/* Code for doing intervals.
- Copyright (C) 1993, 1994, 1995 Free Software Foundation, Inc.
+ Copyright (C) 1993, 1994, 1995, 1997, 1998 Free Software Foundation, Inc.
This file is part of GNU Emacs.
#include "puresize.h"
#include "keyboard.h"
-/* The rest of the file is within this conditional. */
-#ifdef USE_TEXT_PROPERTIES
-
/* Test for membership, allowing for t (actually any non-cons) to mean the
universal set. */
#define min(x, y) ((x) < (y) ? (x) : (y))
Lisp_Object merge_properties_sticky ();
+static INTERVAL reproduce_tree P_ ((INTERVAL, INTERVAL));
+static INTERVAL reproduce_tree_obj P_ ((INTERVAL, Lisp_Object));
\f
/* Utility functions for intervals. */
new->total_length = (BUF_Z (XBUFFER (parent))
- BUF_BEG (XBUFFER (parent)));
BUF_INTERVALS (XBUFFER (parent)) = new;
+ new->position = 1;
}
else if (STRINGP (parent))
{
new->total_length = XSTRING (parent)->size;
XSTRING (parent)->intervals = new;
+ new->position = 0;
}
- new->parent = (INTERVAL) parent;
- new->position = 1;
+ SET_INTERVAL_OBJECT (new, parent);
return new;
}
INTERVAL i0, i1;
{
register Lisp_Object i0_cdr, i0_sym, i1_val;
- register i1_len;
+ register int i1_len;
if (DEFAULT_INTERVAL_P (i0) && DEFAULT_INTERVAL_P (i1))
return 1;
return 1;
}
\f
-static int icount;
-static int idepth;
-static int zero_length;
/* Traverse an interval tree TREE, performing FUNCTION on each node.
Pass FUNCTION two args: an interval, and ARG. */
traverse_intervals (tree, position, depth, function, arg)
INTERVAL tree;
int position, depth;
- void (* function) ();
+ void (* function) P_ ((INTERVAL, Lisp_Object));
Lisp_Object arg;
{
if (NULL_INTERVAL_P (tree))
}
\f
#if 0
+
+static int icount;
+static int idepth;
+static int zero_length;
+
/* These functions are temporary, for debugging purposes only. */
INTERVAL search_interval, found_interval;
register INTERVAL i = interval;
while (! ROOT_INTERVAL_P (i))
- i = i->parent;
+ i = INTERVAL_PARENT (i);
return i;
}
/* Deal with any Parent of A; make it point to B. */
if (! ROOT_INTERVAL_P (interval))
- if (AM_LEFT_CHILD (interval))
- interval->parent->left = B;
- else
- interval->parent->right = B;
- B->parent = interval->parent;
+ {
+ if (AM_LEFT_CHILD (interval))
+ INTERVAL_PARENT (interval)->left = B;
+ else
+ INTERVAL_PARENT (interval)->right = B;
+ }
+ COPY_INTERVAL_PARENT (B, interval);
/* Make B the parent of A */
i = B->right;
B->right = interval;
- interval->parent = B;
+ SET_INTERVAL_PARENT (interval, B);
/* Make A point to c */
interval->left = i;
if (! NULL_INTERVAL_P (i))
- i->parent = interval;
+ SET_INTERVAL_PARENT (i, interval);
/* A's total length is decreased by the length of B and its left child. */
interval->total_length -= B->total_length - LEFT_TOTAL_LENGTH (interval);
/* Deal with any parent of A; make it point to B. */
if (! ROOT_INTERVAL_P (interval))
- if (AM_LEFT_CHILD (interval))
- interval->parent->left = B;
- else
- interval->parent->right = B;
- B->parent = interval->parent;
+ {
+ if (AM_LEFT_CHILD (interval))
+ INTERVAL_PARENT (interval)->left = B;
+ else
+ INTERVAL_PARENT (interval)->right = B;
+ }
+ COPY_INTERVAL_PARENT (B, interval);
/* Make B the parent of A */
i = B->left;
B->left = interval;
- interval->parent = B;
+ SET_INTERVAL_PARENT (interval, B);
/* Make A point to c */
interval->right = i;
if (! NULL_INTERVAL_P (i))
- i->parent = interval;
+ SET_INTERVAL_PARENT (i, interval);
/* A's total length is decreased by the length of B and its right child. */
interval->total_length -= B->total_length - RIGHT_TOTAL_LENGTH (interval);
register INTERVAL interval;
{
Lisp_Object parent;
+ int have_parent = 0;
- if (interval->parent == NULL_INTERVAL)
+ if (!INTERVAL_HAS_OBJECT (interval) && !INTERVAL_HAS_PARENT (interval))
return interval;
- parent = (Lisp_Object) (interval->parent);
+ if (INTERVAL_HAS_OBJECT (interval))
+ {
+ have_parent = 1;
+ GET_INTERVAL_OBJECT (parent, interval);
+ }
interval = balance_an_interval (interval);
- if (BUFFERP (parent))
- BUF_INTERVALS (XBUFFER (parent)) = interval;
- else if (STRINGP (parent))
- XSTRING (parent)->intervals = interval;
+ if (have_parent)
+ {
+ if (BUFFERP (parent))
+ BUF_INTERVALS (XBUFFER (parent)) = interval;
+ else if (STRINGP (parent))
+ XSTRING (parent)->intervals = interval;
+ }
return interval;
}
int new_length = LENGTH (interval) - offset;
new->position = position + offset;
- new->parent = interval;
+ SET_INTERVAL_PARENT (new, interval);
if (NULL_RIGHT_CHILD (interval))
{
interval->right = new;
new->total_length = new_length;
-
- return new;
}
-
- /* Insert the new node between INTERVAL and its right child. */
- new->right = interval->right;
- interval->right->parent = new;
- interval->right = new;
- new->total_length = new_length + new->right->total_length;
-
- balance_an_interval (new);
+ else
+ {
+ /* Insert the new node between INTERVAL and its right child. */
+ new->right = interval->right;
+ SET_INTERVAL_PARENT (interval->right, new);
+ interval->right = new;
+ new->total_length = new_length + new->right->total_length;
+ balance_an_interval (new);
+ }
+
balance_possible_root_interval (interval);
return new;
int offset;
{
INTERVAL new = make_interval ();
- int position = interval->position;
int new_length = offset;
new->position = interval->position;
interval->position = interval->position + offset;
- new->parent = interval;
+ SET_INTERVAL_PARENT (new, interval);
if (NULL_LEFT_CHILD (interval))
{
interval->left = new;
new->total_length = new_length;
-
- return new;
}
-
- /* Insert the new node between INTERVAL and its left child. */
- new->left = interval->left;
- new->left->parent = new;
- interval->left = new;
- new->total_length = new_length + new->left->total_length;
-
- balance_an_interval (new);
+ else
+ {
+ /* Insert the new node between INTERVAL and its left child. */
+ new->left = interval->left;
+ SET_INTERVAL_PARENT (new->left, new);
+ interval->left = new;
+ new->total_length = new_length + new->left->total_length;
+ balance_an_interval (new);
+ }
+
balance_possible_root_interval (interval);
return new;
}
\f
+/* Return the proper position for the first character
+ described by the interval tree SOURCE.
