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/* histexpand.c -- history expansion. */
/* histexpand.c -- history expansion. */
 
 
/* Copyright (C) 1989-2004 Free Software Foundation, Inc.
/* Copyright (C) 1989-2004 Free Software Foundation, Inc.
 
 
   This file contains the GNU History Library (the Library), a set of
   This file contains the GNU History Library (the Library), a set of
   routines for managing the text of previously typed lines.
   routines for managing the text of previously typed lines.
 
 
   The Library is free software; you can redistribute it and/or modify
   The Library is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2, or (at your option)
   the Free Software Foundation; either version 2, or (at your option)
   any later version.
   any later version.
 
 
   The Library is distributed in the hope that it will be useful, but
   The Library is distributed in the hope that it will be useful, but
   WITHOUT ANY WARRANTY; without even the implied warranty of
   WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   General Public License for more details.
   General Public License for more details.
 
 
   The GNU General Public License is often shipped with GNU software, and
   The GNU General Public License is often shipped with GNU software, and
   is generally kept in a file called COPYING or LICENSE.  If you do not
   is generally kept in a file called COPYING or LICENSE.  If you do not
   have a copy of the license, write to the Free Software Foundation,
   have a copy of the license, write to the Free Software Foundation,
   59 Temple Place, Suite 330, Boston, MA 02111 USA. */
   59 Temple Place, Suite 330, Boston, MA 02111 USA. */
 
 
#define READLINE_LIBRARY
#define READLINE_LIBRARY
 
 
#if defined (HAVE_CONFIG_H)
#if defined (HAVE_CONFIG_H)
#  include <config.h>
#  include <config.h>
#endif
#endif
 
 
#include <stdio.h>
#include <stdio.h>
 
 
#if defined (HAVE_STDLIB_H)
#if defined (HAVE_STDLIB_H)
#  include <stdlib.h>
#  include <stdlib.h>
#else
#else
#  include "ansi_stdlib.h"
#  include "ansi_stdlib.h"
#endif /* HAVE_STDLIB_H */
#endif /* HAVE_STDLIB_H */
 
 
#if defined (HAVE_UNISTD_H)
#if defined (HAVE_UNISTD_H)
#  ifndef _MINIX
#  ifndef _MINIX
#    include <sys/types.h>
#    include <sys/types.h>
#  endif
#  endif
#  include <unistd.h>
#  include <unistd.h>
#endif
#endif
 
 
#include "rlmbutil.h"
#include "rlmbutil.h"
 
 
#include "history.h"
#include "history.h"
#include "histlib.h"
#include "histlib.h"
 
 
#include "rlshell.h"
#include "rlshell.h"
#include "xmalloc.h"
#include "xmalloc.h"
 
 
#define HISTORY_WORD_DELIMITERS         " \t\n;&()|<>"
#define HISTORY_WORD_DELIMITERS         " \t\n;&()|<>"
#define HISTORY_QUOTE_CHARACTERS        "\"'`"
#define HISTORY_QUOTE_CHARACTERS        "\"'`"
 
 
#define slashify_in_quotes "\\`\"$"
#define slashify_in_quotes "\\`\"$"
 
 
typedef int _hist_search_func_t PARAMS((const char *, int));
typedef int _hist_search_func_t PARAMS((const char *, int));
 
 
extern int rl_byte_oriented;    /* declared in mbutil.c */
extern int rl_byte_oriented;    /* declared in mbutil.c */
 
 
static char error_pointer;
static char error_pointer;
 
 
static char *subst_lhs;
static char *subst_lhs;
static char *subst_rhs;
static char *subst_rhs;
static int subst_lhs_len;
static int subst_lhs_len;
static int subst_rhs_len;
static int subst_rhs_len;
 
 
static char *get_history_word_specifier PARAMS((char *, char *, int *));
static char *get_history_word_specifier PARAMS((char *, char *, int *));
static char *history_find_word PARAMS((char *, int));
static char *history_find_word PARAMS((char *, int));
static int history_tokenize_word PARAMS((const char *, int));
static int history_tokenize_word PARAMS((const char *, int));
static char *history_substring PARAMS((const char *, int, int));
static char *history_substring PARAMS((const char *, int, int));
 
 
static char *quote_breaks PARAMS((char *));
static char *quote_breaks PARAMS((char *));
 
 
/* Variables exported by this file. */
/* Variables exported by this file. */
/* The character that represents the start of a history expansion
/* The character that represents the start of a history expansion
   request.  This is usually `!'. */
   request.  This is usually `!'. */
char history_expansion_char = '!';
char history_expansion_char = '!';
 
 
/* The character that invokes word substitution if found at the start of
/* The character that invokes word substitution if found at the start of
   a line.  This is usually `^'. */
   a line.  This is usually `^'. */
char history_subst_char = '^';
char history_subst_char = '^';
 
 
/* During tokenization, if this character is seen as the first character
/* During tokenization, if this character is seen as the first character
   of a word, then it, and all subsequent characters upto a newline are
   of a word, then it, and all subsequent characters upto a newline are
   ignored.  For a Bourne shell, this should be '#'.  Bash special cases
   ignored.  For a Bourne shell, this should be '#'.  Bash special cases
   the interactive comment character to not be a comment delimiter. */
   the interactive comment character to not be a comment delimiter. */
char history_comment_char = '\0';
char history_comment_char = '\0';
 
 
/* The list of characters which inhibit the expansion of text if found
/* The list of characters which inhibit the expansion of text if found
   immediately following history_expansion_char. */
   immediately following history_expansion_char. */
char *history_no_expand_chars = " \t\n\r=";
char *history_no_expand_chars = " \t\n\r=";
 
 
/* If set to a non-zero value, single quotes inhibit history expansion.
/* If set to a non-zero value, single quotes inhibit history expansion.
   The default is 0. */
   The default is 0. */
int history_quotes_inhibit_expansion = 0;
int history_quotes_inhibit_expansion = 0;
 
 
/* Used to split words by history_tokenize_internal. */
/* Used to split words by history_tokenize_internal. */
char *history_word_delimiters = HISTORY_WORD_DELIMITERS;
char *history_word_delimiters = HISTORY_WORD_DELIMITERS;
 
 
/* If set, this points to a function that is called to verify that a
/* If set, this points to a function that is called to verify that a
   particular history expansion should be performed. */
   particular history expansion should be performed. */
rl_linebuf_func_t *history_inhibit_expansion_function;
rl_linebuf_func_t *history_inhibit_expansion_function;
 
 
/* **************************************************************** */
/* **************************************************************** */
/*                                                                  */
/*                                                                  */
/*                      History Expansion                           */
/*                      History Expansion                           */
/*                                                                  */
/*                                                                  */
/* **************************************************************** */
/* **************************************************************** */
 
 
/* Hairy history expansion on text, not tokens.  This is of general
/* Hairy history expansion on text, not tokens.  This is of general
   use, and thus belongs in this library. */
   use, and thus belongs in this library. */
 
 
/* The last string searched for by a !?string? search. */
/* The last string searched for by a !?string? search. */
static char *search_string;
static char *search_string;
 
 
/* The last string matched by a !?string? search. */
/* The last string matched by a !?string? search. */
static char *search_match;
static char *search_match;
 
 
/* Return the event specified at TEXT + OFFSET modifying OFFSET to
/* Return the event specified at TEXT + OFFSET modifying OFFSET to
   point to after the event specifier.  Just a pointer to the history
   point to after the event specifier.  Just a pointer to the history
   line is returned; NULL is returned in the event of a bad specifier.
   line is returned; NULL is returned in the event of a bad specifier.
   You pass STRING with *INDEX equal to the history_expansion_char that
   You pass STRING with *INDEX equal to the history_expansion_char that
   begins this specification.
   begins this specification.
   DELIMITING_QUOTE is a character that is allowed to end the string
   DELIMITING_QUOTE is a character that is allowed to end the string
   specification for what to search for in addition to the normal
   specification for what to search for in addition to the normal
   characters `:', ` ', `\t', `\n', and sometimes `?'.
   characters `:', ` ', `\t', `\n', and sometimes `?'.
   So you might call this function like:
   So you might call this function like:
   line = get_history_event ("!echo:p", &index, 0);  */
   line = get_history_event ("!echo:p", &index, 0);  */
char *
char *
get_history_event (string, caller_index, delimiting_quote)
get_history_event (string, caller_index, delimiting_quote)
     const char *string;
     const char *string;
     int *caller_index;
     int *caller_index;
     int delimiting_quote;
     int delimiting_quote;
{
{
  register int i;
  register int i;
  register char c;
  register char c;
  HIST_ENTRY *entry;
  HIST_ENTRY *entry;
  int which, sign, local_index, substring_okay;
  int which, sign, local_index, substring_okay;
  _hist_search_func_t *search_func;
  _hist_search_func_t *search_func;
  char *temp;
  char *temp;
 
 
  /* The event can be specified in a number of ways.
  /* The event can be specified in a number of ways.
 
