#include #include #include #include #include #include #include #include #include #include "handlers.h" #include "border.h" #include "log.h" #include "layout.h" #include "config.h" #include "commands.h" #include "stringop.h" #include "workspace.h" #include "container.h" #include "output.h" #include "focus.h" #include "input_state.h" #include "resize.h" #include "extensions.h" #include "criteria.h" #include "ipc-server.h" #include "list.h" #include "input.h" // Event should be sent to client #define EVENT_PASSTHROUGH false // Event handled by sway and should not be sent to client #define EVENT_HANDLED true static struct panel_config *if_panel_find_config(struct wl_client *client) { int i; for (i = 0; i < desktop_shell.panels->length; i++) { struct panel_config *config = desktop_shell.panels->items[i]; if (config->client == client) { return config; } } return NULL; } static struct background_config *if_background_find_config(struct wl_client *client) { int i; for (i = 0; i < desktop_shell.backgrounds->length; i++) { struct background_config *config = desktop_shell.backgrounds->items[i]; if (config->client == client) { return config; } } return NULL; } static struct wlc_geometry compute_panel_geometry(struct panel_config *config) { const struct wlc_size resolution = *wlc_output_get_resolution(config->output); const struct wlc_geometry *old = wlc_view_get_geometry(config->handle); struct wlc_geometry new; switch (config->panel_position) { case DESKTOP_SHELL_PANEL_POSITION_TOP: new.origin.x = 0; new.origin.y = 0; new.size.w = resolution.w; new.size.h = old->size.h; break; case DESKTOP_SHELL_PANEL_POSITION_BOTTOM: new.origin.x = 0; new.origin.y = resolution.h - old->size.h; new.size.w = resolution.w; new.size.h = old->size.h; break; case DESKTOP_SHELL_PANEL_POSITION_LEFT: new.origin.x = 0; new.origin.y = 0; new.size.w = old->size.w; new.size.h = resolution.h; break; case DESKTOP_SHELL_PANEL_POSITION_RIGHT: new.origin.x = resolution.w - old->size.w; new.origin.y = 0; new.size.w = old->size.w; new.size.h = resolution.h; break; } return new; } static void update_panel_geometry(struct panel_config *config) { struct wlc_geometry geometry = compute_panel_geometry(config); wlc_view_set_geometry(config->handle, 0, &geometry); } static void update_panel_geometries(wlc_handle output) { for (int i = 0; i < desktop_shell.panels->length; i++) { struct panel_config *config = desktop_shell.panels->items[i]; if (config->output == output) { update_panel_geometry(config); } } } static void update_background_geometry(struct background_config *config) { struct wlc_geometry geometry = wlc_geometry_zero; geometry.size = *wlc_output_get_resolution(config->output); wlc_view_set_geometry(config->handle, 0, &geometry); } static void update_background_geometries(wlc_handle output) { for (int i = 0; i < desktop_shell.backgrounds->length; i++) { struct background_config *config = desktop_shell.backgrounds->items[i]; if (config->output == output) { update_background_geometry(config); } } } /* Handles */ static bool handle_input_created(struct libinput_device *device) { const char *identifier = libinput_dev_unique_id(device); sway_log(L_INFO, "Found input device (%s)", identifier); list_add(input_devices, device); struct input_config *ic = NULL; int i; for (i = 0; i < config->input_configs->length; ++i) { struct input_config *cur = config->input_configs->items[i]; if (strcasecmp(identifier, cur->identifier) == 0) { ic = cur; break; } } apply_input_config(ic, device); return true; } static void handle_input_destroyed(struct libinput_device *device) { int i; list_t *list = input_devices; for (i = 0; i < list->length; ++i) { if(((struct libinput_device *)list->items[i]) == device) { list_del(list, i); break; } } } static