/* Code for doing intervals.
- Copyright (C) 1993, 1994, 1995, 1997, 1998 Free Software Foundation, Inc.
+ Copyright (C) 1993, 1994, 1995, 1997, 1998, 2002, 2003, 2004,
+ 2005, 2006 Free Software Foundation, Inc.
This file is part of GNU Emacs.
You should have received a copy of the GNU General Public License
along with GNU Emacs; see the file COPYING. If not, write to
-the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-Boston, MA 02111-1307, USA. */
+the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
+Boston, MA 02110-1301, USA. */
/* NOTES:
#include "buffer.h"
#include "puresize.h"
#include "keyboard.h"
+#include "keymap.h"
/* 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))
-#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));
{
new->total_length = (BUF_Z (XBUFFER (parent))
- BUF_BEG (XBUFFER (parent)));
+ CHECK_TOTAL_LENGTH (new);
BUF_INTERVALS (XBUFFER (parent)) = new;
- new->position = 1;
+ new->position = BEG;
}
else if (STRINGP (parent))
{
- new->total_length = XSTRING (parent)->size;
- XSTRING (parent)->intervals = new;
+ new->total_length = SCHARS (parent);
+ CHECK_TOTAL_LENGTH (new);
+ STRING_SET_INTERVALS (parent, new);
new->position = 0;
}
MERGE_INTERVAL_CACHE (source, target);
o = source->plist;
- while (! EQ (o, Qnil))
+ while (CONSP (o))
{
- sym = Fcar (o);
+ sym = XCAR (o);
val = Fmemq (sym, target->plist);
if (NILP (val))
{
- o = Fcdr (o);
- val = Fcar (o);
+ o = XCDR (o);
+ CHECK_CONS (o);
+ val = XCAR (o);
target->plist = Fcons (sym, Fcons (val, target->plist));
- o = Fcdr (o);
+ o = XCDR (o);
}
else
- o = Fcdr (Fcdr (o));
+ o = Fcdr (XCDR (o));
}
}
abort ();
i1_len /= 2;
i0_cdr = i0->plist;
- while (!NILP (i0_cdr))
+ while (CONSP (i0_cdr))
{
/* Lengths of the two plists were unequal. */
if (i1_len == 0)
return 0;
- i0_sym = Fcar (i0_cdr);
+ i0_sym = XCAR (i0_cdr);
i1_val = Fmemq (i0_sym, i1->plist);
/* i0 has something i1 doesn't. */
return 0;
/* i0 and i1 both have sym, but it has different values in each. */
- i0_cdr = Fcdr (i0_cdr);
- if (! EQ (Fcar (Fcdr (i1_val)), Fcar (i0_cdr)))
+ i0_cdr = XCDR (i0_cdr);
+ CHECK_CONS (i0_cdr);
+ if (!EQ (Fcar (Fcdr (i1_val)), XCAR (i0_cdr)))
return 0;
- i0_cdr = Fcdr (i0_cdr);
+ i0_cdr = XCDR (i0_cdr);
i1_len--;
}
\f
/* Traverse an interval tree TREE, performing FUNCTION on each node.
+ No guarantee is made about the order of traversal.
Pass FUNCTION two args: an interval, and ARG. */
void
-traverse_intervals (tree, position, depth, function, arg)
+traverse_intervals_noorder (tree, function, arg)
INTERVAL tree;
- int position, depth;
void (* function) P_ ((INTERVAL, Lisp_Object));
Lisp_Object arg;
{
- if (NULL_INTERVAL_P (tree))
- return;
+ /* Minimize stack usage. */
+ while (!NULL_INTERVAL_P (tree))
+ {
+ (*function) (tree, arg);
+ if (NULL_INTERVAL_P (tree->right))
+ tree = tree->left;
+ else
+ {
+ traverse_intervals_noorder (tree->left, function, arg);
+ tree = tree->right;
+ }
+ }
+}
- traverse_intervals (tree->left, position, depth + 1, function, arg);
- position += LEFT_TOTAL_LENGTH (tree);
- tree->position = position;
- (*function) (tree, arg);
- position += LENGTH (tree);
- traverse_intervals (tree->right, position, depth + 1, function, arg);
+/* Traverse an interval tree TREE, performing FUNCTION on each node.
