fixing a changelog entry that was too long

[software/mutt-debian.git] / pattern.c

/*
 * Copyright (C) 1996-2000,2006-7 Michael R. Elkins <me@mutt.org>, and others
 * 
 *     This program is free software; you can redistribute it and/or modify
 *     it under the terms of the GNU General Public License as published by
 *     the Free Software Foundation; either version 2 of the License, or
 *     (at your option) any later version.
 * 
 *     This program is distributed in the hope that it will be useful,
 *     but WITHOUT ANY WARRANTY; without even the implied warranty of
 *     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *     GNU General Public License for more details.
 * 
 *     You should have received a copy of the GNU General Public License
 *     along with this program; if not, write to the Free Software
 *     Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
 */ 

#if HAVE_CONFIG_H
# include "config.h"
#endif

#include "mutt.h"
#include "mapping.h"
#include "keymap.h"
#include "mailbox.h"
#include "copy.h"

#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <sys/stat.h>
#include <unistd.h>
#include <stdarg.h>

#include "mutt_crypt.h"
#include "mutt_curses.h"
#include "group.h"

#ifdef USE_IMAP
#include "mx.h"
#include "imap/imap.h"
#endif

static int eat_regexp (pattern_t *pat, BUFFER *, BUFFER *);
static int eat_date (pattern_t *pat, BUFFER *, BUFFER *);
static int eat_range (pattern_t *pat, BUFFER *, BUFFER *);
static int patmatch (const pattern_t *pat, const char *buf);

static struct pattern_flags
{
  int tag;      /* character used to represent this op */
  int op;       /* operation to perform */
  int class;
  int (*eat_arg) (pattern_t *, BUFFER *, BUFFER *);
}
Flags[] =
{
  { 'A', M_ALL,                 0,              NULL },
  { 'b', M_BODY,                M_FULL_MSG,     eat_regexp },
  { 'B', M_WHOLE_MSG,           M_FULL_MSG,     eat_regexp },
  { 'c', M_CC,                  0,              eat_regexp },
  { 'C', M_RECIPIENT,           0,              eat_regexp },
  { 'd', M_DATE,                0,              eat_date },
  { 'D', M_DELETED,             0,              NULL },
  { 'e', M_SENDER,              0,              eat_regexp },
  { 'E', M_EXPIRED,             0,              NULL },
  { 'f', M_FROM,                0,              eat_regexp },
  { 'F', M_FLAG,                0,              NULL },
  { 'g', M_CRYPT_SIGN,          0,              NULL },
  { 'G', M_CRYPT_ENCRYPT,       0,              NULL },
  { 'h', M_HEADER,              M_FULL_MSG,     eat_regexp },
  { 'H', M_HORMEL,              0,              eat_regexp },
  { 'i', M_ID,                  0,              eat_regexp },
  { 'k', M_PGP_KEY,             0,              NULL },
  { 'l', M_LIST,                0,              NULL },
  { 'L', M_ADDRESS,             0,              eat_regexp },
  { 'm', M_MESSAGE,             0,              eat_range },
  { 'n', M_SCORE,               0,              eat_range },
  { 'N', M_NEW,                 0,              NULL },
  { 'O', M_OLD,                 0,              NULL },
  { 'p', M_PERSONAL_RECIP,      0,              NULL },
  { 'P', M_PERSONAL_FROM,       0,              NULL },
  { 'Q', M_REPLIED,             0,              NULL },
  { 'r', M_DATE_RECEIVED,       0,              eat_date },
  { 'R', M_READ,                0,              NULL },
  { 's', M_SUBJECT,             0,              eat_regexp },
  { 'S', M_SUPERSEDED,          0,              NULL },
  { 't', M_TO,                  0,              eat_regexp },
  { 'T', M_TAG,                 0,              NULL },
  { 'u', M_SUBSCRIBED_LIST,     0,              NULL },
  { 'U', M_UNREAD,              0,              NULL },
  { 'v', M_COLLAPSED,           0,              NULL },
  { 'V', M_CRYPT_VERIFIED,      0,              NULL },
  { 'x', M_REFERENCE,           0,              eat_regexp },
  { 'X', M_MIMEATTACH,          0,              eat_range },
  { 'y', M_XLABEL,              0,              eat_regexp },
  { 'z', M_SIZE,                0,              eat_range },
  { '=', M_DUPLICATED,          0,              NULL },
  { '$', M_UNREFERENCED,        0,              NULL },
  { 0,   0,                     0,              NULL }
};

static pattern_t *SearchPattern = NULL; /* current search pattern */
static char LastSearch[STRING] = { 0 }; /* last pattern searched for */
static char LastSearchExpn[LONG_STRING] = { 0 }; /* expanded version of
                                                    LastSearch */

#define M_MAXRANGE -1

/* constants for parse_date_range() */
#define M_PDR_NONE      0x0000
#define M_PDR_MINUS     0x0001
#define M_PDR_PLUS      0x0002
#define M_PDR_WINDOW    0x0004
#define M_PDR_ABSOLUTE  0x0008
#define M_PDR_DONE      0x0010
#define M_PDR_ERROR     0x0100
#define M_PDR_ERRORDONE (M_PDR_ERROR | M_PDR_DONE)


