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|
/* Definitions and headers for communication with X protocol.
Copyright (C) 1989, 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. */
#include <X11/Xlib.h>
#include <X11/cursorfont.h>
#include <X11/Xutil.h>
#include <X11/keysym.h>
#include <X11/Xatom.h>
#include <X11/Xresource.h>
#ifdef USE_X_TOOLKIT
#include <X11/StringDefs.h>
#include <X11/IntrinsicP.h> /* CoreP.h needs this */
#include <X11/CoreP.h> /* foul, but we need this to use our own
window inside a widget instead of one
that Xt creates... */
#include <X11/StringDefs.h>
#endif
/* The class of this X application. */
#define EMACS_CLASS "Emacs"
/* Bookkeeping to distinguish X versions. */
/* HAVE_X11R4 is defined if we have the features of X11R4. It should
be defined when we're using X11R5, since X11R5 has the features of
X11R4. If, in the future, we find we need more of these flags
(HAVE_X11R5, for example), code should always be written to test
the most recent flag first:
#ifdef HAVE_X11R5
...
#elif HAVE_X11R4
...
#elif HAVE_X11
...
#endif
If you ever find yourself writing a "#ifdef HAVE_FOO" clause that
looks a lot like another one, consider moving the text into a macro
whose definition is configuration-dependent, but whose usage is
universal - like the stuff in systime.h.
It turns out that we can auto-detect whether we're being compiled
with X11R3 or X11R4 by looking for the flag macros for R4 structure
members that R3 doesn't have. */
#ifdef PBaseSize
/* AIX 3.1's X is somewhere between X11R3 and X11R4. It has
PBaseSize, but not XWithdrawWindow, XSetWMName, XSetWMNormalHints,
XSetWMIconName.
AIX 3.2 is at least X11R4. */
#if (!defined AIX) || (defined AIX3_2)
#define HAVE_X11R4
#endif
#endif
#ifdef HAVE_X11R5
/* In case someone has X11R5 on AIX 3.1,
make sure HAVE_X11R4 is defined as well as HAVE_X11R5. */
#define HAVE_X11R4
#endif
#ifdef HAVE_X11R5
#define HAVE_X_I18N
#include <X11/Xlocale.h>
#endif
#define BLACK_PIX_DEFAULT(f) BlackPixel (FRAME_X_DISPLAY (f), \
XScreenNumberOfScreen (FRAME_X_SCREEN (f)))
#define WHITE_PIX_DEFAULT(f) WhitePixel (FRAME_X_DISPLAY (f), \
XScreenNumberOfScreen (FRAME_X_SCREEN (f)))
#define FONT_WIDTH(f) ((f)->max_bounds.width)
#define FONT_HEIGHT(f) ((f)->ascent + (f)->descent)
#define FONT_BASE(f) ((f)->ascent)
/* The mask of events that text windows always want to receive. This
includes mouse movement events, since handling the mouse-font text property
means that we must track mouse motion all the time. */
#define STANDARD_EVENT_SET \
(KeyPressMask \
| ExposureMask \
| ButtonPressMask \
| ButtonReleaseMask \
| PointerMotionMask \
| StructureNotifyMask \
| FocusChangeMask \
| LeaveWindowMask \
| EnterWindowMask \
| VisibilityChangeMask)
/* This checks to make sure we have a display. */
extern void check_x ();
extern struct frame *x_window_to_frame ();
#ifdef USE_X_TOOLKIT
extern struct frame *x_any_window_to_frame ();
extern struct frame *x_non_menubar_window_to_frame ();
extern struct frame *x_top_window_to_frame ();
#endif
extern Visual *select_visual ();
enum text_cursor_kinds {
filled_box_cursor, hollow_box_cursor, bar_cursor
};
/* Structure recording X pixmap and reference count.
If REFCOUNT is 0 then this record is free to be reused. */
struct x_bitmap_record
{
Pixmap pixmap;
char *file;
int refcount;
/* Record some info about this pixmap. */
int height, width, depth;
};
/* For each X display, we have a structure that records
information about it. */
struct x_display_info
{
/* Chain of all x_display_info structures. */
struct x_display_info *next;
/* Connection number (normally a file descriptor number). */
int connection;
/* This says how to access this display in Xlib. */
Display *display;
/* This is a cons cell of the form (NAME . FONT-LIST-CACHE).
