Mercurial > hg > xemacs-beta
view src/redisplay-msw.c @ 853:2b6fa2618f76
[xemacs-hg @ 2002-05-28 08:44:22 by ben]
merge my stderr-proc ws
make-docfile.c: Fix places where we forget to check for EOF.
code-init.el: Don't use CRLF conversion by default on process output. CMD.EXE and
friends work both ways but Cygwin programs don't like the CRs.
code-process.el, multicast.el, process.el: Removed.
Improvements to call-process-internal:
-- allows a buffer to be specified for input and stderr output
-- use it on all systems
-- implement C-g as documented
-- clean up and comment
call-process-region uses new call-process facilities; no temp file.
remove duplicate funs in process.el.
comment exactly how coding systems work and fix various problems.
open-multicast-group now does similar coding-system frobbing to
open-network-stream.
dumped-lisp.el, faces.el, msw-faces.el: Fix some hidden errors due to code not being defined at the right time.
xemacs.mak: Add -DSTRICT.
================================================================
ALLOW SEPARATION OF STDOUT AND STDERR IN PROCESSES
================================================================
Standard output and standard error can be processed separately in
a process. Each can have its own buffer, its own mark in that buffer,
and its filter function. You can specify a separate buffer for stderr
in `start-process' to get things started, or use the new primitives:
set-process-stderr-buffer
process-stderr-buffer
process-stderr-mark
set-process-stderr-filter
process-stderr-filter
Also, process-send-region takes a 4th optional arg, a buffer.
Currently always uses a pipe() under Unix to read the error output.
(#### Would a PTY be better?)
sysdep.h, sysproc.h, unexfreebsd.c, unexsunos4.c, nt.c, emacs.c, callproc.c, symsinit.h, sysdep.c, Makefile.in.in, process-unix.c: Delete callproc.c. Move child_setup() to process-unix.c.
wait_for_termination() now only needed on a few really old systems.
console-msw.h, event-Xt.c, event-msw.c, event-stream.c, event-tty.c, event-unixoid.c, events.h, process-nt.c, process-unix.c, process.c, process.h, procimpl.h: Rewrite the process methods to handle a separate channel for
error input. Create Lstreams for reading in the error channel.
Many process methods need change. In general the changes are
fairly clear as they involve duplicating what's used for reading
the normal stdout and changing for stderr -- although tedious,
as such changes are required throughout the entire process code.
Rewrote the code that reads process output to do two loops, one
for stdout and one for stderr.
gpmevent.c, tooltalk.c: set_process_filter takes an argument for stderr.
================================================================
NEW ERROR-TRAPPING MECHANISM
================================================================
Totally rewrite error trapping code to be unified and support more
features. Basic function is call_trapping_problems(), which lets
you specify, by means of flags, what sorts of problems you want
trapped. these can include
-- quit
-- errors
-- throws past the function
-- creation of "display objects" (e.g. buffers)
-- deletion of already-existing "display objects" (e.g. buffers)
-- modification of already-existing buffers
-- entering the debugger
-- gc
-- errors->warnings (ala suspended errors)
etc. All other error funs rewritten in terms of this one.
Various older mechanisms removed or rewritten.
window.c, insdel.c, console.c, buffer.c, device.c, frame.c: When creating a display object, added call to
note_object_created(), for use with trapping_problems mechanism.
When deleting, call check_allowed_operation() and note_object
deleted().
The trapping-problems code records the objects created since the
call-trapping-problems began. Those objects can be deleted, but
none others (i.e. previously existing ones).
bytecode.c, cmdloop.c: internal_catch takes another arg.
eval.c: Add long comments describing the "five lists" used to maintain
state (backtrace, gcpro, specbind, etc.) in the Lisp engine.
backtrace.h, eval.c: Implement trapping-problems mechanism, eliminate old mechanisms or
redo in terms of new one.
frame.c, gutter.c: Flush out the concept of "critical display section", defined by
the in_display() var. Use an internal_bind() to get it reset,
rather than just doing it at end, because there may be a non-local
exit.
event-msw.c, event-stream.c, console-msw.h, device.c, dialog-msw.c, frame.c, frame.h, intl.c, toolbar.c, menubar-msw.c, redisplay.c, alloc.c, menubar-x.c: Make use of new trapping-errors stuff and rewrite code based on
old mechanisms.
glyphs-widget.c, redisplay.h: Protect calling Lisp in redisplay.
insdel.c: Protect hooks against deleting existing buffers.
frame-msw.c: Use EQ, not EQUAL in hash tables whose keys are just numbers.
Otherwise we run into stickiness in redisplay because
internal_equal() can QUIT.
================================================================
SIGNAL, C-G CHANGES
================================================================
Here we change the way that C-g interacts with event reading. The
idea is that a C-g occurring while we're reading a user event
should be read as C-g, but elsewhere should be a QUIT. The former
code did all sorts of bizarreness -- requiring that no QUIT occurs
anywhere in event-reading code (impossible to enforce given the
stuff called or Lisp code invoked), and having some weird system
involving enqueue/dequeue of a C-g and interaction with Vquit_flag
-- and it didn't work.
Now, we simply enclose all code where we want C-g read as an event
with {begin/end}_dont_check_for_quit(). This completely turns off
the mechanism that checks (and may remove or alter) C-g in the
read-ahead queues, so we just get the C-g normal.
Signal.c documents this very carefully.
cmdloop.c: Correct use of dont_check_for_quit to new scheme, remove old
out-of-date comments.
event-stream.c: Fix C-g handling to actually work.
device-x.c: Disable quit checking when err out.
signal.c: Cleanup. Add large descriptive comment.
process-unix.c, process-nt.c, sysdep.c: Use QUIT instead of REALLY_QUIT.
It's not necessary to use REALLY_QUIT and just confuses the issue.
lisp.h: Comment quit handlers.
================================================================
CONS CHANGES
================================================================
free_cons() now takes a Lisp_Object not the result of XCONS().
car and cdr have been renamed so that they don't get used directly;
go through XCAR(), XCDR() instead.
alloc.c, dired.c, editfns.c, emodules.c, fns.c, glyphs-msw.c, glyphs-x.c, glyphs.c, keymap.c, minibuf.c, search.c, eval.c, lread.c, lisp.h: Correct free_cons calling convention: now takes Lisp_Object,
not Lisp_Cons
chartab.c: Eliminate direct use of ->car, ->cdr, should be black box.
callint.c: Rewrote using EXTERNAL_LIST_LOOP to avoid use of Lisp_Cons.