/* if no uppercase letters are given, do a case-insensitive search */
int mutt_which_case (const char *s)
{
  wchar_t w;
  mbstate_t mb;
  size_t l;
  
  memset (&mb, 0, sizeof (mb));
  
  for (; (l = mbrtowc (&w, s, MB_CUR_MAX, &mb)) != 0; s += l)
  {
    if (l == (size_t) -2)
      continue; /* shift sequences */
    if (l == (size_t) -1)
      return 0; /* error; assume case-sensitive */
    if (iswalpha ((wint_t) w) && iswupper ((wint_t) w))
      return 0; /* case-sensitive */
  }

  return REG_ICASE; /* case-insensitive */
}

static int
msg_search (CONTEXT *ctx, pattern_t* pat, int msgno)
{
  char tempfile[_POSIX_PATH_MAX];
  MESSAGE *msg = NULL;
  STATE s;
  struct stat st;
  FILE *fp = NULL;
  long lng = 0;
  int match = 0;
  HEADER *h = ctx->hdrs[msgno];
  char *buf;
  size_t blen;

  if ((msg = mx_open_message (ctx, msgno)) != NULL)
  {
    if (option (OPTTHOROUGHSRC))
    {
      /* decode the header / body */
      memset (&s, 0, sizeof (s));
      s.fpin = msg->fp;
      s.flags = M_CHARCONV;
      mutt_mktemp (tempfile, sizeof (tempfile));
      if ((s.fpout = safe_fopen (tempfile, "w+")) == NULL)
      {
        mutt_perror (tempfile);
        return (0);
      }

      if (pat->op != M_BODY)
        mutt_copy_header (msg->fp, h, s.fpout, CH_FROM | CH_DECODE, NULL);

      if (pat->op != M_HEADER)
      {
        mutt_parse_mime_message (ctx, h);

        if (WithCrypto && (h->security & ENCRYPT)
            && !crypt_valid_passphrase(h->security))
        {
          mx_close_message (&msg);
          if (s.fpout)
          {
            safe_fclose (&s.fpout);
            unlink (tempfile);
          }
          return (0);
        }

        fseeko (msg->fp, h->offset, 0);
        mutt_body_handler (h->content, &s);
      }

      fp = s.fpout;
      fflush (fp);
      fseek (fp, 0, 0);
      fstat (fileno (fp), &st);
      lng = (long) st.st_size;
    }
    else
    {
      /* raw header / body */
      fp = msg->fp;
      if (pat->op != M_BODY)
      {
        fseeko (fp, h->offset, 0);
        lng = h->content->offset - h->offset;
      }
      if (pat->op != M_HEADER)
      {
        if (pat->op == M_BODY)
          fseeko (fp, h->content->offset, 0);
        lng += h->content->length;
      }
    }

    blen = STRING;
    buf = safe_malloc (blen);

    /* search the file "fp" */
    while (lng > 0)
    {
      if (pat->op == M_HEADER)
      {
        if (*(buf = mutt_read_rfc822_line (fp, buf, &blen)) == '\0')
          break;
      }
      else if (fgets (buf, blen - 1, fp) == NULL)
        break; /* don't loop forever */
      if (patmatch (pat, buf) == 0)
      {
        match = 1;
        break;
      }
      lng -= mutt_strlen (buf);
    }

    FREE (&buf);
    
    mx_close_message (&msg);

    if (option (OPTTHOROUGHSRC))
    {
      safe_fclose (&fp);
      unlink (tempfile);
    }
  }

  return match;
}

static int eat_regexp (pattern_t *pat, BUFFER *s, BUFFER *err)
{
  BUFFER buf;
  char errmsg[STRING];
  int r;

  memset (&buf, 0, sizeof (buf));
  if (mutt_extract_token (&buf, s, M_TOKEN_PATTERN | M_TOKEN_COMMENT) != 0 ||
      !buf.data)
  {
    snprintf (err->data, err->dsize, _("Error in expression: %s"), s->dptr);
    return (-1);
  }
  if (!*buf.data)
  {
    snprintf (err->data, err->dsize, _("Empty expression"));
    return (-1);
  }

#if 0
  /* If there are no RE metacharacters, use simple search anyway */
  if (!pat->stringmatch && !strpbrk (buf.data, "|[{.*+?^$"))
    pat->stringmatch = 1;
#endif

  if (pat->stringmatch)
  {
    pat->p.str = safe_strdup (buf.data);
    pat->ign_case = mutt_which_case (buf.data) == REG_ICASE;
    FREE (&buf.data);
  }
  else if (pat->groupmatch)
  {
    pat->p.g = mutt_pattern_group (buf.data);
    FREE (&buf.data);
  }
  else
  {
    pat->p.rx = safe_malloc (sizeof (regex_t));
    r = REGCOMP (pat->p.rx, buf.data, REG_NEWLINE | REG_NOSUB | mutt_which_case (buf.data));
    if (r)
    {
      regerror (r, pat->p.rx, errmsg, sizeof (errmsg));
      mutt_buffer_printf (err, "'%s': %s", buf.data, errmsg);
      FREE (&buf.data);
      FREE (&pat->p.rx);
      return (-1);
    }
    FREE (&buf.data);
  }

  return 0;
}

int eat_range (pattern_t *pat, BUFFER *s, BUFFER *err)
{
  char *tmp;
  int do_exclusive = 0;
  int skip_quote = 0;
  
  /*
   * If simple_search is set to "~m %s", the range will have double quotes 
   * around it...
   */
  if (*s->dptr == '"')
  {
    s->dptr++;
    skip_quote = 1;
  }
  if (*s->dptr == '<')
    do_exclusive = 1;
  if ((*s->dptr != '-') && (*s->dptr != '<'))
  {
    /* range minimum */
    if (*s->dptr == '>')
    {
      pat->max = M_MAXRANGE;
      pat->min = strtol (s->dptr + 1, &tmp, 0) + 1; /* exclusive range */
    }
    else
      pat->min = strtol (s->dptr, &tmp, 0);
    if (toupper ((unsigned char) *tmp) == 'K') /* is there a prefix? */
    {
      pat->min *= 1024;
      tmp++;
    }
    else if (toupper ((unsigned char) *tmp) == 'M')
    {
      pat->min *= 1048576;
      tmp++;
    }
    if (*s->dptr == '>')
    {
      s->dptr = tmp;
      return 0;
    }
    if (*tmp != '-')
    {
      /* exact value */
      pat->max = pat->min;
      s->dptr = tmp;
      return 0;
    }
    tmp++;
  }
  else
  {
    s->dptr++;
    tmp = s->dptr;
  }
  
  if (isdigit ((unsigned char) *tmp))
  {
    /* range maximum */
    pat->max = strtol (tmp, &tmp, 0);
    if (toupper ((unsigned char) *tmp) == 'K')
    {
      pat->max *= 1024;
      tmp++;
    }
    else if (toupper ((unsigned char) *tmp) == 'M')
    {
      pat->max *= 1048576;
      tmp++;
    }
    if (do_exclusive)
      (pat->max)--;
  }
  else
    pat->max = M_MAXRANGE;

  if (skip_quote && *tmp == '"')
    tmp++;

