intervals.c 54.6 KB
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/* Code for doing intervals.
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   Copyright (C) 1993, 1994, 1995, 1997 Free Software Foundation, Inc.
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This file is part of GNU Emacs.

GNU Emacs is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.

GNU Emacs is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with GNU Emacs; see the file COPYING.  If not, write to
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the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */
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/* NOTES:

   Have to ensure that we can't put symbol nil on a plist, or some
   functions may work incorrectly.

   An idea:  Have the owner of the tree keep count of splits and/or
   insertion lengths (in intervals), and balance after every N.

   Need to call *_left_hook when buffer is killed.

   Scan for zero-length, or 0-length to see notes about handling
   zero length interval-markers.

   There are comments around about freeing intervals.  It might be
   faster to explicitly free them (put them on the free list) than
   to GC them.

*/


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#include <config.h>
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#include "lisp.h"
#include "intervals.h"
#include "buffer.h"
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#include "puresize.h"
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#include "keyboard.h"
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/* The rest of the file is within this conditional.  */
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#ifdef USE_TEXT_PROPERTIES

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/* Test for membership, allowing for t (actually any non-cons) to mean the
   universal set.  */

#define TMEM(sym, set) (CONSP (set) ? ! NILP (Fmemq (sym, set)) : ! NILP (set))

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#define min(x, y) ((x) < (y) ? (x) : (y))

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Lisp_Object merge_properties_sticky ();
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/* Utility functions for intervals.  */
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/* Create the root interval of some object, a buffer or string.  */
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INTERVAL
create_root_interval (parent)
     Lisp_Object parent;
{
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  INTERVAL new;

  CHECK_IMPURE (parent);

  new = make_interval ();
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  if (BUFFERP (parent))
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    {
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      new->total_length = (BUF_Z (XBUFFER (parent))
			   - BUF_BEG (XBUFFER (parent)));
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      BUF_INTERVALS (XBUFFER (parent)) = new;
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    }
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  else if (STRINGP (parent))
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    {
      new->total_length = XSTRING (parent)->size;
      XSTRING (parent)->intervals = new;
    }

  new->parent = (INTERVAL) parent;
  new->position = 1;

  return new;
}

/* Make the interval TARGET have exactly the properties of SOURCE */

void
copy_properties (source, target)
     register INTERVAL source, target;
{
  if (DEFAULT_INTERVAL_P (source) && DEFAULT_INTERVAL_P (target))
    return;

  COPY_INTERVAL_CACHE (source, target);
  target->plist = Fcopy_sequence (source->plist);
}

/* Merge the properties of interval SOURCE into the properties
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   of interval TARGET.  That is to say, each property in SOURCE
   is added to TARGET if TARGET has no such property as yet.  */
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static void
merge_properties (source, target)
     register INTERVAL source, target;
{
  register Lisp_Object o, sym, val;

  if (DEFAULT_INTERVAL_P (source) && DEFAULT_INTERVAL_P (target))
    return;

  MERGE_INTERVAL_CACHE (source, target);

  o = source->plist;
  while (! EQ (o, Qnil))
    {
      sym = Fcar (o);
      val = Fmemq (sym, target->plist);

      if (NILP (val))
	{
	  o = Fcdr (o);
	  val = Fcar (o);
	  target->plist = Fcons (sym, Fcons (val, target->plist));
	  o = Fcdr (o);
	}
      else
	o = Fcdr (Fcdr (o));
    }
}

/* Return 1 if the two intervals have the same properties,
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   0 otherwise.  */
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int
intervals_equal (i0, i1)
     INTERVAL i0, i1;
{
  register Lisp_Object i0_cdr, i0_sym, i1_val;
  register i1_len;

  if (DEFAULT_INTERVAL_P (i0) && DEFAULT_INTERVAL_P (i1))
    return 1;

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  if (DEFAULT_INTERVAL_P (i0) || DEFAULT_INTERVAL_P (i1))
    return 0;

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  i1_len = XFASTINT (Flength (i1->plist));
  if (i1_len & 0x1)		/* Paranoia -- plists are always even */
    abort ();
  i1_len /= 2;
  i0_cdr = i0->plist;
  while (!NILP (i0_cdr))
    {
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      /* Lengths of the two plists were unequal.  */
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      if (i1_len == 0)
	return 0;

      i0_sym = Fcar (i0_cdr);
      i1_val = Fmemq (i0_sym, i1->plist);

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      /* i0 has something i1 doesn't.  */
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      if (EQ (i1_val, Qnil))
	return 0;

