/* -*- indent-tabs-mode: nil; tab-width: 4; c-basic-offset: 4; -*- client.c for the Openbox window manager Copyright (c) 2006 Mikael Magnusson Copyright (c) 2003-2007 Dana Jansens This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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. See the COPYING file for a copy of the GNU General Public License. */ #include "client.h" #include "debug.h" #include "startupnotify.h" #include "dock.h" #include "xerror.h" #include "screen.h" #include "moveresize.h" #include "place.h" #include "prop.h" #include "extensions.h" #include "frame.h" #include "session.h" #include "event.h" #include "grab.h" #include "focus.h" #include "stacking.h" #include "openbox.h" #include "group.h" #include "config.h" #include "menuframe.h" #include "keyboard.h" #include "mouse.h" #include "render/render.h" #ifdef HAVE_UNISTD_H # include #endif #include #include /*! The event mask to grab on client windows */ #define CLIENT_EVENTMASK (PropertyChangeMask | StructureNotifyMask | \ ColormapChangeMask) #define CLIENT_NOPROPAGATEMASK (ButtonPressMask | ButtonReleaseMask | \ ButtonMotionMask) typedef struct { ObClientDestructor func; gpointer data; } Destructor; GList *client_list = NULL; static GSList *client_destructors = NULL; static void client_get_all(ObClient *self); static void client_toggle_border(ObClient *self, gboolean show); static void client_get_startup_id(ObClient *self); static void client_get_area(ObClient *self); static void client_get_desktop(ObClient *self); static void client_get_state(ObClient *self); static void client_get_layer(ObClient *self); static void client_get_shaped(ObClient *self); static void client_get_mwm_hints(ObClient *self); static void client_get_gravity(ObClient *self); static void client_get_client_machine(ObClient *self); static void client_get_colormap(ObClient *self); static void client_change_allowed_actions(ObClient *self); static void client_change_state(ObClient *self); static void client_change_wm_state(ObClient *self); static void client_apply_startup_state(ObClient *self, gint x, gint y); static void client_restore_session_state(ObClient *self); static void client_restore_session_stacking(ObClient *self); static ObAppSettings *client_get_settings_state(ObClient *self); void client_startup(gboolean reconfig) { if (reconfig) return; client_set_list(); } void client_shutdown(gboolean reconfig) { } void client_add_destructor(ObClientDestructor func, gpointer data) { Destructor *d = g_new(Destructor, 1); d->func = func; d->data = data; client_destructors = g_slist_prepend(client_destructors, d); } void client_remove_destructor(ObClientDestructor func) { GSList *it; for (it = client_destructors; it; it = g_slist_next(it)) { Destructor *d = it->data; if (d->func == func) { g_free(d); client_destructors = g_slist_delete_link(client_destructors, it); break; } } } void client_set_list() { Window *windows, *win_it; GList *it; guint size = g_list_length(client_list); /* create an array of the window ids */ if (size > 0) { windows = g_new(Window, size); win_it = windows; for (it = client_list; it; it = g_list_next(it), ++win_it) *win_it = ((ObClient*)it->data)->window; } else windows = NULL; PROP_SETA32(RootWindow(ob_display, ob_screen), net_client_list, window, (gulong*)windows, size); if (windows) g_free(windows); stacking_set_list(); } /* void client_foreach_transient(ObClient *self, ObClientForeachFunc func, gpointer data) { GSList *it; for (it = self->transients; it; it = g_slist_next(it)) { if (!func(it->data, data)) return; client_foreach_transient(it->data, func, data); } } void client_foreach_ancestor(ObClient *self, ObClientForeachFunc func, gpointer data) { if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) { if (!func(self->transient_for, data)) return; client_foreach_ancestor(self->transient_for, func, data); } else { GSList *it; for (it = self->group->members; it; it = g_slist_next(it)) if (it->data != self && !((ObClient*)it->data)->transient_for) { if (!func(it->data, data)) return; client_foreach_ancestor(it->data, func, data); } } } } */ void client_manage_all() { guint i, j, nchild; Window w, *children; XWMHints *wmhints; XWindowAttributes attrib; XQueryTree(ob_display, RootWindow(ob_display, ob_screen), &w, &w, &children, &nchild); /* remove all icon windows from the list */ for (i = 0; i < nchild; i++) { if (children[i] == None) continue; wmhints = XGetWMHints(ob_display, children[i]); if (wmhints) { if ((wmhints->flags & IconWindowHint) && (wmhints->icon_window != children[i])) for (j = 0; j < nchild; j++) if (children[j] == wmhints->icon_window) { children[j] = None; break; } XFree(wmhints); } } for (i = 0; i < nchild; ++i) { if (children[i] == None) continue; if (XGetWindowAttributes(ob_display, children[i], &attrib)) { if (attrib.override_redirect) continue; if (attrib.map_state != IsUnmapped) client_manage(children[i]); } } XFree(children); } void client_manage(Window window) { ObClient *self; XEvent e; XWindowAttributes attrib; XSetWindowAttributes attrib_set; XWMHints *wmhint; gboolean activate = FALSE; ObAppSettings *settings; gint newx, newy; grab_server(TRUE); /* check if it has already been unmapped by the time we started mapping. the grab does a sync so we don't have to here */ if (XCheckTypedWindowEvent(ob_display, window, DestroyNotify, &e) || XCheckTypedWindowEvent(ob_display, window, UnmapNotify, &e)) { XPutBackEvent(ob_display, &e); ob_debug("Trying to manage unmapped window. Aborting that.\n"); grab_server(FALSE); return; /* don't manage it */ } /* make sure it isn't an override-redirect window */ if (!XGetWindowAttributes(ob_display, window, &attrib) || attrib.override_redirect) { grab_server(FALSE); return; /* don't manage it */ } /* is the window a docking app */ if ((wmhint = XGetWMHints(ob_display, window))) { if ((wmhint->flags & StateHint) && wmhint->initial_state == WithdrawnState) { dock_add(window, wmhint); grab_server(FALSE); XFree(wmhint); return; } XFree(wmhint); } ob_debug("Managing window: %lx\n", window); /* choose the events we want to receive on the CLIENT window */ attrib_set.event_mask = CLIENT_EVENTMASK; attrib_set.do_not_propagate_mask = CLIENT_NOPROPAGATEMASK; XChangeWindowAttributes(ob_display, window, CWEventMask|CWDontPropagate, &attrib_set); /* create the ObClient struct, and populate it from the hints on the window */ self = g_new0(ObClient, 1); self->obwin.type = Window_Client; self->window = window; /* non-zero defaults */ self->wmstate = WithdrawnState; /* make sure it gets updated first time */ self->layer = -1; self->desktop = screen_num_desktops; /* always an invalid value */ self->user_time = CurrentTime; client_get_all(self); /* per-app settings override stuff, and return the settings for other uses too */ settings = client_get_settings_state(self); /* the session should get the last say */ client_restore_session_state(self); client_calc_layer(self); { Time t = sn_app_started(self->startup_id, self->class); if (t) self->user_time = t; } /* update the focus lists, do this before the call to change_state or it can end up in the list twice! */ focus_order_add_new(self); /* remove the client's border (and adjust re gravity) */ client_toggle_border(self, FALSE); /* specify that if we exit, the window should not be destroyed and should be reparented back to root automatically */ XChangeSaveSet(ob_display, window, SetModeInsert); /* create the decoration frame for the client window */ self->frame = frame_new(self); frame_grab_client(self->frame, self); /* do this after we have a frame.. it uses the frame to help determine the WM_STATE to apply. */ client_change_state(self); grab_server(FALSE); stacking_add_nonintrusive(CLIENT_AS_WINDOW(self)); client_restore_session_stacking(self); /* focus the new window? */ if (ob_state() != OB_STATE_STARTING && !self->iconic && /* this means focus=true for window is same as config_focus_new=true */ ((config_focus_new || (settings && settings->focus == 1)) || client_search_focus_parent(self)) && /* this checks for focus=false for the window */ (!settings || settings->focus != 0) && /* note the check against Type_Normal/Dialog, not client_normal(self), which would also include other types. in this case we want more strict rules for focus */ (self->type == OB_CLIENT_TYPE_NORMAL || self->type == OB_CLIENT_TYPE_DIALOG)) { activate = TRUE; } /* get the current position */ newx = self->area.x; newy = self->area.y; /* figure out placement for the window */ if (ob_state() == OB_STATE_RUNNING) { gboolean transient; transient = place_client(self, &newx, &newy, settings); /* make sure the window is visible. */ client_find_onscreen(self, &newx, &newy, self->frame->area.width, self->frame->area.height, /* non-normal clients has less rules, and windows that are being restored from a session do also. we can assume you want it back where you saved it. Clients saying they placed themselves are subjected to harder rules, ones that are placed by place.c or by the user are allowed partially off-screen and on xinerama divides (ie, it is up to the placement routines to avoid the xinerama divides) */ transient || (((self->positioned & PPosition) && !(self->positioned & USPosition)) && client_normal(self) && !self->session)); } /* do this after the window is placed, so the premax/prefullscreen numbers won't be all wacko!! also, this moves the window to the position where it has been placed */ ob_debug("placing window 0x%x at %d, %d with size %d x %d\n", self->window, newx, newy, self->area.width, self->area.height); client_apply_startup_state(self, newx, newy); mouse_grab_for_client(self, TRUE); if (activate) { guint32 last_time = focus_client ? focus_client->user_time : CurrentTime; /* This is focus stealing prevention */ ob_debug("Want to focus new window 0x%x with time %u (last time %u)\n", self->window, self->user_time, last_time); /* if it's on another desktop */ if (!(self->desktop == screen_desktop || self->desktop == DESKTOP_ALL) && /* the timestamp is from before you changed desktops */ self->user_time && screen_desktop_user_time && !event_time_after(self->user_time, screen_desktop_user_time)) { activate = FALSE; } /* If nothing is focused, or a parent was focused, then focus this always */ else if (!focus_client || client_search_focus_parent(self) != NULL) activate = TRUE; else { /* If time stamp is old, don't steal focus */ if (self->user_time && last_time && !event_time_after(self->user_time, last_time)) { activate = FALSE; } /* Don't steal focus from globally active clients. I stole this idea from KWin. It seems nice. */ if (!