This is redisplay-output.c in view mode; [Download] [Up]
/* Synchronize redisplay structures and output changes.
Copyright (C) 1994, 1995 Board of Trustees, University of Illinois
This file is part of XEmacs.
XEmacs is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.
XEmacs 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 XEmacs; see the file COPYING. If not, write to the Free
Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
/* Synched up with: Not in FSF. */
/* This file has been Mule-ized. */
/* Author: Chuck Thompson */
#include <config.h>
#include "lisp.h"
#include "debug.h"
#include "buffer.h"
#include "window.h"
#include "frame.h"
#include "device.h"
#include "glyphs.h"
#include "redisplay.h"
#include "faces.h"
#include "sysdep.h"
static int compare_runes (struct window *w, struct rune *crb,
struct rune *drb);
static void redraw_cursor_in_window (struct window *w,
int run_end_begin_glyphs);
void redisplay_output_window (struct window *w);
/*****************************************************************************
sync_rune_structs
Synchronize the given rune blocks.
****************************************************************************/
static void
sync_rune_structs (struct window *w, rune_dynarr *cra, rune_dynarr *dra)
{
int rune_elt;
int max_move = ((Dynarr_length (dra) > Dynarr_largest (cra))
? Dynarr_largest (cra)
: Dynarr_length (dra));
if (max_move)
{
/* #### Doing this directly breaks the encapsulation. But, the
running time of this function has a measurable impact on
redisplay performance so avoiding all excess overhead is a
good thing. Is all of this true? */
memcpy (cra->base, dra->base, sizeof (struct rune) * max_move);
Dynarr_set_size (cra, max_move);
}
else
Dynarr_reset (cra);
for (rune_elt = max_move; rune_elt < Dynarr_length (dra); rune_elt++)
{
struct rune rb, *crb;
struct rune *drb = Dynarr_atp (dra, rune_elt);
crb = &rb;
memcpy (crb, drb, sizeof (struct rune));
Dynarr_add (cra, *crb);
}
}
/*****************************************************************************
sync_display_line_structs
For the given LINE in window W, make the current display line equal
the desired display line.
****************************************************************************/
static void
sync_display_line_structs (struct window *w, int line, int do_blocks,
display_line_dynarr *cdla,
display_line_dynarr *ddla)
{
int cdla_len = Dynarr_length (cdla);
struct display_line dl, *clp, *dlp;
int db_elt;
dlp = Dynarr_atp (ddla, line);
if (line >= Dynarr_largest (cdla))
{
clp = &dl;
clp->display_blocks = Dynarr_new (struct display_block);
}
else
{
clp = Dynarr_atp (cdla, line);
if (clp->display_blocks)
Dynarr_reset (clp->display_blocks);
if (clp->left_glyphs)
{
Dynarr_free (clp->left_glyphs);
clp->left_glyphs = 0;
}
if (clp->right_glyphs)
{
Dynarr_free (clp->right_glyphs);
clp->right_glyphs = 0;
}
}
{
display_block_dynarr *tdb = clp->display_blocks;
memcpy (clp, dlp, sizeof (struct display_line));
clp->display_blocks = tdb;
clp->left_glyphs = 0;
clp->right_glyphs = 0;
}
if (!do_blocks && line >= cdla_len)
{
Dynarr_add (cdla, *clp);
return;
}
for (db_elt = 0; db_elt < Dynarr_length (dlp->display_blocks); db_elt++)
{
struct display_block db, *cdb;
struct display_block *ddb = Dynarr_atp (dlp->display_blocks, db_elt);
if (db_elt >= Dynarr_largest (clp->display_blocks))
{
cdb = &db;
memcpy (cdb, ddb, sizeof (struct display_block));
cdb->runes = Dynarr_new (struct rune);
Dynarr_add (clp->display_blocks, *cdb);
}
else
{
rune_dynarr *tr;
cdb = Dynarr_atp (clp->display_blocks, db_elt);
tr = cdb->runes;
memcpy (cdb, ddb, sizeof (struct display_block));
cdb->runes = tr;
Dynarr_increment (clp->display_blocks);
}
sync_rune_structs (w, cdb->runes, ddb->runes);
}
if (line >= cdla_len)
Dynarr_add (cdla, *clp);
}
/*****************************************************************************
compare_runes
Compare to runes to see if each of their fields is equal. If so,
return true otherwise return false.