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      /* i0 and i1 both have sym, but it has different values in each.  */
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      i0_cdr = Fcdr (i0_cdr);
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      if (! EQ (Fcar (Fcdr (i1_val)), Fcar (i0_cdr)))
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	return 0;

      i0_cdr = Fcdr (i0_cdr);
      i1_len--;
    }

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  /* Lengths of the two plists were unequal.  */
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  if (i1_len > 0)
    return 0;

  return 1;
}

static int icount;
static int idepth;
static int zero_length;

/* Traverse an interval tree TREE, performing FUNCTION on each node.
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   Pass FUNCTION two args: an interval, and ARG.  */
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void
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traverse_intervals (tree, position, depth, function, arg)
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     INTERVAL tree;
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     int position, depth;
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     void (* function) ();
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     Lisp_Object arg;
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{
  if (NULL_INTERVAL_P (tree))
    return;

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  traverse_intervals (tree->left, position, depth + 1, function, arg);
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  position += LEFT_TOTAL_LENGTH (tree);
  tree->position = position;
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  (*function) (tree, arg);
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  position += LENGTH (tree);
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  traverse_intervals (tree->right, position, depth + 1,  function, arg);
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}

#if 0
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/* These functions are temporary, for debugging purposes only.  */
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INTERVAL search_interval, found_interval;

void
check_for_interval (i)
     register INTERVAL i;
{
  if (i == search_interval)
    {
      found_interval = i;
      icount++;
    }
}

INTERVAL
search_for_interval (i, tree)
     register INTERVAL i, tree;
{
  icount = 0;
  search_interval = i;
  found_interval = NULL_INTERVAL;
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  traverse_intervals (tree, 1, 0, &check_for_interval, Qnil);
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  return found_interval;
}

static void
inc_interval_count (i)
     INTERVAL i;
{
  icount++;
  if (LENGTH (i) == 0)
    zero_length++;
  if (depth > idepth)
    idepth = depth;
}

int
count_intervals (i)
     register INTERVAL i;
{
  icount = 0;
  idepth = 0;
  zero_length = 0;
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  traverse_intervals (i, 1, 0, &inc_interval_count, Qnil);
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  return icount;
}

static INTERVAL
root_interval (interval)
     INTERVAL interval;
{
  register INTERVAL i = interval;

  while (! ROOT_INTERVAL_P (i))
    i = i->parent;

  return i;
}
#endif

/* Assuming that a left child exists, perform the following operation:

     A		  B
    / \		 / \
   B       =>       A
  / \		   / \
     c		  c
*/

static INTERVAL
rotate_right (interval)
     INTERVAL interval;
{
  INTERVAL i;
  INTERVAL B = interval->left;
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  int old_total = interval->total_length;
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  /* Deal with any Parent of A;  make it point to B.  */
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  if (! ROOT_INTERVAL_P (interval))
    if (AM_LEFT_CHILD (interval))
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      interval->parent->left = B;
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    else
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      interval->parent->right = B;
  B->parent = interval->parent;
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  /* Make B the parent of A */
  i = B->right;
  B->right = interval;
  interval->parent = B;
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  /* Make A point to c */
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  interval->left = i;
  if (! NULL_INTERVAL_P (i))
    i->parent = interval;
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  /* A's total length is decreased by the length of B and its left child.  */
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  interval->total_length -= B->total_length - LEFT_TOTAL_LENGTH (interval);

  /* B must have the same total length of A.  */
  B->total_length = old_total;
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  return B;
}
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/* Assuming that a right child exists, perform the following operation:

    A               B   
   / \	           / \  
      B	   =>     A
     / \         / \    
    c               c
*/

static INTERVAL
rotate_left (interval)
     INTERVAL interval;
{
  INTERVAL i;
  INTERVAL B = interval->right;
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  int old_total = interval->total_length;
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  /* Deal with any parent of A;  make it point to B.  */
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  if (! ROOT_INTERVAL_P (interval))
    if (AM_LEFT_CHILD (interval))
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      interval->parent->left = B;
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    else
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      interval->parent->right = B;
  B->parent = interval->parent;
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  /* Make B the parent of A */
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  i = B->left;
  B->left = interval;
  interval->parent = B;
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  /* Make A point to c */
  interval->right = i;
  if (! NULL_INTERVAL_P (i))
    i->parent = interval;
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  /* A's total length is decreased by the length of B and its right child.  */
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  interval->total_length -= B->total_length - RIGHT_TOTAL_LENGTH (interval);

