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/* Define frame-object for GNU Emacs.
Copyright (C) 1993, 1994 Free Software Foundation, Inc.
This file is part of GNU Emacs.
GNU Emacs 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.
GNU Emacs 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 GNU Emacs; see the file COPYING. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
/* Miscellanea. */
/* Nonzero means don't assume anything about current
contents of actual terminal frame */
extern int frame_garbaged;
/* Nonzero means FRAME_MESSAGE_BUF (selected_frame) is being used by
print. */
extern int message_buf_print;
/* The structure representing a frame. */
enum output_method
{ output_termcap, output_x_window, output_msdos_raw, output_win32 };
struct frame
{
EMACS_INT size;
struct Lisp_Vector *next;
/* All Lisp_Object components must come first.
Only EMACS_INT values can be intermixed with them.
That ensures they are all aligned normally. */
/* Name of this frame: a Lisp string. It is used for looking up resources,
as well as for the title in some cases. */
Lisp_Object name;
/* The name to use for the icon, the last time
it was refreshed. nil means not explicitly specified. */
Lisp_Object icon_name;
/* This is the frame title specified explicitly, if any.
Usually it is nil. */
Lisp_Object title;
/* The frame which should receive keystrokes that occur in this
frame, or nil if they should go to the frame itself. This is
usually nil, but if the frame is minibufferless, we can use this
to redirect keystrokes to a surrogate minibuffer frame when
needed.
Note that a value of nil is different than having the field point
to the frame itself. Whenever the Fselect_frame function is used
to shift from one frame to the other, any redirections to the
original frame are shifted to the newly selected frame; if
focus_frame is nil, Fselect_frame will leave it alone. */
Lisp_Object focus_frame;
/* This frame's root window. Every frame has one.
If the frame has only a minibuffer window, this is it.
Otherwise, if the frame has a minibuffer window, this is its sibling. */
Lisp_Object root_window;
/* This frame's selected window.
Each frame has its own window hierarchy
and one of the windows in it is selected within the frame.
The selected window of the selected frame is Emacs's selected window. */
Lisp_Object selected_window;
/* This frame's minibuffer window.
Most frames have their own minibuffer windows,
but only the selected frame's minibuffer window
can actually appear to exist. */
Lisp_Object minibuffer_window;
/* Parameter alist of this frame.
These are the parameters specified when creating the frame
or modified with modify-frame-parameters. */
Lisp_Object param_alist;
/* List of scroll bars on this frame.
Actually, we don't specify exactly what is stored here at all; the
scroll bar implementation code can use it to store anything it likes.
This field is marked by the garbage collector. It is here
instead of in the `display' structure so that the garbage
collector doesn't need to look inside the window-system-dependent
structure. */
Lisp_Object scroll_bars;
Lisp_Object condemned_scroll_bars;
/* Vector describing the items to display in the menu bar.
Each item has four elements in this vector.
They are KEY, STRING, SUBMAP, and HPOS.
(HPOS is not used in when the X toolkit is in use.)
There are four additional elements of nil at the end, to terminate. */
Lisp_Object menu_bar_items;
/* Alist of elements (FACE-NAME . FACE-VECTOR-DATA). */
Lisp_Object face_alist;
/* A vector that records the entire structure of this frame's menu bar.
For the format of the data, see extensive comments in xmenu.c.
Only the X toolkit version uses this. */
Lisp_Object menu_bar_vector;
/* Number of elements in the vector that have meaningful data. */
EMACS_INT menu_bar_items_used;
/* Predicate for selecting buffers for other-buffer. */
Lisp_Object buffer_predicate;
/* Beyond here, there should be no more Lisp_Object components. */
/* A buffer to hold the frame's name. We can't use the Lisp string's
pointer (`name', above) because it might get relocated. */
char *namebuf;
/* glyphs as they appear on the frame */
struct frame_glyphs *current_glyphs;
/* glyphs we'd like to appear on the frame */
struct frame_glyphs *desired_glyphs;
/* See do_line_insertion_deletion_costs for info on these arrays. */
/* Cost of inserting 1 line on this frame */
int *insert_line_cost;
/* Cost of deleting 1 line on this frame */
int *delete_line_cost;
/* Cost of inserting n lines on this frame */
int *insert_n_lines_cost;
/* Cost of deleting n lines on this frame */
int *delete_n_lines_cost;
/* glyphs for the mode line */
struct frame_glyphs *temp_glyphs;
/* Intended cursor position of this frame.
