[binutils.git] / readline / history.c

/* history.c -- standalone history library */

/* Copyright (C) 1989-2005 Free Software Foundation, Inc.

   This file contains the GNU History Library (the Library), a set of
   routines for managing the text of previously typed lines.

   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
   the Free Software Foundation; either version 2, or (at your option)
   any later version.

   The Library 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.

   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
   have a copy of the license, write to the Free Software Foundation,
   59 Temple Place, Suite 330, Boston, MA 02111 USA. */

/* The goal is to make the implementation transparent, so that you
   don't have to know what data types are used, just what functions
   you can call.  I think I have done that. */
#define READLINE_LIBRARY

#if defined (HAVE_CONFIG_H)
#  include <config.h>
#endif

#include <stdio.h>

#if defined (HAVE_STDLIB_H)
#  include <stdlib.h>
#else
#  include "ansi_stdlib.h"
#endif /* HAVE_STDLIB_H */

#if defined (HAVE_UNISTD_H)
#  ifdef _MINIX
#    include <sys/types.h>
#  endif
#  include <unistd.h>
#endif

#include "history.h"
#include "histlib.h"

#include "xmalloc.h"

/* The number of slots to increase the_history by. */
#define DEFAULT_HISTORY_GROW_SIZE 50

static char *hist_inittime PARAMS((void));

/* **************************************************************** */
/*								    */
/*			History Functions			    */
/*								    */
/* **************************************************************** */

/* An array of HIST_ENTRY.  This is where we store the history. */
static HIST_ENTRY **the_history = (HIST_ENTRY **)NULL;

/* Non-zero means that we have enforced a limit on the amount of
   history that we save. */
static int history_stifled;

/* The current number of slots allocated to the input_history. */
static int history_size;

/* If HISTORY_STIFLED is non-zero, then this is the maximum number of
   entries to remember. */
int history_max_entries;
int max_input_history;	/* backwards compatibility */

/* The current location of the interactive history pointer.  Just makes
   life easier for outside callers. */
int history_offset;

/* The number of strings currently stored in the history list. */
int history_length;

/* The logical `base' of the history array.  It defaults to 1. */
int history_base = 1;

/* Return the current HISTORY_STATE of the history. */
HISTORY_STATE *
history_get_history_state ()
{
  HISTORY_STATE *state;

  state = (HISTORY_STATE *)xmalloc (sizeof (HISTORY_STATE));
  state->entries = the_history;
  state->offset = history_offset;
  state->length = history_length;
  state->size = history_size;
  state->flags = 0;
  if (history_stifled)
    state->flags |= HS_STIFLED;

  return (state);
}

/* Set the state of the current history array to STATE. */
void
history_set_history_state (state)
     HISTORY_STATE *state;
{
  the_history = state->entries;
  history_offset = state->offset;
  history_length = state->length;
  history_size = state->size;
  if (state->flags & HS_STIFLED)
    history_stifled = 1;
}

/* Begin a session in which the history functions might be used.  This
   initializes interactive variables. */
void
using_history ()
{
  history_offset = history_length;
}

/* Return the number of bytes that the primary history entries are using.
   This just adds up the lengths of the_history->lines and the associated
   timestamps. */
int
history_total_bytes ()
{
  register int i, result;

  for (i = result = 0; the_history && the_history[i]; i++)
    result += HISTENT_BYTES (the_history[i]);

  return (result);
}

/* Returns the magic number which says what history element we are
   looking at now.  In this implementation, it returns history_offset. */
int
where_history ()
{
  return (history_offset);
}

/* Make the current history item be the one at POS, an absolute index.
   Returns zero if POS is out of range, else non-zero. */
int
history_set_pos (pos)
     int pos;
{
  if (pos > history_length || pos < 0 || !the_history)
    return (0);
  history_offset = pos;
  return (1);
}
 
/* Return the current history array.  The caller has to be carefull, since this
   is the actual array of data, and could be bashed or made corrupt easily.
   The array is terminated with a NULL pointer. */
HIST_ENTRY **
history_list ()
{
  return (the_history);
}

/* Return the history entry at the current position, as determined by
   history_offset.  If there is no entry there, return a NULL pointer. */
HIST_ENTRY *
current_history ()
{
  return ((history_offset == history_length) || the_history == 0)
		? (HIST_ENTRY *)NULL
		: the_history[history_offset];
}