  /* B must have the same total length of A.  */
  B->total_length = old_total;
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  return B;
}

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/* Balance an interval tree with the assumption that the subtrees
   themselves are already balanced.  */

static INTERVAL
balance_an_interval (i)
     INTERVAL i;
{
  register int old_diff, new_diff;

  while (1)
    {
      old_diff = LEFT_TOTAL_LENGTH (i) - RIGHT_TOTAL_LENGTH (i);
      if (old_diff > 0)
	{
	  new_diff = i->total_length - i->left->total_length
	    + RIGHT_TOTAL_LENGTH (i->left) - LEFT_TOTAL_LENGTH (i->left);
	  if (abs (new_diff) >= old_diff)
	    break;
	  i = rotate_right (i);
	  balance_an_interval (i->right);
	}
      else if (old_diff < 0)
	{
	  new_diff = i->total_length - i->right->total_length
	    + LEFT_TOTAL_LENGTH (i->right) - RIGHT_TOTAL_LENGTH (i->right);
	  if (abs (new_diff) >= -old_diff)
	    break;
	  i = rotate_left (i);
	  balance_an_interval (i->left);
	}
      else
	break;
    }
  return i;
}

/* Balance INTERVAL, potentially stuffing it back into its parent
   Lisp Object.  */

static INLINE INTERVAL
balance_possible_root_interval (interval)
     register INTERVAL interval;
{
  Lisp_Object parent;

  if (interval->parent == NULL_INTERVAL)
    return interval;

  parent = (Lisp_Object) (interval->parent);
  interval = balance_an_interval (interval);

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  if (BUFFERP (parent))
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    BUF_INTERVALS (XBUFFER (parent)) = interval;
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  else if (STRINGP (parent))
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    XSTRING (parent)->intervals = interval;

  return interval;
}

/* Balance the interval tree TREE.  Balancing is by weight
   (the amount of text).  */

static INTERVAL
balance_intervals_internal (tree)
     register INTERVAL tree;
{
  /* Balance within each side.  */
  if (tree->left)
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    balance_intervals_internal (tree->left);
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  if (tree->right)
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    balance_intervals_internal (tree->right);
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  return balance_an_interval (tree);
}

/* Advertised interface to balance intervals.  */

INTERVAL
balance_intervals (tree)
     INTERVAL tree;
{
  if (tree == NULL_INTERVAL)
    return NULL_INTERVAL;

  return balance_intervals_internal (tree);
}

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/* Split INTERVAL into two pieces, starting the second piece at
   character position OFFSET (counting from 0), relative to INTERVAL.
   INTERVAL becomes the left-hand piece, and the right-hand piece
   (second, lexicographically) is returned.
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   The size and position fields of the two intervals are set based upon
   those of the original interval.  The property list of the new interval
   is reset, thus it is up to the caller to do the right thing with the
   result.
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   Note that this does not change the position of INTERVAL;  if it is a root,
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   it is still a root after this operation.  */
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INTERVAL
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split_interval_right (interval, offset)
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     INTERVAL interval;
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     int offset;
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{
  INTERVAL new = make_interval ();
  int position = interval->position;
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  int new_length = LENGTH (interval) - offset;
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  new->position = position + offset;
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  new->parent = interval;

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  if (NULL_RIGHT_CHILD (interval))
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    {
      interval->right = new;
      new->total_length = new_length;

      return new;
    }

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  /* Insert the new node between INTERVAL and its right child.  */
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  new->right = interval->right;
  interval->right->parent = new;
  interval->right = new;
  new->total_length = new_length + new->right->total_length;

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  balance_an_interval (new);
  balance_possible_root_interval (interval);

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  return new;
}

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/* Split INTERVAL into two pieces, starting the second piece at
   character position OFFSET (counting from 0), relative to INTERVAL.
   INTERVAL becomes the right-hand piece, and the left-hand piece
   (first, lexicographically) is returned.
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   The size and position fields of the two intervals are set based upon
   those of the original interval.  The property list of the new interval
   is reset, thus it is up to the caller to do the right thing with the
   result.