Measured in characters, counting from upper left corner
within the frame. */
int cursor_x;
int cursor_y;
/* Actual cursor position of this frame, and the character under it.
(Not used for terminal frames.) */
int phys_cursor_x;
int phys_cursor_y;
/* This is handy for undrawing the cursor, because current_glyphs is
not always accurate when in do_scrolling. */
GLYPH phys_cursor_glyph;
/* Size of this frame, in units of characters. */
EMACS_INT height;
EMACS_INT width;
/* New height and width for pending size change. 0 if no change pending. */
int new_height, new_width;
/* The output method says how the contents of this frame
are displayed. It could be using termcap, or using an X window. */
enum output_method output_method;
/* A structure of auxiliary data used for displaying the contents.
struct x_output is used for X window frames;
it is defined in xterm.h.
struct win32_output is used for Win32 window frames;
it is defined in w32term.h. */
union output_data { struct x_output *x; struct win32_output *win32; int nothing; } output_data;
#ifdef MULTI_KBOARD
/* A pointer to the kboard structure associated with this frame.
For termcap frames, this points to initial_kboard. For X frames,
it will be the same as display.x->display_info->kboard. */
struct kboard *kboard;
#endif
/* Number of lines of menu bar. */
int menu_bar_lines;
#if defined (USE_X_TOOLKIT) || defined (HAVE_NTGUI)
/* Nonzero means using a menu bar that comes from the X toolkit. */
int external_menu_bar;
#endif
/* Nonzero if last attempt at redisplay on this frame was preempted. */
char display_preempted;
/* visible is nonzero if the frame is currently displayed; we check
it to see if we should bother updating the frame's contents.
DON'T SET IT DIRECTLY; instead, use FRAME_SET_VISIBLE.
Note that, since invisible frames aren't updated, whenever a
frame becomes visible again, it must be marked as garbaged. The
FRAME_SAMPLE_VISIBILITY macro takes care of this.
iconified is nonzero if the frame is currently iconified.
Asynchronous input handlers should NOT change these directly;
instead, they should change async_visible or async_iconified, and
let the FRAME_SAMPLE_VISIBILITY macro set visible and iconified
at the next redisplay.
These should probably be considered read-only by everyone except
FRAME_SAMPLE_VISIBILITY.
These two are mutually exclusive. They might both be zero, if the
frame has been made invisible without an icon. */
char visible, iconified;
/* Asynchronous input handlers change these, and
FRAME_SAMPLE_VISIBILITY copies them into visible and iconified.
See FRAME_SAMPLE_VISIBILITY, below. */
#ifdef __STDC__
volatile
#endif
char async_visible, async_iconified;
/* Nonzero if this frame should be redrawn. */
#ifdef __STDC__
volatile
#endif
char garbaged;
/* True if frame actually has a minibuffer window on it.
0 if using a minibuffer window that isn't on this frame. */
char has_minibuffer;
/* 0 means, if this frame has just one window,
show no modeline for that window. */
char wants_modeline;
/* Non-zero if the hardware device this frame is displaying on can
support scroll bars. */
char can_have_scroll_bars;
/* If can_have_scroll_bars is non-zero, this is non-zero if we should
actually display them on this frame. */
char has_vertical_scroll_bars;
/* Non-0 means raise this frame to the top of the heap when selected. */
char auto_raise;
/* Non-0 means lower this frame to the bottom of the stack when left. */
char auto_lower;
/* True if frame's root window can't be split. */
char no_split;
/* If this is set, then Emacs won't change the frame name to indicate
the current buffer, etcetera. If the user explicitly sets the frame
name, this gets set. If the user sets the name to Qnil, this is
cleared. */
char explicit_name;
/* Nonzero if size of some window on this frame has changed. */
char window_sizes_changed;
/* Storage for messages to this frame. */
char *message_buf;
/* Nonnegative if current redisplay should not do scroll computation
for lines beyond a certain vpos. This is the vpos. */
int scroll_bottom_vpos;
/* Width of the scroll bar, in pixels and in characters.