  SKIPWS (tmp);
  s->dptr = tmp;
  return 0;
}

static const char *getDate (const char *s, struct tm *t, BUFFER *err)
{
  char *p;
  time_t now = time (NULL);
  struct tm *tm = localtime (&now);

  t->tm_mday = strtol (s, &p, 10);
  if (t->tm_mday < 1 || t->tm_mday > 31)
  {
    snprintf (err->data, err->dsize, _("Invalid day of month: %s"), s);
    return NULL;
  }
  if (*p != '/')
  {
    /* fill in today's month and year */
    t->tm_mon = tm->tm_mon;
    t->tm_year = tm->tm_year;
    return p;
  }
  p++;
  t->tm_mon = strtol (p, &p, 10) - 1;
  if (t->tm_mon < 0 || t->tm_mon > 11)
  {
    snprintf (err->data, err->dsize, _("Invalid month: %s"), p);
    return NULL;
  }
  if (*p != '/')
  {
    t->tm_year = tm->tm_year;
    return p;
  }
  p++;
  t->tm_year = strtol (p, &p, 10);
  if (t->tm_year < 70) /* year 2000+ */
    t->tm_year += 100;
  else if (t->tm_year > 1900)
    t->tm_year -= 1900;
  return p;
}

/* Ny   years
   Nm   months
   Nw   weeks
   Nd   days */
static const char *get_offset (struct tm *tm, const char *s, int sign)
{
  char *ps;
  int offset = strtol (s, &ps, 0);
  if ((sign < 0 && offset > 0) || (sign > 0 && offset < 0))
    offset = -offset;

  switch (*ps)
  {
    case 'y':
      tm->tm_year += offset;
      break;
    case 'm':
      tm->tm_mon += offset;
      break;
    case 'w':
      tm->tm_mday += 7 * offset;
      break;
    case 'd':
      tm->tm_mday += offset;
      break;
    default:
      return s;
  }
  mutt_normalize_time (tm);
  return (ps + 1);
}

static void adjust_date_range (struct tm *min, struct tm *max)
{
  if (min->tm_year > max->tm_year
      || (min->tm_year == max->tm_year && min->tm_mon > max->tm_mon)
      || (min->tm_year == max->tm_year && min->tm_mon == max->tm_mon
        && min->tm_mday > max->tm_mday))
  {
    int tmp;
    
    tmp = min->tm_year;
    min->tm_year = max->tm_year;
    max->tm_year = tmp;
      
    tmp = min->tm_mon;
    min->tm_mon = max->tm_mon;
    max->tm_mon = tmp;
      
    tmp = min->tm_mday;
    min->tm_mday = max->tm_mday;
    max->tm_mday = tmp;
    
    min->tm_hour = min->tm_min = min->tm_sec = 0;
    max->tm_hour = 23;
    max->tm_min = max->tm_sec = 59;
  }
}

static const char * parse_date_range (const char* pc, struct tm *min,
    struct tm *max, int haveMin, struct tm *baseMin, BUFFER *err)
{
  int flag = M_PDR_NONE;        
  while (*pc && ((flag & M_PDR_DONE) == 0))
  {
    const char *pt;
    char ch = *pc++;
    SKIPWS (pc);
    switch (ch)
    {
      case '-':
      {
        /* try a range of absolute date minus offset of Ndwmy */
        pt = get_offset (min, pc, -1);
        if (pc == pt)
        {
          if (flag == M_PDR_NONE)
          { /* nothing yet and no offset parsed => absolute date? */
            if (!getDate (pc, max, err))
              flag |= (M_PDR_ABSOLUTE | M_PDR_ERRORDONE);  /* done bad */
            else
            {
              /* reestablish initial base minimum if not specified */
              if (!haveMin)
                memcpy (min, baseMin, sizeof(struct tm));
              flag |= (M_PDR_ABSOLUTE | M_PDR_DONE);  /* done good */
            }
          }
          else
            flag |= M_PDR_ERRORDONE;
        }
        else
        {
          pc = pt;
          if (flag == M_PDR_NONE && !haveMin)
          { /* the very first "-3d" without a previous absolute date */
            max->tm_year = min->tm_year;
            max->tm_mon = min->tm_mon;
            max->tm_mday = min->tm_mday;
          }
          flag |= M_PDR_MINUS;
        }
      }
      break;
      case '+':
      { /* enlarge plusRange */
        pt = get_offset (max, pc, 1);
        if (pc == pt)
          flag |= M_PDR_ERRORDONE;
        else
        {
          pc = pt;
          flag |= M_PDR_PLUS;
        }
      }
      break;
      case '*':
      { /* enlarge window in both directions */
        pt = get_offset (min, pc, -1);
        if (pc == pt)
          flag |= M_PDR_ERRORDONE;
        else
        {
          pc = get_offset (max, pc, 1);
          flag |= M_PDR_WINDOW;
        }
      }
      break;
      default:
        flag |= M_PDR_ERRORDONE;
    }
    SKIPWS (pc);
  }
  if ((flag & M_PDR_ERROR) && !(flag & M_PDR_ABSOLUTE))
  { /* getDate has its own error message, don't overwrite it here */
    snprintf (err->data, err->dsize, _("Invalid relative date: %s"), pc-1);
  }
  return ((flag & M_PDR_ERROR) ? NULL : pc);
}

static int eat_date (pattern_t *pat, BUFFER *s, BUFFER *err)
{
  BUFFER buffer;
  struct tm min, max;

  memset (&buffer, 0, sizeof (buffer));
  if (mutt_extract_token (&buffer, s, M_TOKEN_COMMENT | M_TOKEN_PATTERN) != 0
      || !buffer.data)
  {
    strfcpy (err->data, _("error in expression"), err->dsize);
    return (-1);
  }

  memset (&min, 0, sizeof (min));
  /* the `0' time is Jan 1, 1970 UTC, so in order to prevent a negative time
     when doing timezone conversion, we use Jan 2, 1970 UTC as the base
     here */
  min.tm_mday = 2;
  min.tm_year = 70;

  memset (&max, 0, sizeof (max));