****************************************************************************/
static int
compare_runes (struct window *w, struct rune *crb, struct rune *drb)
{
/* Do not compare the values of bufpos and endpos. They do not
affect the display characteristics. */
if ((crb->findex != drb->findex) ||
(FACE_CACHE_ELEMENT_DIRTY (w, drb->findex)))
return 0;
else if (!EQ (crb->extent, drb->extent))
return 0;
else if (crb->xpos != drb->xpos)
return 0;
else if (crb->width != drb->width)
return 0;
else if (crb->cursor_type != drb->cursor_type)
return 0;
else if (crb->type != drb->type)
return 0;
else if (crb->type == CHAR && (crb->object.ch != drb->object.ch))
return 0;
else if (crb->type == DGLYPH &&
(!EQ (crb->object.dglyph.glyph, drb->object.dglyph.glyph) ||
crb->object.dglyph.xoffset != drb->object.dglyph.xoffset))
return 0;
else if (crb->type == HLINE &&
(crb->object.hline.thickness != drb->object.hline.thickness ||
crb->object.hline.yoffset != drb->object.hline.yoffset))
return 0;
else
return 1;
}
/*****************************************************************************
get_next_display_block
Return the next display starting at or overlapping START_POS. Return
the start of the next region in NEXT_START.
****************************************************************************/
int
get_next_display_block (layout_bounds bounds, display_block_dynarr *dba,
int start_pos, int *next_start)
{
int next_display_block = NO_BLOCK;
int priority = -1;
int block;
/* If we don't find a display block covering or starting at
start_pos, then we return the starting point of the next display
block or the next division boundary, whichever is closer to
start_pos. */
if (next_start)
{
if (start_pos >= bounds.left_out && start_pos < bounds.left_in)
*next_start = bounds.left_in;
else if (start_pos < bounds.left_white)
*next_start = bounds.left_white;
else if (start_pos < bounds.right_white)
*next_start = bounds.right_white;
else if (start_pos < bounds.right_in)
*next_start = bounds.right_in;
else if (start_pos <= bounds.right_out)
*next_start = bounds.right_out;
else
abort ();
}
for (block = 0; block < Dynarr_length (dba); block++)
{
struct display_block *db = Dynarr_atp (dba, block);
if (db->start_pos <= start_pos && db->end_pos > start_pos)
{
if ((int) db->type > priority)
{
priority = db->type;
next_display_block = block;
if (next_start)
*next_start = db->end_pos;
}
}
else if (next_start && db->start_pos > start_pos)
{
if (db->start_pos < *next_start)
*next_start = db->start_pos;
}
}
return next_display_block;
}
/*****************************************************************************
get_cursor_size_and_location
Return the information defining the pixel location of the cursor.
****************************************************************************/
static void
get_cursor_size_and_location (struct window *w, struct display_block *db,
int cursor_location,
int *cursor_start, int *cursor_width,
int *cursor_height)
{
struct device *d = XDEVICE (XFRAME (w->frame)->device);
struct rune *rb;
struct font_metric_info fm;
if (Dynarr_length (db->runes) <= cursor_location)
abort ();
rb = Dynarr_atp (db->runes, cursor_location);
*cursor_start = rb->xpos;
DEVMETH (d, font_metric_info, (d, FACE_CACHE_ELEMENT_FONT (w, DEFAULT_INDEX),
&fm));
*cursor_height = fm.height;
if (rb->type == BLANK)
*cursor_width = fm.width;
else
*cursor_width = rb->width;
}
/*****************************************************************************
compare_display_blocks
Given two display blocks, output only those areas where they differ.
****************************************************************************/
static int
compare_display_blocks (struct window *w, struct display_line *cdl,
struct display_line *ddl, int c_block, int d_block,
int start_pixpos, int cursor_start, int cursor_width,
int cursor_height)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
struct display_block *cdb, *ddb;
int start_pos;
int stop_pos;
int force = 0;
int block_end;
cdb = Dynarr_atp (cdl->display_blocks, c_block);
ddb = Dynarr_atp (ddl->display_blocks, d_block);
assert (cdb->type == ddb->type);
start_pos = -1;
stop_pos = min (Dynarr_length (cdb->runes), Dynarr_length (ddb->runes));
block_end =
(!Dynarr_length (ddb->runes)
? 0
: (Dynarr_atp (ddb->runes, Dynarr_length (ddb->runes) - 1)->xpos +
Dynarr_atp (ddb->runes, Dynarr_length (ddb->runes) - 1)->width));
/* If the new block type is not text and the cursor status is
changing and it overlaps the position of this block then force a
full redraw of the block in order to make sure that the cursor is