================================================================
USE INTERNAL-BIND-*
================================================================
eval.c: Cleanups of these funs.
alloc.c, fileio.c, undo.c, specifier.c, text.c, profile.c, lread.c, redisplay.c, menubar-x.c, macros.c: Rewrote to use internal_bind_int() and internal_bind_lisp_object()
in place of whatever varied and cumbersome mechanisms were
formerly there.
================================================================
SPECBIND SANITY
================================================================
backtrace.h: - Improved comments
backtrace.h, bytecode.c, eval.c: Add new mechanism check_specbind_stack_sanity() for sanity
checking code each time the catchlist or specbind stack change.
Removed older prototype of same mechanism.
================================================================
MISC
================================================================
lisp.h, insdel.c, window.c, device.c, console.c, buffer.c: Fleshed out authorship.
device-msw.c: Correct bad Unicode-ization.
print.c: Be more careful when not initialized or in fatal error handling.
search.c: Eliminate running_asynch_code, an FSF holdover.
alloc.c: Added comments about gc-cons-threshold.
dialog-x.c: Use begin_gc_forbidden() around code to build up a widget value
tree, like in menubar-x.c.
gui.c: Use Qunbound not Qnil as the default for
gethash.
lisp-disunion.h, lisp-union.h: Added warnings on use of VOID_TO_LISP().
lisp.h: Use ERROR_CHECK_STRUCTURES to turn on
ERROR_CHECK_TRAPPING_PROBLEMS and ERROR_CHECK_TYPECHECK
lisp.h: Add assert_with_message.
lisp.h: Add macros for gcproing entire arrays. (You could do this before
but it required manual twiddling the gcpro structure.)
lisp.h: Add prototypes for new functions defined elsewhere.
| author | ben |
|---|---|
| date | Tue, 28 May 2002 08:45:36 +0000 |
| parents | 6728e641994e |
| children | 804517e16990 |
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/* mswindows output and frame manipulation routines. Copyright (C) 1994, 1995 Board of Trustees, University of Illinois. Copyright (C) 1994 Lucid, Inc. Copyright (C) 1995 Sun Microsystems, Inc. Copyright (C) 2001, 2002 Ben Wing. 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, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Synched up with: Not in FSF. */ /* I think this file is essentially Mule-ized, but I'm not sure! Could stand a good once-over. Unicode support is trash, of course. */ /* Authorship: Chuck Thompson Lots of work done by Ben Wing for Mule Partially rewritten for mswindows by Jonathan Harris, November 1997 for 21.0. */ #include <config.h> #include "lisp.h" #include "buffer.h" #include "charset.h" #include "debug.h" #include "device.h" #include "events.h" #include "faces.h" #include "frame.h" #include "gutter.h" #include "redisplay.h" #include "sysdep.h" #include "window.h" #include "console-msw.h" #include "glyphs-msw.h" #include "objects-msw.h" #define MSWINDOWS_EOL_CURSOR_WIDTH 5 /* * Random forward declarations */ static void mswindows_update_dc (HDC hdc, Lisp_Object fg, Lisp_Object bg, Lisp_Object bg_pmap); static void mswindows_set_dc_font (HDC hdc, Lisp_Object font, int under, int strike); static void mswindows_output_vertical_divider (struct window *w, int clear); static void mswindows_redraw_exposed_windows (Lisp_Object window, int x, int y, int width, int height); static void mswindows_output_dibitmap (struct frame *f, Lisp_Image_Instance *p, struct display_box *db, struct display_glyph_area *dga); typedef struct textual_run { Lisp_Object charset; /* charset of this run */ WCHAR *ptr; /* pointer to Unicode chars in this run */ int nchars; /* number of internal characters in this run */ int nwchars; /* number of Unicode chars in this run */ } textual_run; /* Separate out the text in STR into a series of textual runs of a particular charset. Returns the number of runs actually used. Returns the textual runs (STATICALLY ALLOCATED!) in RUN_STORAGE_PTR. */ static int separate_textual_runs (textual_run **run_storage_ptr, const Emchar *str, Charcount len) { static WCHAR *ext_storage; static int ext_storage_size; /* in WCHARS! */ static textual_run *run_storage; static int run_storage_size; int runs_so_far = 0; int runbegin = 0; int total_nchars = 0; int i; Lisp_Object prev_charset; if (len == 0) return 0; prev_charset = emchar_charset (str[0]); for (i = 1; i <= len; i++) { if (i == len || !EQ (emchar_charset (str[i]), prev_charset)) { int j; Intbyte *int_storage = alloca_intbytes (MAX_EMCHAR_LEN * (i - runbegin)); int int_storage_ptr = 0; Extbyte *alloca_ext_storage; int nchars; int_storage_ptr = 0; for (j = runbegin; j < i; j++) int_storage_ptr += set_charptr_emchar (int_storage + int_storage_ptr, str[j]); TO_EXTERNAL_FORMAT (DATA, (int_storage, int_storage_ptr), ALLOCA, (alloca_ext_storage, nchars), Qmswindows_unicode); nchars /= sizeof (WCHAR); /* Tricky ... */ DO_REALLOC (ext_storage, ext_storage_size, total_nchars + nchars, WCHAR); memcpy (ext_storage + total_nchars, alloca_ext_storage, nchars * sizeof (WCHAR)); DO_REALLOC (run_storage, run_storage_size, runs_so_far + 1, textual_run); run_storage[runs_so_far].ptr = ext_storage + total_nchars; run_storage[runs_so_far].charset = prev_charset; run_storage[runs_so_far].nwchars = nchars; run_storage[runs_so_far].nchars = i - runbegin; total_nchars += nchars; runs_so_far++; runbegin = i; if (i < len) prev_charset = emchar_charset (str[i]); } } *run_storage_ptr = run_storage; return runs_so_far; } static int mswindows_text_width_single_run (HDC hdc, struct face_cachel *cachel, textual_run *run) { Lisp_Object font_inst = FACE_CACHEL_FONT (cachel, run->charset); SIZE size; #if 0 /* @@#### not the way of ikeyama's