+ This is 1 if the parent is a buffer,
+ 0 if the parent is a string or if there is no parent.
+
+ Don't use this function on an interval which is the child
+ of another interval! */
+
+int
+interval_start_pos (source)
+ INTERVAL source;
+{
+ Lisp_Object parent;
+
+ if (NULL_INTERVAL_P (source))
+ return 0;
+
+ if (! INTERVAL_HAS_OBJECT (source))
+ return 0;
+ GET_INTERVAL_OBJECT (parent, source);
+ if (BUFFERP (parent))
+ return BUF_BEG (XBUFFER (parent));
+ return 0;
+}
+
/* Find the interval containing text position POSITION in the text
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.
+ position (starting from 1) or a string index (starting from 0).
+ If POSITION is at the end of the buffer or string,
+ return the interval containing the last character.
The `position' field, which is a cache of an interval's position,
is updated in the interval found. Other functions (e.g., next_interval)
will update this cache based on the result of find_interval. */
-INLINE INTERVAL
+INTERVAL
find_interval (tree, position)
register INTERVAL tree;
register int position;
{
/* The distance from the left edge of the subtree at TREE
to POSITION. */
- register int relative_position = position - BEG;
+ register int relative_position;
if (NULL_INTERVAL_P (tree))
return NULL_INTERVAL;
+ relative_position = position;
+ if (INTERVAL_HAS_OBJECT (tree))
+ {
+ Lisp_Object parent;
+ GET_INTERVAL_OBJECT (parent, tree);
+ if (BUFFERP (parent))
+ relative_position -= BUF_BEG (XBUFFER (parent));
+ }
+
if (relative_position > TOTAL_LENGTH (tree))
abort (); /* Paranoia */
}
else
{
- tree->position =
- (position - relative_position /* the left edge of *tree */
- + LEFT_TOTAL_LENGTH (tree)); /* the left edge of this interval */
+ tree->position
+ = (position - relative_position /* the left edge of *tree */
+ + LEFT_TOTAL_LENGTH (tree)); /* the left edge of this interval */
return tree;
}
{
if (AM_LEFT_CHILD (i))
{
- i = i->parent;
+ i = INTERVAL_PARENT (i);
i->position = next_position;
return i;
}
- i = i->parent;
+ i = INTERVAL_PARENT (i);
}
return NULL_INTERVAL;
register INTERVAL interval;
{
register INTERVAL i;
- register position_of_previous;
if (NULL_INTERVAL_P (interval))
return NULL_INTERVAL;
{
if (AM_RIGHT_CHILD (i))
{
- i = i->parent;
+ i = INTERVAL_PARENT (i);
i->position = interval->position - LENGTH (i);
return i;
}
- i = i->parent;
+ i = INTERVAL_PARENT (i);
}
return NULL_INTERVAL;
}
+
+/* Find the interval containing POS given some non-NULL INTERVAL
+ in the same tree. Note that we need to update interval->position
+ if we go down the 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->left->position = i->position - TOTAL_LENGTH (i->left)
+ + LEFT_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 = INTERVAL_PARENT (i);
+ continue;
+ }
+ else if (pos >= INTERVAL_LAST_POS (i))
+ {
+ /* Move right. */
+ if (pos < INTERVAL_LAST_POS (i) + TOTAL_LENGTH (i->right))
+ {
+ i->right->position = INTERVAL_LAST_POS (i) +
+ LEFT_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 = INTERVAL_PARENT (i);
+ continue;
+ }
+ else
+ return i;
+ }
+}
+
\f
#if 0
/* Traverse a path down the interval tree TREE to the interval
register INTERVAL i;
register INTERVAL temp;
int eobp = 0;
+ Lisp_Object parent;
+ int offset;
if (TOTAL_LENGTH (tree) == 0) /* Paranoia */
abort ();
+ GET_INTERVAL_OBJECT (parent, tree);
+ offset = (BUFFERP (parent) ? BUF_BEG (XBUFFER (parent)) : 0);
+
/* If inserting at point-max of a buffer, that position will be out
of range. Remember that buffer positions are 1-based. */
- if (position >= BEG + TOTAL_LENGTH (tree)){
- position = BEG + TOTAL_LENGTH (tree);
- eobp = 1;
- }
+ if (position >= TOTAL_LENGTH (tree) + offset)
+ {
+ position = TOTAL_LENGTH (tree) + offset;
+ eobp = 1;
+ }
i = find_interval (tree, position);
/* 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)
- && ! FRONT_STICKY_P (i))
+ So split this interval at the insertion point.
