/* Functions for the X Window System. Copyright (C) 1989, 1992-2020 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 3 of the License, 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. If not, see . */ #include #include #include #include #include #include "lisp.h" #include "xterm.h" #include "frame.h" #include "window.h" #include "buffer.h" #include "dispextern.h" #include "keyboard.h" #include "blockinput.h" #include "charset.h" #include "coding.h" #include "termhooks.h" #include "font.h" #include #include #include "bitmaps/gray.xbm" #include "xsettings.h" #ifdef HAVE_XRANDR #include #endif #ifdef HAVE_XINERAMA #include #endif #ifdef USE_GTK #include "gtkutil.h" #endif #ifdef HAVE_XDBE #include #endif #ifdef USE_X_TOOLKIT #include #ifndef USE_MOTIF #ifdef HAVE_XAW3D #include #include #else /* !HAVE_XAW3D */ #include #include #endif /* HAVE_XAW3D */ #endif /* USE_MOTIF */ #ifdef USG #undef USG /* ####KLUDGE for Solaris 2.2 and up */ #include #define USG #ifdef USG /* Pacify gcc -Wunused-macros. */ #endif #else #include #endif #include "widget.h" #include "../lwlib/lwlib.h" #ifdef USE_MOTIF #include #include #include #include #include #include #endif #ifdef USE_LUCID #include "../lwlib/xlwmenu.h" #endif /* Unique id counter for widgets created by the Lucid Widget Library. */ extern LWLIB_ID widget_id_tick; #ifdef USE_MOTIF #endif /* USE_MOTIF */ #endif /* USE_X_TOOLKIT */ #ifdef USE_GTK #endif /* USE_GTK */ #define MAXREQUEST(dpy) (XMaxRequestSize (dpy)) static ptrdiff_t image_cache_refcount; #ifdef GLYPH_DEBUG static int dpyinfo_refcount; #endif #ifndef USE_MOTIF #ifndef USE_GTK /** #define MWM_HINTS_FUNCTIONS (1L << 0) **/ #define MWM_HINTS_DECORATIONS (1L << 1) /** #define MWM_HINTS_INPUT_MODE (1L << 2) **/ /** #define MWM_HINTS_STATUS (1L << 3) **/ #define MWM_DECOR_ALL (1L << 0) /** #define MWM_DECOR_BORDER (1L << 1) **/ /** #define MWM_DECOR_RESIZEH (1L << 2) **/ /** #define MWM_DECOR_TITLE (1L << 3) **/ /** #define MWM_DECOR_MENU (1L << 4) **/ /** #define MWM_DECOR_MINIMIZE (1L << 5) **/ /** #define MWM_DECOR_MAXIMIZE (1L << 6) **/ /** #define _XA_MOTIF_WM_HINTS "_MOTIF_WM_HINTS" **/ typedef struct { unsigned long flags; unsigned long functions; unsigned long decorations; long input_mode; unsigned long status; } PropMotifWmHints; #define PROP_MOTIF_WM_HINTS_ELEMENTS 5 #endif /* NOT USE_GTK */ #endif /* NOT USE_MOTIF */ static struct x_display_info *x_display_info_for_name (Lisp_Object); static void set_up_x_back_buffer (struct frame *f); /* Let the user specify an X display with a Lisp object. OBJECT may be nil, a frame or a terminal object. nil stands for the selected frame--or, if that is not an X frame, the first X display on the list. */ struct x_display_info * check_x_display_info (Lisp_Object object) { struct x_display_info *dpyinfo = NULL; if (NILP (object)) { struct frame *sf = XFRAME (selected_frame); if (FRAME_X_P (sf) && FRAME_LIVE_P (sf)) dpyinfo = FRAME_DISPLAY_INFO (sf); else if (x_display_list != 0) dpyinfo = x_display_list; else error ("X windows are not in use or not initialized"); } else if (TERMINALP (object)) { struct terminal *t = decode_live_terminal (object); if (t->type != output_x_window) error ("Terminal %d is not an X display", t->id); dpyinfo = t->display_info.x; } else if (STRINGP (object)) dpyinfo = x_display_info_for_name (object); else { struct frame *f = decode_window_system_frame (object); dpyinfo = FRAME_DISPLAY_INFO (f); } return dpyinfo; } /* Return the screen positions and offsets of frame F. Store the offsets between FRAME_OUTER_WINDOW and the containing window manager window into LEFT_OFFSET_X, RIGHT_OFFSET_X, TOP_OFFSET_Y and BOTTOM_OFFSET_Y. Store the offsets between FRAME_X_WINDOW and the containing window manager window into X_PIXELS_DIFF and Y_PIXELS_DIFF. Store the screen positions of frame F into XPTR and YPTR. These are the positions of the containing window manager window, not Emacs's own window. */ void x_real_pos_and_offsets (struct frame *f, int *left_offset_x, int *right_offset_x, int *top_offset_y, int *bottom_offset_y, int *x_pixels_diff, int *y_pixels_diff, int *xptr, int *yptr, int *outer_border) { int win_x = 0, win_y = 0, outer_x = 0, outer_y = 0; int real_x = 0, real_y = 0; bool had_errors = false; struct frame *parent_frame = FRAME_PARENT_FRAME (f); Window win = (parent_frame ? FRAME_X_WINDOW (parent_frame) : f->output_data.x->parent_desc); struct x_display_info *dpyinfo = FRAME_DISPLAY_INFO (f); long max_len = 400; Atom target_type = XA_CARDINAL; unsigned int ow = 0, oh = 0; unsigned int fw = 0, fh = 0; unsigned int bw = 0; /* We resort to XCB if possible because there are several X calls here which require responses from the server but do not have data dependencies between them. Using XCB lets us pipeline requests, whereas with Xlib we must wait for each answer before sending the next request. For a non-local display, the round-trip time could be a few tens of milliseconds, depending on the network distance. It doesn't take a lot of those to add up to a noticeable hesitation in responding to user actions. */ #ifdef USE_XCB xcb_connection_t *xcb_conn = dpyinfo->xcb_connection; xcb_get_property_cookie_t prop_cookie; xcb_get_geometry_cookie_t outer_geom_cookie; bool sent_requests = false; #else Atom actual_type; unsigned long actual_size, bytes_remaining; int rc, actual_format; Display *dpy = FRAME_X_DISPLAY (f); unsigned char *tmp_data = NULL; #endif if (x_pixels_diff) *x_pixels_diff = 0; if (y_pixels_diff) *y_pixels_diff = 0; if (left_offset_x) *left_offset_x = 0; if (top_offset_y) *top_offset_y = 0; if (right_offset_x) *right_offset_x = 0; if (bottom_offset_y) *bottom_offset_y = 0; if (xptr) *xptr = 0; if (yptr) *yptr = 0; if (outer_border) *outer_border = 0; if (win == dpyinfo->root_window) win = FRAME_OUTER_WINDOW (f); block_input (); #ifndef USE_XCB /* If we're using XCB, all errors are checked for on each call. */ x_catch_errors (dpy); #endif /* This loop traverses up the containment tree until we hit the root window. Window managers may intersect many windows between our window and the root window. The window we find just before the root window should be the outer WM window. */ for (;;) { Window wm_window UNINIT, rootw UNINIT; #ifdef USE_XCB xcb_query_tree_cookie_t query_tree_cookie; xcb_query_tree_reply_t *query_tree; query_tree_cookie = xcb_query_tree (xcb_conn, win); query_tree = xcb_query_tree_reply (xcb_conn, query_tree_cookie, NULL); if (query_tree == NULL) had_errors = true; else { wm_window = query_tree->parent; rootw = query_tree->root; free (query_tree); } #else Window *tmp_children; unsigned int tmp_nchildren; int success; success = XQueryTree (dpy, win, &rootw, &wm_window, &tmp_children, &tmp_nchildren); had_errors = x_had_errors_p (dpy); /* Don't free tmp_children if XQueryTree failed. */ if (! success) break; XFree (tmp_children); #endif if (had_errors || wm_window == rootw) break; win = wm_window; } if (! had_errors) { #ifdef USE_XCB xcb_get_geometry_cookie_t geom_cookie; xcb_translate_coordinates_cookie_t trans_cookie; xcb_translate_coordinates_cookie_t outer_trans_cookie; xcb_translate_coordinates_reply_t *trans; xcb_get_geometry_reply_t *geom; #else Window child, rootw; unsigned int ign; #endif #ifdef USE_XCB /* Fire off the requests that don't have data dependencies. Once we've done this, we must collect the results for each one before returning, even if other errors are detected, making the other responses moot. */ geom_cookie = xcb_get_geometry (xcb_conn, win); trans_cookie = xcb_translate_coordinates (xcb_conn, /* From-window, to-window. */ FRAME_DISPLAY_INFO (f)->root_window, FRAME_X_WINDOW (f), /* From-position. */ 0, 0); if (FRAME_X_WINDOW (f) != FRAME_OUTER_WINDOW (f)) outer_trans_cookie = xcb_translate_coordinates (xcb_conn, /* From-window, to-window. */ FRAME_DISPLAY_INFO (f)->root_window, FRAME_OUTER_WINDOW (f), /* From-position. */ 0, 0); if (right_offset_x || bottom_offset_y) outer_geom_cookie = xcb_get_geometry (xcb_conn, FRAME_OUTER_WINDOW (f)); if (!parent_frame && dpyinfo->root_window == f->output_data.x->parent_desc) /* Try _NET_FRAME_EXTENTS if our parent is the root window. */ prop_cookie = xcb_get_property (xcb_conn, 0, win, dpyinfo->Xatom_net_frame_extents, target_type, 0, max_len); sent_requests = true; #endif /* Get the real coordinates for the WM window upper left corner */ #ifdef USE_XCB geom = xcb_get_geometry_reply (xcb_conn, geom_cookie, NULL); if (geom) { real_x = geom->x; real_y = geom->y; ow = geom->width; oh = geom->height; bw = geom->border_width; free (geom); } else had_errors = true; #else XGetGeometry (dpy, win, &rootw, &real_x, &real_y, &ow, &oh, &bw, &ign); #endif /* Translate real coordinates to coordinates relative to our window. For our window, the upper left corner is 0, 0. Since the upper left corner of the WM window is outside our window, win_x and win_y will be negative: ------------------ ---> x | title | | ----------------- v y | | our window Since we don't care about the child window corresponding to the actual coordinates, we can send zero to get the offsets and compute the resulting coordinates below. This reduces the data dependencies between calls and lets us pipeline the requests better in the XCB case. */ #ifdef USE_XCB trans = xcb_translate_coordinates_reply (xcb_conn, trans_cookie, NULL); if (trans) { win_x = trans->dst_x; win_y = trans->dst_y; free (trans); } else had_errors = true; #else XTranslateCoordinates (dpy, /* From-window, to-window. */ FRAME_DISPLAY_INFO (f)->root_window, FRAME_X_WINDOW (f), /* From-position, to-position. */ 0, 0, &win_x, &win_y, /* Child of win. */ &child); #endif win_x += real_x; win_y += real_y; if (FRAME_X_WINDOW (f) == FRAME_OUTER_WINDOW (f)) { outer_x = win_x; outer_y = win_y; } else { #ifdef USE_XCB xcb_translate_coordinates_reply_t *outer_trans; outer_trans = xcb_translate_coordinates_reply (xcb_conn, outer_trans_cookie, NULL); if (outer_trans) { outer_x = outer_trans->dst_x; outer_y = outer_trans->dst_y; free (outer_trans); } else had_errors = true; #else XTranslateCoordinates (dpy, /* From-window, to-window. */ FRAME_DISPLAY_INFO (f)->root_window, FRAME_OUTER_WINDOW (f), /* From-position, to-position. */ 0, 0, &outer_x, &outer_y, /* Child of win. */ &child); #endif outer_x += real_x; outer_y += real_y; } #ifndef USE_XCB had_errors = x_had_errors_p (dpy); #endif } if (!parent_frame && dpyinfo->root_window == f->output_data.x->parent_desc) { /* Try _NET_FRAME_EXTENTS if our parent is the root window. */ #ifdef USE_XCB /* Make sure we didn't get an X error early and skip sending the request. */ if (sent_requests) { xcb_get_property_reply_t *prop; prop = xcb_get_property_reply (xcb_conn, prop_cookie, NULL); if (prop) { if (prop->type == target_type && prop->format == 32 && (xcb_get_property_value_length (prop) == 4 * sizeof (int32_t))) { int32_t *fe = xcb_get_property_value (prop); outer_x = -fe[0]; outer_y = -fe[2]; real_x -= fe[0]; real_y -= fe[2]; } free (prop); } /* Xlib version doesn't set had_errors here. Intentional or bug? */ } #else rc = XGetWindowProperty (dpy, win, dpyinfo->Xatom_net_frame_extents, 0, max_len, False, target_type, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); if (rc == Success && actual_type == target_type && !x_had_errors_p (dpy) && actual_size == 4 && actual_format == 32) { long *fe = (long *)tmp_data; outer_x = -fe[0]; outer_y = -fe[2]; real_x -= fe[0]; real_y -= fe[2]; } if (tmp_data) XFree (tmp_data); #endif } if (right_offset_x || bottom_offset_y) { #ifdef USE_XCB /* Make sure we didn't get an X error early and skip sending the request. */ if (sent_requests) { xcb_get_geometry_reply_t *outer_geom; outer_geom = xcb_get_geometry_reply (xcb_conn, outer_geom_cookie, NULL); if (outer_geom) { fw = outer_geom->width; fh = outer_geom->height; free (outer_geom); } else had_errors = true; } #else int xy_ign; unsigned int ign; Window rootw; XGetGeometry (dpy, FRAME_OUTER_WINDOW (f), &rootw, &xy_ign, &xy_ign, &fw, &fh, &ign, &ign); #endif } #ifndef USE_XCB x_uncatch_errors (); #endif unblock_input (); if (had_errors) return; if (x_pixels_diff) *x_pixels_diff = -win_x; if (y_pixels_diff) *y_pixels_diff = -win_y; if (left_offset_x) *left_offset_x = -outer_x; if (top_offset_y) *top_offset_y = -outer_y; if (xptr) *xptr = real_x; if (yptr) *yptr = real_y; if (outer_border) *outer_border = bw; if (right_offset_x) *right_offset_x = ow - fw + outer_x; if (bottom_offset_y) *bottom_offset_y = oh - fh + outer_y; } /* Store the screen positions of frame F into XPTR and YPTR. These are the positions of the containing window manager window, not Emacs's own window. */ void x_real_positions (struct frame *f, int *xptr, int *yptr) { x_real_pos_and_offsets (f, NULL, NULL, NULL, NULL, NULL, NULL, xptr, yptr, NULL); } /* Get the mouse position in frame relative coordinates. */ void x_relative_mouse_position (struct frame *f, int *x, int *y) { Window root, dummy_window; int dummy; eassert (FRAME_X_P (f)); block_input (); XQueryPointer (FRAME_X_DISPLAY (f), DefaultRootWindow (FRAME_X_DISPLAY (f)), /* The root window which contains the pointer. */ &root, /* Window pointer is on, not used */ &dummy_window, /* The position on that root window. */ x, y, /* x/y in dummy_window coordinates, not used. */ &dummy, &dummy, /* Modifier keys and pointer buttons, about which we don't care. */ (unsigned int *) &dummy); XTranslateCoordinates (FRAME_X_DISPLAY (f), /* From-window, to-window. */ FRAME_DISPLAY_INFO (f)->root_window, FRAME_X_WINDOW (f), /* From-position, to-position. */ *x, *y, x, y, /* Child of win. */ &dummy_window); unblock_input (); } /* Gamma-correct COLOR on frame F. */ void gamma_correct (struct frame *f, XColor *color) { if (f->gamma) { color->red = pow (color->red / 65535.0, f->gamma) * 65535.0 + 0.5; color->green = pow (color->green / 65535.0, f->gamma) * 65535.0 + 0.5; color->blue = pow (color->blue / 65535.0, f->gamma) * 65535.0 + 0.5; } } /* Decide if color named COLOR_NAME is valid for use on frame F. If so, return the RGB values in COLOR. If ALLOC_P, allocate the color. Value is false if COLOR_NAME is invalid, or no color could be allocated. */ bool x_defined_color (struct frame *f, const char *color_name, Emacs_Color *color, bool alloc_p, bool _makeIndex) { bool success_p = false; Colormap cmap = FRAME_X_COLORMAP (f); block_input (); #ifdef USE_GTK success_p = xg_check_special_colors (f, color_name, color); #endif if (!success_p) success_p = x_parse_color (f, color_name, color) != 0; if (success_p && alloc_p) success_p = x_alloc_nearest_color (f, cmap, color); unblock_input (); return success_p; } /* Return the pixel color value for color COLOR_NAME on frame F. If F is a monochrome frame, return MONO_COLOR regardless of what ARG says. Signal an error if color can't be allocated. */ static int x_decode_color (struct frame *f, Lisp_Object color_name, int mono_color) { XColor cdef; CHECK_STRING (color_name); #if false /* Don't do this. It's wrong when we're not using the default colormap, it makes freeing difficult, and it's probably not an important optimization. */ if (strcmp (SDATA (color_name), "black") == 0) return BLACK_PIX_DEFAULT (f); else if (strcmp (SDATA (color_name), "white") == 0) return WHITE_PIX_DEFAULT (f); #endif /* Return MONO_COLOR for monochrome frames. */ if (FRAME_DISPLAY_INFO (f)->n_planes == 1) return mono_color; /* x_defined_color is responsible for coping with failures by looking for a near-miss. */ if (x_defined_color (f, SSDATA (color_name), &cdef, true, false)) return cdef.pixel; signal_error ("Undefined color", color_name); } /* Change the `wait-for-wm' frame parameter of frame F. OLD_VALUE is the previous value of that parameter, NEW_VALUE is the new value. See also the comment of wait_for_wm in struct x_output. */ static void x_set_wait_for_wm (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { f->output_data.x->wait_for_wm = !NILP (new_value); } static void x_set_tool_bar_position (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { Lisp_Object choice = list4 (Qleft, Qright, Qtop, Qbottom); if (!NILP (Fmemq (new_value, choice))) { #ifdef USE_GTK if (!EQ (new_value, old_value)) { xg_change_toolbar_position (f, new_value); fset_tool_bar_position (f, new_value); } #else if (!EQ (new_value, Qtop)) error ("The only supported tool bar position is top"); #endif } else wrong_choice (choice, new_value); } static void x_set_inhibit_double_buffering (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { block_input (); if (FRAME_X_WINDOW (f) && !EQ (new_value, old_value)) { bool want_double_buffering = NILP (new_value); bool was_double_buffered = FRAME_X_DOUBLE_BUFFERED_P (f); /* font_drop_xrender_surfaces in xftfont does something only if we're double-buffered, so call font_drop_xrender_surfaces before and after any potential change. One of the calls will end up being a no-op. */ if (want_double_buffering != was_double_buffered) font_drop_xrender_surfaces (f); if (FRAME_X_DOUBLE_BUFFERED_P (f) && !want_double_buffering) tear_down_x_back_buffer (f); else if (!FRAME_X_DOUBLE_BUFFERED_P (f) && want_double_buffering) set_up_x_back_buffer (f); if (FRAME_X_DOUBLE_BUFFERED_P (f) != was_double_buffered) { SET_FRAME_GARBAGED (f); font_drop_xrender_surfaces (f); } } unblock_input (); } /** * x_set_undecorated: * * Set frame F's `undecorated' parameter. If non-nil, F's window-system * window is drawn without decorations, title, minimize/maximize boxes * and external borders. This usually means that the window cannot be * dragged, resized, iconified, maximized or deleted with the mouse. If * nil, draw the frame with all the elements listed above unless these * have been suspended via window manager settings. * * Some window managers may not honor this parameter. */ static void x_set_undecorated (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { if (!EQ (new_value, old_value)) { FRAME_UNDECORATED (f) = NILP (new_value) ? false : true; #ifdef USE_GTK xg_set_undecorated (f, new_value); #else Display *dpy = FRAME_X_DISPLAY (f); PropMotifWmHints hints; Atom prop = XInternAtom (dpy, "_MOTIF_WM_HINTS", False); memset (&hints, 0, sizeof(hints)); hints.flags = MWM_HINTS_DECORATIONS; hints.decorations = NILP (new_value) ? MWM_DECOR_ALL : 0; block_input (); /* For some reason the third and fourth arguments in the following call must be identical: In the corresponding XGetWindowProperty call in getMotifHints, xfwm has the third and seventh args both display_info->atoms[MOTIF_WM_HINTS]. Obviously, YMMV. */ XChangeProperty (dpy, FRAME_OUTER_WINDOW (f), prop, prop, 32, PropModeReplace, (unsigned char *) &hints, PROP_MOTIF_WM_HINTS_ELEMENTS); unblock_input (); #endif /* USE_GTK */ } } /** * x_set_parent_frame: * * Set frame F's `parent-frame' parameter. If non-nil, make F a child * frame of the frame specified by that parameter. Technically, this * makes F's window-system window a child window of the parent frame's * window-system window. If nil, make F's window-system window a * top-level window--a child of its display's root window. * * A child frame is clipped at the native edges of its parent frame. * Its `left' and `top' parameters specify positions relative to the * top-left corner of its parent frame's native rectangle. Usually, * moving a parent frame moves all its child frames too, keeping their * position relative to the parent unaltered. When a parent frame is * iconified or made invisible, its child frames are made invisible. * When a parent frame is deleted, its child frames are deleted too. * * A visible child frame always appears on top of its parent frame thus * obscuring parts of it. When a frame has more than one child frame, * their stacking order is specified just as that of non-child frames * relative to their display. * * Whether a child frame has a menu or tool bar may be window-system or * window manager dependent. It's advisable to disable both via the * frame parameter settings. * * Some window managers may not honor this parameter. */ static void x_set_parent_frame (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { struct frame *p = NULL; if (!NILP (new_value) && (!FRAMEP (new_value) || !FRAME_LIVE_P (p = XFRAME (new_value)) || !FRAME_X_P (p))) { store_frame_param (f, Qparent_frame, old_value); error ("Invalid specification of `parent-frame'"); } if (p != FRAME_PARENT_FRAME (f)) { block_input (); XReparentWindow (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), p ? FRAME_X_WINDOW (p) : DefaultRootWindow (FRAME_X_DISPLAY (f)), f->left_pos, f->top_pos); #ifdef USE_GTK if (EQ (x_gtk_resize_child_frames, Qresize_mode)) gtk_container_set_resize_mode (GTK_CONTAINER (FRAME_GTK_OUTER_WIDGET (f)), p ? GTK_RESIZE_IMMEDIATE : GTK_RESIZE_QUEUE); #endif unblock_input (); fset_parent_frame (f, new_value); } } /** * x_set_no_focus_on_map: * * Set frame F's `no-focus-on-map' parameter which, if non-nil, means * that F's window-system window does not want to receive input focus * when it is mapped. (A frame's window is mapped when the frame is * displayed for the first time and when the frame changes its state * from `iconified' or `invisible' to `visible'.) * * Some window managers may not honor this parameter. */ static void x_set_no_focus_on_map (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { if (!EQ (new_value, old_value)) { #ifdef USE_GTK xg_set_no_focus_on_map (f, new_value); #else /* not USE_GTK */ Display *dpy = FRAME_X_DISPLAY (f); Atom prop = XInternAtom (dpy, "_NET_WM_USER_TIME", False); Time timestamp = NILP (new_value) ? CurrentTime : 0; XChangeProperty (dpy, FRAME_OUTER_WINDOW (f), prop, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) ×tamp, 1); #endif /* USE_GTK */ FRAME_NO_FOCUS_ON_MAP (f) = !NILP (new_value); } } /** * x_set_no_accept_focus: * * Set frame F's `no-accept-focus' parameter which, if non-nil, hints * that F's window-system window does not want to receive input focus * via mouse clicks or by moving the mouse into it. * * If non-nil, this may have the unwanted side-effect that a user cannot * scroll a non-selected frame with the mouse. * * Some window managers may not honor this parameter. */ static void x_set_no_accept_focus (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { if (!EQ (new_value, old_value)) { #ifdef USE_GTK xg_set_no_accept_focus (f, new_value); #else /* not USE_GTK */ #ifdef USE_X_TOOLKIT Arg al[1]; XtSetArg (al[0], XtNinput, NILP (new_value) ? True : False); XtSetValues (f->output_data.x->widget, al, 1); #else /* not USE_X_TOOLKIT */ Window window = FRAME_X_WINDOW (f); f->output_data.x->wm_hints.input = NILP (new_value) ? True : False; XSetWMHints (FRAME_X_DISPLAY (f), window, &f->output_data.x->wm_hints); #endif /* USE_X_TOOLKIT */ #endif /* USE_GTK */ FRAME_NO_ACCEPT_FOCUS (f) = !NILP (new_value); } } /** * x_set_override_redirect: * * Set frame F's `override_redirect' parameter which, if non-nil, hints * that the window manager doesn't want to deal with F. Usually, such * frames have no decorations and always appear on top of all frames. * * Some window managers may not honor this parameter. */ static void x_set_override_redirect (struct frame *f, Lisp_Object new_value, Lisp_Object old_value) { if (!EQ (new_value, old_value)) { /* Here (xfwm) override_redirect can be changed for invisible frames only. */ x_make_frame_invisible (f); #ifdef USE_GTK xg_set_override_redirect (f, new_value); #else /* not USE_GTK */ XSetWindowAttributes attributes; attributes.override_redirect = NILP (new_value) ? False : True; XChangeWindowAttributes (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), CWOverrideRedirect, &attributes); #endif x_make_frame_visible (f); FRAME_OVERRIDE_REDIRECT (f) = !NILP (new_value); } } #ifdef USE_GTK /* Set icon from FILE for frame F. By using GTK functions the icon may be any format that GdkPixbuf knows about, i.e. not just bitmaps. */ bool xg_set_icon (struct frame *f, Lisp_Object file) { bool result = false; Lisp_Object found; found = image_find_image_file (file); if (! NILP (found)) { GdkPixbuf *pixbuf; GError *err = NULL; char *filename = SSDATA (ENCODE_FILE (found)); block_input (); pixbuf = gdk_pixbuf_new_from_file (filename, &err); if (pixbuf) { gtk_window_set_icon (GTK_WINDOW (FRAME_GTK_OUTER_WIDGET (f)), pixbuf); g_object_unref (pixbuf); result = true; } else g_error_free (err); unblock_input (); } return result; } bool xg_set_icon_from_xpm_data (struct frame *f, const char **data) { GdkPixbuf *pixbuf = gdk_pixbuf_new_from_xpm_data (data); if (!pixbuf) return false; gtk_window_set_icon (GTK_WINDOW (FRAME_GTK_OUTER_WIDGET (f)), pixbuf); g_object_unref (pixbuf); return true; } #endif /* USE_GTK */ /* Functions called only from `gui_set_frame_parameters' to set individual parameters. If FRAME_X_WINDOW (f) is 0, the frame is being created and its X-window does not exist yet. In that case, just record the parameter's new value in the standard place; do not attempt to change the window. */ static void x_set_foreground_color (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { struct x_output *x = f->output_data.x; unsigned long fg, old_fg; fg = x_decode_color (f, arg, BLACK_PIX_DEFAULT (f)); old_fg = FRAME_FOREGROUND_PIXEL (f); FRAME_FOREGROUND_PIXEL (f) = fg; if (FRAME_X_WINDOW (f) != 0) { Display *dpy = FRAME_X_DISPLAY (f); block_input (); XSetForeground (dpy, x->normal_gc, fg); XSetBackground (dpy, x->reverse_gc, fg); if (x->cursor_pixel == old_fg) { unload_color (f, x->cursor_pixel); x->cursor_pixel = x_copy_color (f, fg); XSetBackground (dpy, x->cursor_gc, x->cursor_pixel); } unblock_input (); update_face_from_frame_parameter (f, Qforeground_color, arg); if (FRAME_VISIBLE_P (f)) redraw_frame (f); } unload_color (f, old_fg); } static void x_set_background_color (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { struct x_output *x = f->output_data.x; unsigned long bg; bg = x_decode_color (f, arg, WHITE_PIX_DEFAULT (f)); unload_color (f, FRAME_BACKGROUND_PIXEL (f)); FRAME_BACKGROUND_PIXEL (f) = bg; if (FRAME_X_WINDOW (f) != 0) { Display *dpy = FRAME_X_DISPLAY (f); block_input (); XSetBackground (dpy, x->normal_gc, bg); XSetForeground (dpy, x->reverse_gc, bg); XSetWindowBackground (dpy, FRAME_X_WINDOW (f), bg); XSetForeground (dpy, x->cursor_gc, bg); #ifdef USE_GTK xg_set_background_color (f, bg); #endif #ifndef USE_TOOLKIT_SCROLL_BARS /* Turns out to be annoying with toolkit scroll bars. */ { Lisp_Object bar; for (bar = FRAME_SCROLL_BARS (f); !NILP (bar); bar = XSCROLL_BAR (bar)->next) { Window window = XSCROLL_BAR (bar)->x_window; XSetWindowBackground (dpy, window, bg); } } #endif /* USE_TOOLKIT_SCROLL_BARS */ unblock_input (); update_face_from_frame_parameter (f, Qbackground_color, arg); if (FRAME_VISIBLE_P (f)) redraw_frame (f); } } /* This array must stay in sync with the mouse_cursor_types array below! */ enum mouse_cursor { mouse_cursor_text, mouse_cursor_nontext, mouse_cursor_hourglass, mouse_cursor_mode, mouse_cursor_hand, mouse_cursor_horizontal_drag, mouse_cursor_vertical_drag, mouse_cursor_left_edge, mouse_cursor_top_left_corner, mouse_cursor_top_edge, mouse_cursor_top_right_corner, mouse_cursor_right_edge, mouse_cursor_bottom_right_corner, mouse_cursor_bottom_edge, mouse_cursor_bottom_left_corner, mouse_cursor_max }; struct mouse_cursor_types { /* Printable name for error messages (optional). */ const char *name; /* Lisp variable controlling the cursor shape. */ /* FIXME: A couple of these variables are defined in the C code but are not actually accessible from Lisp. They should probably be made accessible or removed. */ Lisp_Object *shape_var_ptr; /* The default shape. */ int default_shape; }; /* This array must stay in sync with enum mouse_cursor above! */ static const struct mouse_cursor_types mouse_cursor_types[] = { { "text", &Vx_pointer_shape, XC_xterm }, { "nontext", &Vx_nontext_pointer_shape, XC_left_ptr }, { "hourglass", &Vx_hourglass_pointer_shape, XC_watch }, { "modeline", &Vx_mode_pointer_shape, XC_xterm }, { NULL, &Vx_sensitive_text_pointer_shape, XC_hand2 }, { NULL, &Vx_window_horizontal_drag_shape, XC_sb_h_double_arrow }, { NULL, &Vx_window_vertical_drag_shape, XC_sb_v_double_arrow }, { NULL, &Vx_window_left_edge_shape, XC_left_side }, { NULL, &Vx_window_top_left_corner_shape, XC_top_left_corner }, { NULL, &Vx_window_top_edge_shape, XC_top_side }, { NULL, &Vx_window_top_right_corner_shape, XC_top_right_corner }, { NULL, &Vx_window_right_edge_shape, XC_right_side }, { NULL, &Vx_window_bottom_right_corner_shape, XC_bottom_right_corner }, { NULL, &Vx_window_bottom_edge_shape, XC_bottom_side }, { NULL, &Vx_window_bottom_left_corner_shape, XC_bottom_left_corner }, }; struct mouse_cursor_data { /* Last index for which XCreateFontCursor has been called, and thus the last index for which x_request_serial[] is valid. */ int last_cursor_create_request; /* Last index for which an X error event was received in response to attempting to create the cursor. */ int error_cursor; /* Cursor numbers chosen. */ unsigned int cursor_num[mouse_cursor_max]; /* Allocated Cursor values, or zero for failed attempts. */ Cursor cursor[mouse_cursor_max]; /* X serial numbers for the first request sent by XCreateFontCursor. Note that there may be more than one request sent. */ unsigned long x_request_serial[mouse_cursor_max]; /* If an error has been received, a pointer to where the current error-message text is stored. */ char *error_string; }; static void x_set_mouse_color_handler (Display *dpy, XErrorEvent *event, char *error_string, void *data) { struct mouse_cursor_data *cursor_data = data; int i; cursor_data->error_cursor = -1; cursor_data->error_string = error_string; for (i = 0; i < cursor_data->last_cursor_create_request; i++) { if (event->serial >= cursor_data->x_request_serial[i]) cursor_data->error_cursor = i; } if (cursor_data->error_cursor >= 0) /* If we failed to allocate it, don't try to free it. */ cursor_data->cursor[cursor_data->error_cursor] = 0; } static void x_set_mouse_color (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { struct x_output *x = f->output_data.x; Display *dpy = FRAME_X_DISPLAY (f); struct mouse_cursor_data cursor_data = { -1, -1 }; unsigned long pixel = x_decode_color (f, arg, BLACK_PIX_DEFAULT (f)); unsigned long mask_color = FRAME_BACKGROUND_PIXEL (f); int i; /* Don't let pointers be invisible. */ if (mask_color == pixel) { x_free_colors (f, &pixel, 1); pixel = x_copy_color (f, FRAME_FOREGROUND_PIXEL (f)); } unload_color (f, x->mouse_pixel); x->mouse_pixel = pixel; for (i = 0; i < mouse_cursor_max; i++) { Lisp_Object shape_var = *mouse_cursor_types[i].shape_var_ptr; cursor_data.cursor_num[i] = (!NILP (shape_var) ? check_uinteger_max (shape_var, UINT_MAX) : mouse_cursor_types[i].default_shape); } block_input (); /* It's not okay to crash if the user selects a screwy cursor. */ x_catch_errors_with_handler (dpy, x_set_mouse_color_handler, &cursor_data); for (i = 0; i < mouse_cursor_max; i++) { cursor_data.x_request_serial[i] = XNextRequest (dpy); cursor_data.last_cursor_create_request = i; cursor_data.cursor[i] = XCreateFontCursor (dpy, cursor_data.cursor_num[i]); } /* Now sync up and process all received errors from cursor creation. */ if (x_had_errors_p (dpy)) { const char *bad_cursor_name = NULL; /* Bounded by X_ERROR_MESSAGE_SIZE in xterm.c. */ size_t message_length = strlen (cursor_data.error_string); char *xmessage = alloca (1 + message_length); memcpy (xmessage, cursor_data.error_string, message_length); x_uncatch_errors (); /* Free any successfully created cursors. */ for (i = 0; i < mouse_cursor_max; i++) if (cursor_data.cursor[i] != 0) XFreeCursor (dpy, cursor_data.cursor[i]); /* This should only be able to fail if the server's serial number tracking is broken. */ if (cursor_data.error_cursor >= 0) bad_cursor_name = mouse_cursor_types[cursor_data.error_cursor].name; if (bad_cursor_name) error ("bad %s pointer cursor: %s", bad_cursor_name, xmessage); else error ("can't set cursor shape: %s", xmessage); } x_uncatch_errors_after_check (); { XColor colors[2]; /* 0=foreground, 1=background */ colors[0].pixel = x->mouse_pixel; colors[1].pixel = mask_color; x_query_colors (f, colors, 2); for (i = 0; i < mouse_cursor_max; i++) XRecolorCursor (dpy, cursor_data.cursor[i], &colors[0], &colors[1]); } if (FRAME_X_WINDOW (f) != 0) { f->output_data.x->current_cursor = cursor_data.cursor[mouse_cursor_text]; XDefineCursor (dpy, FRAME_X_WINDOW (f), f->output_data.x->current_cursor); } #define INSTALL_CURSOR(FIELD, SHORT_INDEX) \ eassert (x->FIELD != cursor_data.cursor[mouse_cursor_ ## SHORT_INDEX]); \ if (x->FIELD != 0) \ XFreeCursor (dpy, x->FIELD); \ x->FIELD = cursor_data.cursor[mouse_cursor_ ## SHORT_INDEX]; INSTALL_CURSOR (text_cursor, text); INSTALL_CURSOR (nontext_cursor, nontext); INSTALL_CURSOR (hourglass_cursor, hourglass); INSTALL_CURSOR (modeline_cursor, mode); INSTALL_CURSOR (hand_cursor, hand); INSTALL_CURSOR (horizontal_drag_cursor, horizontal_drag); INSTALL_CURSOR (vertical_drag_cursor, vertical_drag); INSTALL_CURSOR (left_edge_cursor, left_edge); INSTALL_CURSOR (top_left_corner_cursor, top_left_corner); INSTALL_CURSOR (top_edge_cursor, top_edge); INSTALL_CURSOR (top_right_corner_cursor, top_right_corner); INSTALL_CURSOR (right_edge_cursor, right_edge); INSTALL_CURSOR (bottom_right_corner_cursor, bottom_right_corner); INSTALL_CURSOR (bottom_edge_cursor, bottom_edge); INSTALL_CURSOR (bottom_left_corner_cursor, bottom_left_corner); #undef INSTALL_CURSOR XFlush (dpy); unblock_input (); update_face_from_frame_parameter (f, Qmouse_color, arg); } static void x_set_cursor_color (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { unsigned long fore_pixel, pixel; bool fore_pixel_allocated_p = false, pixel_allocated_p = false; struct x_output *x = f->output_data.x; if (!NILP (Vx_cursor_fore_pixel)) { fore_pixel = x_decode_color (f, Vx_cursor_fore_pixel, WHITE_PIX_DEFAULT (f)); fore_pixel_allocated_p = true; } else fore_pixel = FRAME_BACKGROUND_PIXEL (f); pixel = x_decode_color (f, arg, BLACK_PIX_DEFAULT (f)); pixel_allocated_p = true; /* Make sure that the cursor color differs from the background color. */ if (pixel == FRAME_BACKGROUND_PIXEL (f)) { if (pixel_allocated_p) { x_free_colors (f, &pixel, 1); pixel_allocated_p = false; } pixel = x->mouse_pixel; if (pixel == fore_pixel) { if (fore_pixel_allocated_p) { x_free_colors (f, &fore_pixel, 1); fore_pixel_allocated_p = false; } fore_pixel = FRAME_BACKGROUND_PIXEL (f); } } unload_color (f, x->cursor_foreground_pixel); if (!fore_pixel_allocated_p) fore_pixel = x_copy_color (f, fore_pixel); x->cursor_foreground_pixel = fore_pixel; unload_color (f, x->cursor_pixel); if (!pixel_allocated_p) pixel = x_copy_color (f, pixel); x->cursor_pixel = pixel; if (FRAME_X_WINDOW (f) != 0) { block_input (); XSetBackground (FRAME_X_DISPLAY (f), x->cursor_gc, x->cursor_pixel); XSetForeground (FRAME_X_DISPLAY (f), x->cursor_gc, fore_pixel); unblock_input (); if (FRAME_VISIBLE_P (f)) { gui_update_cursor (f, false); gui_update_cursor (f, true); } } update_face_from_frame_parameter (f, Qcursor_color, arg); } /* Set the border-color of frame F to pixel value PIX. Note that this does not fully take effect if done before F has an x-window. */ static void x_set_border_pixel (struct frame *f, int pix) { unload_color (f, f->output_data.x->border_pixel); f->output_data.x->border_pixel = pix; if (FRAME_X_WINDOW (f) != 0 && f->border_width > 0) { block_input (); XSetWindowBorder (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), pix); unblock_input (); if (FRAME_VISIBLE_P (f)) redraw_frame (f); } } /* Set the border-color of frame F to value described by ARG. ARG can be a string naming a color. The border-color is used for the border that is drawn by the X server. Note that this does not fully take effect if done before F has an x-window; it must be redone when the window is created. Note: this is done in two routines because of the way X10 works. Note: under X11, this is normally the province of the window manager, and so emacs's border colors may be overridden. */ static void x_set_border_color (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { int pix; CHECK_STRING (arg); pix = x_decode_color (f, arg, BLACK_PIX_DEFAULT (f)); x_set_border_pixel (f, pix); update_face_from_frame_parameter (f, Qborder_color, arg); } static void x_set_cursor_type (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { set_frame_cursor_types (f, arg); } static void x_set_icon_type (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { bool result; if (STRINGP (arg)) { if (STRINGP (oldval) && EQ (Fstring_equal (oldval, arg), Qt)) return; } else if (!STRINGP (oldval) && NILP (oldval) == NILP (arg)) return; block_input (); if (NILP (arg)) result = x_text_icon (f, SSDATA ((!NILP (f->icon_name) ? f->icon_name : f->name))); else result = FRAME_TERMINAL (f)->set_bitmap_icon_hook (f, arg); if (result) { unblock_input (); error ("No icon window available"); } XFlush (FRAME_X_DISPLAY (f)); unblock_input (); } static void x_set_icon_name (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { bool result; if (STRINGP (arg)) { if (STRINGP (oldval) && EQ (Fstring_equal (oldval, arg), Qt)) return; } else if (!NILP (arg) || NILP (oldval)) return; fset_icon_name (f, arg); if (f->output_data.x->icon_bitmap != 0) return; block_input (); result = x_text_icon (f, SSDATA ((!NILP (f->icon_name) ? f->icon_name : !NILP (f->title) ? f->title : f->name))); if (result) { unblock_input (); error ("No icon window available"); } XFlush (FRAME_X_DISPLAY (f)); unblock_input (); } static void x_set_menu_bar_lines (struct frame *f, Lisp_Object value, Lisp_Object oldval) { int nlines; #if ! defined (USE_X_TOOLKIT) && ! defined (USE_GTK) int olines = FRAME_MENU_BAR_LINES (f); #endif /* Right now, menu bars don't work properly in minibuf-only frames; most of the commands try to apply themselves to the minibuffer frame itself, and get an error because you can't switch buffers in or split the minibuffer window. */ if (FRAME_MINIBUF_ONLY_P (f) || FRAME_PARENT_FRAME (f)) return; if (TYPE_RANGED_FIXNUMP (int, value)) nlines = XFIXNUM (value); else nlines = 0; /* Make sure we redisplay all windows in this frame. */ fset_redisplay (f); #if defined (USE_X_TOOLKIT) || defined (USE_GTK) FRAME_MENU_BAR_LINES (f) = 0; FRAME_MENU_BAR_HEIGHT (f) = 0; if (nlines) { FRAME_EXTERNAL_MENU_BAR (f) = 1; if (FRAME_X_P (f) && f->output_data.x->menubar_widget == 0) /* Make sure next redisplay shows the menu bar. */ XWINDOW (FRAME_SELECTED_WINDOW (f))->update_mode_line = true; } else { if (FRAME_EXTERNAL_MENU_BAR (f) == 1) free_frame_menubar (f); FRAME_EXTERNAL_MENU_BAR (f) = 0; if (FRAME_X_P (f)) f->output_data.x->menubar_widget = 0; } #else /* not USE_X_TOOLKIT && not USE_GTK */ FRAME_MENU_BAR_LINES (f) = nlines; FRAME_MENU_BAR_HEIGHT (f) = nlines * FRAME_LINE_HEIGHT (f); adjust_frame_size (f, -1, -1, 2, true, Qx_set_menu_bar_lines); if (FRAME_X_WINDOW (f)) x_clear_under_internal_border (f); /* If the menu bar height gets changed, the internal border below the top margin has to be cleared. Also, if the menu bar gets larger, the area for the added lines has to be cleared except for the first menu bar line that is to be drawn later. */ if (nlines != olines) { int height = FRAME_INTERNAL_BORDER_WIDTH (f); int width = FRAME_PIXEL_WIDTH (f); int y; /* height can be zero here. */ if (FRAME_X_WINDOW (f) && height > 0 && width > 0) { y = FRAME_TOP_MARGIN_HEIGHT (f); block_input (); x_clear_area (f, 0, y, width, height); unblock_input (); } if (nlines > 1 && nlines > olines) { y = (olines == 0 ? 1 : olines) * FRAME_LINE_HEIGHT (f); height = nlines * FRAME_LINE_HEIGHT (f) - y; block_input (); x_clear_area (f, 0, y, width, height); unblock_input (); } if (nlines == 0 && WINDOWP (f->menu_bar_window)) clear_glyph_matrix (XWINDOW (f->menu_bar_window)->current_matrix); } #endif /* not USE_X_TOOLKIT && not USE_GTK */ adjust_frame_glyphs (f); } /* Set the number of lines used for the tab bar of frame F to VALUE. VALUE not an integer, or < 0 means set the lines to zero. OLDVAL is the old number of tab bar lines. This function changes the height of all windows on frame F to match the new tab bar height. The frame's height doesn't change. */ static void x_set_tab_bar_lines (struct frame *f, Lisp_Object value, Lisp_Object oldval) { int nlines; /* Treat tab bars like menu bars. */ if (FRAME_MINIBUF_ONLY_P (f)) return; /* Use VALUE only if an int >= 0. */ if (RANGED_FIXNUMP (0, value, INT_MAX)) nlines = XFIXNAT (value); else nlines = 0; x_change_tab_bar_height (f, nlines * FRAME_LINE_HEIGHT (f)); } /* Set the pixel height of the tab bar of frame F to HEIGHT. */ void x_change_tab_bar_height (struct frame *f, int height) { int unit = FRAME_LINE_HEIGHT (f); int old_height = FRAME_TAB_BAR_HEIGHT (f); int lines = (height + unit - 1) / unit; Lisp_Object fullscreen; /* Make sure we redisplay all windows in this frame. */ fset_redisplay (f); /* Recalculate tab bar and frame text sizes. */ FRAME_TAB_BAR_HEIGHT (f) = height; FRAME_TAB_BAR_LINES (f) = lines; /* Store the `tab-bar-lines' and `height' frame parameters. */ store_frame_param (f, Qtab_bar_lines, make_fixnum (lines)); store_frame_param (f, Qheight, make_fixnum (FRAME_LINES (f))); /* We also have to make sure that the internal border at the top of the frame, below the menu bar or tab bar, is redrawn when the tab bar disappears. This is so because the internal border is below the tab bar if one is displayed, but is below the menu bar if there isn't a tab bar. The tab bar draws into the area below the menu bar. */ if (FRAME_X_WINDOW (f) && FRAME_TAB_BAR_HEIGHT (f) == 0) { clear_frame (f); clear_current_matrices (f); } if ((height < old_height) && WINDOWP (f->tab_bar_window)) clear_glyph_matrix (XWINDOW (f->tab_bar_window)->current_matrix); /* Recalculate tabbar height. */ f->n_tab_bar_rows = 0; if (old_height == 0 && (!f->after_make_frame || NILP (frame_inhibit_implied_resize) || (CONSP (frame_inhibit_implied_resize) && NILP (Fmemq (Qtab_bar_lines, frame_inhibit_implied_resize))))) f->tab_bar_redisplayed = f->tab_bar_resized = false; adjust_frame_size (f, -1, -1, ((!f->tab_bar_resized && (NILP (fullscreen = get_frame_param (f, Qfullscreen)) || EQ (fullscreen, Qfullwidth))) ? 1 : (old_height == 0 || height == 0) ? 2 : 4), false, Qtab_bar_lines); f->tab_bar_resized = f->tab_bar_redisplayed; /* adjust_frame_size might not have done anything, garbage frame here. */ adjust_frame_glyphs (f); SET_FRAME_GARBAGED (f); if (FRAME_X_WINDOW (f)) x_clear_under_internal_border (f); } /* Set the number of lines used for the tool bar of frame F to VALUE. VALUE not an integer, or < 0 means set the lines to zero. OLDVAL is the old number of tool bar lines. This function changes the height of all windows on frame F to match the new tool bar height. The frame's height doesn't change. */ static void x_set_tool_bar_lines (struct frame *f, Lisp_Object value, Lisp_Object oldval) { int nlines; /* Treat tool bars like menu bars. */ if (FRAME_MINIBUF_ONLY_P (f)) return; /* Use VALUE only if an int >= 0. */ if (RANGED_FIXNUMP (0, value, INT_MAX)) nlines = XFIXNAT (value); else nlines = 0; x_change_tool_bar_height (f, nlines * FRAME_LINE_HEIGHT (f)); } /* Set the pixel height of the tool bar of frame F to HEIGHT. */ void x_change_tool_bar_height (struct frame *f, int height) { #ifdef USE_GTK FRAME_TOOL_BAR_LINES (f) = 0; FRAME_TOOL_BAR_HEIGHT (f) = 0; if (height) { FRAME_EXTERNAL_TOOL_BAR (f) = true; if (FRAME_X_P (f) && f->output_data.x->toolbar_widget == 0) /* Make sure next redisplay shows the tool bar. */ XWINDOW (FRAME_SELECTED_WINDOW (f))->update_mode_line = true; update_frame_tool_bar (f); } else { if (FRAME_EXTERNAL_TOOL_BAR (f)) free_frame_tool_bar (f); FRAME_EXTERNAL_TOOL_BAR (f) = false; } #else /* !USE_GTK */ int unit = FRAME_LINE_HEIGHT (f); int old_height = FRAME_TOOL_BAR_HEIGHT (f); int lines = (height + unit - 1) / unit; Lisp_Object fullscreen; /* Make sure we redisplay all windows in this frame. */ fset_redisplay (f); /* Recalculate tool bar and frame text sizes. */ FRAME_TOOL_BAR_HEIGHT (f) = height; FRAME_TOOL_BAR_LINES (f) = lines; /* Store the `tool-bar-lines' and `height' frame parameters. */ store_frame_param (f, Qtool_bar_lines, make_fixnum (lines)); store_frame_param (f, Qheight, make_fixnum (FRAME_LINES (f))); /* We also have to make sure that the internal border at the top of the frame, below the menu bar or tool bar, is redrawn when the tool bar disappears. This is so because the internal border is below the tool bar if one is displayed, but is below the menu bar if there isn't a tool bar. The tool bar draws into the area below the menu bar. */ if (FRAME_X_WINDOW (f) && FRAME_TOOL_BAR_HEIGHT (f) == 0) { clear_frame (f); clear_current_matrices (f); } if ((height < old_height) && WINDOWP (f->tool_bar_window)) clear_glyph_matrix (XWINDOW (f->tool_bar_window)->current_matrix); /* Recalculate toolbar height. */ f->n_tool_bar_rows = 0; if (old_height == 0 && (!f->after_make_frame || NILP (frame_inhibit_implied_resize) || (CONSP (frame_inhibit_implied_resize) && NILP (Fmemq (Qtool_bar_lines, frame_inhibit_implied_resize))))) f->tool_bar_redisplayed = f->tool_bar_resized = false; adjust_frame_size (f, -1, -1, ((!f->tool_bar_resized && (NILP (fullscreen = get_frame_param (f, Qfullscreen)) || EQ (fullscreen, Qfullwidth))) ? 1 : (old_height == 0 || height == 0) ? 2 : 4), false, Qtool_bar_lines); f->tool_bar_resized = f->tool_bar_redisplayed; /* adjust_frame_size might not have done anything, garbage frame here. */ adjust_frame_glyphs (f); SET_FRAME_GARBAGED (f); if (FRAME_X_WINDOW (f)) x_clear_under_internal_border (f); #endif /* USE_GTK */ } static void x_set_internal_border_width (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { int border = check_int_nonnegative (arg); if (border != FRAME_INTERNAL_BORDER_WIDTH (f)) { f->internal_border_width = border; #ifdef USE_X_TOOLKIT if (FRAME_X_OUTPUT (f)->edit_widget) widget_store_internal_border (FRAME_X_OUTPUT (f)->edit_widget); #endif if (FRAME_X_WINDOW (f)) { adjust_frame_size (f, -1, -1, 3, false, Qinternal_border_width); x_clear_under_internal_border (f); } } } /* Set the foreground color for scroll bars on frame F to VALUE. VALUE should be a string, a color name. If it isn't a string or isn't a valid color name, do nothing. OLDVAL is the old value of the frame parameter. */ static void x_set_scroll_bar_foreground (struct frame *f, Lisp_Object value, Lisp_Object oldval) { unsigned long pixel; if (STRINGP (value)) pixel = x_decode_color (f, value, BLACK_PIX_DEFAULT (f)); else pixel = -1; if (f->output_data.x->scroll_bar_foreground_pixel != -1) unload_color (f, f->output_data.x->scroll_bar_foreground_pixel); f->output_data.x->scroll_bar_foreground_pixel = pixel; if (FRAME_X_WINDOW (f) && FRAME_VISIBLE_P (f)) { /* Remove all scroll bars because they have wrong colors. */ if (FRAME_TERMINAL (f)->condemn_scroll_bars_hook) (*FRAME_TERMINAL (f)->condemn_scroll_bars_hook) (f); if (FRAME_TERMINAL (f)->judge_scroll_bars_hook) (*FRAME_TERMINAL (f)->judge_scroll_bars_hook) (f); update_face_from_frame_parameter (f, Qscroll_bar_foreground, value); redraw_frame (f); } } /* Set the background color for scroll bars on frame F to VALUE VALUE should be a string, a color name. If it isn't a string or isn't a valid color name, do nothing. OLDVAL is the old value of the frame parameter. */ static void x_set_scroll_bar_background (struct frame *f, Lisp_Object value, Lisp_Object oldval) { unsigned long pixel; if (STRINGP (value)) pixel = x_decode_color (f, value, WHITE_PIX_DEFAULT (f)); else pixel = -1; if (f->output_data.x->scroll_bar_background_pixel != -1) unload_color (f, f->output_data.x->scroll_bar_background_pixel); #if defined (USE_LUCID) && defined (USE_TOOLKIT_SCROLL_BARS) /* Scrollbar shadow colors. */ if (f->output_data.x->scroll_bar_top_shadow_pixel != -1) { unload_color (f, f->output_data.x->scroll_bar_top_shadow_pixel); f->output_data.x->scroll_bar_top_shadow_pixel = -1; } if (f->output_data.x->scroll_bar_bottom_shadow_pixel != -1) { unload_color (f, f->output_data.x->scroll_bar_bottom_shadow_pixel); f->output_data.x->scroll_bar_bottom_shadow_pixel = -1; } #endif /* USE_LUCID && USE_TOOLKIT_SCROLL_BARS */ f->output_data.x->scroll_bar_background_pixel = pixel; if (FRAME_X_WINDOW (f) && FRAME_VISIBLE_P (f)) { /* Remove all scroll bars because they have wrong colors. */ if (FRAME_TERMINAL (f)->condemn_scroll_bars_hook) (*FRAME_TERMINAL (f)->condemn_scroll_bars_hook) (f); if (FRAME_TERMINAL (f)->judge_scroll_bars_hook) (*FRAME_TERMINAL (f)->judge_scroll_bars_hook) (f); update_face_from_frame_parameter (f, Qscroll_bar_background, value); redraw_frame (f); } } /* Encode Lisp string STRING as a text in a format appropriate for XICCC (X Inter Client Communication Conventions). If STRING contains only ASCII characters, do no conversion and return the string data of STRING. Otherwise, encode the text by CODING_SYSTEM, and return a newly allocated memory area which should be freed by `xfree' by a caller. Store the byte length of resulting text in *TEXT_BYTES. If the text contains only ASCII and Latin-1, store true in *STRING_P, which means that the `encoding' of the result can be `STRING'. Otherwise store false in *STRINGP, which means that the `encoding' of the result should be `COMPOUND_TEXT'. */ static unsigned char * x_encode_text (Lisp_Object string, Lisp_Object coding_system, ptrdiff_t *text_bytes, bool *stringp, bool *freep) { int result = string_xstring_p (string); struct coding_system coding; if (result == 0) { /* No multibyte character in OBJ. We need not encode it. */ *text_bytes = SBYTES (string); *stringp = true; *freep = false; return SDATA (string); } setup_coding_system (coding_system, &coding); coding.mode |= (CODING_MODE_SAFE_ENCODING | CODING_MODE_LAST_BLOCK); /* We suppress producing escape sequences for composition. */ coding.common_flags &= ~CODING_ANNOTATION_MASK; coding.destination = xnmalloc (SCHARS (string), 2); coding.dst_bytes = SCHARS (string) * 2; encode_coding_object (&coding, string, 0, 0, SCHARS (string), SBYTES (string), Qnil); *text_bytes = coding.produced; *stringp = (result == 1 || !EQ (coding_system, Qcompound_text)); *freep = true; return coding.destination; } /* Set the WM name to NAME for frame F. Also set the icon name. If the frame already has an icon name, use that, otherwise set the icon name to NAME. */ static void x_set_name_internal (struct frame *f, Lisp_Object name) { if (FRAME_X_WINDOW (f)) { block_input (); { XTextProperty text, icon; ptrdiff_t bytes; bool stringp; bool do_free_icon_value = false, do_free_text_value = false; Lisp_Object coding_system; Lisp_Object encoded_name; Lisp_Object encoded_icon_name; /* As ENCODE_UTF_8 may cause GC and relocation of string data, we use it before x_encode_text that may return string data. */ encoded_name = ENCODE_UTF_8 (name); coding_system = Qcompound_text; /* Note: Encoding strategy We encode NAME by compound-text and use "COMPOUND-TEXT" in text.encoding. But, there are non-internationalized window managers which don't support that encoding. So, if NAME contains only ASCII and 8859-1 characters, encode it by iso-latin-1, and use "STRING" in text.encoding hoping that such window managers at least analyze this format correctly, i.e. treat 8-bit bytes as 8859-1 characters. We may also be able to use "UTF8_STRING" in text.encoding in the future which can encode all Unicode characters. But, for the moment, there's no way to know that the current window manager supports it or not. Either way, we also set the _NET_WM_NAME and _NET_WM_ICON_NAME properties. Per the EWMH specification, those two properties are always UTF8_STRING. This matches what gtk_window_set_title() does in the USE_GTK case. */ text.value = x_encode_text (name, coding_system, &bytes, &stringp, &do_free_text_value); text.encoding = (stringp ? XA_STRING : FRAME_DISPLAY_INFO (f)->Xatom_COMPOUND_TEXT); text.format = 8; text.nitems = bytes; if (!STRINGP (f->icon_name)) { icon = text; encoded_icon_name = encoded_name; } else { /* See the above comment "Note: Encoding strategy". */ icon.value = x_encode_text (f->icon_name, coding_system, &bytes, &stringp, &do_free_icon_value); icon.encoding = (stringp ? XA_STRING : FRAME_DISPLAY_INFO (f)->Xatom_COMPOUND_TEXT); icon.format = 8; icon.nitems = bytes; encoded_icon_name = ENCODE_UTF_8 (f->icon_name); } #ifdef USE_GTK gtk_window_set_title (GTK_WINDOW (FRAME_GTK_OUTER_WIDGET (f)), SSDATA (encoded_name)); #else /* not USE_GTK */ XSetWMName (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), &text); XChangeProperty (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), FRAME_DISPLAY_INFO (f)->Xatom_net_wm_name, FRAME_DISPLAY_INFO (f)->Xatom_UTF8_STRING, 8, PropModeReplace, SDATA (encoded_name), SBYTES (encoded_name)); #endif /* not USE_GTK */ XSetWMIconName (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), &icon); XChangeProperty (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), FRAME_DISPLAY_INFO (f)->Xatom_net_wm_icon_name, FRAME_DISPLAY_INFO (f)->Xatom_UTF8_STRING, 8, PropModeReplace, SDATA (encoded_icon_name), SBYTES (encoded_icon_name)); if (do_free_icon_value) xfree (icon.value); if (do_free_text_value) xfree (text.value); } unblock_input (); } } /* Change the name of frame F to NAME. If NAME is nil, set F's name to x_id_name. If EXPLICIT is true, that indicates that lisp code is setting the name; if NAME is a string, set F's name to NAME and set F->explicit_name; if NAME is Qnil, then clear F->explicit_name. If EXPLICIT is false, that indicates that Emacs redisplay code is suggesting a new name, which lisp code should override; if F->explicit_name is set, ignore the new name; otherwise, set it. */ static void x_set_name (struct frame *f, Lisp_Object name, bool explicit) { /* Make sure that requests from lisp code override requests from Emacs redisplay code. */ if (explicit) { /* If we're switching from explicit to implicit, we had better update the mode lines and thereby update the title. */ if (f->explicit_name && NILP (name)) update_mode_lines = 37; f->explicit_name = ! NILP (name); } else if (f->explicit_name) return; /* If NAME is nil, set the name to the x_id_name. */ if (NILP (name)) { /* Check for no change needed in this very common case before we do any consing. */ if (!strcmp (FRAME_DISPLAY_INFO (f)->x_id_name, SSDATA (f->name))) return; name = build_string (FRAME_DISPLAY_INFO (f)->x_id_name); } else CHECK_STRING (name); /* Don't change the name if it's already NAME. */ if (! NILP (Fstring_equal (name, f->name))) return; fset_name (f, name); /* For setting the frame title, the title parameter should override the name parameter. */ if (! NILP (f->title)) name = f->title; x_set_name_internal (f, name); } /* This function should be called when the user's lisp code has specified a name for the frame; the name will override any set by the redisplay code. */ static void x_explicitly_set_name (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { x_set_name (f, arg, true); } /* This function should be called by Emacs redisplay code to set the name; names set this way will never override names set by the user's lisp code. */ void x_implicitly_set_name (struct frame *f, Lisp_Object arg, Lisp_Object oldval) { x_set_name (f, arg, false); } /* Change the title of frame F to NAME. If NAME is nil, use the frame name as the title. */ static void x_set_title (struct frame *f, Lisp_Object name, Lisp_Object old_name) { /* Don't change the title if it's already NAME. */ if (EQ (name, f->title)) return; update_mode_lines = 38; fset_title (f, name); if (NILP (name)) name = f->name; else CHECK_STRING (name); x_set_name_internal (f, name); } void x_set_scroll_bar_default_width (struct frame *f) { int unit = FRAME_COLUMN_WIDTH (f); #ifdef USE_TOOLKIT_SCROLL_BARS #ifdef USE_GTK int minw = xg_get_default_scrollbar_width (f); #else int minw = 16; #endif /* A minimum width of 14 doesn't look good for toolkit scroll bars. */ FRAME_CONFIG_SCROLL_BAR_COLS (f) = (minw + unit - 1) / unit; FRAME_CONFIG_SCROLL_BAR_WIDTH (f) = minw; #else /* The width of a non-toolkit scrollbar is 14 pixels. */ FRAME_CONFIG_SCROLL_BAR_COLS (f) = (14 + unit - 1) / unit; FRAME_CONFIG_SCROLL_BAR_WIDTH (f) = FRAME_CONFIG_SCROLL_BAR_COLS (f) * unit; #endif } void x_set_scroll_bar_default_height (struct frame *f) { int height = FRAME_LINE_HEIGHT (f); #ifdef USE_TOOLKIT_SCROLL_BARS #ifdef USE_GTK int min_height = xg_get_default_scrollbar_height (f); #else int min_height = 16; #endif /* A minimum height of 14 doesn't look good for toolkit scroll bars. */ FRAME_CONFIG_SCROLL_BAR_HEIGHT (f) = min_height; FRAME_CONFIG_SCROLL_BAR_LINES (f) = (min_height + height - 1) / height; #else /* The height of a non-toolkit scrollbar is 14 pixels. */ FRAME_CONFIG_SCROLL_BAR_LINES (f) = (14 + height - 1) / height; /* Use all of that space (aside from required margins) for the scroll bar. */ FRAME_CONFIG_SCROLL_BAR_HEIGHT (f) = 14; #endif } /* Record in frame F the specified or default value according to ALIST of the parameter named PROP (a Lisp symbol). If no value is specified for PROP, look for an X default for XPROP on the frame named NAME. If that is not found either, use the value DEFLT. */ static Lisp_Object x_default_scroll_bar_color_parameter (struct frame *f, Lisp_Object alist, Lisp_Object prop, const char *xprop, const char *xclass, bool foreground_p) { struct x_display_info *dpyinfo = FRAME_DISPLAY_INFO (f); Lisp_Object tem; tem = gui_display_get_arg (dpyinfo, alist, prop, xprop, xclass, RES_TYPE_STRING); if (EQ (tem, Qunbound)) { #ifdef USE_TOOLKIT_SCROLL_BARS /* See if an X resource for the scroll bar color has been specified. */ AUTO_STRING (foreground, "foreground"); AUTO_STRING (background, "foreground"); AUTO_STRING (verticalScrollBar, "verticalScrollBar"); tem = (gui_display_get_resource (dpyinfo, foreground_p ? foreground : background, empty_unibyte_string, verticalScrollBar, empty_unibyte_string)); if (!STRINGP (tem)) { /* If nothing has been specified, scroll bars will use a toolkit-dependent default. Because these defaults are difficult to get at without actually creating a scroll bar, use nil to indicate that no color has been specified. */ tem = Qnil; } #else /* not USE_TOOLKIT_SCROLL_BARS */ tem = Qnil; #endif /* not USE_TOOLKIT_SCROLL_BARS */ } AUTO_FRAME_ARG (arg, prop, tem); gui_set_frame_parameters (f, arg); return tem; } #ifdef USE_X_TOOLKIT /* If the WM_PROTOCOLS property does not already contain WM_TAKE_FOCUS, WM_DELETE_WINDOW, and WM_SAVE_YOURSELF, then add them. (They may already be present because of the toolkit (Motif adds some of them, for example, but Xt doesn't). */ static void hack_wm_protocols (struct frame *f, Widget widget) { Display *dpy = XtDisplay (widget); Window w = XtWindow (widget); bool need_delete = true; bool need_focus = true; bool need_save = true; block_input (); { Atom type; unsigned char *catoms; int format = 0; unsigned long nitems = 0; unsigned long bytes_after; if ((XGetWindowProperty (dpy, w, FRAME_DISPLAY_INFO (f)->Xatom_wm_protocols, 0, 100, False, XA_ATOM, &type, &format, &nitems, &bytes_after, &catoms) == Success) && format == 32 && type == XA_ATOM) { Atom *atoms = (Atom *) catoms; while (nitems > 0) { nitems--; if (atoms[nitems] == FRAME_DISPLAY_INFO (f)->Xatom_wm_delete_window) need_delete = false; else if (atoms[nitems] == FRAME_DISPLAY_INFO (f)->Xatom_wm_take_focus) need_focus = false; else if (atoms[nitems] == FRAME_DISPLAY_INFO (f)->Xatom_wm_save_yourself) need_save = false; } } if (catoms) XFree (catoms); } { Atom props[10]; int count = 0; if (need_delete) props[count++] = FRAME_DISPLAY_INFO (f)->Xatom_wm_delete_window; if (need_focus) props[count++] = FRAME_DISPLAY_INFO (f)->Xatom_wm_take_focus; if (need_save) props[count++] = FRAME_DISPLAY_INFO (f)->Xatom_wm_save_yourself; if (count) XChangeProperty (dpy, w, FRAME_DISPLAY_INFO (f)->Xatom_wm_protocols, XA_ATOM, 32, PropModeAppend, (unsigned char *) props, count); } unblock_input (); } #endif /* Support routines for XIC (X Input Context). */ #ifdef HAVE_X_I18N static XFontSet xic_create_xfontset (struct frame *); static XIMStyle best_xim_style (XIMStyles *); #if defined HAVE_X_WINDOWS && defined USE_X_TOOLKIT /* Create an X fontset on frame F with base font name BASE_FONTNAME. */ static const char xic_default_fontset[] = "-*-*-*-r-normal--14-*-*-*-*-*-*-*"; /* Create an Xt fontset spec from the name of a base font. If `motif' is True use the Motif syntax. */ char * xic_create_fontsetname (const char *base_fontname, bool motif) { const char *sep = motif ? ";" : ","; char *fontsetname; char *z; /* Make a fontset name from the base font name. */ if (xic_default_fontset == base_fontname) { /* There is no base font name, use the default. */ fontsetname = xmalloc (strlen (base_fontname) + 2); z = stpcpy (fontsetname, base_fontname); } else { /* Make a fontset name from the base font name. The font set will be made of the following elements: - the base font. - the base font where the charset spec is replaced by -*-*. - the same but with the family also replaced with -*-*-. */ const char *p = base_fontname; ptrdiff_t i; for (i = 0; *p; p++) if (*p == '-') i++; if (i != 14) { /* As the font name doesn't conform to XLFD, we can't modify it to generalize it to allcs and allfamilies. Use the specified font plus the default. */ fontsetname = xmalloc (strlen (base_fontname) + strlen (xic_default_fontset) + 3); z = stpcpy (fontsetname, base_fontname); z = stpcpy (z, sep); z = stpcpy (z, xic_default_fontset); } else { ptrdiff_t len; const char *p1 = NULL, *p2 = NULL, *p3 = NULL; char *font_allcs = NULL; char *font_allfamilies = NULL; char *font_all = NULL; const char *allcs = "*-*-*-*-*-*-*"; const char *allfamilies = "-*-*-"; const char *all = "*-*-*-*-"; char *base; for (i = 0, p = base_fontname; i < 8; p++) { if (*p == '-') { i++; if (i == 3) p1 = p + 1; else if (i == 7) p2 = p + 1; else if (i == 6) p3 = p + 1; } } /* If base_fontname specifies ADSTYLE, make it a wildcard. */ if (*p3 != '*') { ptrdiff_t diff = (p2 - p3) - 2; base = alloca (strlen (base_fontname) + 1); memcpy (base, base_fontname, p3 - base_fontname); base[p3 - base_fontname] = '*'; base[(p3 - base_fontname) + 1] = '-'; strcpy (base + (p3 - base_fontname) + 2, p2); p = base + (p - base_fontname) - diff; p1 = base + (p1 - base_fontname); p2 = base + (p2 - base_fontname) - diff; base_fontname = base; } /* Build the font spec that matches all charsets. */ len = p - base_fontname + strlen (allcs) + 1; font_allcs = alloca (len); memcpy (font_allcs, base_fontname, p - base_fontname); strcpy (font_allcs + (p - base_fontname), allcs); /* Build the font spec that matches all families and add-styles. */ len = p - p1 + strlen (allcs) + strlen (allfamilies) + 1; font_allfamilies = alloca (len); strcpy (font_allfamilies, allfamilies); memcpy (font_allfamilies + strlen (allfamilies), p1, p - p1); strcpy (font_allfamilies + strlen (allfamilies) + (p - p1), allcs); /* Build the font spec that matches all. */ len = p - p2 + strlen (allcs) + strlen (all) + strlen (allfamilies) + 1; font_all = alloca (len); z = stpcpy (font_all, allfamilies); z = stpcpy (z, all); memcpy (z, p2, p - p2); strcpy (z + (p - p2), allcs); /* Build the actual font set name. */ len = strlen (base_fontname) + strlen (font_allcs) + strlen (font_allfamilies) + strlen (font_all) + 5; fontsetname = xmalloc (len); z = stpcpy (fontsetname, base_fontname); z = stpcpy (z, sep); z = stpcpy (z, font_allcs); z = stpcpy (z, sep); z = stpcpy (z, font_allfamilies); z = stpcpy (z, sep); z = stpcpy (z, font_all); } } if (motif) strcpy (z, ":"); return fontsetname; } #endif /* HAVE_X_WINDOWS && USE_X_TOOLKIT */ #ifdef DEBUG_XIC_FONTSET static void print_fontset_result (XFontSet xfs, char *name, char **missing_list, int missing_count) { if (xfs) fprintf (stderr, "XIC Fontset created: %s\n", name); else { fprintf (stderr, "XIC Fontset failed: %s\n", name); while (missing_count-- > 0) { fprintf (stderr, " missing: %s\n", *missing_list); missing_list++; } } } #endif static XFontSet xic_create_xfontset (struct frame *f) { XFontSet xfs = NULL; struct font *font = FRAME_FONT (f); int pixel_size = font->pixel_size; Lisp_Object rest, frame; /* See if there is another frame already using same fontset. */ FOR_EACH_FRAME (rest, frame) { struct frame *cf = XFRAME (frame); if (cf != f && FRAME_LIVE_P (f) && FRAME_X_P (cf) && FRAME_DISPLAY_INFO (cf) == FRAME_DISPLAY_INFO (f) && FRAME_FONT (f) && FRAME_FONT (f)->pixel_size == pixel_size) { xfs = FRAME_XIC_FONTSET (cf); break; } } if (! xfs) { char buf[256]; char **missing_list; int missing_count; char *def_string; const char *xlfd_format = "-*-*-medium-r-normal--%d-*-*-*-*-*"; sprintf (buf, xlfd_format, pixel_size); missing_list = NULL; xfs = XCreateFontSet (FRAME_X_DISPLAY (f), buf, &missing_list, &missing_count, &def_string); #ifdef DEBUG_XIC_FONTSET print_fontset_result (xfs, buf, missing_list, missing_count); #endif if (missing_list) XFreeStringList (missing_list); if (! xfs) { /* List of pixel sizes most likely available. Find one that is closest to pixel_size. */ int sizes[] = {0, 8, 10, 11, 12, 14, 17, 18, 20, 24, 26, 34, 0}; int *smaller, *larger; for (smaller = sizes; smaller[1]; smaller++) if (smaller[1] >= pixel_size) break; larger = smaller + 1; if (*larger == pixel_size) larger++; while (*smaller || *larger) { int this_size; if (! *larger) this_size = *smaller--; else if (! *smaller) this_size = *larger++; else if (pixel_size - *smaller < *larger - pixel_size) this_size = *smaller--; else this_size = *larger++; sprintf (buf, xlfd_format, this_size); missing_list = NULL; xfs = XCreateFontSet (FRAME_X_DISPLAY (f), buf, &missing_list, &missing_count, &def_string); #ifdef DEBUG_XIC_FONTSET print_fontset_result (xfs, buf, missing_list, missing_count); #endif if (missing_list) XFreeStringList (missing_list); if (xfs) break; } } if (! xfs) { const char *last_resort = "-*-*-*-r-normal--*-*-*-*-*-*"; missing_list = NULL; xfs = XCreateFontSet (FRAME_X_DISPLAY (f), last_resort, &missing_list, &missing_count, &def_string); #ifdef DEBUG_XIC_FONTSET print_fontset_result (xfs, last_resort, missing_list, missing_count); #endif if (missing_list) XFreeStringList (missing_list); } } return xfs; } /* Free the X fontset of frame F if it is the last frame using it. */ void xic_free_xfontset (struct frame *f) { Lisp_Object rest, frame; bool shared_p = false; if (!FRAME_XIC_FONTSET (f)) return; /* See if there is another frame sharing the same fontset. */ FOR_EACH_FRAME (rest, frame) { struct frame *cf = XFRAME (frame); if (cf != f && FRAME_LIVE_P (f) && FRAME_X_P (cf) && FRAME_DISPLAY_INFO (cf) == FRAME_DISPLAY_INFO (f) && FRAME_XIC_FONTSET (cf) == FRAME_XIC_FONTSET (f)) { shared_p = true; break; } } if (!shared_p) /* The fontset is not used anymore. It is safe to free it. */ XFreeFontSet (FRAME_X_DISPLAY (f), FRAME_XIC_FONTSET (f)); FRAME_XIC_FONTSET (f) = NULL; } /* Value is the best input style, given user preferences USER (already checked to be supported by Emacs), and styles supported by the input method XIM. */ static XIMStyle best_xim_style (XIMStyles *xim) { /* Return the default style. This is what GTK3 uses and should work fine with all modern input methods. */ return XIMPreeditNothing | XIMStatusNothing; } /* Create XIC for frame F. */ void create_frame_xic (struct frame *f) { XIM xim; XIC xic = NULL; XFontSet xfs = NULL; XVaNestedList status_attr = NULL; XVaNestedList preedit_attr = NULL; XRectangle s_area; XPoint spot; XIMStyle xic_style; if (FRAME_XIC (f)) goto out; xim = FRAME_X_XIM (f); if (!xim || ! FRAME_X_XIM_STYLES(f)) goto out; /* Determine XIC style. */ xic_style = best_xim_style (FRAME_X_XIM_STYLES (f)); /* Create X fontset. */ if (xic_style & (XIMPreeditPosition | XIMStatusArea)) { xfs = xic_create_xfontset (f); if (!xfs) goto out; FRAME_XIC_FONTSET (f) = xfs; } if (xic_style & XIMPreeditPosition) { spot.x = 0; spot.y = 1; preedit_attr = XVaCreateNestedList (0, XNFontSet, xfs, XNForeground, FRAME_FOREGROUND_PIXEL (f), XNBackground, FRAME_BACKGROUND_PIXEL (f), (xic_style & XIMPreeditPosition ? XNSpotLocation : NULL), &spot, NULL); if (!preedit_attr) goto out; } if (xic_style & XIMStatusArea) { s_area.x = 0; s_area.y = 0; s_area.width = 1; s_area.height = 1; status_attr = XVaCreateNestedList (0, XNArea, &s_area, XNFontSet, xfs, XNForeground, FRAME_FOREGROUND_PIXEL (f), XNBackground, FRAME_BACKGROUND_PIXEL (f), NULL); if (!status_attr) goto out; } if (preedit_attr && status_attr) xic = XCreateIC (xim, XNInputStyle, xic_style, XNClientWindow, FRAME_X_WINDOW (f), XNFocusWindow, FRAME_X_WINDOW (f), XNStatusAttributes, status_attr, XNPreeditAttributes, preedit_attr, NULL); else if (preedit_attr) xic = XCreateIC (xim, XNInputStyle, xic_style, XNClientWindow, FRAME_X_WINDOW (f), XNFocusWindow, FRAME_X_WINDOW (f), XNPreeditAttributes, preedit_attr, NULL); else if (status_attr) xic = XCreateIC (xim, XNInputStyle, xic_style, XNClientWindow, FRAME_X_WINDOW (f), XNFocusWindow, FRAME_X_WINDOW (f), XNStatusAttributes, status_attr, NULL); else xic = XCreateIC (xim, XNInputStyle, xic_style, XNClientWindow, FRAME_X_WINDOW (f), XNFocusWindow, FRAME_X_WINDOW (f), NULL); if (!xic) goto out; FRAME_XIC (f) = xic; FRAME_XIC_STYLE (f) = xic_style; xfs = NULL; /* Don't free below. */ out: if (xfs) free_frame_xic (f); if (preedit_attr) XFree (preedit_attr); if (status_attr) XFree (status_attr); } /* Destroy XIC and free XIC fontset of frame F, if any. */ void free_frame_xic (struct frame *f) { if (FRAME_XIC (f) == NULL) return; XDestroyIC (FRAME_XIC (f)); xic_free_xfontset (f); FRAME_XIC (f) = NULL; } /* Place preedit area for XIC of window W's frame to specified pixel position X/Y. X and Y are relative to window W. */ void xic_set_preeditarea (struct window *w, int x, int y) { struct frame *f = XFRAME (w->frame); XVaNestedList attr; XPoint spot; spot.x = WINDOW_TO_FRAME_PIXEL_X (w, x) + WINDOW_LEFT_FRINGE_WIDTH (w); spot.y = WINDOW_TO_FRAME_PIXEL_Y (w, y) + FONT_BASE (FRAME_FONT (f)); attr = XVaCreateNestedList (0, XNSpotLocation, &spot, NULL); XSetICValues (FRAME_XIC (f), XNPreeditAttributes, attr, NULL); XFree (attr); } /* Place status area for XIC in bottom right corner of frame F.. */ void xic_set_statusarea (struct frame *f) { XIC xic = FRAME_XIC (f); XVaNestedList attr; XRectangle area; XRectangle *needed; /* Negotiate geometry of status area. If input method has existing status area, use its current size. */ area.x = area.y = area.width = area.height = 0; attr = XVaCreateNestedList (0, XNAreaNeeded, &area, NULL); XSetICValues (xic, XNStatusAttributes, attr, NULL); XFree (attr); attr = XVaCreateNestedList (0, XNAreaNeeded, &needed, NULL); XGetICValues (xic, XNStatusAttributes, attr, NULL); XFree (attr); if (needed->width == 0) /* Use XNArea instead of XNAreaNeeded */ { attr = XVaCreateNestedList (0, XNArea, &needed, NULL); XGetICValues (xic, XNStatusAttributes, attr, NULL); XFree (attr); } area.width = needed->width; area.height = needed->height; area.x = FRAME_PIXEL_WIDTH (f) - area.width - FRAME_INTERNAL_BORDER_WIDTH (f); area.y = (FRAME_PIXEL_HEIGHT (f) - area.height - FRAME_MENUBAR_HEIGHT (f) - FRAME_TOOLBAR_TOP_HEIGHT (f) - FRAME_INTERNAL_BORDER_WIDTH (f)); XFree (needed); attr = XVaCreateNestedList (0, XNArea, &area, NULL); XSetICValues (xic, XNStatusAttributes, attr, NULL); XFree (attr); } /* Set X fontset for XIC of frame F, using base font name BASE_FONTNAME. Called when a new Emacs fontset is chosen. */ void xic_set_xfontset (struct frame *f, const char *base_fontname) { XVaNestedList attr; XFontSet xfs; xic_free_xfontset (f); xfs = xic_create_xfontset (f); attr = XVaCreateNestedList (0, XNFontSet, xfs, NULL); if (FRAME_XIC_STYLE (f) & XIMPreeditPosition) XSetICValues (FRAME_XIC (f), XNPreeditAttributes, attr, NULL); if (FRAME_XIC_STYLE (f) & XIMStatusArea) XSetICValues (FRAME_XIC (f), XNStatusAttributes, attr, NULL); XFree (attr); FRAME_XIC_FONTSET (f) = xfs; } #endif /* HAVE_X_I18N */ void x_mark_frame_dirty (struct frame *f) { if (FRAME_X_DOUBLE_BUFFERED_P (f) && !FRAME_X_NEED_BUFFER_FLIP (f)) FRAME_X_NEED_BUFFER_FLIP (f) = true; } static void set_up_x_back_buffer (struct frame *f) { #ifdef HAVE_XDBE block_input (); if (FRAME_X_WINDOW (f) && !FRAME_X_DOUBLE_BUFFERED_P (f)) { #ifdef USE_CAIRO x_cr_destroy_frame_context (f); #endif FRAME_X_RAW_DRAWABLE (f) = FRAME_X_WINDOW (f); if (FRAME_DISPLAY_INFO (f)->supports_xdbe) { /* If allocating a back buffer fails, either because the server ran out of memory or we don't have the right kind of visual, just use single-buffered rendering. */ x_catch_errors (FRAME_X_DISPLAY (f)); FRAME_X_RAW_DRAWABLE (f) = XdbeAllocateBackBufferName ( FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), XdbeCopied); if (x_had_errors_p (FRAME_X_DISPLAY (f))) FRAME_X_RAW_DRAWABLE (f) = FRAME_X_WINDOW (f); x_uncatch_errors_after_check (); } } unblock_input (); #endif } void tear_down_x_back_buffer (struct frame *f) { #ifdef HAVE_XDBE block_input (); if (FRAME_X_WINDOW (f) && FRAME_X_DOUBLE_BUFFERED_P (f)) { if (FRAME_X_DOUBLE_BUFFERED_P (f)) { #ifdef USE_CAIRO x_cr_destroy_frame_context (f); #endif XdbeDeallocateBackBufferName (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f)); FRAME_X_RAW_DRAWABLE (f) = FRAME_X_WINDOW (f); } } unblock_input (); #endif } /* Set up double buffering if the frame parameters don't prohibit it. */ void initial_set_up_x_back_buffer (struct frame *f) { block_input (); eassert (FRAME_X_WINDOW (f)); FRAME_X_RAW_DRAWABLE (f) = FRAME_X_WINDOW (f); if (NILP (CDR (Fassq (Qinhibit_double_buffering, f->param_alist)))) set_up_x_back_buffer (f); unblock_input (); } #ifdef USE_X_TOOLKIT /* Create and set up the X widget for frame F. */ static void x_window (struct frame *f, long window_prompting) { XClassHint class_hints; XSetWindowAttributes attributes; unsigned long attribute_mask; Widget shell_widget; Widget pane_widget; Widget frame_widget; Arg al[25]; int ac; block_input (); /* Use the resource name as the top-level widget name for looking up resources. Make a non-Lisp copy for the window manager, so GC relocation won't bother it. Elsewhere we specify the window name for the window manager. */ f->namebuf = xlispstrdup (Vx_resource_name); ac = 0; XtSetArg (al[ac], XtNallowShellResize, 1); ac++; XtSetArg (al[ac], XtNinput, 1); ac++; XtSetArg (al[ac], XtNmappedWhenManaged, 0); ac++; XtSetArg (al[ac], XtNborderWidth, f->border_width); ac++; XtSetArg (al[ac], XtNvisual, FRAME_X_VISUAL (f)); ac++; XtSetArg (al[ac], XtNdepth, FRAME_DISPLAY_INFO (f)->n_planes); ac++; XtSetArg (al[ac], XtNcolormap, FRAME_X_COLORMAP (f)); ac++; shell_widget = XtAppCreateShell (f->namebuf, EMACS_CLASS, applicationShellWidgetClass, FRAME_X_DISPLAY (f), al, ac); f->output_data.x->widget = shell_widget; /* maybe_set_screen_title_format (shell_widget); */ pane_widget = lw_create_widget ("main", "pane", widget_id_tick++, NULL, shell_widget, False, NULL, NULL, NULL, NULL); ac = 0; XtSetArg (al[ac], XtNvisual, FRAME_X_VISUAL (f)); ac++; XtSetArg (al[ac], XtNdepth, FRAME_DISPLAY_INFO (f)->n_planes); ac++; XtSetArg (al[ac], XtNcolormap, FRAME_X_COLORMAP (f)); ac++; XtSetArg (al[ac], XtNborderWidth, 0); ac++; XtSetValues (pane_widget, al, ac); f->output_data.x->column_widget = pane_widget; /* mappedWhenManaged to false tells to the paned window to not map/unmap the emacs screen when changing menubar. This reduces flickering. */ ac = 0; XtSetArg (al[ac], XtNmappedWhenManaged, 0); ac++; XtSetArg (al[ac], (char *) XtNshowGrip, 0); ac++; XtSetArg (al[ac], (char *) XtNallowResize, 1); ac++; XtSetArg (al[ac], (char *) XtNresizeToPreferred, 1); ac++; XtSetArg (al[ac], (char *) XtNemacsFrame, f); ac++; XtSetArg (al[ac], XtNvisual, FRAME_X_VISUAL (f)); ac++; XtSetArg (al[ac], XtNdepth, FRAME_DISPLAY_INFO (f)->n_planes); ac++; XtSetArg (al[ac], XtNcolormap, FRAME_X_COLORMAP (f)); ac++; XtSetArg (al[ac], XtNborderWidth, 0); ac++; frame_widget = XtCreateWidget (f->namebuf, emacsFrameClass (), pane_widget, al, ac); f->output_data.x->edit_widget = frame_widget; XtManageChild (frame_widget); /* Do some needed geometry management. */ { Arg gal[3]; int gac = 0; int extra_borders = 0; int menubar_size = (f->output_data.x->menubar_widget ? (f->output_data.x->menubar_widget->core.height + f->output_data.x->menubar_widget->core.border_width) : 0); #if false /* Experimentally, we now get the right results for -geometry -0-0 without this. 24 Aug 96, rms. */ if (FRAME_EXTERNAL_MENU_BAR (f)) { Dimension ibw = 0; XtVaGetValues (pane_widget, XtNinternalBorderWidth, &ibw, NULL); menubar_size += ibw; } #endif FRAME_MENUBAR_HEIGHT (f) = menubar_size; #ifndef USE_LUCID /* Motif seems to need this amount added to the sizes specified for the shell widget. The Athena/Lucid widgets don't. Both conclusions reached experimentally. -- rms. */ XtVaGetValues (f->output_data.x->edit_widget, XtNinternalBorderWidth, &extra_borders, NULL); extra_borders *= 2; #endif f->shell_position = xmalloc (sizeof "=x++" + 4 * INT_STRLEN_BOUND (int)); /* Convert our geometry parameters into a geometry string and specify it. Note that we do not specify here whether the position is a user-specified or program-specified one. We pass that information later, in x_wm_set_size_hint. */ { int left = f->left_pos; bool xneg = (window_prompting & XNegative) != 0; int top = f->top_pos; bool yneg = (window_prompting & YNegative) != 0; if (xneg) left = -left; if (yneg) top = -top; if (window_prompting & USPosition) sprintf (f->shell_position, "=%dx%d%c%d%c%d", FRAME_PIXEL_WIDTH (f) + extra_borders, FRAME_PIXEL_HEIGHT (f) + menubar_size + extra_borders, (xneg ? '-' : '+'), left, (yneg ? '-' : '+'), top); else { sprintf (f->shell_position, "=%dx%d", FRAME_PIXEL_WIDTH (f) + extra_borders, FRAME_PIXEL_HEIGHT (f) + menubar_size + extra_borders); /* Setting x and y when the position is not specified in the geometry string will set program position in the WM hints. If Emacs had just one program position, we could set it in fallback resources, but since each make-frame call can specify different program positions, this is easier. */ XtSetArg (gal[gac], XtNx, left); gac++; XtSetArg (gal[gac], XtNy, top); gac++; } } XtSetArg (gal[gac], XtNgeometry, f->shell_position); gac++; XtSetValues (shell_widget, gal, gac); } XtManageChild (pane_widget); XtRealizeWidget (shell_widget); if (FRAME_X_EMBEDDED_P (f)) XReparentWindow (FRAME_X_DISPLAY (f), XtWindow (shell_widget), f->output_data.x->parent_desc, 0, 0); FRAME_X_WINDOW (f) = XtWindow (frame_widget); initial_set_up_x_back_buffer (f); validate_x_resource_name (); class_hints.res_name = SSDATA (Vx_resource_name); class_hints.res_class = SSDATA (Vx_resource_class); XSetClassHint (FRAME_X_DISPLAY (f), XtWindow (shell_widget), &class_hints); #ifdef HAVE_X_I18N FRAME_XIC (f) = NULL; if (use_xim) create_frame_xic (f); #endif f->output_data.x->wm_hints.input = True; f->output_data.x->wm_hints.flags |= InputHint; XSetWMHints (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), &f->output_data.x->wm_hints); hack_wm_protocols (f, shell_widget); #ifdef X_TOOLKIT_EDITRES XtAddEventHandler (shell_widget, 0, True, _XEditResCheckMessages, 0); #endif /* Do a stupid property change to force the server to generate a PropertyNotify event so that the event_stream server timestamp will be initialized to something relevant to the time we created the window. */ XChangeProperty (XtDisplay (frame_widget), XtWindow (frame_widget), FRAME_DISPLAY_INFO (f)->Xatom_wm_protocols, XA_ATOM, 32, PropModeAppend, NULL, 0); /* Make all the standard events reach the Emacs frame. */ attributes.event_mask = STANDARD_EVENT_SET; #ifdef HAVE_X_I18N if (FRAME_XIC (f)) { /* XIM server might require some X events. */ unsigned long fevent = NoEventMask; XGetICValues (FRAME_XIC (f), XNFilterEvents, &fevent, NULL); attributes.event_mask |= fevent; } #endif /* HAVE_X_I18N */ attributes.override_redirect = FRAME_OVERRIDE_REDIRECT (f); attribute_mask = CWEventMask | CWOverrideRedirect; XChangeWindowAttributes (XtDisplay (shell_widget), XtWindow (shell_widget), attribute_mask, &attributes); XtMapWidget (frame_widget); /* x_set_name normally ignores requests to set the name if the requested name is the same as the current name. This is the one place where that assumption isn't correct; f->name is set, but the X server hasn't been told. */ { Lisp_Object name; bool explicit = f->explicit_name; f->explicit_name = false; name = f->name; fset_name (f, Qnil); x_set_name (f, name, explicit); } if (FRAME_UNDECORATED (f)) { Display *dpy = FRAME_X_DISPLAY (f); PropMotifWmHints hints; Atom prop = XInternAtom (dpy, "_MOTIF_WM_HINTS", False); memset (&hints, 0, sizeof(hints)); hints.flags = MWM_HINTS_DECORATIONS; hints.decorations = 0; /* For some reason the third and fourth arguments in the following call must be identical: In the corresponding XGetWindowProperty call in getMotifHints, xfwm has the third and seventh args both display_info->atoms[MOTIF_WM_HINTS]. Obviously, YMMV. */ XChangeProperty (dpy, FRAME_OUTER_WINDOW (f), prop, prop, 32, PropModeReplace, (unsigned char *) &hints, PROP_MOTIF_WM_HINTS_ELEMENTS); } XDefineCursor (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), f->output_data.x->current_cursor = f->output_data.x->text_cursor); unblock_input (); /* This is a no-op, except under Motif. Make sure main areas are set to something reasonable, in case we get an error later. */ lw_set_main_areas (pane_widget, 0, frame_widget); } #else /* not USE_X_TOOLKIT */ #ifdef USE_GTK static void x_window (struct frame *f) { if (! xg_create_frame_widgets (f)) error ("Unable to create window"); #ifdef HAVE_X_I18N FRAME_XIC (f) = NULL; if (use_xim) { block_input (); create_frame_xic (f); if (FRAME_XIC (f)) { /* XIM server might require some X events. */ unsigned long fevent = NoEventMask; XGetICValues (FRAME_XIC (f), XNFilterEvents, &fevent, NULL); if (fevent != NoEventMask) { XSetWindowAttributes attributes; XWindowAttributes wattr; unsigned long attribute_mask; XGetWindowAttributes (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), &wattr); attributes.event_mask = wattr.your_event_mask | fevent; attribute_mask = CWEventMask; XChangeWindowAttributes (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), attribute_mask, &attributes); } } unblock_input (); } #endif } #else /*! USE_GTK */ /* Create and set up the X window for frame F. */ static void x_window (struct frame *f) { XClassHint class_hints; XSetWindowAttributes attributes; unsigned long attribute_mask; attributes.background_pixel = FRAME_BACKGROUND_PIXEL (f); attributes.border_pixel = f->output_data.x->border_pixel; attributes.bit_gravity = StaticGravity; attributes.backing_store = NotUseful; attributes.save_under = True; attributes.event_mask = STANDARD_EVENT_SET; attributes.colormap = FRAME_X_COLORMAP (f); attributes.override_redirect = FRAME_OVERRIDE_REDIRECT (f); attribute_mask = (CWBackPixel | CWBorderPixel | CWBitGravity | CWEventMask | CWOverrideRedirect | CWColormap); block_input (); FRAME_X_WINDOW (f) = XCreateWindow (FRAME_X_DISPLAY (f), f->output_data.x->parent_desc, f->left_pos, f->top_pos, FRAME_PIXEL_WIDTH (f), FRAME_PIXEL_HEIGHT (f), f->border_width, CopyFromParent, /* depth */ InputOutput, /* class */ FRAME_X_VISUAL (f), attribute_mask, &attributes); initial_set_up_x_back_buffer (f); #ifdef HAVE_X_I18N if (use_xim) { create_frame_xic (f); if (FRAME_XIC (f)) { /* XIM server might require some X events. */ unsigned long fevent = NoEventMask; XGetICValues (FRAME_XIC (f), XNFilterEvents, &fevent, NULL); attributes.event_mask |= fevent; attribute_mask = CWEventMask; XChangeWindowAttributes (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), attribute_mask, &attributes); } } #endif /* HAVE_X_I18N */ validate_x_resource_name (); class_hints.res_name = SSDATA (Vx_resource_name); class_hints.res_class = SSDATA (Vx_resource_class); XSetClassHint (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), &class_hints); /* This indicates that we use the "Passive Input" input