ws */ if (!fi->proportional_p || !hdc) { if (XCHARSET_DIMENSION (run->charset) == 2) /* Don't trust FONT_INSTANCE_WIDTH. Asian fonts have both of one and two column characters. */ goto the_hard_way; else return fi->width * run->nchars; } else { the_hard_way: #endif mswindows_set_dc_font (hdc, font_inst, cachel->underline, cachel->strikethru); GetTextExtentPoint32W (hdc, run->ptr, run->nwchars, &size); return size.cx; #if 0 /* @@#### not the way of ikeyama's ws */ } #endif } /* * Given F, retrieve device context. F can be a display frame, or * a print job. For a print job, page is also started when printer's * device context is first time requested. */ static HDC get_frame_dc (struct frame *f, int start_page_p) { if (FRAME_MSWINDOWS_P (f)) return FRAME_MSWINDOWS_DC (f); else { if (start_page_p && !FRAME_MSPRINTER_PAGE_STARTED (f)) msprinter_start_page (f); return DEVICE_MSPRINTER_HDC (XDEVICE (FRAME_DEVICE (f))); } } /* * Given F, retrieve compatible device context. F can be a display * frame, or a print job. */ static HDC get_frame_compdc (struct frame *f) { struct device *d = XDEVICE (FRAME_DEVICE (f)); if (DEVICE_MSWINDOWS_P (d)) return DEVICE_MSWINDOWS_HCDC (d); else return DEVICE_MSPRINTER_HCDC (d); } /***************************************************************************** mswindows_update_dc Given a number of parameters munge the DC so it has those properties. ****************************************************************************/ static void mswindows_update_dc (HDC hdc, Lisp_Object fg, Lisp_Object bg, Lisp_Object bg_pmap) { if (!NILP (fg)) { SetTextColor (hdc, COLOR_INSTANCE_MSWINDOWS_COLOR (XCOLOR_INSTANCE (fg))); } if (!NILP (bg)) { SetBkMode (hdc, OPAQUE); SetBkColor (hdc, COLOR_INSTANCE_MSWINDOWS_COLOR (XCOLOR_INSTANCE (bg))); } else { SetBkMode (hdc, TRANSPARENT); } } static void mswindows_set_dc_font (HDC hdc, Lisp_Object font, int under, int strike) { SelectObject (hdc, mswindows_get_hfont (XFONT_INSTANCE (font), under, strike)); } /***************************************************************************** mswindows_output_hline Output a horizontal line in the foreground of its face. ****************************************************************************/ static void mswindows_output_hline (struct window *w, struct display_line *dl, struct rune *rb) { /* #### Implement me */ } /***************************************************************************** mswindows_output_blank Output a blank by clearing the area it covers in the background color of its face. ****************************************************************************/ static void mswindows_output_blank (struct window *w, struct display_line *dl, struct rune *rb, int start_pixpos) { struct frame *f = XFRAME (w->frame); HDC hdc = get_frame_dc (f, 1); RECT rect = { rb->xpos, DISPLAY_LINE_YPOS (dl), rb->xpos+rb->width, DISPLAY_LINE_YEND (dl) }; struct face_cachel *cachel = WINDOW_FACE_CACHEL (w, rb->findex); Lisp_Object bg_pmap = WINDOW_FACE_CACHEL_BACKGROUND_PIXMAP (w, rb->findex); /* Unmap all subwindows in the area we are going to blank. */ redisplay_unmap_subwindows_maybe (f, rb->xpos, DISPLAY_LINE_YPOS (dl), rb->width, DISPLAY_LINE_HEIGHT (dl)); if (!IMAGE_INSTANCEP (bg_pmap) || !IMAGE_INSTANCE_PIXMAP_TYPE_P (XIMAGE_INSTANCE (bg_pmap))) bg_pmap = Qnil; if (!NILP(bg_pmap)) { struct display_box db; struct display_glyph_area dga; redisplay_calculate_display_boxes (dl, rb->xpos, /*rb->object.dglyph.xoffset*/ 0, /*rb->object.dglyph.yoffset*/ 0, start_pixpos, rb->width, &db, &dga); /* blank the background in the appropriate color */ mswindows_update_dc (hdc, cachel->foreground, cachel->background, Qnil); redisplay_output_pixmap (w, bg_pmap, &db, &dga, rb->findex, 0, 0, 0, TRUE); } else { mswindows_update_dc (hdc, Qnil, cachel->background, Qnil); ExtTextOutW (hdc, 0, 0, ETO_OPAQUE, &rect, NULL, 0, NULL); } } /***************************************************************************** mswindows_output_cursor Draw a normal or end-of-line cursor. The end-of-line cursor is narrower than the normal cursor. ****************************************************************************/ static void mswindows_output_cursor (struct window *w, struct display_line *dl, int xpos, int width, face_index findex, Emchar ch, int image_p) { struct frame *f = XFRAME (w->frame); struct device *d = XDEVICE (f->device); Lisp_Object font = Qnil; int focus = EQ (w->frame, DEVICE_FRAME_WITH_FOCUS_REAL (d)); HDC hdc = get_frame_dc (f, 1); int local_face_index = 0; textual_run *run; int nruns = 0; RECT rect = { xpos, DISPLAY_LINE_YPOS (dl), xpos + width, DISPLAY_LINE_YEND (dl) }; Lisp_Object bar = symbol_value_in_buffer (Qbar_cursor, WINDOW_BUFFER (w)); int bar_p = image_p || !NILP (bar); int cursor_p = !NILP (w->text_cursor_visible_p); int real_char_p = ch != 0; /* Unmap all subwindows in the area we are going to blank. */ redisplay_unmap_subwindows_maybe (f, xpos, DISPLAY_LINE_YPOS (dl), width, DISPLAY_LINE_HEIGHT (dl)); if (real_char_p) { /* Use the font from the underlying character */ struct face_cachel *font_cachel = WINDOW_FACE_CACHEL (w, findex); nruns = separate_textual_runs (&run, &ch, 1); font = FACE_CACHEL_FONT (font_cachel, run->charset); mswindows_set_dc_font (hdc, font, font_cachel->underline, font_cachel->strikethru); } if (!image_p) { struct face_cachel *color_cachel; /* Use cursor fg/bg for block cursor, or character fg/bg for the bar or when we need to erase the cursor. Output nothing at eol if bar cursor */ local_face_index = get_builtin_face_cache_index (w, Vtext_cursor_face); color_cachel = WINDOW_FACE_CACHEL (w, ((!cursor_p || bar_p) ? findex : local_face_index)); mswindows_update_dc (hdc, color_cachel->foreground, color_cachel->background, Qnil); ExtTextOutW (hdc, xpos, dl->ypos, ETO_OPAQUE|ETO_CLIPPED, &rect, nruns ? run->ptr : NULL, nruns ? run->nwchars : 0, NULL); } if (!cursor_p) return; if (focus && bar_p) { struct face_cachel *cursor_cachel; rect.right = rect.left + (EQ (bar, Qt) ? 