updated properly. */
if (ddb->type != TEXT
&& ((cdl->cursor_elt == -1 && ddl->cursor_elt != -1)
|| (cdl->cursor_elt != -1 && ddl->cursor_elt == -1))
&& (ddl->cursor_elt == -1 ||
(cursor_start
&& cursor_width
&& (cursor_start + cursor_width) >= start_pixpos
&& cursor_start <= block_end)))
force = 1;
if (f->windows_structure_changed ||
f->faces_changed ||
cdl->ypos != ddl->ypos ||
cdl->ascent != ddl->ascent ||
cdl->descent != ddl->descent ||
cdl->clip != ddl->clip ||
force)
{
start_pos = 0;
force = 1;
}
else
{
int elt = 0;
while (start_pos < 0 && elt < stop_pos)
{
if (!compare_runes (w, Dynarr_atp (cdb->runes, elt),
Dynarr_atp (ddb->runes, elt)))
{
start_pos = elt;
}
else
{
elt++;
}
}
/* If nothing has changed in the area where the blocks overlap, but
there are new blocks in the desired block, then adjust the start
point accordingly. */
if (elt == stop_pos && stop_pos < Dynarr_length (ddb->runes))
start_pos = stop_pos;
}
if (start_pos >= 0)
{
if ((Dynarr_length (ddb->runes) != Dynarr_length (cdb->runes))
|| force)
{
stop_pos = Dynarr_length (ddb->runes);
}
else
{
/* If the lines have the same number of runes and we are not
forcing a full redraw because the display line has
changed position then we try and optimize how much of the
line we actually redraw by scanning backwards from the
end for the first changed rune. This optimization is
almost always triggered by face changes. */
int elt = Dynarr_length (ddb->runes) - 1;
while (elt > start_pos)
{
if (!compare_runes (w, Dynarr_atp (cdb->runes, elt),
Dynarr_atp (ddb->runes, elt)))
break;
else
elt--;
}
stop_pos = elt + 1;
}
DEVMETH (d, output_display_block, (w, ddl, d_block, start_pos,
stop_pos, start_pixpos,
cursor_start, cursor_width,
cursor_height));
return 1;
}
return 0;
}
/*****************************************************************************
clear_left_border
Clear the lefthand outside border.
****************************************************************************/
static void
clear_left_border (struct window *w, int y, int height)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
Lisp_Object window;
XSETWINDOW (window, w);
DEVMETH (d, clear_region, (window, DEFAULT_INDEX,
FRAME_LEFT_BORDER_START (f), y,
FRAME_BORDER_WIDTH (f), height));
}
/*****************************************************************************
clear_right_border
Clear the righthand outside border.
****************************************************************************/
static void
clear_right_border (struct window *w, int y, int height)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
Lisp_Object window;
XSETWINDOW (window, w);
DEVMETH (d, clear_region, (window, DEFAULT_INDEX,
FRAME_RIGHT_BORDER_START (f),
y, FRAME_BORDER_WIDTH (f), height));
}
/*****************************************************************************
output_display_line
Ensure that the contents of the given display line is correct
on-screen. The force_ parameters are used by redisplay_move_cursor
to correctly update cursor locations and only cursor locations.
****************************************************************************/
void
output_display_line (struct window *w, display_line_dynarr *cdla,
display_line_dynarr *ddla, int line, int force_start,
int force_end)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
struct buffer *b = XBUFFER (w->buffer);
struct buffer *old_b = window_display_buffer (w);
struct display_line *cdl, *ddl;
display_block_dynarr *cdba, *ddba;
int start_pixpos, end_pixpos;
int cursor_start, cursor_width, cursor_height;
int force = (force_start >= 0 || force_end >= 0);
int clear_border = 0;
int must_sync = 0;
if (cdla && line < Dynarr_length (cdla))
{
cdl = Dynarr_atp (cdla, line);
cdba = cdl->display_blocks;
}
else
{
cdl = NULL;
cdba = NULL;
}
ddl = Dynarr_atp (ddla, line); /* assert line < Dynarr_length (ddla) */
ddba = ddl->display_blocks;
if (force_start >= 0 && force_start >= ddl->bounds.left_out)
start_pixpos = force_start;
else
start_pixpos = ddl->bounds.left_out;
if (force_end >= 0 && force_end < ddl->bounds.right_out)
end_pixpos = force_end;
else
end_pixpos = ddl->bounds.right_out;
/* Get the cursor parameters. */
if (ddl->cursor_elt != -1)
{
struct display_block *db;
/* If the lines cursor parameter is not -1 then it indicates
which rune in the TEXT block contains the cursor. This means
that there must be at least one display block. The TEXT
block, if present, must always be the first display block. */
assert (Dynarr_length (ddba) != 0);
db = Dynarr_atp (ddba, 0);
assert (db->type == TEXT);
get_cursor_size_and_location (w, db, ddl->cursor_elt, &cursor_start,