bool handle_output_created(wlc_handle output) { swayc_t *op = new_output(output); // Visibility mask to be able to make view invisible wlc_output_set_mask(output, VISIBLE); if (!op) { return false; } // Switch to workspace if we need to if (swayc_active_workspace() == NULL) { swayc_t *ws = op->children->items[0]; workspace_switch(ws); } // Fixes issues with backgrounds and wlc wlc_handle prev = wlc_get_focused_output(); wlc_output_focus(output); wlc_output_focus(prev); return true; } static void handle_output_destroyed(wlc_handle output) { int i; list_t *list = root_container.children; for (i = 0; i < list->length; ++i) { if (((swayc_t *)list->items[i])->handle == output) { break; } } if (i < list->length) { destroy_output(list->items[i]); } else { return; } if (list->length > 0) { // switch to other outputs active workspace workspace_switch(((swayc_t *)root_container.children->items[0])->focused); } } static void handle_output_post_render(wlc_handle output) { ipc_get_pixels(output); } static void handle_view_pre_render(wlc_handle view) { render_view_borders(view); } static void handle_output_resolution_change(wlc_handle output, const struct wlc_size *from, const struct wlc_size *to) { sway_log(L_DEBUG, "Output %u resolution changed to %d x %d", (unsigned int)output, to->w, to->h); swayc_t *c = swayc_by_handle(output); if (!c) { return; } c->width = to->w; c->height = to->h; update_panel_geometries(output); update_background_geometries(output); arrange_windows(&root_container, -1, -1); } static void handle_output_focused(wlc_handle output, bool focus) { swayc_t *c = swayc_by_handle(output); // if for some reason this output doesn't exist, create it. if (!c) { handle_output_created(output); } if (focus) { set_focused_container(c); } } static void ws_cleanup() { swayc_t *op, *ws; int i = 0, j; if (!root_container.children) return; while (i < root_container.children->length) { op = root_container.children->items[i++]; if (!op->children) continue; j = 0; while (j < op->children->length) { ws = op->children->items[j++]; if (ws->children->length == 0 && ws->floating->length == 0 && ws != op->focused) { if (destroy_workspace(ws)) { j--; } } } } } static bool handle_view_created(wlc_handle handle) { // if view is child of another view, the use that as focused container wlc_handle parent = wlc_view_get_parent(handle); swayc_t *focused = NULL; swayc_t *newview = NULL; swayc_t *current_ws = swayc_active_workspace(); bool return_to_workspace = false; struct wl_client *client = wlc_view_get_wl_client(handle); pid_t pid; struct panel_config *panel_config = NULL; struct background_config *background_config = NULL; panel_config = if_panel_find_config(client); if (panel_config) { panel_config->handle = handle; update_panel_geometry(panel_config); wlc_view_set_mask(handle, VISIBLE); wlc_view_set_output(handle, panel_config->output); wlc_view_bring_to_front(handle); return true; } background_config = if_background_find_config(client); if (background_config) { background_config->handle = handle; update_background_geometry(background_config); wlc_view_set_mask(handle, VISIBLE); wlc_view_set_output(handle, background_config->output); wlc_view_send_to_back(handle); return true; } // Get parent container, to add view in if (parent) { focused = swayc_by_handle(parent); } if (client) { // below only works on wayland windows. need a wlc // api that will work for both wayland and x. wl_client_get_credentials(client, &pid, NULL, NULL); if (pid) { // using newview as a temp storage location here, // rather than adding yet another workspace var newview = workspace_for_pid(pid); if (newview) { focused = get_focused_container(newview); return_to_workspace = true; } newview = NULL; } } if (!focused || focused->type == C_OUTPUT) { focused = get_focused_container(&root_container); // Move focus from floating view if (focused->is_floating) { // To workspace if there are no children if (focused->parent->children->length == 0) { focused = focused->parent; } // TODO find a better way of doing this // Or to focused container else { focused = get_focused_container(focused->parent->children->items[0]); } } } sway_log(L_DEBUG, "handle:%" PRIuPTR " type:%x state:%x parent:%" PRIuPTR " " "mask:%d (x:%d y:%d w:%d h:%d) title:%s " "class:%s appid:%s", handle, wlc_view_get_type(handle), wlc_view_get_state(handle), parent, wlc_view_get_mask(handle), wlc_view_get_geometry(handle)->origin.x, wlc_view_get_geometry(handle)->origin.y,wlc_view_get_geometry(handle)->size.w, wlc_view_get_geometry(handle)->size.h, wlc_view_get_title(handle), wlc_view_get_class(handle), wlc_view_get_app_id(handle)); // TODO properly figure out how each window should be handled. switch (wlc_view_get_type(handle)) { // regular view created regularly case 0: if (parent) { newview = new_floating_view(handle); } else { newview = new_view(focused, handle); wlc_view_set_state(handle, WLC_BIT_MAXIMIZED, true); } break; // Dmenu keeps viewfocus, but others with this flag don't, for now simulate // dmenu case WLC_BIT_OVERRIDE_REDIRECT: // locked_view_focus = true; wlc_view_focus(handle); wlc_view_set_state(handle, WLC_BIT_ACTIVATED, true); wlc_view_bring_to_front(handle); break; // Firefox popups have this flag set. case WLC_BIT_OVERRIDE_REDIRECT|WLC_BIT_UNMANAGED: wlc_view_bring_to_front(handle); locked_container_focus = true; break; // Modals, get focus, popups do not case WLC_BIT_MODAL: wlc_view_focus(handle); wlc_view_bring_to_front(handle); newview = new_floating_view(handle); case WLC_BIT_POPUP: wlc_view_bring_to_front(handle); break; } // Prevent current ws from being destroyed, if empty suspend_workspace_cleanup = true; if (newview) { set_focused_container(newview); swayc_t *output = swayc_parent_by_type(newview, C_OUTPUT); arrange_windows(output, -1, -1); // check if it matches for_window in config and execute if so list_t *criteria = criteria_for(newview); for (int i = 0; i < criteria->length; i++) { struct criteria *crit = criteria->items[i]; sway_log(L_DEBUG, "for_window '%s' matches new view %p, cmd: '%s'", crit->crit_raw, newview, crit->cmdlist); struct cmd_results *res = handle_command(crit->cmdlist); if (res->status != CMD_SUCCESS) { sway_log(L_ERROR, "Command '%s' failed: %s", res->input, res->error); } free_cmd_results(res); // view must be focused for commands to affect it, so always // refocus in-between command lists set_focused_container(newview); } swayc_t *workspace = swayc_parent_by_type(focused, C_WORKSPACE); if (workspace && workspace->fullscreen) { set_focused_container(workspace->fullscreen); } // if parent container is a workspace, newview its only child and // layout is tabbed/stacked, add a container around newview swayc_t *parent_container = newview->parent; if (parent_container->type == C_WORKSPACE && parent_container->children->length == 1 && (parent_container->layout == L_TABBED || parent_container->layout == L_STACKED)) { swayc_t *container = new_container(newview, parent_container->layout); set_focused_container(newview); arrange_windows(container, -1, -1); } } else { swayc_t *output = swayc_parent_by_type(focused, C_OUTPUT); wlc_handle *h = malloc(sizeof(wlc_handle)); *h = handle; sway_log(L_DEBUG, "Adding unmanaged window %p to %p", h, output->unmanaged); list_add(output->unmanaged, h); } wlc_view_set_mask(handle, VISIBLE); if (return_to_workspace && current_ws) { // we were on one workspace, switched to another to add this view, // now let's