 
     !!   the previous command
     !!   the previous command
     !n   command line N
     !n   command line N
     !-n  current command-line minus N
     !-n  current command-line minus N
     !str the most recent command starting with STR
     !str the most recent command starting with STR
     !?str[?]
     !?str[?]
          the most recent command containing STR
          the most recent command containing STR
 
 
     All values N are determined via HISTORY_BASE. */
     All values N are determined via HISTORY_BASE. */
 
 
  i = *caller_index;
  i = *caller_index;
 
 
  if (string[i] != history_expansion_char)
  if (string[i] != history_expansion_char)
    return ((char *)NULL);
    return ((char *)NULL);
 
 
  /* Move on to the specification. */
  /* Move on to the specification. */
  i++;
  i++;
 
 
  sign = 1;
  sign = 1;
  substring_okay = 0;
  substring_okay = 0;
 
 
#define RETURN_ENTRY(e, w) \
#define RETURN_ENTRY(e, w) \
        return ((e = history_get (w)) ? e->line : (char *)NULL)
        return ((e = history_get (w)) ? e->line : (char *)NULL)
 
 
  /* Handle !! case. */
  /* Handle !! case. */
  if (string[i] == history_expansion_char)
  if (string[i] == history_expansion_char)
    {
    {
      i++;
      i++;
      which = history_base + (history_length - 1);
      which = history_base + (history_length - 1);
      *caller_index = i;
      *caller_index = i;
      RETURN_ENTRY (entry, which);
      RETURN_ENTRY (entry, which);
    }
    }
 
 
  /* Hack case of numeric line specification. */
  /* Hack case of numeric line specification. */
  if (string[i] == '-')
  if (string[i] == '-')
    {
    {
      sign = -1;
      sign = -1;
      i++;
      i++;
    }
    }
 
 
  if (_rl_digit_p (string[i]))
  if (_rl_digit_p (string[i]))
    {
    {
      /* Get the extent of the digits and compute the value. */
      /* Get the extent of the digits and compute the value. */
      for (which = 0; _rl_digit_p (string[i]); i++)
      for (which = 0; _rl_digit_p (string[i]); i++)
        which = (which * 10) + _rl_digit_value (string[i]);
        which = (which * 10) + _rl_digit_value (string[i]);
 
 
      *caller_index = i;
      *caller_index = i;
 
 
      if (sign < 0)
      if (sign < 0)
        which = (history_length + history_base) - which;
        which = (history_length + history_base) - which;
 
 
      RETURN_ENTRY (entry, which);
      RETURN_ENTRY (entry, which);
    }
    }
 
 
  /* This must be something to search for.  If the spec begins with
  /* This must be something to search for.  If the spec begins with
     a '?', then the string may be anywhere on the line.  Otherwise,
     a '?', then the string may be anywhere on the line.  Otherwise,
     the string must be found at the start of a line. */
     the string must be found at the start of a line. */
  if (string[i] == '?')
  if (string[i] == '?')
    {
    {
      substring_okay++;
      substring_okay++;
      i++;
      i++;
    }
    }
 
 
  /* Only a closing `?' or a newline delimit a substring search string. */
  /* Only a closing `?' or a newline delimit a substring search string. */
  for (local_index = i; c = string[i]; i++)
  for (local_index = i; c = string[i]; i++)
    {
    {
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
      if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
      if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
        {
        {
          int v;
          int v;
          mbstate_t ps;
          mbstate_t ps;
 
 
          memset (&ps, 0, sizeof (mbstate_t));
          memset (&ps, 0, sizeof (mbstate_t));
          /* These produce warnings because we're passing a const string to a
          /* These produce warnings because we're passing a const string to a
             function that takes a non-const string. */
             function that takes a non-const string. */
          _rl_adjust_point ((char *)string, i, &ps);
          _rl_adjust_point ((char *)string, i, &ps);
          if ((v = _rl_get_char_len ((char *)string + i, &ps)) > 1)
          if ((v = _rl_get_char_len ((char *)string + i, &ps)) > 1)
            {
            {
              i += v - 1;
              i += v - 1;
              continue;
              continue;
            }
            }
        }
        }
 
 
#endif /* HANDLE_MULTIBYTE */
#endif /* HANDLE_MULTIBYTE */
      if ((!substring_okay && (whitespace (c) || c == ':' ||
      if ((!substring_okay && (whitespace (c) || c == ':' ||
          (history_search_delimiter_chars && member (c, history_search_delimiter_chars)) ||
          (history_search_delimiter_chars && member (c, history_search_delimiter_chars)) ||
          string[i] == delimiting_quote)) ||
          string[i] == delimiting_quote)) ||
          string[i] == '\n' ||
          string[i] == '\n' ||
          (substring_okay && string[i] == '?'))
          (substring_okay && string[i] == '?'))
        break;
        break;
    }
    }
 
 
  which = i - local_index;
  which = i - local_index;
  temp = (char *)xmalloc (1 + which);
  temp = (char *)xmalloc (1 + which);
  if (which)
  if (which)
    strncpy (temp, string + local_index, which);
    strncpy (temp, string + local_index, which);
  temp[which] = '\0';
  temp[which] = '\0';
 
 
  if (substring_okay && string[i] == '?')
  if (substring_okay && string[i] == '?')
    i++;
    i++;
 
 
  *caller_index = i;
  *caller_index = i;
 
 
#define FAIL_SEARCH() \
#define FAIL_SEARCH() \
  do { \
  do { \
    history_offset = history_length; free (temp) ; return (char *)NULL; \
    history_offset = history_length; free (temp) ; return (char *)NULL; \
  } while (0)
  } while (0)
 
 
  /* If there is no search string, try to use the previous search string,
  /* If there is no search string, try to use the previous search string,
     if one exists.  If not, fail immediately. */
     if one exists.  If not, fail immediately. */
  if (*temp == '\0' && substring_okay)
  if (*temp == '\0' && substring_okay)
    {
    {
      if (search_string)
      if (search_string)
        {
        {
          free (temp);
          free (temp);
          temp = savestring (search_string);
          temp = savestring (search_string);
        }
        }
      else
      else
        FAIL_SEARCH ();
        FAIL_SEARCH ();
    }
    }
 
 
  search_func = substring_okay ? history_search : history_search_prefix;
  search_func = substring_okay ? history_search : history_search_prefix;
  while (1)
  while (1)
    {
    {
      local_index = (*search_func) (temp, -1);
      local_index = (*search_func) (temp, -1);
 
 
      if (local_index < 0)
      if (local_index < 0)
        FAIL_SEARCH ();
        FAIL_SEARCH ();
 
 
      if (local_index == 0 || substring_okay)
      if (local_index == 0 || substring_okay)
        {
        {
          entry = current_history ();
          entry = current_history ();
          history_offset = history_length;
          history_offset = history_length;
 
 
          /* If this was a substring search, then remember the
          /* If this was a substring search, then remember the
             string that we matched for word substitution. */
             string that we matched for word substitution. */
          if (substring_okay)
          if (substring_okay)
            {
            {
              FREE (search_string);
              FREE (search_string);
              search_string = temp;
              search_string = temp;
 
 
              FREE (search_match);
              FREE (search_match);
              search_match = history_find_word (entry->line, local_index);
              search_match = history_find_word (entry->line, local_index);
            }
            }
          else
          else
            free (temp);
            free (temp);
 
 
          return (entry->line);
          return (entry->line);
        }
        }
 
 
      if (history_offset)
      if (history_offset)
        history_offset--;
        history_offset--;
      else
      else
        FAIL_SEARCH ();
        FAIL_SEARCH ();
    }
    }
#undef FAIL_SEARCH
#undef FAIL_SEARCH
#undef RETURN_ENTRY
#undef RETURN_ENTRY
}
}
 
 
/* Function for extracting single-quoted strings.  Used for inhibiting
/* Function for extracting single-quoted strings.  Used for inhibiting
   history expansion within single quotes. */
   history expansion within single quotes. */
 
 
/* Extract the contents of STRING as if it is enclosed in single quotes.
/* Extract the contents of STRING as if it is enclosed in single quotes.
   SINDEX, when passed in, is the offset of the character immediately
   SINDEX, when passed in, is the offset of the character immediately
   following the opening single quote; on exit, SINDEX is left pointing
   following the opening single quote; on exit, SINDEX is left pointing
   to the closing single quote. */
   to the closing single quote. */
static void
static void
hist_string_extract_single_quoted (string, sindex)
hist_string_extract_single_quoted (string, sindex)
     char *string;
     char *string;
     int *sindex;
     int *sindex;
{
{
  register int i;
  register int i;
 
 
  for (i = *sindex; string[i] && string[i] != '\''; i++)
  for (i = *sindex; string[i] && string[i] != '\''; i++)
    ;
    ;
 
 
  *sindex = i;
  *sindex = i;
}
}
 
 
static char *
static char *
quote_breaks (s)
quote_breaks (s)
     char *s;
     char *s;
{
{
  register char *p, *r;
  register char *p, *r;
  char *ret;
  char *ret;
  int len = 3;
  int len = 3;
 
 
  for (p = s; p && *p; p++, len++)
  for (p = s; p && *p; p++, len++)
    {
    {
      if (*p == '\'')
      if (*p == '\'')
        len += 3;
        len += 3;
      else if (whitespace (*p) || *p == '\n')
      else if (whitespace (*p) || *p == '\n')
        len += 2;
        len += 2;
    }
    }
 
 
  r = ret = (char *)xmalloc (len);
  r = ret = (char *)xmalloc (len);
  *r++ = '\'';
  *r++ = '\'';
  for (p = s; p && *p; )
  for (p = s; p && *p; )
    {
    {
      if (*p == '\'')
      if (*p == '\'')
        {
        {
          *r++ = '\'';
          *r++ = '\'';
          *r++ = '\\';
          *r++ = '\\';
          *r++ = '\'';
          *r++ = '\'';
          *r++ = '\'';
          *r++ = '\'';
          p++;
          p++;
        }
        }
      else if (whitespace (*p) || *p == '\n')
      else if (whitespace (*p) || *p == '\n')
        {
        {
          *r++ = '\'';
          *r++ = '\'';
          *r++ = *p++;
          *r++ = *p++;
          *r++ = '\'';
          *r++ = '\'';
        }
        }
      else
      else
        *r++ = *p++;
        *r++ = *p++;
    }
    }
  *r++ = '\'';
  *r++ = '\'';
  *r = '\0';
  *r = '\0';
  return ret;
  return ret;
}
}
 
 
static char *
static char *
hist_error(s, start, current, errtype)
hist_error(s, start, current, errtype)
      char *s;
      char *s;
      int start, current, errtype;
      int start, current, errtype;
{
{
  char *temp;
  char *temp;
  const char *emsg;
  const char *emsg;
  int ll, elen;
  int ll, elen;
 
 
  ll = current - start;
  ll = current - start;
 
 
  switch (errtype)
  switch (errtype)
    {
    {
    case EVENT_NOT_FOUND:
    case EVENT_NOT_FOUND:
      emsg = "event not found";
      emsg = "event not found";
      elen = 15;
      elen = 15;
      break;
      break;
    case BAD_WORD_SPEC:
    case BAD_WORD_SPEC:
      emsg = "bad word specifier";
      emsg = "bad word specifier";
      elen = 18;
      elen = 18;
      break;
      break;
    case SUBST_FAILED:
    case SUBST_FAILED:
      emsg = "substitution failed";
      emsg = "substitution failed";
      elen = 19;
      elen = 19;
      break;
      break;
    case BAD_MODIFIER:
    case BAD_MODIFIER:
      emsg = "unrecognized history modifier";
      emsg = "unrecognized history modifier";
      elen = 29;
      elen = 29;
      break;
      break;
    case NO_PREV_SUBST:
    case NO_PREV_SUBST:
      emsg = "no previous substitution";
      emsg = "no previous substitution";
      elen = 24;
      elen = 24;
      break;
      break;
    default:
    default:
      emsg = "unknown expansion error";
      emsg = "unknown expansion error";
      elen = 23;
      elen = 23;
      break;
      break;
    }
    }
 
 
  temp = (char *)xmalloc (ll + elen + 3);
  temp = (char *)xmalloc (ll + elen + 3);
  strncpy (temp, s + start, ll);
  strncpy (temp, s + start, ll);
  temp[ll] = ':';
  temp[ll] = ':';
  temp[ll + 1] = ' ';
  temp[ll + 1] = ' ';
  strcpy (temp + ll + 2, emsg);
  strcpy (temp + ll + 2, emsg);
  return (temp);
  return (temp);
}
}
 
 
/* Get a history substitution string from STR starting at *IPTR
/* Get a history substitution string from STR starting at *IPTR
   and return it.  The length is returned in LENPTR.
   and return it.  The length is returned in LENPTR.
 