  /* Arbitrary year in the future.  Don't set this too high
     or mutt_mktime() returns something larger than will
     fit in a time_t on some systems */
  max.tm_year = 130;
  max.tm_mon = 11;
  max.tm_mday = 31;
  max.tm_hour = 23;
  max.tm_min = 59;
  max.tm_sec = 59;

  if (strchr ("<>=", buffer.data[0]))
  {
    /* offset from current time
       <3d      less than three days ago
       >3d      more than three days ago
       =3d      exactly three days ago */
    time_t now = time (NULL);
    struct tm *tm = localtime (&now);
    int exact = 0;

    if (buffer.data[0] == '<')
    {
      memcpy (&min, tm, sizeof (min));
      tm = &min;
    }
    else
    {
      memcpy (&max, tm, sizeof (max));
      tm = &max;

      if (buffer.data[0] == '=')
        exact++;
    }
    tm->tm_hour = 23;
    tm->tm_min = tm->tm_sec = 59;

    /* force negative offset */
    get_offset (tm, buffer.data + 1, -1);

    if (exact)
    {
      /* start at the beginning of the day in question */
      memcpy (&min, &max, sizeof (max));
      min.tm_hour = min.tm_sec = min.tm_min = 0;
    }
  }
  else
  {
    const char *pc = buffer.data;

    int haveMin = FALSE;
    int untilNow = FALSE;
    if (isdigit ((unsigned char)*pc))
    {
      /* mininum date specified */
      if ((pc = getDate (pc, &min, err)) == NULL)
      {
        FREE (&buffer.data);
        return (-1);
      }
      haveMin = TRUE;
      SKIPWS (pc);
      if (*pc == '-')
      {
        const char *pt = pc + 1;
        SKIPWS (pt);
        untilNow = (*pt == '\0');
      }
    }

    if (!untilNow)
    { /* max date or relative range/window */

      struct tm baseMin;

      if (!haveMin)
      { /* save base minimum and set current date, e.g. for "-3d+1d" */
        time_t now = time (NULL);
        struct tm *tm = localtime (&now);
        memcpy (&baseMin, &min, sizeof(baseMin));
        memcpy (&min, tm, sizeof (min));
        min.tm_hour = min.tm_sec = min.tm_min = 0;
      }
      
      /* preset max date for relative offsets,
         if nothing follows we search for messages on a specific day */
      max.tm_year = min.tm_year;
      max.tm_mon = min.tm_mon;
      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);
        return (-1);
      }
    }
  }

  /* Since we allow two dates to be specified we'll have to adjust that. */
  adjust_date_range (&min, &max);

  pat->min = mutt_mktime (&min, 1);
  pat->max = mutt_mktime (&max, 1);

  FREE (&buffer.data);

  return 0;
}

static int patmatch (const pattern_t* pat, const char* buf)
{
  if (pat->stringmatch)
    return pat->ign_case ? !strcasestr (buf, pat->p.str) :
                           !strstr (buf, pat->p.str);
  else if (pat->groupmatch)
    return !mutt_group_match (pat->p.g, buf);
  else
    return regexec (pat->p.rx, buf, 0, NULL, 0);
}

static struct pattern_flags *lookup_tag (char tag)
{
  int i;

  for (i = 0; Flags[i].tag; i++)
    if (Flags[i].tag == tag)
      return (&Flags[i]);
  return NULL;
}

static /* const */ char *find_matching_paren (/* const */ char *s)
{
  int level = 1;

  for (; *s; s++)
  {
    if (*s == '(')
      level++;
    else if (*s == ')')
    {
      level--;
      if (!level)
        break;
    }
  }
  return s;
}

void mutt_pattern_free (pattern_t **pat)
{
  pattern_t *tmp;

  while (*pat)
  {
    tmp = *pat;
    *pat = (*pat)->next;

    if (tmp->stringmatch)
      FREE (&tmp->p.str);
    else if (tmp->groupmatch)
      tmp->p.g = NULL;
    else if (tmp->p.rx)
    {
      regfree (tmp->p.rx);
      FREE (&tmp->p.rx);
    }

    if (tmp->child)
      mutt_pattern_free (&tmp->child);
    FREE (&tmp);
  }
}

pattern_t *mutt_pattern_comp (/* const */ char *s, int flags, BUFFER *err)
{
  pattern_t *curlist = NULL;
  pattern_t *tmp, *tmp2;
  pattern_t *last = NULL;
  int not = 0;
  int alladdr = 0;
  int or = 0;
  int implicit = 1;     /* used to detect logical AND operator */
  struct pattern_flags *entry;
  char *p;
  char *buf;
  BUFFER ps;

  memset (&ps, 0, sizeof (ps));
  ps.dptr = s;
  ps.dsize = mutt_strlen (s);

  while (*ps.dptr)
  {
    SKIPWS (ps.dptr);
    switch (*ps.dptr)
    {
      case '^':
        ps.dptr++;
        alladdr = !alladdr;
        break;
      case '!':
        ps.dptr++;
        not = !not;
        break;
      case '|':
        if (!or)
        {
          if (!curlist)
          {
            snprintf (err->data, err->dsize, _("error in pattern at: %s"), ps.dptr);
            return NULL;
          }
          if (curlist->next)
          {
            /* A & B | C == (A & B) | C */
            tmp = new_pattern ();
            tmp->op = M_AND;
            tmp->child = curlist;