+
+ Originally, the if condition here was this:
+ (! (position == i->position || eobp)
+ && END_NONSTICKY_P (i)
+ && FRONT_NONSTICKY_P (i))
+ But, these macros are now unreliable because of introduction of
+ Vtext_property_default_nonsticky. So, we always check properties
+ one by one if POSITION is in middle of an interval. */
+ if (! (position == i->position || eobp))
{
- temp = split_interval_right (i, position - i->position);
- copy_properties (i, temp);
- i = temp;
+ Lisp_Object tail;
+ Lisp_Object front, rear;
+
+ tail = i->plist;
+
+ /* Properties font-sticky and rear-nonsticky override
+ Vtext_property_default_nonsticky. So, if they are t, we can
+ skip one by one checking of properties. */
+ rear = textget (i->plist, Qrear_nonsticky);
+ if (! CONSP (rear) && ! NILP (rear))
+ {
+ /* All properties are nonsticky. We split the interval. */
+ goto check_done;
+ }
+ front = textget (i->plist, Qfront_sticky);
+ if (! CONSP (front) && ! NILP (front))
+ {
+ /* All properties are sticky. We don't split the interval. */
+ tail = Qnil;
+ goto check_done;
+ }
+
+ /* Does any actual property pose an actual problem? We break
+ the loop if we find a nonsticky property. */
+ for (; CONSP (tail); tail = Fcdr (XCDR (tail)))
+ {
+ Lisp_Object prop, tmp;
+ prop = XCAR (tail);
+
+ /* Is this particular property front-sticky? */
+ if (CONSP (front) && ! NILP (Fmemq (prop, front)))
+ continue;
+
+ /* Is this particular property rear-nonsticky? */
+ if (CONSP (rear) && ! NILP (Fmemq (prop, rear)))
+ break;
+
+ /* Is this particular property recorded as sticky or
+ nonsticky in Vtext_property_default_nonsticky? */
+ tmp = Fassq (prop, Vtext_property_default_nonsticky);
+ if (CONSP (tmp))
+ {
+ if (NILP (tmp))
+ continue;
+ break;
+ }
+
+ /* By default, a text property is rear-sticky, thus we
+ continue the loop. */
+ }
+
+ check_done:
+ /* 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;
+ }
}
/* If we are positioned between intervals, check the stickiness of
/* Even if we are positioned between intervals, we default
to the left one if it exists. We extend it now and split
off a part later, if stickiness demands it. */
- for (temp = prev ? prev : i;! NULL_INTERVAL_P (temp); temp = temp->parent)
+ for (temp = prev ? prev : i; temp; temp = INTERVAL_PARENT_OR_NULL (temp))
{
temp->total_length += length;
temp = balance_possible_root_interval (temp);
}
/* If at least one interval has sticky properties,
- we check the stickiness property by property. */
- if (END_NONSTICKY_P (prev) || FRONT_STICKY_P (i))
+ we check the stickiness property by property.
+
+ Originally, the if condition here was this:
+ (END_NONSTICKY_P (prev) || FRONT_STICKY_P (i))
+ But, these macros are now unreliable because of introduction
+ of Vtext_property_default_nonsticky. So, we always have to
+ check stickiness of properties one by one. If cache of
+ stickiness is implemented in the future, we may be able to
+ use those macros again. */
+ if (1)
{
Lisp_Object pleft, pright;
struct interval newi;
pright = NULL_INTERVAL_P (i) ? Qnil : i->plist;
newi.plist = merge_properties_sticky (pleft, pright);
- if(! prev) /* i.e. position == BEG */
+ if (! prev) /* i.e. position == BEG */
{
if (! intervals_equal (i, &newi))
{
/* Otherwise just extend the interval. */
else
{
- for (temp = i; ! NULL_INTERVAL_P (temp); temp = temp->parent)
+ for (temp = i; temp; temp = INTERVAL_PARENT_OR_NULL (temp))
{
temp->total_length += length;
temp = balance_possible_root_interval (temp);
{
register Lisp_Object props, front, rear;
Lisp_Object lfront, lrear, rfront, rrear;
- register Lisp_Object tail1, tail2, sym, lval, rval;
+ register Lisp_Object tail1, tail2, sym, lval, rval, cat;
int use_left, use_right;
+ int lpresent;
props = Qnil;
front = Qnil;
rrear = textget (pright, Qrear_nonsticky);
/* Go through each element of PRIGHT. */
- for (tail1 = pright; ! NILP (tail1); tail1 = Fcdr (Fcdr (tail1)))
+ for (tail1 = pright; CONSP (tail1); tail1 = Fcdr (Fcdr (tail1)))
{
+ Lisp_Object tmp;
+
sym = Fcar (tail1);
/* Sticky properties get special treatment. */
continue;
rval = Fcar (Fcdr (tail1));
- for (tail2 = pleft; ! NILP (tail2); tail2 = Fcdr (Fcdr (tail2)))
+ for (tail2 = pleft; CONSP (tail2); tail2 = Fcdr (Fcdr (tail2)))
if (EQ (sym, Fcar (tail2)))
break;
- lval = (NILP (tail2) ? Qnil : Fcar( Fcdr (tail2)));
- use_left = ! TMEM (sym, lrear);
- use_right = TMEM (sym, rfront);
+ /* 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)));
+
+ /* Even if lrear or rfront say nothing about the stickiness of
+ SYM, Vtext_property_default_nonsticky may give default
+ stickiness to SYM. */
+ tmp = Fassq (sym, Vtext_property_default_nonsticky);
+ use_left = (lpresent
+ && ! (TMEM (sym, lrear)
+ || CONSP (tmp) && ! NILP (XCDR (tmp))));
+ use_right = (TMEM (sym, rfront)
+ || (CONSP (tmp) && NILP (XCDR (tmp))));
if (use_left && use_right)
{
- use_left = ! NILP (lval);
- use_right = ! NILP (rval);
+ if (NILP (lval))
+ use_left = 0;
+ else if (NILP (rval))
+ use_right = 0;
}
if (use_left)
{
/* We build props as (value sym ...) rather than (sym value ...)