&cursor_width, &cursor_height);
}
else
{
cursor_start = cursor_width = cursor_height = 0;
}
/* The modeline should only have a single block and it had better be
a TEXT block. */
if (ddl->modeline)
{
/* The shadow thickness check is necesssary if only the sign of
the size changed. */
if (cdba && !w->shadow_thickness_changed)
{
must_sync |= compare_display_blocks (w, cdl, ddl, 0, 0,
start_pixpos, 0, 0, 0);
}
else
{
DEVMETH (d, output_display_block, (w, ddl, 0, 0, -1, start_pixpos,
0, 0, 0));
must_sync = 1;
}
if (must_sync)
clear_border = 1;
}
while (!ddl->modeline && start_pixpos < end_pixpos)
{
int block;
int next_start_pixpos;
block = get_next_display_block (ddl->bounds, ddba, start_pixpos,
&next_start_pixpos);
/* If we didn't find a block then we should blank the area
between start_pos and next_start if necessary. */
if (block == NO_BLOCK)
{
/* We only erase those areas which were actually previously
covered by a display block unless the window structure
changed. In that case we clear all areas since the current
structures may actually represent a different buffer. */
while (start_pixpos < next_start_pixpos)
{
int block_end;
int old_block;
if (cdba)
old_block = get_next_display_block (ddl->bounds, cdba,
start_pixpos, &block_end);
else
{
old_block = NO_BLOCK;
block_end = next_start_pixpos;
}
if (!cdba || old_block != NO_BLOCK || b != old_b ||
f->windows_structure_changed ||
f->faces_changed ||
force ||
(cdl && (cdl->ypos != ddl->ypos ||
cdl->ascent != ddl->ascent ||
cdl->descent != ddl->descent ||
cdl->clip != ddl->clip)))
{
int x, y, width, height;
Lisp_Object face;
must_sync = 1;
x = start_pixpos;
y = ddl->ypos - ddl->ascent;
width = min (next_start_pixpos, block_end) - x;
height = ddl->ascent + ddl->descent - ddl->clip;
if (x < ddl->bounds.left_in)
face = Vleft_margin_face;
else if (x < ddl->bounds.right_in)
face = Vdefault_face;
else if (x < ddl->bounds.right_out)
face = Vright_margin_face;
else
face = Qnil;
if (!NILP (face))
{
Lisp_Object window;
XSETWINDOW (window, w);
/* Clear the empty area. */
DEVMETH (d, clear_region,
(window, get_builtin_face_cache_index (w, face),
x, y, width, height));
/* Mark that we should clear the border. This is
necessary because italic fonts may leave
droppings in the border. */
clear_border = 1;
}
}
start_pixpos = min (next_start_pixpos, block_end);
}
}
else
{
struct display_block *cdb, *ddb;
int block_end;
int old_block;
if (cdba)
old_block = get_next_display_block (ddl->bounds, cdba,
start_pixpos, &block_end);
else
old_block = NO_BLOCK;
ddb = Dynarr_atp (ddba, block);
cdb = (old_block != NO_BLOCK ? Dynarr_atp (cdba, old_block) : 0);
/* If there was formerly no block over the current
region or if it was a block of a different type, then
output the entire ddb. Otherwise, compare cdb and
ddb and output only the changed region. */
if (!force && cdb && ddb->type == cdb->type && b == old_b)
{
must_sync |= compare_display_blocks (w, cdl, ddl, old_block,
block, start_pixpos,
cursor_start, cursor_width,
cursor_height);
}
else
{
int elt;
int first_elt = 0;
int last_elt = -1;
for (elt = 0; elt < Dynarr_length (ddb->runes); elt++)
{
struct rune *rb = Dynarr_atp (ddb->runes, elt);
if (start_pixpos >= rb->xpos
&& start_pixpos < rb->xpos + rb->width)
first_elt = elt;
if (end_pixpos > rb->xpos
&& end_pixpos <= rb->xpos + rb->width)
{
last_elt = elt + 1;
if (last_elt > Dynarr_length (ddb->runes))
last_elt = Dynarr_length (ddb->runes);
break;
}
}
must_sync = 1;
DEVMETH (d, output_display_block, (w, ddl, block, first_elt,
last_elt,
start_pixpos,
cursor_start, cursor_width,
cursor_height));
}
start_pixpos = next_start_pixpos;
}
}
/* Clear the internal border if we are next to it and the window
structure or frame size has changed or if something caused
clear_border to be tripped. */
/* #### Doing this on f->clear sucks but is necessary because of
window-local background values. */
if (f->windows_structure_changed || f->faces_changed || clear_border
|| f->clear)
{
int y = ddl->ypos - ddl->ascent;
int height = ddl->ascent + ddl->descent - ddl->clip;
if (ddl->modeline)
{
y -= MODELINE_SHADOW_THICKNESS (w);
height += (2 * MODELINE_SHADOW_THICKNESS (w));
}
if (window_is_leftmost (w))
clear_left_border (w, y, height);
if (window_is_rightmost (w))
clear_right_border (w, y, height);
}
if (cdla)
sync_display_line_structs (w, line, must_sync, cdla, ddla);
}
/*****************************************************************************
redisplay_move_cursor
For the given window W, move the cursor to NEW_POINT. Returns a
boolean indicating success or failure.