+ Pass FUNCTION two args: an interval, and ARG. */
+
+void
+traverse_intervals (tree, position, function, arg)
+ INTERVAL tree;
+ int position;
+ void (* function) P_ ((INTERVAL, Lisp_Object));
+ Lisp_Object arg;
+{
+ while (!NULL_INTERVAL_P (tree))
+ {
+ traverse_intervals (tree->left, position, function, arg);
+ position += LEFT_TOTAL_LENGTH (tree);
+ tree->position = position;
+ (*function) (tree, arg);
+ position += LENGTH (tree); tree = tree->right;
+ }
}
\f
#if 0
icount = 0;
search_interval = i;
found_interval = NULL_INTERVAL;
- traverse_intervals (tree, 1, 0, &check_for_interval, Qnil);
+ traverse_intervals_noorder (tree, &check_for_interval, Qnil);
return found_interval;
}
icount = 0;
idepth = 0;
zero_length = 0;
- traverse_intervals (i, 1, 0, &inc_interval_count, Qnil);
+ traverse_intervals_noorder (i, &inc_interval_count, Qnil);
return icount;
}
c c
*/
-static INTERVAL
+static INLINE INTERVAL
rotate_right (interval)
INTERVAL 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);
+ CHECK_TOTAL_LENGTH (interval);
/* B must have the same total length of A. */
B->total_length = old_total;
+ CHECK_TOTAL_LENGTH (B);
return B;
}
/* Assuming that a right child exists, perform the following operation:
- A B
- / \ / \
+ A B
+ / \ / \
B => A
- / \ / \
+ / \ / \
c c
*/
-static INTERVAL
+static INLINE INTERVAL
rotate_left (interval)
INTERVAL 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);
+ CHECK_TOTAL_LENGTH (interval);
/* B must have the same total length of A. */
B->total_length = old_total;
+ CHECK_TOTAL_LENGTH (B);
return B;
}
old_diff = LEFT_TOTAL_LENGTH (i) - RIGHT_TOTAL_LENGTH (i);
if (old_diff > 0)
{
+ /* Since the left child is longer, there must be one. */
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)
}
else if (old_diff < 0)
{
+ /* Since the right child is longer, there must be one. */
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)
if (BUFFERP (parent))
BUF_INTERVALS (XBUFFER (parent)) = interval;
else if (STRINGP (parent))
- XSTRING (parent)->intervals = interval;
+ STRING_SET_INTERVALS (parent, interval);
}
return interval;
{
interval->right = new;
new->total_length = new_length;
+ CHECK_TOTAL_LENGTH (new);
}
else
{
SET_INTERVAL_PARENT (interval->right, new);
interval->right = new;
new->total_length = new_length + new->right->total_length;
+ CHECK_TOTAL_LENGTH (new);
balance_an_interval (new);
}
-
+
balance_possible_root_interval (interval);
return new;
{
interval->left = new;
new->total_length = new_length;
+ CHECK_TOTAL_LENGTH (new);
}
else
{
SET_INTERVAL_PARENT (new->left, new);
interval->left = new;
new->total_length = new_length + new->left->total_length;
+ CHECK_TOTAL_LENGTH (new);
balance_an_interval (new);
}
-
+
balance_possible_root_interval (interval);
return new;
if (relative_position > TOTAL_LENGTH (tree))
abort (); /* Paranoia */
- tree = balance_possible_root_interval (tree);
+ if (!handling_signal)
+ tree = balance_possible_root_interval (tree);
while (1)
{
else
{
tree->position
- = (position - relative_position /* the left edge of *tree */
- + LEFT_TOTAL_LENGTH (tree)); /* the left edge of this interval */
+ = (position - relative_position /* left edge of *tree. */
+ + LEFT_TOTAL_LENGTH (tree)); /* left edge of this interval. */
return tree;
}
/* 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. */
+ if we go down the tree.
