/* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009-2010 Michael Stapelberg and contributors (see also: LICENSE) * */ #include #include #include #include #include "all.h" /* After mapping/unmapping windows, a notify event is generated. However, we don’t want it, since it’d trigger an infinite loop of switching between the different windows when changing workspaces */ static SLIST_HEAD(ignore_head, Ignore_Event) ignore_events; void add_ignore_event(const int sequence) { struct Ignore_Event *event = smalloc(sizeof(struct Ignore_Event)); event->sequence = sequence; event->added = time(NULL); SLIST_INSERT_HEAD(&ignore_events, event, ignore_events); } /* * Checks if the given sequence is ignored and returns true if so. * */ static bool event_is_ignored(const int sequence) { struct Ignore_Event *event; time_t now = time(NULL); for (event = SLIST_FIRST(&ignore_events); event != SLIST_END(&ignore_events);) { if ((now - event->added) > 5) { struct Ignore_Event *save = event; event = SLIST_NEXT(event, ignore_events); SLIST_REMOVE(&ignore_events, save, Ignore_Event, ignore_events); free(save); } else event = SLIST_NEXT(event, ignore_events); } SLIST_FOREACH(event, &ignore_events, ignore_events) { if (event->sequence != sequence) continue; /* instead of removing a sequence number we better wait until it gets * garbage collected. it may generate multiple events (there are multiple * enter_notifies for one configure_request, for example). */ //SLIST_REMOVE(&ignore_events, event, Ignore_Event, ignore_events); //free(event); return true; } return false; } /* * There was a key press. We compare this key code with our bindings table and pass * the bound action to parse_command(). * */ int handle_key_press(void *ignored, xcb_connection_t *conn, xcb_key_press_event_t *event) { DLOG("Keypress %d, state raw = %d\n", event->detail, event->state); /* Remove the numlock bit, all other bits are modifiers we can bind to */ uint16_t state_filtered = event->state & ~(xcb_numlock_mask | XCB_MOD_MASK_LOCK); DLOG("(removed numlock, state = %d)\n", state_filtered); /* Only use the lower 8 bits of the state (modifier masks) so that mouse * button masks are filtered out */ state_filtered &= 0xFF; DLOG("(removed upper 8 bits, state = %d)\n", state_filtered); if (xkb_current_group == XkbGroup2Index) state_filtered |= BIND_MODE_SWITCH; DLOG("(checked mode_switch, state %d)\n", state_filtered); /* Find the binding */ Binding *bind = get_binding(state_filtered, event->detail); /* No match? Then the user has Mode_switch enabled but does not have a * specific keybinding. Fall back to the default keybindings (without * Mode_switch). Makes it much more convenient for users of a hybrid * layout (like us, ru). */ if (bind == NULL) { state_filtered &= ~(BIND_MODE_SWITCH); DLOG("no match, new state_filtered = %d\n", state_filtered); if ((bind = get_binding(state_filtered, event->detail)) == NULL) { ELOG("Could not lookup key binding (modifiers %d, keycode %d)\n", state_filtered, event->detail); return 1; } } parse_cmd(bind->command); tree_render(); return 1; } #if 0 /* * Called with coordinates of an enter_notify event or motion_notify event * to check if the user crossed virtual screen boundaries and adjust the * current workspace, if so. * */ static void check_crossing_screen_boundary(uint32_t x, uint32_t y) { Output *output; if ((output = get_output_containing(x, y)) == NULL) { ELOG("ERROR: No such screen\n"); return; } if (output == c_ws->output) return; c_ws->current_row = current_row; c_ws->current_col = current_col; c_ws = output->current_workspace; current_row = c_ws->current_row; current_col = c_ws->current_col; DLOG("We're now on output %p\n", output); /* While usually this function is only called when the user switches * to a different output using his mouse (and thus the output is * empty), it may be that the following race condition occurs: * 1) the user actives a new output (say VGA1). * 2) the cursor is sent to the first pixel of the new VGA1, thus * generating an enter_notify for the screen (the enter_notify * is not yet received by i3). * 3) i3 requeries screen configuration and maps a workspace onto the * new output. * 4) the enter_notify event arrives and c_ws is set to the new * workspace but the existing windows on the new workspace are not * focused. * * Therefore, we re-set the focus here to be sure it’s correct. */ Client *first_client = SLIST_FIRST(&(c_ws->focus_stack)); if (first_client != NULL) set_focus(global_conn, first_client, true); } #endif /* * When the user moves the mouse pointer onto a window, this callback gets called. * */ int handle_enter_notify(void *ignored, xcb_connection_t *conn, xcb_enter_notify_event_t *event) { Con *con; DLOG("enter_notify for %08x, mode = %d, detail %d, serial %d\n", event->event, event->mode, event->detail, event->sequence); DLOG("coordinates %d, %d\n", event->event_x, event->event_y); if (event->mode != XCB_NOTIFY_MODE_NORMAL) { DLOG("This was not a normal notify, ignoring\n"); return 1; } /* Some events are not interesting, because they were not generated * actively by the user, but by reconfiguration of windows */ if (event_is_ignored(event->sequence)) return 1; bool enter_child = false; /* Get container by frame or by child window */ if ((con = con_by_frame_id(event->event)) == NULL) { con = con_by_window_id(event->event); enter_child = true; } /* If not, then the user moved his cursor to the root window. In that case, we adjust c_ws */ if (con == NULL) { DLOG("Getting screen at %d x %d\n", event->root_x, event->root_y); //check_crossing_screen_boundary(event->root_x, event->root_y); return 1; } /* see if the user entered the window on a certain window decoration */ int layout = (enter_child ? con->parent->layout : con->layout); Con *child; TAILQ_FOREACH(child, &(con->nodes_head), nodes) if (rect_contains(child->deco_rect, event->event_x, event->event_y)) { LOG("using child %p / %s instead!\n", child, child->name); con = child; break; } /* for stacked/tabbed layout we do not want to change focus when the user * enters the window at the decoration of any child window. */ if (layout == L_STACKED || layout == L_TABBED) { con = TAILQ_FIRST(&(con->parent->focus_head)); LOG("using focused %p / %s instead\n", con, con->name); } #if 0 if (client->workspace != c_ws && client->workspace->output == c_ws->output) { /* This can happen when a client gets assigned to a different workspace than * the current one (see src/mainx.c:reparent_window). Shortly after it was created, * an enter_notify will follow. */ DLOG("enter_notify for a client on a different workspace but the same screen, ignoring\n"); return 1; } #endif if (config.disable_focus_follows_mouse) return 1; con_focus(con_descend_focused(con)); x_push_changes(croot); return 1; } /* * When the user moves the mouse but does not change the active window * (e.g. when having no windows opened but moving mouse on the root screen * and crossing virtual screen boundaries), this callback gets called. * */ int handle_motion_notify(void *ignored, xcb_connection_t *conn, xcb_motion_notify_event_t *event) { /* Skip events where the pointer was over a child window, we are only * interested in events on the root window. */ if (event->child != 0) return 1; Con *con; if ((con = con_by_frame_id(event->event)) == NULL) { /* TODO; handle root window: */ //check_crossing_screen_boundary(event->root_x, event->root_y); return 1; } if (config.disable_focus_follows_mouse) return 1; if (con->layout != L_DEFAULT) return 1; /* see over which rect the user is */ Con *current; TAILQ_FOREACH(current, &(con->nodes_head), nodes) { if (!rect_contains(current->deco_rect, event->event_x, event->event_y)) continue; /* We found the rect, let’s see if this window is focused */ if (TAILQ_FIRST(&(con->focus_head)) == current) return 1; con_focus(current); x_push_changes(croot); return 1; } return 1; } #if 0 /* * Called when the keyboard mapping changes (for example by using Xmodmap), * we need to update our key bindings then (re-translate symbols). * */ int handle_mapping_notify(void *ignored, xcb_connection_t *conn, xcb_mapping_notify_event_t *event) { if (event->request != XCB_MAPPING_KEYBOARD && event->request != XCB_MAPPING_MODIFIER) return 0; DLOG("Received mapping_notify for keyboard or modifier mapping, re-grabbing keys\n"); xcb_refresh_keyboard_mapping(keysyms, event); xcb_get_numlock_mask(conn); ungrab_all_keys(conn); translate_keysyms(); grab_all_keys(conn, false); return 0; } #endif /* * A new window appeared on the screen (=was mapped), so let’s manage it. * */ int handle_map_request(void *prophs, xcb_connection_t *conn, xcb_map_request_event_t *event) { xcb_get_window_attributes_cookie_t cookie; cookie = xcb_get_window_attributes_unchecked(conn, event->window); DLOG("window = 0x%08x, serial is %d.