return to where we were workspace_switch(current_ws); set_focused_container(current_ws->focused); } suspend_workspace_cleanup = false; ws_cleanup(); return true; } static void handle_view_destroyed(wlc_handle handle) { sway_log(L_DEBUG, "Destroying window %" PRIuPTR, handle); swayc_t *view = swayc_by_handle(handle); // destroy views by type switch (wlc_view_get_type(handle)) { // regular view created regularly case 0: case WLC_BIT_MODAL: case WLC_BIT_POPUP: break; // DMENU has this flag, and takes view_focus, but other things with this // flag don't case WLC_BIT_OVERRIDE_REDIRECT: // locked_view_focus = false; break; case WLC_BIT_OVERRIDE_REDIRECT|WLC_BIT_UNMANAGED: locked_container_focus = false; break; } if (view) { bool fullscreen = swayc_is_fullscreen(view); remove_view_from_scratchpad(view); swayc_t *parent = destroy_view(view); if (fullscreen) { parent->fullscreen = NULL; } // Destroy empty workspaces if (parent->type == C_WORKSPACE && parent->children->length == 0 && parent->floating->length == 0 && swayc_active_workspace() != parent && !parent->visible) { parent = destroy_workspace(parent); } arrange_windows(parent, -1, -1); } else { // Is it unmanaged? int i; for (i = 0; i < root_container.children->length; ++i) { swayc_t *output = root_container.children->items[i]; int j; for (j = 0; j < output->unmanaged->length; ++j) { wlc_handle *_handle = output->unmanaged->items[j]; if (*_handle == handle) { list_del(output->unmanaged, j); free(_handle); break; } } } } set_focused_container(get_focused_view(&root_container)); } static void handle_view_focus(wlc_handle view, bool focus) { return; } static void handle_view_geometry_request(wlc_handle handle, const struct wlc_geometry *geometry) { sway_log(L_DEBUG, "geometry request for %" PRIuPTR " %dx%d @ %d,%d", handle, geometry->size.w, geometry->size.h, geometry->origin.x, geometry->origin.y); // If the view is floating, then apply the geometry. // Otherwise save the desired width/height for the view. // This will not do anything for the time being as WLC improperly sends geometry requests swayc_t *view = swayc_by_handle(handle); if (view) { view->desired_width = geometry->size.w; view->desired_height = geometry->size.h; if (view->is_floating) { floating_view_sane_size(view); view->width = view->desired_width; view->height = view->desired_height; view->x = geometry->origin.x; view->y = geometry->origin.y; update_geometry(view); } } } static void handle_view_state_request(wlc_handle view, enum wlc_view_state_bit state, bool toggle) { swayc_t *c = swayc_by_handle(view); switch (state) { case WLC_BIT_FULLSCREEN: // i3 just lets it become fullscreen wlc_view_set_state(view, state, toggle); if (c) { sway_log(L_DEBUG, "setting view %" PRIuPTR " %s, fullscreen %d", view, c->name, toggle); arrange_windows(c->parent, -1, -1); // Set it as focused window for that workspace if its going fullscreen if (toggle) { swayc_t *ws = swayc_parent_by_type(c, C_WORKSPACE); // Set ws focus to c set_focused_container_for(ws, c); } } break; case WLC_BIT_MAXIMIZED: case WLC_BIT_RESIZING: case WLC_BIT_MOVING: break; case WLC_BIT_ACTIVATED: sway_log(L_DEBUG, "View %p requested to be activated", c); break; } return; } static void handle_view_properties_updated(wlc_handle view, uint32_t mask) { if (mask == WLC_BIT_PROPERTY_TITLE) { swayc_t *c = swayc_by_handle(view); if (!c) { return; } // update window title const char *new_name = wlc_view_get_title(view); if (new_name) { if (!c->name || strcmp(c->name, new_name) != 0) { free(c->name); c->name = strdup(new_name); swayc_t *p = swayc_tabbed_stacked_ancestor(c); if (p) { // TODO: we only got the topmost tabbed/stacked container, update borders of all containers on the path