+ To speed up the process, we assume that the ->position of
+ I and all its parents is already uptodate. */
INTERVAL
update_interval (i, pos)
register INTERVAL i;
if (NULL_INTERVAL_P (i))
return NULL_INTERVAL;
- while (1)
+ while (1)
{
- if (pos < i->position)
+ if (pos < i->position)
{
/* Move left. */
- if (pos >= i->position - TOTAL_LENGTH (i->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))
+ else if (NULL_PARENT (i))
error ("Point before start of properties");
- else
+ 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))
+ if (pos < INTERVAL_LAST_POS (i) + TOTAL_LENGTH (i->right))
{
- i->right->position = INTERVAL_LAST_POS (i) +
- LEFT_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);
+ else if (NULL_PARENT (i))
+ error ("Point %d after end of properties", pos);
+ else
+ i = INTERVAL_PARENT (i);
continue;
}
- else
+ else
return i;
}
}
if (relative_position <= LEFT_TOTAL_LENGTH (this))
{
this->total_length += length;
+ CHECK_TOTAL_LENGTH (this);
this = this->left;
}
else if (relative_position > (TOTAL_LENGTH (this)
relative_position -= (TOTAL_LENGTH (this)
- RIGHT_TOTAL_LENGTH (this));
this->total_length += length;
+ CHECK_TOTAL_LENGTH (this);
this = this->right;
}
else
/* If we are to use zero-length intervals as buffer pointers,
then this code will have to change. */
this->total_length += length;
+ CHECK_TOTAL_LENGTH (this);
this->position = LEFT_TOTAL_LENGTH (this)
+ position - relative_position + 1;
return tree;
int eobp = 0;
Lisp_Object parent;
int offset;
-
+
if (TOTAL_LENGTH (tree) == 0) /* Paranoia */
abort ();
for (temp = prev ? prev : i; temp; temp = INTERVAL_PARENT_OR_NULL (temp))
{
temp->total_length += length;
+ CHECK_TOTAL_LENGTH (temp);
temp = balance_possible_root_interval (temp);
}
-
+
/* If at least one interval has sticky properties,
we check the stickiness property by property.
for (temp = i; temp; temp = INTERVAL_PARENT_OR_NULL (temp))
{
temp->total_length += length;
+ CHECK_TOTAL_LENGTH (temp);
temp = balance_possible_root_interval (temp);
}
}
-
+
return tree;
}
rrear = textget (pright, Qrear_nonsticky);
/* Go through each element of PRIGHT. */
- for (tail1 = pright; CONSP (tail1); tail1 = Fcdr (Fcdr (tail1)))
+ for (tail1 = pright; CONSP (tail1); tail1 = Fcdr (XCDR (tail1)))
{
Lisp_Object tmp;
- sym = Fcar (tail1);
+ sym = XCAR (tail1);
/* Sticky properties get special treatment. */
if (EQ (sym, Qrear_nonsticky) || EQ (sym, Qfront_sticky))
continue;
- rval = Fcar (Fcdr (tail1));
- for (tail2 = pleft; CONSP (tail2); tail2 = Fcdr (Fcdr (tail2)))
- if (EQ (sym, Fcar (tail2)))
+ rval = Fcar (XCDR (tail1));
+ for (tail2 = pleft; CONSP (tail2); tail2 = Fcdr (XCDR (tail2)))
+ if (EQ (sym, XCAR (tail2)))
break;
/* Indicate whether the property is explicitly defined on the left.