\n", event->window, event->sequence); add_ignore_event(event->sequence); manage_window(event->window, cookie, false); x_push_changes(croot); return 1; } /* * Configure requests are received when the application wants to resize windows on their own. * * We generate a synthethic configure notify event to signalize the client its "new" position. * */ int handle_configure_request(void *prophs, xcb_connection_t *conn, xcb_configure_request_event_t *event) { Con *con; DLOG("window 0x%08x wants to be at %dx%d with %dx%d\n", event->window, event->x, event->y, event->width, event->height); /* For unmanaged windows, we just execute the configure request. As soon as * it gets mapped, we will take over anyways. */ if ((con = con_by_window_id(event->window)) == NULL) { DLOG("Configure request for unmanaged window, can do that.\n"); uint32_t mask = 0; uint32_t values[7]; int c = 0; #define COPY_MASK_MEMBER(mask_member, event_member) do { \ if (event->value_mask & mask_member) { \ mask |= mask_member; \ values[c++] = event->event_member; \ } \ } while (0) COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_X, x); COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_Y, y); COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_WIDTH, width); COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_HEIGHT, height); COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_BORDER_WIDTH, border_width); COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_SIBLING, sibling); COPY_MASK_MEMBER(XCB_CONFIG_WINDOW_STACK_MODE, stack_mode); xcb_configure_window(conn, event->window, mask, values); xcb_flush(conn); return 1; } DLOG("Configure request!\n"); if (con_is_floating(con) && con_is_leaf(con)) { /* find the height for the decorations */ i3Font *font = load_font(conn, config.font); int deco_height = font->height + 5; /* we actually need to apply the size/position changes to the *parent* * container */ Rect bsr = con_border_style_rect(con); if (con->border_style == BS_NORMAL) { bsr.y += deco_height; bsr.height -= deco_height; } con = con->parent; DLOG("Container is a floating leaf node, will do that.\n"); if (event->value_mask & XCB_CONFIG_WINDOW_X) { con->rect.x = event->x + (-1) * bsr.x; DLOG("proposed x = %d, new x is %d\n", event->x, con->rect.x); } if (event->value_mask & XCB_CONFIG_WINDOW_Y) { con->rect.y = event->y + (-1) * bsr.y; DLOG("proposed y = %d, new y is %d\n", event->y, con->rect.y); } if (event->value_mask & XCB_CONFIG_WINDOW_WIDTH) { con->rect.width = event->width + (-1) * bsr.width; DLOG("proposed width = %d, new width is %d\n", event->width, con->rect.width); } if (event->value_mask & XCB_CONFIG_WINDOW_HEIGHT) { con->rect.height = event->height + (-1) * bsr.height; DLOG("proposed height = %d, new height is %d\n", event->height, con->rect.height); } tree_render(); } fake_absolute_configure_notify(con); return 1; #if 0 /* Dock clients can be reconfigured in their height */ if (client->dock) { DLOG("Reconfiguring height of this dock client\n"); if (!(event->value_mask & XCB_CONFIG_WINDOW_HEIGHT)) { DLOG("Ignoring configure request, no height given\n"); return 1; } client->desired_height = event->height; render_workspace(conn, c_ws->output, c_ws); xcb_flush(conn); return 1; } if (client->fullscreen) { DLOG("Client is in fullscreen mode\n"); Rect child_rect = client->container->workspace->rect; child_rect.x = child_rect.y = 0; fake_configure_notify(conn, child_rect, client->child); return 1; } fake_absolute_configure_notify(conn, client); return 1; #endif } #if 0 /* * Configuration notifies are only handled because we need to set up ignore for * the following enter notify events. * */ int handle_configure_event(void *prophs, xcb_connection_t *conn, xcb_configure_notify_event_t *event) { DLOG("configure_event, sequence %d\n", event->sequence); /* We ignore this sequence twice because events for child and frame should be ignored */ add_ignore_event(event->sequence); add_ignore_event(event->sequence); return 1; } #endif /* * Gets triggered upon a RandR screen change event, that is when the user * changes the screen configuration in any