m4_changequote([[,]])[[]]m4_dnl\n", to_h);
	    fputs ("m4_define([[M4_YY_NOOP]])[[]]m4_dnl\n", to_h);
		fputs ("m4_define( [[M4_YY_IN_HEADER]],[[]])m4_dnl\n",
		       to_h);
		fprintf (to_h, "#ifndef %sHEADER_H\n", prefix);
		fprintf (to_h, "#define %sHEADER_H 1\n", prefix);
		fprintf (to_h, "#define %sIN_HEADER 1\n\n", prefix);
		fprintf (to_h,
			 "m4_define( [[M4_YY_OUTFILE_NAME]],[[%s]])m4_dnl\n",
			 headerfilename ? headerfilename : "<stdout>");

	}

    fputs (check_4_gnu_m4, to_c);
	fputs ("m4_changecom`'m4_dnl\n", to_c);
	fputs ("m4_changequote`'m4_dnl\n", to_c);
	fputs ("m4_changequote([[,]])[[]]m4_dnl\n", to_c);
	fputs ("m4_define([[M4_YY_NOOP]])[[]]m4_dnl\n", to_c);
	fprintf (to_c, "m4_define( [[M4_YY_OUTFILE_NAME]],[[%s]])m4_dnl\n",
		 outfilename ? outfilename : "<stdout>");

	buf = (char *) flex_alloc (readsz);
	if (!buf)
		flexerror (_("flex_alloc failed in filter_tee_header"));
	while (fgets (buf, readsz, stdin)) {
		fputs (buf, to_c);
		if (write_header)
			fputs (buf, to_h);
	}

	if (write_header) {
		fprintf (to_h, "\n");

		/* write a fake line number. It will get fixed by the linedir filter. */
		fprintf (to_h, "#line 4000 \"M4_YY_OUTFILE_NAME\"\n");

		fprintf (to_h, "#undef %sIN_HEADER\n", prefix);
		fprintf (to_h, "#endif /* %sHEADER_H */\n", prefix);
		fputs ("m4_undefine( [[M4_YY_IN_HEADER]])m4_dnl\n", to_h);

		fflush (to_h);
		if (ferror (to_h))
			lerr (_("error writing output file %s"),
				(char *) chain->extra);

		else if (fclose (to_h))
			lerr (_("error closing output file %s"),
				(char *) chain->extra);
	}

	fflush (to_c);
	if (ferror (to_c))
		lerr (_("error writing output file %s"),
			outfilename ? outfilename : "<stdout>");

	else if (fclose (to_c))
		lerr (_("error closing output file %s"),
			outfilename ? outfilename : "<stdout>");

	while (wait (0) > 0) ;

	exit (0);
	return 0;
}
示例#17
0
/** Adjust the line numbers in the #line directives of the generated scanner.
 * After the m4 expansion, the line numbers are incorrect since the m4 macros
 * can add or remove lines.  This only adjusts line numbers for generated code,
 * not user code. This also happens to be a good place to squeeze multiple
 * blank lines into a single blank line.
 */
int filter_fix_linedirs (struct filter *chain)
{
	char   *buf;
	const int readsz = 512;
	int     lineno = 1;
	bool    in_gen = true;	/* in generated code */
	bool    last_was_blank = false;

	if (!chain)
		return 0;

	buf = (char *) flex_alloc (readsz);
	if (!buf)
		flexerror (_("flex_alloc failed in filter_fix_linedirs"));

	while (fgets (buf, readsz, stdin)) {

		regmatch_t m[10];

		/* Check for #line directive. */
		if (buf[0] == '#'
			&& regexec (&regex_linedir, buf, 3, m, 0) == 0) {

			char   *fname;

			/* extract the line number and filename */
			fname = regmatch_dup (&m[2], buf);

			if (strcmp (fname,
				outfilename ? outfilename : "<stdout>")
					== 0
			 || strcmp (fname,
			 	headerfilename ? headerfilename : "<stdout>")
					== 0) {

				char    *s1, *s2;
				char	filename[MAXLINE];

				s1 = fname;
				s2 = filename;

				while ((s2 - filename) < (MAXLINE - 1) && *s1) {
					/* Escape the backslash */
					if (*s1 == '\\')
						*s2++ = '\\';
					/* Escape the double quote */
					if (*s1 == '\"')
						*s2++ = '\\';
					/* Copy the character as usual */
					*s2++ = *s1++;
				}