****************************************************************************/
#define ADJ_BUFPOS (rb->bufpos + dl->offset)
#define ADJ_ENDPOS (rb->endpos + dl->offset)
int
redisplay_move_cursor (struct window *w, Bufpos new_point, int no_output_end)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
display_line_dynarr *cla = window_display_lines (w, CURRENT_DISP);
struct display_line *dl;
struct display_block *db;
struct rune *rb;
int x = w->last_point_x[CURRENT_DISP];
int y = w->last_point_y[CURRENT_DISP];
if (y < 0 || y >= Dynarr_length (cla))
return 0;
dl = Dynarr_atp (cla, y);
db = get_display_block_from_line (dl, TEXT);
if (x < 0 || x >= Dynarr_length (db->runes))
return 0;
rb = Dynarr_atp (db->runes, x);
if (rb->cursor_type == CURSOR_OFF)
return 0;
else if (ADJ_BUFPOS == new_point
|| (ADJ_ENDPOS && (new_point >= ADJ_BUFPOS)
&& (new_point <= ADJ_ENDPOS)))
{
w->last_point_x[CURRENT_DISP] = x;
w->last_point_y[CURRENT_DISP] = y;
Fset_marker (w->last_point[CURRENT_DISP], make_number (ADJ_BUFPOS),
w->buffer);
dl->cursor_elt = x;
return 1;
}
else
{
DEVMETH (d, output_begin, (d));
/* #### This is a gross kludge. Cursor handling is such a royal
pain in the ass. */
if (rb->type == DGLYPH &&
(EQ (rb->object.dglyph.glyph, Vtruncation_glyph) ||
EQ (rb->object.dglyph.glyph, Vcontinuation_glyph)))
rb->cursor_type = NO_CURSOR;
else
rb->cursor_type = CURSOR_OFF;
dl->cursor_elt = -1;
output_display_line (w, 0, cla, y, rb->xpos, rb->xpos + rb->width);
}
w->last_point_x[CURRENT_DISP] = -1;
w->last_point_y[CURRENT_DISP] = -1;
Fset_marker (w->last_point[CURRENT_DISP], Qnil, w->buffer);
/* If this isn't the selected frame, then erasing the old cursor is
all we actually had to do. */
if (w != XWINDOW (FRAME_SELECTED_WINDOW (device_selected_frame (d))))
{
if (!no_output_end)
DEVMETH (d, output_end, (d));
return 1;
}
/* This should only occur in the minibuffer. */
if (new_point == 0)
{
w->last_point_x[CURRENT_DISP] = 0;
w->last_point_y[CURRENT_DISP] = y;
Fset_marker (w->last_point[CURRENT_DISP], Qzero, w->buffer);
rb = Dynarr_atp (db->runes, 0);
rb->cursor_type = CURSOR_ON;
dl->cursor_elt = 0;
output_display_line (w, 0, cla, y, rb->xpos, rb->xpos + rb->width);
if (!no_output_end)
DEVMETH (d, output_end, (d));
return 1;
}
else
{
int cur_rb = 0;
int first = 0;
int cur_dl, up;
if (ADJ_BUFPOS < new_point)
{
up = 1;
cur_rb = x + 1;
cur_dl = y;
}
else /* (rb->bufpos + dl->offset) > new_point */
{
up = 0;
if (!x)
{
cur_dl = y - 1;
first = 0;
}
else
{
cur_rb = x - 1;
cur_dl = y;
first = 1;
}
}
while ((up ? (cur_dl < Dynarr_length (cla)) : (cur_dl >= 0)))
{
dl = Dynarr_atp (cla, cur_dl);
db = get_display_block_from_line (dl, TEXT);
if (!up && !first)
cur_rb = Dynarr_length (db->runes) - 1;
while ((!scroll_on_clipped_lines || !dl->clip) &&
(up ? (cur_rb < Dynarr_length (db->runes)) : (cur_rb >= 0)))
{
rb = Dynarr_atp (db->runes, cur_rb);
if (rb->cursor_type != IGNORE_CURSOR
&& rb->cursor_type != NO_CURSOR &&
(ADJ_BUFPOS == new_point
|| (ADJ_ENDPOS && (new_point >= ADJ_BUFPOS)
&& (new_point <= ADJ_BUFPOS))))
{
rb->cursor_type = CURSOR_ON;
dl->cursor_elt = cur_rb;
output_display_line (w, 0, cla, cur_dl, rb->xpos,
rb->xpos + rb->width);
w->last_point_x[CURRENT_DISP] = cur_rb;
w->last_point_y[CURRENT_DISP] = cur_dl;
Fset_marker (w->last_point[CURRENT_DISP],
make_number (ADJ_BUFPOS), w->buffer);
if (!no_output_end)
DEVMETH (d, output_end, (d));
return 1;
}
(up ? cur_rb++ : cur_rb--);
}
(up ? (cur_rb = 0) : (first = 0));
(up ? cur_dl++ : cur_dl--);
}
}
if (!no_output_end)
DEVMETH (d, output_end, (d));
return 0;
}
#undef ADJ_BUFPOS
#undef ADJ_ENDPOS
/*****************************************************************************
redraw_cursor_in_window
For the given window W, redraw the cursor if it is contained within
the window.