model. Unless we do this, we don't get the Focus{In,Out} events that we need to draw the cursor correctly. Accursed bureaucrats. XWhipsAndChains (FRAME_X_DISPLAY (f), IronMaiden, &TheRack); */ f->output_data.x->wm_hints.input = True; f->output_data.x->wm_hints.flags |= InputHint; XSetWMHints (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), &f->output_data.x->wm_hints); f->output_data.x->wm_hints.icon_pixmap = None; /* Request "save yourself" and "delete window" commands from wm. */ { Atom protocols[2]; protocols[0] = FRAME_DISPLAY_INFO (f)->Xatom_wm_delete_window; protocols[1] = FRAME_DISPLAY_INFO (f)->Xatom_wm_save_yourself; XSetWMProtocols (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), protocols, 2); } /* x_set_name normally ignores requests to set the name if the requested name is the same as the current name. This is the one place where that assumption isn't correct; f->name is set, but the X server hasn't been told. */ { Lisp_Object name; bool explicit = f->explicit_name; f->explicit_name = false; name = f->name; fset_name (f, Qnil); x_set_name (f, name, explicit); } if (FRAME_UNDECORATED (f)) { Display *dpy = FRAME_X_DISPLAY (f); PropMotifWmHints hints; Atom prop = XInternAtom (dpy, "_MOTIF_WM_HINTS", False); memset (&hints, 0, sizeof(hints)); hints.flags = MWM_HINTS_DECORATIONS; hints.decorations = 0; /* For some reason the third and fourth arguments in the following call must be identical: In the corresponding XGetWindowProperty call in getMotifHints, xfwm has the third and seventh args both display_info->atoms[MOTIF_WM_HINTS]. Obviously, YMMV. */ XChangeProperty (dpy, FRAME_OUTER_WINDOW (f), prop, prop, 32, PropModeReplace, (unsigned char *) &hints, PROP_MOTIF_WM_HINTS_ELEMENTS); } XDefineCursor (FRAME_X_DISPLAY (f), FRAME_X_WINDOW (f), f->output_data.x->current_cursor = f->output_data.x->text_cursor); unblock_input (); if (FRAME_X_WINDOW (f) == 0) error ("Unable to create window"); } #endif /* not USE_GTK */ #endif /* not USE_X_TOOLKIT */ /* Verify that the icon position args for this window are valid. */ static void x_icon_verify (struct frame *f, Lisp_Object parms) { Lisp_Object icon_x, icon_y; /* Set the position of the icon. Note that twm groups all icons in an icon window. */ icon_x = gui_frame_get_and_record_arg (f, parms, Qicon_left, 0, 0, RES_TYPE_NUMBER); icon_y = gui_frame_get_and_record_arg (f, parms, Qicon_top, 0, 0, RES_TYPE_NUMBER); if (!EQ (icon_x, Qunbound) && !EQ (icon_y, Qunbound)) { CHECK_FIXNUM (icon_x); CHECK_FIXNUM (icon_y); } else if (!EQ (icon_x, Qunbound) || !EQ (icon_y, Qunbound)) error ("Both left and top icon corners of icon must be specified"); } /* Handle the icon stuff for this window. Perhaps later we might want an x_set_icon_position which can be called interactively as well. */ static void x_icon (struct frame *f, Lisp_Object parms) { /* Set the position of the icon. Note that twm groups all icons in an icon window. */ Lisp_Object icon_x = gui_frame_get_and_record_arg (f, parms, Qicon_left, 0, 0, RES_TYPE_NUMBER); Lisp_Object icon_y = gui_frame_get_and_record_arg (f, parms, Qicon_top, 0, 0, RES_TYPE_NUMBER); int icon_xval, icon_yval; if (!EQ (icon_x, Qunbound) && !EQ (icon_y, Qunbound)) { icon_xval = check_integer_range (icon_x, INT_MIN, INT_MAX); icon_yval = check_integer_range (icon_y, INT_MIN, INT_MAX); } else if (!EQ (icon_x, Qunbound) || !EQ (icon_y, Qunbound)) error ("Both left and top icon corners of icon must be specified"); block_input (); if (! EQ (icon_x, Qunbound)) x_wm_set_icon_position (f, icon_xval, icon_yval); #if false /* gui_display_get_arg removes the visibility parameter as a side effect, but x_create_frame still needs it. */ /* Start up iconic or window? */ struct x_display_info *dpyinfo = FRAME_DISPLAY_INFO (f); x_wm_set_window_state (f, (EQ (gui_display_get_arg (dpyinfo, parms, Qvisibility, 0, 0, RES_TYPE_SYMBOL), Qicon) ? IconicState : NormalState)); #endif x_text_icon (f, SSDATA ((!NILP (f->icon_name) ? f->icon_name : f->name))); unblock_input (); } /* Make the GCs needed for this window, setting the background, border and mouse colors; also create the mouse cursor and the gray border tile. */ static void x_make_gc (struct frame *f) { XGCValues gc_values; block_input (); /* Create the GCs of this frame. Note that many default values are used. */ gc_values.foreground = FRAME_FOREGROUND_PIXEL (f); gc_values.background = FRAME_BACKGROUND_PIXEL (f); gc_values.line_width = 0; /* Means 1 using fast algorithm. */ f->output_data.x->normal_gc = XCreateGC (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f), GCLineWidth | GCForeground | GCBackground, &gc_values); /* Reverse video style. */ gc_values.foreground = FRAME_BACKGROUND_PIXEL (f); gc_values.background = FRAME_FOREGROUND_PIXEL (f); f->output_data.x->reverse_gc = XCreateGC (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f), GCForeground | GCBackground | GCLineWidth, &gc_values); /* Cursor has cursor-color background, background-color foreground. */ gc_values.foreground = FRAME_BACKGROUND_PIXEL (f); gc_values.background = f->output_data.x->cursor_pixel; gc_values.fill_style = FillOpaqueStippled; f->output_data.x->cursor_gc = XCreateGC (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f), (GCForeground | GCBackground | GCFillStyle | GCLineWidth), &gc_values); /* Create the gray border tile used when the pointer is not in the frame. Since this depends on the frame's pixel values, this must be done on a per-frame basis. */ f->output_data.x->border_tile = (XCreatePixmapFromBitmapData (FRAME_X_DISPLAY (f), FRAME_DISPLAY_INFO (f)->root_window, gray_bits, gray_width, gray_height, FRAME_FOREGROUND_PIXEL (f), FRAME_BACKGROUND_PIXEL (f), DefaultDepth (FRAME_X_DISPLAY (f), FRAME_X_SCREEN_NUMBER (f)))); unblock_input (); } /* Free what was allocated in x_make_gc. */ void x_free_gcs (struct frame *f) { Display *dpy = FRAME_X_DISPLAY (f); block_input (); if (f->output_data.x->normal_gc) { XFreeGC (dpy, f->output_data.x->normal_gc); f->output_data.x->normal_gc = 0; } if (f->output_data.x->reverse_gc) { XFreeGC (dpy, f->output_data.x->reverse_gc); f->output_data.x->reverse_gc = 0; } if (f->output_data.x->cursor_gc) { XFreeGC (dpy, f->output_data.x->cursor_gc); f->output_data.x->cursor_gc = 0; } if (f->output_data.x->border_tile) { XFreePixmap (dpy, f->output_data.x->border_tile); f->output_data.x->border_tile = 0; } unblock_input (); } /* Handler for signals raised during x_create_frame and Fx_create_tip_frame. FRAME is the frame which is partially constructed. */ static Lisp_Object unwind_create_frame (Lisp_Object frame) { struct frame *f = XFRAME (frame); /* If frame is already dead, nothing to do. This can happen if the display is disconnected after the frame has become official, but before Fx_create_frame removes the unwind protect. */ if (!FRAME_LIVE_P (f)) return Qnil; /* If frame is ``official'', nothing to do. */ if (NILP (Fmemq (frame, Vframe_list))) { #if defined GLYPH_DEBUG && defined ENABLE_CHECKING struct x_display_info *dpyinfo = FRAME_DISPLAY_INFO (f); #endif /* If the frame's image cache refcount is still the same as our private shadow variable, it means we are unwinding a frame for which we didn't yet call init_frame_faces, where the refcount is incremented. Therefore, we increment it here, so that free_frame_faces, called in x_free_frame_resources below, will not mistakenly decrement the counter that was not incremented yet to account for this new frame. */ if (FRAME_IMAGE_CACHE (f) != NULL && FRAME_IMAGE_CACHE (f)->refcount == image_cache_refcount) FRAME_IMAGE_CACHE (f)->refcount++; x_free_frame_resources (f); free_glyphs (f); #if defined GLYPH_DEBUG && defined ENABLE_CHECKING /* Check that reference counts are indeed correct. */ eassert (dpyinfo->reference_count == dpyinfo_refcount); eassert (dpyinfo->terminal->image_cache->refcount == image_cache_refcount); #endif return Qt; } return Qnil; } static void do_unwind_create_frame (Lisp_Object frame) { unwind_create_frame (frame); } void x_default_font_parameter (struct frame *f, Lisp_Object parms) { struct x_display_info *dpyinfo = FRAME_DISPLAY_INFO (f); Lisp_Object font_param = gui_display_get_arg (dpyinfo, parms, Qfont, NULL, NULL, RES_TYPE_STRING); Lisp_Object font = Qnil; if (EQ (font_param, Qunbound)) font_param = Qnil; if (NILP (font_param)) { /* System font should take precedence over X resources. We suggest this regardless of font-use-system-font because .emacs may not have been read yet. */ const char *system_font = xsettings_get_system_font (); if (system_font) font = font_open_by_name (f, build_unibyte_string (system_font)); } if (NILP (font)) font = !NILP (font_param) ? font_param : gui_display_get_arg (dpyinfo, parms, Qfont, "font", "Font", RES_TYPE_STRING); if (! FONTP (font) && ! STRINGP (font)) { const char *names[] = { #if defined USE_CAIRO || defined HAVE_XFT /* This will find the normal Xft font. */ "monospace-10", #endif "-adobe-courier-medium-r-*-*-*-120-*-*-*-*-iso8859-1", "-misc-fixed-medium-r-normal-*-*-140-*-*-c-*-iso8859-1", "-*-*-medium-r-normal-*-*-140-*-*-c-*-iso8859-1", /* This was formerly the first thing tried, but it finds too many fonts and takes too long. */ "-*-*-medium-r-*-*-*-*-*-*-c-*-iso8859-1", /* If those didn't work, look for something which will at least work. */ "-*-fixed-*-*-*-*-*-140-*-*-c-*-iso8859-1", "fixed", NULL }; int i; for (i = 0; names[i]; i++) { font = font_open_by_name (f, build_unibyte_string (names[i])); if (! NILP (font)) break; } if (NILP (font)) error ("No suitable font was found"); } else if (!NILP (font_param)) { /* Remember the explicit font parameter, so we can re-apply it after we've applied the `default' face settings. */ AUTO_FRAME_ARG (arg, Qfont_parameter, font_param); gui_set_frame_parameters (f, arg); } /* This call will make X resources override any system font setting. */ gui_default_parameter (f, parms, Qfont, font, "font", "Font", RES_TYPE_STRING); } DEFUN ("x-wm-set-size-hint", Fx_wm_set_size_hint, Sx_wm_set_size_hint, 0, 1, 0, doc: /* Send the size hints for frame FRAME to the window manager. If FRAME is omitted or nil, use the selected frame. Signal error if FRAME is not an X frame. */) (Lisp_Object frame) { struct frame *f = decode_window_system_frame (frame); block_input (); x_wm_set_size_hint (f, 0, false); unblock_input (); return Qnil; } static void set_machine_and_pid_properties (struct frame *f) { /* This will set WM_CLIENT_MACHINE and WM_LOCALE_NAME. */ XSetWMProperties (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), NULL, NULL, NULL, 0, NULL, NULL, NULL); pid_t pid = getpid (); if (pid <= 0xffffffffu) { unsigned long xpid = pid; XChangeProperty (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), XInternAtom (FRAME_X_DISPLAY (f), "_NET_WM_PID", False), XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &xpid, 1); } } DEFUN ("x-create-frame", Fx_create_frame, Sx_create_frame, 1, 1, 0, doc: /* Make a new X window, which is called a "frame" in Emacs terms. Return an Emacs frame object. PARMS is an alist of frame parameters. If the parameters specify that the frame should not have a minibuffer, and do not specify a specific minibuffer window to use, then `default-minibuffer-frame' must be a frame whose minibuffer can be shared by the new frame. This function is an internal primitive--use `make-frame' instead. */) (Lisp_Object parms) { struct frame *f; Lisp_Object frame, tem; Lisp_Object name; bool minibuffer_only = false; bool undecorated = false, override_redirect = false; long window_prompting = 0; ptrdiff_t count = SPECPDL_INDEX (); Lisp_Object display; struct x_display_info *dpyinfo = NULL; Lisp_Object parent, parent_frame; struct kboard *kb; int x_width = 0, x_height = 0; parms = Fcopy_alist (parms); /* Use this general default value to start with until we know if this frame has a specified name. */ Vx_resource_name = Vinvocation_name; display = gui_display_get_arg (dpyinfo, parms, Qterminal, 0, 0, RES_TYPE_NUMBER); if (EQ (display, Qunbound)) display = gui_display_get_arg (dpyinfo, parms, Qdisplay, 0, 0, RES_TYPE_STRING); if (EQ (display, Qunbound)) display = Qnil; dpyinfo = check_x_display_info (display); kb = dpyinfo->terminal->kboard; if (!dpyinfo->terminal->name) error ("Terminal is not live, can't create new frames on it"); name = gui_display_get_arg (dpyinfo, parms, Qname, "name", "Name", RES_TYPE_STRING); if (!STRINGP (name) && ! EQ (name, Qunbound) && ! NILP (name)) error ("Invalid frame name--not a string or nil"); if (STRINGP (name)) Vx_resource_name = name; /* See if parent window is specified. */ parent = gui_display_get_arg (dpyinfo, parms, Qparent_id, NULL, NULL, RES_TYPE_NUMBER); if (EQ (parent, Qunbound)) parent = Qnil; if (! NILP (parent)) CHECK_FIXNUM (parent); frame = Qnil; tem = gui_display_get_arg (dpyinfo, parms, Qminibuffer, "minibuffer", "Minibuffer", RES_TYPE_SYMBOL); if (EQ (tem, Qnone) || NILP (tem)) f = make_frame_without_minibuffer (Qnil, kb, display); else if (EQ (tem, Qonly)) { f = make_minibuffer_frame (); minibuffer_only = true; } else if (WINDOWP (tem)) f = make_frame_without_minibuffer (tem, kb, display); else f = make_frame (true); parent_frame = gui_display_get_arg (dpyinfo, parms, Qparent_frame, NULL, NULL, RES_TYPE_SYMBOL); /* Accept parent-frame iff parent-id was not specified. */ if (!NILP (parent) || EQ (parent_frame, Qunbound) || NILP (parent_frame) || !FRAMEP (parent_frame) || !FRAME_LIVE_P (XFRAME (parent_frame)) || !FRAME_X_P (XFRAME (parent_frame))) parent_frame = Qnil; fset_parent_frame (f, parent_frame); store_frame_param (f, Qparent_frame, parent_frame); if (!NILP (tem = (gui_display_get_arg (dpyinfo, parms, Qundecorated, NULL, NULL, RES_TYPE_BOOLEAN))) && !(EQ (tem, Qunbound))) undecorated = true; FRAME_UNDECORATED (f) = undecorated; store_frame_param (f, Qundecorated, undecorated ? Qt : Qnil); if (!NILP (tem = (gui_display_get_arg (dpyinfo, parms, Qoverride_redirect, NULL, NULL, RES_TYPE_BOOLEAN))) && !(EQ (tem, Qunbound))) override_redirect = true; FRAME_OVERRIDE_REDIRECT (f) = override_redirect; store_frame_param (f, Qoverride_redirect, override_redirect ? Qt : Qnil); XSETFRAME (frame, f); f->terminal = dpyinfo->terminal; f->output_method = output_x_window; f->output_data.x = xzalloc (sizeof *f->output_data.x); f->output_data.x->icon_bitmap = -1; FRAME_FONTSET (f) = -1; f->output_data.x->scroll_bar_foreground_pixel = -1; f->output_data.x->scroll_bar_background_pixel = -1; #if defined (USE_LUCID) && defined (USE_TOOLKIT_SCROLL_BARS) f->output_data.x->scroll_bar_top_shadow_pixel = -1; f->output_data.x->scroll_bar_bottom_shadow_pixel = -1; #endif /* USE_LUCID && USE_TOOLKIT_SCROLL_BARS */ f->output_data.x->white_relief.pixel = -1; f->output_data.x->black_relief.pixel = -1; fset_icon_name (f, gui_display_get_arg (dpyinfo, parms, Qicon_name, "iconName", "Title", RES_TYPE_STRING)); if (! STRINGP (f->icon_name)) fset_icon_name (f, Qnil); FRAME_DISPLAY_INFO (f) = dpyinfo; /* With FRAME_DISPLAY_INFO set up, this unwind-protect is safe. */ record_unwind_protect (do_unwind_create_frame, frame); /* These colors will be set anyway later, but it's important to get the color reference counts right, so initialize them! */ { Lisp_Object black; /* Function x_decode_color can signal an error. Make sure to initialize color slots so that we won't try to free colors we haven't allocated. */ FRAME_FOREGROUND_PIXEL (f) = -1; FRAME_BACKGROUND_PIXEL (f) = -1; f->output_data.x->cursor_pixel = -1; f->output_data.x->cursor_foreground_pixel = -1; f->output_data.x->border_pixel = -1; f->output_data.x->mouse_pixel = -1; black = build_string ("black"); FRAME_FOREGROUND_PIXEL (f) = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); FRAME_BACKGROUND_PIXEL (f) = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->cursor_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->cursor_foreground_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->border_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->mouse_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); } /* Specify the parent under which to make this X window. */ if (!NILP (parent)) { f->output_data.x->parent_desc = (Window) XFIXNAT (parent); f->output_data.x->explicit_parent = true; } else { f->output_data.x->parent_desc = FRAME_DISPLAY_INFO (f)->root_window; f->output_data.x->explicit_parent = false; } /* Set the name; the functions to which we pass f expect the name to be set. */ if (EQ (name, Qunbound) || NILP (name)) { fset_name (f, build_string (dpyinfo->x_id_name)); f->explicit_name = false; } else { fset_name (f, name); f->explicit_name = true; /* Use the frame's title when getting resources for this frame. */ specbind (Qx_resource_name, name); } #ifdef USE_CAIRO register_font_driver (&ftcrfont_driver, f); #ifdef HAVE_HARFBUZZ register_font_driver (&ftcrhbfont_driver, f); #endif /* HAVE_HARFBUZZ */ #else #ifdef HAVE_FREETYPE #ifdef HAVE_XFT register_font_driver (&xftfont_driver, f); #ifdef HAVE_HARFBUZZ register_font_driver (&xfthbfont_driver, f); #endif #endif /* not HAVE_XFT */ #endif /* HAVE_FREETYPE */ #endif /* not USE_CAIRO */ register_font_driver (&xfont_driver, f); image_cache_refcount = FRAME_IMAGE_CACHE (f) ? FRAME_IMAGE_CACHE (f)->refcount : 0; #ifdef GLYPH_DEBUG dpyinfo_refcount = dpyinfo->reference_count; #endif /* GLYPH_DEBUG */ gui_default_parameter (f, parms, Qfont_backend, Qnil, "fontBackend", "FontBackend", RES_TYPE_STRING); /* Extract the window parameters from the supplied values that are needed to determine window geometry. */ x_default_font_parameter (f, parms); if (!FRAME_FONT (f)) { delete_frame (frame, Qnoelisp); error ("Invalid frame font"); } /* Frame contents get displaced if an embedded X window has a border. */ if (! FRAME_X_EMBEDDED_P (f)) gui_default_parameter (f, parms, Qborder_width, make_fixnum (0), "borderWidth", "BorderWidth", RES_TYPE_NUMBER); /* This defaults to 1 in order to match xterm. We recognize either internalBorderWidth or internalBorder (which is what xterm calls it). */ if (NILP (Fassq (Qinternal_border_width, parms))) { Lisp_Object value; value = gui_display_get_arg (dpyinfo, parms, Qinternal_border_width, "internalBorder", "internalBorder", RES_TYPE_NUMBER); if (! EQ (value, Qunbound)) parms = Fcons (Fcons (Qinternal_border_width, value), parms); } gui_default_parameter (f, parms, Qinternal_border_width, #ifdef USE_GTK /* We used to impose 0 in xg_create_frame_widgets. */ make_fixnum (0), #else make_fixnum (1), #endif "internalBorderWidth", "internalBorderWidth", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qright_divider_width, make_fixnum (0), NULL, NULL, RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qbottom_divider_width, make_fixnum (0), NULL, NULL, RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qvertical_scroll_bars, #if defined (USE_GTK) && defined (USE_TOOLKIT_SCROLL_BARS) Qright, #else Qleft, #endif "verticalScrollBars", "ScrollBars", RES_TYPE_SYMBOL); gui_default_parameter (f, parms, Qhorizontal_scroll_bars, Qnil, "horizontalScrollBars", "ScrollBars", RES_TYPE_SYMBOL); /* Also do the stuff which must be set before the window exists. */ gui_default_parameter (f, parms, Qforeground_color, build_string ("black"), "foreground", "Foreground", RES_TYPE_STRING); gui_default_parameter (f, parms, Qbackground_color, build_string ("white"), "background", "Background", RES_TYPE_STRING); gui_default_parameter (f, parms, Qmouse_color, build_string ("black"), "pointerColor", "Foreground", RES_TYPE_STRING); gui_default_parameter (f, parms, Qborder_color, build_string ("black"), "borderColor", "BorderColor", RES_TYPE_STRING); gui_default_parameter (f, parms, Qscreen_gamma, Qnil, "screenGamma", "ScreenGamma", RES_TYPE_FLOAT); gui_default_parameter (f, parms, Qline_spacing, Qnil, "lineSpacing", "LineSpacing", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qleft_fringe, Qnil, "leftFringe", "LeftFringe", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qright_fringe, Qnil, "rightFringe", "RightFringe", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qno_special_glyphs, Qnil, NULL, NULL, RES_TYPE_BOOLEAN); x_default_scroll_bar_color_parameter (f, parms, Qscroll_bar_foreground, "scrollBarForeground", "ScrollBarForeground", true); x_default_scroll_bar_color_parameter (f, parms, Qscroll_bar_background, "scrollBarBackground", "ScrollBarBackground", false); /* Init faces before gui_default_parameter is called for the scroll-bar-width parameter because otherwise we end up in init_iterator with a null face cache, which should not happen. */ init_frame_faces (f); /* We have to call adjust_frame_size here since otherwise x_set_tool_bar_lines will already work with the character sizes installed by init_frame_faces while the frame's pixel size is still calculated from a character size of 1 and we subsequently hit the (height >= 0) assertion in window_box_height. The non-pixelwise code apparently worked around this because it had one frame line vs one toolbar line which left us with a zero root window height which was obviously wrong as well ... Also process `min-width' and `min-height' parameters right here because `frame-windows-min-size' needs them. */ tem = gui_display_get_arg (dpyinfo, parms, Qmin_width, NULL, NULL, RES_TYPE_NUMBER); if (FIXNUMP (tem)) store_frame_param (f, Qmin_width, tem); tem = gui_display_get_arg (dpyinfo, parms, Qmin_height, NULL, NULL, RES_TYPE_NUMBER); if (FIXNUMP (tem)) store_frame_param (f, Qmin_height, tem); adjust_frame_size (f, FRAME_COLS (f) * FRAME_COLUMN_WIDTH (f), FRAME_LINES (f) * FRAME_LINE_HEIGHT (f), 5, true, Qx_create_frame_1); /* Set the menu-bar-lines and tool-bar-lines parameters. We don't look up the X resources controlling the menu-bar and tool-bar here; they are processed specially at startup, and reflected in the values of the mode variables. */ gui_default_parameter (f, parms, Qmenu_bar_lines, NILP (Vmenu_bar_mode) ? make_fixnum (0) : make_fixnum (1), NULL, NULL, RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qtab_bar_lines, NILP (Vtab_bar_mode) ? make_fixnum (0) : make_fixnum (1), NULL, NULL, RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qtool_bar_lines, NILP (Vtool_bar_mode) ? make_fixnum (0) : make_fixnum (1), NULL, NULL, RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qbuffer_predicate, Qnil, "bufferPredicate", "BufferPredicate", RES_TYPE_SYMBOL); gui_default_parameter (f, parms, Qtitle, Qnil, "title", "Title", RES_TYPE_STRING); gui_default_parameter (f, parms, Qwait_for_wm, Qt, "waitForWM", "WaitForWM", RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qtool_bar_position, FRAME_TOOL_BAR_POSITION (f), 0, 0, RES_TYPE_SYMBOL); gui_default_parameter (f, parms, Qinhibit_double_buffering, Qnil, "inhibitDoubleBuffering", "InhibitDoubleBuffering", RES_TYPE_BOOLEAN); /* Compute the size of the X window. */ window_prompting = gui_figure_window_size (f, parms, true, true, &x_width, &x_height); tem = gui_display_get_arg (dpyinfo, parms, Qunsplittable, 0, 0, RES_TYPE_BOOLEAN); f->no_split = minibuffer_only || EQ (tem, Qt); x_icon_verify (f, parms); /* Create the X widget or window. */ #ifdef USE_X_TOOLKIT x_window (f, window_prompting); #else x_window (f); #endif x_icon (f, parms); x_make_gc (f); /* Now consider the frame official. */ f->terminal->reference_count++; FRAME_DISPLAY_INFO (f)->reference_count++; Vframe_list = Fcons (frame, Vframe_list); /* We need to do this after creating the X window, so that the icon-creation functions can say whose icon they're describing. */ gui_default_parameter (f, parms, Qicon_type, Qt, "bitmapIcon", "BitmapIcon", RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qauto_raise, Qnil, "autoRaise", "AutoRaiseLower", RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qauto_lower, Qnil, "autoLower", "AutoRaiseLower", RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qcursor_type, Qbox, "cursorType", "CursorType", RES_TYPE_SYMBOL); gui_default_parameter (f, parms, Qscroll_bar_width, Qnil, "scrollBarWidth", "ScrollBarWidth", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qscroll_bar_height, Qnil, "scrollBarHeight", "ScrollBarHeight", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qalpha, Qnil, "alpha", "Alpha", RES_TYPE_NUMBER); if (!NILP (parent_frame)) { struct frame *p = XFRAME (parent_frame); block_input (); XReparentWindow (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), FRAME_X_WINDOW (p), f->left_pos, f->top_pos); #ifdef USE_GTK if (EQ (x_gtk_resize_child_frames, Qresize_mode)) gtk_container_set_resize_mode (GTK_CONTAINER (FRAME_GTK_OUTER_WIDGET (f)), GTK_RESIZE_IMMEDIATE); #endif unblock_input (); } gui_default_parameter (f, parms, Qno_focus_on_map, Qnil, NULL, NULL, RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qno_accept_focus, Qnil, NULL, NULL, RES_TYPE_BOOLEAN); #if defined (USE_X_TOOLKIT) || defined (USE_GTK) /* Create the menu bar. */ if (!minibuffer_only && FRAME_EXTERNAL_MENU_BAR (f)) { /* If this signals an error, we haven't set size hints for the frame and we didn't make it visible. */ initialize_frame_menubar (f); #ifndef USE_GTK /* This is a no-op, except under Motif where it arranges the main window for the widgets on it. */ lw_set_main_areas (f->output_data.x->column_widget, f->output_data.x->menubar_widget, f->output_data.x->edit_widget); #endif /* not USE_GTK */ } #endif /* USE_X_TOOLKIT || USE_GTK */ /* Consider frame official, now. */ f->can_set_window_size = true; if (x_width > 0) SET_FRAME_WIDTH (f, x_width); if (x_height > 0) SET_FRAME_HEIGHT (f, x_height); /* Tell the server what size and position, etc, we want, and how badly we want them. This should be done after we have the menu bar so that its size can be taken into account. */ block_input (); x_wm_set_size_hint (f, window_prompting, false); unblock_input (); adjust_frame_size (f, FRAME_TEXT_WIDTH (f), FRAME_TEXT_HEIGHT (f), 0, true, Qx_create_frame_2); /* Process fullscreen parameter here in the hope that normalizing a fullheight/fullwidth frame will produce the size set by the last adjust_frame_size call. */ gui_default_parameter (f, parms, Qfullscreen, Qnil, "fullscreen", "Fullscreen", RES_TYPE_SYMBOL); /* Make the window appear on the frame and enable display, unless the caller says not to. However, with explicit parent, Emacs cannot control visibility, so don't try. */ if (!f->output_data.x->explicit_parent) { Lisp_Object visibility = gui_display_get_arg (dpyinfo, parms, Qvisibility, 0, 0, RES_TYPE_SYMBOL); if (EQ (visibility, Qicon)) x_iconify_frame (f); else { if (EQ (visibility, Qunbound)) visibility = Qt; if (!NILP (visibility)) x_make_frame_visible (f); } store_frame_param (f, Qvisibility, visibility); } block_input (); /* Set machine name and pid for the purpose of window managers. */ set_machine_and_pid_properties (f); /* Set the WM leader property. GTK does this itself, so this is not needed when using GTK. */ if (dpyinfo->client_leader_window != 0) { XChangeProperty (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), dpyinfo->Xatom_wm_client_leader, XA_WINDOW, 32, PropModeReplace, (unsigned char *) &dpyinfo->client_leader_window, 1); } unblock_input (); /* Works iff frame has been already mapped. */ gui_default_parameter (f, parms, Qskip_taskbar, Qnil, NULL, NULL, RES_TYPE_BOOLEAN); /* The `z-group' parameter works only for visible frames. */ gui_default_parameter (f, parms, Qz_group, Qnil, NULL, NULL, RES_TYPE_SYMBOL); /* Initialize `default-minibuffer-frame' in case this is the first frame on this terminal. */ if (FRAME_HAS_MINIBUF_P (f) && (!FRAMEP (KVAR (kb, Vdefault_minibuffer_frame)) || !FRAME_LIVE_P (XFRAME (KVAR (kb, Vdefault_minibuffer_frame))))) kset_default_minibuffer_frame (kb, frame); /* All remaining specified parameters, which have not been "used" by gui_display_get_arg and friends, now go in the misc. alist of the frame. */ for (tem = parms; CONSP (tem); tem = XCDR (tem)) if (CONSP (XCAR (tem)) && !NILP (XCAR (XCAR (tem)))) fset_param_alist (f, Fcons (XCAR (tem), f->param_alist)); /* Make sure windows on this frame appear in calls to next-window and similar functions. */ Vwindow_list = Qnil; return unbind_to (count, frame); } DEFUN ("xw-color-defined-p", Fxw_color_defined_p, Sxw_color_defined_p, 1, 2, 0, doc: /* Internal function called by `color-defined-p'. \(Note that the Nextstep version of this function ignores FRAME.) */) (Lisp_Object color, Lisp_Object frame) { XColor foo; struct frame *f = decode_window_system_frame (frame); CHECK_STRING (color); if (x_defined_color (f, SSDATA (color), &foo, false, false)) return Qt; else return Qnil; } DEFUN ("xw-color-values", Fxw_color_values, Sxw_color_values, 1, 2, 0, doc: /* Internal function called by `color-values'. \(Note that the Nextstep version of this function ignores FRAME.) */) (Lisp_Object color, Lisp_Object frame) { XColor foo; struct frame *f = decode_window_system_frame (frame); CHECK_STRING (color); if (x_defined_color (f, SSDATA (color), &foo, false, false)) return list3i (foo.red, foo.green, foo.blue); else return Qnil; } DEFUN ("xw-display-color-p", Fxw_display_color_p, Sxw_display_color_p, 0, 1, 0, doc: /* Internal function called by `display-color-p'. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); if (dpyinfo->n_planes <= 2) return Qnil; switch (dpyinfo->visual->class) { case StaticColor: case PseudoColor: case TrueColor: case DirectColor: return Qt; default: return Qnil; } } DEFUN ("x-display-grayscale-p", Fx_display_grayscale_p, Sx_display_grayscale_p, 0, 1, 0, doc: /* Return t if the X display supports shades of gray. Note that color displays do support shades of gray. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); if (dpyinfo->n_planes <= 1) return Qnil; switch (dpyinfo->visual->class) { case StaticColor: case PseudoColor: case TrueColor: case DirectColor: case StaticGray: case GrayScale: return Qt; default: return Qnil; } } DEFUN ("x-display-pixel-width", Fx_display_pixel_width, Sx_display_pixel_width, 0, 1, 0, doc: /* Return the width in pixels of the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) On \"multi-monitor\" setups this refers to the pixel width for all physical monitors associated with TERMINAL. To get information for each physical monitor, use `display-monitor-attributes-list'. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (x_display_pixel_width (dpyinfo)); } DEFUN ("x-display-pixel-height", Fx_display_pixel_height, Sx_display_pixel_height, 0, 1, 0, doc: /* Return the height in pixels of the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) On \"multi-monitor\" setups this refers to the pixel height for all physical monitors associated with TERMINAL. To get information for each physical monitor, use `display-monitor-attributes-list'. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (x_display_pixel_height (dpyinfo)); } DEFUN ("x-display-planes", Fx_display_planes, Sx_display_planes, 0, 1, 0, doc: /* Return the number of bitplanes of the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (dpyinfo->n_planes); } DEFUN ("x-display-color-cells", Fx_display_color_cells, Sx_display_color_cells, 0, 1, 0, doc: /* Return the number of color cells of the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); int nr_planes = DisplayPlanes (dpyinfo->display, XScreenNumberOfScreen (dpyinfo->screen)); /* Truncate nr_planes to 24 to avoid integer overflow. Some displays says 32, but only 24 bits are actually significant. There are only very few and rare video cards that have more than 24 significant bits. Also 24 bits is more than 16 million colors, it "should be enough for everyone". */ if (nr_planes > 24) nr_planes = 24; return make_fixnum (1 << nr_planes); } DEFUN ("x-server-max-request-size", Fx_server_max_request_size, Sx_server_max_request_size, 0, 1, 0, doc: /* Return the maximum request size of the X server of display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. On MS Windows, this function just returns 1. On Nextstep, this function just returns nil. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (MAXREQUEST (dpyinfo->display)); } DEFUN ("x-server-vendor", Fx_server_vendor, Sx_server_vendor, 0, 1, 0, doc: /* Return the "vendor ID" string of the GUI software on TERMINAL. \(Labeling every distributor as a "vendor" embodies the false assumption that operating systems cannot be developed and distributed noncommercially.) The optional argument TERMINAL specifies which display to ask about. For GNU and Unix systems, this queries the X server software. For MS Windows and Nextstep the result is hard-coded. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); const char *vendor = ServerVendor (dpyinfo->display); if (! vendor) vendor = ""; return build_string (vendor); } DEFUN ("x-server-version", Fx_server_version, Sx_server_version, 0, 1, 0, doc: /* Return the version numbers of the GUI software on TERMINAL. The value is a list of three integers specifying the version of the GUI software in use. For GNU and Unix system, the first 2 numbers are the version of the X Protocol used on TERMINAL and the 3rd number is the distributor-specific release number. For MS Windows, the 3 numbers report the OS major and minor version and build number. For Nextstep, the first 2 numbers are hard-coded and the 3rd represents the OS version. See also the function `x-server-vendor'. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); Display *dpy = dpyinfo->display; return list3i (ProtocolVersion (dpy), ProtocolRevision (dpy), VendorRelease (dpy)); } DEFUN ("x-display-screens", Fx_display_screens, Sx_display_screens, 0, 1, 0, doc: /* Return the number of screens on the X server of display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. On MS Windows, this function just returns 1. On Nextstep, "screen" is in X terminology, not that of Nextstep. For the number of physical monitors, use `(length \(display-monitor-attributes-list TERMINAL))' instead. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (ScreenCount (dpyinfo->display)); } DEFUN ("x-display-mm-height", Fx_display_mm_height, Sx_display_mm_height, 0, 1, 0, doc: /* Return the height in millimeters of the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) On \"multi-monitor\" setups this refers to the height in millimeters for all physical monitors associated with TERMINAL. To get information for each physical monitor, use `display-monitor-attributes-list'. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (HeightMMOfScreen (dpyinfo->screen)); } DEFUN ("x-display-mm-width", Fx_display_mm_width, Sx_display_mm_width, 0, 1, 0, doc: /* Return the width in millimeters of the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) On \"multi-monitor\" setups this refers to the width in millimeters for all physical monitors associated with TERMINAL. To get information for each physical monitor, use `display-monitor-attributes-list'. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); return make_fixnum (WidthMMOfScreen (dpyinfo->screen)); } DEFUN ("x-display-backing-store", Fx_display_backing_store, Sx_display_backing_store, 0, 1, 0, doc: /* Return an indication of whether X display TERMINAL does backing store. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. The value may be `always', `when-mapped', or `not-useful'. On Nextstep, the value may be `buffered', `retained', or `non-retained'. On MS Windows, this returns nothing useful. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); Lisp_Object result; switch (DoesBackingStore (dpyinfo->screen)) { case Always: result = intern ("always"); break; case WhenMapped: result = intern ("when-mapped"); break; case NotUseful: result = intern ("not-useful"); break; default: error ("Strange value for BackingStore parameter of screen"); } return result; } DEFUN ("x-display-visual-class", Fx_display_visual_class, Sx_display_visual_class, 0, 1, 0, doc: /* Return the visual class of the X display TERMINAL. The value is one of the symbols `static-gray', `gray-scale', `static-color', `pseudo-color', `true-color', or `direct-color'. \(On MS Windows, the second and last result above are not possible.) The optional argument TERMINAL specifies which display to ask about. TERMINAL should a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. \(On MS Windows, this function does not accept terminal objects.) */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); Lisp_Object result; switch (dpyinfo->visual->class) { case StaticGray: result = intern ("static-gray"); break; case GrayScale: result = intern ("gray-scale"); break; case StaticColor: result = intern ("static-color"); break; case PseudoColor: result = intern ("pseudo-color"); break; case TrueColor: result = intern ("true-color"); break; case DirectColor: result = intern ("direct-color"); break; default: error ("Display has an unknown visual class"); } return result; } DEFUN ("x-display-save-under", Fx_display_save_under, Sx_display_save_under, 0, 1, 0, doc: /* Return t if the X display TERMINAL supports the save-under feature. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. On MS Windows, this just returns nil. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); if (DoesSaveUnders (dpyinfo->screen) == True) return Qt; else return Qnil; } #if !defined USE_GTK || !defined HAVE_GTK3 /* Store the geometry of the workarea on display DPYINFO into *RECT. Return false if and only if the workarea information cannot be obtained via the _NET_WORKAREA root window property. */ static bool x_get_net_workarea (struct x_display_info *dpyinfo, XRectangle *rect) { Display *dpy = dpyinfo->display; long offset, max_len; Atom target_type, actual_type; unsigned long actual_size, bytes_remaining; int rc, actual_format; unsigned char *tmp_data = NULL; bool result = false; x_catch_errors (dpy); offset = 0; max_len = 1; target_type = XA_CARDINAL; rc = XGetWindowProperty (dpy, dpyinfo->root_window, dpyinfo->Xatom_net_current_desktop, offset, max_len, False, target_type, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); if (rc == Success && actual_type == target_type && !x_had_errors_p (dpy) && actual_format == 32 && actual_size == max_len) { long current_desktop = ((long *) tmp_data)[0]; XFree (tmp_data); tmp_data = NULL; offset = 4 * current_desktop; max_len = 4; rc = XGetWindowProperty (dpy, dpyinfo->root_window, dpyinfo->Xatom_net_workarea, offset, max_len, False, target_type, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); if (rc == Success && actual_type == target_type && !x_had_errors_p (dpy) && actual_format == 32 && actual_size == max_len) { long *values = (long *) tmp_data; rect->x = values[0]; rect->y = values[1]; rect->width = values[2]; rect->height = values[3]; XFree (tmp_data); tmp_data = NULL; result = true; } } if (tmp_data) XFree (tmp_data); x_uncatch_errors (); return result; } /* Return monitor number where F is "most" or closest to. */ static int x_get_monitor_for_frame (struct frame *f, struct MonitorInfo *monitors, int n_monitors) { XRectangle frect; int area = 0, dist = -1; int best_area = -1, best_dist = -1; int i; if (n_monitors == 1) return 0; frect.x = f->left_pos; frect.y = f->top_pos; frect.width = FRAME_PIXEL_WIDTH (f); frect.height = FRAME_PIXEL_HEIGHT (f); for (i = 0; i < n_monitors; ++i) { struct MonitorInfo *mi = &monitors[i]; XRectangle res; int a = 0; if (mi->geom.width == 0) continue; if (gui_intersect_rectangles (&mi->geom, &frect, &res)) { a = res.width * res.height; if (a > area) { area = a; best_area = i; } } if (a == 0 && area == 0) { int dx, dy, d; if (frect.x + frect.width < mi->geom.x) dx = mi->geom.x - frect.x + frect.width; else if (frect.x > mi->geom.x + mi->geom.width) dx = frect.x - mi->geom.x + mi->geom.width; else dx = 0; if (frect.y + frect.height < mi->geom.y) dy = mi->geom.y - frect.y + frect.height; else if (frect.y > mi->geom.y + mi->geom.height) dy = frect.y - mi->geom.y + mi->geom.height; else dy = 0; d = dx*dx + dy*dy; if (dist == -1 || dist > d) { dist = d; best_dist = i; } } } return best_area != -1 ? best_area : (best_dist != -1 ? best_dist : 0); } static Lisp_Object x_make_monitor_attribute_list (struct MonitorInfo *monitors, int n_monitors, int primary_monitor, struct x_display_info *dpyinfo, const char *source) { Lisp_Object monitor_frames = make_nil_vector (n_monitors); Lisp_Object frame, rest; FOR_EACH_FRAME (rest, frame) { struct frame *f = XFRAME (frame); if (FRAME_X_P (f) && FRAME_DISPLAY_INFO (f) == dpyinfo && !FRAME_TOOLTIP_P (f)) { int i = x_get_monitor_for_frame (f, monitors, n_monitors); ASET (monitor_frames, i, Fcons (frame, AREF (monitor_frames, i))); } } return make_monitor_attribute_list (monitors, n_monitors, primary_monitor, monitor_frames, source); } static Lisp_Object x_get_monitor_attributes_fallback (struct x_display_info *dpyinfo) { struct MonitorInfo monitor; XRectangle workarea_r; /* Fallback: treat (possibly) multiple physical monitors as if they formed a single monitor as a whole. This should provide a consistent result at least on single monitor environments. */ monitor.geom.x = monitor.geom.y = 0; monitor.geom.width = x_display_pixel_width (dpyinfo); monitor.geom.height = x_display_pixel_height (dpyinfo); monitor.mm_width = WidthMMOfScreen (dpyinfo->screen); monitor.mm_height = HeightMMOfScreen (dpyinfo->screen); monitor.name = xstrdup ("combined screen"); if (x_get_net_workarea (dpyinfo, &workarea_r)) monitor.work = workarea_r; else monitor.work = monitor.geom; return x_make_monitor_attribute_list (&monitor, 1, 0, dpyinfo, "fallback"); } #ifdef HAVE_XINERAMA static Lisp_Object x_get_monitor_attributes_xinerama (struct x_display_info *dpyinfo) { int n_monitors, i; Lisp_Object attributes_list = Qnil; Display *dpy = dpyinfo->display; XineramaScreenInfo *info = XineramaQueryScreens (dpy, &n_monitors); struct MonitorInfo *monitors; double mm_width_per_pixel, mm_height_per_pixel; if (! info || n_monitors == 0) { if (info) XFree (info); return attributes_list; } mm_width_per_pixel = ((double) WidthMMOfScreen (dpyinfo->screen) / x_display_pixel_width (dpyinfo)); mm_height_per_pixel = ((double) HeightMMOfScreen (dpyinfo->screen) / x_display_pixel_height (dpyinfo)); monitors = xzalloc (n_monitors * sizeof *monitors); for (i = 0; i < n_monitors; ++i) { struct MonitorInfo *mi = &monitors[i]; XRectangle workarea_r; mi->geom.x = info[i].x_org; mi->geom.y = info[i].y_org; mi->geom.width = info[i].width; mi->geom.height = info[i].height; mi->mm_width = mi->geom.width * mm_width_per_pixel + 0.5; mi->mm_height = mi->geom.height * mm_height_per_pixel + 0.5; mi->name = 0; /* Xinerama usually have primary monitor first, just use that. */ if (i == 0 && x_get_net_workarea (dpyinfo, &workarea_r)) { mi->work = workarea_r; if (! gui_intersect_rectangles (&mi->geom, &mi->work, &mi->work)) mi->work = mi->geom; } else mi->work = mi->geom; } XFree (info); attributes_list = x_make_monitor_attribute_list (monitors, n_monitors, 0, dpyinfo, "Xinerama"); free_monitors (monitors, n_monitors); return attributes_list; } #endif /* HAVE_XINERAMA */ #ifdef HAVE_XRANDR static Lisp_Object x_get_monitor_attributes_xrandr (struct x_display_info *dpyinfo) { Lisp_Object attributes_list = Qnil; XRRScreenResources *resources; Display *dpy = dpyinfo->display; int i, n_monitors, primary = -1; RROutput pxid = None; struct MonitorInfo *monitors; #define RANDR13_LIBRARY \ (RANDR_MAJOR > 1 || (RANDR_MAJOR == 1 && RANDR_MINOR >= 3)) #if RANDR13_LIBRARY /* Check if the display supports 1.3 too. */ bool randr13_avail = (dpyinfo->xrandr_major_version > 1 || (dpyinfo->xrandr_major_version == 1 && dpyinfo->xrandr_minor_version >= 3)); if (randr13_avail) resources = XRRGetScreenResourcesCurrent (dpy, dpyinfo->root_window); else resources = XRRGetScreenResources (dpy, dpyinfo->root_window); #else resources = XRRGetScreenResources (dpy, dpyinfo->root_window); #endif if (! resources || resources->noutput == 0) { if (resources) XRRFreeScreenResources (resources); return Qnil; } n_monitors = resources->noutput; monitors = xzalloc (n_monitors * sizeof *monitors); #if RANDR13_LIBRARY if (randr13_avail) pxid = XRRGetOutputPrimary (dpy, dpyinfo->root_window); #endif for (i = 0; i < n_monitors; ++i) { XRROutputInfo *info = XRRGetOutputInfo (dpy, resources, resources->outputs[i]); if (!info) continue; if (strcmp (info->name, "default") == 0) { /* Non XRandr 1.2 driver, does not give useful data. */ XRRFreeOutputInfo (info); XRRFreeScreenResources (resources); free_monitors (monitors, n_monitors); return Qnil; } if (info->connection != RR_Disconnected && info->crtc != None) { XRRCrtcInfo *crtc = XRRGetCrtcInfo (dpy, resources, info->crtc); struct MonitorInfo *mi = &monitors[i]; XRectangle workarea_r; if (! crtc) { XRRFreeOutputInfo (info); continue; } mi->geom.x = crtc->x; mi->geom.y = crtc->y; mi->geom.width = crtc->width; mi->geom.height = crtc->height; mi->mm_width = info->mm_width; mi->mm_height = info->mm_height; mi->name = xstrdup (info->name); if (pxid != None && pxid == resources->outputs[i]) primary = i; else if (primary == -1 && strcmp (info->name, "LVDS") == 0) primary = i; if (i == primary && x_get_net_workarea (dpyinfo, &workarea_r)) { mi->work= workarea_r; if (! gui_intersect_rectangles (&mi->geom, &mi->work, &mi->work)) mi->work = mi->geom; } else mi->work = mi->geom; XRRFreeCrtcInfo (crtc); } XRRFreeOutputInfo (info); } XRRFreeScreenResources (resources); attributes_list = x_make_monitor_attribute_list (monitors, n_monitors, primary, dpyinfo, "XRandr"); free_monitors (monitors, n_monitors); return attributes_list; } #endif /* HAVE_XRANDR */ static Lisp_Object x_get_monitor_attributes (struct x_display_info *dpyinfo) { Lisp_Object attributes_list = Qnil; Display *dpy = dpyinfo->display; (void) dpy; /* Suppress unused variable warning. */ #ifdef HAVE_XRANDR int xrr_event_base, xrr_error_base; bool xrr_ok = false; xrr_ok = XRRQueryExtension (dpy, &xrr_event_base, &xrr_error_base); if (xrr_ok) { XRRQueryVersion (dpy, &dpyinfo->xrandr_major_version, &dpyinfo->xrandr_minor_version); xrr_ok = ((dpyinfo->xrandr_major_version == 1 && dpyinfo->xrandr_minor_version >= 2) || dpyinfo->xrandr_major_version > 1); } if (xrr_ok) attributes_list = x_get_monitor_attributes_xrandr (dpyinfo); #endif /* HAVE_XRANDR */ #ifdef HAVE_XINERAMA if (NILP (attributes_list)) { int xin_event_base, xin_error_base; bool xin_ok = false; xin_ok = XineramaQueryExtension (dpy, &xin_event_base, &xin_error_base); if (xin_ok && XineramaIsActive (dpy)) attributes_list = x_get_monitor_attributes_xinerama (dpyinfo); } #endif /* HAVE_XINERAMA */ if (NILP (attributes_list)) attributes_list = x_get_monitor_attributes_fallback (dpyinfo); return attributes_list; } #endif /* !USE_GTK */ DEFUN ("x-display-monitor-attributes-list", Fx_display_monitor_attributes_list, Sx_display_monitor_attributes_list, 0, 1, 0, doc: /* Return a list of physical monitor attributes on the X display TERMINAL. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be a terminal object, a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. In addition to the standard attribute keys listed in `display-monitor-attributes-list', the following keys are contained in the attributes: source -- String describing the source from which multi-monitor information is obtained, one of \"Gdk\", \"XRandr\", \"Xinerama\", or \"fallback\" Internal use only, use `display-monitor-attributes-list' instead. */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); Lisp_Object attributes_list = Qnil; #ifdef USE_GTK GdkDisplay *gdpy; #if ! GTK_CHECK_VERSION (3, 22, 0) double mm_width_per_pixel, mm_height_per_pixel; GdkScreen *gscreen; #endif gint primary_monitor = 0, n_monitors, i; Lisp_Object monitor_frames, rest, frame; static const char *source = "Gdk"; struct MonitorInfo *monitors; block_input (); gdpy = gdk_x11_lookup_xdisplay (dpyinfo->display); #if GTK_CHECK_VERSION (3, 22, 0) n_monitors = gdk_display_get_n_monitors (gdpy); #else gscreen = gdk_display_get_default_screen (gdpy); n_monitors = gdk_screen_get_n_monitors (gscreen); primary_monitor = gdk_screen_get_primary_monitor (gscreen); /* Fallback if gdk_screen_get_monitor_{width,height}_mm fail */ mm_width_per_pixel = ((double) WidthMMOfScreen (dpyinfo->screen) / x_display_pixel_width (dpyinfo)); mm_height_per_pixel = ((double) HeightMMOfScreen (dpyinfo->screen) / x_display_pixel_height (dpyinfo)); #endif monitor_frames = make_nil_vector (n_monitors); monitors = xzalloc (n_monitors * sizeof *monitors); FOR_EACH_FRAME (rest, frame) { struct frame *f = XFRAME (frame); if (FRAME_X_P (f) && FRAME_DISPLAY_INFO (f) == dpyinfo && !FRAME_TOOLTIP_P (f)) { GdkWindow *gwin = gtk_widget_get_window (FRAME_GTK_WIDGET (f)); #if GTK_CHECK_VERSION (3, 22, 0) for (i = 0; i < n_monitors; i++) if (gdk_display_get_monitor_at_window (gdpy, gwin) == gdk_display_get_monitor (gdpy, i)) break; #else i = gdk_screen_get_monitor_at_window (gscreen, gwin); #endif ASET (monitor_frames, i, Fcons (frame, AREF (monitor_frames, i))); } } for (i = 0; i < n_monitors; ++i) { gint width_mm, height_mm; GdkRectangle rec, work; struct MonitorInfo *mi = &monitors[i]; int scale = 1; #if GTK_CHECK_VERSION (3, 22, 0) GdkMonitor *monitor = gdk_display_get_monitor (gdpy, i); if (gdk_monitor_is_primary (monitor)) primary_monitor = i; gdk_monitor_get_geometry (monitor, &rec); #else gdk_screen_get_monitor_geometry (gscreen, i, &rec); #endif #if GTK_CHECK_VERSION (3, 22, 0) width_mm = gdk_monitor_get_width_mm (monitor); height_mm = gdk_monitor_get_height_mm (monitor); #else width_mm = gdk_screen_get_monitor_width_mm (gscreen, i); height_mm = gdk_screen_get_monitor_height_mm (gscreen, i); if (width_mm < 0) width_mm = rec.width * mm_width_per_pixel + 0.5; if (height_mm < 0) height_mm = rec.height * mm_height_per_pixel + 0.5; #endif #if GTK_CHECK_VERSION (3, 22, 0) gdk_monitor_get_workarea (monitor, &work); #elif defined HAVE_GTK3 gdk_screen_get_monitor_workarea (gscreen, i, &work); #else /* Emulate the behavior of GTK+ 3.4. */ { XRectangle workarea_r; if (i == primary_monitor && x_get_net_workarea (dpyinfo, &workarea_r)) { work.x = workarea_r.x; work.y = workarea_r.y; work.width = workarea_r.width; work.height = workarea_r.height; if (! gdk_rectangle_intersect (&rec, &work, &work)) work = rec; } else work = rec; } #endif /* GTK returns scaled sizes for the workareas. */ #if GTK_CHECK_VERSION (3, 22, 0) scale = gdk_monitor_get_scale_factor (monitor); #elif defined HAVE_GTK3 scale = gdk_screen_get_monitor_scale_factor (gscreen, i); #endif rec.x *= scale; rec.y *= scale; rec.width *= scale; rec.height *= scale; work.x *= scale; work.y *= scale; work.width *= scale; work.height *= scale; mi->geom.x = rec.x; mi->geom.y = rec.y; mi->geom.width = rec.width; mi->geom.height = rec.height; mi->work.x = work.x; mi->work.y = work.y; mi->work.width = work.width; mi->work.height = work.height; mi->mm_width = width_mm; mi->mm_height = height_mm; #if GTK_CHECK_VERSION (3, 22, 0) dupstring (&mi->name, (gdk_monitor_get_model (monitor))); #else mi->name = gdk_screen_get_monitor_plug_name (gscreen, i); #endif } attributes_list = make_monitor_attribute_list (monitors, n_monitors, primary_monitor, monitor_frames, source); free_monitors (monitors, n_monitors); unblock_input (); #else /* not USE_GTK */ block_input (); attributes_list = x_get_monitor_attributes (dpyinfo); unblock_input (); #endif /* not USE_GTK */ return attributes_list; } /* Return geometric attributes of FRAME. According to the value of ATTRIBUTES return the outer edges of FRAME (Qouter_edges), the native edges of FRAME (Qnative_edges), or the inner edges of frame (Qinner_edges). Any other value means to return the geometry as returned by Fx_frame_geometry. */ static Lisp_Object frame_geometry (Lisp_Object frame, Lisp_Object attribute) { struct frame *f = decode_live_frame (frame); /** XWindowAttributes atts; **/ Window rootw; unsigned int ign, native_width, native_height, x_border_width = 0; int x_native = 0, y_native = 0, xptr = 0, yptr = 0; int left_off = 0, right_off = 0, top_off = 0, bottom_off = 0; int outer_left, outer_top, outer_right, outer_bottom; int native_left, native_top, native_right, native_bottom; int inner_left, inner_top, inner_right, inner_bottom; int internal_border_width; bool menu_bar_external = false, tool_bar_external = false; int menu_bar_height = 0, menu_bar_width = 0; int tab_bar_height = 0, tab_bar_width = 0; int tool_bar_height = 0, tool_bar_width = 0; if (FRAME_INITIAL_P (f) || !FRAME_X_P (f) || !FRAME_OUTER_WINDOW (f)) return Qnil; block_input (); XGetGeometry (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), &rootw, &x_native, &y_native, &native_width, &native_height, &x_border_width, &ign); /** XGetWindowAttributes (FRAME_X_DISPLAY (f), FRAME_OUTER_WINDOW (f), &atts); **/ if (!FRAME_PARENT_FRAME (f)) x_real_pos_and_offsets (f, &left_off, &right_off, &top_off, &bottom_off, NULL, NULL, &xptr, &yptr, NULL); unblock_input (); /** native_width = atts.width; **/ /** native_height = atts.height; **/ if (FRAME_PARENT_FRAME (f)) { Lisp_Object parent, edges; XSETFRAME (parent, FRAME_PARENT_FRAME (f)); edges = Fx_frame_edges (parent, Qnative_edges); if (!NILP (edges)) { x_native += XFIXNUM (Fnth (make_fixnum (0), edges)); y_native += XFIXNUM (Fnth (make_fixnum (1), edges)); } outer_left = x_native; outer_top = y_native; outer_right = outer_left + native_width + 2 * x_border_width; outer_bottom = outer_top + native_height + 2 * x_border_width; native_left = x_native + x_border_width; native_top = y_native + x_border_width; native_right = native_left + native_width; native_bottom = native_top + native_height; } else { outer_left = xptr; outer_top = yptr; outer_right = outer_left + left_off + native_width + right_off; outer_bottom = outer_top + top_off + native_height + bottom_off; native_left = outer_left + left_off; native_top = outer_top + top_off; native_right = native_left + native_width; native_bottom = native_top + native_height; } internal_border_width = FRAME_INTERNAL_BORDER_WIDTH (f); inner_left = native_left + internal_border_width; inner_top = native_top + internal_border_width; inner_right = native_right - internal_border_width; inner_bottom = native_bottom - internal_border_width; #ifdef HAVE_EXT_MENU_BAR menu_bar_external = true; menu_bar_height = FRAME_MENUBAR_HEIGHT (f); native_top += menu_bar_height; inner_top += menu_bar_height; #else menu_bar_height = FRAME_MENU_BAR_HEIGHT (f); inner_top += menu_bar_height; #endif menu_bar_width = menu_bar_height ? native_width : 0; tab_bar_height = FRAME_TAB_BAR_HEIGHT (f); tab_bar_width = (tab_bar_height ? native_width - 2 * internal_border_width : 0); inner_top += tab_bar_height; #ifdef HAVE_EXT_TOOL_BAR tool_bar_external = true; if (EQ (FRAME_TOOL_BAR_POSITION (f), Qleft)) { tool_bar_width = FRAME_TOOLBAR_WIDTH (f); native_left += tool_bar_width; inner_left += tool_bar_width; tool_bar_height = tool_bar_width ? native_height - menu_bar_height : 0; } else if (EQ (FRAME_TOOL_BAR_POSITION (f), Qtop)) { tool_bar_height = FRAME_TOOLBAR_HEIGHT (f); native_top += tool_bar_height; inner_top += tool_bar_height; tool_bar_width = tool_bar_height ? native_width : 0; } else if (EQ (FRAME_TOOL_BAR_POSITION (f), Qright)) { tool_bar_width = FRAME_TOOLBAR_WIDTH (f); native_right -= tool_bar_width; inner_right -= tool_bar_width; tool_bar_height = tool_bar_width ? native_height - menu_bar_height : 0; } else { tool_bar_height = FRAME_TOOLBAR_HEIGHT (f); native_bottom -= tool_bar_height; inner_bottom -= tool_bar_height; tool_bar_width = tool_bar_height ? native_width : 0; } #else tool_bar_height = FRAME_TOOL_BAR_HEIGHT (f); tool_bar_width = (tool_bar_height ? native_width - 2 * internal_border_width : 0); inner_top += tool_bar_height; #endif /* Construct list. */ if (EQ (attribute, Qouter_edges)) return list4i (outer_left, outer_top, outer_right, outer_bottom); else if (EQ (attribute, Qnative_edges)) return list4i (native_left, native_top, native_right, native_bottom); else if (EQ (attribute, Qinner_edges)) return list4i (inner_left, inner_top, inner_right, inner_bottom); else return list (Fcons (Qouter_position, Fcons (make_fixnum (outer_left), make_fixnum (outer_top))), Fcons (Qouter_size, Fcons (make_fixnum (outer_right - outer_left), make_fixnum (outer_bottom - outer_top))), /* Approximate. */ Fcons (Qexternal_border_size, Fcons (make_fixnum (right_off), make_fixnum (bottom_off))), Fcons (Qouter_border_width, make_fixnum (x_border_width)), /* Approximate. */ Fcons (Qtitle_bar_size, Fcons (make_fixnum (0), make_fixnum (top_off - bottom_off))), Fcons (Qmenu_bar_external, menu_bar_external ? Qt : Qnil), Fcons (Qmenu_bar_size, Fcons (make_fixnum (menu_bar_width), make_fixnum (menu_bar_height))), Fcons (Qtab_bar_size, Fcons (make_fixnum (tab_bar_width), make_fixnum (tab_bar_height))), Fcons (Qtool_bar_external, tool_bar_external ? Qt : Qnil), Fcons (Qtool_bar_position, FRAME_TOOL_BAR_POSITION (f)), Fcons (Qtool_bar_size, Fcons (make_fixnum (tool_bar_width), make_fixnum (tool_bar_height))), Fcons (Qinternal_border_width, make_fixnum (internal_border_width))); } DEFUN ("x-frame-geometry", Fx_frame_geometry, Sx_frame_geometry, 0, 1, 0, doc: /* Return geometric attributes of FRAME. FRAME must be a live frame and defaults to the selected one. The return value is an association list of the attributes listed below. All height and width values are in pixels. `outer-position' is a cons of the outer left and top edges of FRAME relative to the origin - the position (0, 0) - of FRAME's display. `outer-size' is a cons of the outer width and height of FRAME. The outer size includes the title bar and the external borders as well as any menu and/or tool bar of frame. For a child frame the value includes FRAME's X borders, if any. `external-border-size' is a cons of the horizontal and vertical width of FRAME's external borders as supplied by the window manager. `title-bar-size' is a cons of the width and height of the title bar of FRAME as supplied by the window manager. If both of them are zero, FRAME has no title bar. If only the width is zero, Emacs was not able to retrieve the width information. `menu-bar-external', if non-nil, means the menu bar is external (never included in the inner edges of FRAME). `menu-bar-size' is a cons of the width and height of the menu bar of FRAME. `tool-bar-external', if non-nil, means the tool bar is external (never included in the inner edges of FRAME). `tool-bar-position' tells on which side the tool bar on FRAME is and can be one of `left', `top', `right' or `bottom'. If this is nil, FRAME has no tool bar. `tool-bar-size' is a cons of the width and height of the tool bar of FRAME. `internal-border-width' is the width of the internal border of FRAME. `outer-border-width' is the width of the X border of FRAME. The X border is usually shown only for frames without window manager decorations, such as child and tooltip frames. */) (Lisp_Object frame) { return frame_geometry (frame, Qnil); } DEFUN ("x-frame-edges", Fx_frame_edges, Sx_frame_edges, 0, 2, 0, doc: /* Return edge coordinates of FRAME. FRAME must be a live frame and defaults to the selected one. The return value is a list of the form (LEFT, TOP, RIGHT, BOTTOM). All values are in pixels relative to the origin - the position (0, 0) - of FRAME's display. If optional argument TYPE is the symbol `outer-edges', return the outer edges of FRAME. The outer edges comprise the decorations of the window manager (like the title bar or external borders) as well as any external menu or tool bar of FRAME. If optional argument TYPE is the symbol `native-edges' or nil, return the native edges of FRAME. The native edges exclude the decorations of the window manager and any external menu or tool bar of FRAME. If TYPE is the symbol `inner-edges', return the inner edges of FRAME. These edges exclude title bar, any borders, menu bar or tool bar of FRAME. */) (Lisp_Object frame, Lisp_Object type) { return frame_geometry (frame, ((EQ (type, Qouter_edges) || EQ (type, Qinner_edges)) ? type : Qnative_edges)); } /** * x_frame_list_z_order: * * Recursively add list of all frames on the display specified via * DPYINFO and whose window-system window's parent is specified by * WINDOW to FRAMES and return FRAMES. */ static Lisp_Object x_frame_list_z_order (Display* dpy, Window window) { Window root, parent, *children; unsigned int nchildren; int i; Lisp_Object frames = Qnil; block_input (); if (XQueryTree (dpy, window, &root, &parent, &children, &nchildren)) { unblock_input (); for (i = 0; i < nchildren; i++) { Lisp_Object frame, tail; FOR_EACH_FRAME (tail, frame) { struct frame *cf = XFRAME (frame); /* With a reparenting window manager the parent_desc field usually specifies the topmost windows of our frames. Otherwise FRAME_OUTER_WINDOW should do. */ if (FRAME_X_P (cf) && (cf->output_data.x->parent_desc == children[i] || FRAME_OUTER_WINDOW (cf) == children[i])) frames = Fcons (frame, frames); } } if (children) XFree ((char *)children); } else unblock_input (); return frames; } DEFUN ("x-frame-list-z-order", Fx_frame_list_z_order, Sx_frame_list_z_order, 0, 1, 0, doc: /* Return list of Emacs' frames, in Z (stacking) order. The optional argument TERMINAL specifies which display to ask about. TERMINAL should be either a frame or a display name (a string). If omitted or nil, that stands for the selected frame's display. Return nil if TERMINAL contains no Emacs frame. As a special case, if TERMINAL is non-nil and specifies a live frame, return the child frames of that frame in Z (stacking) order. Frames are listed from topmost (first) to bottommost (last). */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); Display *dpy = dpyinfo->display; Window window; if (FRAMEP (terminal) && FRAME_LIVE_P (XFRAME (terminal))) window = FRAME_X_WINDOW (XFRAME (terminal)); else window = dpyinfo->root_window; return x_frame_list_z_order (dpy, window); } /** * x_frame_restack: * * Restack frame F1 below frame F2, above if ABOVE_FLAG is non-nil. In * practice this is a two-step action: The first step removes F1's * window-system window from the display. The second step reinserts * F1's window below (above if ABOVE_FLAG is true) that of F2. */ static void x_frame_restack (struct frame *f1, struct frame *f2, bool above_flag) { #ifdef USE_GTK block_input (); xg_frame_restack (f1, f2, above_flag); unblock_input (); #else Display *dpy = FRAME_X_DISPLAY (f1); Window window1 = FRAME_OUTER_WINDOW (f1); XWindowChanges wc; unsigned long mask = (CWSibling | CWStackMode); wc.sibling = FRAME_OUTER_WINDOW (f2); wc.stack_mode = above_flag ? Above : Below; block_input (); /* Configure the window manager window (a normal XConfigureWindow won't cut it). This should also work for child frames. */ XReconfigureWMWindow (dpy, window1, FRAME_X_SCREEN_NUMBER (f1), mask, &wc); unblock_input (); #endif /* USE_GTK */ } DEFUN ("x-frame-restack", Fx_frame_restack, Sx_frame_restack, 2, 3, 0, doc: /* Restack FRAME1 below FRAME2. This means that if both frames are visible and the display areas of these frames overlap, FRAME2 (partially) obscures FRAME1. If optional third argument ABOVE is non-nil, restack FRAME1 above FRAME2. This means that if both frames are visible and the display areas of these frames overlap, FRAME1 (partially) obscures FRAME2. This may be thought of as an atomic action performed in two steps: The first step removes FRAME1's window-step window from the display. The second step reinserts FRAME1's window below (above if ABOVE is true) that of FRAME2. Hence the position of FRAME2 in its display's Z \(stacking) order relative to all other frames excluding FRAME1 remains unaltered. Some window managers may refuse to restack windows. */) (Lisp_Object frame1, Lisp_Object frame2, Lisp_Object above) { struct frame *f1 = decode_live_frame (frame1); struct frame *f2 = decode_live_frame (frame2); if (! (FRAME_OUTER_WINDOW (f1) && FRAME_OUTER_WINDOW (f2))) error ("Cannot restack frames"); x_frame_restack (f1, f2, !NILP (above)); return Qt; } DEFUN ("x-mouse-absolute-pixel-position", Fx_mouse_absolute_pixel_position, Sx_mouse_absolute_pixel_position, 0, 0, 0, doc: /* Return absolute position of mouse cursor in pixels. The position is returned as a cons cell (X . Y) of the coordinates of the mouse cursor position in pixels relative to a position (0, 0) of the selected frame's display. */) (void) { struct frame *f = SELECTED_FRAME (); Window root, dummy_window; int x, y, dummy; if (FRAME_INITIAL_P (f) || !FRAME_X_P (f)) return Qnil; block_input (); XQueryPointer (FRAME_X_DISPLAY (f), DefaultRootWindow (FRAME_X_DISPLAY (f)), &root, &dummy_window, &x, &y, &dummy, &dummy, (unsigned int *) &dummy); unblock_input (); return Fcons (make_fixnum (x), make_fixnum (y)); } DEFUN ("x-set-mouse-absolute-pixel-position", Fx_set_mouse_absolute_pixel_position, Sx_set_mouse_absolute_pixel_position, 2, 2, 0, doc: /* Move mouse pointer to absolute pixel position (X, Y). The coordinates X and Y are interpreted in pixels relative to a position \(0, 0) of the selected frame's display. */) (Lisp_Object x, Lisp_Object y) { struct frame *f = SELECTED_FRAME (); if (FRAME_INITIAL_P (f) || !FRAME_X_P (f)) return Qnil; int xval = check_integer_range (x, INT_MIN, INT_MAX); int yval = check_integer_range (y, INT_MIN, INT_MAX); block_input (); XWarpPointer (FRAME_X_DISPLAY (f), None, DefaultRootWindow (FRAME_X_DISPLAY (f)), 0, 0, 0, 0, xval, yval); unblock_input (); return Qnil; } /************************************************************************ X Displays ************************************************************************/ /* Mapping visual names to visuals. */ static struct visual_class { const char *name; int class; } visual_classes[] = { {"StaticGray", StaticGray}, {"GrayScale", GrayScale}, {"StaticColor", StaticColor}, {"PseudoColor", PseudoColor}, {"TrueColor", TrueColor}, {"DirectColor", DirectColor}, {NULL, 0} }; #ifndef HAVE_XSCREENNUMBEROFSCREEN /* Value is the screen number of screen SCR. This is a substitute for the X function with the same name when that doesn't exist. */ int XScreenNumberOfScreen (scr) register Screen *scr; { Display *dpy = scr->display; int i; for (i = 0; i < dpy->nscreens; ++i) if (scr == dpy->screens + i) break; return i; } #endif /* not HAVE_XSCREENNUMBEROFSCREEN */ /* Select the visual that should be used on display DPYINFO. Set members of DPYINFO appropriately. Called from x_term_init. */ void select_visual (struct x_display_info *dpyinfo) { Display *dpy = dpyinfo->display; Screen *screen = dpyinfo->screen; /* See if a visual is specified. */ AUTO_STRING (visualClass, "visualClass"); AUTO_STRING (VisualClass, "VisualClass"); Lisp_Object value = gui_display_get_resource (dpyinfo, visualClass, VisualClass, Qnil, Qnil); if (STRINGP (value)) { /* VALUE should be of the form CLASS-DEPTH, where CLASS is one of `PseudoColor', `TrueColor' etc. and DEPTH is the color depth, a decimal number. NAME is compared with case ignored. */ char *s = alloca (SBYTES (value) + 1); char *dash; int i, class = -1; XVisualInfo vinfo; lispstpcpy (s, value); dash = strchr (s, '-'); if (dash) { dpyinfo->n_planes = atoi (dash + 1); *dash = '\0'; } else /* We won't find a matching visual with depth 0, so that an error will be printed below. */ dpyinfo->n_planes = 0; /* Determine the visual class. */ for (i = 0; visual_classes[i].name; ++i) if (xstrcasecmp (s, visual_classes[i].name) == 0) { class = visual_classes[i].class; break; } /* Look up a matching visual for the specified class. */ if (class == -1 || !XMatchVisualInfo (dpy, XScreenNumberOfScreen (screen), dpyinfo->n_planes, class, &vinfo)) fatal ("Invalid visual specification '%s'", SSDATA (ENCODE_SYSTEM (value))); dpyinfo->visual = vinfo.visual; } else { int n_visuals; XVisualInfo *vinfo, vinfo_template; dpyinfo->visual = DefaultVisualOfScreen (screen); vinfo_template.visualid = XVisualIDFromVisual (dpyinfo->visual); vinfo_template.screen = XScreenNumberOfScreen (screen); vinfo = XGetVisualInfo (dpy, VisualIDMask | VisualScreenMask, &vinfo_template, &n_visuals); if (n_visuals <= 0) fatal ("Can't get proper X visual info"); dpyinfo->n_planes = vinfo->depth; XFree (vinfo); } } /* Return the X display structure for the display named NAME. Open a new connection if necessary. */ static struct x_display_info * x_display_info_for_name (Lisp_Object name) { struct x_display_info *dpyinfo; CHECK_STRING (name); for (dpyinfo = x_display_list; dpyinfo; dpyinfo = dpyinfo->next) if (!NILP (Fstring_equal (XCAR (dpyinfo->name_list_element), name))) return dpyinfo; /* Use this general default value to start with. */ Vx_resource_name = Vinvocation_name; validate_x_resource_name (); dpyinfo = x_term_init (name, 0, SSDATA (Vx_resource_name)); if (dpyinfo == 0) error ("Cannot connect to X server %s", SDATA (name)); XSETFASTINT (Vwindow_system_version, 11); return dpyinfo; } DEFUN ("x-open-connection", Fx_open_connection, Sx_open_connection, 1, 3, 0, doc: /* Open a connection to a display server. DISPLAY is the name of the display to connect to. Optional second arg XRM-STRING is a string of resources in xrdb format. If the optional third arg MUST-SUCCEED is non-nil, terminate Emacs if we can't open the connection. \(In the Nextstep version, the last two arguments are currently ignored.) */) (Lisp_Object display, Lisp_Object xrm_string, Lisp_Object must_succeed) { char *xrm_option; struct x_display_info *dpyinfo; CHECK_STRING (display); if (! NILP (xrm_string)) CHECK_STRING (xrm_string); xrm_option = NILP (xrm_string) ? 0 : SSDATA (xrm_string); validate_x_resource_name (); /* This is what opens the connection and sets x_current_display. This also initializes many symbols, such as those used for input. */ dpyinfo = x_term_init (display, xrm_option, SSDATA (Vx_resource_name)); if (dpyinfo == 0) { if (!NILP (must_succeed)) fatal ("Cannot connect to X server %s.\n\ Check the DISPLAY environment variable or use `-d'.\n\ Also use the `xauth' program to verify that you have the proper\n\ authorization information needed to connect the X server.\n\ An insecure way to solve the problem may be to use `xhost'.\n", SDATA (display)); else error ("Cannot connect to X server %s", SDATA (display)); } XSETFASTINT (Vwindow_system_version, 11); return Qnil; } DEFUN ("x-close-connection", Fx_close_connection, Sx_close_connection, 1, 1, 0, doc: /* Close the connection to TERMINAL's X server. For TERMINAL, specify a terminal object, a frame or a display name (a string). If TERMINAL is nil, that stands for the selected frame's terminal. \(On MS Windows, this function does not accept terminal objects.) */) (Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); if (dpyinfo->reference_count > 0) error ("Display still has frames on it"); x_delete_terminal (dpyinfo->terminal); return Qnil; } DEFUN ("x-display-list", Fx_display_list, Sx_display_list, 0, 0, 0, doc: /* Return the list of display names that Emacs has connections to. */) (void) { Lisp_Object result = Qnil; struct x_display_info *xdi; for (xdi = x_display_list; xdi; xdi = xdi->next) result = Fcons (XCAR (xdi->name_list_element), result); return result; } DEFUN ("x-synchronize", Fx_synchronize, Sx_synchronize, 1, 2, 0, doc: /* If ON is non-nil, report X errors as soon as the erring request is made. This function has an effect only on X Windows. With MS Windows, it is defined but does nothing. If ON is nil, allow buffering of requests. Turning on synchronization prohibits the Xlib routines from buffering requests and seriously degrades performance, but makes debugging much easier. The optional second argument TERMINAL specifies which display to act on. TERMINAL should be a terminal object, a frame or a display name (a string). If TERMINAL is omitted or nil, that stands for the selected frame's display. */) (Lisp_Object on, Lisp_Object terminal) { struct x_display_info *dpyinfo = check_x_display_info (terminal); XSynchronize (dpyinfo->display, !NILP (on)); return Qnil; } /* Wait for responses to all X commands issued so far for frame F. */ void x_sync (struct frame *f) { block_input (); XSync (FRAME_X_DISPLAY (f), False); unblock_input (); } /*********************************************************************** Window properties ***********************************************************************/ DEFUN ("x-change-window-property", Fx_change_window_property, Sx_change_window_property, 2, 7, 0, doc: /* Change window property PROP to VALUE on the X window of FRAME. PROP must be a string. VALUE may be a string or a list of conses, numbers and/or strings. If an element in the list is a string, it is converted to an atom and the value of the atom is used. If an element is a cons, it is converted to a 32 bit number where the car is the 16 top bits and the cdr is the lower 16 bits. FRAME nil or omitted means use the selected frame. If TYPE is given and non-nil, it is the name of the type of VALUE. If TYPE is not given or nil, the type is STRING. FORMAT gives the size in bits of each element if VALUE is a list. It must be one of 8, 16 or 32. If VALUE is a string or FORMAT is nil or not given, FORMAT defaults to 8. If OUTER-P is non-nil, the property is changed for the outer X window of FRAME. Default is to change on the edit X window. If WINDOW-ID is non-nil, change the property of that window instead of FRAME's X window; the number 0 denotes the root window. This argument is separate from FRAME because window IDs are not unique across X displays or screens on the same display, so FRAME provides context for the window ID. */) (Lisp_Object prop, Lisp_Object value, Lisp_Object frame, Lisp_Object type, Lisp_Object format, Lisp_Object outer_p, Lisp_Object window_id) { struct frame *f = decode_window_system_frame (frame); Atom prop_atom; Atom target_type = XA_STRING; int element_format = 8; unsigned char *data; int nelements; Window target_window; CHECK_STRING (prop); if (! NILP (format)) { CHECK_FIXNUM (format); if (XFIXNUM (format) != 8 && XFIXNUM (format) != 16 && XFIXNUM (format) != 32) error ("FORMAT must be one of 8, 16 or 32"); element_format = XFIXNUM (format); } if (CONSP (value)) { ptrdiff_t elsize; nelements = x_check_property_data (value); if (nelements == -1) error ("Bad data in VALUE, must be number, string or cons"); /* The man page for XChangeProperty: "If the specified format is 32, the property data must be a long array." This applies even if long is more than 32 bits. The X library converts to 32 bits before sending to the X server. */ elsize = element_format == 32 ? sizeof (long) : element_format >> 3; data = xnmalloc (nelements, elsize); x_fill_property_data (FRAME_X_DISPLAY (f), value, data, nelements, element_format); } else { ptrdiff_t elsize; CHECK_STRING (value); data = SDATA (value); if (INT_MAX < SBYTES (value)) error ("VALUE too long"); /* See comment above about longs and format=32 */ elsize = element_format == 32 ? sizeof (long) : element_format >> 3; if (SBYTES (value) % elsize != 0) error ("VALUE must contain an integral number of octets for FORMAT"); nelements = SBYTES (value) / elsize; } if (! NILP (window_id)) { CONS_TO_INTEGER (window_id, Window, target_window); if (! target_window) target_window = FRAME_DISPLAY_INFO (f)->root_window; } else { if (! NILP (outer_p)) target_window = FRAME_OUTER_WINDOW (f); else target_window = FRAME_X_WINDOW (f); } block_input (); prop_atom = XInternAtom (FRAME_X_DISPLAY (f), SSDATA (prop), False); if (! NILP (type)) { CHECK_STRING (type); target_type = XInternAtom (FRAME_X_DISPLAY (f), SSDATA (type), False); } XChangeProperty (FRAME_X_DISPLAY (f), target_window, prop_atom, target_type, element_format, PropModeReplace, data, nelements); if (CONSP (value)) xfree (data); /* Make sure the property is set when we return. */ XFlush (FRAME_X_DISPLAY (f)); unblock_input (); return value; } DEFUN ("x-delete-window-property", Fx_delete_window_property, Sx_delete_window_property, 1, 3, 0, doc: /* Remove window property PROP from X window of FRAME. FRAME nil or omitted means use the selected frame. If WINDOW-ID is non-nil, remove property from that window instead of FRAME's X window; the number 0 denotes the root window. This argument is separate from FRAME because window IDs are not unique across X displays or screens on the same display, so FRAME provides context for the window ID. Value is PROP. */) (Lisp_Object prop, Lisp_Object frame, Lisp_Object window_id) { struct frame *f = decode_window_system_frame (frame); Window target_window = FRAME_X_WINDOW (f); Atom prop_atom; CHECK_STRING (prop); if (! NILP (window_id)) { CONS_TO_INTEGER (window_id, Window, target_window); if (! target_window) target_window = FRAME_DISPLAY_INFO (f)->root_window; } block_input (); prop_atom = XInternAtom (FRAME_X_DISPLAY (f), SSDATA (prop), False); XDeleteProperty (FRAME_X_DISPLAY (f), target_window, prop_atom); /* Make sure the property is removed when we return. */ XFlush (FRAME_X_DISPLAY (f)); unblock_input (); return prop; } static Lisp_Object x_window_property_intern (struct frame *f, Window target_window, Atom prop_atom, Atom target_type, Lisp_Object delete_p, Lisp_Object vector_ret_p, bool *found) { unsigned char *tmp_data = NULL; Lisp_Object prop_value = Qnil; Atom actual_type; int actual_format; unsigned long actual_size, bytes_remaining; int rc; rc = XGetWindowProperty (FRAME_X_DISPLAY (f), target_window, prop_atom, 0, 0, False, target_type, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); *found = actual_format != 0; if (rc == Success && *found) { XFree (tmp_data); tmp_data = NULL; rc = XGetWindowProperty (FRAME_X_DISPLAY (f), target_window, prop_atom, 0, bytes_remaining, ! NILP (delete_p), target_type, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); if (rc == Success && tmp_data) { /* The man page for XGetWindowProperty says: "If the returned format is 32, the returned data is represented as a long array and should be cast to that type to obtain the elements." This applies even if long is more than 32 bits, the X library converts from 32 bit elements received from the X server to long and passes the long array to us. Thus, for that case memcpy can not be used. We convert to a 32 bit type here, because so much code assume on that. The bytes and offsets passed to XGetWindowProperty refers to the property and those are indeed in 32 bit quantities if format is 32. */ if (LONG_WIDTH > 32 && actual_format == 32) { unsigned long i; int *idata = (int *) tmp_data; long *ldata = (long *) tmp_data; for (i = 0; i < actual_size; ++i) idata[i] = (int) ldata[i]; } if (NILP (vector_ret_p)) prop_value = make_string ((char *) tmp_data, (actual_format >> 3) * actual_size); else prop_value = x_property_data_to_lisp (f, tmp_data, actual_type, actual_format, actual_size); } if (tmp_data) XFree (tmp_data); } return prop_value; } DEFUN ("x-window-property", Fx_window_property, Sx_window_property, 1, 6, 0, doc: /* Value is the value of window property PROP on FRAME. If FRAME is nil or omitted, use the selected frame. On X Windows, the following optional arguments are also accepted: If TYPE is nil or omitted, get the property as a string. Otherwise TYPE is the name of the atom that denotes the expected type. If WINDOW-ID is non-nil, get the property of that window instead of FRAME's X window; the number 0 denotes the root window. This argument is separate from FRAME because window IDs are not unique across X displays or screens on the same display, so FRAME provides context for the window ID. If DELETE-P is non-nil, delete the property after retrieving it. If VECTOR-RET-P is non-nil, return a vector of values instead of a string. Return value is nil if FRAME doesn't have a property with name PROP or if PROP has no value of TYPE (always a string in the MS Windows case). */) (Lisp_Object prop, Lisp_Object frame, Lisp_Object type, Lisp_Object window_id, Lisp_Object delete_p, Lisp_Object vector_ret_p) { struct frame *f = decode_window_system_frame (frame); Atom prop_atom; Lisp_Object prop_value = Qnil; Atom target_type = XA_STRING; Window target_window = FRAME_X_WINDOW (f); bool found; CHECK_STRING (prop); if (! NILP (window_id)) { CONS_TO_INTEGER (window_id, Window, target_window); if (! target_window) target_window = FRAME_DISPLAY_INFO (f)->root_window; } block_input (); if (STRINGP (type)) { if (strcmp ("AnyPropertyType", SSDATA (type)) == 0) target_type = AnyPropertyType; else target_type = XInternAtom (FRAME_X_DISPLAY (f), SSDATA (type), False); } prop_atom = XInternAtom (FRAME_X_DISPLAY (f), SSDATA (prop), False); prop_value = x_window_property_intern (f, target_window, prop_atom, target_type, delete_p, vector_ret_p, &found); if (NILP (prop_value) && ! found && NILP (window_id) && target_window != FRAME_OUTER_WINDOW (f)) { prop_value = x_window_property_intern (f, FRAME_OUTER_WINDOW (f), prop_atom, target_type, delete_p, vector_ret_p, &found); } unblock_input (); return prop_value; } DEFUN ("x-window-property-attributes", Fx_window_property_attributes, Sx_window_property_attributes, 1, 3, 0, doc: /* Retrieve metadata about window property PROP on FRAME. If FRAME is nil or omitted, use the selected frame. If WINDOW-ID is non-nil, get the property of that window instead of FRAME's X window; the number 0 denotes the root window. This argument is separate from FRAME because window IDs are not unique across X displays or screens on the same display, so FRAME provides context for the window ID. Return value is nil if FRAME doesn't have a property named PROP. Otherwise, the return value is a vector with the following fields: 0. The property type, as an integer. The symbolic name of the type can be obtained with `x-get-atom-name'. 1. The format of each element; one of 8, 16, or 32. 