            curlist = tmp;
            last = curlist;
          }

          or = 1;
        }
        ps.dptr++;
        implicit = 0;
        not = 0;
        alladdr = 0;
        break;
      case '%':
      case '=':
      case '~':
        if (!*(ps.dptr + 1))
        {
          snprintf (err->data, err->dsize, _("missing pattern: %s"), ps.dptr);
          mutt_pattern_free (&curlist);
          return NULL;
        }
        if (*(ps.dptr + 1) == '(')
        {
          ps.dptr ++; /* skip ~ */
          p = find_matching_paren (ps.dptr + 1);
          if (*p != ')')
          {
            snprintf (err->data, err->dsize, _("mismatched brackets: %s"), ps.dptr);
            mutt_pattern_free (&curlist);
            return NULL;
          }
          tmp = new_pattern ();
          tmp->op = M_THREAD;
          if (last)
            last->next = tmp;
          else
            curlist = tmp;
          last = tmp;
          tmp->not ^= not;
          tmp->alladdr |= alladdr;
          not = 0;
          alladdr = 0;
          /* compile the sub-expression */
          buf = mutt_substrdup (ps.dptr + 1, p);
          if ((tmp2 = mutt_pattern_comp (buf, flags, err)) == NULL)
          {
            FREE (&buf);
            mutt_pattern_free (&curlist);
            return NULL;
          }
          FREE (&buf);
          tmp->child = tmp2;
          ps.dptr = p + 1; /* restore location */
          break;
        }
        if (implicit && or)
        {
          /* A | B & C == (A | B) & C */
          tmp = new_pattern ();
          tmp->op = M_OR;
          tmp->child = curlist;
          curlist = tmp;
          last = tmp;
          or = 0;
        }

        tmp = new_pattern ();
        tmp->not = not;
        tmp->alladdr = alladdr;
        tmp->stringmatch = (*ps.dptr == '=') ? 1 : 0;
        tmp->groupmatch  = (*ps.dptr == '%') ? 1 : 0;
        not = 0;
        alladdr = 0;

        if (last)
          last->next = tmp;
        else
          curlist = tmp;
        last = tmp;

        ps.dptr++; /* move past the ~ */
        if ((entry = lookup_tag (*ps.dptr)) == NULL)
        {
          snprintf (err->data, err->dsize, _("%c: invalid pattern modifier"), *ps.dptr);
          mutt_pattern_free (&curlist);
          return NULL;
        }
        if (entry->class && (flags & entry->class) == 0)
        {
          snprintf (err->data, err->dsize, _("%c: not supported in this mode"), *ps.dptr);
          mutt_pattern_free (&curlist);
          return NULL;
        }
        tmp->op = entry->op;

        ps.dptr++; /* eat the operator and any optional whitespace */
        SKIPWS (ps.dptr);

        if (entry->eat_arg)
        {
          if (!*ps.dptr)
          {
            snprintf (err->data, err->dsize, _("missing parameter"));
            mutt_pattern_free (&curlist);
            return NULL;
          }
          if (entry->eat_arg (tmp, &ps, err) == -1)
          {
            mutt_pattern_free (&curlist);
            return NULL;
          }
        }
        implicit = 1;
        break;
      case '(':
        p = find_matching_paren (ps.dptr + 1);
        if (*p != ')')
        {
          snprintf (err->data, err->dsize, _("mismatched parenthesis: %s"), ps.dptr);
          mutt_pattern_free (&curlist);
          return NULL;
        }
        /* compile the sub-expression */
        buf = mutt_substrdup (ps.dptr + 1, p);
        if ((tmp = mutt_pattern_comp (buf, flags, err)) == NULL)
        {
          FREE (&buf);
          mutt_pattern_free (&curlist);
          return NULL;
        }
        FREE (&buf);
        if (last)
          last->next = tmp;
        else
          curlist = tmp;
        last = tmp;
        tmp->not ^= not;
        tmp->alladdr |= alladdr;
        not = 0;
        alladdr = 0;
        ps.dptr = p + 1; /* restore location */
        break;
      default:
        snprintf (err->data, err->dsize, _("error in pattern at: %s"), ps.dptr);
        mutt_pattern_free (&curlist);
        return NULL;
    }
  }
  if (!curlist)
  {
    strfcpy (err->data, _("empty pattern"), err->dsize);
    return NULL;
  }
  if (curlist->next)
  {
    tmp = new_pattern ();
    tmp->op = or ? M_OR : M_AND;
    tmp->child = curlist;
    curlist = tmp;
  }
  return (curlist);
}

static int
perform_and (pattern_t *pat, pattern_exec_flag flags, CONTEXT *ctx, HEADER *hdr)
{
  for (; pat; pat = pat->next)
    if (mutt_pattern_exec (pat, flags, ctx, hdr) <= 0)
      return 0;
  return 1;
}

static int
perform_or (struct pattern_t *pat, pattern_exec_flag flags, CONTEXT *ctx, HEADER *hdr)
{
  for (; pat; pat = pat->next)
    if (mutt_pattern_exec (pat, flags, ctx, hdr) > 0)
      return 1;
  return 0;
}

static int match_adrlist (pattern_t *pat, int match_personal, int n, ...)
{
  va_list ap;
  ADDRESS *a;

  va_start (ap, n);
  for ( ; n ; n --)
  {
    for (a = va_arg (ap, ADDRESS *) ; a ; a = a->next)
    {
      if (pat->alladdr ^ ((a->mailbox && patmatch (pat, a->mailbox) == 0) ||
           (match_personal && a->personal && patmatch (pat, a->personal) == 0)))
      {
        va_end (ap);
        return (! pat->alladdr); /* Found match, or non-match if alladdr */
      }
    }
  }
  va_end (ap);
  return pat->alladdr; /* No matches, or all matches if alladdr */
}

static int match_reference (pattern_t *pat, LIST *refs)
{
  for (; refs; refs = refs->next)
    if (patmatch (pat, refs->data) == 0)
      return 1;
  return 0;
}

/*
 * Matches subscribed mailing lists
 */
int mutt_is_list_recipient (int alladdr, ADDRESS *a1, ADDRESS *a2)
{
  for (; a1 ; a1 = a1->next)
    if (alladdr ^ mutt_is_subscribed_list (a1))
      return (! alladdr);
  for (; a2 ; a2 = a2->next)
    if (alladdr ^ mutt_is_subscribed_list (a2))
      return (! alladdr);
  return alladdr;
}