1 : min (2, width)); local_face_index = get_builtin_face_cache_index (w, Vtext_cursor_face); cursor_cachel = WINDOW_FACE_CACHEL (w, local_face_index); mswindows_update_dc (hdc, Qnil, cursor_cachel->background, Qnil); ExtTextOutW (hdc, xpos, dl->ypos, ETO_OPAQUE, &rect, NULL, 0, NULL); } else if (!focus) { struct face_cachel *cursor_cachel; /* Now have real character drawn in its own color. We deflate the rectangle so character cell will be bounded by the previously drawn cursor shape */ InflateRect (&rect, -1, -1); local_face_index = get_builtin_face_cache_index (w, Vdefault_face); cursor_cachel = WINDOW_FACE_CACHEL (w, (real_char_p ? findex : local_face_index)); mswindows_update_dc (hdc, cursor_cachel->foreground, cursor_cachel->background, Qnil); ExtTextOutW (hdc, xpos, dl->ypos, ETO_OPAQUE | ETO_CLIPPED, &rect, nruns ? run->ptr : NULL, nruns ? run->nwchars : 0, NULL); } #ifdef MULE if (DEVICE_MSWINDOWS_P (d) && (FRAME_MSWINDOWS_CURSOR_X (f) != xpos || FRAME_MSWINDOWS_CURSOR_Y (f) != DISPLAY_LINE_YPOS (dl) || FRAME_MSWINDOWS_CURSOR_FINDEX (f) != findex)) { HWND hwnd = FRAME_MSWINDOWS_HANDLE(f); HIMC himc = ImmGetContext (hwnd); FRAME_MSWINDOWS_CURSOR_X (f) = xpos; FRAME_MSWINDOWS_CURSOR_Y (f) = DISPLAY_LINE_YPOS (dl); FRAME_MSWINDOWS_CURSOR_FINDEX (f) = findex; /* If the composition window is active, reset position of the composition window. */ if (qxeImmGetCompositionString (himc, GCS_COMPSTR, NULL, 0)) mswindows_start_ime_composition (f); ImmReleaseContext (hwnd, himc); } #endif /* MULE */ } /***************************************************************************** mswindows_output_string Given a string and a starting position, output that string in the given face. Correctly handles multiple charsets in the string. The meaning of the parameters is something like this: W Window that the text is to be displayed in. DL Display line that this text is on. The values in the structure are used to determine the vertical position and clipping range of the text. BUF Dynamic array of Emchars specifying what is actually to be drawn. XPOS X position in pixels where the text should start being drawn. XOFFSET Number of pixels to be chopped off the left side of the text. The effect is as if the text were shifted to the left this many pixels and clipped at XPOS. CLIP_START Clip everything left of this X position. WIDTH Clip everything right of XPOS + WIDTH. FINDEX Index for the face cache element describing how to display the text. ****************************************************************************/ static void mswindows_output_string (struct window *w, struct display_line *dl, Emchar_dynarr *buf, int xpos, int xoffset, int clip_start, int width, face_index findex, int cursor, int cursor_start, int cursor_width, int cursor_height) { struct frame *f = XFRAME (w->frame); /* struct device *d = XDEVICE (f->device);*/ Lisp_Object window; HDC hdc = get_frame_dc (f, 1); int clip_end; Lisp_Object bg_pmap; textual_run *runs; int nruns; int i, height; RECT rect; struct face_cachel *cachel = WINDOW_FACE_CACHEL (w, findex); window = wrap_window (w); #if 0 /* #### FIXME? */ /* We can't work out the width before we've set the font in the DC */ if (width < 0) width = mswindows_text_width (cachel, Dynarr_atp (buf, 0), Dynarr_length (buf)); #else assert(width>=0); #endif /* Regularize the variables passed in. */ if (clip_start < xpos) clip_start = xpos; clip_end = xpos + width; if (clip_start >= clip_end) /* It's all clipped out. */ return; xpos -= xoffset; /* sort out the destination rectangle */ height = DISPLAY_LINE_HEIGHT (dl); rect.left = clip_start; rect.top = DISPLAY_LINE_YPOS (dl); rect.right = clip_end; rect.bottom = rect.top + height; /* make sure the area we are about to display is subwindow free. */ redisplay_unmap_subwindows_maybe (f, clip_start, DISPLAY_LINE_YPOS (dl), clip_end - clip_start, DISPLAY_LINE_HEIGHT (dl)); /* output the background pixmap if there is one */ bg_pmap = cachel->background_pixmap; if (!IMAGE_INSTANCEP (bg_pmap) || !IMAGE_INSTANCE_PIXMAP_TYPE_P (XIMAGE_INSTANCE (bg_pmap))) bg_pmap = Qnil; if (!NILP(bg_pmap)) { struct display_box db; struct display_glyph_area dga; redisplay_calculate_display_boxes (dl, xpos + xoffset, 0, 0, clip_start, width, &db, &dga); /* blank the background in the appropriate color */ mswindows_update_dc (hdc, cachel->foreground, cachel->background, Qnil); redisplay_output_pixmap (w, bg_pmap, &db, &dga, findex, 0, 0, 0, TRUE); /* output pixmap calls this so we have to recall to get correct references */ cachel = WINDOW_FACE_CACHEL (w, findex); } nruns = separate_textual_runs (&runs, Dynarr_atp (buf, 0), Dynarr_length (buf)); for (i = 0; i < nruns; i++) { Lisp_Object font = FACE_CACHEL_FONT (cachel, runs[i].charset); Lisp_Font_Instance *fi = XFONT_INSTANCE (font); int this_width; if (EQ (font, Vthe_null_font_instance)) continue; mswindows_update_dc (hdc, cachel->foreground, NILP(bg_pmap) ? cachel->background : Qnil, Qnil); mswindows_set_dc_font (hdc, font, cachel->underline, cachel->strikethru); this_width = mswindows_text_width_single_run (hdc, cachel, runs + i); /* cope with fonts taller than lines */ if ((int) fi->height < (int) (height + dl->clip + dl->top_clip)) { int clear_start = max (xpos, clip_start); int clear_end = min (xpos + this_width, clip_end); { redisplay_clear_region (window, findex, clear_start, DISPLAY_LINE_YPOS (dl), clear_end - clear_start, height); /* output pixmap calls this so we have to recall to get correct