2. The length of the property, in number of elements. */) (Lisp_Object prop, Lisp_Object frame, Lisp_Object window_id) { struct frame *f = decode_window_system_frame (frame); Window target_window = FRAME_X_WINDOW (f); Atom prop_atom; Lisp_Object prop_attr = Qnil; Atom actual_type; int actual_format; unsigned long actual_size, bytes_remaining; unsigned char *tmp_data = NULL; int rc; CHECK_STRING (prop); if (! NILP (window_id)) { CONS_TO_INTEGER (window_id, Window, target_window); if (! target_window) target_window = FRAME_DISPLAY_INFO (f)->root_window; } block_input (); prop_atom = XInternAtom (FRAME_X_DISPLAY (f), SSDATA (prop), False); rc = XGetWindowProperty (FRAME_X_DISPLAY (f), target_window, prop_atom, 0, 0, False, AnyPropertyType, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); if (rc == Success /* no invalid params */ && actual_format == 0 /* but prop not found */ && NILP (window_id) && target_window != FRAME_OUTER_WINDOW (f)) { /* analogous behavior to x-window-property: if property isn't found on the frame's inner window and no alternate window id was provided, try the frame's outer window. */ target_window = FRAME_OUTER_WINDOW (f); rc = XGetWindowProperty (FRAME_X_DISPLAY (f), target_window, prop_atom, 0, 0, False, AnyPropertyType, &actual_type, &actual_format, &actual_size, &bytes_remaining, &tmp_data); } if (rc == Success && actual_format != 0) { XFree (tmp_data); prop_attr = CALLN (Fvector, make_fixnum (actual_type), make_fixnum (actual_format), make_fixnum (bytes_remaining / (actual_format >> 3))); } unblock_input (); return prop_attr; } /*********************************************************************** Tool tips ***********************************************************************/ static void compute_tip_xy (struct frame *, Lisp_Object, Lisp_Object, Lisp_Object, int, int, int *, int *); /* The frame of the currently visible tooltip. */ static Lisp_Object tip_frame; /* The window-system window corresponding to the frame of the currently visible tooltip. */ Window tip_window; /* A timer that hides or deletes the currently visible tooltip when it fires. */ static Lisp_Object tip_timer; /* STRING argument of last `x-show-tip' call. */ static Lisp_Object tip_last_string; /* Normalized FRAME argument of last `x-show-tip' call. */ static Lisp_Object tip_last_frame; /* PARMS argument of last `x-show-tip' call. */ static Lisp_Object tip_last_parms; static void unwind_create_tip_frame (Lisp_Object frame) { Lisp_Object deleted; deleted = unwind_create_frame (frame); if (EQ (deleted, Qt)) { tip_window = None; tip_frame = Qnil; } } /* Create a frame for a tooltip on the display described by DPYINFO. PARMS is a list of frame parameters. TEXT is the string to display in the tip frame. Value is the frame. Note that functions called here, esp. gui_default_parameter can signal errors, for instance when a specified color name is undefined. We have to make sure that we're in a consistent state when this happens. */ static Lisp_Object x_create_tip_frame (struct x_display_info *dpyinfo, Lisp_Object parms) { struct frame *f; Lisp_Object frame; Lisp_Object name; int width, height; ptrdiff_t count = SPECPDL_INDEX (); bool face_change_before = face_change; int x_width = 0, x_height = 0; if (!dpyinfo->terminal->name) error ("Terminal is not live, can't create new frames on it"); parms = Fcopy_alist (parms); /* Get the name of the frame to use for resource lookup. */ name = gui_display_get_arg (dpyinfo, parms, Qname, "name", "Name", RES_TYPE_STRING); if (!STRINGP (name) && !EQ (name, Qunbound) && !NILP (name)) error ("Invalid frame name--not a string or nil"); frame = Qnil; f = make_frame (false); f->wants_modeline = false; XSETFRAME (frame, f); record_unwind_protect (unwind_create_tip_frame, frame); f->terminal = dpyinfo->terminal; /* By setting the output method, we're essentially saying that the frame is live, as per FRAME_LIVE_P. If we get a signal from this point on, x_destroy_window might screw up reference counts etc. */ f->output_method = output_x_window; f->output_data.x = xzalloc (sizeof *f->output_data.x); f->output_data.x->icon_bitmap = -1; FRAME_FONTSET (f) = -1; f->output_data.x->scroll_bar_foreground_pixel = -1; f->output_data.x->scroll_bar_background_pixel = -1; #if defined (USE_LUCID) && defined (USE_TOOLKIT_SCROLL_BARS) f->output_data.x->scroll_bar_top_shadow_pixel = -1; f->output_data.x->scroll_bar_bottom_shadow_pixel = -1; #endif /* USE_LUCID && USE_TOOLKIT_SCROLL_BARS */ f->output_data.x->white_relief.pixel = -1; f->output_data.x->black_relief.pixel = -1; f->tooltip = true; fset_icon_name (f, Qnil); FRAME_DISPLAY_INFO (f) = dpyinfo; f->output_data.x->parent_desc = FRAME_DISPLAY_INFO (f)->root_window; f->output_data.x->explicit_parent = false; /* These colors will be set anyway later, but it's important to get the color reference counts right, so initialize them! */ { Lisp_Object black; /* Function x_decode_color can signal an error. Make sure to initialize color slots so that we won't try to free colors we haven't allocated. */ FRAME_FOREGROUND_PIXEL (f) = -1; FRAME_BACKGROUND_PIXEL (f) = -1; f->output_data.x->cursor_pixel = -1; f->output_data.x->cursor_foreground_pixel = -1; f->output_data.x->border_pixel = -1; f->output_data.x->mouse_pixel = -1; black = build_string ("black"); FRAME_FOREGROUND_PIXEL (f) = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); FRAME_BACKGROUND_PIXEL (f) = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->cursor_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->cursor_foreground_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->border_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); f->output_data.x->mouse_pixel = x_decode_color (f, black, BLACK_PIX_DEFAULT (f)); } /* Set the name; the functions to which we pass f expect the name to be set. */ if (EQ (name, Qunbound) || NILP (name)) { fset_name (f, build_string (dpyinfo->x_id_name)); f->explicit_name = false; } else { fset_name (f, name); f->explicit_name = true; /* use the frame's title when getting resources for this frame. */ specbind (Qx_resource_name, name); } #ifdef USE_CAIRO register_font_driver (&ftcrfont_driver, f); #ifdef HAVE_HARFBUZZ register_font_driver (&ftcrhbfont_driver, f); #endif /* HAVE_HARFBUZZ */ #else #ifdef HAVE_FREETYPE #ifdef HAVE_XFT register_font_driver (&xftfont_driver, f); #ifdef HAVE_HARFBUZZ register_font_driver (&xfthbfont_driver, f); #endif #endif /* not HAVE_XFT */ #endif /* HAVE_FREETYPE */ #endif /* not USE_CAIRO */ register_font_driver (&xfont_driver, f); image_cache_refcount = FRAME_IMAGE_CACHE (f) ? FRAME_IMAGE_CACHE (f)->refcount : 0; #ifdef GLYPH_DEBUG dpyinfo_refcount = dpyinfo->reference_count; #endif /* GLYPH_DEBUG */ gui_default_parameter (f, parms, Qfont_backend, Qnil, "fontBackend", "FontBackend", RES_TYPE_STRING); /* Extract the window parameters from the supplied values that are needed to determine window geometry. */ x_default_font_parameter (f, parms); gui_default_parameter (f, parms, Qborder_width, make_fixnum (0), "borderWidth", "BorderWidth", RES_TYPE_NUMBER); /* This defaults to 2 in order to match xterm. We recognize either internalBorderWidth or internalBorder (which is what xterm calls it). */ if (NILP (Fassq (Qinternal_border_width, parms))) { Lisp_Object value; value = gui_display_get_arg (dpyinfo, parms, Qinternal_border_width, "internalBorder", "internalBorder", RES_TYPE_NUMBER); if (! EQ (value, Qunbound)) parms = Fcons (Fcons (Qinternal_border_width, value), parms); } gui_default_parameter (f, parms, Qinternal_border_width, make_fixnum (1), "internalBorderWidth", "internalBorderWidth", RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qright_divider_width, make_fixnum (0), NULL, NULL, RES_TYPE_NUMBER); gui_default_parameter (f, parms, Qbottom_divider_width, make_fixnum (0), NULL, NULL, RES_TYPE_NUMBER); /* Also do the stuff which must be set before the window exists. */ gui_default_parameter (f, parms, Qforeground_color, build_string ("black"), "foreground", "Foreground", RES_TYPE_STRING); gui_default_parameter (f, parms, Qbackground_color, build_string ("white"), "background", "Background", RES_TYPE_STRING); gui_default_parameter (f, parms, Qmouse_color, build_string ("black"), "pointerColor", "Foreground", RES_TYPE_STRING); gui_default_parameter (f, parms, Qcursor_color, build_string ("black"), "cursorColor", "Foreground", RES_TYPE_STRING); gui_default_parameter (f, parms, Qborder_color, build_string ("black"), "borderColor", "BorderColor", RES_TYPE_STRING); gui_default_parameter (f, parms, Qno_special_glyphs, Qnil, NULL, NULL, RES_TYPE_BOOLEAN); /* Init faces before gui_default_parameter is called for the scroll-bar-width parameter because otherwise we end up in init_iterator with a null face cache, which should not happen. */ init_frame_faces (f); f->output_data.x->parent_desc = FRAME_DISPLAY_INFO (f)->root_window; gui_default_parameter (f, parms, Qinhibit_double_buffering, Qnil, "inhibitDoubleBuffering", "InhibitDoubleBuffering", RES_TYPE_BOOLEAN); gui_figure_window_size (f, parms, false, false, &x_width, &x_height); { XSetWindowAttributes attrs; unsigned long mask; Atom type = FRAME_DISPLAY_INFO (f)->Xatom_net_window_type_tooltip; block_input (); mask = CWBackPixel | CWOverrideRedirect | CWEventMask | CWCursor; if (DoesSaveUnders (dpyinfo->screen)) mask |= CWSaveUnder; /* Window managers look at the override-redirect flag to determine whether or net to give windows a decoration (Xlib spec, chapter 3.2.8). */ attrs.override_redirect = True; attrs.save_under = True; attrs.background_pixel = FRAME_BACKGROUND_PIXEL (f); attrs.cursor = f->output_data.x->current_cursor = f->output_data.x->text_cursor; /* Arrange for getting MapNotify and UnmapNotify events. */ attrs.event_mask = StructureNotifyMask; tip_window = FRAME_X_WINDOW (f) = XCreateWindow (FRAME_X_DISPLAY (f), FRAME_DISPLAY_INFO (f)->root_window, /* x, y, width, height */ 0, 0, 1, 1, /* Border. */ f->border_width, CopyFromParent, InputOutput, CopyFromParent, mask, &attrs); initial_set_up_x_back_buffer (f); XChangeProperty (FRAME_X_DISPLAY (f), tip_window, FRAME_DISPLAY_INFO (f)->Xatom_net_window_type, XA_ATOM, 32, PropModeReplace, (unsigned char *)&type, 1); unblock_input (); } x_make_gc (f); gui_default_parameter (f, parms, Qauto_raise, Qnil, "autoRaise", "AutoRaiseLower", RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qauto_lower, Qnil, "autoLower", "AutoRaiseLower", RES_TYPE_BOOLEAN); gui_default_parameter (f, parms, Qcursor_type, Qbox, "cursorType", "CursorType", RES_TYPE_SYMBOL); gui_default_parameter (f, parms, Qalpha, Qnil, "alpha", "Alpha", RES_TYPE_NUMBER); /* Dimensions, especially FRAME_LINES (f), must be done via change_frame_size. Change will not be effected unless different from the current FRAME_LINES (f). */ width = FRAME_COLS (f); height = FRAME_LINES (f); SET_FRAME_COLS (f, 0); SET_FRAME_LINES (f, 0); change_frame_size (f, width, height, true, false, false, false); /* Add `tooltip' frame parameter's default value. */ if (NILP (Fframe_parameter (frame, Qtooltip))) { AUTO_FRAME_ARG (arg, Qtooltip, Qt); Fmodify_frame_parameters (frame, arg); } /* FIXME - can this be done in a similar way to normal frames? https://lists.gnu.org/r/emacs-devel/2007-10/msg00641.html */ /* Set the `display-type' frame parameter before setting up faces. */ { Lisp_Object disptype; if (FRAME_DISPLAY_INFO (f)->n_planes == 1) disptype = Qmono; else if (FRAME_DISPLAY_INFO (f)->visual->class == GrayScale || FRAME_DISPLAY_INFO (f)->visual->class == StaticGray) disptype = intern ("grayscale"); else disptype = intern ("color"); if (NILP (Fframe_parameter (frame, Qdisplay_type))) { AUTO_FRAME_ARG (arg, Qdisplay_type, disptype); Fmodify_frame_parameters (frame, arg); } } /* Set up faces after all frame parameters are known. This call also merges in face attributes specified for new frames. Frame parameters may be changed if .Xdefaults contains specifications for the default font. For example, if there is an `Emacs.default.attributeBackground: pink', the `background-color' attribute of the frame gets set, which let's the internal border of the tooltip frame appear in pink. Prevent this. */ { Lisp_Object bg = Fframe_parameter (frame, Qbackground_color); call2 (Qface_set_after_frame_default, frame, Qnil); if (!EQ (bg, Fframe_parameter (frame, Qbackground_color))) { AUTO_FRAME_ARG (arg, Qbackground_color, bg); Fmodify_frame_parameters (frame, arg); } } f->no_split = true; /* Now that the frame will be official, it counts as a reference to its display and terminal. */ FRAME_DISPLAY_INFO (f)->reference_count++; f->terminal->reference_count++; /* It is now ok to make the frame official even if we get an error below. And the frame needs to be on Vframe_list or making it visible won't work. */ Vframe_list = Fcons (frame, Vframe_list); f->can_set_window_size = true; /* Setting attributes of faces of the tooltip frame from resources and similar will set face_change, which leads to the clearing of all current matrices. Since this isn't necessary here, avoid it by resetting face_change to the value it had before we created the tip frame. */ face_change = face_change_before; /* Discard the unwind_protect. */ return unbind_to (count, frame); } /* Compute where to display tip frame F. PARMS is the list of frame parameters for F. DX and DY are specified offsets from the current location of the mouse. WIDTH and HEIGHT are the width and height of the tooltip. Return coordinates relative to the root window of the display in *ROOT_X, and *ROOT_Y. */ static void compute_tip_xy (struct frame *f, Lisp_Object parms, Lisp_Object dx, Lisp_Object dy, int width, int height, int *root_x, int *root_y) { Lisp_Object left, top, right, bottom; int win_x, win_y; Window root, child; unsigned pmask; int min_x, min_y, max_x, max_y = -1; /* User-specified position? */ left = Fcdr (Fassq (Qleft, parms)); top = Fcdr (Fassq (Qtop, parms)); right = Fcdr (Fassq (Qright, parms)); bottom = Fcdr (Fassq (Qbottom, parms)); /* Move the tooltip window where the mouse pointer is. Resize and show it. */ if ((!FIXNUMP (left) && !FIXNUMP (right)) || (!FIXNUMP (top) && !FIXNUMP (bottom))) { Lisp_Object frame, attributes, monitor, geometry; block_input (); XQueryPointer (FRAME_X_DISPLAY (f), FRAME_DISPLAY_INFO (f)->root_window, &root, &child, root_x, root_y, &win_x, &win_y, &pmask); unblock_input (); XSETFRAME(frame, f); attributes = Fx_display_monitor_attributes_list (frame); /* Try to determine the monitor where the mouse pointer is and its geometry. See bug#22549. */ while (CONSP (attributes)) { monitor = XCAR (attributes); geometry = Fassq (Qgeometry, monitor); if (CONSP (geometry)) { min_x = XFIXNUM (Fnth (make_fixnum (1), geometry)); min_y = XFIXNUM (Fnth (make_fixnum (2), geometry)); max_x = min_x + XFIXNUM (Fnth (make_fixnum (3), geometry)); max_y = min_y + XFIXNUM (Fnth (make_fixnum (4), geometry)); if (min_x <= *root_x && *root_x < max_x && min_y <= *root_y && *root_y < max_y) { break; } max_y = -1; } attributes = XCDR (attributes); } } /* It was not possible to determine the monitor's geometry, so we assign some sane defaults here: */ if ( max_y < 0 ) { min_x = 0; min_y = 0; max_x = x_display_pixel_width (FRAME_DISPLAY_INFO (f)); max_y = x_display_pixel_height (FRAME_DISPLAY_INFO (f)); } if (FIXNUMP (top)) *root_y = XFIXNUM (top); else if (FIXNUMP (bottom)) *root_y = XFIXNUM (bottom) - height; else if (*root_y + XFIXNUM (dy) <= min_y) *root_y = min_y; /* Can happen for negative dy */ else if (*root_y + XFIXNUM (dy) + height <= max_y) /* It fits below the pointer */ *root_y += XFIXNUM (dy); else if (height + XFIXNUM (dy) + min_y <= *root_y) /* It fits above the pointer. */ *root_y -= height + XFIXNUM (dy); else /* Put it on the top. */ *root_y = min_y; if (FIXNUMP (left)) *root_x = XFIXNUM (left); else if (FIXNUMP (right)) *root_x = XFIXNUM (right) - width; else if (*root_x + XFIXNUM (dx) <= min_x) *root_x = 0; /* Can happen for negative dx */ else if (*root_x + XFIXNUM (dx) + width <= max_x) /* It fits to the right of the pointer. */ *root_x += XFIXNUM (dx); else if (width + XFIXNUM (dx) + min_x <= *root_x) /* It fits to the left of the pointer. */ *root_x -= width + XFIXNUM (dx); else /* Put it left justified on the screen -- it ought to fit that way. */ *root_x = min_x; } /** * x_hide_tip: * * Hide currently visible tooltip and cancel its timer. * * If GTK+ system tooltips are used, this will try to hide the tooltip * referenced by the x_output structure of tooltip_last_frame. For * Emacs tooltips this will try to make tooltip_frame invisible (if * DELETE is false) or delete tooltip_frame (if DELETE is true). * * Return Qt if the tooltip was either deleted or made invisible, Qnil * otherwise. */ static Lisp_Object x_hide_tip (bool delete) { if (!NILP (tip_timer)) { call1 (Qcancel_timer, tip_timer); tip_timer = Qnil; } #ifdef USE_GTK /* Any GTK+ system tooltip can be found via the x_output structure of tip_last_frame, provided that frame is still live. Any Emacs tooltip is found via the tip_frame variable. Note that the current value of x_gtk_use_system_tooltips might not be the same as used for the tooltip we have to hide, see Bug#30399. */ if ((NILP (tip_last_frame) && NILP (tip_frame)) || (!x_gtk_use_system_tooltips && !delete && FRAMEP (tip_frame) && FRAME_LIVE_P (XFRAME (tip_frame)) && !FRAME_VISIBLE_P (XFRAME (tip_frame)))) /* Either there's no tooltip to hide or it's an already invisible Emacs tooltip and we don't want to change its type. Return quickly. */ return Qnil; else { ptrdiff_t count; Lisp_Object was_open = Qnil; count = SPECPDL_INDEX (); specbind (Qinhibit_redisplay, Qt); specbind (Qinhibit_quit, Qt); /* Try to hide the GTK+ system tip first. */ if (FRAMEP (tip_last_frame)) { struct frame *f = XFRAME (tip_last_frame); if (FRAME_LIVE_P (f)) { if (xg_hide_tooltip (f)) was_open = Qt; } } /* When using GTK+ system tooltips (compare Bug#41200) reset tip_last_frame. It will be reassigned when showing the next GTK+ system tooltip. */ if (x_gtk_use_system_tooltips) tip_last_frame = Qnil; /* Now look whether there's an Emacs tip around. */ if (FRAMEP (tip_frame)) { struct frame *f = XFRAME (tip_frame); if (FRAME_LIVE_P (f)) { if (delete || x_gtk_use_system_tooltips) { /* Delete the Emacs tooltip frame when DELETE is true or we change the tooltip type from an Emacs one to a GTK+ system one. */ delete_frame (tip_frame, Qnil); tip_frame = Qnil; } else x_make_frame_invisible (f); was_open = Qt; } else tip_frame = Qnil; } else tip_frame = Qnil; return unbind_to (count, was_open); } #else /* not USE_GTK */ if (NILP (tip_frame) || (!delete && FRAMEP (tip_frame) && FRAME_LIVE_P (XFRAME (tip_frame)) && !FRAME_VISIBLE_P (XFRAME (tip_frame)))) return Qnil; else { ptrdiff_t count; Lisp_Object was_open = Qnil; count = SPECPDL_INDEX (); specbind (Qinhibit_redisplay, Qt); specbind (Qinhibit_quit, Qt); if (FRAMEP (tip_frame)) { struct frame *f = XFRAME (tip_frame); if (FRAME_LIVE_P (f)) { if (delete) { delete_frame (tip_frame, Qnil); tip_frame = Qnil; } else x_make_frame_invisible (XFRAME (tip_frame)); #ifdef USE_LUCID /* Bloodcurdling hack alert: The Lucid menu bar widget's redisplay procedure is not called when a tip frame over menu items is unmapped. Redisplay the menu manually... */ { Widget w; struct frame *f = SELECTED_FRAME (); if (FRAME_X_P (f) && FRAME_LIVE_P (f)) { w = f->output_data.x->menubar_widget; if (!DoesSaveUnders (FRAME_DISPLAY_INFO (f)->screen) && w != NULL) { block_input (); xlwmenu_redisplay (w); unblock_input (); } } } #endif /* USE_LUCID */ was_open = Qt; } else tip_frame = Qnil; } else tip_frame = Qnil; return unbind_to (count, was_open); } #endif /* USE_GTK */ } DEFUN ("x-show-tip", Fx_show_tip, Sx_show_tip, 1, 6, 0, doc: /* Show STRING in a "tooltip" window on frame FRAME. A tooltip window is a small X window displaying a string. This is an internal function; Lisp code should call `tooltip-show'. FRAME nil or omitted means use the selected frame. PARMS is an optional list of frame parameters which can be used to change the tooltip's appearance. Automatically hide the tooltip after TIMEOUT seconds. TIMEOUT nil means use the default timeout of 5 seconds. If the list of frame parameters PARMS contains a `left' parameter, display the tooltip at that x-position. If the list of frame parameters PARMS contains no `left' but a `right' parameter, display the tooltip right-adjusted at that x-position. Otherwise display it at the x-position of the mouse, with offset DX added (default is 5 if DX isn't specified). Likewise for the y-position: If a `top' frame parameter is specified, it determines the position of the upper edge of the tooltip window. If a `bottom' parameter but no `top' frame parameter is specified, it determines the position of the lower edge of the tooltip window. Otherwise display the tooltip window at the y-position of the mouse, with offset DY added (default is -10). A tooltip's maximum size is specified by `x-max-tooltip-size'. Text larger than the specified size is clipped. */) (Lisp_Object string, Lisp_Object frame, Lisp_Object parms, Lisp_Object timeout, Lisp_Object dx, Lisp_Object dy) { struct frame *f, *tip_f; struct window *w; int root_x, root_y; struct buffer *old_buffer; struct text_pos pos; int width, height; int old_windows_or_buffers_changed = windows_or_buffers_changed; ptrdiff_t count = SPECPDL_INDEX (); ptrdiff_t count_1; Lisp_Object window, size, tip_buf; AUTO_STRING (tip, " *tip*"); specbind (Qinhibit_redisplay, Qt); CHECK_STRING (string); if (SCHARS (string) == 0) string = make_unibyte_string (" ", 1); if (NILP (frame)) frame = selected_frame; f = decode_window_system_frame (frame); if (NILP (timeout)) timeout = make_fixnum (5); else CHECK_FIXNAT (timeout); if (NILP (dx)) dx = make_fixnum (5); else CHECK_FIXNUM (dx); if (NILP (dy)) dy = make_fixnum (-10); else CHECK_FIXNUM (dy); #ifdef USE_GTK if (x_gtk_use_system_tooltips) { bool ok; /* Hide a previous tip, if any. */ Fx_hide_tip (); block_input (); ok = xg_prepare_tooltip (f, string, &width, &height); if (ok) { compute_tip_xy (f, parms, dx, dy, width, height, &root_x, &root_y); xg_show_tooltip (f, root_x, root_y); tip_last_frame = frame; } unblock_input (); if (ok) goto start_timer; } #endif /* USE_GTK */ if (FRAMEP (tip_frame) && FRAME_LIVE_P (XFRAME (tip_frame))) { if (FRAME_VISIBLE_P (XFRAME (tip_frame)) && EQ (frame, tip_last_frame) && !NILP (Fequal_including_properties (tip_last_string, string)) && !NILP (Fequal (tip_last_parms, parms))) { /* Only DX and DY have changed. */ tip_f = XFRAME (tip_frame); if (!NILP (tip_timer)) { call1 (Qcancel_timer, tip_timer); tip_timer = Qnil; } block_input (); compute_tip_xy (tip_f, parms, dx, dy, FRAME_PIXEL_WIDTH (tip_f), FRAME_PIXEL_HEIGHT (tip_f), &root_x, &root_y); XMoveWindow (FRAME_X_DISPLAY (tip_f), FRAME_X_WINDOW (tip_f), root_x, root_y); unblock_input (); goto start_timer; } else if (tooltip_reuse_hidden_frame && EQ (frame, tip_last_frame)) { bool delete = false; Lisp_Object tail, elt, parm, last; /* Check if every parameter in PARMS has the same value in tip_last_parms. This may destruct tip_last_parms which, however, will be recreated below. */ for (tail = parms; CONSP (tail); tail = XCDR (tail)) { elt = XCAR (tail); parm = Fcar (elt); /* The left, top, right and bottom parameters are handled by compute_tip_xy so they can be ignored here. */ if (!EQ (parm, Qleft) && !EQ (parm, Qtop) && !EQ (parm, Qright) && !EQ (parm, Qbottom)) { last = Fassq (parm, tip_last_parms); if (NILP (Fequal (Fcdr (elt), Fcdr (last)))) { /* We lost, delete the old tooltip. */ delete = true; break; } else tip_last_parms = call2 (Qassq_delete_all, parm, tip_last_parms); } else tip_last_parms = call2 (Qassq_delete_all, parm, tip_last_parms); } /* Now check if every parameter in what is left of tip_last_parms with a non-nil value has an association in PARMS. */ for (tail = tip_last_parms; CONSP (tail); tail = XCDR (tail)) { elt = XCAR (tail); parm = Fcar (elt); if (!EQ (parm, Qleft) && !EQ (parm, Qtop) && !EQ (parm, Qright) && !EQ (parm, Qbottom) && !NILP (Fcdr (elt))) { /* We lost, delete the old tooltip. */ delete = true; break; } } x_hide_tip (delete); } else x_hide_tip (true); } else x_hide_tip (true); tip_last_frame = frame; tip_last_string = string; tip_last_parms = parms; if (!FRAMEP (tip_frame) || !FRAME_LIVE_P (XFRAME (tip_frame))) { /* Add default values to frame parameters. */ if (NILP (Fassq (Qname, parms))) parms = Fcons (Fcons (Qname, build_string ("tooltip")), parms); if (NILP (Fassq (Qinternal_border_width, parms))) parms = Fcons (Fcons (Qinternal_border_width, make_fixnum (3)), parms); if (NILP (Fassq (Qborder_width, parms))) parms = Fcons (Fcons (Qborder_width, make_fixnum (1)), parms); if (NILP (Fassq (Qborder_color, parms))) parms = Fcons (Fcons (Qborder_color, build_string ("lightyellow")), parms); if (NILP (Fassq (Qbackground_color, parms))) parms = Fcons (Fcons (Qbackground_color, build_string ("lightyellow")), parms); /* Create a frame for the tooltip, and record it in the global variable tip_frame. */ if (NILP (tip_frame = x_create_tip_frame (FRAME_DISPLAY_INFO (f), parms))) /* Creating the tip frame failed. */ return unbind_to (count, Qnil); } tip_f = XFRAME (tip_frame); window = FRAME_ROOT_WINDOW (tip_f); tip_buf = Fget_buffer_create (tip); /* We will mark the tip window a "pseudo-window" below, and such windows cannot have display margins. */ bset_left_margin_cols (XBUFFER (tip_buf), make_fixnum (0)); bset_right_margin_cols (XBUFFER (tip_buf), make_fixnum (0)); set_window_buffer (window, tip_buf, false, false); w = XWINDOW (window); w->pseudo_window_p = true; /* Set up the frame's root window. Note: The following code does not try to size the window or its frame correctly. Its only purpose is to make the subsequent text size calculations work. The right sizes should get installed when the toolkit gets back to us. */ w->left_col = 0; w->top_line = 0; w->pixel_left = 0; w->pixel_top = 0; if (CONSP (Vx_max_tooltip_size) && RANGED_FIXNUMP (1, XCAR (Vx_max_tooltip_size), INT_MAX) && RANGED_FIXNUMP (1, XCDR (Vx_max_tooltip_size), INT_MAX)) { w->total_cols = XFIXNAT (XCAR (Vx_max_tooltip_size)); w->total_lines = XFIXNAT (XCDR (Vx_max_tooltip_size)); } else { w->total_cols = 80; w->total_lines = 40; } w->pixel_width = w->total_cols * FRAME_COLUMN_WIDTH (tip_f); w->pixel_height = w->total_lines * FRAME_LINE_HEIGHT (tip_f); FRAME_TOTAL_COLS (tip_f) = w->total_cols; adjust_frame_glyphs (tip_f); /* Insert STRING into root window's buffer and fit the frame to the buffer. */ count_1 = SPECPDL_INDEX (); old_buffer = current_buffer; set_buffer_internal_1 (XBUFFER (w->contents)); bset_truncate_lines (current_buffer, Qnil); specbind (Qinhibit_read_only, Qt); specbind (Qinhibit_modification_hooks, Qt); specbind (Qinhibit_point_motion_hooks, Qt); Ferase_buffer (); Finsert (1, &string); clear_glyph_matrix (w->desired_matrix); clear_glyph_matrix (w->current_matrix); SET_TEXT_POS (pos, BEGV, BEGV_BYTE); try_window (window, pos, TRY_WINDOW_IGNORE_FONTS_CHANGE); /* Calculate size of tooltip window. */ size = Fwindow_text_pixel_size (window, Qnil, Qnil, Qnil, make_fixnum (w->pixel_height), Qnil); /* Add the frame's internal border to calculated size. */ width = XFIXNUM (Fcar (size)) + 2 * FRAME_INTERNAL_BORDER_WIDTH (tip_f); height = XFIXNUM (Fcdr (size)) + 2 * FRAME_INTERNAL_BORDER_WIDTH (tip_f); /* Calculate position of tooltip frame. */ compute_tip_xy (tip_f, parms, dx, dy, width, height, &root_x, &root_y); /* Show tooltip frame. */ block_input (); XMoveResizeWindow (FRAME_X_DISPLAY (tip_f), FRAME_X_WINDOW (tip_f), root_x, root_y, width, height); XMapRaised (FRAME_X_DISPLAY (tip_f), FRAME_X_WINDOW (tip_f)); unblock_input (); #ifdef USE_CAIRO x_cr_update_surface_desired_size (tip_f, width, height); #endif /* USE_CAIRO */ w->must_be_updated_p = true; update_single_window (w); flush_frame (tip_f); set_buffer_internal_1 (old_buffer); unbind_to (count_1, Qnil); windows_or_buffers_changed = old_windows_or_buffers_changed; start_timer: /* Let the tip disappear after timeout seconds. */ tip_timer = call3 (intern ("run-at-time"), timeout, Qnil, intern ("x-hide-tip")); return unbind_to (count, Qnil); } DEFUN ("x-hide-tip", Fx_hide_tip, Sx_hide_tip, 0, 0, 0, doc: /* Hide the current tooltip window, if there is any. Value is t if tooltip was open, nil otherwise. */) (void) { return x_hide_tip (!tooltip_reuse_hidden_frame); } DEFUN ("x-double-buffered-p", Fx_double_buffered_p, Sx_double_buffered_p, 0, 1, 0, doc: /* Return t if FRAME is being double buffered. */) (Lisp_Object frame) { struct frame *f = decode_live_frame (frame); return FRAME_X_DOUBLE_BUFFERED_P (f) ? Qt : Qnil; } /*********************************************************************** File selection dialog ***********************************************************************/ DEFUN ("x-uses-old-gtk-dialog", Fx_uses_old_gtk_dialog, Sx_uses_old_gtk_dialog, 0, 0, 0, doc: /* Return t if the old Gtk+ file selection dialog is used. */) (void) { #ifdef USE_GTK if (use_dialog_box && use_file_dialog && window_system_available (SELECTED_FRAME ()) && xg_uses_old_file_dialog ()) return Qt; #endif return Qnil; } #ifdef USE_MOTIF /* Callback for "OK" and "Cancel" on file selection dialog. */ static void file_dialog_cb (Widget widget, XtPointer client_data, XtPointer call_data) { int *result = client_data; XmAnyCallbackStruct *cb = call_data; *result = cb->reason; } /* Callback for unmapping a file selection dialog. This is used to capture the case where a dialog is closed via a window manager's closer button, for example. Using a XmNdestroyCallback didn't work in this case. */ static void file_dialog_unmap_cb (Widget widget, XtPointer client_data, XtPointer call_data) { int *result = client_data; *result = XmCR_CANCEL; } static void clean_up_file_dialog (void *arg) { Widget dialog = arg; /* Clean up. */ block_input (); XtUnmanageChild (dialog); XtDestroyWidget (dialog); x_menu_set_in_use (false); unblock_input (); } DEFUN ("x-file-dialog", Fx_file_dialog, Sx_file_dialog, 2, 5, 0, doc: /* SKIP: real doc in USE_GTK definition in xfns.c. */) (Lisp_Object prompt, Lisp_Object dir, Lisp_Object default_filename, Lisp_Object mustmatch, Lisp_Object only_dir_p) { int result; struct frame *f = SELECTED_FRAME (); Lisp_Object file = Qnil; Lisp_Object decoded_file; Widget dialog, text, help; Arg al[10]; int ac = 0; XmString