(focus_client->can_focus || focus_client->focus_notify)) activate = FALSE; } if (!activate) { ob_debug("Focus stealing prevention activated for %s with time %u " "(last time %u)\n", self->title, self->user_time, last_time); /* if the client isn't focused, then hilite it so the user knows it is there */ client_hilite(self, TRUE); } } else { /* This may look rather odd. Well it's because new windows are added to the stacking order non-intrusively. If we're not going to focus the new window or hilite it, then we raise it to the top. This will take affect for things that don't get focused like splash screens. Also if you don't have focus_new enabled, then it's going to get raised to the top. Legacy begets legacy I guess? */ client_raise(self); } /* this has to happen before we try focus the window, but we want it to happen after the client's stacking has been determined or it looks bad */ client_show(self); /* use client_focus instead of client_activate cuz client_activate does stuff like switch desktops etc and I'm not interested in all that when a window maps since its not based on an action from the user like clicking a window to activate it. so keep the new window out of the way but do focus it. */ if (activate) client_activate(self, FALSE, TRUE); /* add to client list/map */ client_list = g_list_append(client_list, self); g_hash_table_insert(window_map, &self->window, self); /* this has to happen after we're in the client_list */ if (STRUT_EXISTS(self->strut)) screen_update_areas(); /* update the list hints */ client_set_list(); ob_debug("Managed window 0x%lx (%s)\n", window, self->class); } void client_unmanage_all() { while (client_list != NULL) client_unmanage(client_list->data); } void client_unmanage(ObClient *self) { guint j; GSList *it; ob_debug("Unmanaging window: %lx (%s) (%s)\n", self->window, self->class, self->title ? self->title : ""); g_assert(self != NULL); /* we dont want events no more. do this before hiding the frame so we don't generate more events */ XSelectInput(ob_display, self->window, NoEventMask); frame_hide(self->frame); /* flush to send the hide to the server quickly */ XFlush(ob_display); /* ignore enter events from the unmap so it doesnt mess with the focus */ event_ignore_queued_enters(); mouse_grab_for_client(self, FALSE); /* remove the window from our save set */ XChangeSaveSet(ob_display, self->window, SetModeDelete); /* update the focus lists */ focus_order_remove(self); /* don't leave an invalid focus_client */ if (self == focus_client) focus_client = NULL; client_list = g_list_remove(client_list, self); stacking_remove(self); g_hash_table_remove(window_map, &self->window); /* once the client is out of the list, update the struts to remove its influence */ if (STRUT_EXISTS(self->strut)) screen_update_areas(); for (it = client_destructors; it; it = g_slist_next(it)) { Destructor *d = it->data; d->func(self, d->data); } /* tell our parent(s) that we're gone */ if (self->transient_for == OB_TRAN_GROUP) { /* transient of group */ for (it = self->group->members; it; it = g_slist_next(it)) if (it->data != self) ((ObClient*)it->data)->transients = g_slist_remove(((ObClient*)it->data)->transients, self); } else if (self->transient_for) { /* transient of window */ self->transient_for->transients = g_slist_remove(self->transient_for->transients, self); } /* tell our transients that we're gone */ for (it = self->transients; it; it = g_slist_next(it)) { if (((ObClient*)it->data)->transient_for != OB_TRAN_GROUP) { ((ObClient*)it->data)->transient_for = NULL; client_calc_layer(it->data); } } /* remove from its group */ if (self->group) { group_remove(self->group, self); self->group = NULL; } /* restore the window's original geometry so it is not lost */ { Rect a = self->area; if (self->fullscreen) a = self->pre_fullscreen_area; else if (self->max_horz || self->max_vert) { if (self->max_horz) { a.x = self->pre_max_area.x; a.width = self->pre_max_area.width; } if (self->max_vert) { a.y = self->pre_max_area.y; a.height = self->pre_max_area.height; } } /* give the client its border back */ client_toggle_border(self, TRUE); self->fullscreen = self->max_horz = self->max_vert = FALSE; self->decorations = 0; /* unmanaged windows have no decor */ client_move_resize(self, a.x, a.y, a.width, a.height); } /* reparent the window out of the frame, and free the frame */ frame_release_client(self->frame, self); self->frame = NULL; if (ob_state() != OB_STATE_EXITING) { /* these values should not be persisted across a window unmapping/mapping */ PROP_ERASE(self->window, net_wm_desktop); PROP_ERASE(self->window, net_wm_state); PROP_ERASE(self->window, wm_state); } else { /* if we're left in an unmapped state, the client wont be mapped. this is bad, since we will no longer be managing the window on restart */ XMapWindow(ob_display, self->window); } ob_debug("Unmanaged window 0x%lx\n", self->window); /* free all data allocated in the client struct */ g_slist_free(self->transients); for (j = 0; j < self->nicons; ++j) g_free(self->icons[j].data); if (self->nicons > 0) g_free(self->icons); g_free(self->title); g_free(self->icon_title); g_free(self->name); g_free(self->class); g_free(self->role); g_free(self->client_machine); g_free(self->sm_client_id); g_free(self); /* update the list hints */ client_set_list(); } static ObAppSettings *client_get_settings_state(ObClient *self) { ObAppSettings *settings = NULL; GSList *it; for (it = config_per_app_settings; it; it = g_slist_next(it)) { ObAppSettings *app = it->data; if ((app->name && !app->class && !strcmp(app->name, self->name)) || (app->class && !app->name && !strcmp(app->class, self->class)) || (app->class && app->name && !strcmp(app->class, self->class) && !strcmp(app->name, self->name))) { ob_debug("Window matching: %s\n", app->name); /* Match if no role was specified in the per app setting, or if the * string matches the beginning of the role, since apps like to set * the role to things like browser-window-23c4b2f */ if (!app->role || !strncmp(app->role, self->role, strlen(app->role))) { /* use this one */ settings = app; break; } } } if (settings) { if (settings->shade != -1) self->shaded = !!settings->shade; if (settings->decor != -1) self->undecorated = !settings->decor; if (settings->iconic != -1) self->iconic = !!settings->iconic; if (settings->skip_pager != -1) self->skip_pager = !!settings->skip_pager; if (settings->skip_taskbar != -1) self->skip_taskbar = !!settings->skip_taskbar; if (settings->max_vert != -1) self->max_vert = !!settings->max_vert; if (settings->max_horz != -1) self->max_horz = !!settings->max_horz; if (settings->fullscreen != -1) self->fullscreen = !!settings->fullscreen; if (settings->desktop < screen_num_desktops || settings->desktop == DESKTOP_ALL) self->desktop = settings->desktop; if (settings->layer == -1) { self->below = TRUE; self->above = FALSE; } else if (settings->layer == 0) { self->below = FALSE; self->above = FALSE; } else if (settings->layer == 1) { self->below = FALSE; self->above = TRUE; } } return settings; } static void client_restore_session_state(ObClient *self) { GList *it; if (!(it = session_state_find(self))) return; self->session = it->data; RECT_SET_POINT(self->area, self->session->x, self->session->y); self->positioned = PPosition; if (self->session->w > 0) self->area.width = self->session->w; if (self->session->h > 0) self->area.height = self->session->h; XResizeWindow(ob_display, self->window, self->area.width, self->area.height); self->desktop = (self->session->desktop == DESKTOP_ALL ? self->session->desktop : MIN(screen_num_desktops - 1, self->session->desktop)); PROP_SET32(self->window, net_wm_desktop, cardinal, self->desktop); self->shaded = self->session->shaded; self->iconic = self->session->iconic; self->skip_pager = self->session->skip_pager; self->skip_taskbar = self->session->skip_taskbar; self->fullscreen = self->session->fullscreen; self->above = self->session->above; self->below = self->session->below; self->max_horz = self->session->max_horz; self->max_vert = self->session->max_vert; } static void client_restore_session_stacking(ObClient *self) { GList *it; if (!self->session) return; it = g_list_find(session_saved_state, self->session); for (it = g_list_previous(it); it; it = g_list_previous(it)) { GList *cit; for (cit = client_list; cit; cit = g_list_next(cit)) if (session_state_cmp(it->data, cit->data)) break; if (cit) { client_calc_layer(self); stacking_below(CLIENT_AS_WINDOW(self), CLIENT_AS_WINDOW(cit->data)); break; } } } void client_move_onscreen(ObClient *self, gboolean rude) { gint x = self->area.x; gint y = self->area.y; if (client_find_onscreen(self, &x, &y, self->frame->area.width, self->frame->area.height, rude)) { client_move(self, x, y); } } gboolean client_find_onscreen(ObClient *self, gint *x, gint *y, gint w, gint h, gboolean rude) { Rect *a; gint ox = *x, oy = *y; frame_client_gravity(self->frame, x, y); /* get where the frame would be */ /* XXX watch for xinerama dead areas */ /* This makes sure windows aren't entirely outside of the screen so you can't see them at all. It makes sure 10% of the window is on the screen at least. At don't let it move itself off the top of the screen, which would hide the titlebar on you. (The user can still do this if they want too, it's only limiting the application. */ if (client_normal(self)) { a = screen_area(self->desktop); if (!self->strut.right && *x + self->frame->area.width/10 >= a->x + a->width - 1) *x = a->x + a->width - self->frame->area.width/10; if (!self->strut.bottom && *y + self->frame->area.height/10 >= a->y + a->height - 1) *y = a->y + a->height - self->frame->area.height/10; if (!self->strut.left && *x + self->frame->area.width*9/10 - 1 < a->x) *x = a->x - self->frame->area.width*9/10; if (!self->strut.top && *y + self->frame->area.height*9/10 - 1 < a->y) *y = a->y - self->frame->area.width*9/10; } /* This here doesn't let windows even a pixel outside the screen, * when called from client_manage, programs placing themselves are * forced completely onscreen, while things like * xterm -geometry resolution-width/2 will work fine. Trying to * place it completely offscreen will be handled in the above code. * Sorry for this confused comment, i am tired. */ if (rude) { /* avoid the xinerama monitor divide while we're at it, * remember to fix the placement stuff to avoid it also and * then remove this XXX */ a = screen_area_monitor(self->desktop, client_monitor(self)); /* dont let windows map into the strut unless they are bigger than the available area */ if (w <= a->width) { if (!self->strut.left && *x < a->x) *x = a->x; if (!self->strut.right && *x + w > a->x + a->width) *x = a->x + a->width - w; } if (h <= a->height) { if (!self->strut.top && *y < a->y) *y = a->y; if (!self->strut.bottom && *y + h > a->y + a->height) *y = a->y + a->height - h; } } frame_frame_gravity(self->frame, x, y); /* get where the client should be */ return ox != *x || oy != *y; } static void client_toggle_border(ObClient *self, gboolean show) { /* adjust our idea of where the client is, based on its border. When the border is removed, the client should now be considered to be in a different position. when re-adding the border to the client, the same operation needs to be reversed. */ gint oldx = self->area.x, oldy = self->area.y; gint x = oldx, y = oldy; switch(self->gravity) { default: case NorthWestGravity: case WestGravity: case SouthWestGravity: break; case NorthEastGravity: case EastGravity: case SouthEastGravity: if (show) x -= self->border_width * 2; else x += self->border_width * 2; break; case NorthGravity: case SouthGravity: case CenterGravity: case ForgetGravity: case StaticGravity: if (show) x -= self->border_width; else x += self->border_width; break; } switch(self->gravity) { default: case NorthWestGravity: case NorthGravity: case NorthEastGravity: break; case SouthWestGravity: case SouthGravity: case SouthEastGravity: if (show) y -= self->border_width * 2; else y += self->border_width * 2; break; case WestGravity: case EastGravity: case CenterGravity: case ForgetGravity: case StaticGravity: if (show) y -= self->border_width; else y += self->border_width; break; } self->area.x = x; self->area.y = y; if (show) { XSetWindowBorderWidth(ob_display, self->window, self->border_width); /* set border_width to 0 because there is no border to add into calculations anymore */ self->border_width = 0; } else XSetWindowBorderWidth(ob_display, self->window, 0); } static void client_get_all(ObClient *self) { client_get_area(self); client_get_mwm_hints(self); /* The transient hint is used to pick a type, but the type can also affect transiency (dialogs are always made transients of their group if they have one). This is Havoc's idea, but it is needed to make some apps work right (eg tsclient). */ client_update_transient_for(self); client_get_type(self);/* this can change the mwmhints for special cases */ client_get_state(self); client_update_transient_for(self); client_update_wmhints(self); client_get_startup_id(self); client_get_desktop(self);/* uses transient data/group/startup id if a desktop is not specified */ client_get_shaped(self); client_get_layer(self); /* if layer hasn't been specified, get it from other sources if possible */ { /* a couple type-based defaults for new windows */ /* this makes sure that these windows appear on all desktops */ if (self->type == OB_CLIENT_TYPE_DESKTOP) self->desktop = DESKTOP_ALL; } client_update_protocols(self); client_get_gravity(self); /* get the attribute gravity */ client_update_normal_hints(self); /* this may override the attribute gravity */ /* got the type, the mwmhints, the protocols, and the normal hints (min/max sizes), so we're ready to set up the decorations/functions */ client_setup_decor_and_functions(self); #ifdef SYNC client_update_sync_request_counter(self); #endif client_get_client_machine(self); client_get_colormap(self); client_update_title(self); client_update_class(self); client_update_sm_client_id(self); client_update_strut(self); client_update_icons(self); client_update_user_time(self); } static void client_get_startup_id(ObClient *self) { if (!