****************************************************************************/
static void
redraw_cursor_in_window (struct window *w, int run_end_begin_meths)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
display_line_dynarr *dla = window_display_lines (w, CURRENT_DISP);
struct display_line *dl;
struct display_block *db;
struct rune *rb;
int x = w->last_point_x[CURRENT_DISP];
int y = w->last_point_y[CURRENT_DISP];
if (y < 0 || y >= Dynarr_length (dla))
return;
if (MINI_WINDOW_P (w) && f != device_selected_frame (d))
return;
dl = Dynarr_atp (dla, y);
db = get_display_block_from_line (dl, TEXT);
if (x < 0 || x >= Dynarr_length (db->runes))
return;
rb = Dynarr_atp (db->runes, x);
/* Don't call the output routine if the block isn't actually the
cursor. */
if (rb->cursor_type == CURSOR_ON)
{
if (run_end_begin_meths)
DEVMETH (d, output_begin, (d));
output_display_line (w, 0, dla, y, rb->xpos, rb->xpos + rb->width);
if (run_end_begin_meths)
DEVMETH (d, output_end, (d));
}
}
/*****************************************************************************
redisplay_redraw_cursor
For the given frame F, redraw the cursor on the selected window.
This is used to update the cursor after focus changes.
****************************************************************************/
void
redisplay_redraw_cursor (struct frame *f, int run_end_begin_meths)
{
struct window *w = XWINDOW (FRAME_SELECTED_WINDOW (f));
redraw_cursor_in_window (w, run_end_begin_meths);
}
/*****************************************************************************
redisplay_clear_top_of_window
If window is topmost, clear the internal border above it.
****************************************************************************/
static void
redisplay_clear_top_of_window (struct window *w)
{
Lisp_Object window;
XSETWINDOW (window, w);
if (!NILP (Fwindow_highest_p (window)))
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
int x, y, width, height;
x = w->pixel_left;
width = w->pixel_width;
if (window_is_leftmost (w))
{
x -= FRAME_BORDER_WIDTH (f);
width += FRAME_BORDER_WIDTH (f);
}
if (window_is_rightmost (w))
width += FRAME_BORDER_WIDTH (f);
y = FRAME_TOP_BORDER_START (f) - 1;
height = FRAME_BORDER_HEIGHT (f) + 1;
DEVMETH (d, clear_region, (window, DEFAULT_INDEX, x, y, width, height));
}
}
/*****************************************************************************
redisplay_clear_bottom_of_window
Clear window from right below the last display line to right above
the modeline. The calling function can limit the area actually
erased by setting min_start and/or max_end to positive values.
****************************************************************************/
void
redisplay_clear_bottom_of_window (struct window *w, display_line_dynarr *ddla,
int min_start, int max_end)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
int ypos1, ypos2;
int ddla_len = Dynarr_length (ddla);
ypos2 = WINDOW_TEXT_BOTTOM (w);
/* This adjustment is to catch the intersection of any scrollbars. */
if (f->windows_structure_changed && !f->scrollbar_on_top)
ypos2 += window_scrollbar_height (w);
if (ddla_len)
{
if (ddla_len == 1 && Dynarr_atp (ddla, 0)->modeline)
{
ypos1 = WINDOW_TEXT_TOP (w);
/* This adjustment is to catch the intersection of any scrollbars. */
if (f->windows_structure_changed && f->scrollbar_on_top)
ypos1 -= window_scrollbar_height (w);
}
else
{
struct display_line *dl = Dynarr_atp (ddla, ddla_len - 1);
ypos1 = dl->ypos + dl->descent - dl->clip;
}
}
else
ypos1 = WINDOW_TEXT_TOP (w);
/* #### See if this can be made conditional on the frame
changing size. */
if (MINI_WINDOW_P (w))
ypos2 += FRAME_BORDER_HEIGHT (f);
if (min_start >= 0 && ypos1 < min_start)
ypos1 = min_start;
if (max_end >= 0 && ypos2 > max_end)
ypos2 = max_end;
if (ypos2 <= ypos1)
return;
DEVMETH (d, clear_to_window_end, (w, ypos1, ypos2));
}
/*****************************************************************************
redisplay_update_line
This is used during incremental updates to update a single line and
correct the offsets on all lines below it. At the moment
update_values is false if we are only updating the modeline.