   Note that this does not change the position of INTERVAL;  if it is a root,
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   it is still a root after this operation.  */
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INTERVAL
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split_interval_left (interval, offset)
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     INTERVAL interval;
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     int offset;
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{
  INTERVAL new = make_interval ();
  int position = interval->position;
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  int new_length = offset;
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  new->position = interval->position;
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  interval->position = interval->position + offset;
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  new->parent = interval;

  if (NULL_LEFT_CHILD (interval))
    {
      interval->left = new;
      new->total_length = new_length;

      return new;
    }

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  /* Insert the new node between INTERVAL and its left child.  */
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  new->left = interval->left;
  new->left->parent = new;
  interval->left = new;
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  new->total_length = new_length + new->left->total_length;

  balance_an_interval (new);
  balance_possible_root_interval (interval);
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  return new;
}

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/* Find the interval containing text position POSITION in the text
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   represented by the interval tree TREE.  POSITION is a buffer
   position; the earliest position is 1.  If POSITION is at the end of
   the buffer, return the interval containing the last character.
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   The `position' field, which is a cache of an interval's position,
   is updated in the interval found.  Other functions (e.g., next_interval)
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   will update this cache based on the result of find_interval.  */
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INLINE INTERVAL
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find_interval (tree, position)
     register INTERVAL tree;
     register int position;
{
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  /* The distance from the left edge of the subtree at TREE
                    to POSITION.  */
  register int relative_position = position - BEG;
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  if (NULL_INTERVAL_P (tree))
    return NULL_INTERVAL;

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  if (relative_position > TOTAL_LENGTH (tree))
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    abort ();			/* Paranoia */

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  tree = balance_possible_root_interval (tree);

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  while (1)
    {
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      if (relative_position < LEFT_TOTAL_LENGTH (tree))
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	{
	  tree = tree->left;
	}
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      else if (! NULL_RIGHT_CHILD (tree)
	       && relative_position >= (TOTAL_LENGTH (tree)
					- RIGHT_TOTAL_LENGTH (tree)))
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	{
	  relative_position -= (TOTAL_LENGTH (tree)
				- RIGHT_TOTAL_LENGTH (tree));
	  tree = tree->right;
	}
      else
	{
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	  tree->position =
	    (position - relative_position /* the left edge of *tree */
	     + LEFT_TOTAL_LENGTH (tree)); /* the left edge of this interval */

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	  return tree;
	}
    }
}

/* Find the succeeding interval (lexicographically) to INTERVAL.
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   Sets the `position' field based on that of INTERVAL (see
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   find_interval).  */
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INTERVAL
next_interval (interval)
     register INTERVAL interval;
{
  register INTERVAL i = interval;
  register int next_position;

  if (NULL_INTERVAL_P (i))
    return NULL_INTERVAL;
  next_position = interval->position + LENGTH (interval);

  if (! NULL_RIGHT_CHILD (i))
    {
      i = i->right;
      while (! NULL_LEFT_CHILD (i))
	i = i->left;

      i->position = next_position;
      return i;
    }

  while (! NULL_PARENT (i))
    {
      if (AM_LEFT_CHILD (i))
	{
	  i = i->parent;
	  i->position = next_position;
	  return i;
	}

      i = i->parent;
    }

  return NULL_INTERVAL;
}

/* Find the preceding interval (lexicographically) to INTERVAL.
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   Sets the `position' field based on that of INTERVAL (see
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   find_interval).  */
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INTERVAL
previous_interval (interval)
     register INTERVAL interval;
{
  register INTERVAL i;
  register position_of_previous;

  if (NULL_INTERVAL_P (interval))
    return NULL_INTERVAL;

  if (! NULL_LEFT_CHILD (interval))
    {
      i = interval->left;
      while (! NULL_RIGHT_CHILD (i))
	i = i->right;

      i->position = interval->position - LENGTH (i);
      return i;
    }

  i = interval;
  while (! NULL_PARENT (i))
    {
      if (AM_RIGHT_CHILD (i))
	{
	  i = i->parent;

	  i->position = interval->position - LENGTH (i);
	  return i;
	}
      i = i->parent;
    }

  return NULL_INTERVAL;
}
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/* Find the interval containing POS given some non-NULL INTERVAL
   in the same tree. */
INTERVAL
update_interval (i, pos)
     register INTERVAL i;
     int pos;
{
  if (NULL_INTERVAL_P (i))
    return NULL_INTERVAL;

  while (1) 
    {
      if (pos < i->position) 
	{
	  /* Move left. */
	  if (pos >= i->position - TOTAL_LENGTH (i->left))
	    i = i->left;		/* Move to the left child */
	  else if (NULL_PARENT (i)) 
	    error ("Point before start of properties");
	  else  i = i->parent;
	  continue;
	}
      else if (pos >= INTERVAL_LAST_POS (i))
	{
	  /* Move right. */
	  if (pos < INTERVAL_LAST_POS (i) + TOTAL_LENGTH (i->right))
	    i = i->right;		/* Move to the right child */
	  else if (NULL_PARENT (i)) 
	    error ("Point after end of properties");
	  else 
	    i = i->parent;
	  continue;
	}
      else 
	return i;
    }
}

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#if 0
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/* Traverse a path down the interval tree TREE to the interval
   containing POSITION, adjusting all nodes on the path for
   an addition of LENGTH characters.  Insertion between two intervals
   (i.e., point == i->position, where i is second interval) means
   text goes into second interval.