/*
 * Matches known mailing lists
 * The function name may seem a little bit misleading: It checks all
 * recipients in To and Cc for known mailing lists, subscribed or not.
 */
int mutt_is_list_cc (int alladdr, ADDRESS *a1, ADDRESS *a2)
{
  for (; a1 ; a1 = a1->next)
    if (alladdr ^ mutt_is_mail_list (a1))
      return (! alladdr);
  for (; a2 ; a2 = a2->next)
    if (alladdr ^ mutt_is_mail_list (a2))
      return (! alladdr);
  return alladdr;
}

static int match_user (int alladdr, ADDRESS *a1, ADDRESS *a2)
{
  for (; a1 ; a1 = a1->next)
    if (alladdr ^ mutt_addr_is_user (a1))
      return (! alladdr);
  for (; a2 ; a2 = a2->next)
    if (alladdr ^ mutt_addr_is_user (a2))
      return (! alladdr);
  return alladdr;
}

static int match_threadcomplete(struct pattern_t *pat, pattern_exec_flag flags, CONTEXT *ctx, THREAD *t,int left,int up,int right,int down)
{
  int a;
  HEADER *h;

  if(!t)
    return 0;
  h = t->message;
  if(h)
    if(mutt_pattern_exec(pat, flags, ctx, h))
      return 1;

  if(up && (a=match_threadcomplete(pat, flags, ctx, t->parent,1,1,1,0)))
    return a;
  if(right && t->parent && (a=match_threadcomplete(pat, flags, ctx, t->next,0,0,1,1)))
    return a;
  if(left && t->parent && (a=match_threadcomplete(pat, flags, ctx, t->prev,1,0,0,1)))
    return a;
  if(down && (a=match_threadcomplete(pat, flags, ctx, t->child,1,0,1,1)))
    return a;
  return 0;
}

/* flags
        M_MATCH_FULL_ADDRESS    match both personal and machine address */
int
mutt_pattern_exec (struct pattern_t *pat, pattern_exec_flag flags, CONTEXT *ctx, HEADER *h)
{
  switch (pat->op)
  {
    case M_AND:
      return (pat->not ^ (perform_and (pat->child, flags, ctx, h) > 0));
    case M_OR:
      return (pat->not ^ (perform_or (pat->child, flags, ctx, h) > 0));
    case M_THREAD:
      return (pat->not ^ match_threadcomplete(pat->child, flags, ctx, h->thread, 1, 1, 1, 1));
    case M_ALL:
      return (!pat->not);
    case M_EXPIRED:
      return (pat->not ^ h->expired);
    case M_SUPERSEDED:
      return (pat->not ^ h->superseded);
    case M_FLAG:
      return (pat->not ^ h->flagged);
    case M_TAG:
      return (pat->not ^ h->tagged);
    case M_NEW:
      return (pat->not ? h->old || h->read : !(h->old || h->read));
    case M_UNREAD:
      return (pat->not ? h->read : !h->read);
    case M_REPLIED:
      return (pat->not ^ h->replied);
    case M_OLD:
      return (pat->not ? (!h->old || h->read) : (h->old && !h->read));
    case M_READ:
      return (pat->not ^ h->read);
    case M_DELETED:
      return (pat->not ^ h->deleted);
    case M_MESSAGE:
      return (pat->not ^ (h->msgno >= pat->min - 1 && (pat->max == M_MAXRANGE ||
                                                   h->msgno <= pat->max - 1)));
    case M_DATE:
      return (pat->not ^ (h->date_sent >= pat->min && h->date_sent <= pat->max));
    case M_DATE_RECEIVED:
      return (pat->not ^ (h->received >= pat->min && h->received <= pat->max));
    case M_BODY:
    case M_HEADER:
    case M_WHOLE_MSG:
      /*
       * ctx can be NULL in certain cases, such as when replying to a message from the attachment menu and
       * the user has a reply-hook using "~h" (bug #2190).
       */
      if (!ctx)
              return 0;
#ifdef USE_IMAP
      /* IMAP search sets h->matched at search compile time */
      if (ctx->magic == M_IMAP && pat->stringmatch)
        return (h->matched);
#endif
      return (pat->not ^ msg_search (ctx, pat, h->msgno));
    case M_SENDER:
      return (pat->not ^ match_adrlist (pat, flags & M_MATCH_FULL_ADDRESS, 1,
                                        h->env->sender));
    case M_FROM:
      return (pat->not ^ match_adrlist (pat, flags & M_MATCH_FULL_ADDRESS, 1,
                                        h->env->from));
    case M_TO:
      return (pat->not ^ match_adrlist (pat, flags & M_MATCH_FULL_ADDRESS, 1,
                                        h->env->to));
    case M_CC:
      return (pat->not ^ match_adrlist (pat, flags & M_MATCH_FULL_ADDRESS, 1,
                                        h->env->cc));
    case M_SUBJECT:
      return (pat->not ^ (h->env->subject && patmatch (pat, h->env->subject) == 0));
    case M_ID:
      return (pat->not ^ (h->env->message_id && patmatch (pat, h->env->message_id) == 0));
    case M_SCORE:
      return (pat->not ^ (h->score >= pat->min && (pat->max == M_MAXRANGE ||
                                                   h->score <= pat->max)));
    case M_SIZE:
      return (pat->not ^ (h->content->length >= pat->min && (pat->max == M_MAXRANGE || h->content->length <= pat->max)));
    case M_REFERENCE:
      return (pat->not ^ (match_reference (pat, h->env->references) ||
                          match_reference (pat, h->env->in_reply_to)));
    case M_ADDRESS:
      return (pat->not ^ match_adrlist (pat, flags & M_MATCH_FULL_ADDRESS, 4,
                                        h->env->from, h->env->sender,
                                        h->env->to, h->env->cc));
    case M_RECIPIENT:
           return (pat->not ^ match_adrlist (pat, flags & M_MATCH_FULL_ADDRESS,
                                             2, h->env->to, h->env->cc));
    case M_LIST:        /* known list, subscribed or not */
      return (pat->not ^ mutt_is_list_cc (pat->alladdr, h->env->to, h->env->cc));
    case M_SUBSCRIBED_LIST:
      return (pat->not ^ mutt_is_list_recipient (pat->alladdr, h->env->to, h->env->cc));
    case M_PERSONAL_RECIP:
      return (pat->not ^ match_user (pat->alladdr, h->env->to, h->env->cc));
    case M_PERSONAL_FROM:
      return (pat->not ^ match_user (pat->alladdr, h->env->from, NULL));
    case M_COLLAPSED:
      return (pat->not ^ (h->collapsed && h->num_hidden > 1));
   case M_CRYPT_SIGN:
     if (!WithCrypto)
       break;
     return (pat->not ^ ((h->security & SIGN) ? 1 : 0));
   case M_CRYPT_VERIFIED:
     if (!WithCrypto)
       break;
     return (pat->not ^ ((h->security & GOODSIGN) ? 1 : 0));
   case M_CRYPT_ENCRYPT:
     if (!WithCrypto)
       break;
     return (pat->not ^ ((h->security & ENCRYPT) ? 1 : 0));
   case M_PGP_KEY:
     if (!(WithCrypto & APPLICATION_PGP))
       break;
     return (pat->not ^ ((h->security & APPLICATION_PGP) && (h->security & PGPKEY)));
    case M_XLABEL:
      return (pat->not ^ (h->env->x_label && patmatch (pat, h->env->x_label) == 0));
    case M_HORMEL:
      return (pat->not ^ (h->env->spam && h->env->spam->data && patmatch (pat, h->env->spam->data) == 0));
    case M_DUPLICATED:
      return (pat->not ^ (h->thread && h->thread->duplicate_thread));
    case M_MIMEATTACH:
      {
      int count = mutt_count_body_parts (ctx, h);
      return (pat->not ^ (count >= pat->min && (pat->max == M_MAXRANGE ||
                                                count <= pat->max)));
      }
    case M_UNREFERENCED:
      return (pat->not ^ (h->thread && !h->thread->child));
  }
  mutt_error (_("error: unknown op %d (report this error)."), pat->op);
  return (-1);
}