 
   A backslash can quote the delimiter.  If the string is the
   A backslash can quote the delimiter.  If the string is the
   empty string, the previous pattern is used.  If there is
   empty string, the previous pattern is used.  If there is
   no previous pattern for the lhs, the last history search
   no previous pattern for the lhs, the last history search
   string is used.
   string is used.
 
 
   If IS_RHS is 1, we ignore empty strings and set the pattern
   If IS_RHS is 1, we ignore empty strings and set the pattern
   to "" anyway.  subst_lhs is not changed if the lhs is empty;
   to "" anyway.  subst_lhs is not changed if the lhs is empty;
   subst_rhs is allowed to be set to the empty string. */
   subst_rhs is allowed to be set to the empty string. */
 
 
static char *
static char *
get_subst_pattern (str, iptr, delimiter, is_rhs, lenptr)
get_subst_pattern (str, iptr, delimiter, is_rhs, lenptr)
     char *str;
     char *str;
     int *iptr, delimiter, is_rhs, *lenptr;
     int *iptr, delimiter, is_rhs, *lenptr;
{
{
  register int si, i, j, k;
  register int si, i, j, k;
  char *s;
  char *s;
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
  mbstate_t ps;
  mbstate_t ps;
#endif
#endif
 
 
  s = (char *)NULL;
  s = (char *)NULL;
  i = *iptr;
  i = *iptr;
 
 
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
  memset (&ps, 0, sizeof (mbstate_t));
  memset (&ps, 0, sizeof (mbstate_t));
  _rl_adjust_point (str, i, &ps);
  _rl_adjust_point (str, i, &ps);
#endif
#endif
 
 
  for (si = i; str[si] && str[si] != delimiter; si++)
  for (si = i; str[si] && str[si] != delimiter; si++)
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
    if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
    if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
      {
      {
        int v;
        int v;
        if ((v = _rl_get_char_len (str + si, &ps)) > 1)
        if ((v = _rl_get_char_len (str + si, &ps)) > 1)
          si += v - 1;
          si += v - 1;
        else if (str[si] == '\\' && str[si + 1] == delimiter)
        else if (str[si] == '\\' && str[si + 1] == delimiter)
          si++;
          si++;
      }
      }
    else
    else
#endif /* HANDLE_MULTIBYTE */
#endif /* HANDLE_MULTIBYTE */
      if (str[si] == '\\' && str[si + 1] == delimiter)
      if (str[si] == '\\' && str[si + 1] == delimiter)
        si++;
        si++;
 
 
  if (si > i || is_rhs)
  if (si > i || is_rhs)
    {
    {
      s = (char *)xmalloc (si - i + 1);
      s = (char *)xmalloc (si - i + 1);
      for (j = 0, k = i; k < si; j++, k++)
      for (j = 0, k = i; k < si; j++, k++)
        {
        {
          /* Remove a backslash quoting the search string delimiter. */
          /* Remove a backslash quoting the search string delimiter. */
          if (str[k] == '\\' && str[k + 1] == delimiter)
          if (str[k] == '\\' && str[k + 1] == delimiter)
            k++;
            k++;
          s[j] = str[k];
          s[j] = str[k];
        }
        }
      s[j] = '\0';
      s[j] = '\0';
      if (lenptr)
      if (lenptr)
        *lenptr = j;
        *lenptr = j;
    }
    }
 
 
  i = si;
  i = si;
  if (str[i])
  if (str[i])
    i++;
    i++;
  *iptr = i;
  *iptr = i;
 
 
  return s;
  return s;
}
}
 
 
static void
static void
postproc_subst_rhs ()
postproc_subst_rhs ()
{
{
  char *new;
  char *new;
  int i, j, new_size;
  int i, j, new_size;
 
 
  new = (char *)xmalloc (new_size = subst_rhs_len + subst_lhs_len);
  new = (char *)xmalloc (new_size = subst_rhs_len + subst_lhs_len);
  for (i = j = 0; i < subst_rhs_len; i++)
  for (i = j = 0; i < subst_rhs_len; i++)
    {
    {
      if (subst_rhs[i] == '&')
      if (subst_rhs[i] == '&')
        {
        {
          if (j + subst_lhs_len >= new_size)
          if (j + subst_lhs_len >= new_size)
            new = (char *)xrealloc (new, (new_size = new_size * 2 + subst_lhs_len));
            new = (char *)xrealloc (new, (new_size = new_size * 2 + subst_lhs_len));
          strcpy (new + j, subst_lhs);
          strcpy (new + j, subst_lhs);
          j += subst_lhs_len;
          j += subst_lhs_len;
        }
        }
      else
      else
        {
        {
          /* a single backslash protects the `&' from lhs interpolation */
          /* a single backslash protects the `&' from lhs interpolation */
          if (subst_rhs[i] == '\\' && subst_rhs[i + 1] == '&')
          if (subst_rhs[i] == '\\' && subst_rhs[i + 1] == '&')
            i++;
            i++;
          if (j >= new_size)
          if (j >= new_size)
            new = (char *)xrealloc (new, new_size *= 2);
            new = (char *)xrealloc (new, new_size *= 2);
          new[j++] = subst_rhs[i];
          new[j++] = subst_rhs[i];
        }
        }
    }
    }
  new[j] = '\0';
  new[j] = '\0';
  free (subst_rhs);
  free (subst_rhs);
  subst_rhs = new;
  subst_rhs = new;
  subst_rhs_len = j;
  subst_rhs_len = j;
}
}
 
 
/* Expand the bulk of a history specifier starting at STRING[START].
/* Expand the bulk of a history specifier starting at STRING[START].
   Returns 0 if everything is OK, -1 if an error occurred, and 1
   Returns 0 if everything is OK, -1 if an error occurred, and 1
   if the `p' modifier was supplied and the caller should just print
   if the `p' modifier was supplied and the caller should just print
   the returned string.  Returns the new index into string in
   the returned string.  Returns the new index into string in
   *END_INDEX_PTR, and the expanded specifier in *RET_STRING. */
   *END_INDEX_PTR, and the expanded specifier in *RET_STRING. */
static int
static int
history_expand_internal (string, start, end_index_ptr, ret_string, current_line)
history_expand_internal (string, start, end_index_ptr, ret_string, current_line)
     char *string;
     char *string;
     int start, *end_index_ptr;
     int start, *end_index_ptr;
     char **ret_string;
     char **ret_string;
     char *current_line;        /* for !# */
     char *current_line;        /* for !# */
{
{
  int i, n, starting_index;
  int i, n, starting_index;
  int substitute_globally, subst_bywords, want_quotes, print_only;
  int substitute_globally, subst_bywords, want_quotes, print_only;
  char *event, *temp, *result, *tstr, *t, c, *word_spec;
  char *event, *temp, *result, *tstr, *t, c, *word_spec;
  int result_len;
  int result_len;
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
  mbstate_t ps;
  mbstate_t ps;
 
 
  memset (&ps, 0, sizeof (mbstate_t));
  memset (&ps, 0, sizeof (mbstate_t));
#endif
#endif
 
 
  result = (char *)xmalloc (result_len = 128);
  result = (char *)xmalloc (result_len = 128);
 
 
  i = start;
  i = start;
 
 
  /* If it is followed by something that starts a word specifier,
  /* If it is followed by something that starts a word specifier,
     then !! is implied as the event specifier. */
     then !! is implied as the event specifier. */
 
 
  if (member (string[i + 1], ":$*%^"))
  if (member (string[i + 1], ":$*%^"))
    {
    {
      char fake_s[3];
      char fake_s[3];
      int fake_i = 0;
      int fake_i = 0;
      i++;
      i++;
      fake_s[0] = fake_s[1] = history_expansion_char;
      fake_s[0] = fake_s[1] = history_expansion_char;
      fake_s[2] = '\0';
      fake_s[2] = '\0';
      event = get_history_event (fake_s, &fake_i, 0);
      event = get_history_event (fake_s, &fake_i, 0);
    }
    }
  else if (string[i + 1] == '#')
  else if (string[i + 1] == '#')
    {
    {
      i += 2;
      i += 2;
      event = current_line;
      event = current_line;
    }
    }
  else
  else
    {
    {
      int quoted_search_delimiter = 0;
      int quoted_search_delimiter = 0;
 
 
      /* If the character before this `!' is a double or single
      /* If the character before this `!' is a double or single
         quote, then this expansion takes place inside of the
         quote, then this expansion takes place inside of the
         quoted string.  If we have to search for some text ("!foo"),
         quoted string.  If we have to search for some text ("!foo"),
         allow the delimiter to end the search string. */
         allow the delimiter to end the search string. */
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
      if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
      if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
        {
        {
          int c, l;
          int c, l;
          l = _rl_find_prev_mbchar (string, i, MB_FIND_ANY);
          l = _rl_find_prev_mbchar (string, i, MB_FIND_ANY);
          c = string[l];
          c = string[l];
          /* XXX - original patch had i - 1 ???  If i == 0 it would fail. */
          /* XXX - original patch had i - 1 ???  If i == 0 it would fail. */
          if (i && (c == '\'' || c == '"'))
          if (i && (c == '\'' || c == '"'))
            quoted_search_delimiter = c;
            quoted_search_delimiter = c;
        }
        }
      else
      else
#endif /* HANDLE_MULTIBYTE */     
#endif /* HANDLE_MULTIBYTE */     
        if (i && (string[i - 1] == '\'' || string[i - 1] == '"'))
        if (i && (string[i - 1] == '\'' || string[i - 1] == '"'))
          quoted_search_delimiter = string[i - 1];
          quoted_search_delimiter = string[i - 1];
 
 
      event = get_history_event (string, &i, quoted_search_delimiter);
      event = get_history_event (string, &i, quoted_search_delimiter);
    }
    }
 
 
  if (event == 0)
  if (event == 0)
    {
    {
      *ret_string = hist_error (string, start, i, EVENT_NOT_FOUND);
      *ret_string = hist_error (string, start, i, EVENT_NOT_FOUND);
      free (result);
      free (result);
      return (-1);
      return (-1);
    }
    }
 