   Modifications are needed to handle the hungry bits -- after simply
   finding the interval at position (don't add length going down),
   if it's the beginning of the interval, get the previous interval
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   and check the hungry bits of both.  Then add the length going back up
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   to the root.  */
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static INTERVAL
adjust_intervals_for_insertion (tree, position, length)
     INTERVAL tree;
     int position, length;
{
  register int relative_position;
  register INTERVAL this;

  if (TOTAL_LENGTH (tree) == 0)	/* Paranoia */
    abort ();

  /* If inserting at point-max of a buffer, that position
     will be out of range */
  if (position > TOTAL_LENGTH (tree))
    position = TOTAL_LENGTH (tree);
  relative_position = position;
  this = tree;

  while (1)
    {
      if (relative_position <= LEFT_TOTAL_LENGTH (this))
	{
	  this->total_length += length;
	  this = this->left;
	}
      else if (relative_position > (TOTAL_LENGTH (this)
				    - RIGHT_TOTAL_LENGTH (this)))
	{
	  relative_position -= (TOTAL_LENGTH (this)
				- RIGHT_TOTAL_LENGTH (this));
	  this->total_length += length;
	  this = this->right;
	}
      else
	{
	  /* If we are to use zero-length intervals as buffer pointers,
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	     then this code will have to change.  */
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	  this->total_length += length;
	  this->position = LEFT_TOTAL_LENGTH (this)
	                   + position - relative_position + 1;
	  return tree;
	}
    }
}
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#endif

/* Effect an adjustment corresponding to the addition of LENGTH characters
   of text.  Do this by finding the interval containing POSITION in the
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   interval tree TREE, and then adjusting all of its ancestors by adding
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   LENGTH to them.

   If POSITION is the first character of an interval, meaning that point
   is actually between the two intervals, make the new text belong to
   the interval which is "sticky".

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   If both intervals are "sticky", then make them belong to the left-most
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   interval.  Another possibility would be to create a new interval for
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   this text, and make it have the merged properties of both ends.  */
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static INTERVAL
adjust_intervals_for_insertion (tree, position, length)
     INTERVAL tree;
     int position, length;
{
  register INTERVAL i;
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  register INTERVAL temp;
  int eobp = 0;
  
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  if (TOTAL_LENGTH (tree) == 0)	/* Paranoia */
    abort ();

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  /* If inserting at point-max of a buffer, that position will be out
     of range.  Remember that buffer positions are 1-based.  */
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  if (position >= BEG + TOTAL_LENGTH (tree)){
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    position = BEG + TOTAL_LENGTH (tree);
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    eobp = 1;
  }
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  i = find_interval (tree, position);
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  /* If in middle of an interval which is not sticky either way,
     we must not just give its properties to the insertion.
     So split this interval at the insertion point.  */
  if (! (position == i->position || eobp)
      && END_NONSTICKY_P (i)
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      && FRONT_NONSTICKY_P (i))
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    {
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      Lisp_Object tail;
      Lisp_Object front, rear;

      front = textget (i->plist, Qfront_sticky);
      rear  = textget (i->plist, Qrear_nonsticky);

      /* Does any actual property pose an actual problem?  */
      for (tail = i->plist; ! NILP (tail); tail = Fcdr (Fcdr (tail)))
	{
	  Lisp_Object prop;
	  prop = XCONS (tail)->car;

	  /* Is this particular property rear-sticky?
	     Note, if REAR isn't a cons, it must be non-nil,
	     which means that all properties are rear-nonsticky.  */
	  if (CONSP (rear) && NILP (Fmemq (prop, rear)))
	    continue;

	  /* Is this particular property front-sticky?
	     Note, if FRONT isn't a cons, it must be nil,
	     which means that all properties are front-nonsticky.  */
	  if (CONSP (front) && ! NILP (Fmemq (prop, front)))
	    continue;