(PROP_GETS(self->window, net_startup_id, utf8, &self->startup_id))) if (self->group) PROP_GETS(self->group->leader, net_startup_id, utf8, &self->startup_id); } static void client_get_area(ObClient *self) { XWindowAttributes wattrib; Status ret; ret = XGetWindowAttributes(ob_display, self->window, &wattrib); g_assert(ret != BadWindow); RECT_SET(self->area, wattrib.x, wattrib.y, wattrib.width, wattrib.height); POINT_SET(self->root_pos, wattrib.x, wattrib.y); self->border_width = wattrib.border_width; ob_debug("client area: %d %d %d %d\n", wattrib.x, wattrib.y, wattrib.width, wattrib.height); } static void client_get_desktop(ObClient *self) { guint32 d = screen_num_desktops; /* an always-invalid value */ if (PROP_GET32(self->window, net_wm_desktop, cardinal, &d)) { if (d >= screen_num_desktops && d != DESKTOP_ALL) self->desktop = screen_num_desktops - 1; else self->desktop = d; } else { gboolean trdesk = FALSE; if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) { self->desktop = self->transient_for->desktop; trdesk = TRUE; } else { GSList *it; for (it = self->group->members; it; it = g_slist_next(it)) if (it->data != self && !((ObClient*)it->data)->transient_for) { self->desktop = ((ObClient*)it->data)->desktop; trdesk = TRUE; break; } } } if (!trdesk) { /* try get from the startup-notification protocol */ if (sn_get_desktop(self->startup_id, &self->desktop)) { if (self->desktop >= screen_num_desktops && self->desktop != DESKTOP_ALL) self->desktop = screen_num_desktops - 1; } else /* defaults to the current desktop */ self->desktop = screen_desktop; } } } static void client_get_layer(ObClient *self) { if (!(self->above || self->below)) { if (self->group) { /* apply stuff from the group */ GSList *it; gint layer = -2; for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && !client_search_transient(self, c) && client_normal(self) && client_normal(c)) { layer = MAX(layer, (c->above ? 1 : (c->below ? -1 : 0))); } } switch (layer) { case -1: self->below = TRUE; break; case -2: case 0: break; case 1: self->above = TRUE; break; default: g_assert_not_reached(); break; } } } } static void client_get_state(ObClient *self) { guint32 *state; guint num; if (PROP_GETA32(self->window, net_wm_state, atom, &state, &num)) { gulong i; for (i = 0; i < num; ++i) { if (state[i] == prop_atoms.net_wm_state_modal) self->modal = TRUE; else if (state[i] == prop_atoms.net_wm_state_shaded) self->shaded = TRUE; else if (state[i] == prop_atoms.net_wm_state_hidden) self->iconic = TRUE; else if (state[i] == prop_atoms.net_wm_state_skip_taskbar) self->skip_taskbar = TRUE; else if (state[i] == prop_atoms.net_wm_state_skip_pager) self->skip_pager = TRUE; else if (state[i] == prop_atoms.net_wm_state_fullscreen) self->fullscreen = TRUE; else if (state[i] == prop_atoms.net_wm_state_maximized_vert) self->max_vert = TRUE; else if (state[i] == prop_atoms.net_wm_state_maximized_horz) self->max_horz = TRUE; else if (state[i] == prop_atoms.net_wm_state_above) self->above = TRUE; else if (state[i] == prop_atoms.net_wm_state_below) self->below = TRUE; else if (state[i] == prop_atoms.net_wm_state_demands_attention) self->demands_attention = TRUE; else if (state[i] == prop_atoms.ob_wm_state_undecorated) self->undecorated = TRUE; } g_free(state); } } static void client_get_shaped(ObClient *self) { self->shaped = FALSE; #ifdef SHAPE if (extensions_shape) { gint foo; guint ufoo; gint s; XShapeSelectInput(ob_display, self->window, ShapeNotifyMask); XShapeQueryExtents(ob_display, self->window, &s, &foo, &foo, &ufoo, &ufoo, &foo, &foo, &foo, &ufoo, &ufoo); self->shaped = (s != 0); } #endif } void client_update_transient_for(ObClient *self) { Window t = None; ObClient *target = NULL; if (XGetTransientForHint(ob_display, self->window, &t)) { self->transient = TRUE; if (t != self->window) { /* cant be transient to itself! */ target = g_hash_table_lookup(window_map, &t); /* if this happens then we need to check for it*/ g_assert(target != self); if (target && !WINDOW_IS_CLIENT(target)) { /* this can happen when a dialog is a child of a dockapp, for example */ target = NULL; } /* THIS IS SO ANNOYING ! ! ! ! Let me explain.... have a seat.. Setting the transient_for to Root is actually illegal, however applications from time have done this to specify transient for their group. Now you can do that by being a TYPE_DIALOG and not setting the transient_for hint at all on your window. But people still use Root, and Kwin is very strange in this regard. KWin 3.0 will not consider windows with transient_for set to Root as transient for their group *UNLESS* they are also modal. In that case, it will make them transient for the group. This leads to all sorts of weird behavior from KDE apps which are only tested in KWin. I'd like to follow their behavior just to make this work right with KDE stuff, but that seems wrong. */ if (!target && self->group) { /* not transient to a client, see if it is transient for a group */ if (t == RootWindow(ob_display, ob_screen)) { /* window is a transient for its group! */ target = OB_TRAN_GROUP; } } } } else if (self->group) { if (self->type == OB_CLIENT_TYPE_DIALOG || self->type == OB_CLIENT_TYPE_TOOLBAR || self->type == OB_CLIENT_TYPE_MENU || self->type == OB_CLIENT_TYPE_UTILITY) { self->transient = TRUE; target = OB_TRAN_GROUP; } } else self->transient = FALSE; /* if anything has changed... */ if (target != self->transient_for) { if (self->transient_for == OB_TRAN_GROUP) { /* transient of group */ GSList *it; /* remove from old parents */ for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && !c->transient_for) c->transients = g_slist_remove(c->transients, self); } } else if (self->transient_for != NULL) { /* transient of window */ /* remove from old parent */ self->transient_for->transients = g_slist_remove(self->transient_for->transients, self); } self->transient_for = target; if (self->transient_for == OB_TRAN_GROUP) { /* transient of group */ GSList *it; /* add to new parents */ for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && !c->transient_for) c->transients = g_slist_append(c->transients, self); } /* remove all transients which are in the group, that causes circlular pointer hell of doom */ for (it = self->group->members; it; it = g_slist_next(it)) { GSList *sit, *next; for (sit = self->transients; sit; sit = next) { next = g_slist_next(sit); if (sit->data == it->data) self->transients = g_slist_delete_link(self->transients, sit); } } } else if (self->transient_for != NULL) { /* transient of window */ /* add to new parent */ self->transient_for->transients = g_slist_append(self->transient_for->transients, self); } } } static void client_get_mwm_hints(ObClient *self) { guint num; guint32 *hints; self->mwmhints.flags = 0; /* default to none */ if (PROP_GETA32(self->window, motif_wm_hints, motif_wm_hints, &hints, &num)) { if (num >= OB_MWM_ELEMENTS) { self->mwmhints.flags = hints[0]; self->mwmhints.functions = hints[1]; self->mwmhints.decorations = hints[2]; } g_free(hints); } } void client_get_type(ObClient *self) { guint num, i; guint32 *val; self->type = -1; if (PROP_GETA32(self->window, net_wm_window_type, atom, &val, &num)) { /* use the first value that we know about in the array */ for (i = 0; i < num; ++i) { if (val[i] == prop_atoms.net_wm_window_type_desktop) self->type = OB_CLIENT_TYPE_DESKTOP; else if (val[i] == prop_atoms.net_wm_window_type_dock) self->type = OB_CLIENT_TYPE_DOCK; else if (val[i] == prop_atoms.net_wm_window_type_toolbar) self->type = OB_CLIENT_TYPE_TOOLBAR; else if (val[i] == prop_atoms.net_wm_window_type_menu) self->type = OB_CLIENT_TYPE_MENU; else if (val[i] == prop_atoms.net_wm_window_type_utility) self->type = OB_CLIENT_TYPE_UTILITY; else if (val[i] == prop_atoms.net_wm_window_type_splash) self->type = OB_CLIENT_TYPE_SPLASH; else if (val[i] == prop_atoms.net_wm_window_type_dialog) self->type = OB_CLIENT_TYPE_DIALOG; else if (val[i] == prop_atoms.net_wm_window_type_normal) self->type = OB_CLIENT_TYPE_NORMAL; else if (val[i] == prop_atoms.kde_net_wm_window_type_override) { /* prevent this window from getting any decor or functionality */ self->mwmhints.flags &= (OB_MWM_FLAG_FUNCTIONS | OB_MWM_FLAG_DECORATIONS); self->mwmhints.decorations = 0; self->mwmhints.functions = 0; } if (self->type != (ObClientType) -1) break; /* grab the first legit type */ } g_free(val); } if (self->type == (ObClientType) -1) { /*the window type hint was not set, which means we either classify ourself as a normal window or a dialog, depending on if we are a transient. */ if (self->transient) self->type = OB_CLIENT_TYPE_DIALOG; else self->type = OB_CLIENT_TYPE_NORMAL; } } void client_update_protocols(ObClient *self) { guint32 *proto; guint num_return, i; self->focus_notify = FALSE; self->delete_window = FALSE; if (PROP_GETA32(self->window, wm_protocols, atom, &proto, &num_return)) { for (i = 0; i < num_return; ++i) { if (proto[i] == prop_atoms.wm_delete_window) /* this means we can request the window to close */ self->delete_window = TRUE; else if (proto[i] == prop_atoms.wm_take_focus) /* if this protocol is requested, then the window will be notified whenever we want it to receive focus */ self->focus_notify = TRUE; #ifdef SYNC else if (proto[i] == prop_atoms.net_wm_sync_request) /* if this protocol is requested, then resizing the window will be synchronized between the frame and the client */ self->sync_request = TRUE; #endif } g_free(proto); } } #ifdef SYNC void client_update_sync_request_counter(ObClient *self) { guint32 i; if (PROP_GET32(self->window, net_wm_sync_request_counter, cardinal, &i)) { self->sync_counter = i; } else self->sync_counter = None; } #endif static void client_get_gravity(ObClient *self) { XWindowAttributes wattrib; Status ret; ret = XGetWindowAttributes(ob_display, self->window, &wattrib); g_assert(ret != BadWindow); self->gravity = wattrib.win_gravity; } void client_get_colormap(ObClient *self) { XWindowAttributes wa; if (XGetWindowAttributes(ob_display, self->window, &wa)) client_update_colormap(self, wa.colormap); } void client_update_colormap(ObClient *self, Colormap