because we plan to nreverse it when we're done. */
- if (! NILP (lval))
- props = Fcons (lval, Fcons (sym, props));
+ props = Fcons (lval, Fcons (sym, props));
if (TMEM (sym, lfront))
front = Fcons (sym, front);
if (TMEM (sym, lrear))
}
else if (use_right)
{
- if (! NILP (rval))
- props = Fcons (rval, Fcons (sym, props));
+ props = Fcons (rval, Fcons (sym, props));
if (TMEM (sym, rfront))
front = Fcons (sym, front);
if (TMEM (sym, rrear))
}
/* Now go through each element of PLEFT. */
- for (tail2 = pleft; ! NILP (tail2); tail2 = Fcdr (Fcdr (tail2)))
+ for (tail2 = pleft; CONSP (tail2); tail2 = Fcdr (Fcdr (tail2)))
{
+ Lisp_Object tmp;
+
sym = Fcar (tail2);
/* Sticky properties get special treatment. */
continue;
/* If sym is in PRIGHT, we've already considered it. */
- for (tail1 = pright; ! NILP (tail1); tail1 = Fcdr (Fcdr (tail1)))
+ for (tail1 = pright; CONSP (tail1); tail1 = Fcdr (Fcdr (tail1)))
if (EQ (sym, Fcar (tail1)))
break;
if (! NILP (tail1))
lval = Fcar (Fcdr (tail2));
+ /* Even if lrear or rfront say nothing about the stickiness of
+ SYM, Vtext_property_default_nonsticky may give default
+ stickiness to SYM. */
+ tmp = Fassq (sym, Vtext_property_default_nonsticky);
+
/* Since rval is known to be nil in this loop, the test simplifies. */
- if (! TMEM (sym, lrear))
+ if (! (TMEM (sym, lrear) || (CONSP (tmp) && ! NILP (XCDR (tmp)))))
{
- if (! NILP (lval))
- props = Fcons (lval, Fcons (sym, props));
+ props = Fcons (lval, Fcons (sym, props));
if (TMEM (sym, lfront))
front = Fcons (sym, front);
}
- else if (TMEM (sym, rfront))
+ else if (TMEM (sym, rfront) || (CONSP (tmp) && NILP (XCDR (tmp))))
{
/* The value is nil, but we still inherit the stickiness
from the right. */
props = Fnreverse (props);
if (! NILP (rear))
props = Fcons (Qrear_nonsticky, Fcons (Fnreverse (rear), props));
- if (! NILP (front))
+
+ 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)))
props = Fcons (Qfront_sticky, Fcons (Fnreverse (front), props));
return props;
}
this->total_length += migrate_amt;
}
this->left = migrate;
- migrate->parent = this;
+ SET_INTERVAL_PARENT (migrate, this);
return i->right;
}
if (ROOT_INTERVAL_P (i))
{
Lisp_Object owner;
- owner = (Lisp_Object) i->parent;
+ GET_INTERVAL_OBJECT (owner, i);
parent = delete_node (i);
if (! NULL_INTERVAL_P (parent))
- parent->parent = (INTERVAL) owner;
+ SET_INTERVAL_OBJECT (parent, owner);
if (BUFFERP (owner))
BUF_INTERVALS (XBUFFER (owner)) = parent;
return;
}
- parent = i->parent;
+ parent = INTERVAL_PARENT (i);
if (AM_LEFT_CHILD (i))
{
parent->left = delete_node (i);
if (! NULL_INTERVAL_P (parent->left))
- parent->left->parent = parent;
+ SET_INTERVAL_PARENT (parent->left, parent);
}
else
{
parent->right = delete_node (i);
if (! NULL_INTERVAL_P (parent->right))
- parent->right->parent = parent;
+ SET_INTERVAL_PARENT (parent->right, parent);
}
}
\f
{
register int left_to_delete = length;
register INTERVAL tree = BUF_INTERVALS (buffer);
- register int deleted;
+ Lisp_Object parent;
+ int offset;
+
+ GET_INTERVAL_OBJECT (parent, tree);
+ offset = (BUFFERP (parent) ? BUF_BEG (XBUFFER (parent)) : 0);
if (NULL_INTERVAL_P (tree))
return;
- if (start > BEG + TOTAL_LENGTH (tree)
- || start + length > BEG + TOTAL_LENGTH (tree))
+ if (start > offset + TOTAL_LENGTH (tree)
+ || start + length > offset + TOTAL_LENGTH (tree))
abort ();
if (length == TOTAL_LENGTH (tree))
return;
}
- if (start > BEG + TOTAL_LENGTH (tree))
- start = BEG + TOTAL_LENGTH (tree);
+ if (start > offset + TOTAL_LENGTH (tree))
+ start = offset + TOTAL_LENGTH (tree);
while (left_to_delete > 0)
{
- left_to_delete -= interval_deletion_adjustment (tree, start - 1,
+ left_to_delete -= interval_deletion_adjustment (tree, start - offset,
left_to_delete);
tree = BUF_INTERVALS (buffer);
if (left_to_delete == tree->total_length)
{
if (AM_LEFT_CHILD (successor))
{
- successor = successor->parent;
+ successor = INTERVAL_PARENT (successor);
delete_interval (i);
return successor;
}
- successor = successor->parent;
+ successor = INTERVAL_PARENT (successor);
successor->total_length -= absorb;
}
{
if (AM_RIGHT_CHILD (predecessor))
{
- predecessor = predecessor->parent;
+ predecessor = INTERVAL_PARENT (predecessor);
delete_interval (i);
return predecessor;
}
- predecessor = predecessor->parent;
+ predecessor = INTERVAL_PARENT (predecessor);
predecessor->total_length -= absorb;
}
bcopy (source, t, INTERVAL_SIZE);
copy_properties (source, t);
- t->parent = parent;
+ SET_INTERVAL_PARENT (t, parent);
+ if (! NULL_LEFT_CHILD (source))
+ t->left = reproduce_tree (source->left, t);
+ if (! NULL_RIGHT_CHILD (source))
+ t->right = reproduce_tree (source->right, t);
+
+ return t;
+}
+
+static INTERVAL
+reproduce_tree_obj (source, parent)
+ INTERVAL source;
+ Lisp_Object parent;
+{
+ register INTERVAL t = make_interval ();
+
+ bcopy (source, t, INTERVAL_SIZE);
+ copy_properties (source, t);
+ SET_INTERVAL_OBJECT (t, parent);
if (! NULL_LEFT_CHILD (source))
t->left = reproduce_tree (source->left, t);
if (! NULL_RIGHT_CHILD (source))
/* Insert the intervals of SOURCE into BUFFER at POSITION.