	  /* PROP isn't sticky on either side => it is a real problem.  */
	  break;
	}

      /* If any property is a real problem, split the interval.  */
      if (! NILP (tail))
	{
	  temp = split_interval_right (i, position - i->position);
	  copy_properties (i, temp);
	  i = temp;
	}
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    }

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  /* If we are positioned between intervals, check the stickiness of
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     both of them.  We have to do this too, if we are at BEG or Z.  */
  if (position == i->position || eobp)
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    {
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      register INTERVAL prev;

      if (position == BEG)
	prev = 0;
      else if (eobp)
	{
	  prev = i;
	  i = 0;
	}
      else
	prev = previous_interval (i);
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      /* Even if we are positioned between intervals, we default
	 to the left one if it exists.  We extend it now and split
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	 off a part later, if stickiness demands it.  */
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      for (temp = prev ? prev : i;! NULL_INTERVAL_P (temp); temp = temp->parent)
	{
	  temp->total_length += length;
	  temp = balance_possible_root_interval (temp);
	}
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      /* If at least one interval has sticky properties,
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	 we check the stickiness property by property.  */
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      if (END_NONSTICKY_P (prev) || FRONT_STICKY_P (i))
	{
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	  Lisp_Object pleft, pright;
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	  struct interval newi;

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	  pleft = NULL_INTERVAL_P (prev) ? Qnil : prev->plist;
	  pright = NULL_INTERVAL_P (i) ? Qnil : i->plist;
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	  newi.plist = merge_properties_sticky (pleft, pright);

	  if(! prev) /* i.e. position == BEG */
	    {
	      if (! intervals_equal (i, &newi))
		{
		  i = split_interval_left (i, length);
		  i->plist = newi.plist;
		}
	    }
	  else if (! intervals_equal (prev, &newi))
	    {
	      prev = split_interval_right (prev,
					   position - prev->position);
	      prev->plist = newi.plist;
	      if (! NULL_INTERVAL_P (i)
		  && intervals_equal (prev, i))
		merge_interval_right (prev);
	    }

	  /* We will need to update the cache here later.  */
	}
      else if (! prev && ! NILP (i->plist))
        {
	  /* Just split off a new interval at the left.
	     Since I wasn't front-sticky, the empty plist is ok.  */
	  i = split_interval_left (i, length);
        }
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    }

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  /* Otherwise just extend the interval.  */
  else
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    {
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      for (temp = i; ! NULL_INTERVAL_P (temp); temp = temp->parent)
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	{
	  temp->total_length += length;
	  temp = balance_possible_root_interval (temp);
	}
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    }
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  return tree;
}
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/* Any property might be front-sticky on the left, rear-sticky on the left,
   front-sticky on the right, or rear-sticky on the right; the 16 combinations
   can be arranged in a matrix with rows denoting the left conditions and
   columns denoting the right conditions:
      _  __  _
_     FR FR FR FR
FR__   0  1  2  3
 _FR   4  5  6  7
FR     8  9  A  B
  FR   C  D  E  F

   left-props  = '(front-sticky (p8 p9 pa pb pc pd pe pf)
		   rear-nonsticky (p4 p5 p6 p7 p8 p9 pa pb)
		   p0 L p1 L p2 L p3 L p4 L p5 L p6 L p7 L
		   p8 L p9 L pa L pb L pc L pd L pe L pf L)
   right-props = '(front-sticky (p2 p3 p6 p7 pa pb pe pf)
		   rear-nonsticky (p1 p2 p5 p6 p9 pa pd pe)
		   p0 R p1 R p2 R p3 R p4 R p5 R p6 R p7 R
		   p8 R p9 R pa R pb R pc R pd R pe R pf R)

   We inherit from whoever has a sticky side facing us.  If both sides
   do (cases 2, 3, E, and F), then we inherit from whichever side has a
   non-nil value for the current property.  If both sides do, then we take
   from the left.

   When we inherit a property, we get its stickiness as well as its value.
   So, when we merge the above two lists, we expect to get this:

   result      = '(front-sticky (p6 p7 pa pb pc pd pe pf)
		   rear-nonsticky (p6 pa)
		   p0 L p1 L p2 L p3 L p6 R p7 R
		   pa R pb R pc L pd L pe L pf L)

   The optimizable special cases are:
       left rear-nonsticky = nil, right front-sticky = nil (inherit left)
       left rear-nonsticky = t,   right front-sticky = t   (inherit right)
       left rear-nonsticky = t,   right front-sticky = nil (inherit none)
*/