references */ cachel = WINDOW_FACE_CACHEL (w, findex); } } ExtTextOutW (hdc, xpos, dl->ypos, NILP(bg_pmap) ? ETO_CLIPPED | ETO_OPAQUE : ETO_CLIPPED, &rect, runs[i].ptr, runs[i].nwchars, NULL); xpos += this_width; } } static void mswindows_output_dibitmap (struct frame *f, Lisp_Image_Instance *p, struct display_box *db, struct display_glyph_area *dga) { HDC hdc = get_frame_dc (f, 1); HDC hcompdc = get_frame_compdc (f); HGDIOBJ old=NULL; const int real_x = IMAGE_INSTANCE_MSWINDOWS_BITMAP_REAL_WIDTH (p); const int real_y = IMAGE_INSTANCE_MSWINDOWS_BITMAP_REAL_HEIGHT (p); const int surface_x = IMAGE_INSTANCE_PIXMAP_WIDTH (p); const int surface_y = IMAGE_INSTANCE_PIXMAP_HEIGHT (p); /* first blit the mask */ if (IMAGE_INSTANCE_MSWINDOWS_MASK (p)) { RGBQUAD bg; COLORREF bgcolor; old = SelectObject (hcompdc, IMAGE_INSTANCE_MSWINDOWS_MASK (p)); if (IMAGE_INSTANCE_TYPE (p) == IMAGE_MONO_PIXMAP) { COLORREF fgcolor; RGBQUAD fg; fgcolor = GetTextColor (hdc); fg.rgbBlue = GetBValue (fgcolor); fg.rgbRed = GetRValue (fgcolor); fg.rgbGreen = GetGValue (fgcolor); fg.rgbReserved = 0; SetDIBColorTable (hcompdc, 0, 1, &fg); } bgcolor = GetBkColor (hdc); bg.rgbBlue = GetBValue (bgcolor); bg.rgbRed = GetRValue (bgcolor); bg.rgbGreen = GetGValue (bgcolor); bg.rgbReserved = 0; SetDIBColorTable (hcompdc, 1, 1, &bg); StretchBlt (hdc, db->xpos, db->ypos, dga->width, dga->height, hcompdc, MulDiv (dga->xoffset, real_x, surface_x), MulDiv (dga->yoffset, real_y, surface_y), MulDiv (dga->width, real_x, surface_x), MulDiv (dga->height, real_y, surface_y), SRCCOPY); SelectObject (hcompdc, old); } /* Now blit the bitmap itself, or one of its slices. */ old = SelectObject (hcompdc, IMAGE_INSTANCE_MSWINDOWS_BITMAP_SLICE (p, IMAGE_INSTANCE_PIXMAP_SLICE (p))); StretchBlt (hdc, db->xpos, db->ypos, dga->width, dga->height, hcompdc, MulDiv (dga->xoffset, real_x, surface_x), MulDiv (dga->yoffset, real_y, surface_y), MulDiv (dga->width, real_x, surface_x), MulDiv (dga->height, real_y, surface_y), IMAGE_INSTANCE_MSWINDOWS_MASK (p) ? SRCINVERT : SRCCOPY); SelectObject (hcompdc, old); } /* X gc's have this nice property that setting the bg pixmap will * output it offset relative to the window. Windows doesn't have this * feature so we have to emulate this by outputting multiple pixmaps. * This is only used for background pixmaps. Normal pixmaps are * outputted once and are scrollable */ static void mswindows_output_dibitmap_region (struct frame *f, Lisp_Image_Instance *p, struct display_box *db, struct display_glyph_area *dga) { struct display_box xdb = { db->xpos, db->ypos, db->width, db->height }; struct display_glyph_area xdga = { 0, 0, IMAGE_INSTANCE_PIXMAP_WIDTH (p), IMAGE_INSTANCE_PIXMAP_HEIGHT (p) }; int pxoffset = 0, pyoffset = 0; if (dga) { xdga.width = dga->width; xdga.height = dga->height; } else if (!redisplay_normalize_glyph_area (&xdb, &xdga)) return; /* when doing a bg pixmap do a partial pixmap first so that we blt whole pixmaps thereafter */ xdga.height = min (xdga.height, IMAGE_INSTANCE_PIXMAP_HEIGHT (p) - db->ypos % IMAGE_INSTANCE_PIXMAP_HEIGHT (p)); while (xdga.height > 0) { xdga.width = min (min (db->width, IMAGE_INSTANCE_PIXMAP_WIDTH (p)), IMAGE_INSTANCE_PIXMAP_WIDTH (p) - db->xpos % IMAGE_INSTANCE_PIXMAP_WIDTH (p)); pxoffset = 0; while (xdga.width > 0) { xdb.xpos = db->xpos + pxoffset; xdb.ypos = db->ypos + pyoffset; /* do we need to offset the pixmap vertically? this is necessary for background pixmaps. */ xdga.yoffset = xdb.ypos % IMAGE_INSTANCE_PIXMAP_HEIGHT (p); xdga.xoffset = xdb.xpos % IMAGE_INSTANCE_PIXMAP_WIDTH (p); /* the width is handled by mswindows_output_pixmap_region */ mswindows_output_dibitmap (f, p, &xdb, &xdga); pxoffset += xdga.width; xdga.width = min ((db->width - pxoffset), IMAGE_INSTANCE_PIXMAP_WIDTH (p)); } pyoffset += xdga.height; xdga.height = min ((db->height - pyoffset), IMAGE_INSTANCE_PIXMAP_HEIGHT (p)); } } /* Output a pixmap at the desired location. DB normalized display_box. DGA normalized display_glyph_area. */ static void mswindows_output_pixmap (struct window *w, Lisp_Object image_instance, struct display_box *db, struct display_glyph_area *dga, face_index findex, int cursor_start, int cursor_width, int cursor_height, int bg_pixmap) { struct frame *f = XFRAME (w->frame); HDC hdc = get_frame_dc (f, 1); Lisp_Image_Instance *p = XIMAGE_INSTANCE (image_instance); /* Output the pixmap. Have to do this as many times as is required to fill the given area */ mswindows_update_dc (hdc, WINDOW_FACE_CACHEL_FOREGROUND (w, findex), WINDOW_FACE_CACHEL_BACKGROUND (w, findex), Qnil); if (bg_pixmap) mswindows_output_dibitmap_region (f, p, db, dga); else mswindows_output_dibitmap (f, p, db, dga); } #ifdef HAVE_SCROLLBARS /* * This function paints window's deadbox, a rectangle between window * borders and two short edges of both scrollbars. * * Function checks whether deadbox intersects with the rectangle pointed * to by PRC, and paints only the intersection */ static void mswindows_redisplay_deadbox_maybe (struct window *w, const RECT *prc) { int sbh = window_scrollbar_height (w); int sbw = window_scrollbar_width (w); RECT rect_dead, rect_paint; if (sbh == 0 || sbw == 0) return; if (!NILP (w->scrollbar_on_left_p)) rect_dead.left = WINDOW_LEFT (w); else rect_dead.left = WINDOW_TEXT_RIGHT (w); rect_dead.right = rect_dead.left + sbw; if (!NILP (w->scrollbar_on_top_p)) rect_dead.top = WINDOW_TOP (w); else rect_dead.top = WINDOW_TEXT_BOTTOM (w); rect_dead.bottom = rect_dead.top + sbh; if (IntersectRect (&rect_paint, &rect_dead, prc)) { struct frame *f = XFRAME (WINDOW_FRAME (w)); FillRect (get_frame_dc (f, 1), &rect_paint, (HBRUSH) (COLOR_BTNFACE+1)); } } #endif /* HAVE_SCROLLBARS */ /***************************************************************************** mswindows_redraw_exposed_window