colormap) { self->colormap = colormap; } void client_update_normal_hints(ObClient *self) { XSizeHints size; glong ret; gint oldgravity = self->gravity; /* defaults */ self->min_ratio = 0.0f; self->max_ratio = 0.0f; SIZE_SET(self->size_inc, 1, 1); SIZE_SET(self->base_size, 0, 0); SIZE_SET(self->min_size, 0, 0); SIZE_SET(self->max_size, G_MAXINT, G_MAXINT); /* get the hints from the window */ if (XGetWMNormalHints(ob_display, self->window, &size, &ret)) { /* normal windows can't request placement! har har if (!client_normal(self)) */ self->positioned = (size.flags & (PPosition|USPosition)); if (size.flags & PWinGravity) { self->gravity = size.win_gravity; /* if the client has a frame, i.e. has already been mapped and is changing its gravity */ if (self->frame && self->gravity != oldgravity) { /* move our idea of the client's position based on its new gravity */ self->area.x = self->frame->area.x; self->area.y = self->frame->area.y; frame_frame_gravity(self->frame, &self->area.x, &self->area.y); } } if (size.flags & PAspect) { if (size.min_aspect.y) self->min_ratio = (gfloat) size.min_aspect.x / size.min_aspect.y; if (size.max_aspect.y) self->max_ratio = (gfloat) size.max_aspect.x / size.max_aspect.y; } if (size.flags & PMinSize) SIZE_SET(self->min_size, size.min_width, size.min_height); if (size.flags & PMaxSize) SIZE_SET(self->max_size, size.max_width, size.max_height); if (size.flags & PBaseSize) SIZE_SET(self->base_size, size.base_width, size.base_height); if (size.flags & PResizeInc && size.width_inc && size.height_inc) SIZE_SET(self->size_inc, size.width_inc, size.height_inc); } } void client_setup_decor_and_functions(ObClient *self) { /* start with everything (cept fullscreen) */ self->decorations = (OB_FRAME_DECOR_TITLEBAR | OB_FRAME_DECOR_HANDLE | OB_FRAME_DECOR_GRIPS | OB_FRAME_DECOR_BORDER | OB_FRAME_DECOR_ICON | OB_FRAME_DECOR_ALLDESKTOPS | OB_FRAME_DECOR_ICONIFY | OB_FRAME_DECOR_MAXIMIZE | OB_FRAME_DECOR_SHADE | OB_FRAME_DECOR_CLOSE); self->functions = (OB_CLIENT_FUNC_RESIZE | OB_CLIENT_FUNC_MOVE | OB_CLIENT_FUNC_ICONIFY | OB_CLIENT_FUNC_MAXIMIZE | OB_CLIENT_FUNC_SHADE | OB_CLIENT_FUNC_CLOSE); if (!(self->min_size.width < self->max_size.width || self->min_size.height < self->max_size.height)) self->functions &= ~OB_CLIENT_FUNC_RESIZE; switch (self->type) { case OB_CLIENT_TYPE_NORMAL: /* normal windows retain all of the possible decorations and functionality, and are the only windows that you can fullscreen */ self->functions |= OB_CLIENT_FUNC_FULLSCREEN; break; case OB_CLIENT_TYPE_DIALOG: case OB_CLIENT_TYPE_UTILITY: /* these windows cannot be maximized */ self->functions &= ~OB_CLIENT_FUNC_MAXIMIZE; break; case OB_CLIENT_TYPE_MENU: case OB_CLIENT_TYPE_TOOLBAR: /* these windows get less functionality */ self->functions &= ~(OB_CLIENT_FUNC_ICONIFY | OB_CLIENT_FUNC_RESIZE); break; case OB_CLIENT_TYPE_DESKTOP: case OB_CLIENT_TYPE_DOCK: case OB_CLIENT_TYPE_SPLASH: /* none of these windows are manipulated by the window manager */ self->decorations = 0; self->functions = 0; break; } /* Mwm Hints are applied subtractively to what has already been chosen for decor and functionality */ if (self->mwmhints.flags & OB_MWM_FLAG_DECORATIONS) { if (! (self->mwmhints.decorations & OB_MWM_DECOR_ALL)) { if (! ((self->mwmhints.decorations & OB_MWM_DECOR_HANDLE) || (self->mwmhints.decorations & OB_MWM_DECOR_TITLE))) { /* if the mwm hints request no handle or title, then all decorations are disabled, but keep the border if that's specified */ if (self->mwmhints.decorations & OB_MWM_DECOR_BORDER) self->decorations = OB_FRAME_DECOR_BORDER; else self->decorations = 0; } } } if (self->mwmhints.flags & OB_MWM_FLAG_FUNCTIONS) { if (! (self->mwmhints.functions & OB_MWM_FUNC_ALL)) { if (! (self->mwmhints.functions & OB_MWM_FUNC_RESIZE)) self->functions &= ~OB_CLIENT_FUNC_RESIZE; if (! (self->mwmhints.functions & OB_MWM_FUNC_MOVE)) self->functions &= ~OB_CLIENT_FUNC_MOVE; /* dont let mwm hints kill any buttons if (! (self->mwmhints.functions & OB_MWM_FUNC_ICONIFY)) self->functions &= ~OB_CLIENT_FUNC_ICONIFY; if (! (self->mwmhints.functions & OB_MWM_FUNC_MAXIMIZE)) self->functions &= ~OB_CLIENT_FUNC_MAXIMIZE; */ /* dont let mwm hints kill the close button if (! (self->mwmhints.functions & MwmFunc_Close)) self->functions &= ~OB_CLIENT_FUNC_CLOSE; */ } } if (!(self->functions & OB_CLIENT_FUNC_SHADE)) self->decorations &= ~OB_FRAME_DECOR_SHADE; if (!(self->functions & OB_CLIENT_FUNC_ICONIFY)) self->decorations &= ~OB_FRAME_DECOR_ICONIFY; if (!(self->functions & OB_CLIENT_FUNC_RESIZE)) self->decorations &= ~OB_FRAME_DECOR_GRIPS; /* can't maximize without moving/resizing */ if (!((self->functions & OB_CLIENT_FUNC_MAXIMIZE) && (self->functions & OB_CLIENT_FUNC_MOVE) && (self->functions & OB_CLIENT_FUNC_RESIZE))) { self->functions &= ~OB_CLIENT_FUNC_MAXIMIZE; self->decorations &= ~OB_FRAME_DECOR_MAXIMIZE; } /* kill the handle on fully maxed windows */ if (self->max_vert && self->max_horz) self->decorations &= ~OB_FRAME_DECOR_HANDLE; /* finally, the user can have requested no decorations, which overrides everything (but doesnt give it a border if it doesnt have one) */ if (self->undecorated) { if (config_theme_keepborder) self->decorations &= OB_FRAME_DECOR_BORDER; else self->decorations = 0; } /* if we don't have a titlebar, then we cannot shade! */ if (!(self->decorations & OB_FRAME_DECOR_TITLEBAR)) self->functions &= ~OB_CLIENT_FUNC_SHADE; /* now we need to check against rules for the client's current state */ if (self->fullscreen) { self->functions &= (OB_CLIENT_FUNC_CLOSE | OB_CLIENT_FUNC_FULLSCREEN | OB_CLIENT_FUNC_ICONIFY); self->decorations = 0; } client_change_allowed_actions(self); if (self->frame) { /* adjust the client's decorations, etc. */ client_reconfigure(self); } } static void client_change_allowed_actions(ObClient *self) { gulong actions[9]; gint num = 0; /* desktop windows are kept on all desktops */ if (self->type != OB_CLIENT_TYPE_DESKTOP) actions[num++] = prop_atoms.net_wm_action_change_desktop; if (self->functions & OB_CLIENT_FUNC_SHADE) actions[num++] = prop_atoms.net_wm_action_shade; if (self->functions & OB_CLIENT_FUNC_CLOSE) actions[num++] = prop_atoms.net_wm_action_close; if (self->functions & OB_CLIENT_FUNC_MOVE) actions[num++] = prop_atoms.net_wm_action_move; if (self->functions & OB_CLIENT_FUNC_ICONIFY) actions[num++] = prop_atoms.net_wm_action_minimize; if (self->functions & OB_CLIENT_FUNC_RESIZE) actions[num++] = prop_atoms.net_wm_action_resize; if (self->functions & OB_CLIENT_FUNC_FULLSCREEN) actions[num++] = prop_atoms.net_wm_action_fullscreen; if (self->functions & OB_CLIENT_FUNC_MAXIMIZE) { actions[num++] = prop_atoms.net_wm_action_maximize_horz; actions[num++] = prop_atoms.net_wm_action_maximize_vert; } PROP_SETA32(self->window, net_wm_allowed_actions, atom, actions, num); /* make sure the window isn't breaking any rules now */ if (!(self->functions & OB_CLIENT_FUNC_SHADE) && self->shaded) { if (self->frame) client_shade(self, FALSE); else self->shaded = FALSE; } if (!(self->functions & OB_CLIENT_FUNC_ICONIFY) && self->iconic) { if (self->frame) client_iconify(self, FALSE, TRUE); else self->iconic = FALSE; } if (!(self->functions & OB_CLIENT_FUNC_FULLSCREEN) && self->fullscreen) { if (self->frame) client_fullscreen(self, FALSE); else self->fullscreen = FALSE; } if (!(self->functions & OB_CLIENT_FUNC_MAXIMIZE) && (self->max_horz || self->max_vert)) { if (self->frame) client_maximize(self, FALSE, 0); else self->max_vert = self->max_horz = FALSE; } } void client_reconfigure(ObClient *self) { /* by making this pass FALSE for user, we avoid the emacs event storm where every configurenotify causes an update in its normal hints, i think this is generally what we want anyways... */ client_configure(self, OB_CORNER_TOPLEFT, self->area.x, self->area.y, self->area.width, self->area.height, FALSE, TRUE); } void client_update_wmhints(ObClient *self) { XWMHints *hints; GSList *it; /* assume a window takes input if it doesnt specify */ self->can_focus = TRUE; if ((hints = XGetWMHints(ob_display, self->window)) != NULL) { if (hints->flags & InputHint) self->can_focus = hints->input; /* only do this when first managing the window *AND* when we aren't starting up! */ if (ob_state() != OB_STATE_STARTING && self->frame == NULL) if (hints->flags & StateHint) self->iconic = hints->initial_state == IconicState; if (!(hints->flags & WindowGroupHint)) hints->window_group = None; /* did the group state change? */ if (hints->window_group != (self->group ? self->group->leader : None)) { /* remove from the old group if there was one */ if (self->group != NULL) { /* remove transients of the group */ for (it = self->group->members; it; it = g_slist_next(it)) self->transients = g_slist_remove(self->transients, it->data); /* remove myself from parents in the group */ if (self->transient_for == OB_TRAN_GROUP) { for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && !c->transient_for) c->transients = g_slist_remove(c->transients, self); } } group_remove(self->group, self); self->group = NULL; } if (hints->window_group != None) { self->group = group_add(hints->window_group, self); /* i can only have transients from the group if i am not transient myself */ if (!self->transient_for) { /* add other transients of the group that are already set up */ for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && c->transient_for == OB_TRAN_GROUP) self->transients = g_slist_append(self->transients, c); } } } /* because the self->transient flag wont change from this call, we don't need to update the window's type and such, only its transient_for, and the transients lists of other windows in the group may be affected */ client_update_transient_for(self); } /* the WM_HINTS can contain an icon */ client_update_icons(self); XFree(hints); } } void client_update_title(ObClient *self) { gchar *data = NULL; gchar *visible = NULL; g_free(self->title); /* try netwm */ if (!PROP_GETS(self->window, net_wm_name, utf8, &data)) { /* try old x stuff */ if (!(PROP_GETS(self->window, wm_name, locale, &data) || PROP_GETS(self->window, wm_name, utf8, &data))) { if (self->transient) { /* GNOME alert windows are not given titles: http://developer.gnome.org/projects/gup/hig/draft_hig_new/windows-alert.html */ data = g_strdup(""); } else data = g_strdup("Unnamed Window"); } } if (self->client_machine) { visible = g_strdup_printf("%s (%s)", data, self->client_machine); g_free(data); } else visible = data; PROP_SETS(self->window, net_wm_visible_name, visible); self->title = visible; if (self->frame) frame_adjust_title(self->frame); /* update the icon title */ data = NULL; g_free(self->icon_title); /* try netwm */ if (!PROP_GETS(self->window, net_wm_icon_name, utf8, &data)) /* try old x stuff */ if (!