LENGTH is the length of the text in SOURCE.
+ The `position' field of the SOURCE intervals is assumed to be
+ consistent with its parent; therefore, SOURCE must be an
+ interval tree made with copy_interval or must be the whole
+ tree of a buffer or a string.
+
This is used in insdel.c when inserting Lisp_Strings into the
buffer. The text corresponding to SOURCE is already in the buffer
when this is called. The intervals of new tree are a copy of those
Lisp_Object buf;
if (!inherit && ! NULL_INTERVAL_P (tree))
{
+ int saved_inhibit_modification_hooks = inhibit_modification_hooks;
XSETBUFFER (buf, buffer);
+ inhibit_modification_hooks = 1;
Fset_text_properties (make_number (position),
make_number (position + length),
Qnil, buf);
+ inhibit_modification_hooks = saved_inhibit_modification_hooks;
}
if (! NULL_INTERVAL_P (BUF_INTERVALS (buffer)))
BUF_INTERVALS (buffer) = balance_an_interval (BUF_INTERVALS (buffer));
{
Lisp_Object buf;
XSETBUFFER (buf, buffer);
- BUF_INTERVALS (buffer) = reproduce_tree (source, buf);
- /* Explicitly free the old tree here. */
+ BUF_INTERVALS (buffer) = reproduce_tree_obj (source, buf);
+ BUF_INTERVALS (buffer)->position = 1;
+
+ /* Explicitly free the old tree here? */
return;
}
some zero length intervals. Eventually, do something clever
about inserting properly. For now, just waste the old intervals. */
{
- BUF_INTERVALS (buffer) = reproduce_tree (source, tree->parent);
+ BUF_INTERVALS (buffer) = reproduce_tree (source, INTERVAL_PARENT (tree));
+ BUF_INTERVALS (buffer)->position = 1;
/* Explicitly free the old tree here. */
return;
this = under = find_interval (tree, position);
if (NULL_INTERVAL_P (under)) /* Paranoia */
abort ();
- over = find_interval (source, 1);
+ over = find_interval (source, interval_start_pos (source));
/* Here for insertion in the middle of an interval.
Split off an equivalent interval to the right,
= split_interval_left (this, position - under->position);
copy_properties (under, end_unchanged);
under->position = position;
+#if 0
+ /* This code has no effect. */
prev = 0;
middle = 1;
+#endif /* 0 */
}
else
{
+ /* This call may have some effect because previous_interval may
+ update `position' fields of intervals. Thus, don't ignore it
+ for the moment. Someone please tell me the truth (K.Handa). */
prev = previous_interval (under);
+#if 0
+ /* But, this code surely has no effect. And, anyway,
+ END_NONSTICKY_P is unreliable now. */
if (prev && !END_NONSTICKY_P (prev))
prev = 0;
+#endif /* 0 */
}
/* Insertion is now at beginning of UNDER. */
}
\f
-/* Set point in BUFFER to POSITION. If the target position is
+/* Set point "temporarily", without checking any text properties. */
+
+INLINE void
+temp_set_point (buffer, charpos)
+ struct buffer *buffer;
+ int charpos;
+{
+ temp_set_point_both (buffer, charpos,
+ buf_charpos_to_bytepos (buffer, charpos));
+}
+
+/* Set point in BUFFER "temporarily" to CHARPOS, which corresponds to
+ byte position BYTEPOS. */
+
+INLINE void
+temp_set_point_both (buffer, charpos, bytepos)
+ int charpos, bytepos;
+ struct buffer *buffer;
+{
+ /* In a single-byte buffer, the two positions must be equal. */
+ if (BUF_ZV (buffer) == BUF_ZV_BYTE (buffer)
+ && charpos != bytepos)
+ abort ();
+
+ if (charpos > bytepos)
+ abort ();
+
+ if (charpos > BUF_ZV (buffer) || charpos < BUF_BEGV (buffer))
+ abort ();
+
+ BUF_PT_BYTE (buffer) = bytepos;
+ BUF_PT (buffer) = charpos;
+}
+
+/* Set point in BUFFER to CHARPOS. If the target position is
before an intangible character, move to an ok place. */
void
-set_point (position, buffer)
- register int position;
+set_point (buffer, charpos)
register struct buffer *buffer;
+ register int charpos;
{
- register INTERVAL to, from, toprev, fromprev, target;
+ set_point_both (buffer, charpos, buf_charpos_to_bytepos (buffer, charpos));
+}
+
+/* Set point in BUFFER to CHARPOS, which corresponds to byte
+ position BYTEPOS. If the target position is
+ before an intangible character, move to an ok place. */
+
+void
+set_point_both (buffer, charpos, bytepos)
+ register struct buffer *buffer;
+ register int charpos, bytepos;
+{
+ register INTERVAL to, from, toprev, fromprev;
int buffer_point;
- register Lisp_Object obj;
- int backwards = (position < BUF_PT (buffer)) ? 1 : 0;
int old_position = BUF_PT (buffer);
+ int backwards = (charpos < old_position ? 1 : 0);
+ int have_overlays;
+ int original_position;
buffer->point_before_scroll = Qnil;
- if (position == BUF_PT (buffer))
+ if (charpos == BUF_PT (buffer))
return;
+ /* In a single-byte buffer, the two positions must be equal. */
+ if (BUF_ZV (buffer) == BUF_ZV_BYTE (buffer)
+ && charpos != bytepos)
+ abort ();
+
/* Check this now, before checking if the buffer has any intervals.