				*s2 = '\0';

				/* Adjust the line directives. */
				in_gen = true;
				snprintf (buf, readsz, "#line %d \"%s\"\n",
					  lineno + 1, filename);
			}
			else {
				/* it's a #line directive for code we didn't write */
				in_gen = false;
			}

			free (fname);
			last_was_blank = false;
		}

		/* squeeze blank lines from generated code */
		else if (in_gen
			 && regexec (&regex_blank_line, buf, 0, NULL,
				     0) == 0) {
			if (last_was_blank)
				continue;
			else
				last_was_blank = true;
		}

		else {
			/* it's a line of normal, non-empty code. */
			last_was_blank = false;
		}

		fputs (buf, stdout);
		lineno++;
	}
	fflush (stdout);
	if (ferror (stdout))
		lerr (_("error writing output file %s"),
			outfilename ? outfilename : "<stdout>");

	else if (fclose (stdout))
		lerr (_("error closing output file %s"),
			outfilename ? outfilename : "<stdout>");

	return 0;
}
示例#18
0
文件: bitmap.c 项目: dpt/PrivateEye
/* 1,3,5,7: hard rotation */
static int rotate_hard(image_t *image, int angle)
{
  osspriteop_area      *area;
  osspriteop_header    *header;
  osspriteop_area      *newarea;
  osspriteop_header    *newheader;
  int                   w,h;
  int                   neww,newh;
  size_t                sprimgbytes;
  size_t                sprrowbytes;
  int                   c0,c1,c2,c3;
  os_trfm               t;
  osspriteop_trans_tab *trans_tab;
  int                   log2bpp;
  int                   xeig,yeig;

  area   = (osspriteop_area *) image->image;
  header = sprite_select(area, 0);

  w = image->display.dims.bm.width;
  h = image->display.dims.bm.height;

  /* work out sprite area size */

  read_mode_vars(header->mode, &xeig, &yeig, &log2bpp);

  neww = (h << yeig) >> xeig;
  newh = (w << xeig) >> yeig;

  sprrowbytes = (((neww << log2bpp) + 31) & ~31) >> 3;
  sprimgbytes = sizeof(osspriteop_area) + sizeof(osspriteop_header);
  sprimgbytes += sprrowbytes * newh;

  /* alloc area */

  if (flex_alloc((flex_ptr) &newarea, sprimgbytes) == 0)
    goto NoMem;

  /* HEAP HAS MOVED! - update pointers */
  area   = (osspriteop_area *) image->image;
  header = sprite_select(area, 0);

  /* init area */

  newarea->size  = sprimgbytes;
  newarea->first = 16;
  osspriteop_clear_sprites(osspriteop_USER_AREA, newarea);

  /* create sprite */
  /* this should be identical to the original, save for dimensions */

  /* ### masks won't work yet */

  osspriteop_create_sprite(osspriteop_NAME,
                           newarea,
                           header->name,
                           0, /* no palette */ /* ### */
                           neww, newh,
                           header->mode);

  /* redirect to sprite */

  newheader = sprite_select(newarea, 0);

  osspriteop_switch_output_to_sprite(osspriteop_PTR,
                                     newarea,
                     (osspriteop_id) newheader,
                                     0,
                                     &c0, &c1, &c2, &c3);

  /* set up drawing stuff */

  if (sprite_colours((osspriteop_area **) &image->image, header, &trans_tab))
    goto NoMem;

  /* problem: we're switched to a sprite which _may_ have moved now
   * so as a work-around, unswitch output and update pointers, then switch
   * back */

  /* redirect back */

  osspriteop_unswitch_output(c0, c1, c2, c3);

  /* HEAP HAS MOVED! - update pointers */
  area   = (osspriteop_area *) image->image;
  header = sprite_select(area, 0);

  /* redirect to sprite */

  newheader = sprite_select(newarea, 0);

  osspriteop_switch_output_to_sprite(osspriteop_PTR,
                                     newarea,
                     (osspriteop_id) newheader,
                                     0,
                                     &c0, &c1, &c2, &c3);