Given a bounding box for an area that needs to be redrawn, determine what parts of what lines are contained within and re-output their contents. Copied from redisplay-x.c ****************************************************************************/ static void mswindows_redraw_exposed_window (struct window *w, int x, int y, int width, int height) { struct frame *f = XFRAME (w->frame); int line; int orig_windows_structure_changed; RECT rect_window = { WINDOW_LEFT (w), WINDOW_TOP (w), WINDOW_RIGHT (w), WINDOW_BOTTOM (w) }; RECT rect_expose = { x, y, x + width, y + height }; RECT rect_draw; display_line_dynarr *cdla = window_display_lines (w, CURRENT_DISP); if (!NILP (w->vchild)) { mswindows_redraw_exposed_windows (w->vchild, x, y, width, height); return; } else if (!NILP (w->hchild)) { mswindows_redraw_exposed_windows (w->hchild, x, y, width, height); return; } /* If the window doesn't intersect the exposed region, we're done here. */ if (!IntersectRect (&rect_draw, &rect_window, &rect_expose)) return; /* We do this to make sure that the 3D modelines get redrawn if they are in the exposed region. */ orig_windows_structure_changed = f->windows_structure_changed; f->windows_structure_changed = 1; if (window_needs_vertical_divider (w)) { mswindows_output_vertical_divider (w, 0); } for (line = 0; line < Dynarr_length (cdla); line++) { struct display_line *cdl = Dynarr_atp (cdla, line); if (DISPLAY_LINE_YPOS (cdl) + DISPLAY_LINE_HEIGHT (cdl) >= rect_draw.top) { if (DISPLAY_LINE_YPOS (cdl) > rect_draw.bottom) { if (line == 0) continue; else break; } else { output_display_line (w, 0, cdla, line, rect_draw.left, rect_draw.right); } } } f->windows_structure_changed = orig_windows_structure_changed; /* If there have never been any face cache_elements created, then this expose event doesn't actually have anything to do. */ if (Dynarr_largest (w->face_cachels)) redisplay_clear_bottom_of_window (w, cdla, rect_draw.top, rect_draw.bottom); #ifdef HAVE_SCROLLBARS mswindows_redisplay_deadbox_maybe (w, &rect_expose); #endif } /***************************************************************************** mswindows_redraw_exposed_windows For each window beneath the given window in the window hierarchy, ensure that it is redrawn if necessary after an Expose event. ****************************************************************************/ static void mswindows_redraw_exposed_windows (Lisp_Object window, int x, int y, int width, int height) { for (; !NILP (window); window = XWINDOW (window)->next) mswindows_redraw_exposed_window (XWINDOW (window), x, y, width, height); } /***************************************************************************** mswindows_redraw_exposed_area For each window on the given frame, ensure that any area in the Exposed area is redrawn. ****************************************************************************/ void mswindows_redraw_exposed_area (struct frame *f, int x, int y, int width, int height) { /* If any window on the frame has had its face cache reset then the redisplay structures are effectively invalid. If we attempt to use them we'll blow up. We mark the frame as changed to ensure that redisplay will do a full update. This probably isn't necessary but it can't hurt. */ #ifdef HAVE_TOOLBARS /* #### We would rather put these off as well but there is currently no combination of flags which will force an unchanged toolbar to redraw anyhow. */ MAYBE_FRAMEMETH (f, redraw_exposed_toolbars, (f, x, y, width, height)); #endif redraw_exposed_gutters (f, x, y, width, height); if (!f->window_face_cache_reset) { mswindows_redraw_exposed_windows (f->root_window, x, y, width, height); GdiFlush(); } else MARK_FRAME_CHANGED (f); } /***************************************************************************** mswindows_bevel_area Draw a 3d border around the specified area on window W. ****************************************************************************/ static void mswindows_bevel_area (struct window *w, face_index findex, int x, int y, int width, int height, int thickness, int edges, enum edge_style style) { struct frame *f = XFRAME (w->frame); UINT edge; UINT border = 0; if (style == EDGE_ETCHED_IN) edge = EDGE_ETCHED; else if (style == EDGE_ETCHED_OUT) edge = EDGE_BUMP; else if (style == EDGE_BEVEL_IN) { if (thickness == 1) edge = BDR_SUNKENINNER; else edge = EDGE_SUNKEN; } else /* EDGE_BEVEL_OUT */ { if (thickness == 1) edge = BDR_RAISEDINNER; else edge = EDGE_RAISED; } if (edges & EDGE_TOP) border |= BF_TOP; if (edges & EDGE_LEFT) border |= BF_LEFT; if (edges & EDGE_BOTTOM) border |= BF_BOTTOM; if (edges & EDGE_RIGHT) border |= BF_RIGHT; { RECT rect = { x, y, x + width, y + height }; Lisp_Object color = WINDOW_FACE_CACHEL_BACKGROUND (w, findex); HDC hdc = get_frame_dc (f, 1); mswindows_update_dc (hdc, Qnil, color, Qnil); DrawEdge (hdc, &rect, edge, border); } } /***************************************************************************** Display methods *****************************************************************************/ /***************************************************************************** mswindows_divider_height Return the height of the horizontal divider. ****************************************************************************/ static int mswindows_divider_height (void) { return 1; /* XXX Copied from redisplay-X.c. What is this? */ } /***************************************************************************** mswindows_eol_cursor_width Return the width of the end-of-line cursor. ****************************************************************************/ static int mswindows_eol_cursor_width (void) { return