#include "keymap.h"
#include "lstream.h"
#include "macros.h" /* for defining_keyboard_macro */
-#include "opaque.h"
#include "process.h"
#include "window.h"
Lisp_Object Qundefined_keystroke_sequence;
-Lisp_Object Qcommand_execute;
-
Lisp_Object Qcommand_event_p;
/* Hooks to run before and after each command. */
Lisp_Object Qmenu_select;
Lisp_Object Qmenu_escape;
+Lisp_Object Qself_insert_defer_undo;
+
/* this is in keymap.c */
extern Lisp_Object Fmake_keymap (Lisp_Object name);
XRECORD (x, command_builder, struct command_builder)
#define XSETCOMMAND_BUILDER(x, p) XSETRECORD (x, p, command_builder)
#define COMMAND_BUILDERP(x) RECORDP (x, command_builder)
-#define GC_COMMAND_BUILDERP(x) GC_RECORDP (x, command_builder)
#define CHECK_COMMAND_BUILDER(x) CHECK_RECORD (x, command_builder)
static Lisp_Object
-mark_command_builder (Lisp_Object obj, void (*markobj) (Lisp_Object))
+mark_command_builder (Lisp_Object obj)
{
struct command_builder *builder = XCOMMAND_BUILDER (obj);
- markobj (builder->prefix_events);
- markobj (builder->current_events);
- markobj (builder->most_current_event);
- markobj (builder->last_non_munged_event);
- markobj (builder->munge_me[0].first_mungeable_event);
- markobj (builder->munge_me[1].first_mungeable_event);
+ mark_object (builder->prefix_events);
+ mark_object (builder->current_events);
+ mark_object (builder->most_current_event);
+ mark_object (builder->last_non_munged_event);
+ mark_object (builder->munge_me[0].first_mungeable_event);
+ mark_object (builder->munge_me[1].first_mungeable_event);
return builder->console;
}
DEFINE_LRECORD_IMPLEMENTATION ("command-builder", command_builder,
mark_command_builder, internal_object_printer,
- finalize_command_builder, 0, 0,
+ finalize_command_builder, 0, 0, 0,
struct command_builder);
\f
static void
{
Lisp_Object builder_obj;
struct command_builder *builder =
- alloc_lcrecord_type (struct command_builder, lrecord_command_builder);
+ alloc_lcrecord_type (struct command_builder, &lrecord_command_builder);
builder->console = console;
reset_command_builder_event_chain (builder);
used to indicate an absence of a timer. */
static int low_level_timeout_id_tick;
-struct low_level_timeout_blocktype
+static struct low_level_timeout_blocktype
{
Blocktype_declare (struct low_level_timeout);
} *the_low_level_timeout_blocktype;
static int timeout_id_tick;
-/* Since timeout structures contain Lisp_Objects, they need to be GC'd
- properly. The opaque data type provides a convenient way of doing
- this without having to create a new Lisp object, since we can
- provide our own mark function. */
-
-struct timeout
-{
- int id; /* Id we use to identify the timeout over its lifetime */
- int interval_id; /* Id for this particular interval; this may
- be different each time the timeout is
- signalled.*/
- Lisp_Object function, object; /* Function and object associated
- with timeout. */
- EMACS_TIME next_signal_time; /* Absolute time when the timeout
- is next going to be signalled. */
- unsigned int resignal_msecs; /* How far after the next timeout
- should the one after that
- occur? */
-};
-
static Lisp_Object pending_timeout_list, pending_async_timeout_list;
static Lisp_Object Vtimeout_free_list;
static Lisp_Object
-mark_timeout (Lisp_Object obj, void (*markobj) (Lisp_Object))
+mark_timeout (Lisp_Object obj)
{
- struct timeout *tm = (struct timeout *) XOPAQUE_DATA (obj);
- markobj (tm->function);
+ struct Lisp_Timeout *tm = XTIMEOUT (obj);
+ mark_object (tm->function);
return tm->object;
}
+/* Should never, ever be called. (except by an external debugger) */
+static void
+print_timeout (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
+{
+ CONST struct Lisp_Timeout *t = XTIMEOUT (obj);
+ char buf[64];
+
+ sprintf (buf, "#<INTERNAL OBJECT (XEmacs bug?) (timeout) 0x%lx>",
+ (unsigned long) t);
+ write_c_string (buf, printcharfun);
+}
+
+static const struct lrecord_description timeout_description[] = {
+ { XD_LISP_OBJECT, offsetof(struct Lisp_Timeout, function), 2 },
+ { XD_END }
+};
+
+DEFINE_LRECORD_IMPLEMENTATION ("timeout", timeout,
+ mark_timeout, print_timeout,
+ 0, 0, 0, timeout_description, struct Lisp_Timeout);
+