****************************************************************************/
void
redisplay_update_line (struct window *w, int first_line, int last_line,
int update_values)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
display_line_dynarr *cdla = window_display_lines (w, CURRENT_DISP);
display_line_dynarr *ddla = window_display_lines (w, DESIRED_DISP);
DEVMETH (d, output_begin, (d));
while (first_line <= last_line)
{
Charcount old_len = (Dynarr_atp (cdla, first_line)->end_bufpos -
Dynarr_atp (cdla, first_line)->bufpos);
Charcount new_len = (Dynarr_atp (ddla, first_line)->end_bufpos -
Dynarr_atp (ddla, first_line)->bufpos);
assert (Dynarr_length (cdla) == Dynarr_length (ddla));
/* Output the changes. */
output_display_line (w, cdla, ddla, first_line, -1, -1);
/* Update the offsets. */
if (update_values)
{
int cur_line = first_line + 1;
while (cur_line < Dynarr_length (cdla))
{
Dynarr_atp (cdla, cur_line)->offset += (new_len - old_len);
Dynarr_atp (ddla, cur_line)->offset += (new_len - old_len);
cur_line++;
}
}
/* Update the window_end_pos and other settings. */
if (update_values)
{
w->window_end_pos[CURRENT_DISP] -= (new_len - old_len);
if (Dynarr_atp (ddla, first_line)->cursor_elt != -1)
{
w->last_point_x[CURRENT_DISP] = w->last_point_x[DESIRED_DISP];
w->last_point_y[CURRENT_DISP] = w->last_point_y[DESIRED_DISP];
}
}
first_line++;
}
/* Update the window max line length. We have to scan the entire
set of display lines otherwise we might not detect if the max is
supposed to shrink. */
if (update_values)
{
int line = 0;
w->max_line_len = 0;
while (line < Dynarr_length (ddla))
{
struct display_line *dl = Dynarr_atp (ddla, line);
if (!dl->modeline)
w->max_line_len = max (dl->num_chars, w->max_line_len);
line++;
}
}
w->last_modified[CURRENT_DISP] = w->last_modified[DESIRED_DISP];
w->last_facechange[CURRENT_DISP] = w->last_facechange[DESIRED_DISP];
Fset_marker (w->last_point[CURRENT_DISP],
Fmarker_position (w->last_point[DESIRED_DISP]), w->buffer);
Fset_marker (w->last_start[CURRENT_DISP],
Fmarker_position (w->last_start[DESIRED_DISP]), w->buffer);
/* We don't bother updating the vertical scrollbars here. This
gives us a performance increase while having minimal loss of
quality to the scrollbar slider size and position since when this
function is called we know that the changes to the buffer were
very localized. We have to update the horizontal scrollbars,
though, because this routine could cause a change which has a
larger impact on their sizing. */
/* #### See if we can get away with only calling this if
max_line_len is greater than the window_char_width. */
update_window_scrollbars (w, NULL, 1, 1);
/* This has to be done after we've updated the values. We don't
call output_end for tty frames. Redisplay will do this after all
tty windows have been updated. This cuts down on cursor
flicker. */
if (FRAME_IS_TTY (f))
redisplay_redraw_cursor (f, 0);
else
DEVMETH (d, output_end, (d));
}
/*****************************************************************************
redisplay_output_window
For the given window W, ensure that the current display lines are
equal to the desired display lines, outputing changes as necessary.
#### Fuck me. This just isn't going to cut it for tty's. The output
decisions for them must be based on the contents of the entire frame
because that is how the available output capabilities think. The
solution is relatively simple. Create redisplay_output_frame. This
will basically merge all of the separate window display structs into
a single one for the frame. This combination structure will be able
to be passed to the same output_display_line which works for windows
on X frames and the right things will happen. It just takes time to
do.