(PROP_GETS(self->window, wm_icon_name, locale, &data) || PROP_GETS(self->window, wm_icon_name, utf8, &data))) data = g_strdup(self->title); PROP_SETS(self->window, net_wm_visible_icon_name, data); self->icon_title = data; } void client_update_class(ObClient *self) { gchar **data; gchar *s; if (self->name) g_free(self->name); if (self->class) g_free(self->class); if (self->role) g_free(self->role); self->name = self->class = self->role = NULL; if (PROP_GETSS(self->window, wm_class, locale, &data)) { if (data[0]) { self->name = g_strdup(data[0]); if (data[1]) self->class = g_strdup(data[1]); } g_strfreev(data); } if (PROP_GETS(self->window, wm_window_role, locale, &s)) self->role = s; if (self->name == NULL) self->name = g_strdup(""); if (self->class == NULL) self->class = g_strdup(""); if (self->role == NULL) self->role = g_strdup(""); } void client_update_strut(ObClient *self) { guint num; guint32 *data; gboolean got = FALSE; StrutPartial strut; if (PROP_GETA32(self->window, net_wm_strut_partial, cardinal, &data, &num)) { if (num == 12) { got = TRUE; STRUT_PARTIAL_SET(strut, data[0], data[2], data[1], data[3], data[4], data[5], data[8], data[9], data[6], data[7], data[10], data[11]); } g_free(data); } if (!got && PROP_GETA32(self->window, net_wm_strut, cardinal, &data, &num)) { if (num == 4) { const Rect *a; got = TRUE; /* use the screen's width/height */ a = screen_physical_area(); STRUT_PARTIAL_SET(strut, data[0], data[2], data[1], data[3], a->y, a->y + a->height - 1, a->x, a->x + a->width - 1, a->y, a->y + a->height - 1, a->x, a->x + a->width - 1); } g_free(data); } if (!got) STRUT_PARTIAL_SET(strut, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0); if (!STRUT_EQUAL(strut, self->strut)) { self->strut = strut; /* updating here is pointless while we're being mapped cuz we're not in the client list yet */ if (self->frame) screen_update_areas(); } } void client_update_icons(ObClient *self) { guint num; guint32 *data; guint w, h, i, j; for (i = 0; i < self->nicons; ++i) g_free(self->icons[i].data); if (self->nicons > 0) g_free(self->icons); self->nicons = 0; if (PROP_GETA32(self->window, net_wm_icon, cardinal, &data, &num)) { /* figure out how many valid icons are in here */ i = 0; while (num - i > 2) { w = data[i++]; h = data[i++]; i += w * h; if (i > num || w*h == 0) break; ++self->nicons; } self->icons = g_new(ObClientIcon, self->nicons); /* store the icons */ i = 0; for (j = 0; j < self->nicons; ++j) { guint x, y, t; w = self->icons[j].width = data[i++]; h = self->icons[j].height = data[i++]; if (w*h == 0) continue; self->icons[j].data = g_new(RrPixel32, w * h); for (x = 0, y = 0, t = 0; t < w * h; ++t, ++x, ++i) { if (x >= w) { x = 0; ++y; } self->icons[j].data[t] = (((data[i] >> 24) & 0xff) << RrDefaultAlphaOffset) + (((data[i] >> 16) & 0xff) << RrDefaultRedOffset) + (((data[i] >> 8) & 0xff) << RrDefaultGreenOffset) + (((data[i] >> 0) & 0xff) << RrDefaultBlueOffset); } g_assert(i <= num); } g_free(data); } else { XWMHints *hints; if ((hints = XGetWMHints(ob_display, self->window))) { if (hints->flags & IconPixmapHint) { self->nicons++; self->icons = g_new(ObClientIcon, self->nicons); xerror_set_ignore(TRUE); if (!RrPixmapToRGBA(ob_rr_inst, hints->icon_pixmap, (hints->flags & IconMaskHint ? hints->icon_mask : None), &self->icons[self->nicons-1].width, &self->icons[self->nicons-1].height, &self->icons[self->nicons-1].data)){ g_free(&self->icons[self->nicons-1]); self->nicons--; } xerror_set_ignore(FALSE); } XFree(hints); } } /* set the default icon onto the window in theory, this could be a race, but if a window doesn't set an icon or removes it entirely, it's not very likely it is going to set one right away afterwards */ if (self->nicons == 0) { RrPixel32 *icon = ob_rr_theme->def_win_icon; gulong *data; data = g_new(gulong, 48*48+2); data[0] = data[1] = 48; for (i = 0; i < 48*48; ++i) data[i+2] = (((icon[i] >> RrDefaultAlphaOffset) & 0xff) << 24) + (((icon[i] >> RrDefaultRedOffset) & 0xff) << 16) + (((icon[i] >> RrDefaultGreenOffset) & 0xff) << 8) + (((icon[i] >> RrDefaultBlueOffset) & 0xff) << 0); PROP_SETA32(self->window, net_wm_icon, cardinal, data, 48*48+2); g_free(data); } else if (self->frame) /* don't draw the icon empty if we're just setting one now anyways, we'll get the property change any second */ frame_adjust_icon(self->frame); } void client_update_user_time(ObClient *self) { guint32 time; if (PROP_GET32(self->window, net_wm_user_time, cardinal, &time)) { /* we set this every time, not just when it grows, because in practice sometimes time goes backwards! (ntpdate.. yay....) so.. if it goes backward we don't want all windows to stop focusing. we'll just assume noone is setting times older than the last one, cuz that would be pretty stupid anyways */ self->user_time = time; /* ob_debug("window %s user time %u\n", self->title, time); */ } } static void client_get_client_machine(ObClient *self) { gchar *data = NULL; gchar localhost[128]; g_free(self->client_machine); if (PROP_GETS(self->window, wm_client_machine, locale, &data)) { gethostname(localhost, 127); localhost[127] = '\0'; if (strcmp(localhost, data)) self->client_machine = data; } } static void client_change_wm_state(ObClient *self) { gulong state[2]; glong old; old = self->wmstate; if (self->shaded || self->iconic || !self->frame->visible) self->wmstate = IconicState; else self->wmstate = NormalState; if (old != self->wmstate) { PROP_MSG(self->window, kde_wm_change_state, self->wmstate, 1, 0, 0); state[0] = self->wmstate; state[1] = None; PROP_SETA32(self->window, wm_state, wm_state, state, 2); } } static void client_change_state(ObClient *self) { gulong netstate[11]; guint num; num = 0; if (self->modal) netstate[num++] = prop_atoms.net_wm_state_modal; if (self->shaded) netstate[num++] = prop_atoms.net_wm_state_shaded; if (self->iconic) netstate[num++] = prop_atoms.net_wm_state_hidden; if (self->skip_taskbar) netstate[num++] = prop_atoms.net_wm_state_skip_taskbar; if (self->skip_pager) netstate[num++] = prop_atoms.net_wm_state_skip_pager; if (self->fullscreen) netstate[num++] = prop_atoms.net_wm_state_fullscreen; if (self->max_vert) netstate[num++] = prop_atoms.net_wm_state_maximized_vert; if (self->max_horz) netstate[num++] = prop_atoms.net_wm_state_maximized_horz; if (self->above) netstate[num++] = prop_atoms.net_wm_state_above; if (self->below) netstate[num++] = prop_atoms.net_wm_state_below; if (self->demands_attention) netstate[num++] = prop_atoms.net_wm_state_demands_attention; if (self->undecorated) netstate[num++] = prop_atoms.ob_wm_state_undecorated; PROP_SETA32(self->window, net_wm_state, atom, netstate, num); if (self->frame) frame_adjust_state(self->frame); } ObClient *client_search_focus_tree(ObClient *self) { GSList *it; ObClient *ret; for (it = self->transients; it; it = g_slist_next(it)) { if (client_focused(it->data)) return it->data; if ((ret = client_search_focus_tree(it->data))) return ret; } return NULL; } ObClient *client_search_focus_tree_full(ObClient *self) { if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) { return client_search_focus_tree_full(self->transient_for); } else { GSList *it; gboolean recursed = FALSE; for (it = self->group->members; it; it = g_slist_next(it)) if (!((ObClient*)it->data)->transient_for) { ObClient *c; if ((c = client_search_focus_tree_full(it->data))) return c; recursed = TRUE; } if (recursed) return NULL; } } /* this function checks the whole tree, the client_search_focus_tree~ does not, so we need to check this window */ if (client_focused(self)) return self; return client_search_focus_tree(self); } static ObStackingLayer calc_layer(ObClient *self) { ObStackingLayer l; if (self->fullscreen && (client_focused(self) || client_search_focus_tree(self))) l = OB_STACKING_LAYER_FULLSCREEN; else if (self->type == OB_CLIENT_TYPE_DESKTOP) l = OB_STACKING_LAYER_DESKTOP; else if (self->type == OB_CLIENT_TYPE_DOCK) { if (self->below) l = OB_STACKING_LAYER_NORMAL; else l = OB_STACKING_LAYER_ABOVE; } else if (self->above) l = OB_STACKING_LAYER_ABOVE; else if (self->below) l = OB_STACKING_LAYER_BELOW; else l = OB_STACKING_LAYER_NORMAL; return l; } static void client_calc_layer_recursive(ObClient *self, ObClient *orig, ObStackingLayer min, gboolean raised) { ObStackingLayer old, own; GSList *it; old = self->layer; own = calc_layer(self); self->layer = MAX(own, min); for (it = self->transients; it; it = g_slist_next(it)) client_calc_layer_recursive(it->data, orig, self->layer, raised ? raised : self->layer != old); if (!raised && self->layer != old) if (orig->frame) { /* only restack if the original window is managed */ stacking_remove(CLIENT_AS_WINDOW(self)); stacking_add(CLIENT_AS_WINDOW(self)); } } void client_calc_layer(ObClient *self) { ObClient *orig; GSList *it; orig = self; /* transients take on the layer of their parents */ it = client_search_all_top_parents(self); for (; it; it = g_slist_next(it)) client_calc_layer_recursive(it->data, orig, 0, FALSE); } gboolean client_should_show(ObClient *self) { if (self->iconic) return FALSE; if (client_normal(self) && screen_showing_desktop) return FALSE; /* if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) return client_should_show(self->transient_for); else { GSList *it; for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && !c->transient_for) { if (client_should_show(c)) return TRUE; } } } } */ if (self->desktop == screen_desktop || self->desktop == DESKTOP_ALL) return TRUE; return FALSE; } void client_show(ObClient *self) { if (client_should_show(self)) { frame_show(self->frame); } /* According to the ICCCM (sec 4.1.3.1) when a window is not visible, it needs to be in IconicState. This includes when it is on another desktop! */ client_change_wm_state(self); } void client_hide(ObClient *self) { if (!client_should_show(self)) { frame_hide(self->frame); } /* According to the ICCCM (sec 4.1.3.1) when a window is not visible, it needs to be in IconicState. This includes when it is on another desktop! */ client_change_wm_state(self); } void client_showhide(ObClient *self) { if (client_should_show(self)) { frame_show(self->frame); } else { frame_hide(self->frame); } /* According to the ICCCM (sec 4.1.3.1) when a window is not visible, it needs to be in IconicState. This includes when it is on another desktop! */ client_change_wm_state(self); } gboolean client_normal(ObClient *self) { return ! (self->type == OB_CLIENT_TYPE_DESKTOP || self->type == OB_CLIENT_TYPE_DOCK || self->type == OB_CLIENT_TYPE_SPLASH); } static void client_apply_startup_state(ObClient *self, gint x, gint y) { gboolean pos = FALSE; /* has the window's position been configured? */ gint ox, oy; /* save the position, and set self->area for these to use */ ox = self->area.x; oy = self->area.y; self->area.x = x; self->area.y = y; /* set the desktop hint, to make sure that it always exists */ PROP_SET32(self->window, net_wm_desktop, cardinal, self->desktop); /* these are in a carefully crafted order.. */ if (self->iconic) { self->iconic = FALSE; client_iconify(self, TRUE, FALSE); } if (self->fullscreen) { self->fullscreen = FALSE; client_fullscreen(self, TRUE); pos = TRUE; } if (self->undecorated) { self->undecorated = FALSE; client_set_undecorated(self, TRUE); } if (self->shaded) { self->shaded = FALSE; client_shade(self, TRUE); } if (self->demands_attention) { self->demands_attention = FALSE; client_hilite(self, TRUE); } if (self->max_vert && self->max_horz) { self->max_vert = self->max_horz = FALSE; client_maximize(self, TRUE, 0); pos = TRUE; } else if (self->max_vert) { self->max_vert = FALSE; client_maximize(self, TRUE, 2); pos = TRUE; } else if (self->max_horz) { self->max_horz = FALSE; client_maximize(self, TRUE, 1); pos = TRUE; } /* if the client didn't get positioned yet, then do so now call client_move even if the window is not being moved anywhere, because when we reparent it and decorate it, it is getting moved and we need to be telling it so with a ConfigureNotify event. */ if (!pos) { /* use the saved position */ self->area.x = ox; self->area.y = oy; client_move(self, x, y); } /* nothing to do for the other states: skip_taskbar skip_pager modal above below */ } void client_try_configure(ObClient *self, ObCorner anchor, gint *x, gint *y, gint *w, gint *h, gint *logicalw, gint *logicalh, gboolean user) { Rect desired_area = {*x, *y, *w, *h}; /* make the frame recalculate its dimentions n shit without changing anything visible for real, this way the constraints below can work with the updated frame dimensions. */ frame_adjust_area(self->frame, TRUE, TRUE, TRUE); /* work within the prefered sizes given by the window */ if (!