/* Back up history_offset to the previous history entry, and return
   a pointer to that entry.  If there is no previous entry then return
   a NULL pointer. */
HIST_ENTRY *
previous_history ()
{
  return history_offset ? the_history[--history_offset] : (HIST_ENTRY *)NULL;
}

/* Move history_offset forward to the next history entry, and return
   a pointer to that entry.  If there is no next entry then return a
   NULL pointer. */
HIST_ENTRY *
next_history ()
{
  return (history_offset == history_length) ? (HIST_ENTRY *)NULL : the_history[++history_offset];
}

/* Return the history entry which is logically at OFFSET in the history array.
   OFFSET is relative to history_base. */
HIST_ENTRY *
history_get (offset)
     int offset;
{
  int local_index;

  local_index = offset - history_base;
  return (local_index >= history_length || local_index < 0 || the_history == 0)
		? (HIST_ENTRY *)NULL
		: the_history[local_index];
}

time_t
history_get_time (hist)
     HIST_ENTRY *hist;
{
  char *ts;
  time_t t;

  if (hist == 0 || hist->timestamp == 0)
    return 0;
  ts = hist->timestamp;
  if (ts[0] != history_comment_char)
    return 0;
  t = (time_t) atol (ts + 1);		/* XXX - should use strtol() here */
  return t;
}

static char *
hist_inittime ()
{
  time_t t;
  char ts[64], *ret;

  t = (time_t) time ((time_t *)0);
#if defined (HAVE_VSNPRINTF)		/* assume snprintf if vsnprintf exists */
  snprintf (ts, sizeof (ts) - 1, "X%lu", (unsigned long) t);
#else
  sprintf (ts, "X%lu", (unsigned long) t);
#endif
  ret = savestring (ts);
  ret[0] = history_comment_char;

  return ret;
}

/* Place STRING at the end of the history list.  The data field
   is  set to NULL. */
void
add_history (string)
     const char *string;
{
  HIST_ENTRY *temp;

  if (history_stifled && (history_length == history_max_entries))
    {
      register int i;

      /* If the history is stifled, and history_length is zero,
	 and it equals history_max_entries, we don't save items. */
      if (history_length == 0)
	return;

      /* If there is something in the slot, then remove it. */
      if (the_history[0])
	(void) free_history_entry (the_history[0]);

      /* Copy the rest of the entries, moving down one slot. */
      for (i = 0; i < history_length; i++)
	the_history[i] = the_history[i + 1];

      history_base++;
    }
  else
    {
      if (history_size == 0)
	{
	  history_size = DEFAULT_HISTORY_GROW_SIZE;
	  the_history = (HIST_ENTRY **)xmalloc (history_size * sizeof (HIST_ENTRY *));
	  history_length = 1;
	}
      else
	{
	  if (history_length == (history_size - 1))
	    {
	      history_size += DEFAULT_HISTORY_GROW_SIZE;
	      the_history = (HIST_ENTRY **)
		xrealloc (the_history, history_size * sizeof (HIST_ENTRY *));
	    }
	  history_length++;
	}
    }

  temp = (HIST_ENTRY *)xmalloc (sizeof (HIST_ENTRY));
  temp->line = savestring (string);
  temp->data = (char *)NULL;

  temp->timestamp = hist_inittime ();

  the_history[history_length] = (HIST_ENTRY *)NULL;
  the_history[history_length - 1] = temp;
}

/* Change the time stamp of the most recent history entry to STRING. */
void
add_history_time (string)
     const char *string;
{
  HIST_ENTRY *hs;

  hs = the_history[history_length - 1];
  FREE (hs->timestamp);
  hs->timestamp = savestring (string);
}

/* Free HIST and return the data so the calling application can free it
   if necessary and desired. */
histdata_t
free_history_entry (hist)
     HIST_ENTRY *hist;
{
  histdata_t x;

  if (hist == 0)
    return ((histdata_t) 0);
  FREE (hist->line);
  FREE (hist->timestamp);
  x = hist->data;
  free (hist);
  return (x);
}
  