dir_xmstring, pattern_xmstring; ptrdiff_t count = SPECPDL_INDEX (); check_window_system (f); if (popup_activated ()) error ("Trying to use a menu from within a menu-entry"); CHECK_STRING (prompt); CHECK_STRING (dir); /* Prevent redisplay. */ specbind (Qinhibit_redisplay, Qt); block_input (); /* Create the dialog with PROMPT as title, using DIR as initial directory and using "*" as pattern. */ dir = Fexpand_file_name (dir, Qnil); dir_xmstring = XmStringCreateLocalized (SSDATA (dir)); pattern_xmstring = XmStringCreateLocalized ("*"); XtSetArg (al[ac], XmNtitle, SDATA (prompt)); ++ac; XtSetArg (al[ac], XmNdirectory, dir_xmstring); ++ac; XtSetArg (al[ac], XmNpattern, pattern_xmstring); ++ac; XtSetArg (al[ac], XmNresizePolicy, XmRESIZE_GROW); ++ac; XtSetArg (al[ac], XmNdialogStyle, XmDIALOG_APPLICATION_MODAL); ++ac; dialog = XmCreateFileSelectionDialog (f->output_data.x->widget, "fsb", al, ac); XmStringFree (dir_xmstring); XmStringFree (pattern_xmstring); /* Add callbacks for OK and Cancel. */ XtAddCallback (dialog, XmNokCallback, file_dialog_cb, (XtPointer) &result); XtAddCallback (dialog, XmNcancelCallback, file_dialog_cb, (XtPointer) &result); XtAddCallback (dialog, XmNunmapCallback, file_dialog_unmap_cb, (XtPointer) &result); /* Remove the help button since we can't display help. */ help = XmFileSelectionBoxGetChild (dialog, XmDIALOG_HELP_BUTTON); XtUnmanageChild (help); /* Mark OK button as default. */ XtVaSetValues (XmFileSelectionBoxGetChild (dialog, XmDIALOG_OK_BUTTON), XmNshowAsDefault, True, NULL); /* If MUSTMATCH is non-nil, disable the file entry field of the dialog, so that the user must select a file from the files list box. We can't remove it because we wouldn't have a way to get at the result file name, then. */ text = XmFileSelectionBoxGetChild (dialog, XmDIALOG_TEXT); if (!NILP (mustmatch)) { Widget label; label = XmFileSelectionBoxGetChild (dialog, XmDIALOG_SELECTION_LABEL); XtSetSensitive (text, False); XtSetSensitive (label, False); } /* Manage the dialog, so that list boxes get filled. */ XtManageChild (dialog); if (STRINGP (default_filename)) { XmString default_xmstring; Widget wtext = XmFileSelectionBoxGetChild (dialog, XmDIALOG_TEXT); Widget list = XmFileSelectionBoxGetChild (dialog, XmDIALOG_LIST); XmTextPosition last_pos = XmTextFieldGetLastPosition (wtext); XmTextFieldReplace (wtext, 0, last_pos, (SSDATA (Ffile_name_nondirectory (default_filename)))); /* Select DEFAULT_FILENAME in the files list box. DEFAULT_FILENAME must include the path for this to work. */ default_xmstring = XmStringCreateLocalized (SSDATA (default_filename)); if (XmListItemExists (list, default_xmstring)) { int item_pos = XmListItemPos (list, default_xmstring); /* Select the item and scroll it into view. */ XmListSelectPos (list, item_pos, True); XmListSetPos (list, item_pos); } XmStringFree (default_xmstring); } record_unwind_protect_ptr (clean_up_file_dialog, dialog); /* Process events until the user presses Cancel or OK. */ x_menu_set_in_use (true); result = 0; while (result == 0) { XEvent event; x_menu_wait_for_event (0); XtAppNextEvent (Xt_app_con, &event); if (event.type == KeyPress && FRAME_X_DISPLAY (f) == event.xkey.display) { KeySym keysym = XLookupKeysym (&event.xkey, 0); /* Pop down on C-g. */ if (keysym == XK_g && (event.xkey.state & ControlMask) != 0) XtUnmanageChild (dialog); } (void) x_dispatch_event (&event, FRAME_X_DISPLAY (f)); } /* Get the result. */ if (result == XmCR_OK) { XmString text_string; String data; XtVaGetValues (dialog, XmNtextString, &text_string, NULL); XmStringGetLtoR (text_string, XmFONTLIST_DEFAULT_TAG, &data); XmStringFree (text_string); file = build_string (data); XtFree (data); } else file = Qnil; unblock_input (); /* Make "Cancel" equivalent to C-g. */ if (NILP (file)) quit (); decoded_file = DECODE_FILE (file); return unbind_to (count, decoded_file); } #endif /* USE_MOTIF */ #ifdef USE_GTK static void clean_up_dialog (void) { x_menu_set_in_use (false); } DEFUN ("x-file-dialog", Fx_file_dialog, Sx_file_dialog, 2, 5, 0, doc: /* Read file name, prompting with PROMPT in directory DIR. Use a file selection dialog. Select DEFAULT-FILENAME in the dialog's file selection box, if specified. If MUSTMATCH is non-nil, the returned file or directory must exist. This function is defined only on NS, MS Windows, and X Windows with the Motif or Gtk toolkits. With the Motif toolkit, ONLY-DIR-P is ignored. Otherwise, if ONLY-DIR-P is non-nil, the user can select only directories. On MS Windows 7 and later, the file selection dialog "remembers" the last directory where the user selected a file, and will open that directory instead of DIR on subsequent invocations of this function with the same value of DIR as in previous invocations; this is standard MS Windows behavior. */) (Lisp_Object prompt, Lisp_Object dir, Lisp_Object default_filename, Lisp_Object mustmatch, Lisp_Object only_dir_p) { struct frame *f = SELECTED_FRAME (); char *fn; Lisp_Object file = Qnil; Lisp_Object decoded_file; ptrdiff_t count = SPECPDL_INDEX (); char *cdef_file; check_window_system (f); if (popup_activated ()) error ("Trying to use a menu from within a menu-entry"); else x_menu_set_in_use (true); CHECK_STRING (prompt); CHECK_STRING (dir); /* Prevent redisplay. */ specbind (Qinhibit_redisplay, Qt); record_unwind_protect_void (clean_up_dialog); block_input (); if (STRINGP (default_filename)) cdef_file = SSDATA (default_filename); else cdef_file = SSDATA (dir); fn = xg_get_file_name (f, SSDATA (prompt), cdef_file, ! NILP (mustmatch), ! NILP (only_dir_p)); if (fn) { file = build_string (fn); xfree (fn); } unblock_input (); /* Make "Cancel" equivalent to C-g. */ if (NILP (file)) quit (); decoded_file = DECODE_FILE (file); return unbind_to (count, decoded_file); } #ifdef HAVE_FREETYPE DEFUN ("x-select-font", Fx_select_font, Sx_select_font, 0, 2, 0, doc: /* Read a font using a GTK dialog. Return either a font spec (for GTK versions >= 3.2) or a string containing a GTK-style font name. FRAME is the frame on which to pop up the font chooser. If omitted or nil, it defaults to the selected frame. */) (Lisp_Object frame, Lisp_Object ignored) { struct frame *f = decode_window_system_frame (frame); Lisp_Object font; Lisp_Object font_param; char *default_name = NULL; ptrdiff_t count = SPECPDL_INDEX (); if (popup_activated ()) error ("Trying to use a menu from within a menu-entry"); else x_menu_set_in_use (true); /* Prevent redisplay. */ specbind (Qinhibit_redisplay, Qt); record_unwind_protect_void (clean_up_dialog); block_input (); XSETFONT (font, FRAME_FONT (f)); font_param = Ffont_get (font, QCname); if (STRINGP (font_param)) default_name = xlispstrdup (font_param); else { font_param = Fframe_parameter (frame, Qfont_parameter); if (STRINGP (font_param)) default_name = xlispstrdup (font_param); } font = xg_get_font (f, default_name); xfree (default_name); unblock_input (); if (NILP (font)) quit (); return unbind_to (count, font); } #endif /* HAVE_FREETYPE */ #endif /* USE_GTK */ /*********************************************************************** Keyboard ***********************************************************************/ #ifdef HAVE_XKB #include #include #endif DEFUN ("x-backspace-delete-keys-p", Fx_backspace_delete_keys_p, Sx_backspace_delete_keys_p, 0, 1, 0, doc: /* Check if both Backspace and Delete keys are on the keyboard of FRAME. FRAME nil means use the selected frame. Value is t if we know that both keys are present, and are mapped to the usual X keysyms. Value is `lambda' if we cannot determine if both keys are present and mapped to the usual X keysyms. */) (Lisp_Object frame) { #ifndef HAVE_XKB return Qlambda; #else XkbDescPtr kb; struct frame *f = decode_window_system_frame (frame); Display *dpy = FRAME_X_DISPLAY (f); Lisp_Object have_keys; int major, minor, op, event, error_code; block_input (); /* Check library version in case we're dynamically linked. */ major = XkbMajorVersion; minor = XkbMinorVersion; if (!XkbLibraryVersion (&major, &minor)) { unblock_input (); return Qlambda; } /* Check that the server supports XKB. */ major = XkbMajorVersion; minor = XkbMinorVersion; if (!XkbQueryExtension (dpy, &op, &event, &error_code, &major, &minor)) { unblock_input (); return Qlambda; } /* In this code we check that the keyboard has physical keys with names that start with BKSP (Backspace) and DELE (Delete), and that they generate keysym XK_BackSpace and XK_Delete respectively. This function is used to test if normal-erase-is-backspace should be turned on. An alternative approach would be to just check if XK_BackSpace and XK_Delete are mapped to any key. But if any of those are mapped to some non-intuitive key combination (Meta-Shift-Ctrl-whatever) and the user doesn't know about it, it is better to return false here. It is more obvious to the user what to do if she/he has two keys clearly marked with names/symbols and one key does something not expected (i.e. she/he then tries the other). The cases where Backspace/Delete is mapped to some other key combination are rare, and in those cases, normal-erase-is-backspace can be turned on manually. */ have_keys = Qnil; kb = XkbGetMap (dpy, XkbAllMapComponentsMask, XkbUseCoreKbd); if (kb) { int delete_keycode = 0, backspace_keycode = 0, i; if (XkbGetNames (dpy, XkbAllNamesMask, kb) == Success) { for (i = kb->min_key_code; (i < kb->max_key_code && (delete_keycode == 0 || backspace_keycode == 0)); ++i) { /* The XKB symbolic key names can be seen most easily in the PS file generated by `xkbprint -label name $DISPLAY'. */ if (memcmp ("DELE", kb->names->keys[i].name, 4) == 0) delete_keycode = i; else if (memcmp ("BKSP", kb->names->keys[i].name, 4) == 0) backspace_keycode = i; } XkbFreeNames (kb, 0, True); } /* As of libX11-1.6.2, XkbGetMap manual says that you should use XkbFreeClientMap to free the data returned by XkbGetMap. But this function just frees the data referenced from KB and not KB itself. To free KB as well, call XkbFreeKeyboard. */ XkbFreeKeyboard (kb, XkbAllMapComponentsMask, True); if (delete_keycode && backspace_keycode && XKeysymToKeycode (dpy, XK_Delete) == delete_keycode && XKeysymToKeycode (dpy, XK_BackSpace) == backspace_keycode) have_keys = Qt; } unblock_input (); return have_keys; #endif } /*********************************************************************** Printing ***********************************************************************/ #ifdef USE_CAIRO DEFUN ("x-export-frames", Fx_export_frames, Sx_export_frames, 0, 2, 0, doc: /* Return image data of FRAMES in TYPE format. FRAMES should be nil (the selected frame), a frame, or a list of frames (each of which corresponds to one page). Each frame should be visible. Optional arg TYPE should be either `pdf' (default), `png', `postscript', or `svg'. Supported types are determined by the compile-time configuration of cairo. Note: Text drawn with the `x' font backend is shown with hollow boxes unless TYPE is `png'. */) (Lisp_Object frames, Lisp_Object type) { Lisp_Object rest, tmp; cairo_surface_type_t surface_type; if (!CONSP (frames)) frames = list1 (frames); tmp = Qnil; for (rest = frames; CONSP (rest); rest = XCDR (rest)) { struct frame *f = decode_window_system_frame (XCAR (rest)); Lisp_Object frame; XSETFRAME (frame, f); if (!FRAME_VISIBLE_P (f)) error ("Frames to be exported must be visible."); tmp = Fcons (frame, tmp); } frames = Fnreverse (tmp); #ifdef CAIRO_HAS_PDF_SURFACE if (NILP (type) || EQ (type, Qpdf)) surface_type = CAIRO_SURFACE_TYPE_PDF; else #endif #ifdef CAIRO_HAS_PNG_FUNCTIONS if (EQ (type, Qpng)) { if (!NILP (XCDR (frames))) error ("PNG export cannot handle multiple frames."); surface_type = CAIRO_SURFACE_TYPE_IMAGE; } else #endif #ifdef CAIRO_HAS_PS_SURFACE if (EQ (type, Qpostscript)) surface_type = CAIRO_SURFACE_TYPE_PS; else #endif #ifdef CAIRO_HAS_SVG_SURFACE if (EQ (type, Qsvg)) { /* For now, we stick to SVG 1.1. */ if (!NILP (XCDR (frames))) error ("SVG export cannot handle multiple frames."); surface_type = CAIRO_SURFACE_TYPE_SVG; } else #endif error ("Unsupported export type"); return x_cr_export_frames (frames, surface_type); } #ifdef USE_GTK DEFUN ("x-page-setup-dialog", Fx_page_setup_dialog, Sx_page_setup_dialog, 0, 0, 0, doc: /* Pop up a page setup dialog. The current page setup can be obtained using `x-get-page-setup'. */) (void) { block_input (); xg_page_setup_dialog (); unblock_input (); return Qnil; } DEFUN ("x-get-page-setup", Fx_get_page_setup, Sx_get_page_setup, 0, 0, 0, doc: /* Return the value of the current page setup. The return value is an alist containing the following keys: orientation: page orientation (symbol `portrait', `landscape', `reverse-portrait', or `reverse-landscape'). width, height: page width/height in points not including margins. left-margin, right-margin, top-margin, bottom-margin: print margins, which is the parts of the page that the printer cannot print on, in points. The paper width can be obtained as the sum of width, left-margin, and right-margin values if the page orientation is `portrait' or `reverse-portrait'. Otherwise, it is the sum of width, top-margin, and bottom-margin values. Likewise, the paper height is the sum of height, top-margin, and bottom-margin values if the page orientation is `portrait' or `reverse-portrait'. Otherwise, it is the sum of height, left-margin, and right-margin values. */) (void) { Lisp_Object result; block_input (); result = xg_get_page_setup (); unblock_input (); return result; } DEFUN ("x-print-frames-dialog", Fx_print_frames_dialog, Sx_print_frames_dialog, 0, 1, "", doc: /* Pop up a print dialog to print the current contents of FRAMES. FRAMES should be nil (the selected frame), a frame, or a list of frames (each of which corresponds to one page). Each frame should be visible. Note: Text drawn with the `x' font backend is shown with hollow boxes. */) (Lisp_Object frames) { Lisp_Object rest, tmp; int count; if (!CONSP (frames)) frames = list1 (frames); tmp = Qnil; for (rest = frames; CONSP (rest); rest = XCDR (rest)) { struct frame *f = decode_window_system_frame (XCAR (rest)); Lisp_Object frame; XSETFRAME (frame, f); if (!FRAME_VISIBLE_P (f)) error ("Frames to be printed must be visible."); tmp = Fcons (frame, tmp); } frames = Fnreverse (tmp); /* Make sure the current matrices are up-to-date. */ count = SPECPDL_INDEX (); specbind (Qredisplay_dont_pause, Qt); redisplay_preserve_echo_area (32); unbind_to (count, Qnil); block_input (); xg_print_frames_dialog (frames); unblock_input (); return Qnil; } #endif /* USE_GTK */ #endif /* USE_CAIRO */ #ifdef USE_GTK #ifdef HAVE_GTK3 #if GTK_CHECK_VERSION (3, 14, 0) DEFUN ("x-gtk-debug", Fx_gtk_debug, Sx_gtk_debug, 1, 1, 0, doc: /* Toggle interactive GTK debugging. */) (Lisp_Object enable) { gboolean enable_debug = !NILP (enable); block_input (); gtk_window_set_interactive_debugging (enable_debug); unblock_input (); return NILP (enable) ? Qnil : Qt; } #endif /* GTK_CHECK_VERSION (3, 14, 0) */ #endif /* HAVE_GTK3 */ #endif /* USE_GTK */ /*********************************************************************** Initialization ***********************************************************************/ /* Keep this list in the same order as frame_parms in frame.c. Use 0 for unsupported frame parameters. */ frame_parm_handler x_frame_parm_handlers[] = { gui_set_autoraise, gui_set_autolower, x_set_background_color, x_set_border_color, gui_set_border_width, x_set_cursor_color, x_set_cursor_type, gui_set_font, x_set_foreground_color, x_set_icon_name, x_set_icon_type, x_set_internal_border_width, gui_set_right_divider_width, gui_set_bottom_divider_width, x_set_menu_bar_lines, x_set_mouse_color, x_explicitly_set_name, gui_set_scroll_bar_width, gui_set_scroll_bar_height, x_set_title, gui_set_unsplittable, gui_set_vertical_scroll_bars, gui_set_horizontal_scroll_bars, gui_set_visibility, x_set_tab_bar_lines, x_set_tool_bar_lines, x_set_scroll_bar_foreground, x_set_scroll_bar_background, gui_set_screen_gamma, gui_set_line_spacing, gui_set_left_fringe, gui_set_right_fringe, x_set_wait_for_wm, gui_set_fullscreen, gui_set_font_backend, gui_set_alpha, x_set_sticky, x_set_tool_bar_position, x_set_inhibit_double_buffering, x_set_undecorated, x_set_parent_frame, x_set_skip_taskbar, x_set_no_focus_on_map, x_set_no_accept_focus, x_set_z_group, x_set_override_redirect, gui_set_no_special_glyphs, }; void syms_of_xfns (void) { DEFSYM (Qundefined_color, "undefined-color"); DEFSYM (Qcompound_text, "compound-text"); DEFSYM (Qcancel_timer, "cancel-timer"); DEFSYM (Qfont_parameter, "font-parameter"); DEFSYM (Qmono, "mono"); DEFSYM (Qassq_delete_all, "assq-delete-all"); DEFSYM (Qhide, "hide"); DEFSYM (Qresize_mode, "resize-mode"); #ifdef USE_CAIRO DEFSYM (Qpdf, "pdf"); DEFSYM (Qorientation, "orientation"); DEFSYM (Qtop_margin, "top-margin"); DEFSYM (Qbottom_margin, "bottom-margin"); DEFSYM (Qportrait, "portrait"); DEFSYM (Qlandscape, "landscape"); DEFSYM (Qreverse_portrait, "reverse-portrait"); DEFSYM (Qreverse_landscape, "reverse-landscape"); #endif Fput (Qundefined_color, Qerror_conditions, pure_list (Qundefined_color, Qerror)); Fput (Qundefined_color, Qerror_message, build_pure_c_string ("Undefined color")); DEFVAR_LISP ("x-pointer-shape", Vx_pointer_shape, doc: /* The shape of the pointer when over text. Changing the value does not affect existing frames unless you set the mouse color. */); Vx_pointer_shape = Qnil; #if false /* This doesn't really do anything. */ DEFVAR_LISP ("x-nontext-pointer-shape", Vx_nontext_pointer_shape, doc: /* The shape of the pointer when not over text. This variable takes effect when you create a new frame or when you set the mouse color. */); #endif Vx_nontext_pointer_shape = Qnil; DEFVAR_LISP ("x-hourglass-pointer-shape", Vx_hourglass_pointer_shape, doc: /* The shape of the pointer when Emacs is busy. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_hourglass_pointer_shape = Qnil; #if false /* This doesn't really do anything. */ DEFVAR_LISP ("x-mode-pointer-shape", Vx_mode_pointer_shape, doc: /* The shape of the pointer when over the mode line. This variable takes effect when you create a new frame or when you set the mouse color. */); #endif Vx_mode_pointer_shape = Qnil; DEFVAR_LISP ("x-sensitive-text-pointer-shape", Vx_sensitive_text_pointer_shape, doc: /* The shape of the pointer when over mouse-sensitive text. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_sensitive_text_pointer_shape = Qnil; DEFVAR_LISP ("x-window-horizontal-drag-cursor", Vx_window_horizontal_drag_shape, doc: /* Pointer shape to use for indicating a window can be dragged horizontally. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_horizontal_drag_shape = Qnil; DEFVAR_LISP ("x-window-vertical-drag-cursor", Vx_window_vertical_drag_shape, doc: /* Pointer shape to use for indicating a window can be dragged vertically. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_vertical_drag_shape = Qnil; DEFVAR_LISP ("x-window-left-edge-cursor", Vx_window_left_edge_shape, doc: /* Pointer shape indicating a left x-window edge can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_left_edge_shape = Qnil; DEFVAR_LISP ("x-window-top-left-corner-cursor", Vx_window_top_left_corner_shape, doc: /* Pointer shape indicating a top left x-window corner can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_top_left_corner_shape = Qnil; DEFVAR_LISP ("x-window-top-edge-cursor", Vx_window_top_edge_shape, doc: /* Pointer shape indicating a top x-window edge can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_top_edge_shape = Qnil; DEFVAR_LISP ("x-window-top-right-corner-cursor", Vx_window_top_right_corner_shape, doc: /* Pointer shape indicating a top right x-window corner can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_top_right_corner_shape = Qnil; DEFVAR_LISP ("x-window-right-edge-cursor", Vx_window_right_edge_shape, doc: /* Pointer shape indicating a right x-window edge can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_right_edge_shape = Qnil; DEFVAR_LISP ("x-window-bottom-right-corner-cursor", Vx_window_bottom_right_corner_shape, doc: /* Pointer shape indicating a bottom right x-window corner can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_bottom_right_corner_shape = Qnil; DEFVAR_LISP ("x-window-bottom-edge-cursor", Vx_window_bottom_edge_shape, doc: /* Pointer shape indicating a bottom x-window edge can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_bottom_edge_shape = Qnil; DEFVAR_LISP ("x-window-bottom-left-corner-cursor", Vx_window_bottom_left_corner_shape, doc: /* Pointer shape indicating a bottom left x-window corner can be dragged. This variable takes effect when you create a new frame or when you set the mouse color. */); Vx_window_bottom_left_corner_shape = Qnil; DEFVAR_LISP ("x-cursor-fore-pixel", Vx_cursor_fore_pixel, doc: /* A string indicating the foreground color of the cursor box. */); Vx_cursor_fore_pixel = Qnil; DEFVAR_LISP ("x-max-tooltip-size", Vx_max_tooltip_size, doc: /* Maximum size for tooltips. Value is a pair (COLUMNS . ROWS). Text larger than this is clipped. */); Vx_max_tooltip_size = Fcons (make_fixnum (80), make_fixnum (40)); DEFVAR_LISP ("x-no-window-manager", Vx_no_window_manager, doc: /* Non-nil if no X window manager is in use. Emacs doesn't try to figure this out; this is always nil unless you set it to something else. */); /* We don't have any way to find this out, so set it to nil and maybe the user would like to set it to t. */ Vx_no_window_manager = Qnil; DEFVAR_LISP ("x-pixel-size-width-font-regexp", Vx_pixel_size_width_font_regexp, doc: /* Regexp matching a font name whose width is the same as `PIXEL_SIZE'. Since Emacs gets the width of a font matching this regexp from the PIXEL_SIZE field of the name, the font-finding mechanism gets faster for such a font. This is especially effective for large fonts such as Chinese, Japanese, and Korean. */); Vx_pixel_size_width_font_regexp = Qnil; /* This is not ifdef:ed, so other builds than GTK can customize it. */ DEFVAR_BOOL ("x-gtk-use-old-file-dialog", x_gtk_use_old_file_dialog, doc: /* Non-nil means prompt with the old GTK file selection dialog. If nil or if the file selection dialog is not available, the new GTK file chooser is used instead. To turn off all file dialogs set the variable `use-file-dialog'. */); x_gtk_use_old_file_dialog = false; DEFVAR_BOOL ("x-gtk-show-hidden-files", x_gtk_show_hidden_files, doc: /* If non-nil, the GTK file chooser will by default show hidden files. Note that this is just the default, there is a toggle button on the file chooser to show or not show hidden files on a case by case basis. */); x_gtk_show_hidden_files = false; DEFVAR_BOOL ("x-gtk-file-dialog-help-text", x_gtk_file_dialog_help_text, doc: /* If non-nil, the GTK file chooser will show additional help text. If more space for files in the file chooser dialog is wanted, set this to nil to turn the additional text off. */); x_gtk_file_dialog_help_text = true; DEFVAR_BOOL ("x-gtk-use-system-tooltips", x_gtk_use_system_tooltips, doc: /* If non-nil with a Gtk+ built Emacs, the Gtk+ tooltip is used. Otherwise use Emacs own tooltip implementation. When using Gtk+ tooltips, the tooltip face is not used. */); x_gtk_use_system_tooltips = true; DEFVAR_LISP ("x-gtk-resize-child-frames", x_gtk_resize_child_frames, doc: /* If non-nil, resize child frames specially with GTK builds. If this is nil, resize child frames like any other frames. This is the default and usually works with most desktops. Some desktop environments (GNOME shell in particular when using the mutter window manager), however, may refuse to resize a child frame when Emacs is built with GTK3. For those environments, the two settings below are provided. If this equals the symbol 'hide', Emacs temporarily hides the child frame during resizing. This approach seems to work reliably, may however induce some flicker when the frame is made visible again. If this equals the symbol 'resize-mode', Emacs uses GTK's resize mode to always trigger an immediate resize of the child frame. This method is deprecated by GTK and may not work in future versions of that toolkit. It also may freeze Emacs when used with other desktop environments. It avoids, however, the unpleasant flicker induced by the hiding approach. This variable is considered a temporary workaround and will be hopefully eliminated in future versions of Emacs. */); x_gtk_resize_child_frames = Qnil; /* Tell Emacs about this window system. */ Fprovide (Qx, Qnil); #ifdef USE_X_TOOLKIT Fprovide (intern_c_string ("x-toolkit"), Qnil); #ifdef USE_MOTIF Fprovide (intern_c_string ("motif"), Qnil); DEFVAR_LISP ("motif-version-string", Vmotif_version_string, doc: /* Version info for LessTif/Motif. */); Vmotif_version_string = build_string (XmVERSION_STRING); #endif /* USE_MOTIF */ #endif /* USE_X_TOOLKIT */ #ifdef USE_GTK /* Provide x-toolkit also for GTK. Internally GTK does not use Xt so it is not an X toolkit in that sense (USE_X_TOOLKIT is not defined). But for a user it is a toolkit for X, and indeed, configure accepts --with-x-toolkit=gtk. */ Fprovide (intern_c_string ("x-toolkit"), Qnil); Fprovide (intern_c_string ("gtk"), Qnil); Fprovide (intern_c_string ("move-toolbar"), Qnil); DEFVAR_LISP ("gtk-version-string", Vgtk_version_string, doc: /* Version info for GTK+. */); { char gtk_version[sizeof ".." + 3 * INT_STRLEN_BOUND (int)]; int len = sprintf (gtk_version, "%d.%d.%d", GTK_MAJOR_VERSION, GTK_MINOR_VERSION, GTK_MICRO_VERSION); Vgtk_version_string = make_pure_string (gtk_version, len, len, false); } #endif /* USE_GTK */ #ifdef USE_CAIRO Fprovide (intern_c_string ("cairo"), Qnil); DEFVAR_LISP ("cairo-version-string", Vcairo_version_string, doc: /* Version info for cairo. */); { char cairo_version[sizeof ".." + 3 * INT_STRLEN_BOUND (int)]; int len = sprintf (cairo_version, "%d.%d.%d", CAIRO_VERSION_MAJOR, CAIRO_VERSION_MINOR, CAIRO_VERSION_MICRO); Vcairo_version_string = make_pure_string (cairo_version, len, len, false); } #endif /* X window properties. */ defsubr (&Sx_change_window_property); defsubr (&Sx_delete_window_property); defsubr (&Sx_window_property); defsubr (&Sx_window_property_attributes); defsubr (&Sxw_display_color_p); defsubr (&Sx_display_grayscale_p); defsubr (&Sxw_color_defined_p); defsubr (&Sxw_color_values); defsubr (&Sx_server_max_request_size); defsubr (&Sx_server_vendor); defsubr (&Sx_server_version); defsubr (&Sx_display_pixel_width); defsubr (&Sx_display_pixel_height); defsubr (&Sx_display_mm_width); defsubr (&Sx_display_mm_height); defsubr (&Sx_display_screens); defsubr (&Sx_display_planes); defsubr (&Sx_display_color_cells); defsubr (&Sx_display_visual_class); defsubr (&Sx_display_backing_store); defsubr (&Sx_display_save_under); defsubr (&Sx_display_monitor_attributes_list); defsubr (&Sx_frame_geometry); defsubr (&Sx_frame_edges); defsubr (&Sx_frame_list_z_order); defsubr (&Sx_frame_restack); defsubr (&Sx_mouse_absolute_pixel_position); defsubr (&Sx_set_mouse_absolute_pixel_position); defsubr (&Sx_wm_set_size_hint); defsubr (&Sx_create_frame); defsubr (&Sx_open_connection); defsubr (&Sx_close_connection); defsubr (&Sx_display_list); defsubr (&Sx_synchronize); defsubr (&Sx_backspace_delete_keys_p); defsubr (&Sx_show_tip); defsubr (&Sx_hide_tip); defsubr (&Sx_double_buffered_p); tip_timer = Qnil; staticpro (&tip_timer); tip_frame = Qnil; staticpro (&tip_frame); tip_last_frame = Qnil; staticpro (&tip_last_frame); tip_last_string = Qnil; staticpro (&tip_last_string); tip_last_parms = Qnil; staticpro (&tip_last_parms); defsubr (&Sx_uses_old_gtk_dialog); #if defined (USE_MOTIF) || defined (USE_GTK) defsubr (&Sx_file_dialog); #endif #if defined (USE_GTK) && defined (HAVE_FREETYPE) defsubr (&Sx_select_font); #endif #ifdef USE_CAIRO defsubr (&Sx_export_frames); #ifdef USE_GTK defsubr (&Sx_page_setup_dialog); defsubr (&Sx_get_page_setup); defsubr (&Sx_print_frames_dialog); #endif #endif #ifdef USE_GTK #ifdef HAVE_GTK3 #if GTK_CHECK_VERSION (3, 14, 0) defsubr (&Sx_gtk_debug); #endif #endif #endif }