The same cons cell also appears in x_display_name_list. */
Lisp_Object name_list_element;
/* Number of frames that are on this display. */
int reference_count;
/* The Screen this connection is connected to. */
Screen *screen;
/* The Visual being used for this display. */
Visual *visual;
/* Number of panes on this screen. */
int n_planes;
/* Dimensions of this screen. */
int height, width;
/* Mask of things that cause the mouse to be grabbed. */
int grabbed;
/* Emacs bitmap-id of the default icon bitmap for this frame.
Or -1 if none has been allocated yet. */
int icon_bitmap_id;
/* The root window of this screen. */
Window root_window;
/* The cursor to use for vertical scroll bars. */
Cursor vertical_scroll_bar_cursor;
/* X Resource data base */
XrmDatabase xrdb;
/* A table of all the fonts we have already loaded. */
struct font_info *font_table;
/* The current capacity of x_font_table. */
int font_table_size;
/* Reusable Graphics Context for drawing a cursor in a non-default face. */
GC scratch_cursor_gc;
/* These variables describe the range of text currently shown
in its mouse-face, together with the window they apply to.
As long as the mouse stays within this range, we need not
redraw anything on its account. */
int mouse_face_beg_row, mouse_face_beg_col;
int mouse_face_end_row, mouse_face_end_col;
int mouse_face_past_end;
Lisp_Object mouse_face_window;
int mouse_face_face_id;
/* 1 if a mouse motion event came and we didn't handle it right away because
gc was in progress. */
int mouse_face_deferred_gc;
/* FRAME and X, Y position of mouse when last checked for
highlighting. X and Y can be negative or out of range for the frame. */
struct frame *mouse_face_mouse_frame;
int mouse_face_mouse_x, mouse_face_mouse_y;
/* Nonzero means defer mouse-motion highlighting. */
int mouse_face_defer;
char *x_id_name;
/* The number of fonts actually stored in x_font_table.
font_table[n] is used and valid iff 0 <= n < n_fonts.
0 <= n_fonts <= font_table_size. */
int n_fonts;
/* Pointer to bitmap records. */
struct x_bitmap_record *bitmaps;
/* Allocated size of bitmaps field. */
int bitmaps_size;
/* Last used bitmap index. */
int bitmaps_last;
/* Which modifier keys are on which modifier bits?
With each keystroke, X returns eight bits indicating which modifier
keys were held down when the key was pressed. The interpretation
of the top five modifier bits depends on what keys are attached
to them. If the Meta_L and Meta_R keysyms are on mod5, then mod5
is the meta bit.
meta_mod_mask is a mask containing the bits used for the meta key.
It may have more than one bit set, if more than one modifier bit
has meta keys on it. Basically, if EVENT is a KeyPress event,
the meta key is pressed if (EVENT.state & meta_mod_mask) != 0.
shift_lock_mask is LockMask if the XK_Shift_Lock keysym is on the
lock modifier bit, or zero otherwise. Non-alphabetic keys should
only be affected by the lock modifier bit if XK_Shift_Lock is in
use; XK_Caps_Lock should only affect alphabetic keys. With this
arrangement, the lock modifier should shift the character if
(EVENT.state & shift_lock_mask) != 0. */
int meta_mod_mask, shift_lock_mask;
/* These are like meta_mod_mask, but for different modifiers. */
int alt_mod_mask, super_mod_mask, hyper_mod_mask;
/* Communication with window managers. */
Atom Xatom_wm_protocols;
/* Kinds of protocol things we may receive. */
Atom Xatom_wm_take_focus;
Atom Xatom_wm_save_yourself;
Atom Xatom_wm_delete_window;
/* Atom for indicating window state to the window manager. */
Atom Xatom_wm_change_state;
/* Other WM communication */
Atom Xatom_wm_configure_denied; /* When our config request is denied */
Atom Xatom_wm_window_moved; /* When the WM moves us. */
/* EditRes protocol */
Atom Xatom_editres;
/* More atoms, which are selection types. */
Atom Xatom_CLIPBOARD, Xatom_TIMESTAMP, Xatom_TEXT, Xatom_DELETE,
Xatom_COMPOUND_TEXT,
Xatom_MULTIPLE, Xatom_INCR, Xatom_EMACS_TMP, Xatom_TARGETS, Xatom_NULL,
Xatom_ATOM_PAIR;
/* More atoms for font properties. The last three are private
properties, see the comments in src/fontset.h. */
Atom Xatom_PIXEL_SIZE,
Xatom_MULE_BASELINE_OFFSET, Xatom_MULE_RELATIVE_COMPOSE,
Xatom_MULE_DEFAULT_ASCENT;
#ifdef MULTI_KBOARD
struct kboard *kboard;
#endif
int cut_buffers_initialized; /* Whether we're sure they all exist */
/* The frame (if any) which has the X window that has keyboard focus.