tmp = Fassq (sym, Vtext_property_default_nonsticky);
use_left = (lpresent
&& ! (TMEM (sym, lrear)
- || CONSP (tmp) && ! NILP (XCDR (tmp))));
+ || (CONSP (tmp) && ! NILP (XCDR (tmp)))));
use_right = (TMEM (sym, rfront)
|| (CONSP (tmp) && NILP (XCDR (tmp))));
if (use_left && use_right)
}
/* Now go through each element of PLEFT. */
- for (tail2 = pleft; CONSP (tail2); tail2 = Fcdr (Fcdr (tail2)))
+ for (tail2 = pleft; CONSP (tail2); tail2 = Fcdr (XCDR (tail2)))
{
Lisp_Object tmp;
- sym = Fcar (tail2);
+ sym = XCAR (tail2);
/* Sticky properties get special treatment. */
if (EQ (sym, Qrear_nonsticky) || EQ (sym, Qfront_sticky))
continue;
/* If sym is in PRIGHT, we've already considered it. */
- for (tail1 = pright; CONSP (tail1); tail1 = Fcdr (Fcdr (tail1)))
- if (EQ (sym, Fcar (tail1)))
+ for (tail1 = pright; CONSP (tail1); tail1 = Fcdr (XCDR (tail1)))
+ if (EQ (sym, XCAR (tail1)))
break;
if (! NILP (tail1))
continue;
- lval = Fcar (Fcdr (tail2));
+ lval = Fcar (XCDR (tail2));
/* Even if lrear or rfront say nothing about the stickiness of
SYM, Vtext_property_default_nonsticky may give default
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)
}
\f
-/* Delete an node I from its interval tree by merging its subtrees
+/* Delete a node I from its interval tree by merging its subtrees
into one subtree which is then returned. Caller is responsible for
storing the resulting subtree into its parent. */
this = this->left;
this->total_length += migrate_amt;
}
+ CHECK_TOTAL_LENGTH (this);
this->left = migrate;
SET_INTERVAL_PARENT (migrate, this);
if (BUFFERP (owner))
BUF_INTERVALS (XBUFFER (owner)) = parent;
else if (STRINGP (owner))
- XSTRING (owner)->intervals = parent;
+ STRING_SET_INTERVALS (owner, parent);
else
abort ();
relative_position,
amount);
tree->total_length -= subtract;
+ CHECK_TOTAL_LENGTH (tree);
return subtract;
}
/* Right branch */
relative_position,
amount);
tree->total_length -= subtract;
+ CHECK_TOTAL_LENGTH (tree);
return subtract;
}
/* Here -- this node. */
else
{
/* How much can we delete from this interval? */
- int my_amount = ((tree->total_length
+ int my_amount = ((tree->total_length
- RIGHT_TOTAL_LENGTH (tree))
- relative_position);
amount = my_amount;
tree->total_length -= amount;
+ CHECK_TOTAL_LENGTH (tree);
if (LENGTH (tree) == 0)
delete_interval (tree);
-
+
return amount;
}
if (ONLY_INTERVAL_P (tree))
{
tree->total_length -= length;
+ CHECK_TOTAL_LENGTH (tree);
return;
}
/* Zero out this interval. */
i->total_length -= absorb;
+ CHECK_TOTAL_LENGTH (i);
/* Find the succeeding interval. */
if (! NULL_RIGHT_CHILD (i)) /* It's below us. Add absorb
while (! NULL_LEFT_CHILD (successor))
{
successor->total_length += absorb;
+ CHECK_TOTAL_LENGTH (successor);
successor = successor->left;
}
successor->total_length += absorb;
+ CHECK_TOTAL_LENGTH (successor);
delete_interval (i);
return successor;
}
successor = INTERVAL_PARENT (successor);
successor->total_length -= absorb;
+ CHECK_TOTAL_LENGTH (successor);
}
/* This must be the rightmost or last interval and cannot
/* Zero out this interval. */
i->total_length -= absorb;
+ CHECK_TOTAL_LENGTH (i);
/* Find the preceding interval. */
if (! NULL_LEFT_CHILD (i)) /* It's below us. Go down,
while (! NULL_RIGHT_CHILD (predecessor))
{
predecessor->total_length += absorb;
+ CHECK_TOTAL_LENGTH (predecessor);
predecessor = predecessor->right;
}
predecessor->total_length += absorb;
+ CHECK_TOTAL_LENGTH (predecessor);
delete_interval (i);
return predecessor;
}
predecessor = INTERVAL_PARENT (predecessor);
predecessor->total_length -= absorb;
+ CHECK_TOTAL_LENGTH (predecessor);
}
/* This must be the leftmost or first interval and cannot
{
register INTERVAL under, over, this, prev;
register INTERVAL tree;
- int middle;
+ int over_used;
tree = BUF_INTERVALS (buffer);
- /* If the new text has no properties, it becomes part of whatever
- interval it was inserted into. */
+ /* If the new text has no properties, then with inheritance it
+ becomes part of whatever interval it was inserted into.