****************************************************************************/
void
redisplay_output_window (struct window *w)
{
struct frame *f = XFRAME (w->frame);
struct device *d = XDEVICE (f->device);
display_line_dynarr *cdla = window_display_lines (w, CURRENT_DISP);
display_line_dynarr *ddla = window_display_lines (w, DESIRED_DISP);
int cdla_len = Dynarr_length (cdla);
int ddla_len = Dynarr_length (ddla);
int line;
int need_to_clear_bottom = 0;
int need_to_clear_start = -1;
int need_to_clear_end = -1;
/* Backgrounds may have changed or windows may have gone away
leaving dividers lying around. */
if (f->faces_changed
|| f->windows_structure_changed
|| w->shadow_thickness_changed)
need_to_clear_bottom = 1;
/* The first thing we do is determine if we are going to need to
clear the bottom of the window. We only need to do this if the
bottom of the current display lines is below the bottom of the
desired display lines. Note that the number of lines is
irrelevant. Only the position matters. We also clear to the
bottom of the window if the modeline has shifted position. */
/* #### We can't blindly not clear the bottom if f->clear is true
since there might be a window-local background. However, for
those cases where there isn't, clearing the end of the window in
this case sucks. */
if (!need_to_clear_bottom)
{
struct display_line *cdl, *ddl;
/* If the modeline has changed position or size, clear the bottom
of the window. */
if (!need_to_clear_bottom)
{
cdl = ddl = 0;
if (cdla_len)
cdl = Dynarr_atp (cdla, 0);
if (ddla_len)
ddl = Dynarr_atp (ddla, 0);
if (!cdl || !ddl)
need_to_clear_bottom = 1;
else if ((!cdl->modeline && ddl->modeline)
|| (cdl->modeline && !ddl->modeline))
need_to_clear_bottom = 1;
else if (cdl->ypos != ddl->ypos ||
cdl->ascent != ddl->ascent ||
cdl->descent != ddl->descent ||
cdl->clip != ddl->clip)
need_to_clear_bottom = 1;
/* #### This kludge is to make sure the modeline shadows get
redrawn if the modeline position shifts. */
if (need_to_clear_bottom)
w->shadow_thickness_changed = 1;
}
if (!need_to_clear_bottom)
{
cdl = ddl = 0;
if (cdla_len)
cdl = Dynarr_atp (cdla, cdla_len - 1);
if (ddla_len)
ddl = Dynarr_atp (ddla, ddla_len - 1);
if (!cdl || !ddl)
need_to_clear_bottom = 1;
else
{
int cdl_bottom, ddl_bottom;
cdl_bottom = cdl->ypos + cdl->descent;
ddl_bottom = ddl->ypos + ddl->descent;
if (cdl_bottom > ddl_bottom)
{
need_to_clear_bottom = 1;
need_to_clear_start = ddl_bottom;
need_to_clear_end = cdl_bottom;
}
}
}
}
/* Perform any output initialization. */
DEVMETH (d, output_begin, (d));
/* If the window's structure has changed clear the internal border
above it if it is topmost (the function will check). */
if (f->windows_structure_changed)
redisplay_clear_top_of_window (w);
/* Output each line. */
for (line = 0; line < Dynarr_length (ddla); line++)
{
output_display_line (w, cdla, ddla, line, -1, -1);
}
/* If the number of display lines has shrunk, adjust. */
if (cdla_len > ddla_len)
{
Dynarr_length (cdla) = ddla_len;
}
/* Output a vertical divider between windows, if necessary. */
if (window_needs_vertical_divider (w)
&& (f->windows_structure_changed || f->clear))
{
DEVMETH (d, output_vertical_divider, (w, f->windows_structure_changed));
}
/* Clear the rest of the window, if necessary. */
if (need_to_clear_bottom)
{
redisplay_clear_bottom_of_window (w, ddla, need_to_clear_start,
need_to_clear_end);
}
w->window_end_pos[CURRENT_DISP] = w->window_end_pos[DESIRED_DISP];
Fset_marker (w->start[CURRENT_DISP],
make_number (marker_position (w->start[DESIRED_DISP])),
w->buffer);
Fset_marker (w->pointm[CURRENT_DISP],
make_number (marker_position (w->pointm[DESIRED_DISP])),
w->buffer);
w->last_modified[CURRENT_DISP] = w->last_modified[DESIRED_DISP];
w->last_facechange[CURRENT_DISP] = w->last_facechange[DESIRED_DISP];
Fset_marker (w->last_start[CURRENT_DISP],
Fmarker_position (w->last_start[DESIRED_DISP]), w->buffer);
Fset_marker (w->last_point[CURRENT_DISP],
Fmarker_position (w->last_point[DESIRED_DISP]), w->buffer);
w->last_point_x[CURRENT_DISP] = w->last_point_x[DESIRED_DISP];
w->last_point_y[CURRENT_DISP] = w->last_point_y[DESIRED_DISP];
w->shadow_thickness_changed = 0;
set_window_display_buffer (w, XBUFFER (w->buffer));
find_window_mirror (w)->truncate_win = window_truncation_on (w);
/* Overkill on invalidating the cache. It is very bad for it to not
get invalidated when it should be. */
INVALIDATE_DEVICE_PIXEL_TO_GLYPH_CACHE (d);
/* We don't call output_end for tty frames. Redisplay will do this
after all tty windows have been updated. This cuts down on
cursor flicker. */
if (FRAME_IS_TTY (f))
redisplay_redraw_cursor (f, 0);
else
DEVMETH (d, output_end, (d));
update_window_scrollbars (w, NULL, !MINI_WINDOW_P (w), 0);
}
These are the contents of the former NiCE NeXT User Group NeXTSTEP/OpenStep software archive, currently hosted by Netfuture.ch.