#endif
#include "mutt.h"
+#include "buffer.h"
+#include "handler.h"
+#include "enter.h"
+#include "ascii.h"
#include "mx.h"
#include "mapping.h"
#include "keymap.h"
#include "copy.h"
+#include "mime.h"
#include "lib/mem.h"
#include "lib/intl.h"
'L', M_ADDRESS, 0, eat_regexp}, {
'l', M_LIST, 0, NULL}, {
'm', M_MESSAGE, 0, eat_range}, {
+ 'M', M_MULTIPART, 0, NULL}, {
'n', M_SCORE, 0, eat_range}, {
'N', M_NEW, 0, NULL}, {
'O', M_OLD, 0, NULL}, {
'T', M_TAG, 0, NULL}, {
't', M_TO, 0, eat_regexp}, {
'U', M_UNREAD, 0, NULL}, {
+ 'u', M_SUBSCRIBED_LIST, 0, NULL}, {
'v', M_COLLAPSED, 0, NULL}, {
'V', M_CRYPT_VERIFIED, 0, NULL},
#ifdef USE_NNTP
snprintf (err->data, err->dsize, _("Error in expression: %s"), s->dptr);
return (-1);
}
- pat->rx = safe_malloc (sizeof (regex_t));
+ pat->rx = mem_malloc (sizeof (regex_t));
r =
REGCOMP (pat->rx, buf.data,
REG_NEWLINE | REG_NOSUB | mutt_which_case (buf.data));
- FREE (&buf.data);
+ mem_free (&buf.data);
if (r) {
regerror (r, pat->rx, err->data, err->dsize);
regfree (pat->rx);
- FREE (&pat->rx);
+ mem_free (&pat->rx);
return (-1);
}
return 0;
if (isdigit ((unsigned char) *pc)) {
/* mininum date specified */
if ((pc = getDate (pc, &min, err)) == NULL) {
- FREE (&buffer.data);
+ mem_free (&buffer.data);
return (-1);
}
haveMin = TRUE;
max.tm_mday = min.tm_mday;
if (!parse_date_range (pc, &min, &max, haveMin, &baseMin, err)) { /* bail out on any parsing error */
- FREE (&buffer.data);
+ mem_free (&buffer.data);
return (-1);
}
}
pat->min = mutt_mktime (&min, 1);
pat->max = mutt_mktime (&max, 1);
- FREE (&buffer.data);
+ mem_free (&buffer.data);
return 0;
}
if (tmp->rx) {
regfree (tmp->rx);
- FREE (&tmp->rx);
+ mem_free (&tmp->rx);
}
if (tmp->child)
mutt_pattern_free (&tmp->child);
- FREE (&tmp);
+ mem_free (&tmp);
}
}
/* compile the sub-expression */
buf = str_substrdup (ps.dptr + 1, p);
if ((tmp = mutt_pattern_comp (buf, flags, err)) == NULL) {
- FREE (&buf);
+ mem_free (&buf);
mutt_pattern_free (&curlist);
return NULL;
}
- FREE (&buf);
+ mem_free (&buf);
if (last)
last->next = tmp;
else
pat->alladdr, 2, h->env->to,
h->env->cc)));
case M_LIST:
+ return (pat->
+ not ^ (h->env
+ && mutt_is_list_cc (pat->alladdr, h->env->to,
+ h->env->cc)));
+ case M_SUBSCRIBED_LIST:
return (pat->
not ^ (h->env
&& mutt_is_list_recipient (pat->alladdr, h->env->to,
return (pat->not ^ (h->thread && h->thread->duplicate_thread));
case M_UNREFERENCED:
return (pat->not ^ (h->thread && !h->thread->child));
+ case M_MULTIPART:
+ return (pat->not ^ (h->content && h->content->type == TYPEMULTIPART));
case M_REALNAME:
/* realname filter:
* we have a match if
err.data = error;
err.dsize = sizeof (error);
if ((pat = mutt_pattern_comp (buf, M_FULL_MSG, &err)) == NULL) {
- FREE (&simple);
+ mem_free (&simple);
mutt_error ("%s", err.data);
return (-1);
}
mutt_clear_error ();
if (op == M_LIMIT) {
- FREE (&Context->pattern);
+ mem_free (&Context->pattern);
if (Context->limit_pattern)
mutt_pattern_free (&Context->limit_pattern);
if (!Context->vcount) {
Context->limit_pattern = mutt_pattern_comp (buf, M_FULL_MSG, &err);
}
}
- FREE (&simple);
+ mem_free (&simple);
mutt_pattern_free (&pat);
return 0;
}