+ To prevent inheritance, we must clear out the properties
+ of the newly inserted text. */
if (NULL_INTERVAL_P (source))
{
Lisp_Object buf;
- if (!inherit && ! NULL_INTERVAL_P (tree))
+ if (!inherit && !NULL_INTERVAL_P (tree) && length > 0)
{
- 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;
+ set_text_properties_1 (make_number (position),
+ make_number (position + length),
+ Qnil, buf, 0);
}
if (! NULL_INTERVAL_P (BUF_INTERVALS (buffer)))
+ /* Shouldn't be necessary. -stef */
BUF_INTERVALS (buffer) = balance_an_interval (BUF_INTERVALS (buffer));
return;
}
Lisp_Object buf;
XSETBUFFER (buf, buffer);
BUF_INTERVALS (buffer) = reproduce_tree_obj (source, buf);
- BUF_INTERVALS (buffer)->position = 1;
+ BUF_INTERVALS (buffer)->position = BEG;
+ BUF_INTERVALS (buffer)->up_obj = 1;
/* Explicitly free the old tree here? */
about inserting properly. For now, just waste the old intervals. */
{
BUF_INTERVALS (buffer) = reproduce_tree (source, INTERVAL_PARENT (tree));
- BUF_INTERVALS (buffer)->position = 1;
+ BUF_INTERVALS (buffer)->position = BEG;
+ BUF_INTERVALS (buffer)->up_obj = 1;
/* Explicitly free the old tree here. */
return;
= 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
{
The properties of under are the result of
adjust_intervals_for_insertion, so stickiness has
already been taken care of. */
-
+
+ /* OVER is the interval we are copying from next.
+ OVER_USED says how many characters' worth of OVER
+ have already been copied into target intervals.
+ UNDER is the next interval in the target. */
+ over_used = 0;
while (! NULL_INTERVAL_P (over))
{
- if (LENGTH (over) < LENGTH (under))
+ /* If UNDER is longer than OVER, split it. */
+ if (LENGTH (over) - over_used < LENGTH (under))
{
- this = split_interval_left (under, LENGTH (over));
+ this = split_interval_left (under, LENGTH (over) - over_used);
copy_properties (under, this);
}
else
this = under;
- copy_properties (over, this);
+
+ /* THIS is now the interval to copy or merge into.
+ OVER covers all of it. */
if (inherit)
merge_properties (over, this);
else
copy_properties (over, this);
- over = next_interval (over);
+
+ /* If THIS and OVER end at the same place,
+ advance OVER to a new source interval. */
+ if (LENGTH (this) == LENGTH (over) - over_used)
+ {
+ over = next_interval (over);
+ over_used = 0;
+ }
+ else
+ /* Otherwise just record that more of OVER has been used. */
+ over_used += LENGTH (this);
+
+ /* Always advance to a new target interval. */
+ under = next_interval (this);
}
if (! NULL_INTERVAL_P (BUF_INTERVALS (buffer)))
/* Get the value of property PROP from PLIST,
which is the plist of an interval.
- We check for direct properties, for categories with property PROP,
+ We check for direct properties, for categories with property PROP,
and for PROP appearing on the default-text-properties list. */
Lisp_Object
Lisp_Object plist;
register Lisp_Object prop;
{
- register Lisp_Object tail, fallback;
- fallback = Qnil;
+ return lookup_char_property (plist, prop, 1);
+}
- for (tail = plist; !NILP (tail); tail = Fcdr (Fcdr (tail)))
+Lisp_Object
+lookup_char_property (plist, prop, textprop)
+ Lisp_Object plist;
+ register Lisp_Object prop;
+ int textprop;
+{
+ register Lisp_Object tail, fallback = Qnil;
+
+ for (tail = plist; CONSP (tail); tail = Fcdr (XCDR (tail)))
{
register Lisp_Object tem;
- tem = Fcar (tail);
+ tem = XCAR (tail);
if (EQ (prop, tem))
- return Fcar (Fcdr (tail));
+ return Fcar (XCDR (tail));
if (EQ (tem, Qcategory))
{
- tem = Fcar (Fcdr (tail));
+ tem = Fcar (XCDR (tail));
if (SYMBOLP (tem))
fallback = Fget (tem, prop);
}
if (! NILP (fallback))
return fallback;
- if (CONSP (Vdefault_text_properties))
- return Fplist_get (Vdefault_text_properties, prop);
- return Qnil;
+ /* Check for alternative properties */
+ tail = Fassq (prop, Vchar_property_alias_alist);
+ if (! NILP (tail))
+ {
+ tail = XCDR (tail);
+ for (; NILP (fallback) && CONSP (tail); tail = XCDR (tail))
+ fallback = Fplist_get (plist, XCAR (tail));
+ }
+
+ if (textprop && NILP (fallback) && CONSP (Vdefault_text_properties))
+ fallback = Fplist_get (Vdefault_text_properties, prop);
+ return fallback;
}
\f
BUF_PT (buffer) = charpos;
}
-/* Set point in BUFFER to CHARPOS. If the target position is
+/* Set point in BUFFER to CHARPOS. If the target position is
before an intangible character, move to an ok place. */
void
set_point_both (buffer, charpos, buf_charpos_to_bytepos (buffer, charpos));
}
+/* If there's an invisible character at position POS + TEST_OFFS in the
+ current buffer, and the invisible property has a `stickiness' such that
+ inserting a character at position POS would inherit the property it,
+ return POS + ADJ, otherwise return POS. If TEST_INTANG is non-zero,
+ then intangibility is required as well as invisibleness.