(*w == self->area.width && *h == self->area.height)) { gint basew, baseh, minw, minh; /* base size is substituted with min size if not specified */ if (self->base_size.width || self->base_size.height) { basew = self->base_size.width; baseh = self->base_size.height; } else { basew = self->min_size.width; baseh = self->min_size.height; } /* min size is substituted with base size if not specified */ if (self->min_size.width || self->min_size.height) { minw = self->min_size.width; minh = self->min_size.height; } else { minw = self->base_size.width; minh = self->base_size.height; } /* if this is a user-requested resize, then check against min/max sizes */ /* smaller than min size or bigger than max size? */ if (*w > self->max_size.width) *w = self->max_size.width; if (*w < minw) *w = minw; if (*h > self->max_size.height) *h = self->max_size.height; if (*h < minh) *h = minh; *w -= basew; *h -= baseh; /* keep to the increments */ *w /= self->size_inc.width; *h /= self->size_inc.height; /* you cannot resize to nothing */ if (basew + *w < 1) *w = 1 - basew; if (baseh + *h < 1) *h = 1 - baseh; /* save the logical size */ *logicalw = self->size_inc.width > 1 ? *w : *w + basew; *logicalh = self->size_inc.height > 1 ? *h : *h + baseh; *w *= self->size_inc.width; *h *= self->size_inc.height; *w += basew; *h += baseh; /* adjust the height to match the width for the aspect ratios. for this, min size is not substituted for base size ever. */ *w -= self->base_size.width; *h -= self->base_size.height; if (!self->fullscreen) { if (self->min_ratio) if (*h * self->min_ratio > *w) { *h = (gint)(*w / self->min_ratio); /* you cannot resize to nothing */ if (*h < 1) { *h = 1; *w = (gint)(*h * self->min_ratio); } } if (self->max_ratio) if (*h * self->max_ratio < *w) { *h = (gint)(*w / self->max_ratio); /* you cannot resize to nothing */ if (*h < 1) { *h = 1; *w = (gint)(*h * self->min_ratio); } } } *w += self->base_size.width; *h += self->base_size.height; } /* gets the frame's position */ frame_client_gravity(self->frame, x, y); /* these positions are frame positions, not client positions */ /* set the size and position if fullscreen */ if (self->fullscreen) { Rect *a; guint i; i = screen_find_monitor(&desired_area); a = screen_physical_area_monitor(i); *x = a->x; *y = a->y; *w = a->width; *h = a->height; user = FALSE; /* ignore if the client can't be moved/resized when it is entering fullscreen */ } else if (self->max_horz || self->max_vert) { Rect *a; guint i; i = screen_find_monitor(&desired_area); a = screen_area_monitor(self->desktop, i); /* set the size and position if maximized */ if (self->max_horz) { *x = a->x; *w = a->width - self->frame->size.left - self->frame->size.right; } if (self->max_vert) { *y = a->y; *h = a->height - self->frame->size.top - self->frame->size.bottom; } /* maximizing is not allowed if the user can't move+resize the window */ } /* gets the client's position */ frame_frame_gravity(self->frame, x, y); /* these override the above states! if you cant move you can't move! */ if (user) { if (!(self->functions & OB_CLIENT_FUNC_MOVE)) { *x = self->area.x; *y = self->area.y; } if (!(self->functions & OB_CLIENT_FUNC_RESIZE)) { *w = self->area.width; *h = self->area.height; } } g_assert(*w > 0); g_assert(*h > 0); switch (anchor) { case OB_CORNER_TOPLEFT: break; case OB_CORNER_TOPRIGHT: *x -= *w - self->area.width; break; case OB_CORNER_BOTTOMLEFT: *y -= *h - self->area.height; break; case OB_CORNER_BOTTOMRIGHT: *x -= *w - self->area.width; *y -= *h - self->area.height; break; } } void client_configure_full(ObClient *self, ObCorner anchor, gint x, gint y, gint w, gint h, gboolean user, gboolean final, gboolean force_reply) { gint oldw, oldh, oldrx, oldry; gboolean send_resize_client; gboolean moved = FALSE, resized = FALSE, rootmoved = FALSE; guint fdecor = self->frame->decorations; gboolean fhorz = self->frame->max_horz; gint logicalw, logicalh; /* find the new x, y, width, and height (and logical size) */ client_try_configure(self, anchor, &x, &y, &w, &h, &logicalw, &logicalh, user); /* set the logical size if things changed */ if (!(w == self->area.width && h == self->area.height)) SIZE_SET(self->logical_size, logicalw, logicalh); /* figure out if we moved or resized or what */ moved = x != self->area.x || y != self->area.y; resized = w != self->area.width || h != self->area.height; oldw = self->area.width; oldh = self->area.height; RECT_SET(self->area, x, y, w, h); /* for app-requested resizes, always resize if 'resized' is true. for user-requested ones, only resize if final is true, or when resizing in redraw mode */ send_resize_client = ((!user && resized) || (user && (final || (resized && config_resize_redraw)))); /* if the client is enlarging, then resize the client before the frame */ if (send_resize_client && user && (w > oldw || h > oldh)) { XResizeWindow(ob_display, self->window, MAX(w, oldw), MAX(h, oldh)); frame_adjust_client_area(self->frame); } /* find the frame's dimensions and move/resize it */ if (self->decorations != fdecor || self->max_horz != fhorz) moved = resized = TRUE; if (moved || resized) frame_adjust_area(self->frame, moved, resized, FALSE); /* find the client's position relative to the root window */ oldrx = self->root_pos.x; oldry = self->root_pos.y; rootmoved = (oldrx != (signed)(self->frame->area.x + self->frame->size.left - self->border_width) || oldry != (signed)(self->frame->area.y + self->frame->size.top - self->border_width)); if (force_reply || ((!user || (user && final)) && rootmoved)) { XEvent event; POINT_SET(self->root_pos, self->frame->area.x + self->frame->size.left - self->border_width, self->frame->area.y + self->frame->size.top - self->border_width); event.type = ConfigureNotify; event.xconfigure.display = ob_display; event.xconfigure.event = self->window; event.xconfigure.window = self->window; /* root window real coords */ event.xconfigure.x = self->root_pos.x; event.xconfigure.y = self->root_pos.y; event.xconfigure.width = w; event.xconfigure.height = h; event.xconfigure.border_width = 0; event.xconfigure.above = self->frame->plate; event.xconfigure.override_redirect = FALSE; XSendEvent(event.xconfigure.display, event.xconfigure.window, FALSE, StructureNotifyMask, &event); } /* if the client is shrinking, then resize the frame before the client */ if (send_resize_client && (!user || (w <= oldw || h <= oldh))) { frame_adjust_client_area(self->frame); XResizeWindow(ob_display, self->window, w, h); } XFlush(ob_display); } void client_fullscreen(ObClient *self, gboolean fs) { gint x, y, w, h; if (!(self->functions & OB_CLIENT_FUNC_FULLSCREEN) || /* can't */ self->fullscreen == fs) return; /* already done */ self->fullscreen = fs; client_change_state(self); /* change the state hints on the client */ client_calc_layer(self); /* and adjust out layer/stacking */ if (fs) { self->pre_fullscreen_area = self->area; /* if the window is maximized, its area isn't all that meaningful. save it's premax area instead. */ if (self->max_horz) { self->pre_fullscreen_area.x = self->pre_max_area.x; self->pre_fullscreen_area.width = self->pre_max_area.width; } if (self->max_vert) { self->pre_fullscreen_area.y = self->pre_max_area.y; self->pre_fullscreen_area.height = self->pre_max_area.height; } /* these are not actually used cuz client_configure will set them as appropriate when the window is fullscreened */ x = y = w = h = 0; } else { Rect *a; if (self->pre_fullscreen_area.width > 0 && self->pre_fullscreen_area.height > 0) { x = self->pre_fullscreen_area.x; y = self->pre_fullscreen_area.y; w = self->pre_fullscreen_area.width; h = self->pre_fullscreen_area.height; RECT_SET(self->pre_fullscreen_area, 0, 0, 0, 0); } else { /* pick some fallbacks... */ a = screen_area_monitor(self->desktop, 0); x = a->x + a->width / 4; y = a->y + a->height / 4; w = a->width / 2; h = a->height / 2; } } client_setup_decor_and_functions(self); client_move_resize(self, x, y, w, h); /* try focus us when we go into fullscreen mode */ client_focus(self); } static void client_iconify_recursive(ObClient *self, gboolean iconic, gboolean curdesk) { GSList *it; gboolean changed = FALSE; if (self->iconic != iconic) { ob_debug("%sconifying window: 0x%lx\n", (iconic ? "I" : "Uni"), self->window); if (iconic) { if (self->functions & OB_CLIENT_FUNC_ICONIFY) { self->iconic = iconic; /* update the focus lists.. iconic windows go to the bottom of the list, put the new iconic window at the 'top of the bottom'. */ focus_order_to_top(self); changed = TRUE; } } else { self->iconic = iconic; if (curdesk) client_set_desktop(self, screen_desktop, FALSE); /* this puts it after the current focused window */ focus_order_remove(self); focus_order_add_new(self); changed = TRUE; } } if (changed) { client_change_state(self); client_showhide(self); if (STRUT_EXISTS(self->strut)) screen_update_areas(); } /* iconify all direct transients */ for (it = self->transients; it; it = g_slist_next(it)) if (it->data != self) if (client_is_direct_child(self, it->data)) client_iconify_recursive(it->data, iconic, curdesk); } void client_iconify(ObClient *self, gboolean iconic, gboolean curdesk) { /* move up the transient chain as far as possible first */ self = client_search_top_parent(self); client_iconify_recursive(self, iconic, curdesk); } void client_maximize(ObClient *self, gboolean max, gint dir) { gint x, y, w, h; g_assert(dir == 0 || dir == 1 || dir == 2); if (!(self->functions & OB_CLIENT_FUNC_MAXIMIZE)) return; /* can't */ /* check if already done */ if (max) { if (dir == 0 && self->max_horz && self->max_vert) return; if (dir == 1 && self->max_horz) return; if (dir == 2 && self->max_vert) return; } else { if (dir == 0 && !self->max_horz && !self->max_vert) return; if (dir == 1 && !self->max_horz) return; if (dir == 2 && !self->max_vert) return; } /* we just tell it to configure in the same place and client_configure worries about filling the screen with the window */ x = self->area.x; y = self->area.y; w = self->area.width; h = self->area.height; if (max) { if ((dir == 0 || dir == 1) && !self->max_horz) { /* horz */ RECT_SET(self->pre_max_area, self->area.x, self->pre_max_area.y, self->area.width, self->pre_max_area.height); } if ((dir == 0 || dir == 2) && !self->max_vert) { /* vert */ RECT_SET(self->pre_max_area, self->pre_max_area.x, self->area.y, self->pre_max_area.width, self->area.height); } } else { Rect *a; a = screen_area_monitor(self->desktop, 0); if ((dir == 0 || dir == 1) && self->max_horz) { /* horz */ if (self->pre_max_area.width > 0) { x = self->pre_max_area.x; w = self->pre_max_area.width; RECT_SET(self->pre_max_area, 0, self->pre_max_area.y, 0, self->pre_max_area.height); } else { /* pick some fallbacks... */ x = a->x + a->width / 4; w = a->width / 2; } } if ((dir == 0 || dir == 2) && self->max_vert) { /* vert */ if (self->pre_max_area.height > 0) { y = self->pre_max_area.y; h = self->pre_max_area.height; RECT_SET(self->pre_max_area, self->pre_max_area.x, 0, self->pre_max_area.width, 0); } else { /* pick some fallbacks... */ y = a->y + a->height / 4; h = a->height / 2; } } } if (dir == 0 || dir == 1) /* horz */ self->max_horz = max; if (dir == 0 || dir == 2) /* vert */ self->max_vert = max; client_change_state(self); /* change the state hints on the client */ client_setup_decor_and_functions(self); client_move_resize(self, x, y, w, h); } void client_shade(ObClient *self, gboolean shade) { if ((!