Zero if none. This is examined by Ffocus_frame in xfns.c. Note
that a mere EnterNotify event can set this; if you need to know the
last frame specified in a FocusIn or FocusOut event, use
x_focus_event_frame. */
struct frame *x_focus_frame;
/* The last frame mentioned in a FocusIn or FocusOut event. This is
separate from x_focus_frame, because whether or not LeaveNotify
events cause us to lose focus depends on whether or not we have
received a FocusIn event for it. */
struct frame *x_focus_event_frame;
/* The frame which currently has the visual highlight, and should get
keyboard input (other sorts of input have the frame encoded in the
event). It points to the X focus frame's selected window's
frame. It differs from x_focus_frame when we're using a global
minibuffer. */
struct frame *x_highlight_frame;
/* The null pixel used for filling a character background with
background color of a gc. */
Pixmap null_pixel;
};
/* This is a chain of structures for all the X displays currently in use. */
extern struct x_display_info *x_display_list;
/* This is a list of cons cells, each of the form (NAME . FONT-LIST-CACHE),
one for each element of x_display_list and in the same order.
NAME is the name of the frame.
FONT-LIST-CACHE records previous values returned by x-list-fonts. */
extern Lisp_Object x_display_name_list;
/* Regexp matching a font name whose width is the same as `PIXEL_SIZE'. */
extern Lisp_Object Vx_pixel_size_width_font_regexp;
extern struct x_display_info *x_display_info_for_display ();
extern struct x_display_info *x_display_info_for_name ();
extern struct x_display_info *x_term_init ();
extern Lisp_Object x_list_fonts ();
extern struct font_info *x_get_font_info(), *x_load_font (), *x_query_font ();
/* Each X frame object points to its own struct x_output object
in the output_data.x field. The x_output structure contains
the information that is specific to X windows. */
struct x_output
{
/* Position of the X window (x and y offsets in root window). */
int left_pos;
int top_pos;
/* Border width of the X window as known by the X window system. */
int border_width;
/* Size of the X window in pixels. */
int pixel_height, pixel_width;
/* Height of menu bar widget, in pixels.
Zero if not using the X toolkit.
When using the toolkit, this value is not meaningful
if the menubar is turned off. */
int menubar_height;
/* Height of a line, in pixels. */
int line_height;
/* The tiled border used when the mouse is out of the frame. */
Pixmap border_tile;
/* Here are the Graphics Contexts for the default font. */
GC normal_gc; /* Normal video */
GC reverse_gc; /* Reverse video */
GC cursor_gc; /* cursor drawing */
/* Width of the internal border. This is a line of background color
just inside the window's border. When the frame is selected,
a highlighting is displayed inside the internal border. */
int internal_border_width;
/* The X window used for this frame.
May be zero while the frame object is being created
and the X window has not yet been created. */
Window window_desc;
/* The X window used for the bitmap icon;
or 0 if we don't have a bitmap icon. */
Window icon_desc;
/* The X window that is the parent of this X window.