  /* dimensions need to be in OS units now */

  w <<= xeig;
  h <<= yeig;

  neww <<= xeig; /* these might be the wrong way around */
  newh <<= yeig;

  /* set up our transform */

  trfm_set_identity(&t);

  /* flip horizontally */
  if (angle >= 4)
  {
    t.entries[0][0] = -t.entries[0][0];
    t.entries[2][0] += w;
  }

  trfm_translate(&t, -w / 2, -h / 2);

  trfm_rotate_degs(&t, (angle & 3) * 90 * 65536);

  trfm_translate(&t, neww / 2, newh / 2);

  t.entries[0][0] *= 256;
  t.entries[0][1] *= 256;
  t.entries[1][0] *= 256;
  t.entries[1][1] *= 256;
  t.entries[2][0] *= 256;
  t.entries[2][1] *= 256;

  /* draw */

  osspriteop_put_sprite_trfm(osspriteop_PTR,
                             area,
             (osspriteop_id) header,
                             0, /* trfm_flags */
                             NULL, /* source_rect */
                             osspriteop_USE_MASK, /* action */
                            &t,
                             trans_tab);

  /* redirect back */

  osspriteop_unswitch_output(c0, c1, c2, c3);

  if (trans_tab)
    flex_free((flex_ptr) &trans_tab);

  /* replace previous sprite */

  flex_free((flex_ptr) &image->image);

  image->display.dims.bm.width  = neww >> xeig; /* see note above */
  image->display.dims.bm.height = newh >> yeig;

  flex_reanchor((flex_ptr) &image->image, (flex_ptr) &newarea);
  image->display.file_size = sprimgbytes;

  return FALSE; /* success */


NoMem:

  oserror_report(0, "error.no.mem");
  return TRUE; /* failure */
}
示例#19
0
文件: filter.c 项目: bonzini/flex
/** Adjust the line numbers in the #line directives of the generated scanner.
 * After the m4 expansion, the line numbers are incorrect since the m4 macros
 * can add or remove lines.  This only adjusts line numbers for generated code,
 * not user code. This also happens to be a good place to squeeze multiple
 * blank lines into a single blank line.
 */
int filter_postprocess_output (struct filter *chain)
{
	char   *buf;
	const int readsz = 512;
	int     lineno = 1;
	bool    in_gen = true;	/* in generated code */
	bool    last_was_blank = true;

	if (!chain)
		return 0;

	buf = (char *) flex_alloc (readsz);

	while (fgets (buf, readsz, stdin)) {

        char *p, *q;
        int is_blank = true;

        if (strncmp (buf, "#line ", 6) == 0)
            in_gen = false;

        if (strncmp (buf, "@output(", 8) == 0) {
            char *filename = strdup (buf);
            FILE *prev_stdout;

            /* Remove "@)\n".  */
            filename[strlen (filename) - 3] = '\0';
		    prev_stdout = freopen (filename + 8, "w+", stdout);
		    if (prev_stdout == NULL)
			    lerrsf (_("could not create %s"), filename + 8);

            free (filename);
            lineno = 1;
    		outfile_created = 1;
            last_was_blank = true;
            continue;
        }

        for (p = q = buf; *p; ) {
            if (!isspace (*p))
                is_blank = false;

            if (*p == '@') {
                if (p[1] == '@')
                    *q++ = p[1], p += 2;
                else if (p[1] == '{')
                    *q++ = '[', p += 2;
                else if (p[1] == '}')
                    *q++ = ']', p += 2;
                else if (strncmp (p, "@oline@", 7) == 0)
                    in_gen = true, q += sprintf (q, "%d", lineno + 1), p += 7;
            } else
                *q++ = *p++;
        }

        *q = '\0';

		/* squeeze blank lines from generated code */
		if (in_gen && is_blank && last_was_blank)
			continue;

		last_was_blank = is_blank;
		fputs (buf, stdout);
		lineno++;
	}
	fflush (stdout);
	if (ferror (stdout))
		lerrsf (_("error writing output file %s"),
			outfilename ? outfilename : "<stdout>");

	else if (fclose (stdout))
		lerrsf (_("error closing output file %s"),
			outfilename ? outfilename : "<stdout>");

	return 0;
}