Mercurial > hg > xemacs-beta
view src/gtk-glue.c @ 844:047d37eb70d7
[xemacs-hg @ 2002-05-16 13:30:23 by ben]
ui fixes for things that were bothering me
bytecode.c, editfns.c, lisp.h, lread.c: Fix save-restriction to use markers rather than pseudo-markers
(integers representing the amount of text on either side of the
region). That way, all inserts are handled correctly, not just
those inside old restriction.
Add buffer argument to save_restriction_save().
process.c: Clean up very dirty and kludgy code that outputs into a buffer --
use proper unwind protects, etc.
font-lock.c: Do save-restriction/widen around the function -- otherwise, incorrect
results will ensue when a buffer has been narrowed before a call to
e.g. `buffer-syntactic-context' -- something that happens quite often.
fileio.c: Look for a handler for make-temp-name.
window.c, winslots.h: Try to solve this annoying problem: have two frames displaying the
buffer, in different places; in one, temporarily switch away to
another buffer and then back -- and you've lost your position;
it's reset to the other one in the other frame. My current
solution involves window-level caches of buffers and points (also
a cache for window-start); when set-window-buffer is called, it
looks to see if the buffer was previously visited in the window,
and if so, uses the most recent point at that time. (It's a
marker, so it handles changes.)
#### Note: It could be argued that doing it on the frame level
would be better -- e.g. if you visit a buffer temporarily through
a grep, and then go back to that buffer, you presumably want the
grep's position rather than some previous position provided
everything was in the same frame, even though the grep was in
another window in the frame. However, doing it on the frame level
fails when you have two windows on the same frame. Perhaps we
keep both a window and a frame cache, and use the frame cache if
there are no other windows on the frame showing the buffer, else
the window's cache? This is probably something to be configurable
using a specifier. Suggestions please please please?
window.c: Clean up a bit code that deals with the annoyance of window-point
vs. point.
dialog.el: Function to ask a
multiple-choice question, automatically choosing a dialog box or
minibuffer representation as necessary. Generalized version of
yes-or-no-p, y-or-n-p.
files.el: Use get-user-response to ask "yes/no/diff" question when recovering.
"diff" means that a diff is displayed between the current file and the
autosave. (Converts/deconverts escape-quoted as necessary. No more
complaints from you, Mr. Turnbull!) One known problem: when a dialog
is used, it's modal, so you can't scroll the diff. Will fix soon.
lisp-mode.el: If we're filling a string, don't treat semicolon as a comment,
which would give very unfriendly results.
Uses `buffer-syntactic-context'.
simple.el: all changes back to the beginning. (Useful if you've saved the file
in the middle of the changes.)
simple.el: Add option kill-word-into-kill-ring, which controls whether words
deleted with kill-word, backward-kill-word, etc. are "cut" into the
kill ring, or "cleared" into nothingness. (My preference is the
latter, by far. I'd almost go so far as suggesting we make it the
default, as you can always select a word and then cut it if you want
it cut.)
menubar-items.el: Add option corresponding to kill-word-into-kill-ring.
| author | ben |
|---|---|
| date | Thu, 16 May 2002 13:30:58 +0000 |
| parents | 2923009caf47 |
| children | 890f3cafe600 |
line wrap: on
line source
GtkType GTK_TYPE_ARRAY = 0; GtkType GTK_TYPE_STRING_ARRAY = 0; GtkType GTK_TYPE_FLOAT_ARRAY = 0; GtkType GTK_TYPE_INT_ARRAY = 0; GtkType GTK_TYPE_LISTOF = 0; GtkType GTK_TYPE_STRING_LIST = 0; GtkType GTK_TYPE_OBJECT_LIST = 0; GtkType GTK_TYPE_GDK_GC = 0; static GtkType xemacs_type_register (gchar *name, GtkType parent) { GtkType type_id; GtkTypeInfo info; info.type_name = name; info.object_size = 0; info.class_size = 0; info.class_init_func = NULL; info.object_init_func = NULL; info.reserved_1 = NULL; info.reserved_2 = NULL; type_id = gtk_type_unique (parent, &info); return (type_id); } static void xemacs_init_gtk_classes (void) { if (!GTK_TYPE_ARRAY) { GTK_TYPE_ARRAY = xemacs_type_register ("GtkArrayOf", 0); GTK_TYPE_STRING_ARRAY = xemacs_type_register ("GtkArrayOfString", GTK_TYPE_ARRAY); GTK_TYPE_FLOAT_ARRAY = xemacs_type_register ("GtkArrayOfFloat", GTK_TYPE_ARRAY); GTK_TYPE_INT_ARRAY = xemacs_type_register ("GtkArrayOfInteger", GTK_TYPE_ARRAY); GTK_TYPE_LISTOF = xemacs_type_register ("GtkListOf", 0); GTK_TYPE_STRING_LIST = xemacs_type_register ("GtkListOfString", GTK_TYPE_LISTOF); GTK_TYPE_OBJECT_LIST = xemacs_type_register ("GtkListOfObject", GTK_TYPE_LISTOF); GTK_TYPE_GDK_GC = xemacs_type_register ("GdkGC", GTK_TYPE_BOXED); } } static void xemacs_list_to_gtklist (Lisp_Object obj, GtkArg *arg) { CHECK_LIST (obj); if (arg->type == GTK_TYPE_STRING_LIST) { Lisp_Object temp = obj; GList *strings = NULL; while (!NILP (temp)) { CHECK_STRING (XCAR (temp)); temp = XCDR (temp); } temp = obj; while (!NILP (temp)) { strings = g_list_append (strings, XSTRING_DATA (XCAR (temp))); temp = XCDR (temp); } GTK_VALUE_POINTER(*arg) = strings; } else if (arg->type == GTK_TYPE_OBJECT_LIST) { Lisp_Object temp = obj; GList *objects = NULL; while (!NILP (temp)) { CHECK_GTK_OBJECT (XCAR (temp)); temp = XCDR (temp); } temp = obj; while (!NILP (temp)) { objects = g_list_append (objects, XGTK_OBJECT (XCAR (temp))->object); temp = XCDR (temp); } GTK_VALUE_POINTER(*arg) = objects; } else { abort(); } } static void __make_gtk_object_mapper (gpointer data, gpointer user_data) { Lisp_Object *rv = (Lisp_Object *) user_data; *rv = Fcons (build_gtk_object (GTK_OBJECT (data)), *rv); } static void __make_string_mapper (gpointer data, gpointer user_data) { Lisp_Object *rv = (Lisp_Object *) user_data; *rv = Fcons (build_string ((char *)data), *rv); } static Lisp_Object xemacs_gtklist_to_list (GtkArg *arg) { Lisp_Object rval = Qnil; if (GTK_VALUE_POINTER (*arg)) { if (arg->type == GTK_TYPE_STRING_LIST) { g_list_foreach (GTK_VALUE_POINTER (*arg), __make_string_mapper, &rval); } else if (arg->type == GTK_TYPE_OBJECT_LIST) { g_list_foreach (GTK_VALUE_POINTER (*arg), __make_gtk_object_mapper, &rval); } else { abort(); } } return (rval); } static void xemacs_list_to_array (Lisp_Object obj, GtkArg *arg) { CHECK_LIST (obj); #define FROB(ret_type,check_fn,extract_fn) \ do { \ Lisp_Object temp = obj; \ int length = 0; \ ret_type *array = NULL; \ \ while (!NILP (temp)) \ { \ check_fn (XCAR (temp)); \ length++; \ temp = XCDR (temp); \ } \ \ array = xnew_array_and_zero (ret_type, length + 2); \ temp = obj; \ length = 0; \ \ while (!NILP (temp)) \ { \ array[length++] = extract_fn (XCAR (temp)); \ temp = XCDR (temp); \ } \ \ GTK_VALUE_POINTER(*arg) = array; \ } while (0); if (arg->type == GTK_TYPE_STRING_ARRAY) { FROB(gchar *, CHECK_STRING, XSTRING_DATA); } else if (arg->type == GTK_TYPE_FLOAT_ARRAY) { FROB(gfloat, CHECK_FLOAT, extract_float); } else if (arg->type == GTK_TYPE_INT_ARRAY) { FROB(gint, CHECK_INT, XINT); } else { abort(); } #undef FROB } extern GdkGC *gtk_get_gc (struct device *d, Lisp_Object font, Lisp_Object fg, Lisp_Object bg, Lisp_Object bg_pmap, Lisp_Object lwidth); static GdkGC * face_to_gc (Lisp_Object face) { Lisp_Object device = Fselected_device (Qnil); return (gtk_get_gc (XDEVICE (device), Fspecifier_instance (Fget (face, Qfont, Qnil), device, Qnil, Qnil), Fspecifier_instance (Fget (face, Qforeground, Qnil), device, Qnil, Qnil), Fspecifier_instance (Fget (face, Qbackground, Qnil), device, Qnil, Qnil), Fspecifier_instance (Fget (face, Qbackground_pixmap, Qnil), device, Qnil, Qnil), Qnil)); } static GtkStyle * face_to_style (Lisp_Object face) { Lisp_Object device = Fselected_device (Qnil); GtkStyle *style = gtk_style_new (); int i; Lisp_Object font = Fspecifier_instance (Fget (face, Qfont, Qnil), device, Qnil, Qnil); Lisp_Object fg = Fspecifier_instance (Fget (face, Qforeground, Qnil), device, Qnil, Qnil); Lisp_Object bg = Fspecifier_instance (Fget (face, Qbackground, Qnil), device, Qnil, Qnil); Lisp_Object pm = Fspecifier_instance (Fget (face, Qbackground_pixmap, Qnil), device, Qnil, Qnil); for (i = 0; i < 5; i++) style->fg[i] = * COLOR_INSTANCE_GTK_COLOR (XCOLOR_INSTANCE (fg)); for (i = 0; i < 5; i++) style->bg[i] = * COLOR_INSTANCE_GTK_COLOR (XCOLOR_INSTANCE (bg)); if (IMAGE_INSTANCEP (pm)) { for (i = 0; i < 5; i++) style->bg_pixmap[i] = XIMAGE_INSTANCE_GTK_PIXMAP (pm); } style->font = FONT_INSTANCE_GTK_FONT (XFONT_INSTANCE (font)); return (style); } static Lisp_Object gdk_event_to_emacs_event(GdkEvent *ev) { Lisp_Object emacs_event = Qnil; if (ev) { emacs_event = Fmake_event (Qnil, Qnil); if (!gtk_event_to_emacs_event (NULL, ev, XEVENT (emacs_event))) { /* We need to handle a few more cases than the normal event ** loop does. Mainly the double/triple click events. */ if ((ev->type == GDK_2BUTTON_PRESS) || (ev->type == GDK_3BUTTON_PRESS)) { struct Lisp_Event *le = XEVENT (emacs_event); le->event_type = misc_user_event; le->event.misc.button = ev->button.button; le->event.misc.modifiers = 0; le->event.misc.x = ev->button.x; le->event.misc.y = ev->button.y; if (ev->type == GDK_2BUTTON_PRESS) le->event.misc.function = intern ("double-click"); else le->event.misc.function = intern ("triple-click"); } else { Fdeallocate_event (emacs_event); emacs_event = Qnil; } } } return (emacs_event); }