/* Generate a timeout and return its ID. */
int
Lisp_Object function, Lisp_Object object,
int async_p)
{
- Lisp_Object op = allocate_managed_opaque (Vtimeout_free_list, 0);
- struct timeout *timeout = (struct timeout *) XOPAQUE_DATA (op);
+ Lisp_Object op = allocate_managed_lcrecord (Vtimeout_free_list);
+ struct Lisp_Timeout *timeout = XTIMEOUT (op);
EMACS_TIME current_time;
EMACS_TIME interval;
Lisp_Object *function, Lisp_Object *object)
{
Lisp_Object op = Qnil, rest;
- struct timeout *timeout;
+ struct Lisp_Timeout *timeout;
Lisp_Object *timeout_list;
struct gcpro gcpro1;
int id;
/* Find the timeout on the list of pending ones. */
LIST_LOOP (rest, *timeout_list)
{
- timeout = (struct timeout *) XOPAQUE_DATA (XCAR (rest));
+ timeout = XTIMEOUT (XCAR (rest));
if (timeout->interval_id == interval_id)
break;
}
assert (!NILP (rest));
op = XCAR (rest);
- timeout = (struct timeout *) XOPAQUE_DATA (op);
+ timeout = XTIMEOUT (op);
/* We make sure to snarf the data out of the timeout object before
- we free it with free_managed_opaque(). */
+ we free it with free_managed_lcrecord(). */
id = timeout->id;
*function = timeout->function;
*object = timeout->object;
*timeout_list = noseeum_cons (op, *timeout_list);
}
else
- free_managed_opaque (Vtimeout_free_list, op);
+ free_managed_lcrecord (Vtimeout_free_list, op);
UNGCPRO;
return id;
void
event_stream_disable_wakeup (int id, int async_p)
{
- struct timeout *timeout = 0;
+ struct Lisp_Timeout *timeout = 0;
Lisp_Object rest;
Lisp_Object *timeout_list;
/* Find the timeout on the list of pending ones, if it's still there. */
LIST_LOOP (rest, *timeout_list)
{
- timeout = (struct timeout *) XOPAQUE_DATA (XCAR (rest));
+ timeout = XTIMEOUT (XCAR (rest));
if (timeout->id == id)
break;
}
event_stream_remove_async_timeout (timeout->interval_id);
else
event_stream_remove_timeout (timeout->interval_id);
- free_managed_opaque (Vtimeout_free_list, op);
+ free_managed_lcrecord (Vtimeout_free_list, op);
}
}
static int
event_stream_wakeup_pending_p (int id, int async_p)
{
- struct timeout *timeout;
+ struct Lisp_Timeout *timeout;
Lisp_Object rest;
Lisp_Object timeout_list;
int found = 0;
/* Find the element on the list of pending ones, if it's still there. */
LIST_LOOP (rest, timeout_list)
{
- timeout = (struct timeout *) XOPAQUE_DATA (XCAR (rest));
+ timeout = XTIMEOUT (XCAR (rest));
if (timeout->id == id)
{
found = 1;
static void
menu_move_up (void)
{
- widget_value *current, *prev;
- widget_value *entries;
+ widget_value *current = lw_get_entries (False);
+ widget_value *entries = lw_get_entries (True);
+ widget_value *prev = NULL;
- current = lw_get_entries (False);
- entries = lw_get_entries (True);
- prev = NULL;
- if (current != entries)
+ while (entries != current)
{
- while (entries != current)
- {
- if (entries->name /*&& entries->enabled*/) prev = entries;
- entries = entries->next;
- assert (entries);
- }
+ if (entries->name /*&& entries->enabled*/) prev = entries;
+ entries = entries->next;
+ assert (entries);
}
if (!prev)
static void
menu_move_down (void)
{
- widget_value *current;
- widget_value *new;
-
- current = lw_get_entries (False);
- new = current;
+ widget_value *current = lw_get_entries (False);
+ widget_value *new = current;
while (new->next)
{
int l = level;
widget_value *current;
- while (level >= 3)
- {
- --level;
- lw_pop_menu ();
- }
+ while (level-- >= 3)
+ lw_pop_menu ();
+
menu_move_up ();
current = lw_get_entries (False);
if (l > 2 && current->contents)
int l = level;
widget_value *current;
- while (level >= 3)
- {
- --level;
- lw_pop_menu ();
- }
+ while (level-- >= 3)
+ lw_pop_menu ();
+
menu_move_down ();
current = lw_get_entries (False);
if (l > 2 && current->contents)
}
else /* key sequence is bound to a command */
{
+ int magic_undo = 0;
+ int magic_undo_count = 20;
+
Vthis_command = leaf;
+
/* Don't push an undo boundary if the command set the prefix arg,
or if we are executing a keyboard macro, or if in the
minibuffer. If the command we are about to execute is
self-insert, it's tricky: up to 20 consecutive self-inserts may
be done without an undo boundary. This counter is reset as
soon as a command other than self-insert-command is executed.