/* Make the history entry at WHICH have LINE and DATA.  This returns
   the old entry so you can dispose of the data.  In the case of an
   invalid WHICH, a NULL pointer is returned. */
HIST_ENTRY *
replace_history_entry (which, line, data)
     int which;
     const char *line;
     histdata_t data;
{
  HIST_ENTRY *temp, *old_value;

  if (which < 0 || which >= history_length)
    return ((HIST_ENTRY *)NULL);

  temp = (HIST_ENTRY *)xmalloc (sizeof (HIST_ENTRY));
  old_value = the_history[which];

  temp->line = savestring (line);
  temp->data = data;
  temp->timestamp = savestring (old_value->timestamp);
  the_history[which] = temp;

  return (old_value);
}

/* Remove history element WHICH from the history.  The removed
   element is returned to you so you can free the line, data,
   and containing structure. */
HIST_ENTRY *
remove_history (which)
     int which;
{
  HIST_ENTRY *return_value;
  register int i;

  if (which < 0 || which >= history_length || history_length ==  0 || the_history == 0)
    return ((HIST_ENTRY *)NULL);

  return_value = the_history[which];

  for (i = which; i < history_length; i++)
    the_history[i] = the_history[i + 1];

  history_length--;

  return (return_value);
}

/* Stifle the history list, remembering only MAX number of lines. */
void
stifle_history (max)
     int max;
{
  register int i, j;

  if (max < 0)
    max = 0;

  if (history_length > max)
    {
      /* This loses because we cannot free the data. */
      for (i = 0, j = history_length - max; i < j; i++)
	free_history_entry (the_history[i]);

      history_base = i;
      for (j = 0, i = history_length - max; j < max; i++, j++)
	the_history[j] = the_history[i];
      the_history[j] = (HIST_ENTRY *)NULL;
      history_length = j;
    }

  history_stifled = 1;
  max_input_history = history_max_entries = max;
}

/* Stop stifling the history.  This returns the previous maximum
   number of history entries.  The value is positive if the history
   was stifled,  negative if it wasn't. */
int
unstifle_history ()
{
  if (history_stifled)
    {
      history_stifled = 0;
      return (history_max_entries);
    }
  else
    return (-history_max_entries);
}

int
history_is_stifled ()
{
  return (history_stifled);
}

void
clear_history ()
{
  register int i;

  /* This loses because we cannot free the data. */
  for (i = 0; i < history_length; i++)
    {
      free_history_entry (the_history[i]);
      the_history[i] = (HIST_ENTRY *)NULL;
    }