static void quote_simple(char *tmp, size_t len, const char *p)
{
  int i = 0;
  
  tmp[i++] = '"';
  while (*p && i < len - 3)
  {
    if (*p == '\\' || *p == '"')
      tmp[i++] = '\\';
    tmp[i++] = *p++;
  }
  tmp[i++] = '"';
  tmp[i] = 0;
}
  
/* convert a simple search into a real request */
void mutt_check_simple (char *s, size_t len, const char *simple)
{
  char tmp[LONG_STRING];
  int do_simple = 1;
  char *p;

  for (p = s; p && *p; p++)
  {
    if (*p == '\\' && *(p + 1))
      p++;
    else if (*p == '~' || *p == '=' || *p == '%')
    {
      do_simple = 0;
      break;
    }
  }

  /* XXX - is ascii_strcasecmp() right here, or should we use locale's
   * equivalences?
   */

  if (do_simple) /* yup, so spoof a real request */
  {
    /* convert old tokens into the new format */
    if (ascii_strcasecmp ("all", s) == 0 ||
        !mutt_strcmp ("^", s) || !mutt_strcmp (".", s)) /* ~A is more efficient */
      strfcpy (s, "~A", len);
    else if (ascii_strcasecmp ("del", s) == 0)
      strfcpy (s, "~D", len);
    else if (ascii_strcasecmp ("flag", s) == 0)
      strfcpy (s, "~F", len);
    else if (ascii_strcasecmp ("new", s) == 0)
      strfcpy (s, "~N", len);
    else if (ascii_strcasecmp ("old", s) == 0)
      strfcpy (s, "~O", len);
    else if (ascii_strcasecmp ("repl", s) == 0)
      strfcpy (s, "~Q", len);
    else if (ascii_strcasecmp ("read", s) == 0)
      strfcpy (s, "~R", len);
    else if (ascii_strcasecmp ("tag", s) == 0)
      strfcpy (s, "~T", len);
    else if (ascii_strcasecmp ("unread", s) == 0)
      strfcpy (s, "~U", len);
    else
    {
      quote_simple (tmp, sizeof(tmp), s);
      mutt_expand_fmt (s, len, simple, tmp);
    }
  }
}

int mutt_pattern_func (int op, char *prompt)
{
  pattern_t *pat;
  char buf[LONG_STRING] = "", *simple, error[STRING];
  BUFFER err;
  int i;
  progress_t progress;

  strfcpy (buf, NONULL (Context->pattern), sizeof (buf));
  if (mutt_get_field (prompt, buf, sizeof (buf), M_PATTERN | M_CLEAR) != 0 || !buf[0])
    return (-1);

  mutt_message _("Compiling search pattern...");
  
  simple = safe_strdup (buf);
  mutt_check_simple (buf, sizeof (buf), NONULL (SimpleSearch));

  memset (&err, 0, sizeof(err));
  err.data = error;
  err.dsize = sizeof (error);
  if ((pat = mutt_pattern_comp (buf, M_FULL_MSG, &err)) == NULL)
  {
    FREE (&simple);
    mutt_error ("%s", err.data);
    return (-1);
  }

#ifdef USE_IMAP
  if (Context->magic == M_IMAP && imap_search (Context, pat) < 0)
    return -1;
#endif

  mutt_progress_init (&progress, _("Executing command on matching messages..."),
                      M_PROGRESS_MSG, ReadInc,
                      (op == M_LIMIT) ? Context->msgcount : Context->vcount);