Usually this is a window that was made by the window manager,
but it can be the root window, and it can be explicitly specified
(see the explicit_parent field, below). */
Window parent_desc;
#ifdef USE_X_TOOLKIT
/* The widget of this screen. This is the window of a "shell" widget. */
Widget widget;
/* The XmPanedWindows... */
Widget column_widget;
/* The widget of the edit portion of this screen; the window in
"window_desc" is inside of this. */
Widget edit_widget;
Widget menubar_widget;
#endif
/* If >=0, a bitmap index. The indicated bitmap is used for the
icon. */
int icon_bitmap;
/* Default ASCII font of this frame. */
XFontStruct *font;
/* The baseline position of the default ASCII font. */
int font_baseline;
/* If a fontset is specified for this frame instead of font, this
value contains an ID of the fontset, else -1. */
int fontset;
/* Pixel values used for various purposes.
border_pixel may be -1 meaning use a gray tile. */
unsigned long background_pixel;
unsigned long foreground_pixel;
unsigned long cursor_pixel;
unsigned long border_pixel;
unsigned long mouse_pixel;
unsigned long cursor_foreground_pixel;
/* Descriptor for the cursor in use for this window. */
Cursor text_cursor;
Cursor nontext_cursor;
Cursor modeline_cursor;
Cursor cross_cursor;
/* Flag to set when the X window needs to be completely repainted. */
int needs_exposure;
/* What kind of text cursor is drawn in this window right now?
(If there is no cursor (phys_cursor_x < 0), then this means nothing.) */
enum text_cursor_kinds current_cursor;
/* What kind of text cursor should we draw in the future?
This should always be filled_box_cursor or bar_cursor. */
enum text_cursor_kinds desired_cursor;
/* Width of bar cursor (if we are using that). */
int cursor_width;
/* These are the current window manager hints. It seems that
XSetWMHints, when presented with an unset bit in the `flags'
member of the hints structure, does not leave the corresponding
attribute unchanged; rather, it resets that attribute to its
default value. For example, unless you set the `icon_pixmap'
field and the `IconPixmapHint' bit, XSetWMHints will forget what
your icon pixmap was. This is rather troublesome, since some of
the members (for example, `input' and `icon_pixmap') want to stay
the same throughout the execution of Emacs. So, we keep this
structure around, just leaving values in it and adding new bits
to the mask as we go. */
XWMHints wm_hints;
/* The size of the extra width currently allotted for vertical
scroll bars, in pixels. */
int vertical_scroll_bar_extra;
/* Table of parameter faces for this frame. Any X resources (pixel
values, fonts) referred to here have been allocated explicitly
for this face, and should be freed if we change the face. */
struct face **param_faces;
int n_param_faces;
/* Table of computed faces for this frame. These are the faces
whose indexes go into the upper bits of a glyph, computed by
combining the parameter faces specified by overlays, text
properties, and what have you. The X resources mentioned here
are all shared with parameter faces. */
struct face **computed_faces;
int n_computed_faces; /* How many are valid */
int size_computed_faces; /* How many are allocated */
/* This is the gravity value for the specified window position. */
int win_gravity;
/* The geometry flags for this window. */
int size_hint_flags;
/* This is the Emacs structure for the X display this frame is on. */
struct x_display_info *display_info;
/* This is a button event that wants to activate the menubar.
We save it here until the command loop gets to think about it. */
XEvent *saved_menu_event;
/* This is the widget id used for this frame's menubar in lwlib. */