 
  /* If a word specifier is found, then do what that requires. */
  /* If a word specifier is found, then do what that requires. */
  starting_index = i;
  starting_index = i;
  word_spec = get_history_word_specifier (string, event, &i);
  word_spec = get_history_word_specifier (string, event, &i);
 
 
  /* There is no such thing as a `malformed word specifier'.  However,
  /* There is no such thing as a `malformed word specifier'.  However,
     it is possible for a specifier that has no match.  In that case,
     it is possible for a specifier that has no match.  In that case,
     we complain. */
     we complain. */
  if (word_spec == (char *)&error_pointer)
  if (word_spec == (char *)&error_pointer)
    {
    {
      *ret_string = hist_error (string, starting_index, i, BAD_WORD_SPEC);
      *ret_string = hist_error (string, starting_index, i, BAD_WORD_SPEC);
      free (result);
      free (result);
      return (-1);
      return (-1);
    }
    }
 
 
  /* If no word specifier, than the thing of interest was the event. */
  /* If no word specifier, than the thing of interest was the event. */
  temp = word_spec ? savestring (word_spec) : savestring (event);
  temp = word_spec ? savestring (word_spec) : savestring (event);
  FREE (word_spec);
  FREE (word_spec);
 
 
  /* Perhaps there are other modifiers involved.  Do what they say. */
  /* Perhaps there are other modifiers involved.  Do what they say. */
  want_quotes = substitute_globally = subst_bywords = print_only = 0;
  want_quotes = substitute_globally = subst_bywords = print_only = 0;
  starting_index = i;
  starting_index = i;
 
 
  while (string[i] == ':')
  while (string[i] == ':')
    {
    {
      c = string[i + 1];
      c = string[i + 1];
 
 
      if (c == 'g' || c == 'a')
      if (c == 'g' || c == 'a')
        {
        {
          substitute_globally = 1;
          substitute_globally = 1;
          i++;
          i++;
          c = string[i + 1];
          c = string[i + 1];
        }
        }
      else if (c == 'G')
      else if (c == 'G')
        {
        {
          subst_bywords = 1;
          subst_bywords = 1;
          i++;
          i++;
          c = string[i + 1];
          c = string[i + 1];
        }
        }
 
 
      switch (c)
      switch (c)
        {
        {
        default:
        default:
          *ret_string = hist_error (string, i+1, i+2, BAD_MODIFIER);
          *ret_string = hist_error (string, i+1, i+2, BAD_MODIFIER);
          free (result);
          free (result);
          free (temp);
          free (temp);
          return -1;
          return -1;
 
 
        case 'q':
        case 'q':
          want_quotes = 'q';
          want_quotes = 'q';
          break;
          break;
 
 
        case 'x':
        case 'x':
          want_quotes = 'x';
          want_quotes = 'x';
          break;
          break;
 
 
          /* :p means make this the last executed line.  So we
          /* :p means make this the last executed line.  So we
             return an error state after adding this line to the
             return an error state after adding this line to the
             history. */
             history. */
        case 'p':
        case 'p':
          print_only++;
          print_only++;
          break;
          break;
 
 
          /* :t discards all but the last part of the pathname. */
          /* :t discards all but the last part of the pathname. */
        case 't':
        case 't':
          tstr = strrchr (temp, '/');
          tstr = strrchr (temp, '/');
          if (tstr)
          if (tstr)
            {
            {
              tstr++;
              tstr++;
              t = savestring (tstr);
              t = savestring (tstr);
              free (temp);
              free (temp);
              temp = t;
              temp = t;
            }
            }
          break;
          break;
 
 
          /* :h discards the last part of a pathname. */
          /* :h discards the last part of a pathname. */
        case 'h':
        case 'h':
          tstr = strrchr (temp, '/');
          tstr = strrchr (temp, '/');
          if (tstr)
          if (tstr)
            *tstr = '\0';
            *tstr = '\0';
          break;
          break;
 
 
          /* :r discards the suffix. */
          /* :r discards the suffix. */
        case 'r':
        case 'r':
          tstr = strrchr (temp, '.');
          tstr = strrchr (temp, '.');
          if (tstr)
          if (tstr)
            *tstr = '\0';
            *tstr = '\0';
          break;
          break;
 
 
          /* :e discards everything but the suffix. */
          /* :e discards everything but the suffix. */
        case 'e':
        case 'e':
          tstr = strrchr (temp, '.');
          tstr = strrchr (temp, '.');
          if (tstr)
          if (tstr)
            {
            {
              t = savestring (tstr);
              t = savestring (tstr);
              free (temp);
              free (temp);
              temp = t;
              temp = t;
            }
            }
          break;
          break;
 
 
        /* :s/this/that substitutes `that' for the first
        /* :s/this/that substitutes `that' for the first
           occurrence of `this'.  :gs/this/that substitutes `that'
           occurrence of `this'.  :gs/this/that substitutes `that'
           for each occurrence of `this'.  :& repeats the last
           for each occurrence of `this'.  :& repeats the last
           substitution.  :g& repeats the last substitution
           substitution.  :g& repeats the last substitution
           globally. */
           globally. */
 
 
        case '&':
        case '&':
        case 's':
        case 's':
          {
          {
            char *new_event;
            char *new_event;
            int delimiter, failed, si, l_temp, ws, we;
            int delimiter, failed, si, l_temp, ws, we;
 
 
            if (c == 's')
            if (c == 's')
              {
              {
                if (i + 2 < (int)strlen (string))
                if (i + 2 < (int)strlen (string))
                  {
                  {
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
                    if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
                    if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
                      {
                      {
                        _rl_adjust_point (string, i + 2, &ps);
                        _rl_adjust_point (string, i + 2, &ps);
                        if (_rl_get_char_len (string + i + 2, &ps) > 1)
                        if (_rl_get_char_len (string + i + 2, &ps) > 1)
                          delimiter = 0;
                          delimiter = 0;
                        else
                        else
                          delimiter = string[i + 2];
                          delimiter = string[i + 2];
                      }
                      }
                    else
                    else
#endif /* HANDLE_MULTIBYTE */
#endif /* HANDLE_MULTIBYTE */
                      delimiter = string[i + 2];
                      delimiter = string[i + 2];
                  }
                  }
                else
                else
                  break;        /* no search delimiter */
                  break;        /* no search delimiter */
 
 
                i += 3;
                i += 3;
 
 
                t = get_subst_pattern (string, &i, delimiter, 0, &subst_lhs_len);
                t = get_subst_pattern (string, &i, delimiter, 0, &subst_lhs_len);
                /* An empty substitution lhs with no previous substitution
                /* An empty substitution lhs with no previous substitution
                   uses the last search string as the lhs. */
                   uses the last search string as the lhs. */
                if (t)
                if (t)
                  {
                  {
                    FREE (subst_lhs);
                    FREE (subst_lhs);
                    subst_lhs = t;
                    subst_lhs = t;
                  }
                  }
                else if (!subst_lhs)
                else if (!subst_lhs)
                  {
                  {
                    if (search_string && *search_string)
                    if (search_string && *search_string)
                      {
                      {
                        subst_lhs = savestring (search_string);
                        subst_lhs = savestring (search_string);
                        subst_lhs_len = strlen (subst_lhs);
                        subst_lhs_len = strlen (subst_lhs);
                      }
                      }
                    else
                    else
                      {
                      {
                        subst_lhs = (char *) NULL;
                        subst_lhs = (char *) NULL;
                        subst_lhs_len = 0;
                        subst_lhs_len = 0;
                      }
                      }
                  }
                  }
 
 
                FREE (subst_rhs);
                FREE (subst_rhs);
                subst_rhs = get_subst_pattern (string, &i, delimiter, 1, &subst_rhs_len);
                subst_rhs = get_subst_pattern (string, &i, delimiter, 1, &subst_rhs_len);
 
 
                /* If `&' appears in the rhs, it's supposed to be replaced
                /* If `&' appears in the rhs, it's supposed to be replaced
                   with the lhs. */
                   with the lhs. */
                if (member ('&', subst_rhs))
                if (member ('&', subst_rhs))
                  postproc_subst_rhs ();
                  postproc_subst_rhs ();
              }
              }
            else
            else
              i += 2;
              i += 2;
 
 
            /* If there is no lhs, the substitution can't succeed. */
            /* If there is no lhs, the substitution can't succeed. */
            if (subst_lhs_len == 0)
            if (subst_lhs_len == 0)
              {
              {
                *ret_string = hist_error (string, starting_index, i, NO_PREV_SUBST);
                *ret_string = hist_error (string, starting_index, i, NO_PREV_SUBST);
                free (result);
                free (result);
                free (temp);
                free (temp);
                return -1;
                return -1;
              }
              }
 
 
            l_temp = strlen (temp);
            l_temp = strlen (temp);
            /* Ignore impossible cases. */
            /* Ignore impossible cases. */
            if (subst_lhs_len > l_temp)
            if (subst_lhs_len > l_temp)
              {
              {
                *ret_string = hist_error (string, starting_index, i, SUBST_FAILED);
                *ret_string = hist_error (string, starting_index, i, SUBST_FAILED);
                free (result);
                free (result);
                free (temp);
                free (temp);
                return (-1);
                return (-1);
              }
              }
 
 
            /* Find the first occurrence of THIS in TEMP. */
            /* Find the first occurrence of THIS in TEMP. */
            /* Substitute SUBST_RHS for SUBST_LHS in TEMP.  There are three
            /* Substitute SUBST_RHS for SUBST_LHS in TEMP.  There are three
               cases to consider:
               cases to consider:
 