+
+ TEST_OFFS should be either 0 or -1, and ADJ should be either 1 or -1.
+
+ Note that `stickiness' is determined by overlay marker insertion types,
+ if the invisible property comes from an overlay. */
+
+static int
+adjust_for_invis_intang (pos, test_offs, adj, test_intang)
+ int pos, test_offs, adj, test_intang;
+{
+ Lisp_Object invis_propval, invis_overlay;
+ Lisp_Object test_pos;
+
+ if ((adj < 0 && pos + adj < BEGV) || (adj > 0 && pos + adj > ZV))
+ /* POS + ADJ would be beyond the buffer bounds, so do no adjustment. */
+ return pos;
+
+ test_pos = make_number (pos + test_offs);
+
+ invis_propval
+ = get_char_property_and_overlay (test_pos, Qinvisible, Qnil,
+ &invis_overlay);
+
+ if ((!test_intang
+ || ! NILP (Fget_char_property (test_pos, Qintangible, Qnil)))
+ && TEXT_PROP_MEANS_INVISIBLE (invis_propval)
+ /* This next test is true if the invisible property has a stickiness
+ such that an insertion at POS would inherit it. */
+ && (NILP (invis_overlay)
+ /* Invisible property is from a text-property. */
+ ? (text_property_stickiness (Qinvisible, make_number (pos), Qnil)
+ == (test_offs == 0 ? 1 : -1))
+ /* Invisible property is from an overlay. */
+ : (test_offs == 0
+ ? XMARKER (OVERLAY_START (invis_overlay))->insertion_type == 0
+ : XMARKER (OVERLAY_END (invis_overlay))->insertion_type == 1)))
+ pos += adj;
+
+ return pos;
+}
+
/* Set point in BUFFER to CHARPOS, which corresponds to byte
- position BYTEPOS. If the target position is
+ position BYTEPOS. If the target position is
before an intangible character, move to an ok place. */
void
if (charpos > BUF_ZV (buffer) || charpos < BUF_BEGV (buffer))
abort ();
- have_overlays = (! NILP (buffer->overlays_before)
- || ! NILP (buffer->overlays_after));
+ have_overlays = (buffer->overlays_before || buffer->overlays_after);
/* If we have no text properties and overlays,
then we can do it quickly. */
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);
+ Lisp_Object intangible_propval;
if (backwards)
{
- intangible_propval = Fget_char_property (make_number (charpos),
- Qintangible, Qnil);
+ /* If the preceding character is both intangible and invisible,
+ and the invisible property is `rear-sticky', perturb it so
+ that the search starts one character earlier -- this ensures
+ that point can never move to the end of an invisible/
+ intangible/rear-sticky region. */
+ charpos = adjust_for_invis_intang (charpos, -1, -1, 1);
+
+ XSETINT (pos, charpos);
/* If following char is intangible,
skip back over all chars with matching intangible property. */
+
+ intangible_propval = Fget_char_property (pos, Qintangible, Qnil);
+
if (! NILP (intangible_propval))
- 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);
+ {
+ 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);
+
+ /* Set CHARPOS from POS, and if the final intangible character
+ that we skipped over is also invisible, and the invisible
+ property is `front-sticky', perturb it to be one character
+ earlier -- this ensures that point can never move to the
+ beginning of an invisible/intangible/front-sticky region. */
+ charpos = adjust_for_invis_intang (XINT (pos), 0, -1, 0);
+ }
}
else
{
+ /* If the following character is both intangible and invisible,
+ and the invisible property is `front-sticky', perturb it so
+ that the search starts one character later -- this ensures
+ that point can never move to the beginning of an
+ invisible/intangible/front-sticky region. */
+ charpos = adjust_for_invis_intang (charpos, 0, 1, 1);
+
+ XSETINT (pos, charpos);
+
+ /* If preceding char is intangible,
+ skip forward over all chars with matching intangible property. */
+
intangible_propval = Fget_char_property (make_number (charpos - 1),
Qintangible, Qnil);
- /* If following char is intangible,