#ifdef USE_X_TOOLKIT
int id;
#endif
/* Nonzero means our parent is another application's window
and was explicitly specified. */
char explicit_parent;
/* Nonzero means tried already to make this frame visible. */
char asked_for_visible;
/* Nonzero if this frame was ever previously visible. */
char has_been_visible;
#ifdef HAVE_X_I18N
/* Input method. */
XIM xim;
/* Input context (currently, this means Compose key handler setup). */
XIC xic;
#endif
};
/* Get at the computed faces of an X window frame. */
#define FRAME_PARAM_FACES(f) ((f)->output_data.x->param_faces)
#define FRAME_N_PARAM_FACES(f) ((f)->output_data.x->n_param_faces)
#define FRAME_DEFAULT_PARAM_FACE(f) (FRAME_PARAM_FACES (f)[0])
#define FRAME_MODE_LINE_PARAM_FACE(f) (FRAME_PARAM_FACES (f)[1])
#define FRAME_COMPUTED_FACES(f) ((f)->output_data.x->computed_faces)
#define FRAME_N_COMPUTED_FACES(f) ((f)->output_data.x->n_computed_faces)
#define FRAME_SIZE_COMPUTED_FACES(f) ((f)->output_data.x->size_computed_faces)
#define FRAME_DEFAULT_FACE(f) ((f)->output_data.x->computed_faces[0])
#define FRAME_MODE_LINE_FACE(f) ((f)->output_data.x->computed_faces[1])
/* Return the window associated with the frame F. */
#define FRAME_X_WINDOW(f) ((f)->output_data.x->window_desc)
#define FRAME_FOREGROUND_PIXEL(f) ((f)->output_data.x->foreground_pixel)
#define FRAME_BACKGROUND_PIXEL(f) ((f)->output_data.x->background_pixel)
#define FRAME_FONT(f) ((f)->output_data.x->font)
#define FRAME_FONTSET(f) ((f)->output_data.x->fontset)
#define FRAME_INTERNAL_BORDER_WIDTH(f) ((f)->output_data.x->internal_border_width)
#define FRAME_LINE_HEIGHT(f) ((f)->output_data.x->line_height)
/* This gives the x_display_info structure for the display F is on. */
#define FRAME_X_DISPLAY_INFO(f) ((f)->output_data.x->display_info)
/* This is the `Display *' which frame F is on. */
#define FRAME_X_DISPLAY(f) (FRAME_X_DISPLAY_INFO (f)->display)
/* This is the `Screen *' which frame F is on. */
#define FRAME_X_SCREEN(f) (FRAME_X_DISPLAY_INFO (f)->screen)
/* This is the 'font_info *' which frame F has. */
#define FRAME_X_FONT_TABLE(f) (FRAME_X_DISPLAY_INFO (f)->font_table)
/* These two really ought to be called FRAME_PIXEL_{WIDTH,HEIGHT}. */
#define PIXEL_WIDTH(f) ((f)->output_data.x->pixel_width)
#define PIXEL_HEIGHT(f) ((f)->output_data.x->pixel_height)
#define FRAME_DESIRED_CURSOR(f) ((f)->output_data.x->desired_cursor)
#define FRAME_XIM(f) ((f)->output_data.x->xim)
#define FRAME_XIC(f) ((f)->output_data.x->xic)
/* X-specific scroll bar stuff. */
/* We represent scroll bars as lisp vectors. This allows us to place
references to them in windows without worrying about whether we'll
end up with windows referring to dead scroll bars; the garbage
collector will free it when its time comes.
We use struct scroll_bar as a template for accessing fields of the
vector. */
struct scroll_bar {
/* These fields are shared by all vectors. */
EMACS_INT size_from_Lisp_Vector_struct;
struct Lisp_Vector *next_from_Lisp_Vector_struct;
/* The window we're a scroll bar for. */
Lisp_Object window;
/* The next and previous in the chain of scroll bars in this frame. */
Lisp_Object next, prev;
/* The X window representing this scroll bar. Since this is a full
32-bit quantity, we store it split into two 32-bit values. */
Lisp_Object x_window_low, x_window_high;
/* The position and size of the scroll bar in pixels, relative to the
frame. */
Lisp_Object top, left, width, height;
/* The starting and ending positions of the handle, relative to the
handle area (i.e. zero is the top position, not
SCROLL_BAR_TOP_BORDER). If they're equal, that means the handle
hasn't been drawn yet.