way (mode, position, …) * */ int handle_screen_change(void *prophs, xcb_connection_t *conn, xcb_generic_event_t *e) { DLOG("RandR screen change\n"); randr_query_outputs(); ipc_send_event("output", I3_IPC_EVENT_OUTPUT, "{\"change\":\"unspecified\"}"); return 1; } /* * Our window decorations were unmapped. That means, the window will be killed * now, so we better clean up before. * */ int handle_unmap_notify_event(void *data, xcb_connection_t *conn, xcb_unmap_notify_event_t *event) { /* FIXME: we cannot ignore this sequence because more UnmapNotifys with the same sequence * numbers but different window IDs may follow */ /* we need to ignore EnterNotify events which will be generated because a * different window is visible now */ //add_ignore_event(event->sequence); DLOG("UnmapNotify for 0x%08x (received from 0x%08x), serial %d\n", event->window, event->event, event->sequence); Con *con = con_by_window_id(event->window); if (con == NULL) { /* This could also be an UnmapNotify for the frame. We need to * decrement the ignore_unmap counter. */ con = con_by_frame_id(event->window); if (con == NULL) { LOG("Not a managed window, ignoring UnmapNotify event\n"); return 1; } if (con->ignore_unmap > 0) con->ignore_unmap--; DLOG("ignore_unmap = %d for frame of container %p\n", con->ignore_unmap, con); return 1; } if (con->ignore_unmap > 0) { DLOG("ignore_unmap = %d, dec\n", con->ignore_unmap); con->ignore_unmap--; return 1; } tree_close(con, false, false); tree_render(); x_push_changes(croot); return 1; #if 0 if (client == NULL) { DLOG("not a managed window. Ignoring.\n"); /* This was most likely the destroyed frame of a client which is * currently being unmapped, so we add this sequence (again!) to * the ignore list (enter_notify events will get sent for both, * the child and its frame). */ add_ignore_event(event->sequence); return 0; } #endif #if 0 /* Let’s see how many clients there are left on the workspace to delete it if it’s empty */ bool workspace_empty = SLIST_EMPTY(&(client->workspace->focus_stack)); bool workspace_focused = (c_ws == client->workspace); Client *to_focus = (!workspace_empty ? SLIST_FIRST(&(client->workspace->focus_stack)) : NULL); /* If this workspace is currently visible, we don’t delete it */ if (workspace_is_visible(client->workspace)) workspace_empty = false; if (workspace_empty) { client->workspace->output = NULL; ipc_send_event("workspace", I3_IPC_EVENT_WORKSPACE, "{\"change\":\"empty\"}"); } /* Remove the urgency flag if set */ client->urgent = false; workspace_update_urgent_flag(client->workspace); render_layout(conn); #endif return 1; } /* * A destroy notify event is sent when the window is not unmapped, but * immediately destroyed (for example when starting a window and immediately * killing the program which started it). * * We just pass on the event to the unmap notify handler (by copying the * important fields in the event data structure). * */ int handle_destroy_notify_event(void *data, xcb_connection_t *conn, xcb_destroy_notify_event_t *event) { DLOG("destroy notify for 0x%08x, 0x%08x\n", event->event, event->window); xcb_unmap_notify_event_t unmap; unmap.sequence = event->sequence; unmap.event = event->event; unmap.window = event->window; return handle_unmap_notify_event(NULL, conn, &unmap); } /* * Called when a window changes its title * */ int handle_windowname_change(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t atom, xcb_get_property_reply_t *prop) { Con *con; if ((con = con_by_window_id(window)) == NULL || con->window == NULL) return 1; window_update_name(con->window, prop); x_push_changes(croot); return 1; } /* * Handles legacy window name updates (WM_NAME), see also src/window.c, * window_update_name_legacy(). * */ int handle_windowname_change_legacy(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t atom, xcb_get_property_reply_t *prop) { Con *con; if ((con = con_by_window_id(window)) == NULL || con->window == NULL) return 1; window_update_name_legacy(con->window, prop); x_push_changes(croot); return 1; } /* * Updates the client’s WM_CLASS property * */ int handle_windowclass_change(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t atom, xcb_get_property_reply_t *prop) { Con *con; if ((con = con_by_window_id(window)) == NULL || con->window == NULL) return 