 
                 1.  substitute_globally == subst_bywords == 0
                 1.  substitute_globally == subst_bywords == 0
                 2.  substitute_globally == 1 && subst_bywords == 0
                 2.  substitute_globally == 1 && subst_bywords == 0
                 3.  substitute_globally == 0 && subst_bywords == 1
                 3.  substitute_globally == 0 && subst_bywords == 1
 
 
               In the first case, we substitute for the first occurrence only.
               In the first case, we substitute for the first occurrence only.
               In the second case, we substitute for every occurrence.
               In the second case, we substitute for every occurrence.
               In the third case, we tokenize into words and substitute the
               In the third case, we tokenize into words and substitute the
               first occurrence of each word. */
               first occurrence of each word. */
 
 
            si = we = 0;
            si = we = 0;
            for (failed = 1; (si + subst_lhs_len) <= l_temp; si++)
            for (failed = 1; (si + subst_lhs_len) <= l_temp; si++)
              {
              {
                /* First skip whitespace and find word boundaries if
                /* First skip whitespace and find word boundaries if
                   we're past the end of the word boundary we found
                   we're past the end of the word boundary we found
                   the last time. */
                   the last time. */
                if (subst_bywords && si > we)
                if (subst_bywords && si > we)
                  {
                  {
                    for (; temp[si] && whitespace (temp[si]); si++)
                    for (; temp[si] && whitespace (temp[si]); si++)
                      ;
                      ;
                    ws = si;
                    ws = si;
                    we = history_tokenize_word (temp, si);
                    we = history_tokenize_word (temp, si);
                  }
                  }
 
 
                if (STREQN (temp+si, subst_lhs, subst_lhs_len))
                if (STREQN (temp+si, subst_lhs, subst_lhs_len))
                  {
                  {
                    int len = subst_rhs_len - subst_lhs_len + l_temp;
                    int len = subst_rhs_len - subst_lhs_len + l_temp;
                    new_event = (char *)xmalloc (1 + len);
                    new_event = (char *)xmalloc (1 + len);
                    strncpy (new_event, temp, si);
                    strncpy (new_event, temp, si);
                    strncpy (new_event + si, subst_rhs, subst_rhs_len);
                    strncpy (new_event + si, subst_rhs, subst_rhs_len);
                    strncpy (new_event + si + subst_rhs_len,
                    strncpy (new_event + si + subst_rhs_len,
                             temp + si + subst_lhs_len,
                             temp + si + subst_lhs_len,
                             l_temp - (si + subst_lhs_len));
                             l_temp - (si + subst_lhs_len));
                    new_event[len] = '\0';
                    new_event[len] = '\0';
                    free (temp);
                    free (temp);
                    temp = new_event;
                    temp = new_event;
 
 
                    failed = 0;
                    failed = 0;
 
 
                    if (substitute_globally)
                    if (substitute_globally)
                      {
                      {
                        /* Reported to fix a bug that causes it to skip every
                        /* Reported to fix a bug that causes it to skip every
                           other match when matching a single character.  Was
                           other match when matching a single character.  Was
                           si += subst_rhs_len previously. */
                           si += subst_rhs_len previously. */
                        si += subst_rhs_len - 1;
                        si += subst_rhs_len - 1;
                        l_temp = strlen (temp);
                        l_temp = strlen (temp);
                        substitute_globally++;
                        substitute_globally++;
                        continue;
                        continue;
                      }
                      }
                    else if (subst_bywords)
                    else if (subst_bywords)
                      {
                      {
                        si = we;
                        si = we;
                        l_temp = strlen (temp);
                        l_temp = strlen (temp);
                        continue;
                        continue;
                      }
                      }
                    else
                    else
                      break;
                      break;
                  }
                  }
              }
              }
 
 
            if (substitute_globally > 1)
            if (substitute_globally > 1)
              {
              {
                substitute_globally = 0;
                substitute_globally = 0;
                continue;       /* don't want to increment i */
                continue;       /* don't want to increment i */
              }
              }
 
 
            if (failed == 0)
            if (failed == 0)
              continue;         /* don't want to increment i */
              continue;         /* don't want to increment i */
 
 
            *ret_string = hist_error (string, starting_index, i, SUBST_FAILED);
            *ret_string = hist_error (string, starting_index, i, SUBST_FAILED);
            free (result);
            free (result);
            free (temp);
            free (temp);
            return (-1);
            return (-1);
          }
          }
        }
        }
      i += 2;
      i += 2;
    }
    }
  /* Done with modfiers. */
  /* Done with modfiers. */
  /* Believe it or not, we have to back the pointer up by one. */
  /* Believe it or not, we have to back the pointer up by one. */
  --i;
  --i;
 
 
  if (want_quotes)
  if (want_quotes)
    {
    {
      char *x;
      char *x;
 
 
      if (want_quotes == 'q')
      if (want_quotes == 'q')
        x = sh_single_quote (temp);
        x = sh_single_quote (temp);
      else if (want_quotes == 'x')
      else if (want_quotes == 'x')
        x = quote_breaks (temp);
        x = quote_breaks (temp);
      else
      else
        x = savestring (temp);
        x = savestring (temp);
 
 
      free (temp);
      free (temp);
      temp = x;
      temp = x;
    }
    }
 
 
  n = strlen (temp);
  n = strlen (temp);
  if (n >= result_len)
  if (n >= result_len)
    result = (char *)xrealloc (result, n + 2);
    result = (char *)xrealloc (result, n + 2);
  strcpy (result, temp);
  strcpy (result, temp);
  free (temp);
  free (temp);
 
 
  *end_index_ptr = i;
  *end_index_ptr = i;
  *ret_string = result;
  *ret_string = result;
  return (print_only);
  return (print_only);
}
}
 
 
/* Expand the string STRING, placing the result into OUTPUT, a pointer
/* Expand the string STRING, placing the result into OUTPUT, a pointer
   to a string.  Returns:
   to a string.  Returns:
 
 
  -1) If there was an error in expansion.
  -1) If there was an error in expansion.
   0) If no expansions took place (or, if the only change in
   0) If no expansions took place (or, if the only change in
      the text was the de-slashifying of the history expansion
      the text was the de-slashifying of the history expansion
      character)
      character)
   1) If expansions did take place
   1) If expansions did take place
   2) If the `p' modifier was given and the caller should print the result
   2) If the `p' modifier was given and the caller should print the result
 
 
  If an error ocurred in expansion, then OUTPUT contains a descriptive
  If an error ocurred in expansion, then OUTPUT contains a descriptive
  error message. */
  error message. */
 
 
#define ADD_STRING(s) \
#define ADD_STRING(s) \
        do \
        do \
          { \
          { \
            int sl = strlen (s); \
            int sl = strlen (s); \
            j += sl; \
            j += sl; \
            if (j >= result_len) \
            if (j >= result_len) \
              { \
              { \
                while (j >= result_len) \
                while (j >= result_len) \
                  result_len += 128; \
                  result_len += 128; \
                result = (char *)xrealloc (result, result_len); \
                result = (char *)xrealloc (result, result_len); \
              } \
              } \
            strcpy (result + j - sl, s); \
            strcpy (result + j - sl, s); \
          } \
          } \
        while (0)
        while (0)
 
 
#define ADD_CHAR(c) \
#define ADD_CHAR(c) \
        do \
        do \
          { \
          { \
            if (j >= result_len - 1) \
            if (j >= result_len - 1) \
              result = (char *)xrealloc (result, result_len += 64); \
              result = (char *)xrealloc (result, result_len += 64); \
            result[j++] = c; \
            result[j++] = c; \
            result[j] = '\0'; \
            result[j] = '\0'; \
          } \
          } \
        while (0)
        while (0)
 
 
int
int
history_expand (hstring, output)
history_expand (hstring, output)
     char *hstring;
     char *hstring;
     char **output;
     char **output;
{
{
  register int j;
  register int j;
  int i, r, l, passc, cc, modified, eindex, only_printing, dquote;
  int i, r, l, passc, cc, modified, eindex, only_printing, dquote;
  char *string;
  char *string;
 
 
  /* The output string, and its length. */
  /* The output string, and its length. */
  int result_len;
  int result_len;
  char *result;
  char *result;
 
 
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
  char mb[MB_LEN_MAX];
  char mb[MB_LEN_MAX];
  mbstate_t ps;
  mbstate_t ps;
#endif
#endif
 
 
  /* Used when adding the string. */
  /* Used when adding the string. */
  char *temp;
  char *temp;
 
 
  if (output == 0)
  if (output == 0)
    return 0;
    return 0;
 
 
  /* Setting the history expansion character to 0 inhibits all
  /* Setting the history expansion character to 0 inhibits all
     history expansion. */
     history expansion. */
  if (history_expansion_char == 0)
  if (history_expansion_char == 0)
    {
    {
      *output = savestring (hstring);
      *output = savestring (hstring);
      return (0);
      return (0);
    }
    }
 
 
  /* Prepare the buffer for printing error messages. */
  /* Prepare the buffer for printing error messages. */
  result = (char *)xmalloc (result_len = 256);
  result = (char *)xmalloc (result_len = 256);
  result[0] = '\0';
  result[0] = '\0';
 
 
  only_printing = modified = 0;
  only_printing = modified = 0;
  l = strlen (hstring);
  l = strlen (hstring);
 
 
  /* Grovel the string.  Only backslash and single quotes can quote the
  /* Grovel the string.  Only backslash and single quotes can quote the
     history escape character.  We also handle arg specifiers. */
     history escape character.  We also handle arg specifiers. */
 
 
  /* Before we grovel forever, see if the history_expansion_char appears
  /* Before we grovel forever, see if the history_expansion_char appears
     anywhere within the text. */
     anywhere within the text. */
 