That way, we can catch conditions which break this sanity check
whether or not there are intervals in the buffer. */
- if (position > BUF_Z (buffer) || position < BUF_BEG (buffer))
+ if (charpos > BUF_ZV (buffer) || charpos < BUF_BEGV (buffer))
abort ();
- if (NULL_INTERVAL_P (BUF_INTERVALS (buffer)))
+ have_overlays = (! NILP (buffer->overlays_before)
+ || ! NILP (buffer->overlays_after));
+
+ /* If we have no text properties and overlays,
+ then we can do it quickly. */
+ if (NULL_INTERVAL_P (BUF_INTERVALS (buffer)) && ! have_overlays)
{
-
- BUF_PT (buffer) = position;
+ temp_set_point_both (buffer, charpos, bytepos);
return;
}
- /* Set TO to the interval containing the char after POSITION,
- and TOPREV to the interval containing the char before POSITION.
+ /* Set TO to the interval containing the char after CHARPOS,
+ and TOPREV to the interval containing the char before CHARPOS.
Either one may be null. They may be equal. */
- to = find_interval (BUF_INTERVALS (buffer), position);
- if (position == BUF_BEGV (buffer))
+ to = find_interval (BUF_INTERVALS (buffer), charpos);
+ if (charpos == BUF_BEGV (buffer))
toprev = 0;
- else if (to->position == position)
+ else if (to && to->position == charpos)
toprev = previous_interval (to);
else
toprev = to;
from = find_interval (BUF_INTERVALS (buffer), buffer_point);
if (buffer_point == BUF_BEGV (buffer))
fromprev = 0;
- else if (from->position == BUF_PT (buffer))
+ else if (from && from->position == BUF_PT (buffer))
fromprev = previous_interval (from);
else if (buffer_point != BUF_PT (buffer))
fromprev = from, from = 0;
fromprev = from;
/* Moving within an interval. */
- if (to == from && toprev == fromprev && INTERVAL_VISIBLE_P (to))
+ if (to == from && toprev == fromprev && INTERVAL_VISIBLE_P (to)
+ && ! have_overlays)
{
- BUF_PT (buffer) = position;
+ temp_set_point_both (buffer, charpos, bytepos);
return;
}
+ original_position = charpos;
+
/* If the new position is between two intangible characters
with the same intangible property value,
move forward or backward until a change in that property. */
- if (NILP (Vinhibit_point_motion_hooks) && ! NULL_INTERVAL_P (to)
- && ! NULL_INTERVAL_P (toprev))
+ if (NILP (Vinhibit_point_motion_hooks)
+ && ((! NULL_INTERVAL_P (to) && ! NULL_INTERVAL_P (toprev))
+ || have_overlays)
+ /* Intangibility never stops us from positioning at the beginning
+ or end of the buffer, so don't bother checking in that case. */
+ && charpos != BEGV && charpos != ZV)
{
+ Lisp_Object intangible_propval;
+ Lisp_Object pos;
+
+ XSETINT (pos, charpos);
+
if (backwards)
{
- Lisp_Object intangible_propval;
- intangible_propval = textget (to->plist, Qintangible);
+ intangible_propval = Fget_char_property (make_number (charpos),
+ Qintangible, Qnil);
/* If following char is intangible,
skip back over all chars with matching intangible property. */
if (! NILP (intangible_propval))
- while (to == toprev
- || ((! NULL_INTERVAL_P (toprev)
- && EQ (textget (toprev->plist, Qintangible),
- intangible_propval))))
- {
- to = toprev;
- toprev = previous_interval (toprev);
- if (NULL_INTERVAL_P (toprev))
- position = BUF_BEGV (buffer);
- else
- /* This is the only line that's not
- dual to the following loop.
- That's because we want the position
- at the end of TOPREV. */
- position = to->position;
- }
+ while (XINT (pos) > BUF_BEGV (buffer)
+ && EQ (Fget_char_property (make_number (XINT (pos) - 1),
+ Qintangible, Qnil),
+ intangible_propval))
+ pos = Fprevious_char_property_change (pos, Qnil);
}
else
{
- Lisp_Object intangible_propval;
- intangible_propval = textget (toprev->plist, Qintangible);
+ intangible_propval = Fget_char_property (make_number (charpos - 1),
+ Qintangible, Qnil);
- /* If previous char is intangible,
- skip fwd over all chars with matching intangible property. */
+ /* If following char is intangible,
+ skip forward over all chars with matching intangible property. */
if (! NILP (intangible_propval))
- while (to == toprev
- || ((! NULL_INTERVAL_P (to)
- && EQ (textget (to->plist, Qintangible),
- intangible_propval))))
- {
- toprev = to;
- to = next_interval (to);
- if (NULL_INTERVAL_P (to))
- position = BUF_ZV (buffer);
- else
- position = to->position;
- }
+ while (XINT (pos) < BUF_ZV (buffer)
+ && EQ (Fget_char_property (pos, Qintangible, Qnil),
+ intangible_propval))
+ pos = Fnext_char_property_change (pos, Qnil);
+
}
+
+ charpos = XINT (pos);
+ bytepos = buf_charpos_to_bytepos (buffer, charpos);
+ }
+
+ if (charpos != original_position)
+ {
+ /* Set TO to the interval containing the char after CHARPOS,
+ and TOPREV to the interval containing the char before CHARPOS.