These are not actually the locations where the beginning and end
are drawn; in order to keep handles from becoming invisible when
editing large files, we establish a minimum height by always
drawing handle bottoms VERTICAL_SCROLL_BAR_MIN_HANDLE pixels below
where they would be normally; the bottom and top are in a
different co-ordinate system. */
Lisp_Object start, end;
/* If the scroll bar handle is currently being dragged by the user,
this is the number of pixels from the top of the handle to the
place where the user grabbed it. If the handle isn't currently
being dragged, this is Qnil. */
Lisp_Object dragging;
};
/* The number of elements a vector holding a struct scroll_bar needs. */
#define SCROLL_BAR_VEC_SIZE \
((sizeof (struct scroll_bar) \
- sizeof (EMACS_INT) - sizeof (struct Lisp_Vector *)) \
/ sizeof (Lisp_Object))
/* Turning a lisp vector value into a pointer to a struct scroll_bar. */
#define XSCROLL_BAR(vec) ((struct scroll_bar *) XVECTOR (vec))
/* Building a 32-bit C integer from two 16-bit lisp integers. */
#define SCROLL_BAR_PACK(low, high) (XINT (high) << 16 | XINT (low))
/* Setting two lisp integers to the low and high words of a 32-bit C int. */
#define SCROLL_BAR_UNPACK(low, high, int32) \
(XSETINT ((low), (int32) & 0xffff), \
XSETINT ((high), ((int32) >> 16) & 0xffff))
/* Extract the X window id of the scroll bar from a struct scroll_bar. */
#define SCROLL_BAR_X_WINDOW(ptr) \
((Window) SCROLL_BAR_PACK ((ptr)->x_window_low, (ptr)->x_window_high))
/* Store a window id in a struct scroll_bar. */
#define SET_SCROLL_BAR_X_WINDOW(ptr, id) \
(SCROLL_BAR_UNPACK ((ptr)->x_window_low, (ptr)->x_window_high, (int) id))
/* Return the outside pixel height for a vertical scroll bar HEIGHT
rows high on frame F. */
#define VERTICAL_SCROLL_BAR_PIXEL_HEIGHT(f, height) \
((height) * (f)->output_data.x->line_height)
/* Return the inside width of a vertical scroll bar, given the outside
width. */
#define VERTICAL_SCROLL_BAR_INSIDE_WIDTH(f, width) \
((width) \
- VERTICAL_SCROLL_BAR_LEFT_BORDER \
- VERTICAL_SCROLL_BAR_RIGHT_BORDER \
- VERTICAL_SCROLL_BAR_WIDTH_TRIM * 2)
/* Return the length of the rectangle within which the top of the
handle must stay. This isn't equivalent to the inside height,
because the scroll bar handle has a minimum height.
This is the real range of motion for the scroll bar, so when we're
scaling buffer positions to scroll bar positions, we use this, not
VERTICAL_SCROLL_BAR_INSIDE_HEIGHT. */
#define VERTICAL_SCROLL_BAR_TOP_RANGE(f, height) \
(VERTICAL_SCROLL_BAR_INSIDE_HEIGHT (f, height) - VERTICAL_SCROLL_BAR_MIN_HANDLE)
/* Return the inside height of vertical scroll bar, given the outside
height. See VERTICAL_SCROLL_BAR_TOP_RANGE too. */
#define VERTICAL_SCROLL_BAR_INSIDE_HEIGHT(f, height) \
((height) - VERTICAL_SCROLL_BAR_TOP_BORDER - VERTICAL_SCROLL_BAR_BOTTOM_BORDER)
/* Border widths for scroll bars.
Scroll bar windows don't have any X borders; their border width is
set to zero, and we redraw borders ourselves. This makes the code
a bit cleaner, since we don't have to convert between outside width
(used when relating to the rest of the screen) and inside width
(used when sizing and drawing the scroll bar window itself).
The handle moves up and down/back and forth in a rectangle inset
from the edges of the scroll bar. These are widths by which we
inset the handle boundaries from the scroll bar edges. */
#define VERTICAL_SCROLL_BAR_LEFT_BORDER (2)
#define VERTICAL_SCROLL_BAR_RIGHT_BORDER (2)
#define VERTICAL_SCROLL_BAR_TOP_BORDER (2)
#define VERTICAL_SCROLL_BAR_BOTTOM_BORDER (2)
/* Minimum lengths for scroll bar handles, in pixels. */
#define VERTICAL_SCROLL_BAR_MIN_HANDLE (5)
/* Trimming off a few pixels from each side prevents
text from glomming up against the scroll bar */
#define VERTICAL_SCROLL_BAR_WIDTH_TRIM (2)
/* Manipulating pixel sizes and character sizes.
Knowledge of which factors affect the overall size of the window should
be hidden in these macros, if that's possible.