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Lisp_Object
merge_properties_sticky (pleft, pright)
     Lisp_Object pleft, pright;
{
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  register Lisp_Object props, front, rear;
  Lisp_Object lfront, lrear, rfront, rrear;
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  register Lisp_Object tail1, tail2, sym, lval, rval, cat;
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  int use_left, use_right;
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  int lpresent;
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  props = Qnil;
  front = Qnil;
  rear  = Qnil;
  lfront = textget (pleft, Qfront_sticky);
  lrear  = textget (pleft, Qrear_nonsticky);
  rfront = textget (pright, Qfront_sticky);
  rrear  = textget (pright, Qrear_nonsticky);

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  /* Go through each element of PRIGHT.  */
  for (tail1 = pright; ! NILP (tail1); tail1 = Fcdr (Fcdr (tail1)))
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    {
      sym = Fcar (tail1);

      /* Sticky properties get special treatment.  */
      if (EQ (sym, Qrear_nonsticky) || EQ (sym, Qfront_sticky))
	continue;
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      rval = Fcar (Fcdr (tail1));
      for (tail2 = pleft; ! NILP (tail2); tail2 = Fcdr (Fcdr (tail2)))
	if (EQ (sym, Fcar (tail2)))
	  break;

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      /* Indicate whether the property is explicitly defined on the left.
	 (We know it is defined explicitly on the right
	 because otherwise we don't get here.)  */
      lpresent = ! NILP (tail2);
      lval = (NILP (tail2) ? Qnil : Fcar (Fcdr (tail2)));

      use_left = ! TMEM (sym, lrear) && lpresent;
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      use_right = TMEM (sym, rfront);
      if (use_left && use_right)
	{
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	  if (NILP (lval))
	    use_left = 0;
	  else if (NILP (rval))
	    use_right = 0;
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	}
      if (use_left)
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	{
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	  /* We build props as (value sym ...) rather than (sym value ...)
	     because we plan to nreverse it when we're done.  */
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	  props = Fcons (lval, Fcons (sym, props));
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	  if (TMEM (sym, lfront))
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	    front = Fcons (sym, front);
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	  if (TMEM (sym, lrear))
	    rear = Fcons (sym, rear);
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	}
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      else if (use_right)
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	{
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	  props = Fcons (rval, Fcons (sym, props));
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	  if (TMEM (sym, rfront))
	    front = Fcons (sym, front);
	  if (TMEM (sym, rrear))
	    rear = Fcons (sym, rear);
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	}
    }
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  /* Now go through each element of PLEFT.  */
  for (tail2 = pleft; ! NILP (tail2); tail2 = Fcdr (Fcdr (tail2)))
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    {
      sym = Fcar (tail2);

      /* Sticky properties get special treatment.  */
      if (EQ (sym, Qrear_nonsticky) || EQ (sym, Qfront_sticky))
	continue;

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      /* If sym is in PRIGHT, we've already considered it.  */
      for (tail1 = pright; ! NILP (tail1); tail1 = Fcdr (Fcdr (tail1)))
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	if (EQ (sym, Fcar (tail1)))
	  break;
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      if (! NILP (tail1))
	continue;

      lval = Fcar (Fcdr (tail2));

      /* Since rval is known to be nil in this loop, the test simplifies.  */
      if (! TMEM (sym, lrear))
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	{
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	  props = Fcons (lval, Fcons (sym, props));
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	  if (TMEM (sym, lfront))
	    front = Fcons (sym, front);
	}
      else if (TMEM (sym, rfront))
	{
	  /* The value is nil, but we still inherit the stickiness
	     from the right.  */
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	  front = Fcons (sym, front);
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	  if (TMEM (sym, rrear))
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	    rear = Fcons (sym, rear);
	}
    }
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  props = Fnreverse (props);
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  if (! NILP (rear))
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    props = Fcons (Qrear_nonsticky, Fcons (Fnreverse (rear), props));
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  cat = textget (props, Qcategory);
  if (! NILP (front)
      && 
      /* If we have inherited a front-stick category property that is t,
	 we don't need to set up a detailed one.  */
      ! (! NILP (cat) && SYMBOLP (cat)
	 && EQ (Fget (cat, Qfront_sticky), Qt)))
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    props = Fcons (Qfront_sticky, Fcons (Fnreverse (front), props));
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  return props;
}

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/* Delete an node I from its interval tree by merging its subtrees
   into one subtree which is then returned.  Caller is responsible for
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   storing the resulting subtree into its parent.  */
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static INTERVAL
delete_node (i)
     register INTERVAL i;
{
  register INTERVAL migrate, this;
  register int migrate_amt;

  if (NULL_INTERVAL_P (i->left))
    return i->right;
  if (NULL_INTERVAL_P (i->right))
    return i->left;

  migrate = i->left;
  migrate_amt = i->left->total_length;
  this = i->right;
  this->total_length += migrate_amt;
  while (! NULL_INTERVAL_P (this->left))
    {
      this = this->left;
      this->total_length += migrate_amt;
    }
  this->left = migrate;
  migrate->parent = this;

  return i->right;
}

/* Delete interval I from its tree by calling `delete_node'
   and properly connecting the resultant subtree.