 
  /* The quick substitution character is a history expansion all right.  That
  /* The quick substitution character is a history expansion all right.  That
     is to say, "^this^that^" is equivalent to "!!:s^this^that^", and in fact,
     is to say, "^this^that^" is equivalent to "!!:s^this^that^", and in fact,
     that is the substitution that we do. */
     that is the substitution that we do. */
  if (hstring[0] == history_subst_char)
  if (hstring[0] == history_subst_char)
    {
    {
      string = (char *)xmalloc (l + 5);
      string = (char *)xmalloc (l + 5);
 
 
      string[0] = string[1] = history_expansion_char;
      string[0] = string[1] = history_expansion_char;
      string[2] = ':';
      string[2] = ':';
      string[3] = 's';
      string[3] = 's';
      strcpy (string + 4, hstring);
      strcpy (string + 4, hstring);
      l += 4;
      l += 4;
    }
    }
  else
  else
    {
    {
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
      memset (&ps, 0, sizeof (mbstate_t));
      memset (&ps, 0, sizeof (mbstate_t));
#endif
#endif
 
 
      string = hstring;
      string = hstring;
      /* If not quick substitution, still maybe have to do expansion. */
      /* If not quick substitution, still maybe have to do expansion. */
 
 
      /* `!' followed by one of the characters in history_no_expand_chars
      /* `!' followed by one of the characters in history_no_expand_chars
         is NOT an expansion. */
         is NOT an expansion. */
      for (i = dquote = 0; string[i]; i++)
      for (i = dquote = 0; string[i]; i++)
        {
        {
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
          if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
          if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
            {
            {
              int v;
              int v;
              v = _rl_get_char_len (string + i, &ps);
              v = _rl_get_char_len (string + i, &ps);
              if (v > 1)
              if (v > 1)
                {
                {
                  i += v - 1;
                  i += v - 1;
                  continue;
                  continue;
                }
                }
            }
            }
#endif /* HANDLE_MULTIBYTE */
#endif /* HANDLE_MULTIBYTE */
 
 
          cc = string[i + 1];
          cc = string[i + 1];
          /* The history_comment_char, if set, appearing at the beginning
          /* The history_comment_char, if set, appearing at the beginning
             of a word signifies that the rest of the line should not have
             of a word signifies that the rest of the line should not have
             history expansion performed on it.
             history expansion performed on it.
             Skip the rest of the line and break out of the loop. */
             Skip the rest of the line and break out of the loop. */
          if (history_comment_char && string[i] == history_comment_char &&
          if (history_comment_char && string[i] == history_comment_char &&
              (i == 0 || member (string[i - 1], history_word_delimiters)))
              (i == 0 || member (string[i - 1], history_word_delimiters)))
            {
            {
              while (string[i])
              while (string[i])
                i++;
                i++;
              break;
              break;
            }
            }
          else if (string[i] == history_expansion_char)
          else if (string[i] == history_expansion_char)
            {
            {
              if (!cc || member (cc, history_no_expand_chars))
              if (!cc || member (cc, history_no_expand_chars))
                continue;
                continue;
              /* If the calling application has set
              /* If the calling application has set
                 history_inhibit_expansion_function to a function that checks
                 history_inhibit_expansion_function to a function that checks
                 for special cases that should not be history expanded,
                 for special cases that should not be history expanded,
                 call the function and skip the expansion if it returns a
                 call the function and skip the expansion if it returns a
                 non-zero value. */
                 non-zero value. */
              else if (history_inhibit_expansion_function &&
              else if (history_inhibit_expansion_function &&
                        (*history_inhibit_expansion_function) (string, i))
                        (*history_inhibit_expansion_function) (string, i))
                continue;
                continue;
              else
              else
                break;
                break;
            }
            }
          /* Shell-like quoting: allow backslashes to quote double quotes
          /* Shell-like quoting: allow backslashes to quote double quotes
             inside a double-quoted string. */
             inside a double-quoted string. */
          else if (dquote && string[i] == '\\' && cc == '"')
          else if (dquote && string[i] == '\\' && cc == '"')
            i++;
            i++;
          /* More shell-like quoting:  if we're paying attention to single
          /* More shell-like quoting:  if we're paying attention to single
             quotes and letting them quote the history expansion character,
             quotes and letting them quote the history expansion character,
             then we need to pay attention to double quotes, because single
             then we need to pay attention to double quotes, because single
             quotes are not special inside double-quoted strings. */
             quotes are not special inside double-quoted strings. */
          else if (history_quotes_inhibit_expansion && string[i] == '"')
          else if (history_quotes_inhibit_expansion && string[i] == '"')
            {
            {
              dquote = 1 - dquote;
              dquote = 1 - dquote;
            }
            }
          else if (dquote == 0 && history_quotes_inhibit_expansion && string[i] == '\'')
          else if (dquote == 0 && history_quotes_inhibit_expansion && string[i] == '\'')
            {
            {
              /* If this is bash, single quotes inhibit history expansion. */
              /* If this is bash, single quotes inhibit history expansion. */
              i++;
              i++;
              hist_string_extract_single_quoted (string, &i);
              hist_string_extract_single_quoted (string, &i);
            }
            }
          else if (history_quotes_inhibit_expansion && string[i] == '\\')
          else if (history_quotes_inhibit_expansion && string[i] == '\\')
            {
            {
              /* If this is bash, allow backslashes to quote single
              /* If this is bash, allow backslashes to quote single
                 quotes and the history expansion character. */
                 quotes and the history expansion character. */
              if (cc == '\'' || cc == history_expansion_char)
              if (cc == '\'' || cc == history_expansion_char)
                i++;
                i++;
            }
            }
 
 
        }
        }
 
 
      if (string[i] != history_expansion_char)
      if (string[i] != history_expansion_char)
        {
        {
          free (result);
          free (result);
          *output = savestring (string);
          *output = savestring (string);
          return (0);
          return (0);
        }
        }
    }
    }
 
 
  /* Extract and perform the substitution. */
  /* Extract and perform the substitution. */
  for (passc = dquote = i = j = 0; i < l; i++)
  for (passc = dquote = i = j = 0; i < l; i++)
    {
    {
      int tchar = string[i];
      int tchar = string[i];
 
 
      if (passc)
      if (passc)
        {
        {
          passc = 0;
          passc = 0;
          ADD_CHAR (tchar);
          ADD_CHAR (tchar);
          continue;
          continue;
        }
        }
 
 
#if defined (HANDLE_MULTIBYTE)
#if defined (HANDLE_MULTIBYTE)
      if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
      if (MB_CUR_MAX > 1 && rl_byte_oriented == 0)
        {
        {
          int k, c;
          int k, c;
 
 
          c = tchar;
          c = tchar;
          memset (mb, 0, sizeof (mb));
          memset (mb, 0, sizeof (mb));
          for (k = 0; k < MB_LEN_MAX; k++)
          for (k = 0; k < MB_LEN_MAX; k++)
            {
            {
              mb[k] = (char)c;
              mb[k] = (char)c;
              memset (&ps, 0, sizeof (mbstate_t));
              memset (&ps, 0, sizeof (mbstate_t));
              if (_rl_get_char_len (mb, &ps) == -2)
              if (_rl_get_char_len (mb, &ps) == -2)
                c = string[++i];
                c = string[++i];
              else
              else
                break;
                break;
            }
            }
          if (strlen (mb) > 1)
          if (strlen (mb) > 1)
            {
            {
              ADD_STRING (mb);
              ADD_STRING (mb);
              break;
              break;
            }
            }
        }
        }
#endif /* HANDLE_MULTIBYTE */
#endif /* HANDLE_MULTIBYTE */
 
 
      if (tchar == history_expansion_char)
      if (tchar == history_expansion_char)
        tchar = -3;
        tchar = -3;
      else if (tchar == history_comment_char)
      else if (tchar == history_comment_char)
        tchar = -2;
        tchar = -2;
 
 
      switch (tchar)
      switch (tchar)
        {
        {
        default:
        default:
          ADD_CHAR (string[i]);
          ADD_CHAR (string[i]);
          break;
          break;
 
 
        case '\\':
        case '\\':
          passc++;
          passc++;
          ADD_CHAR (tchar);
          ADD_CHAR (tchar);
          break;
          break;
 
 
        case '"':
        case '"':
          dquote = 1 - dquote;
          dquote = 1 - dquote;
          ADD_CHAR (tchar);
          ADD_CHAR (tchar);
          break;
          break;
 
 
        case '\'':
        case '\'':
          {
          {
            /* If history_quotes_inhibit_expansion is set, single quotes
            /* If history_quotes_inhibit_expansion is set, single quotes
               inhibit history expansion. */
               inhibit history expansion. */
            if (dquote == 0 && history_quotes_inhibit_expansion)
            if (dquote == 0 && history_quotes_inhibit_expansion)
              {
              {
                int quote, slen;
                int quote, slen;
 
 
                quote = i++;
                quote = i++;
                hist_string_extract_single_quoted (string, &i);
                hist_string_extract_single_quoted (string, &i);
 
 
                slen = i - quote + 2;
                slen = i - quote + 2;
                temp = (char *)xmalloc (slen);
                temp = (char *)xmalloc (slen);
                strncpy (temp, string + quote, slen);
                strncpy (temp, string + quote, slen);
                temp[slen - 1] = '\0';
                temp[slen - 1] = '\0';
                ADD_STRING (temp);
                ADD_STRING (temp);
                free (temp);
                free (temp);
              }
              }
            else
            else
              ADD_CHAR (string[i]);
              ADD_CHAR (string[i]);
            break;
            break;
          }
          }
 
 
        case -2:                /* history_comment_char */
        case -2:                /* history_comment_char */
          if (i == 0 || member (string[i - 1], history_word_delimiters))
          if (i == 0 || member (string[i - 1], history_word_delimiters))
            {
            {
              temp = (char *)xmalloc (l - i + 1);
              temp = (char *)xmalloc (l - i + 1);
              strcpy (temp, string + i);
              strcpy (temp, string + i);
              ADD_STRING (temp);
              ADD_STRING (temp);
              free (temp);
              free (temp);
              i = l;
              i = l;
            }
            }
          else
          else
            ADD_CHAR (string[i]);
            ADD_CHAR (string[i]);
          break;
          break;
 
 
        case -3:                /* history_expansion_char */
        case -3:                /* history_expansion_char */
          cc = string[i + 1];
          cc = string[i + 1];
 
 
          /* If the history_expansion_char is followed by one of the
          /* If the history_expansion_char is followed by one of the
             characters in history_no_expand_chars, then it is not a
             characters in history_no_expand_chars, then it is not a
             candidate for expansion of any kind. */
             candidate for expansion of any kind. */
          if (member (cc, history_no_expand_chars))
          if (member (cc, history_no_expand_chars))
            {
            {
              ADD_CHAR (string[i]);
              ADD_CHAR (string[i]);
              break;
              break;
            }
            }
 