- */
- if (! EQ (leaf, Qself_insert_command))
+
+ Programmers can also use the `self-insert-undo-magic'
+ property to install that behaviour on functions other
+ than `self-insert-command', or to change the magic
+ number 20 to something else. */
+
+ if (SYMBOLP (leaf))
+ {
+ Lisp_Object prop = Fget (leaf, Qself_insert_defer_undo, Qnil);
+ if (NATNUMP (prop))
+ magic_undo = 1, magic_undo_count = XINT (prop);
+ else if (!NILP (prop))
+ magic_undo = 1;
+ else if (EQ (leaf, Qself_insert_command))
+ magic_undo = 1;
+ }
+
+ if (!magic_undo)
command_builder->self_insert_countdown = 0;
if (NILP (XCONSOLE (console)->prefix_arg)
&& NILP (Vexecuting_macro)
&& command_builder->self_insert_countdown == 0)
Fundo_boundary ();
- if (EQ (leaf, Qself_insert_command))
+ if (magic_undo)
{
if (--command_builder->self_insert_countdown < 0)
- command_builder->self_insert_countdown = 20;
+ command_builder->self_insert_countdown = magic_undo_count;
}
execute_command_event
(command_builder,
Calling this function directs the translated event to replace
the original event, so that only one version of the event actually
-appears in the echo area and in the value of `this-command-keys.'.
+appears in the echo area and in the value of `this-command-keys'.
*/
())
{
{
Emchar ch = XCHAR (keysym);
Bufbyte str[MAX_EMCHAR_LEN];
- Bytecount len;
-
- len = set_charptr_emchar (str, ch);
+ Bytecount len = set_charptr_emchar (str, ch);
Lstream_write (XLSTREAM (Vdribble_file), str, len);
}
else if (string_char_length (XSYMBOL (keysym)->name) == 1)
deferror (&Qundefined_keystroke_sequence, "undefined-keystroke-sequence",
"Undefined keystroke sequence", Qerror);
- defsymbol (&Qcommand_execute, "command-execute");
DEFSUBR (Frecent_keys);
DEFSUBR (Frecent_keys_ring_size);
defsymbol (&Qmenu_select, "menu-select");
defsymbol (&Qmenu_escape, "menu-escape");
+ defsymbol (&Qself_insert_defer_undo, "self-insert-defer-undo");
defsymbol (&Qcancel_mode_internal, "cancel-mode-internal");
}
void
-vars_of_event_stream (void)
+reinit_vars_of_event_stream (void)
{
recent_keys_ring_index = 0;
recent_keys_ring_size = 100;
+ num_input_chars = 0;
+ Vtimeout_free_list = make_lcrecord_list (sizeof (struct Lisp_Timeout),
+ &lrecord_timeout);
+ staticpro_nodump (&Vtimeout_free_list);
+ the_low_level_timeout_blocktype =
+ Blocktype_new (struct low_level_timeout_blocktype);
+ something_happened = 0;
+ recursive_sit_for = Qnil;
+}
+
+void
+vars_of_event_stream (void)
+{
+ reinit_vars_of_event_stream ();
Vrecent_keys_ring = Qnil;
staticpro (&Vrecent_keys_ring);
Vthis_command_keys = Qnil;
staticpro (&Vthis_command_keys);
Vthis_command_keys_tail = Qnil;
-
- num_input_chars = 0;
+ pdump_wire (&Vthis_command_keys_tail);
command_event_queue = Qnil;
staticpro (&command_event_queue);
command_event_queue_tail = Qnil;
+ pdump_wire (&command_event_queue_tail);
Vlast_selected_frame = Qnil;
staticpro (&Vlast_selected_frame);
pending_async_timeout_list = Qnil;
staticpro (&pending_async_timeout_list);
- Vtimeout_free_list = make_opaque_list (sizeof (struct timeout),
- mark_timeout);
- staticpro (&Vtimeout_free_list);
-
- the_low_level_timeout_blocktype =
- Blocktype_new (struct low_level_timeout_blocktype);
-
- something_happened = 0;
-
last_point_position_buffer = Qnil;
staticpro (&last_point_position_buffer);
- recursive_sit_for = Qnil;
-
DEFVAR_LISP ("echo-keystrokes", &Vecho_keystrokes /*
*Nonzero means echo unfinished commands after this many seconds of pause.
*/ );