- skip forward over all chars with matching intangible property. */
if (! NILP (intangible_propval))
- while (XINT (pos) < BUF_ZV (buffer)
- && EQ (Fget_char_property (pos, Qintangible, Qnil),
- intangible_propval))
- pos = Fnext_char_property_change (pos, Qnil);
-
+ {
+ while (XINT (pos) < BUF_ZV (buffer)
+ && EQ (Fget_char_property (pos, Qintangible, Qnil),
+ intangible_propval))
+ pos = Fnext_char_property_change (pos, Qnil);
+
+ /* Set CHARPOS from POS, and if the final intangible character
+ that we skipped over is also invisible, and the invisible
+ property is `rear-sticky', perturb it to be one character
+ later -- this ensures that point can never move to the
+ end of an invisible/intangible/rear-sticky region. */
+ charpos = adjust_for_invis_intang (XINT (pos), -1, 1, 0);
+ }
}
- charpos = XINT (pos);
bytepos = buf_charpos_to_bytepos (buffer, charpos);
}
pos = Fnext_char_property_change (pos, Qnil);
}
+ else if (position < BEGV)
+ position = BEGV;
+ else if (position > ZV)
+ position = ZV;
- /* If the whole stretch between PT and POSITION isn't intangible,
+ /* 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). */
else if (BUFFERP (object))
i = find_interval (BUF_INTERVALS (XBUFFER (object)), pos);
else if (STRINGP (object))
- i = find_interval (XSTRING (object)->intervals, pos);
+ i = find_interval (STRING_INTERVALS (object), pos);
else
abort ();
*start = i->position;
next = next_interval (i);
- while (! NULL_INTERVAL_P (next)
+ 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
-/* 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. */
+/* Return the proper local keymap TYPE for position POSITION in
+ BUFFER; TYPE should be one of `keymap' or `local-map'. Use the map
+ specified by the PROP property, if any. Otherwise, if TYPE is
+ `local-map' 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;
+ Lisp_Object type;
{
- Lisp_Object prop, tem, lispy_position, lispy_buffer;
+ Lisp_Object prop, lispy_position, lispy_buffer;
int old_begv, old_zv, old_begv_byte, old_zv_byte;
/* Perhaps we should just change `position' to the limit. */
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. */
- if (position == BUF_Z (buffer) && BUF_Z (buffer) > BUF_BEG (buffer))
- --position;
XSETFASTINT (lispy_position, position);
XSETBUFFER (lispy_buffer, buffer);
- prop = Fget_char_property (lispy_position, Qlocal_map, lispy_buffer);
+ /* First check if the CHAR has any property. This is because when
+ we click with the mouse, the mouse pointer is really pointing
+ to the CHAR after POS. */
+ prop = Fget_char_property (lispy_position, type, lispy_buffer);
+ /* If not, look at the POS's properties. This is necessary because when
+ editing a field with a `local-map' property, we want insertion at the end
+ to obey the `local-map' property. */
+ if (NILP (prop))
+ prop = get_pos_property (lispy_position, type, lispy_buffer);
BUF_BEGV (buffer) = old_begv;
BUF_ZV (buffer) = old_zv;
BUF_ZV_BYTE (buffer) = old_zv_byte;
/* Use the local map only if it is valid. */
- /* Do allow symbols that are defined as keymaps. */
- if (SYMBOLP (prop) && !NILP (prop))
- prop = indirect_function (prop);
- if (!NILP (prop)
- && (tem = Fkeymapp (prop), !NILP (tem)))
+ prop = get_keymap (prop, 0, 0);
+ if (CONSP (prop))
return prop;
- return buffer->keymap;
+ if (EQ (type, Qkeymap))
+ return Qnil;
+ else
+ return buffer->keymap;
}
\f
/* Produce an interval tree reflecting the intervals in
new->position = 0;
got = (LENGTH (i) - (start - i->position));
new->total_length = length;
+ CHECK_TOTAL_LENGTH (new);
copy_properties (i, new);
t = new;
return;
SET_INTERVAL_OBJECT (interval_copy, string);
- XSTRING (string)->intervals = interval_copy;
+ STRING_SET_INTERVALS (string, interval_copy);
}
\f
/* Return 1 if strings S1 and S2 have identical properties; 0 otherwise.