 
#if defined (NO_BANG_HASH_MODIFIERS)
#if defined (NO_BANG_HASH_MODIFIERS)
          /* There is something that is listed as a `word specifier' in csh
          /* There is something that is listed as a `word specifier' in csh
             documentation which means `the expanded text to this point'.
             documentation which means `the expanded text to this point'.
             That is not a word specifier, it is an event specifier.  If we
             That is not a word specifier, it is an event specifier.  If we
             don't want to allow modifiers with `!#', just stick the current
             don't want to allow modifiers with `!#', just stick the current
             output line in again. */
             output line in again. */
          if (cc == '#')
          if (cc == '#')
            {
            {
              if (result)
              if (result)
                {
                {
                  temp = (char *)xmalloc (1 + strlen (result));
                  temp = (char *)xmalloc (1 + strlen (result));
                  strcpy (temp, result);
                  strcpy (temp, result);
                  ADD_STRING (temp);
                  ADD_STRING (temp);
                  free (temp);
                  free (temp);
                }
                }
              i++;
              i++;
              break;
              break;
            }
            }
#endif
#endif
 
 
          r = history_expand_internal (string, i, &eindex, &temp, result);
          r = history_expand_internal (string, i, &eindex, &temp, result);
          if (r < 0)
          if (r < 0)
            {
            {
              *output = temp;
              *output = temp;
              free (result);
              free (result);
              if (string != hstring)
              if (string != hstring)
                free (string);
                free (string);
              return -1;
              return -1;
            }
            }
          else
          else
            {
            {
              if (temp)
              if (temp)
                {
                {
                  modified++;
                  modified++;
                  if (*temp)
                  if (*temp)
                    ADD_STRING (temp);
                    ADD_STRING (temp);
                  free (temp);
                  free (temp);
                }
                }
              only_printing = r == 1;
              only_printing = r == 1;
              i = eindex;
              i = eindex;
            }
            }
          break;
          break;
        }
        }
    }
    }
 
 
  *output = result;
  *output = result;
  if (string != hstring)
  if (string != hstring)
    free (string);
    free (string);
 
 
  if (only_printing)
  if (only_printing)
    {
    {
#if 0
#if 0
      add_history (result);
      add_history (result);
#endif
#endif
      return (2);
      return (2);
    }
    }
 
 
  return (modified != 0);
  return (modified != 0);
}
}
 
 
/* Return a consed string which is the word specified in SPEC, and found
/* Return a consed string which is the word specified in SPEC, and found
   in FROM.  NULL is returned if there is no spec.  The address of
   in FROM.  NULL is returned if there is no spec.  The address of
   ERROR_POINTER is returned if the word specified cannot be found.
   ERROR_POINTER is returned if the word specified cannot be found.
   CALLER_INDEX is the offset in SPEC to start looking; it is updated
   CALLER_INDEX is the offset in SPEC to start looking; it is updated
   to point to just after the last character parsed. */
   to point to just after the last character parsed. */
static char *
static char *
get_history_word_specifier (spec, from, caller_index)
get_history_word_specifier (spec, from, caller_index)
     char *spec, *from;
     char *spec, *from;
     int *caller_index;
     int *caller_index;
{
{
  register int i = *caller_index;
  register int i = *caller_index;
  int first, last;
  int first, last;
  int expecting_word_spec = 0;
  int expecting_word_spec = 0;
  char *result;
  char *result;
 
 
  /* The range of words to return doesn't exist yet. */
  /* The range of words to return doesn't exist yet. */
  first = last = 0;
  first = last = 0;
  result = (char *)NULL;
  result = (char *)NULL;
 
 
  /* If we found a colon, then this *must* be a word specification.  If
  /* If we found a colon, then this *must* be a word specification.  If
     it isn't, then it is an error. */
     it isn't, then it is an error. */
  if (spec[i] == ':')
  if (spec[i] == ':')
    {
    {
      i++;
      i++;
      expecting_word_spec++;
      expecting_word_spec++;
    }
    }
 
 
  /* Handle special cases first. */
  /* Handle special cases first. */
 
 
  /* `%' is the word last searched for. */
  /* `%' is the word last searched for. */
  if (spec[i] == '%')
  if (spec[i] == '%')
    {
    {
      *caller_index = i + 1;
      *caller_index = i + 1;
      return (search_match ? savestring (search_match) : savestring (""));
      return (search_match ? savestring (search_match) : savestring (""));
    }
    }
 
 
  /* `*' matches all of the arguments, but not the command. */
  /* `*' matches all of the arguments, but not the command. */
  if (spec[i] == '*')
  if (spec[i] == '*')
    {
    {
      *caller_index = i + 1;
      *caller_index = i + 1;
      result = history_arg_extract (1, '$', from);
      result = history_arg_extract (1, '$', from);
      return (result ? result : savestring (""));
      return (result ? result : savestring (""));
    }
    }
 
 
  /* `$' is last arg. */
  /* `$' is last arg. */
  if (spec[i] == '$')
  if (spec[i] == '$')
    {
    {
      *caller_index = i + 1;
      *caller_index = i + 1;
      return (history_arg_extract ('$', '$', from));
      return (history_arg_extract ('$', '$', from));
    }
    }
 
 
  /* Try to get FIRST and LAST figured out. */
  /* Try to get FIRST and LAST figured out. */
 
 
  if (spec[i] == '-')
  if (spec[i] == '-')
    first = 0;
    first = 0;
  else if (spec[i] == '^')
  else if (spec[i] == '^')
    {
    {
      first = 1;
      first = 1;
      i++;
      i++;
    }
    }
  else if (_rl_digit_p (spec[i]) && expecting_word_spec)
  else if (_rl_digit_p (spec[i]) && expecting_word_spec)
    {
    {
      for (first = 0; _rl_digit_p (spec[i]); i++)
      for (first = 0; _rl_digit_p (spec[i]); i++)
        first = (first * 10) + _rl_digit_value (spec[i]);
        first = (first * 10) + _rl_digit_value (spec[i]);
    }
    }
  else
  else
    return ((char *)NULL);      /* no valid `first' for word specifier */
    return ((char *)NULL);      /* no valid `first' for word specifier */
 
 
  if (spec[i] == '^' || spec[i] == '*')
  if (spec[i] == '^' || spec[i] == '*')
    {
    {
      last = (spec[i] == '^') ? 1 : '$';        /* x* abbreviates x-$ */
      last = (spec[i] == '^') ? 1 : '$';        /* x* abbreviates x-$ */
      i++;
      i++;
    }
    }
  else if (spec[i] != '-')
  else if (spec[i] != '-')
    last = first;
    last = first;
  else
  else
    {
    {
      i++;
      i++;
 
 
      if (_rl_digit_p (spec[i]))
      if (_rl_digit_p (spec[i]))
        {
        {
          for (last = 0; _rl_digit_p (spec[i]); i++)
          for (last = 0; _rl_digit_p (spec[i]); i++)
            last = (last * 10) + _rl_digit_value (spec[i]);
            last = (last * 10) + _rl_digit_value (spec[i]);
        }
        }
      else if (spec[i] == '$')
      else if (spec[i] == '$')
        {
        {
          i++;
          i++;
          last = '$';
          last = '$';
        }
        }
#if 0
#if 0
      else if (!spec[i] || spec[i] == ':')
      else if (!spec[i] || spec[i] == ':')
        /* check against `:' because there could be a modifier separator */
        /* check against `:' because there could be a modifier separator */
#else
#else
      else
      else
        /* csh seems to allow anything to terminate the word spec here,
        /* csh seems to allow anything to terminate the word spec here,
           leaving it as an abbreviation. */
           leaving it as an abbreviation. */
#endif
#endif
        last = -1;              /* x- abbreviates x-$ omitting word `$' */
        last = -1;              /* x- abbreviates x-$ omitting word `$' */
    }
    }
 
 
  *caller_index = i;
  *caller_index = i;
 
 
  if (last >= first || last == '$' || last < 0)
  if (last >= first || last == '$' || last < 0)
    result = history_arg_extract (first, last, from);
    result = history_arg_extract (first, last, from);
 
 
  return (result ? result : (char *)&error_pointer);
  return (result ? result : (char *)&error_pointer);
}
}
 
 
/* Extract the args specified, starting at FIRST, and ending at LAST.
/* Extract the args specified, starting at FIRST, and ending at LAST.
   The args are taken from STRING.  If either FIRST or LAST is < 0,
   The args are taken from STRING.  If either FIRST or LAST is < 0,
   then make that arg count from the right (subtract from the number of
   then make that arg count from the right (subtract from the number of
   tokens, so that FIRST = -1 means the next to last token on the line).
   tokens, so that FIRST = -1 means the next to last token on the line).
   If LAST is `$' the last arg from STRING is used. */
   If LAST is `$' the last arg from STRING is used. */
char *
char *
history_arg_extract (first, last, string)
history_arg_extract (first, last, string)
     int first, last;
     int first, last;
     const char *string;
     const char *string;
{
{
  register int i, len;
  register int i, len;
  char *result;
  char *result;
  int size, offset;
  int size, offset;
  char **list;
  char **list;
 