  history_offset = history_length = 0;
}
Commit	Line	Data
5bdf8622	1	/* history.c -- standalone history library */
d60d9f65	2
5bdf8622	3	/* Copyright (C) 1989-2005 Free Software Foundation, Inc.
d60d9f65 SS	4
	5	This file contains the GNU History Library (the Library), a set of
	6	routines for managing the text of previously typed lines.
	7
	8	The Library is free software; you can redistribute it and/or modify
	9	it under the terms of the GNU General Public License as published by
1b17e766	10	the Free Software Foundation; either version 2, or (at your option)
d60d9f65 SS	11	any later version.
	12
	13	The Library is distributed in the hope that it will be useful, but
	14	WITHOUT ANY WARRANTY; without even the implied warranty of
	15	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	16	General Public License for more details.
	17
	18	The GNU General Public License is often shipped with GNU software, and
	19	is generally kept in a file called COPYING or LICENSE. If you do not
	20	have a copy of the license, write to the Free Software Foundation,
1b17e766	21	59 Temple Place, Suite 330, Boston, MA 02111 USA. */
d60d9f65 SS	22
	23	/* The goal is to make the implementation transparent, so that you
	24	don't have to know what data types are used, just what functions
	25	you can call. I think I have done that. */
	26	#define READLINE_LIBRARY
	27
	28	#if defined (HAVE_CONFIG_H)
	29	# include <config.h>
	30	#endif
	31
	32	#include <stdio.h>
	33
	34	#if defined (HAVE_STDLIB_H)
	35	# include <stdlib.h>
	36	#else
	37	# include "ansi_stdlib.h"
	38	#endif /* HAVE_STDLIB_H */
	39
	40	#if defined (HAVE_UNISTD_H)
	41	# ifdef _MINIX
	42	# include <sys/types.h>
	43	# endif
	44	# include <unistd.h>
	45	#endif
	46
d60d9f65 SS	47	#include "history.h"
	48	#include "histlib.h"
	49
1b17e766	50	#include "xmalloc.h"
d60d9f65 SS	51
	52	/* The number of slots to increase the_history by. */
	53	#define DEFAULT_HISTORY_GROW_SIZE 50
	54
5bdf8622 DJ	55	static char *hist_inittime PARAMS((void));
5bdf8622 DJ	56
d60d9f65 SS	57	/* **************************************************************** */
	58	/* */
	59	/* History Functions */
	60	/* */
	61	/* **************************************************************** */
	62
	63	/* An array of HIST_ENTRY. This is where we store the history. */
	64	static HIST_ENTRY the_history = (HIST_ENTRY )NULL;
	65
	66	/* Non-zero means that we have enforced a limit on the amount of
	67	history that we save. */
	68	static int history_stifled;
	69
9255ee31 EZ	70	/* The current number of slots allocated to the input_history. */
	71	static int history_size;
	72
d60d9f65 SS	73	/* If HISTORY_STIFLED is non-zero, then this is the maximum number of
d60d9f65 SS	74	entries to remember. */
9255ee31 EZ	75	int history_max_entries;
9255ee31 EZ	76	int max_input_history; /* backwards compatibility */
d60d9f65 SS	77
	78	/* The current location of the interactive history pointer. Just makes
	79	life easier for outside callers. */
	80	int history_offset;
	81
	82	/* The number of strings currently stored in the history list. */
	83	int history_length;
	84
d60d9f65 SS	85	/* The logical `base' of the history array. It defaults to 1. */
	86	int history_base = 1;
	87
	88	/* Return the current HISTORY_STATE of the history. */
	89	HISTORY_STATE *
	90	history_get_history_state ()
	91	{
	92	HISTORY_STATE *state;
	93
	94	state = (HISTORY_STATE *)xmalloc (sizeof (HISTORY_STATE));
	95	state->entries = the_history;
	96	state->offset = history_offset;
	97	state->length = history_length;
	98	state->size = history_size;
	99	state->flags = 0;
	100	if (history_stifled)
	101	state->flags \|= HS_STIFLED;
	102
	103	return (state);
	104	}
	105
	106	/* Set the state of the current history array to STATE. */
	107	void
	108	history_set_history_state (state)
	109	HISTORY_STATE *state;
	110	{
	111	the_history = state->entries;
	112	history_offset = state->offset;
	113	history_length = state->length;
	114	history_size = state->size;
	115	if (state->flags & HS_STIFLED)
	116	history_stifled = 1;
	117	}
	118
	119	/* Begin a session in which the history functions might be used. This
	120	initializes interactive variables. */
	121	void
	122	using_history ()
	123	{
	124	history_offset = history_length;
	125	}
	126
	127	/* Return the number of bytes that the primary history entries are using.
5bdf8622 DJ	128	This just adds up the lengths of the_history->lines and the associated
5bdf8622 DJ	129	timestamps. */
d60d9f65 SS	130	int