Return the upper/left pixel position of the character cell on frame F
at ROW/COL. */
#define CHAR_TO_PIXEL_ROW(f, row) \
((f)->output_data.x->internal_border_width \
+ (row) * (f)->output_data.x->line_height)
#define CHAR_TO_PIXEL_COL(f, col) \
((f)->output_data.x->internal_border_width \
+ (col) * FONT_WIDTH ((f)->output_data.x->font))
/* Return the pixel width/height of frame F if it has
WIDTH columns/HEIGHT rows. */
#define CHAR_TO_PIXEL_WIDTH(f, width) \
(CHAR_TO_PIXEL_COL (f, width) \
+ (f)->output_data.x->vertical_scroll_bar_extra \
+ (f)->output_data.x->internal_border_width)
#define CHAR_TO_PIXEL_HEIGHT(f, height) \
(CHAR_TO_PIXEL_ROW (f, height) \
+ (f)->output_data.x->internal_border_width)
/* Return the row/column (zero-based) of the character cell containing
the pixel on FRAME at ROW/COL. */
#define PIXEL_TO_CHAR_ROW(f, row) \
(((row) - (f)->output_data.x->internal_border_width) \
/ (f)->output_data.x->line_height)
#define PIXEL_TO_CHAR_COL(f, col) \
(((col) - (f)->output_data.x->internal_border_width) \
/ FONT_WIDTH ((f)->output_data.x->font))
/* How many columns/rows of text can we fit in WIDTH/HEIGHT pixels on
frame F? */
#define PIXEL_TO_CHAR_WIDTH(f, width) \
(PIXEL_TO_CHAR_COL (f, ((width) \
- (f)->output_data.x->internal_border_width \
- (f)->output_data.x->vertical_scroll_bar_extra)))
#define PIXEL_TO_CHAR_HEIGHT(f, height) \
(PIXEL_TO_CHAR_ROW (f, ((height) \
- (f)->output_data.x->internal_border_width)))
/* If a struct input_event has a kind which is selection_request_event
or selection_clear_event, then its contents are really described
by this structure. */
/* For an event of kind selection_request_event,
this structure really describes the contents.
**Don't make this struct longer!**
If it overlaps the frame_or_window field of struct input_event,
that will cause GC to crash. */
struct selection_input_event
{
int kind;
Display *display;
/* We spell it with an "o" here because X does. */
Window requestor;
Atom selection, target, property;
Time time;
};
#define SELECTION_EVENT_DISPLAY(eventp) \
(((struct selection_input_event *) (eventp))->display)
/* We spell it with an "o" here because X does. */
#define SELECTION_EVENT_REQUESTOR(eventp) \
(((struct selection_input_event *) (eventp))->requestor)
#define SELECTION_EVENT_SELECTION(eventp) \
(((struct selection_input_event *) (eventp))->selection)
#define SELECTION_EVENT_TARGET(eventp) \
(((struct selection_input_event *) (eventp))->target)
#define SELECTION_EVENT_PROPERTY(eventp) \
(((struct selection_input_event *) (eventp))->property)
#define SELECTION_EVENT_TIME(eventp) \
(((struct selection_input_event *) (eventp))->time)
/* Interface to the face code functions. */
/* Create the first two computed faces for a frame -- the ones that
have GC's. */
extern void init_frame_faces (/* FRAME_PTR */);
/* Free the resources for the faces associated with a frame. */
extern void free_frame_faces (/* FRAME_PTR */);
/* Given a computed face, find or make an equivalent display face
in face_vector, and return a pointer to it. */
extern struct face *intern_face (/* FRAME_PTR, struct face * */);
/* Given a frame and a face name, return the face's ID number, or
zero if it isn't a recognized face name. */
extern int face_name_id_number (/* FRAME_PTR, Lisp_Object */);
/* Return non-zero if FONT1 and FONT2 have the same size bounding box.
We assume that they're both character-cell fonts. */
extern int same_size_fonts (/* XFontStruct *, XFontStruct * */);
/* Recompute the GC's for the default and modeline faces.
We call this after changing frame parameters on which those GC's
depend. */
extern void recompute_basic_faces (/* FRAME_PTR */);
/* Return the face ID associated with a buffer position POS. Store
into *ENDPTR the next position at which a different face is
needed. This does not take account of glyphs that specify their
own face codes. F is the frame in use for display, and W is a
window displaying the current buffer.
REGION_BEG, REGION_END delimit the region, so it can be highlighted. */
extern int compute_char_face (/* FRAME_PTR frame,
struct window *w,
int pos,
int region_beg, int region_end,
int *endptr */);
/* Return the face ID to use to display a special glyph which selects
FACE_CODE as the face ID, assuming that ordinarily the face would
be BASIC_FACE. F is the frame. */
extern int compute_glyph_face (/* FRAME_PTR, int */);
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