{
INTERVAL i1, i2;
int pos = 0;
- int end = XSTRING (s1)->size;
+ int end = SCHARS (s1);
- i1 = find_interval (XSTRING (s1)->intervals, 0);
- i2 = find_interval (XSTRING (s2)->intervals, 0);
+ i1 = find_interval (STRING_INTERVALS (s1), 0);
+ i2 = find_interval (STRING_INTERVALS (s2), 0);
while (pos < end)
{
i->total_length = end - start;
else
i->total_length = end_byte - start_byte;
+ CHECK_TOTAL_LENGTH (i);
+
+ if (TOTAL_LENGTH (i) == 0)
+ {
+ delete_interval (i);
+ return;
+ }
/* Recursively fix the length of the subintervals. */
if (i->left)
if (multi_flag)
{
+ int temp;
left_end_byte = start_byte + LEFT_TOTAL_LENGTH (i);
left_end = BYTE_TO_CHAR (left_end_byte);
+
+ temp = CHAR_TO_BYTE (left_end);
+
+ /* If LEFT_END_BYTE is in the middle of a character,
+ adjust it and LEFT_END to a char boundary. */
+ if (left_end_byte > temp)
+ {
+ left_end_byte = temp;
+ }
+ if (left_end_byte < temp)
+ {
+ left_end--;
+ left_end_byte = CHAR_TO_BYTE (left_end);
+ }
}
else
{
if (multi_flag)
{
+ int temp;
+
right_start_byte = end_byte - RIGHT_TOTAL_LENGTH (i);
right_start = BYTE_TO_CHAR (right_start_byte);
+
+ /* If RIGHT_START_BYTE is in the middle of a character,
+ adjust it and RIGHT_START to a char boundary. */
+ temp = CHAR_TO_BYTE (right_start);
+
+ if (right_start_byte < temp)
+ {
+ right_start_byte = temp;
+ }
+ if (right_start_byte > temp)
+ {
+ right_start++;
+ right_start_byte = CHAR_TO_BYTE (right_start);
+ }
}
else
{
right_start, right_start_byte,
end, end_byte);
}
+
+ /* Rounding to char boundaries can theoretically ake this interval
+ spurious. If so, delete one child, and copy its property list
+ to this interval. */
+ if (LEFT_TOTAL_LENGTH (i) + RIGHT_TOTAL_LENGTH (i) >= TOTAL_LENGTH (i))
+ {
+ if ((i)->left)
+ {
+ (i)->plist = (i)->left->plist;
+ (i)->left->total_length = 0;
+ delete_interval ((i)->left);
+ }
+ else
+ {
+ (i)->plist = (i)->right->plist;
+ (i)->right->total_length = 0;
+ delete_interval ((i)->right);
+ }
+ }
}
/* Update the intervals of the current buffer
set_intervals_multibyte_1 (BUF_INTERVALS (current_buffer), multi_flag,
BEG, BEG_BYTE, Z, Z_BYTE);
}
+
+/* arch-tag: 3d402b60-083c-4271-b4a3-ebd9a74bfe27
+ (do not change this comment) */