(self->functions & OB_CLIENT_FUNC_SHADE) && shade) || /* can't shade */ self->shaded == shade) return; /* already done */ self->shaded = shade; client_change_state(self); client_change_wm_state(self); /* the window is being hidden/shown */ /* resize the frame to just the titlebar */ frame_adjust_area(self->frame, FALSE, FALSE, FALSE); } void client_close(ObClient *self) { XEvent ce; if (!(self->functions & OB_CLIENT_FUNC_CLOSE)) return; /* in the case that the client provides no means to requesting that it close, we just kill it */ if (!self->delete_window) client_kill(self); /* XXX: itd be cool to do timeouts and shit here for killing the client's process off like... if the window is around after 5 seconds, then the close button turns a nice red, and if this function is called again, the client is explicitly killed. */ ce.xclient.type = ClientMessage; ce.xclient.message_type = prop_atoms.wm_protocols; ce.xclient.display = ob_display; ce.xclient.window = self->window; ce.xclient.format = 32; ce.xclient.data.l[0] = prop_atoms.wm_delete_window; ce.xclient.data.l[1] = event_curtime; ce.xclient.data.l[2] = 0l; ce.xclient.data.l[3] = 0l; ce.xclient.data.l[4] = 0l; XSendEvent(ob_display, self->window, FALSE, NoEventMask, &ce); } void client_kill(ObClient *self) { XKillClient(ob_display, self->window); } void client_hilite(ObClient *self, gboolean hilite) { if (self->demands_attention == hilite) return; /* no change */ /* don't allow focused windows to hilite */ self->demands_attention = hilite && !client_focused(self); if (self->demands_attention) frame_flash_start(self->frame); else frame_flash_stop(self->frame); client_change_state(self); } void client_set_desktop_recursive(ObClient *self, guint target, gboolean donthide) { guint old; GSList *it; if (target != self->desktop) { ob_debug("Setting desktop %u\n", target+1); g_assert(target < screen_num_desktops || target == DESKTOP_ALL); /* remove from the old desktop(s) */ focus_order_remove(self); old = self->desktop; self->desktop = target; PROP_SET32(self->window, net_wm_desktop, cardinal, target); /* the frame can display the current desktop state */ frame_adjust_state(self->frame); /* 'move' the window to the new desktop */ if (!donthide) client_showhide(self); /* raise if it was not already on the desktop */ if (old != DESKTOP_ALL) client_raise(self); if (STRUT_EXISTS(self->strut)) screen_update_areas(); /* add to the new desktop(s) */ if (config_focus_new) focus_order_to_top(self); else focus_order_to_bottom(self); } /* move all transients */ for (it = self->transients; it; it = g_slist_next(it)) if (it->data != self) if (client_is_direct_child(self, it->data)) client_set_desktop_recursive(it->data, target, donthide); } void client_set_desktop(ObClient *self, guint target, gboolean donthide) { self = client_search_top_parent(self); client_set_desktop_recursive(self, target, donthide); } gboolean client_is_direct_child(ObClient *parent, ObClient *child) { while (child != parent && child->transient_for && child->transient_for != OB_TRAN_GROUP) child = child->transient_for; return child == parent; } ObClient *client_search_modal_child(ObClient *self) { GSList *it; ObClient *ret; for (it = self->transients; it; it = g_slist_next(it)) { ObClient *c = it->data; if ((ret = client_search_modal_child(c))) return ret; if (c->modal) return c; } return NULL; } gboolean client_validate(ObClient *self) { XEvent e; XSync(ob_display, FALSE); /* get all events on the server */ if (XCheckTypedWindowEvent(ob_display, self->window, DestroyNotify, &e) || XCheckTypedWindowEvent(ob_display, self->window, UnmapNotify, &e)) { XPutBackEvent(ob_display, &e); return FALSE; } return TRUE; } void client_set_wm_state(ObClient *self, glong state) { if (state == self->wmstate) return; /* no change */ switch (state) { case IconicState: client_iconify(self, TRUE, TRUE); break; case NormalState: client_iconify(self, FALSE, TRUE); break; } } void client_set_state(ObClient *self, Atom action, glong data1, glong data2) { gboolean shaded = self->shaded; gboolean fullscreen = self->fullscreen; gboolean undecorated = self->undecorated; gboolean max_horz = self->max_horz; gboolean max_vert = self->max_vert; gboolean modal = self->modal; gboolean iconic = self->iconic; gboolean demands_attention = self->demands_attention; gint i; if (!(action == prop_atoms.net_wm_state_add || action == prop_atoms.net_wm_state_remove || action == prop_atoms.net_wm_state_toggle)) /* an invalid action was passed to the client message, ignore it */ return; for (i = 0; i < 2; ++i) { Atom state = i == 0 ? data1 : data2; if (!state) continue; /* if toggling, then pick whether we're adding or removing */ if (action == prop_atoms.net_wm_state_toggle) { if (state == prop_atoms.net_wm_state_modal) action = modal ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_maximized_vert) action = self->max_vert ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_maximized_horz) action = self->max_horz ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_shaded) action = shaded ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_skip_taskbar) action = self->skip_taskbar ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_skip_pager) action = self->skip_pager ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_hidden) action = self->iconic ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_fullscreen) action = fullscreen ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_above) action = self->above ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_below) action = self->below ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.net_wm_state_demands_attention) action = self->demands_attention ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; else if (state == prop_atoms.ob_wm_state_undecorated) action = undecorated ? prop_atoms.net_wm_state_remove : prop_atoms.net_wm_state_add; } if (action == prop_atoms.net_wm_state_add) { if (state == prop_atoms.net_wm_state_modal) { modal = TRUE; } else if (state == prop_atoms.net_wm_state_maximized_vert) { max_vert = TRUE; } else if (state == prop_atoms.net_wm_state_maximized_horz) { max_horz = TRUE; } else if (state == prop_atoms.net_wm_state_shaded) { shaded = TRUE; } else if (state == prop_atoms.net_wm_state_skip_taskbar) { self->skip_taskbar = TRUE; } else if (state == prop_atoms.net_wm_state_skip_pager) { self->skip_pager = TRUE; } else if (state == prop_atoms.net_wm_state_hidden) { iconic = TRUE; } else if (state == prop_atoms.net_wm_state_fullscreen) { fullscreen = TRUE; } else if (state == prop_atoms.net_wm_state_above) { self->above = TRUE; self->below = FALSE; } else if (state == prop_atoms.net_wm_state_below) { self->above = FALSE; self->below = TRUE; } else if (state == prop_atoms.net_wm_state_demands_attention) { demands_attention = TRUE; } else if (state == prop_atoms.ob_wm_state_undecorated) { undecorated = TRUE; } } else { /* action == prop_atoms.net_wm_state_remove */ if (state == prop_atoms.net_wm_state_modal) { modal = FALSE; } else if (state == prop_atoms.net_wm_state_maximized_vert) { max_vert = FALSE; } else if (state == prop_atoms.net_wm_state_maximized_horz) { max_horz = FALSE; } else if (state == prop_atoms.net_wm_state_shaded) { shaded = FALSE; } else if (state == prop_atoms.net_wm_state_skip_taskbar) { self->skip_taskbar = FALSE; } else if (state == prop_atoms.net_wm_state_skip_pager) { self->skip_pager = FALSE; } else if (state == prop_atoms.net_wm_state_hidden) { iconic = FALSE; } else if (state == prop_atoms.net_wm_state_fullscreen) { fullscreen = FALSE; } else if (state == prop_atoms.net_wm_state_above) { self->above = FALSE; } else if (state == prop_atoms.net_wm_state_below) { self->below = FALSE; } else if (state == prop_atoms.net_wm_state_demands_attention) { demands_attention = FALSE; } else if (state == prop_atoms.ob_wm_state_undecorated) { undecorated = FALSE; } } } if (max_horz != self->max_horz || max_vert != self->max_vert) { if (max_horz != self->max_horz && max_vert != self->max_vert) { /* toggling both */ if (max_horz == max_vert) { /* both going the same way */ client_maximize(self, max_horz, 0); } else { client_maximize(self, max_horz, 1); client_maximize(self, max_vert, 2); } } else { /* toggling one */ if (max_horz != self->max_horz) client_maximize(self, max_horz, 1); else client_maximize(self, max_vert, 2); } } /* change fullscreen state before shading, as it will affect if the window can shade or not */ if (fullscreen != self->fullscreen) client_fullscreen(self, fullscreen); if (shaded != self->shaded) client_shade(self, shaded); if (undecorated != self->undecorated) client_set_undecorated(self, undecorated); if (modal != self->modal) { self->modal = modal; /* when a window changes modality, then its stacking order with its transients needs to change */ client_raise(self); } if (iconic != self->iconic) client_iconify(self, iconic, FALSE); if (demands_attention != self->demands_attention) client_hilite(self, demands_attention); client_change_state(self); /* change the hint to reflect these changes */ } ObClient *client_focus_target(ObClient *self) { ObClient *child = NULL; child = client_search_modal_child(self); if (child) return child; return self; } gboolean client_can_focus(ObClient *self) { XEvent ev; /* choose the correct target */ self = client_focus_target(self); if (!self->frame->visible) return FALSE; if (!(self->can_focus || self->focus_notify)) return FALSE; /* do a check to see if the window has already been unmapped or destroyed do this intelligently while watching out for unmaps we've generated (ignore_unmaps > 0) */ if (XCheckTypedWindowEvent(ob_display, self->window, DestroyNotify, &ev)) { XPutBackEvent(ob_display, &ev); return FALSE; } while (XCheckTypedWindowEvent(ob_display, self->window, UnmapNotify, &ev)) { if (self->ignore_unmaps) { self->ignore_unmaps--; } else { XPutBackEvent(ob_display, &ev); return FALSE; } } return TRUE; } gboolean client_focus(ObClient *self) { /* choose the correct target */ self = client_focus_target(self); if (!client_can_focus(self)) { if (!self->frame->visible) { /* update the focus lists */ focus_order_to_top(self); } return FALSE; } ob_debug_type(OB_DEBUG_FOCUS, "Focusing client \"%s\" at time %u\n", self->title, event_curtime); if (self->can_focus) { /* This can cause a BadMatch error with CurrentTime, or if an app passed in a bad time for _NET_WM_ACTIVE_WINDOW. */ xerror_set_ignore(TRUE); XSetInputFocus(ob_display, self->window, RevertToPointerRoot, event_curtime); xerror_set_ignore(FALSE); } if (self->focus_notify) { XEvent ce; ce.xclient.type = ClientMessage; ce.xclient.message_type = prop_atoms.wm_protocols; ce.xclient.display = ob_display; ce.xclient.window = self->window; ce.xclient.format = 32; ce.xclient.data.l[0] = prop_atoms.wm_take_focus; ce.xclient.data.l[1] = event_curtime; ce.xclient.data.l[2] = 0l; ce.xclient.data.l[3] = 0l; ce.xclient.data.l[4] = 0l; XSendEvent(ob_display, self->window, FALSE, NoEventMask, &ce); } #ifdef DEBUG_FOCUS ob_debug("%sively focusing %lx at %d\n", (self->can_focus ? "act" : "pass"), self->window, (gint) event_curtime); #endif /* Cause the FocusIn to come back to us. Important for desktop switches, since otherwise we'll have no FocusIn on the queue and send it off to the focus_backup. */ XSync(ob_display, FALSE); return TRUE; } void client_activate(ObClient *self, gboolean here, gboolean user) { guint32 last_time = focus_client ? focus_client->user_time : CurrentTime; /* XXX do some stuff here if user is false to determine if we really want to activate it or not (a parent or group member is currently active)? */ ob_debug_type(OB_DEBUG_FOCUS, "Want