scroll_bar_cols tracks scroll_bar_pixel_width if the latter is positive;
a zero value in scroll_bar_pixel_width means to compute the actual width
on the fly, using scroll_bar_cols and the current font width. */
int scroll_bar_pixel_width;
int scroll_bar_cols;
/* The baud rate that was used to calculate costs for this frame. */
int cost_calculation_baud_rate;
/* Nonzero if the mouse has moved on this display
since the last time we checked. */
char mouse_moved;
};
#ifdef MULTI_KBOARD
#define FRAME_KBOARD(f) ((f)->kboard)
#else
#define FRAME_KBOARD(f) (&the_only_kboard)
#endif
typedef struct frame *FRAME_PTR;
#define XFRAME(p) ((struct frame *) XPNTR (p))
#define XSETFRAME(a, b) (XSETPSEUDOVECTOR (a, b, PVEC_FRAME))
#define WINDOW_FRAME(w) (w)->frame
#define FRAME_X_P(f) ((f)->output_method == output_x_window)
#define FRAME_WIN32_P(f) ((f)->output_method == output_win32)
#define FRAME_MSDOS_P(f) ((f)->output_method == output_msdos_raw)
/* FRAME_WINDOW_P tests whether the frame is a window, and is
defined to be the predicate for the window system being used. */
#ifdef HAVE_X_WINDOWS
#define FRAME_WINDOW_P(f) FRAME_X_P (f)
#endif
#ifdef HAVE_NTGUI
#define FRAME_WINDOW_P(f) FRAME_WIN32_P (f)
#endif
#ifndef FRAME_WINDOW_P
#define FRAME_WINDOW_P(f) (0)
#endif
#define FRAME_LIVE_P(f) ((f)->output_data.nothing != 0)
#define FRAME_TERMCAP_P(f) ((f)->output_method == output_termcap)
#define FRAME_MINIBUF_ONLY_P(f) \
EQ (FRAME_ROOT_WINDOW (f), FRAME_MINIBUF_WINDOW (f))
#define FRAME_HAS_MINIBUF_P(f) ((f)->has_minibuffer)
#define FRAME_CURRENT_GLYPHS(f) (f)->current_glyphs
#define FRAME_DESIRED_GLYPHS(f) (f)->desired_glyphs
#define FRAME_TEMP_GLYPHS(f) (f)->temp_glyphs
#define FRAME_HEIGHT(f) (f)->height
#define FRAME_WIDTH(f) (f)->width
#define FRAME_NEW_HEIGHT(f) (f)->new_height
#define FRAME_NEW_WIDTH(f) (f)->new_width
#define FRAME_MENU_BAR_LINES(f) (f)->menu_bar_lines
#if defined (USE_X_TOOLKIT) || defined (HAVE_NTGUI)
#define FRAME_EXTERNAL_MENU_BAR(f) (f)->external_menu_bar
#else
#define FRAME_EXTERNAL_MENU_BAR(f) 0
#endif
#define FRAME_CURSOR_X(f) (f)->cursor_x
#define FRAME_CURSOR_Y(f) (f)->cursor_y
#define FRAME_VISIBLE_P(f) ((f)->visible != 0)
#define FRAME_SET_VISIBLE(f,p) \
((f)->async_visible = (p), FRAME_SAMPLE_VISIBILITY (f))
#define SET_FRAME_GARBAGED(f) (frame_garbaged = 1, f->garbaged = 1)
#define FRAME_GARBAGED_P(f) (f)->garbaged
#define FRAME_NO_SPLIT_P(f) (f)->no_split
#define FRAME_WANTS_MODELINE_P(f) (f)->wants_modeline
#define FRAME_ICONIFIED_P(f) (f)->iconified
#define FRAME_WINDOW_SIZES_CHANGED(f) (f)->window_sizes_changed
#define FRAME_MINIBUF_WINDOW(f) (f)->minibuffer_window
#define FRAME_ROOT_WINDOW(f) (f)->root_window
#define FRAME_SELECTED_WINDOW(f) (f)->selected_window
#define SET_GLYPHS_FRAME(glyphs,frame) ((glyphs)->frame = (frame))
#define FRAME_INSERT_COST(f) (f)->insert_line_cost
#define FRAME_DELETE_COST(f) (f)->delete_line_cost
#define FRAME_INSERTN_COST(f) (f)->insert_n_lines_cost
#define FRAME_DELETEN_COST(f) (f)->delete_n_lines_cost
#define FRAME_MESSAGE_BUF(f) (f)->message_buf
#define FRAME_SCROLL_BOTTOM_VPOS(f) (f)->scroll_bottom_vpos
#define FRAME_FOCUS_FRAME(f) (f)->focus_frame
#define FRAME_CAN_HAVE_SCROLL_BARS(f) ((f)->can_have_scroll_bars)
#define FRAME_HAS_VERTICAL_SCROLL_BARS(f) ((f)->has_vertical_scroll_bars)
#define FRAME_SCROLL_BAR_PIXEL_WIDTH(f) ((f)->scroll_bar_pixel_width)
#define FRAME_SCROLL_BAR_COLS(f) ((f)->scroll_bar_cols)
#define FRAME_SCROLL_BARS(f) ((f)->scroll_bars)
#define FRAME_CONDEMNED_SCROLL_BARS(f) ((f)->condemned_scroll_bars)
#define FRAME_MENU_BAR_ITEMS(f) ((f)->menu_bar_items)
#define FRAME_COST_BAUD_RATE(f) ((f)->cost_calculation_baud_rate)
/* Emacs's redisplay code could become confused if a frame's
visibility changes at arbitrary times. For example, if a frame is
visible while the desired glyphs are being built, but becomes
invisible before they are updated, then some rows of the
desired_glyphs will be left marked as enabled after redisplay is
complete, which should never happen. The next time the frame
becomes visible, redisplay will probably barf.