+ Either one may be null. They may be equal. */
+ to = find_interval (BUF_INTERVALS (buffer), charpos);
+ if (charpos == BUF_BEGV (buffer))
+ toprev = 0;
+ else if (to && to->position == charpos)
+ toprev = previous_interval (to);
+ else
+ toprev = to;
}
/* Here TO is the interval after the stopping point
and TOPREV is the interval before the stopping point.
One or the other may be null. */
- BUF_PT (buffer) = position;
+ temp_set_point_both (buffer, charpos, bytepos);
/* We run point-left and point-entered hooks here, iff the
two intervals are not equivalent. These hooks take
enter_before = Qnil;
if (! EQ (leave_before, enter_before) && !NILP (leave_before))
- call2 (leave_before, old_position, position);
+ call2 (leave_before, make_number (old_position),
+ make_number (charpos));
if (! EQ (leave_after, enter_after) && !NILP (leave_after))
- call2 (leave_after, old_position, position);
+ call2 (leave_after, make_number (old_position),
+ make_number (charpos));
if (! EQ (enter_before, leave_before) && !NILP (enter_before))
- call2 (enter_before, old_position, position);
+ call2 (enter_before, make_number (old_position),
+ make_number (charpos));
if (! EQ (enter_after, leave_after) && !NILP (enter_after))
- call2 (enter_after, old_position, position);
+ call2 (enter_after, make_number (old_position),
+ make_number (charpos));
}
}
+\f
+/* Move point to POSITION, unless POSITION is inside an intangible
+ segment that reaches all the way to point. */
-/* Set point temporarily, without checking any text properties. */
-
-INLINE void
-temp_set_point (position, buffer)
+void
+move_if_not_intangible (position)
int position;
- struct buffer *buffer;
{
- BUF_PT (buffer) = position;
+ Lisp_Object pos;
+ Lisp_Object intangible_propval;
+
+ XSETINT (pos, position);
+
+ if (! NILP (Vinhibit_point_motion_hooks))
+ /* If intangible is inhibited, always move point to POSITION. */
+ ;
+ else if (PT < position && XINT (pos) < ZV)
+ {
+ /* We want to move forward, so check the text before POSITION. */
+
+ intangible_propval = Fget_char_property (pos,
+ Qintangible, Qnil);
+
+ /* If following char is intangible,
+ skip back over all chars with matching intangible property. */
+ if (! NILP (intangible_propval))
+ while (XINT (pos) > BEGV
+ && EQ (Fget_char_property (make_number (XINT (pos) - 1),
+ Qintangible, Qnil),
+ intangible_propval))
+ pos = Fprevious_char_property_change (pos, Qnil);
+ }
+ else if (XINT (pos) > BEGV)
+ {
+ /* We want to move backward, so check the text after POSITION. */
+
+ intangible_propval = Fget_char_property (make_number (XINT (pos) - 1),
+ Qintangible, Qnil);
+
+ /* If following char is intangible,
+ skip forward over all chars with matching intangible property. */
+ if (! NILP (intangible_propval))
+ while (XINT (pos) < ZV
+ && EQ (Fget_char_property (pos, Qintangible, Qnil),
+ intangible_propval))
+ pos = Fnext_char_property_change (pos, Qnil);
+
+ }
+
+ /* If the whole stretch between PT and POSITION isn't intangible,
+ try moving to POSITION (which means we actually move farther
+ if POSITION is inside of intangible text). */
+
+ if (XINT (pos) != PT)
+ SET_PT (position);
}
\f
-/* Return the proper local map for position POSITION in BUFFER.
- Use the map specified by the local-map property, if any.
+/* If text at position POS has property PROP, set *VAL to the property
+ value, *START and *END to the beginning and end of a region that
+ has the same property, and return 1. Otherwise return 0.
+
+ OBJECT is the string or buffer to look for the property in;
+ nil means the current buffer. */
+
+int
+get_property_and_range (pos, prop, val, start, end, object)
+ int pos;
+ Lisp_Object prop, *val;
+ int *start, *end;
+ Lisp_Object object;
+{
+ INTERVAL i, prev, next;
+
+ if (NILP (object))
+ i = find_interval (BUF_INTERVALS (current_buffer), pos);
+ else if (BUFFERP (object))
+ i = find_interval (BUF_INTERVALS (XBUFFER (object)), pos);
+ else if (STRINGP (object))
+ i = find_interval (XSTRING (object)->intervals, pos);
+ else
+ abort ();
+
+ if (NULL_INTERVAL_P (i) || (i->position + LENGTH (i) <= pos))
+ return 0;
+ *val = textget (i->plist, prop);
+ if (NILP (*val))
+ return 0;
+
+ next = i; /* remember it in advance */
+ prev = previous_interval (i);
+ while (! NULL_INTERVAL_P (prev)
+ && EQ (*val, textget (prev->plist, prop)))
+ i = prev, prev = previous_interval (prev);
+ *start = i->position;
+
+ next = next_interval (i);
+ while (! NULL_INTERVAL_P (next)
+ && EQ (*val, textget (next->plist, prop)))
+ i = next, next = next_interval (next);
+ *end = i->position + LENGTH (i);
+
+ return 1;
+}
+\f
+/* If TYPE is `keymap', return the map specified by the `keymap'
+ property at POSITION in BUFFER or nil.
+
+ Otherwise return the proper local map for position POSITION in
+ BUFFER. Use the map specified by the local-map property, if any.