to activate window 0x%x with time %u (last time %u), " "source=%s\n", self->window, event_curtime, last_time, (user ? "user" : "application")); if (!user && event_curtime && last_time && !event_time_after(event_curtime, last_time)) { client_hilite(self, TRUE); } else { if (event_curtime != CurrentTime) self->user_time = event_curtime; /* if using focus_delay, stop the timer now so that focus doesn't go moving on us */ event_halt_focus_delay(); if (client_normal(self) && screen_showing_desktop) screen_show_desktop(FALSE); if (self->iconic) client_iconify(self, FALSE, here); if (self->desktop != DESKTOP_ALL && self->desktop != screen_desktop) { if (here) client_set_desktop(self, screen_desktop, FALSE); else screen_set_desktop(self->desktop); } else if (!self->frame->visible) /* if its not visible for other reasons, then don't mess with it */ return; if (self->shaded) client_shade(self, FALSE); client_focus(self); /* we do this as an action here. this is rather important. this is because we want the results from the focus change to take place BEFORE we go about raising the window. when a fullscreen window loses focus, we need this or else the raise wont be able to raise above the to-lose-focus fullscreen window. */ client_raise(self); } } void client_raise(ObClient *self) { action_run_string("Raise", self, CurrentTime); } void client_lower(ObClient *self) { action_run_string("Lower", self, CurrentTime); } gboolean client_focused(ObClient *self) { return self == focus_client; } static ObClientIcon* client_icon_recursive(ObClient *self, gint w, gint h) { guint i; /* si is the smallest image >= req */ /* li is the largest image < req */ gulong size, smallest = 0xffffffff, largest = 0, si = 0, li = 0; if (!self->nicons) { ObClientIcon *parent = NULL; if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) parent = client_icon_recursive(self->transient_for, w, h); else { GSList *it; for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (c != self && !c->transient_for) { if ((parent = client_icon_recursive(c, w, h))) break; } } } } return parent; } for (i = 0; i < self->nicons; ++i) { size = self->icons[i].width * self->icons[i].height; if (size < smallest && size >= (unsigned)(w * h)) { smallest = size; si = i; } if (size > largest && size <= (unsigned)(w * h)) { largest = size; li = i; } } if (largest == 0) /* didnt find one smaller than the requested size */ return &self->icons[si]; return &self->icons[li]; } const ObClientIcon* client_icon(ObClient *self, gint w, gint h) { ObClientIcon *ret; static ObClientIcon deficon; if (!(ret = client_icon_recursive(self, w, h))) { deficon.width = deficon.height = 48; deficon.data = ob_rr_theme->def_win_icon; ret = &deficon; } return ret; } void client_set_layer(ObClient *self, gint layer) { if (layer < 0) { self->below = TRUE; self->above = FALSE; } else if (layer == 0) { self->below = self->above = FALSE; } else { self->below = FALSE; self->above = TRUE; } client_calc_layer(self); client_change_state(self); /* reflect this in the state hints */ } void client_set_undecorated(ObClient *self, gboolean undecorated) { if (self->undecorated != undecorated) { self->undecorated = undecorated; client_setup_decor_and_functions(self); /* Make sure the client knows it might have moved. Maybe there is a * better way of doing this so only one client_configure is sent, but * since 125 of these are sent per second when moving the window (with * user = FALSE) i doubt it matters much. */ client_configure(self, OB_CORNER_TOPLEFT, self->area.x, self->area.y, self->area.width, self->area.height, TRUE, TRUE); client_change_state(self); /* reflect this in the state hints */ } } guint client_monitor(ObClient *self) { return screen_find_monitor(&self->frame->area); } ObClient *client_search_top_parent(ObClient *self) { while (self->transient_for && self->transient_for != OB_TRAN_GROUP && client_normal(self)) self = self->transient_for; return self; } GSList *client_search_all_top_parents(ObClient *self) { GSList *ret = NULL; /* move up the direct transient chain as far as possible */ while (self->transient_for && self->transient_for != OB_TRAN_GROUP) self = self->transient_for; if (!self->transient_for) ret = g_slist_prepend(ret, self); else { GSList *it; g_assert(self->group); for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; if (!c->transient_for && client_normal(c)) ret = g_slist_prepend(ret, c); } if (ret == NULL) /* no group parents */ ret = g_slist_prepend(ret, self); } return ret; } ObClient *client_search_focus_parent(ObClient *self) { if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) { if (client_focused(self->transient_for)) return self->transient_for; } else { GSList *it; for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; /* checking transient_for prevents infinate loops! */ if (c != self && !c->transient_for) if (client_focused(c)) return c; } } } return NULL; } ObClient *client_search_parent(ObClient *self, ObClient *search) { if (self->transient_for) { if (self->transient_for != OB_TRAN_GROUP) { if (self->transient_for == search) return search; } else { GSList *it; for (it = self->group->members; it; it = g_slist_next(it)) { ObClient *c = it->data; /* checking transient_for prevents infinate loops! */ if (c != self && !c->transient_for) if (c == search) return search; } } } return NULL; } ObClient *client_search_transient(ObClient *self, ObClient *search) { GSList *sit; for (sit = self->transients; sit; sit = g_slist_next(sit)) { if (sit->data == search) return search; if (client_search_transient(sit->data, search)) return search; } return NULL; } void client_update_sm_client_id(ObClient *self) { g_free(self->sm_client_id); self->sm_client_id = NULL; if (!PROP_GETS(self->window, sm_client_id, locale, &self->sm_client_id) && self->group) PROP_GETS(self->group->leader, sm_client_id, locale, &self->sm_client_id); } #define WANT_EDGE(cur, c) \ if(cur == c) \ continue; \ if(!client_normal(cur)) \ continue; \ if(screen_desktop != cur->desktop && cur->desktop != DESKTOP_ALL) \ continue; \ if(cur->iconic) \ continue; \ if(cur->layer < c->layer && !config_resist_layers_below) \ continue; #define HIT_EDGE(my_edge_start, my_edge_end, his_edge_start, his_edge_end) \ if ((his_edge_start >= my_edge_start && \ his_edge_start <= my_edge_end) || \ (my_edge_start >= his_edge_start && \ my_edge_start <= his_edge_end)) \ dest = his_offset; /* finds the nearest edge in the given direction from the current client * note to self: the edge is the -frame- edge (the actual one), not the * client edge. */ gint client_directional_edge_search(ObClient *c, ObDirection dir, gboolean hang) { gint dest, monitor_dest; gint my_edge_start, my_edge_end, my_offset; GList *it; Rect *a, *monitor; if(!client_list) return -1; a = screen_area(c->desktop); monitor = screen_area_monitor(c->desktop, client_monitor(c)); switch(dir) { case OB_DIRECTION_NORTH: my_edge_start = c->frame->area.x; my_edge_end = c->frame->area.x + c->frame->area.width; my_offset = c->frame->area.y + (hang ? c->frame->area.height : 0); /* default: top of screen */ dest = a->y + (hang ? c->frame->area.height : 0); monitor_dest = monitor->y + (hang ? c->frame->area.height : 0); /* if the monitor edge comes before the screen edge, */ /* use that as the destination instead. (For xinerama) */ if (monitor_dest != dest && my_offset > monitor_dest) dest = monitor_dest; for(it = client_list; it && my_offset != dest; it = g_list_next(it)) { gint his_edge_start, his_edge_end, his_offset; ObClient *cur = it->data; WANT_EDGE(cur, c) his_edge_start = cur->frame->area.x; his_edge_end = cur->frame->area.x + cur->frame->area.width; his_offset = cur->frame->area.y + (hang ? 0 : cur->frame->area.height); if(his_offset + 1 > my_offset) continue; if(his_offset < dest) continue; HIT_EDGE(my_edge_start, my_edge_end, his_edge_start, his_edge_end) } break; case OB_DIRECTION_SOUTH: my_edge_start = c->frame->area.x; my_edge_end = c->frame->area.x + c->frame->area.width; my_offset = c->frame->area.y + (hang ? 0 : c->frame->area.height); /* default: bottom of screen */ dest = a->y + a->height - (hang ? c->frame->area.height : 0); monitor_dest = monitor->y + monitor->height - (hang ? c->frame->area.height : 0); /* if the monitor edge comes before the screen edge, */ /* use that as the destination instead. (For xinerama) */ if (monitor_dest != dest && my_offset < monitor_dest) dest = monitor_dest; for(it = client_list; it && my_offset != dest; it = g_list_next(it)) { gint his_edge_start, his_edge_end, his_offset; ObClient *cur = it->data; WANT_EDGE(cur, c) his_edge_start = cur->frame->area.x; his_edge_end = cur->frame->area.x + cur->frame->area.width; his_offset = cur->frame->area.y + (hang ? cur->frame->area.height : 0); if(his_offset - 1 < my_offset) continue; if(his_offset > dest) continue; HIT_EDGE(my_edge_start, my_edge_end, his_edge_start, his_edge_end) } break; case OB_DIRECTION_WEST: my_edge_start = c->frame->area.y; my_edge_end = c->frame->area.y + c->frame->area.height; my_offset = c->frame->area.x + (hang ? c->frame->area.width : 0); /* default: leftmost egde of screen */ dest = a->x + (hang ? c->frame->area.width : 0); monitor_dest = monitor->x + (hang ? c->frame->area.width : 0); /* if the monitor edge comes before the screen edge, */ /* use that as the destination instead. (For xinerama) */ if (monitor_dest != dest && my_offset > monitor_dest) dest = monitor_dest; for(it = client_list; it && my_offset != dest; it = g_list_next(it)) { gint his_edge_start, his_edge_end, his_offset; ObClient *cur = it->data; WANT_EDGE(cur, c) his_edge_start = cur->frame->area.y; his_edge_end = cur->frame->area.y + cur->frame->area.height; his_offset = cur->frame->area.x + (hang ? 0 : cur->frame->area.width); if(his_offset + 1 > my_offset) continue; if(his_offset < dest) continue; HIT_EDGE(my_edge_start, my_edge_end, his_edge_start, his_edge_end) } break; case OB_DIRECTION_EAST: my_edge_start = c->frame->area.y; my_edge_end = c->frame->area.y + c->frame->area.height; my_offset = c->frame->area.x + (hang ? 0 : c->frame->area.width); /* default: rightmost edge of screen */ dest = a->x + a->width - (hang ? c->frame->area.width : 0); monitor_dest = monitor->x + monitor->width - (hang ? c->frame->area.width : 0); /* if the monitor edge comes before the screen edge, */ /* use that as the destination instead. (For xinerama) */ if (monitor_dest != dest && my_offset < monitor_dest) dest = monitor_dest; for(it = client_list; it && my_offset != dest; it = g_list_next(it)) { gint his_edge_start, his_edge_end, his_offset; ObClient *cur = it->data; WANT_EDGE(cur, c) his_edge_start = cur->frame->area.y; his_edge_end = cur->frame->area.y + cur->frame->area.height; his_offset = cur->frame->area.x + (hang ? cur->frame->area.width : 0); if(his_offset - 1 < my_offset) continue; if(his_offset > dest) continue; HIT_EDGE(my_edge_start, my_edge_end, his_edge_start, his_edge_end) } break; case OB_DIRECTION_NORTHEAST: case OB_DIRECTION_SOUTHEAST: case OB_DIRECTION_NORTHWEST: case OB_DIRECTION_SOUTHWEST: /* not implemented */ default: g_assert_not_reached(); dest = 0; /* suppress warning */ } return dest; } ObClient* client_under_pointer() { gint x, y; GList *it; ObClient *ret = NULL; if (screen_pointer_pos(&x, &y)) { for (it = stacking_list; it; it = g_list_next(it)) { if (WINDOW_IS_CLIENT(it->data)) { ObClient *c = WINDOW_AS_CLIENT(it->data); if (c->frame->visible && RECT_CONTAINS(c->frame->area, x, y)) { ret = c; break; } } } } return ret; } gboolean client_has_group_siblings(ObClient *self) { return self->group && self->group->members->next; }