	131	history_total_bytes ()
	132	{
	133	register int i, result;
	134
9255ee31	135	for (i = result = 0; the_history && the_history[i]; i++)
5bdf8622	136	result += HISTENT_BYTES (the_history[i]);
d60d9f65 SS	137
	138	return (result);
	139	}
	140
	141	/* Returns the magic number which says what history element we are
	142	looking at now. In this implementation, it returns history_offset. */
	143	int
	144	where_history ()
	145	{
	146	return (history_offset);
	147	}
	148
	149	/* Make the current history item be the one at POS, an absolute index.
	150	Returns zero if POS is out of range, else non-zero. */
	151	int
	152	history_set_pos (pos)
	153	int pos;
	154	{
	155	if (pos > history_length \|\| pos < 0 \|\| !the_history)
	156	return (0);
	157	history_offset = pos;
	158	return (1);
	159	}
	160
	161	/* Return the current history array. The caller has to be carefull, since this
	162	is the actual array of data, and could be bashed or made corrupt easily.
	163	The array is terminated with a NULL pointer. */
	164	HIST_ENTRY **
	165	history_list ()
	166	{
	167	return (the_history);
	168	}
	169
	170	/* Return the history entry at the current position, as determined by
	171	history_offset. If there is no entry there, return a NULL pointer. */
	172	HIST_ENTRY *
	173	current_history ()
	174	{
	175	return ((history_offset == history_length) \|\| the_history == 0)
	176	? (HIST_ENTRY *)NULL
	177	: the_history[history_offset];
	178	}
	179
	180	/* Back up history_offset to the previous history entry, and return
	181	a pointer to that entry. If there is no previous entry then return
	182	a NULL pointer. */
	183	HIST_ENTRY *
	184	previous_history ()
	185	{
	186	return history_offset ? the_history[--history_offset] : (HIST_ENTRY *)NULL;
	187	}
	188
	189	/* Move history_offset forward to the next history entry, and return
	190	a pointer to that entry. If there is no next entry then return a
	191	NULL pointer. */
	192	HIST_ENTRY *
	193	next_history ()
	194	{
	195	return (history_offset == history_length) ? (HIST_ENTRY *)NULL : the_history[++history_offset];
	196	}
	197
	198	/* Return the history entry which is logically at OFFSET in the history array.
	199	OFFSET is relative to history_base. */
	200	HIST_ENTRY *
201	history_get (offset)
202	int offset;
203	{
204	int local_index;
205
206	local_index = offset - history_base;
5bdf8622	207	return (local_index >= history_length \|\| local_index < 0 \|\| the_history == 0)
d60d9f65 SS	208	? (HIST_ENTRY *)NULL
	209	: the_history[local_index];
	210	}
	211
5bdf8622 DJ	212	time_t
	213	history_get_time (hist)
	214	HIST_ENTRY *hist;
	215	{
	216	char *ts;
	217	time_t t;
	218
	219	if (hist == 0 \|\| hist->timestamp == 0)
	220	return 0;
	221	ts = hist->timestamp;
	222	if (ts[0] != history_comment_char)
	223	return 0;
	224	t = (time_t) atol (ts + 1); /* XXX - should use strtol() here */
	225	return t;
	226	}
	227
	228	static char *
	229	hist_inittime ()
	230	{
	231	time_t t;
	232	char ts[64], *ret;
	233
	234	t = (time_t) time ((time_t *)0);
	235	#if defined (HAVE_VSNPRINTF) /* assume snprintf if vsnprintf exists */
	236	snprintf (ts, sizeof (ts) - 1, "X%lu", (unsigned long) t);
	237	#else
	238	sprintf (ts, "X%lu", (unsigned long) t);
	239	#endif
	240	ret = savestring (ts);
	241	ret[0] = history_comment_char;
	242
	243	return ret;
	244	}
	245
d60d9f65 SS	246	/* Place STRING at the end of the history list. The data field
	247	is set to NULL. */
	248	void
	249	add_history (string)
9255ee31	250	const char *string;
d60d9f65 SS	251	{
	252	HIST_ENTRY *temp;
	253
9255ee31	254	if (history_stifled && (history_length == history_max_entries))
d60d9f65 SS	255	{
	256	register int i;
	257
	258	/* If the history is stifled, and history_length is zero,
9255ee31	259	and it equals history_max_entries, we don't save items. */
d60d9f65 SS	260	if (history_length == 0)
	261	return;
	262
	263	/* If there is something in the slot, then remove it. */
	264	if (the_history[0])
5bdf8622	265	(void) free_history_entry (the_history[0]);
d60d9f65 SS	266
	267	/* Copy the rest of the entries, moving down one slot. */
	268	for (i = 0; i < history_length; i++)
	269	the_history[i] = the_history[i + 1];
	270
	271	history_base++;
	272	}
	273	else
	274	{
	275	if (history_size == 0)
	276	{
	277	history_size = DEFAULT_HISTORY_GROW_SIZE;
	278	the_history = (HIST_ENTRY *)xmalloc (history_size sizeof (HIST_ENTRY *));
	279	history_length = 1;
	280	}
	281	else
	282	{
	283	if (history_length == (history_size - 1))