#define THIS_BODY Context->hdrs[i]->content

  if (op == M_LIMIT)
  {
    Context->vcount    = 0;
    Context->vsize     = 0;
    Context->collapsed = 0;

    for (i = 0; i < Context->msgcount; i++)
    {
      mutt_progress_update (&progress, i, -1);
      /* new limit pattern implicitly uncollapses all threads */
      Context->hdrs[i]->virtual = -1;
      Context->hdrs[i]->limited = 0;
      Context->hdrs[i]->collapsed = 0;
      Context->hdrs[i]->num_hidden = 0;
      if (mutt_pattern_exec (pat, M_MATCH_FULL_ADDRESS, Context, Context->hdrs[i]))
      {
        Context->hdrs[i]->virtual = Context->vcount;
        Context->hdrs[i]->limited = 1;
        Context->v2r[Context->vcount] = i;
        Context->vcount++;
        Context->vsize+=THIS_BODY->length + THIS_BODY->offset -
          THIS_BODY->hdr_offset;
      }
    }
  }
  else
  {
    for (i = 0; i < Context->vcount; i++)
    {
      mutt_progress_update (&progress, i, -1);
      if (mutt_pattern_exec (pat, M_MATCH_FULL_ADDRESS, Context, Context->hdrs[Context->v2r[i]]))
      {
        switch (op)
        {
          case M_DELETE:
          case M_UNDELETE:
            mutt_set_flag (Context, Context->hdrs[Context->v2r[i]], M_DELETE, 
                          (op == M_DELETE));
            break;
          case M_TAG:
          case M_UNTAG:
            mutt_set_flag (Context, Context->hdrs[Context->v2r[i]], M_TAG, 
                           (op == M_TAG));
            break;
        }
      }
    }
  }

#undef THIS_BODY

  mutt_clear_error ();

  if (op == M_LIMIT)
  {
    /* drop previous limit pattern */
    FREE (&Context->pattern);
    if (Context->limit_pattern)
      mutt_pattern_free (&Context->limit_pattern);

    if (Context->msgcount && !Context->vcount)
      mutt_error _("No messages matched criteria.");

    /* record new limit pattern, unless match all */
    if (mutt_strcmp (buf, "~A") != 0)
    {
      Context->pattern = simple;
      simple = NULL; /* don't clobber it */
      Context->limit_pattern = mutt_pattern_comp (buf, M_FULL_MSG, &err);
    }
  }
  FREE (&simple);
  mutt_pattern_free (&pat);
  return 0;
}

int mutt_search_command (int cur, int op)
{
  int i, j;
  char buf[STRING];
  char temp[LONG_STRING];
  char error[STRING];
  int incr;
  HEADER *h;
  progress_t progress;
  const char* msg = NULL;

  if (!*LastSearch || (op != OP_SEARCH_NEXT && op != OP_SEARCH_OPPOSITE))
  {
    strfcpy (buf, *LastSearch ? LastSearch : "", sizeof (buf));
    if (mutt_get_field ((op == OP_SEARCH || op == OP_SEARCH_NEXT) ?
                        _("Search for: ") : _("Reverse search for: "),
                        buf, sizeof (buf),
                      M_CLEAR | M_PATTERN) != 0 || !buf[0])
      return (-1);

    if (op == OP_SEARCH || op == OP_SEARCH_NEXT)
      unset_option (OPTSEARCHREVERSE);
    else
      set_option (OPTSEARCHREVERSE);

    /* compare the *expanded* version of the search pattern in case 
       $simple_search has changed while we were searching */
    strfcpy (temp, buf, sizeof (temp));
    mutt_check_simple (temp, sizeof (temp), NONULL (SimpleSearch));

    if (!SearchPattern || mutt_strcmp (temp, LastSearchExpn))
    {
      BUFFER err;
      memset(&err, 0, sizeof(err));
      set_option (OPTSEARCHINVALID);
      strfcpy (LastSearch, buf, sizeof (LastSearch));
      mutt_message _("Compiling search pattern...");
      mutt_pattern_free (&SearchPattern);
      err.data = error;
      err.dsize = sizeof (error);
      if ((SearchPattern = mutt_pattern_comp (temp, M_FULL_MSG, &err)) == NULL)
      {
        mutt_error ("%s", error);
        LastSearch[0] = '\0';
        return (-1);
      }
      mutt_clear_error ();
    }
  }

  if (option (OPTSEARCHINVALID))
  {
    for (i = 0; i < Context->msgcount; i++)
      Context->hdrs[i]->searched = 0;
#ifdef USE_IMAP
    if (Context->magic == M_IMAP && imap_search (Context, SearchPattern) < 0)
      return -1;
#endif
    unset_option (OPTSEARCHINVALID);
  }

  incr = (option (OPTSEARCHREVERSE)) ? -1 : 1;
  if (op == OP_SEARCH_OPPOSITE)
    incr = -incr;

  mutt_progress_init (&progress, _("Searching..."), M_PROGRESS_MSG,
                      ReadInc, Context->vcount);

  for (i = cur + incr, j = 0 ; j != Context->vcount; j++)
  {
    mutt_progress_update (&progress, j, -1);
    if (i > Context->vcount - 1)
    {
      i = 0;
      if (option (OPTWRAPSEARCH))
        msg = _("Search wrapped to top.");
      else 
      {
        mutt_message _("Search hit bottom without finding match");
        return (-1);
      }
    }
    else if (i < 0)
    {
      i = Context->vcount - 1;
      if (option (OPTWRAPSEARCH))
        msg = _("Search wrapped to bottom.");
      else 
      {
        mutt_message _("Search hit top without finding match");
        return (-1);
      }
    }

    h = Context->hdrs[Context->v2r[i]];
    if (h->searched)
    {
      /* if we've already evaulated this message, use the cached value */
      if (h->matched)
      {
        mutt_clear_error();
        if (msg && *msg)
          mutt_message (msg);
        return i;
      }
    }
    else
    {
      /* remember that we've already searched this message */
      h->searched = 1;
      if ((h->matched = (mutt_pattern_exec (SearchPattern, M_MATCH_FULL_ADDRESS, Context, h) > 0)))
      {
        mutt_clear_error();
        if (msg && *msg)
          mutt_message (msg);
        return i;
      }
    }

    if (SigInt)
    {
      mutt_error _("Search interrupted.");
      SigInt = 0;
      return (-1);
    }

    i += incr;
  }

  mutt_error _("Not found.");
  return (-1);
}