1; window_update_class(con->window, prop); return 0; } /* * Expose event means we should redraw our windows (= title bar) * */ int handle_expose_event(void *data, xcb_connection_t *conn, xcb_expose_event_t *event) { Con *parent, *con; /* event->count is the number of minimum remaining expose events for this * window, so we skip all events but the last one */ if (event->count != 0) return 1; DLOG("window = %08x\n", event->window); if ((parent = con_by_frame_id(event->window)) == NULL) { LOG("expose event for unknown window, ignoring\n"); return 1; } if (parent->window) x_draw_decoration(parent); TAILQ_FOREACH(con, &(parent->nodes_head), nodes) { DLOG("expose for con %p / %s\n", con, con->name); if (con->window) x_draw_decoration(con); } /* We also need to render the decorations of other Cons nearby the Con * itself to not get overlapping decorations */ TAILQ_FOREACH(con, &(parent->parent->nodes_head), nodes) { DLOG("expose for con %p / %s\n", con, con->name); if (con->window) x_draw_decoration(con); } xcb_flush(conn); return 1; } /* * Handle client messages (EWMH) * */ int handle_client_message(void *data, xcb_connection_t *conn, xcb_client_message_event_t *event) { LOG("ClientMessage for window 0x%08x\n", event->window); if (event->type == atoms[_NET_WM_STATE]) { if (event->format != 32 || event->data.data32[1] != atoms[_NET_WM_STATE_FULLSCREEN]) { DLOG("atom in clientmessage is %d, fullscreen is %d\n", event->data.data32[1], atoms[_NET_WM_STATE_FULLSCREEN]); DLOG("not about fullscreen atom\n"); return 0; } Con *con = con_by_window_id(event->window); if (con == NULL) { DLOG("Could not get window for client message\n"); return 0; } /* Check if the fullscreen state should be toggled */ if ((con->fullscreen_mode != CF_NONE && (event->data.data32[0] == _NET_WM_STATE_REMOVE || event->data.data32[0] == _NET_WM_STATE_TOGGLE)) || (con->fullscreen_mode == CF_NONE && (event->data.data32[0] == _NET_WM_STATE_ADD || event->data.data32[0] == _NET_WM_STATE_TOGGLE))) { DLOG("toggling fullscreen\n"); con_toggle_fullscreen(con); } tree_render(); x_push_changes(croot); } else { ELOG("unhandled clientmessage\n"); return 0; } return 1; } #if 0 int handle_window_type(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t atom, xcb_get_property_reply_t *property) { /* TODO: Implement this one. To do this, implement a little test program which sleep(1)s before changing this property. */ ELOG("_NET_WM_WINDOW_TYPE changed, this is not yet implemented.\n"); return 0; } #endif /* * Handles the size hints set by a window, but currently only the part necessary for displaying * clients proportionally inside their frames (mplayer for example) * * See ICCCM 4.1.2.3 for more details * */ int handle_normal_hints(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t name, xcb_get_property_reply_t *reply) { Con *con = con_by_window_id(window); if (con == NULL) { DLOG("Received WM_NORMAL_HINTS for unknown client\n"); return 1; } xcb_size_hints_t size_hints; //CLIENT_LOG(client); /* If the hints were already in this event, use them, if not, request them */ if (reply != NULL) xcb_get_wm_size_hints_from_reply(&size_hints, reply); else xcb_get_wm_normal_hints_reply(conn, xcb_get_wm_normal_hints_unchecked(conn, con->window->id), &size_hints, NULL); if ((size_hints.flags & XCB_SIZE_HINT_P_MIN_SIZE)) { // TODO: Minimum size is not yet implemented DLOG("Minimum size: %d (width) x %d (height)\n", size_hints.min_width, size_hints.min_height); } bool changed = false; if ((size_hints.flags & XCB_SIZE_HINT_P_RESIZE_INC)) { if (size_hints.width_inc > 0 && size_hints.width_inc < 0xFFFF) if (con->width_increment != size_hints.width_inc) { con->width_increment = size_hints.width_inc; changed = true; } if (size_hints.height_inc > 0 && size_hints.height_inc < 0xFFFF) if (con->height_increment != size_hints.height_inc) { con->height_increment = size_hints.height_inc; changed = true; } if (changed) DLOG("resize increments changed\n"); } int base_width = 0, base_height = 0; /* base_width/height are the desired size of the window. We check if either the program-specified size or the program-specified min-size is available */ if (size_hints.flags & XCB_SIZE_HINT_BASE_SIZE) { base_width = size_hints.base_width; base_height = size_hints.base_height; } else if (size_hints.flags & XCB_SIZE_HINT_P_MIN_SIZE) { /* TODO: is this right? icccm says not */ base_width = size_hints.min_width; base_height = size_hints.min_height; } if (base_width != con->base_width || base_height != con->base_height) { con->base_width = base_width; con->base_height = base_height; DLOG("client's base_height changed to %d\n", base_height); DLOG("client's base_width changed to %d\n", base_width); } /* If no aspect ratio was set or if it was invalid, we ignore the hints */ if (!