	284	{
	285	history_size += DEFAULT_HISTORY_GROW_SIZE;
	286	the_history = (HIST_ENTRY **)
	287	xrealloc (the_history, history_size * sizeof (HIST_ENTRY *));
	288	}
	289	history_length++;
	290	}
	291	}
	292
	293	temp = (HIST_ENTRY *)xmalloc (sizeof (HIST_ENTRY));
	294	temp->line = savestring (string);
	295	temp->data = (char *)NULL;
	296
5bdf8622 DJ	297	temp->timestamp = hist_inittime ();
5bdf8622 DJ	298
d60d9f65 SS	299	the_history[history_length] = (HIST_ENTRY *)NULL;
	300	the_history[history_length - 1] = temp;
	301	}
	302
5bdf8622 DJ	303	/* Change the time stamp of the most recent history entry to STRING. */
	304	void
	305	add_history_time (string)
	306	const char *string;
	307	{
	308	HIST_ENTRY *hs;
	309
	310	hs = the_history[history_length - 1];
	311	FREE (hs->timestamp);
	312	hs->timestamp = savestring (string);
	313	}
	314
	315	/* Free HIST and return the data so the calling application can free it
	316	if necessary and desired. */
	317	histdata_t
	318	free_history_entry (hist)
	319	HIST_ENTRY *hist;
	320	{
	321	histdata_t x;
	322
	323	if (hist == 0)
	324	return ((histdata_t) 0);
	325	FREE (hist->line);
	326	FREE (hist->timestamp);
	327	x = hist->data;
	328	free (hist);
	329	return (x);
	330	}
	331
d60d9f65 SS	332	/* Make the history entry at WHICH have LINE and DATA. This returns
	333	the old entry so you can dispose of the data. In the case of an
	334	invalid WHICH, a NULL pointer is returned. */
	335	HIST_ENTRY *
	336	replace_history_entry (which, line, data)
	337	int which;
9255ee31	338	const char *line;
c862e87b	339	histdata_t data;
d60d9f65	340	{
9255ee31	341	HIST_ENTRY temp, old_value;
d60d9f65	342
5bdf8622	343	if (which < 0 \|\| which >= history_length)
d60d9f65 SS	344	return ((HIST_ENTRY *)NULL);
d60d9f65 SS	345
9255ee31	346	temp = (HIST_ENTRY *)xmalloc (sizeof (HIST_ENTRY));
d60d9f65 SS	347	old_value = the_history[which];
	348
	349	temp->line = savestring (line);
	350	temp->data = data;
5bdf8622	351	temp->timestamp = savestring (old_value->timestamp);
d60d9f65 SS	352	the_history[which] = temp;
	353
	354	return (old_value);
	355	}
	356
	357	/* Remove history element WHICH from the history. The removed
	358	element is returned to you so you can free the line, data,
	359	and containing structure. */
	360	HIST_ENTRY *
	361	remove_history (which)
	362	int which;
	363	{
	364	HIST_ENTRY *return_value;
9255ee31	365	register int i;
d60d9f65	366
5bdf8622 DJ	367	if (which < 0 \|\| which >= history_length \|\| history_length == 0 \|\| the_history == 0)
5bdf8622 DJ	368	return ((HIST_ENTRY *)NULL);
d60d9f65	369
5bdf8622	370	return_value = the_history[which];
d60d9f65	371
5bdf8622 DJ	372	for (i = which; i < history_length; i++)
	373	the_history[i] = the_history[i + 1];
	374
	375	history_length--;
d60d9f65 SS	376
	377	return (return_value);
	378	}
	379
	380	/* Stifle the history list, remembering only MAX number of lines. */
	381	void
	382	stifle_history (max)
	383	int max;
	384	{
9255ee31 EZ	385	register int i, j;
9255ee31 EZ	386
d60d9f65 SS	387	if (max < 0)
	388	max = 0;
	389
	390	if (history_length > max)
	391	{
d60d9f65 SS	392	/* This loses because we cannot free the data. */
d60d9f65 SS	393	for (i = 0, j = history_length - max; i < j; i++)
5bdf8622	394	free_history_entry (the_history[i]);
d60d9f65 SS	395
	396	history_base = i;
	397	for (j = 0, i = history_length - max; j < max; i++, j++)
	398	the_history[j] = the_history[i];
	399	the_history[j] = (HIST_ENTRY *)NULL;
	400	history_length = j;
	401	}
	402
	403	history_stifled = 1;
9255ee31	404	max_input_history = history_max_entries = max;
d60d9f65 SS	405	}
d60d9f65 SS	406
9255ee31 EZ	407	/* Stop stifling the history. This returns the previous maximum
	408	number of history entries. The value is positive if the history
	409	was stifled, negative if it wasn't. */
d60d9f65 SS	410	int
	411	unstifle_history ()
	412	{
	413	if (history_stifled)
	414	{
	415	history_stifled = 0;
9255ee31	416	return (history_max_entries);
d60d9f65	417	}
9255ee31 EZ	418	else
9255ee31 EZ	419	return (-history_max_entries);
d60d9f65 SS	420	}
	421
	422	int
	423	history_is_stifled ()
	424	{
	425	return (history_stifled);
	426	}
	427
	428	void
	429	clear_history ()
	430	{
	431	register int i;
	432
	433	/* This loses because we cannot free the data. */
	434	for (i = 0; i < history_length; i++)
	435	{
5bdf8622	436	free_history_entry (the_history[i]);
d60d9f65 SS	437	the_history[i] = (HIST_ENTRY *)NULL;
	438	}
	439
	440	history_offset = history_length = 0;
	441	}