MSWINDOWS_EOL_CURSOR_WIDTH; } /***************************************************************************** mswindows_frame_output_begin Perform any necessary initialization prior to an update. ****************************************************************************/ static void mswindows_frame_output_begin (struct frame *f) { } /***************************************************************************** mswindows_frame_output_end Perform any necessary flushing of queues when an update has completed. ****************************************************************************/ static void mswindows_frame_output_end (struct frame *f) { #ifdef DEFER_WINDOW_POS HDWP hdwp = FRAME_MSWINDOWS_DATA (f)->hdwp; if (hdwp != 0) { EndDeferWindowPos (hdwp); FRAME_MSWINDOWS_DATA (f)->hdwp = 0; } #endif GdiFlush(); } /* Printer version is more lightweight. */ static void msprinter_frame_output_end (struct frame *f) { GdiFlush(); } static int mswindows_flash (struct device *d) { struct frame *f = device_selected_frame (d); HDC hdc = get_frame_dc (f, 1); RECT rc; GetClientRect (FRAME_MSWINDOWS_HANDLE (f), &rc); InvertRect (hdc, &rc); GdiFlush (); Sleep (25); InvertRect (hdc, &rc); return 1; } static void mswindows_ring_bell (struct device *d, int volume, int pitch, int duration) { /* Beep does not work at all, anyways! -kkm */ MessageBeep (MB_OK); } /***************************************************************************** mswindows_output_display_block Given a display line, a block number for that start line, output all runes between start and end in the specified display block. Ripped off with minimal thought from the corresponding X routine. ****************************************************************************/ static void mswindows_output_display_block (struct window *w, struct display_line *dl, int block, int start, int end, int start_pixpos, int cursor_start, int cursor_width, int cursor_height) { struct frame *f = XFRAME (w->frame); Emchar_dynarr *buf = Dynarr_new (Emchar); Lisp_Object window; struct display_block *db = Dynarr_atp (dl->display_blocks, block); rune_dynarr *rba = db->runes; struct rune *rb; int elt = start; face_index findex; int xpos, width; Lisp_Object charset = Qunbound; /* Qnil is a valid charset when MULE is not defined */ window = wrap_window (w); rb = Dynarr_atp (rba, start); if (!rb) /* Nothing to do so don't do anything. */ return; findex = rb->findex; xpos = rb->xpos; width = 0; if (rb->type == RUNE_CHAR) charset = emchar_charset (rb->object.chr.ch); if (end < 0) end = Dynarr_length (rba); Dynarr_reset (buf); while (elt < end) { rb = Dynarr_atp (rba, elt); if (rb->findex == findex && rb->type == RUNE_CHAR && rb->object.chr.ch != '\n' && rb->cursor_type != CURSOR_ON && EQ (charset, emchar_charset (rb->object.chr.ch))) { Dynarr_add (buf, rb->object.chr.ch); width += rb->width; elt++; } else { if (Dynarr_length (buf)) { mswindows_output_string (w, dl, buf, xpos, 0, start_pixpos, width, findex, 0, 0, 0, 0); xpos = rb->xpos; width = 0; } Dynarr_reset (buf); width = 0; if (rb->type == RUNE_CHAR) { findex = rb->findex; xpos = rb->xpos; charset = emchar_charset (rb->object.chr.ch); if (rb->cursor_type == CURSOR_ON) { if (rb->object.chr.ch == '\n') { mswindows_output_cursor (w, dl, xpos, cursor_width, findex, 0, 0); } else { Dynarr_add (buf, rb->object.chr.ch); mswindows_output_cursor (w, dl, xpos, cursor_width, findex, rb->object.chr.ch, 0); Dynarr_reset (buf); } xpos += rb->width; elt++; } else if (rb->object.chr.ch == '\n') { /* Clear in case a cursor was formerly here. */ redisplay_clear_region (window, findex, xpos, DISPLAY_LINE_YPOS (dl), rb->width, DISPLAY_LINE_HEIGHT (dl)); elt++; } } else if (rb->type == RUNE_BLANK || rb->type == RUNE_HLINE) { if (rb->type == RUNE_BLANK) mswindows_output_blank (w, dl, rb, start_pixpos); else { /* #### Our flagging of when we need to redraw the modeline shadows sucks. Since RUNE_HLINE is only used by the modeline at the moment it is a good bet that if it gets redrawn then we should also redraw the shadows. This won't be true forever. We borrow the shadow_thickness_changed flag for now. */ w->shadow_thickness_changed = 1; mswindows_output_hline (w, dl, rb); } if (rb->cursor_type == CURSOR_ON) mswindows_output_cursor (w, dl, xpos, cursor_width, rb->findex, 0, 0); elt++; if (elt < end) { rb = Dynarr_atp (rba, elt); findex = rb->findex; xpos = rb->xpos; } } else if (rb->type == RUNE_DGLYPH) { Lisp_Object instance; struct display_box dbox; struct display_glyph_area dga; redisplay_calculate_display_boxes (dl, rb->xpos, rb->object.dglyph.xoffset, rb->object.dglyph.yoffset, start_pixpos, rb->width, &dbox, &dga); window = wrap_window (w); instance = glyph_image_instance (rb->object.dglyph.glyph, window, ERROR_ME_DEBUG_WARN, 1); findex = rb->findex; if (IMAGE_INSTANCEP (instance)) { switch (XIMAGE_INSTANCE_TYPE (instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: redisplay_output_pixmap (w, instance, &dbox, &dga, findex, cursor_start, cursor_width, cursor_height, 0); if (rb->cursor_type == CURSOR_ON) mswindows_output_cursor (w, dl, xpos, cursor_width, findex, 0, 1); break; case IMAGE_WIDGET: if (EQ (XIMAGE_INSTANCE_WIDGET_TYPE (instance), Qlayout)) { redisplay_output_layout (window, instance, &dbox, &dga, findex, cursor_start, cursor_width, cursor_height); if (rb->cursor_type == CURSOR_ON) mswindows_output_cursor (w, dl, xpos, cursor_width, findex, 0, 1); break; } case IMAGE_SUBWINDOW: redisplay_output_subwindow (w, instance, &dbox, &dga, findex, cursor_start, cursor_width, cursor_height); if (rb->cursor_type == CURSOR_ON) mswindows_output_cursor (w, dl, xpos, cursor_width, findex, 0, 1); break; case IMAGE_NOTHING: /* nothing is as nothing does */ break; case IMAGE_TEXT: case IMAGE_POINTER: default: abort (); } IMAGE_INSTANCE_OPTIMIZE_OUTPUT (XIMAGE_INSTANCE (instance)) = 0; } xpos += rb->width; elt++; } else abort (); } } if (Dynarr_length (buf)) mswindows_output_string (w, dl, buf, xpos, 0, start_pixpos, width, findex, 0, 0, 0, 0); if (dl->modeline && !EQ (Qzero, w->modeline_shadow_thickness) && (f->clear || f->windows_structure_changed || w->shadow_thickness_changed)) bevel_modeline (w, dl); Dynarr_free (buf); } /***************************************************************************** mswindows_output_vertical_divider Draw a vertical divider down the right side of the given window. ****************************************************************************/ static void mswindows_output_vertical_divider (struct window *w, int clear_unused) { struct frame *f = XFRAME (w->frame); HDC hdc = get_frame_dc (f, 1); RECT rect; int spacing = XINT (w->vertical_divider_spacing); int shadow = XINT (w->vertical_divider_shadow_thickness); int abs_shadow = abs (shadow); int line_width = XINT (w->vertical_divider_line_width); int div_left = WINDOW_RIGHT (w) - window_divider_width (w); int y1 = WINDOW_TOP (w); int y2 = WINDOW_BOTTOM (w); /* Clear left and right spacing areas */ if (spacing) { rect.top = y1; rect.bottom = y2; mswindows_update_dc (hdc, Qnil, WINDOW_FACE_CACHEL_BACKGROUND (w, DEFAULT_INDEX), Qnil); rect.right = WINDOW_RIGHT (w); rect.left = rect.right - spacing; ExtTextOutW (hdc, 0, 0, ETO_OPAQUE, &rect, NULL, 0, NULL); rect.left = div_left; rect.right = div_left + spacing; ExtTextOutW (hdc, 0, 0, ETO_OPAQUE, &rect, NULL, 0, NULL); } /* Clear divider face */ rect.top = y1 + abs_shadow; rect.bottom = y2 - abs_shadow; rect.left = div_left + spacing + abs_shadow; rect.right = rect.left + line_width; if (rect.left < rect.right) { face_index div_face = get_builtin_face_cache_index (w, Vvertical_divider_face); mswindows_update_dc (hdc, Qnil, WINDOW_FACE_CACHEL_BACKGROUND (w, div_face), Qnil); ExtTextOutW (hdc, 0, 0, ETO_OPAQUE, &rect, NULL, 0, NULL); } /* Draw a shadow around the divider */ if (shadow != 0) { /* #### This will be fixed to support arbitrary thickness */ InflateRect (&rect, abs_shadow, abs_shadow); DrawEdge (hdc, &rect, shadow > 0 ? EDGE_RAISED : EDGE_SUNKEN, BF_RECT); } } /**************************************************************************** mswindows_text_width Given a string and a face, return the string's length in pixels when displayed in the font associated with the face. ****************************************************************************/ static int mswindows_text_width (struct frame *f, struct face_cachel *cachel, const Emchar *str, Charcount len) { HDC hdc = get_frame_dc (f, 0); int width_so_far = 0; textual_run *runs; int nruns; int i; nruns = separate_textual_runs (&runs, str, len); for (i = 0; i < nruns; i++) width_so_far += mswindows_text_width_single_run (hdc, cachel, runs + i); return width_so_far; } /**************************************************************************** mswindows_clear_region Clear the area in the box defined by the given parameters using the given face. ****************************************************************************/ static void mswindows_clear_region (Lisp_Object locale, struct device *d, struct frame *f, face_index findex, int x, int y, int width, int height, Lisp_Object fcolor, Lisp_Object bcolor, Lisp_Object background_pixmap) { RECT rect = { x, y, x+width, y+height }; HDC hdc = get_frame_dc (f, 1); if (!NILP (background_pixmap)) { struct display_box db = { x, y, width, height }; mswindows_update_dc (hdc, fcolor, bcolor, background_pixmap); mswindows_output_dibitmap_region ( f, XIMAGE_INSTANCE (background_pixmap), &db, 0); } else { mswindows_update_dc (hdc, Qnil, fcolor, Qnil); ExtTextOutW (hdc, 0, 0, ETO_OPAQUE, &rect, NULL, 0, NULL); } #ifdef HAVE_SCROLLBARS if (WINDOWP (locale)) mswindows_redisplay_deadbox_maybe (XWINDOW (locale), &rect); #endif } /* XXX Implement me! */ static void mswindows_clear_frame (struct frame *f) { GdiFlush(); } /************************************************************************/ /* initialization */ /************************************************************************/ void console_type_create_redisplay_mswindows (void) { /* redisplay methods - display*/ CONSOLE_HAS_METHOD (mswindows, text_width); CONSOLE_HAS_METHOD (mswindows, output_display_block); CONSOLE_HAS_METHOD (mswindows, divider_height); CONSOLE_HAS_METHOD (mswindows, eol_cursor_width); CONSOLE_HAS_METHOD (mswindows, output_vertical_divider); CONSOLE_HAS_METHOD (mswindows, clear_region); CONSOLE_HAS_METHOD (mswindows, clear_frame); CONSOLE_HAS_METHOD (mswindows, frame_output_begin); CONSOLE_HAS_METHOD (mswindows, frame_output_end); CONSOLE_HAS_METHOD (mswindows, flash); CONSOLE_HAS_METHOD (mswindows, ring_bell); CONSOLE_HAS_METHOD (mswindows, bevel_area); CONSOLE_HAS_METHOD (mswindows, output_string); CONSOLE_HAS_METHOD (mswindows, output_pixmap); /* redisplay methods - printer */ CONSOLE_HAS_METHOD (msprinter, frame_output_end); CONSOLE_INHERITS_METHOD (msprinter, mswindows, text_width); CONSOLE_INHERITS_METHOD (msprinter, mswindows, output_display_block); CONSOLE_INHERITS_METHOD (msprinter, mswindows, divider_height); CONSOLE_INHERITS_METHOD (msprinter, mswindows, eol_cursor_width); CONSOLE_INHERITS_METHOD (msprinter, mswindows, output_vertical_divider); CONSOLE_INHERITS_METHOD (msprinter, mswindows, clear_region); CONSOLE_INHERITS_METHOD (msprinter, mswindows, clear_frame); CONSOLE_INHERITS_METHOD (msprinter, mswindows, frame_output_begin); CONSOLE_INHERITS_METHOD (msprinter, mswindows, bevel_area); CONSOLE_INHERITS_METHOD (msprinter, mswindows, output_string); CONSOLE_INHERITS_METHOD (msprinter, mswindows, output_pixmap); }