(size_hints.flags & XCB_SIZE_HINT_P_ASPECT) || (size_hints.min_aspect_num <= 0) || (size_hints.min_aspect_den <= 0)) { goto render_and_return; } /* XXX: do we really use rect here, not window_rect? */ double width = con->rect.width - base_width; double height = con->rect.height - base_height; /* Convert numerator/denominator to a double */ double min_aspect = (double)size_hints.min_aspect_num / size_hints.min_aspect_den; double max_aspect = (double)size_hints.max_aspect_num / size_hints.min_aspect_den; DLOG("Aspect ratio set: minimum %f, maximum %f\n", min_aspect, max_aspect); DLOG("width = %f, height = %f\n", width, height); /* Sanity checks, this is user-input, in a way */ if (max_aspect <= 0 || min_aspect <= 0 || height == 0 || (width / height) <= 0) goto render_and_return; /* Check if we need to set proportional_* variables using the correct ratio */ if ((width / height) < min_aspect) { con->proportional_width = width; con->proportional_height = width / min_aspect; } else if ((width / height) > max_aspect) { con->proportional_width = width; con->proportional_height = width / max_aspect; } else goto render_and_return; render_and_return: tree_render(); return 1; } /* * Handles the WM_HINTS property for extracting the urgency state of the window. * */ int handle_hints(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t name, xcb_get_property_reply_t *reply) { Con *con = con_by_window_id(window); if (con == NULL) { DLOG("Received WM_HINTS for unknown client\n"); return 1; } xcb_wm_hints_t hints; if (reply != NULL) { if (!xcb_get_wm_hints_from_reply(&hints, reply)) return 1; } else { if (!xcb_get_wm_hints_reply(conn, xcb_get_wm_hints_unchecked(conn, con->window->id), &hints, NULL)) return 1; } if (!con->urgent && focused == con) { DLOG("Ignoring urgency flag for current client\n"); return 1; } /* Update the flag on the client directly */ con->urgent = (xcb_wm_hints_get_urgency(&hints) != 0); //CLIENT_LOG(con); LOG("Urgency flag changed to %d\n", con->urgent); workspace_update_urgent_flag(con_get_workspace(con)); #if 0 /* If the workspace this client is on is not visible, we need to redraw * the workspace bar */ if (!workspace_is_visible(client->workspace)) { Output *output = client->workspace->output; render_workspace(conn, output, output->current_workspace); xcb_flush(conn); } #endif return 1; } /* * Handles the transient for hints set by a window, signalizing that this window is a popup window * for some other window. * * See ICCCM 4.1.2.6 for more details * */ int handle_transient_for(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t name, xcb_get_property_reply_t *prop) { Con *con; if ((con = con_by_window_id(window)) == NULL || con->window == NULL) { DLOG("No such window\n"); return 1; } if (prop == NULL) { prop = xcb_get_property_reply(conn, xcb_get_property_unchecked(conn, false, window, WM_TRANSIENT_FOR, WINDOW, 0, 32), NULL); if (prop == NULL) return 1; } window_update_transient_for(con->window, prop); // TODO: put window in floating mode if con->window->transient_for != XCB_NONE: #if 0 if (client->floating == FLOATING_AUTO_OFF) { DLOG("This is a popup window, putting into floating\n"); toggle_floating_mode(conn, client, true); } #endif return 1; } /* * Handles changes of the WM_CLIENT_LEADER atom which specifies if this is a * toolwindow (or similar) and to which window it belongs (logical parent). * */ int handle_clientleader_change(void *data, xcb_connection_t *conn, uint8_t state, xcb_window_t window, xcb_atom_t name, xcb_get_property_reply_t *prop) { Con *con; if ((con = con_by_window_id(window)) == NULL || con->window == NULL) return 1; if (prop == NULL) { prop = xcb_get_property_reply(conn, xcb_get_property_unchecked(conn, false, window, WM_CLIENT_LEADER, WINDOW, 0, 32), NULL); if (prop == NULL) return 1; } window_update_leader(con->window, prop); return 1; }