Otherwise, use BUFFER's local map. */
Lisp_Object
-get_local_map (position, buffer)
+get_local_map (position, buffer, type)
register int position;
register struct buffer *buffer;
+ enum map_property type;
{
Lisp_Object prop, tem, lispy_position, lispy_buffer;
- int old_begv, old_zv;
+ int old_begv, old_zv, old_begv_byte, old_zv_byte;
/* Perhaps we should just change `position' to the limit. */
if (position > BUF_Z (buffer) || position < BUF_BEG (buffer))
the visible region contains no characters and hence no properties. */
old_begv = BUF_BEGV (buffer);
old_zv = BUF_ZV (buffer);
+ old_begv_byte = BUF_BEGV_BYTE (buffer);
+ old_zv_byte = BUF_ZV_BYTE (buffer);
BUF_BEGV (buffer) = BUF_BEG (buffer);
BUF_ZV (buffer) = BUF_Z (buffer);
+ BUF_BEGV_BYTE (buffer) = BUF_BEG_BYTE (buffer);
+ BUF_ZV_BYTE (buffer) = BUF_Z_BYTE (buffer);
/* There are no properties at the end of the buffer, so in that case
check for a local map on the last character of the buffer instead. */
--position;
XSETFASTINT (lispy_position, position);
XSETBUFFER (lispy_buffer, buffer);
- prop = Fget_char_property (lispy_position, Qlocal_map, lispy_buffer);
+ prop = Fget_char_property (lispy_position,
+ type == keymap ? Qkeymap : Qlocal_map,
+ lispy_buffer);
BUF_BEGV (buffer) = old_begv;
BUF_ZV (buffer) = old_zv;
+ BUF_BEGV_BYTE (buffer) = old_begv_byte;
+ BUF_ZV_BYTE (buffer) = old_zv_byte;
/* Use the local map only if it is valid. */
- if (!NILP (prop)
- && (tem = Fkeymapp (prop), !NILP (tem)))
+ prop = get_keymap (prop, 0, 0);
+ if (CONSP (prop))
return prop;
- return buffer->keymap;
+ if (type == keymap)
+ return Qnil;
+ else
+ return buffer->keymap;
}
\f
/* Produce an interval tree reflecting the intervals in
- TREE from START to START + LENGTH. */
+ TREE from START to START + LENGTH.
+ The new interval tree has no parent and has a starting-position of 0. */
INTERVAL
copy_intervals (tree, start, length)
return NULL_INTERVAL;
new = make_interval ();
- new->position = 1;
+ new->position = 0;
got = (LENGTH (i) - (start - i->position));
new->total_length = length;
copy_properties (i, new);
if (NULL_INTERVAL_P (interval_copy))
return;
- interval_copy->parent = (INTERVAL) string;
+ SET_INTERVAL_OBJECT (interval_copy, string);
XSTRING (string)->intervals = interval_copy;
}
\f
-/* Return 1 if string S1 and S2 have identical properties; 0 otherwise.
+/* Return 1 if strings S1 and S2 have identical properties; 0 otherwise.
Assume they have identical characters. */
int
Lisp_Object s1, s2;
{
INTERVAL i1, i2;
- int pos = 1;
- int end = XSTRING (s1)->size + 1;
+ int pos = 0;
+ int end = XSTRING (s1)->size;
- /* We specify 1 as position because the interval functions
- always use positions starting at 1. */
- i1 = find_interval (XSTRING (s1)->intervals, 1);
- i2 = find_interval (XSTRING (s2)->intervals, 1);
+ i1 = find_interval (XSTRING (s1)->intervals, 0);
+ i2 = find_interval (XSTRING (s2)->intervals, 0);
while (pos < end)
{
}
return 1;
}
+\f
+/* Recursively adjust interval I in the current buffer
+ for setting enable_multibyte_characters to MULTI_FLAG.
+ The range of interval I is START ... END in characters,
+ START_BYTE ... END_BYTE in bytes. */
-#endif /* USE_TEXT_PROPERTIES */
+static void
+set_intervals_multibyte_1 (i, multi_flag, start, start_byte, end, end_byte)
+ INTERVAL i;
+ int multi_flag;
+ int start, start_byte, end, end_byte;
+{
+ /* Fix the length of this interval. */
+ if (multi_flag)
+ i->total_length = end - start;
+ else
+ i->total_length = end_byte - start_byte;
+
+ /* Recursively fix the length of the subintervals. */
+ if (i->left)
+ {
+ int left_end, left_end_byte;
+
+ if (multi_flag)
+ {
+ left_end_byte = start_byte + LEFT_TOTAL_LENGTH (i);
+ left_end = BYTE_TO_CHAR (left_end_byte);
+ }
+ else
+ {
+ left_end = start + LEFT_TOTAL_LENGTH (i);
+ left_end_byte = CHAR_TO_BYTE (left_end);
+ }
+
+ set_intervals_multibyte_1 (i->left, multi_flag, start, start_byte,
+ left_end, left_end_byte);
+ }
+ if (i->right)
+ {
+ int right_start_byte, right_start;
+
+ if (multi_flag)
+ {
+ right_start_byte = end_byte - RIGHT_TOTAL_LENGTH (i);
+ right_start = BYTE_TO_CHAR (right_start_byte);
+ }
+ else
+ {
+ right_start = end - RIGHT_TOTAL_LENGTH (i);
+ right_start_byte = CHAR_TO_BYTE (right_start);
+ }
+
+ set_intervals_multibyte_1 (i->right, multi_flag,
+ right_start, right_start_byte,
+ end, end_byte);
+ }
+}
+
+/* Update the intervals of the current buffer
+ to fit the contents as multibyte (if MULTI_FLAG is 1)
+ or to fit them as non-multibyte (if MULTI_FLAG is 0). */
+
+void
+set_intervals_multibyte (multi_flag)
+ int multi_flag;
+{
+ if (BUF_INTERVALS (current_buffer))
+ set_intervals_multibyte_1 (BUF_INTERVALS (current_buffer), multi_flag,
+ BEG, BEG_BYTE, Z, Z_BYTE);
+}
HCoop / bpt / emacs.git / blobdiff