 
  /* XXX - think about making history_tokenize return a struct array,
  /* XXX - think about making history_tokenize return a struct array,
     each struct in array being a string and a length to avoid the
     each struct in array being a string and a length to avoid the
     calls to strlen below. */
     calls to strlen below. */
  if ((list = history_tokenize (string)) == NULL)
  if ((list = history_tokenize (string)) == NULL)
    return ((char *)NULL);
    return ((char *)NULL);
 
 
  for (len = 0; list[len]; len++)
  for (len = 0; list[len]; len++)
    ;
    ;
 
 
  if (last < 0)
  if (last < 0)
    last = len + last - 1;
    last = len + last - 1;
 
 
  if (first < 0)
  if (first < 0)
    first = len + first - 1;
    first = len + first - 1;
 
 
  if (last == '$')
  if (last == '$')
    last = len - 1;
    last = len - 1;
 
 
  if (first == '$')
  if (first == '$')
    first = len - 1;
    first = len - 1;
 
 
  last++;
  last++;
 
 
  if (first >= len || last > len || first < 0 || last < 0 || first > last)
  if (first >= len || last > len || first < 0 || last < 0 || first > last)
    result = ((char *)NULL);
    result = ((char *)NULL);
  else
  else
    {
    {
      for (size = 0, i = first; i < last; i++)
      for (size = 0, i = first; i < last; i++)
        size += strlen (list[i]) + 1;
        size += strlen (list[i]) + 1;
      result = (char *)xmalloc (size + 1);
      result = (char *)xmalloc (size + 1);
      result[0] = '\0';
      result[0] = '\0';
 
 
      for (i = first, offset = 0; i < last; i++)
      for (i = first, offset = 0; i < last; i++)
        {
        {
          strcpy (result + offset, list[i]);
          strcpy (result + offset, list[i]);
          offset += strlen (list[i]);
          offset += strlen (list[i]);
          if (i + 1 < last)
          if (i + 1 < last)
            {
            {
              result[offset++] = ' ';
              result[offset++] = ' ';
              result[offset] = 0;
              result[offset] = 0;
            }
            }
        }
        }
    }
    }
 
 
  for (i = 0; i < len; i++)
  for (i = 0; i < len; i++)
    free (list[i]);
    free (list[i]);
  free (list);
  free (list);
 
 
  return (result);
  return (result);
}
}
 
 
static int
static int
history_tokenize_word (string, ind)
history_tokenize_word (string, ind)
     const char *string;
     const char *string;
     int ind;
     int ind;
{
{
  register int i;
  register int i;
  int delimiter;
  int delimiter;
 
 
  i = ind;
  i = ind;
  delimiter = 0;
  delimiter = 0;
 
 
  if (member (string[i], "()\n"))
  if (member (string[i], "()\n"))
    {
    {
      i++;
      i++;
      return i;
      return i;
    }
    }
 
 
  if (member (string[i], "<>;&|$"))
  if (member (string[i], "<>;&|$"))
    {
    {
      int peek = string[i + 1];
      int peek = string[i + 1];
 
 
      if (peek == string[i] && peek != '$')
      if (peek == string[i] && peek != '$')
        {
        {
          if (peek == '<' && string[i + 2] == '-')
          if (peek == '<' && string[i + 2] == '-')
            i++;
            i++;
          i += 2;
          i += 2;
          return i;
          return i;
        }
        }
      else
      else
        {
        {
          if ((peek == '&' && (string[i] == '>' || string[i] == '<')) ||
          if ((peek == '&' && (string[i] == '>' || string[i] == '<')) ||
              (peek == '>' && string[i] == '&') ||
              (peek == '>' && string[i] == '&') ||
              (peek == '(' && (string[i] == '>' || string[i] == '<')) || /* ) */
              (peek == '(' && (string[i] == '>' || string[i] == '<')) || /* ) */
              (peek == '(' && string[i] == '$')) /* ) */
              (peek == '(' && string[i] == '$')) /* ) */
            {
            {
              i += 2;
              i += 2;
              return i;
              return i;
            }
            }
        }
        }
 
 
      if (string[i] != '$')
      if (string[i] != '$')
        {
        {
          i++;
          i++;
          return i;
          return i;
        }
        }
    }
    }
 
 
  /* Get word from string + i; */
  /* Get word from string + i; */
 
 
  if (member (string[i], HISTORY_QUOTE_CHARACTERS))
  if (member (string[i], HISTORY_QUOTE_CHARACTERS))
    delimiter = string[i++];
    delimiter = string[i++];
 
 
  for (; string[i]; i++)
  for (; string[i]; i++)
    {
    {
      if (string[i] == '\\' && string[i + 1] == '\n')
      if (string[i] == '\\' && string[i + 1] == '\n')
        {
        {
          i++;
          i++;
          continue;
          continue;
        }
        }
 
 
      if (string[i] == '\\' && delimiter != '\'' &&
      if (string[i] == '\\' && delimiter != '\'' &&
          (delimiter != '"' || member (string[i], slashify_in_quotes)))
          (delimiter != '"' || member (string[i], slashify_in_quotes)))
        {
        {
          i++;
          i++;
          continue;
          continue;
        }
        }
 
 
      if (delimiter && string[i] == delimiter)
      if (delimiter && string[i] == delimiter)
        {
        {
          delimiter = 0;
          delimiter = 0;
          continue;
          continue;
        }
        }
 
 
      if (!delimiter && (member (string[i], history_word_delimiters)))
      if (!delimiter && (member (string[i], history_word_delimiters)))
        break;
        break;
 
 
      if (!delimiter && member (string[i], HISTORY_QUOTE_CHARACTERS))
      if (!delimiter && member (string[i], HISTORY_QUOTE_CHARACTERS))
        delimiter = string[i];
        delimiter = string[i];
    }
    }
 
 
  return i;
  return i;
}
}
 
 
static char *
static char *
history_substring (string, start, end)
history_substring (string, start, end)
     const char *string;
     const char *string;
     int start, end;
     int start, end;
{
{
  register int len;
  register int len;
  register char *result;
  register char *result;
 
 
  len = end - start;
  len = end - start;
  result = (char *)xmalloc (len + 1);
  result = (char *)xmalloc (len + 1);
  strncpy (result, string + start, len);
  strncpy (result, string + start, len);
  result[len] = '\0';
  result[len] = '\0';
  return result;
  return result;
}
}
 
 
/* Parse STRING into tokens and return an array of strings.  If WIND is
/* Parse STRING into tokens and return an array of strings.  If WIND is
   not -1 and INDP is not null, we also want the word surrounding index
   not -1 and INDP is not null, we also want the word surrounding index
   WIND.  The position in the returned array of strings is returned in
   WIND.  The position in the returned array of strings is returned in
   *INDP. */
   *INDP. */
static char **
static char **
history_tokenize_internal (string, wind, indp)
history_tokenize_internal (string, wind, indp)
     const char *string;
     const char *string;
     int wind, *indp;
     int wind, *indp;
{
{
  char **result;
  char **result;
  register int i, start, result_index, size;
  register int i, start, result_index, size;
 
 
  /* If we're searching for a string that's not part of a word (e.g., " "),
  /* If we're searching for a string that's not part of a word (e.g., " "),
     make sure we set *INDP to a reasonable value. */
     make sure we set *INDP to a reasonable value. */
  if (indp && wind != -1)
  if (indp && wind != -1)
    *indp = -1;
    *indp = -1;
 
 
  /* Get a token, and stuff it into RESULT.  The tokens are split
  /* Get a token, and stuff it into RESULT.  The tokens are split
     exactly where the shell would split them. */
     exactly where the shell would split them. */
  for (i = result_index = size = 0, result = (char **)NULL; string[i]; )
  for (i = result_index = size = 0, result = (char **)NULL; string[i]; )
    {
    {
      /* Skip leading whitespace. */
      /* Skip leading whitespace. */
      for (; string[i] && whitespace (string[i]); i++)
      for (; string[i] && whitespace (string[i]); i++)
        ;
        ;
      if (string[i] == 0 || string[i] == history_comment_char)
      if (string[i] == 0 || string[i] == history_comment_char)
        return (result);
        return (result);
 
 
      start = i;
      start = i;
 
 
      i = history_tokenize_word (string, start);
      i = history_tokenize_word (string, start);
 
 
      /* If we have a non-whitespace delimiter character (which would not be
      /* If we have a non-whitespace delimiter character (which would not be
         skipped by the loop above), use it and any adjacent delimiters to
         skipped by the loop above), use it and any adjacent delimiters to
         make a separate field.  Any adjacent white space will be skipped the
         make a separate field.  Any adjacent white space will be skipped the
         next time through the loop. */
         next time through the loop. */
      if (i == start && history_word_delimiters)
      if (i == start && history_word_delimiters)
        {
        {
          i++;
          i++;
          while (string[i] && member (string[i], history_word_delimiters))
          while (string[i] && member (string[i], history_word_delimiters))
            i++;
            i++;
        }
        }
 
 
      /* If we are looking for the word in which the character at a
      /* If we are looking for the word in which the character at a
         particular index falls, remember it. */
         particular index falls, remember it. */
      if (indp && wind != -1 && wind >= start && wind < i)
      if (indp && wind != -1 && wind >= start && wind < i)
        *indp = result_index;
        *indp = result_index;
 
 
      if (result_index + 2 >= size)
      if (result_index + 2 >= size)
        result = (char **)xrealloc (result, ((size += 10) * sizeof (char *)));
        result = (char **)xrealloc (result, ((size += 10) * sizeof (char *)));
 
 
      result[result_index++] = history_substring (string, start, i);
      result[result_index++] = history_substring (string, start, i);
      result[result_index] = (char *)NULL;
      result[result_index] = (char *)NULL;
    }
    }
 
 
  return (result);
  return (result);
}
}
 
 
/* Return an array of tokens, much as the shell might.  The tokens are
/* Return an array of tokens, much as the shell might.  The tokens are
   parsed out of STRING. */
   parsed out of STRING. */
char **
char **
history_tokenize (string)
history_tokenize (string)
     const char *string;
     const char *string;
{
{
  return (history_tokenize_internal (string, -1, (int *)NULL));
  return (history_tokenize_internal (string, -1, (int *)NULL));
}
}
 
 
/* Find and return the word which contains the character at index IND
/* Find and return the word which contains the character at index IND
   in the history line LINE.  Used to save the word matched by the
   in the history line LINE.  Used to save the word matched by the
   last history !?string? search. */
   last history !?string? search. */
static char *
static char *
history_find_word (line, ind)
history_find_word (line, ind)
     char *line;
     char *line;
     int ind;
     int ind;
{
{
  char **words, *s;
  char **words, *s;
  int i, wind;
  int i, wind;
 
 
  words = history_tokenize_internal (line, ind, &wind);
  words = history_tokenize_internal (line, ind, &wind);
  if (wind == -1 || words == 0)
  if (wind == -1 || words == 0)
    return ((char *)NULL);
    return ((char *)NULL);
  s = words[wind];
  s = words[wind];
  for (i = 0; i < wind; i++)
  for (i = 0; i < wind; i++)
    free (words[i]);
    free (words[i]);
  for (i = wind + 1; words[i]; i++)
  for (i = wind + 1; words[i]; i++)
    free (words[i]);
    free (words[i]);
  free (words);
  free (words);
  return s;
  return s;
}
}
 
 

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