Currently, there are no similar situations involving iconified, but
the principle is the same.
So instead of having asynchronous input handlers directly set and
clear the frame's visibility and iconification flags, they just set
the async_visible and async_iconified flags; the redisplay code
calls the FRAME_SAMPLE_VISIBILITY macro before doing any redisplay,
which sets visible and iconified from their asynchronous
counterparts.
Synchronous code must use the FRAME_SET_VISIBLE macro.
Also, if a frame used to be invisible, but has just become visible,
it must be marked as garbaged, since redisplay hasn't been keeping
up its contents. */
#define FRAME_SAMPLE_VISIBILITY(f) \
(((f)->async_visible && ! (f)->visible) ? SET_FRAME_GARBAGED (f) : 0, \
(f)->visible = (f)->async_visible, \
(f)->iconified = (f)->async_iconified)
#define CHECK_FRAME(x, i) \
{ \
if (! FRAMEP (x)) \
x = wrong_type_argument (Qframep, (x)); \
}
#define CHECK_LIVE_FRAME(x, i) \
{ \
if (! FRAMEP (x) \
|| ! FRAME_LIVE_P (XFRAME (x))) \
x = wrong_type_argument (Qframe_live_p, (x)); \
}
/* FOR_EACH_FRAME (LIST_VAR, FRAME_VAR) followed by a statement is a
`for' loop which iterates over the elements of Vframe_list. The
loop will set FRAME_VAR, a Lisp_Object, to each frame in
Vframe_list in succession and execute the statement. LIST_VAR
should be a Lisp_Object too; it is used to iterate through the
Vframe_list.
This macro is a holdover from a time when multiple frames weren't always
supported. An alternate definition of the macro would expand to
something which executes the statement once. */
#define FOR_EACH_FRAME(list_var, frame_var) \
for ((list_var) = Vframe_list; \
(CONSP (list_var) \
&& (frame_var = XCONS (list_var)->car, 1)); \
list_var = XCONS (list_var)->cdr)
extern Lisp_Object Qframep, Qframe_live_p, Qicon;
extern struct frame *selected_frame;
extern struct frame *last_nonminibuf_frame;
extern struct frame *make_terminal_frame ();
extern struct frame *make_frame ();
extern struct frame *make_minibuffer_frame ();
extern struct frame *make_frame_without_minibuffer ();
extern Lisp_Object Vframe_list;
extern Lisp_Object Vdefault_frame_alist;
extern Lisp_Object Vterminal_frame;
/* Device-independent scroll bar stuff. */
/* Return the starting column (zero-based) of the vertical scroll bar
for window W. The column before this one is the last column we can
use for text. If the window touches the right edge of the frame,
we have extra space allocated for it. Otherwise, the scroll bar
takes over the window's rightmost columns. */
#define WINDOW_VERTICAL_SCROLL_BAR_COLUMN(w) \
(((XINT ((w)->left) + XINT ((w)->width)) \
< FRAME_WIDTH (XFRAME (WINDOW_FRAME (w)))) \
? (XINT ((w)->left) + XINT ((w)->width) \
- FRAME_SCROLL_BAR_COLS (XFRAME (WINDOW_FRAME (w)))) \
: FRAME_WIDTH (XFRAME (WINDOW_FRAME (w))))
/* Return the height in lines of the vertical scroll bar in w. If the
window has a mode line, don't make the scroll bar extend that far. */
#define WINDOW_VERTICAL_SCROLL_BAR_HEIGHT(w) (window_internal_height (w))
|