   I is presumed to be empty; that is, no adjustments are made
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   for the length of I.  */
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void
delete_interval (i)
     register INTERVAL i;
{
  register INTERVAL parent;
  int amt = LENGTH (i);

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  if (amt > 0)			/* Only used on zero-length intervals now.  */
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    abort ();

  if (ROOT_INTERVAL_P (i))
    {
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      Lisp_Object owner;
      owner = (Lisp_Object) i->parent;
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      parent = delete_node (i);
      if (! NULL_INTERVAL_P (parent))
	parent->parent = (INTERVAL) owner;

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      if (BUFFERP (owner))
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	BUF_INTERVALS (XBUFFER (owner)) = parent;
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      else if (STRINGP (owner))
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	XSTRING (owner)->intervals = parent;
      else
	abort ();

      return;
    }

  parent = i->parent;
  if (AM_LEFT_CHILD (i))
    {
      parent->left = delete_node (i);
      if (! NULL_INTERVAL_P (parent->left))
	parent->left->parent = parent;
    }
  else
    {
      parent->right = delete_node (i);
      if (! NULL_INTERVAL_P (parent->right))
	parent->right->parent = parent;
    }
}

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/* Find the interval in TREE corresponding to the relative position
   FROM and delete as much as possible of AMOUNT from that interval.
   Return the amount actually deleted, and if the interval was
   zeroed-out, delete that interval node from the tree.

   Note that FROM is actually origin zero, aka relative to the
   leftmost edge of tree.  This is appropriate since we call ourselves
   recursively on subtrees.
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   Do this by recursing down TREE to the interval in question, and
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   deleting the appropriate amount of text.  */
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static int
interval_deletion_adjustment (tree, from, amount)
     register INTERVAL tree;
     register int from, amount;
{
  register int relative_position = from;

  if (NULL_INTERVAL_P (tree))
    return 0;

  /* Left branch */
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  if (relative_position < LEFT_TOTAL_LENGTH (tree))
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    {
      int subtract = interval_deletion_adjustment (tree->left,
						   relative_position,
						   amount);
      tree->total_length -= subtract;
      return subtract;
    }
  /* Right branch */
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  else if (relative_position >= (TOTAL_LENGTH (tree)
				 - RIGHT_TOTAL_LENGTH (tree)))
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    {
      int subtract;

      relative_position -= (tree->total_length
			    - RIGHT_TOTAL_LENGTH (tree));
      subtract = interval_deletion_adjustment (tree->right,
					       relative_position,
					       amount);
      tree->total_length -= subtract;
      return subtract;
    }
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  /* Here -- this node.  */
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  else
    {
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      /* How much can we delete from this interval?  */
      int my_amount = ((tree->total_length 
			- RIGHT_TOTAL_LENGTH (tree))
		       - relative_position);

      if (amount > my_amount)
	amount = my_amount;

      tree->total_length -= amount;
      if (LENGTH (tree) == 0)
	delete_interval (tree);
      
      return amount;
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    }

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  /* Never reach here.  */
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}

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/* Effect the adjustments necessary to the interval tree of BUFFER to
   correspond to the deletion of LENGTH characters from that buffer
   text.  The deletion is effected at position START (which is a
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   buffer position, i.e. origin 1).  */
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static void
adjust_intervals_for_deletion (buffer, start, length)
     struct buffer *buffer;
     int start, length;
{
  register int left_to_delete = length;
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  register INTERVAL tree = BUF_INTERVALS (buffer);
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  register int deleted;

  if (NULL_INTERVAL_P (tree))
    return;

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  if (start > BEG + TOTAL_LENGTH (tree)
      || start + length > BEG + TOTAL_LENGTH (tree))
    abort ();

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  if (length == TOTAL_LENGTH (tree))
    {
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      BUF_INTERVALS (buffer) = NULL_INTERVAL;
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