};
/* The instances of that struct. */
-struct regexp_cache searchbufs[REGEXP_CACHE_SIZE];
+static struct regexp_cache searchbufs[REGEXP_CACHE_SIZE];
/* The head of the linked list; points to the most recently used buffer. */
-struct regexp_cache *searchbuf_head;
+static struct regexp_cache *searchbuf_head;
/* Every call to re_match, etc., must pass &search_regs as the regs
char *translate, struct re_registers *regp, int posix,
Error_behavior errb)
{
- CONST char *val;
+ const char *val;
reg_syntax_t old;
cp->regexp = Qnil;
cp->posix = posix;
old = re_set_syntax (RE_SYNTAX_EMACS
| (posix ? 0 : RE_NO_POSIX_BACKTRACKING));
- val = (CONST char *)
+ val = (const char *)
re_compile_pattern ((char *) XSTRING_DATA (pattern),
XSTRING_LENGTH (pattern), &cp->buf);
re_set_syntax (old);
This does not clobber the match data. */
Bytecount
-fast_string_match (Lisp_Object regexp, CONST Bufbyte *nonreloc,
+fast_string_match (Lisp_Object regexp, const Bufbyte *nonreloc,
Lisp_Object reloc, Bytecount offset,
Bytecount length, int case_fold_search,
Error_behavior errb, int no_quit)
return scan_buffer (buf, '\n', from, 0, count, 0, 1);
}
+Bytind
+bi_find_next_emchar_in_string (Lisp_String* str, Emchar target, Bytind st,
+ EMACS_INT count)
+{
+ /* This function has been Mule-ized. */
+ Bytind lim = string_length (str) -1;
+ Bufbyte* s = string_data (str);
+
+ assert (count >= 0);
+
+#ifdef MULE
+ /* Due to the Mule representation of characters in a buffer,
+ we can simply search for characters in the range 0 - 127
+ directly. For other characters, we do it the "hard" way.
+ Note that this way works for all characters but the other
+ way is faster. */
+ if (target >= 0200)
+ {
+ while (st < lim && count > 0)
+ {
+ if (string_char (str, st) == target)
+ count--;
+ INC_CHARBYTIND (s, st);
+ }
+ }
+ else
+#endif
+ {
+ while (st < lim && count > 0)
+ {
+ Bufbyte *bufptr = (Bufbyte *) memchr (charptr_n_addr (s, st),
+ (int) target, lim - st);
+ if (bufptr)
+ {
+ count--;
+ st = (Bytind)(bufptr - s) + 1;
+ }
+ else
+ st = lim;
+ }
+ }
+ return st;
+}
+
/* Like find_next_newline, but returns position before the newline,
not after, and only search up to TO. This isn't just
find_next_newline (...)-1, because you might hit TO. */
unsigned char fastmap[0400];
int negate = 0;
REGISTER int i;
- struct Lisp_Char_Table *syntax_table =
- XCHAR_TABLE (buf->mirror_syntax_table);
+ Lisp_Char_Table *syntax_table = XCHAR_TABLE (buf->mirror_syntax_table);
Bufpos limit;
if (NILP (lim))
Charcount i, len;
EMACS_INT punct_count = 0, word_count = 0;
struct buffer *buf = decode_buffer (buffer, 0);
- struct Lisp_Char_Table *syntax_table =
- XCHAR_TABLE (buf->mirror_syntax_table);
+ Lisp_Char_Table *syntax_table = XCHAR_TABLE (buf->mirror_syntax_table);
CHECK_STRING (string);
len = XSTRING_CHAR_LENGTH (string);
Emchar c, prevc;
Charcount inslen;
struct buffer *buf;
- struct Lisp_Char_Table *syntax_table;
+ Lisp_Char_Table *syntax_table;
int mc_count;
Lisp_Object buffer;
int_dynarr *ul_action_dynarr = 0;
}
void
-vars_of_search (void)
+reinit_vars_of_search (void)
{
- REGISTER int i;
+ int i;
+
+ last_thing_searched = Qnil;
+ staticpro_nodump (&last_thing_searched);
for (i = 0; i < REGEXP_CACHE_SIZE; ++i)
{
searchbufs[i].buf.buffer = (unsigned char *) xmalloc (100);
searchbufs[i].buf.fastmap = searchbufs[i].fastmap;
searchbufs[i].regexp = Qnil;
- staticpro (&searchbufs[i].regexp);
+ staticpro_nodump (&searchbufs[i].regexp);
searchbufs[i].next = (i == REGEXP_CACHE_SIZE-1 ? 0 : &searchbufs[i+1]);
}
searchbuf_head = &searchbufs[0];
+}
- last_thing_searched = Qnil;
- staticpro (&last_thing_searched);
+void
+vars_of_search (void)
+{
+ reinit_vars_of_search ();
DEFVAR_LISP ("forward-word-regexp", &Vforward_word_regexp /*
*Regular expression to be used in `forward-word'.
projects / chise / xemacs-chise.git- / blobdiff