update_view_border(get_focused_view(p)); } else if (c->border_type == B_NORMAL) { update_view_border(c); } } } } } static void handle_binding_command(struct sway_binding *binding) { struct sway_binding *binding_copy = binding; bool reload = false; // if this is a reload command we need to make a duplicate of the // binding since it will be gone after the reload has completed. if (strcasecmp(binding->command, "reload") == 0) { binding_copy = sway_binding_dup(binding); reload = true; } struct cmd_results *res = handle_command(binding->command); if (res->status != CMD_SUCCESS) { sway_log(L_ERROR, "Command '%s' failed: %s", res->input, res->error); } ipc_event_binding_keyboard(binding_copy); if (reload) { // free the binding if we made a copy free_sway_binding(binding_copy); } free_cmd_results(res); } static bool handle_bindsym(struct sway_binding *binding, uint32_t keysym, uint32_t keycode) { int i; for (i = 0; i < binding->keys->length; ++i) { if (binding->bindcode) { xkb_keycode_t *key = binding->keys->items[i]; if (keycode == *key) { handle_binding_command(binding); return true; } } else { xkb_keysym_t *key = binding->keys->items[i]; if (keysym == *key) { handle_binding_command(binding); return true; } } } return false; } static bool valid_bindsym(struct sway_binding *binding) { bool match = false; int i; for (i = 0; i < binding->keys->length; ++i) { if (binding->bindcode) { xkb_keycode_t *key = binding->keys->items[i]; if ((match = check_key(0, *key)) == false) { break; } } else { xkb_keysym_t *key = binding->keys->items[i]; if ((match = check_key(*key, 0)) == false) { break; } } } return match; } static bool handle_bindsym_release(struct sway_binding *binding) { if (binding->keys->length == 1) { xkb_keysym_t *key = binding->keys->items[0]; if (check_released_key(*key)) { handle_binding_command(binding); return true; } } return false; } static bool handle_key(wlc_handle view, uint32_t time, const struct wlc_modifiers *modifiers, uint32_t key, enum wlc_key_state state) { if (desktop_shell.is_locked) { return EVENT_PASSTHROUGH; } if (locked_view_focus && state == WLC_KEY_STATE_PRESSED) { return EVENT_PASSTHROUGH; } // reset pointer mode on keypress if (state == WLC_KEY_STATE_PRESSED && pointer_state.mode) { pointer_mode_reset(); } struct sway_mode *mode = config->current_mode; struct wlc_modifiers no_mods = { 0, 0 }; uint32_t sym = tolower(wlc_keyboard_get_keysym_for_key(key, &no_mods)); int i; if (state == WLC_KEY_STATE_PRESSED) { press_key(sym, key); } else { // WLC_KEY_STATE_RELEASED release_key(sym, key); } // handle bar modifiers pressed/released uint32_t modifier; for (i = 0; i < config->active_bar_modifiers->length; ++i) { modifier = *(uint32_t *)config->active_bar_modifiers->items[i]; switch (modifier_state_changed(modifiers->mods, modifier)) { case MOD_STATE_PRESSED: ipc_event_modifier(modifier, "pressed"); break; case MOD_STATE_RELEASED: ipc_event_modifier(modifier, "released"); break; } } // update modifiers state modifiers_state_update(modifiers->mods); // handle bindings list_t *candidates = create_list(); for (i = 0; i < mode->bindings->length; ++i) { struct sway_binding *binding = mode->bindings->items[i]; if ((modifiers->mods ^ binding->modifiers) == 0) { switch (state) { case WLC_KEY_STATE_PRESSED: { if (!binding->release && valid_bindsym(binding)) { list_add(candidates, binding); } } case WLC_KEY_STATE_RELEASED: if (binding->release && handle_bindsym_release(binding)) { list_free(candidates); return EVENT_HANDLED; } break; } } } for (i = 0; i < candidates->length; ++i) { struct sway_binding *binding = candidates->items[i]; if (state == WLC_KEY_STATE_PRESSED) { if (!binding->release && handle_bindsym(binding, sym, key)) { list_free(candidates); return EVENT_HANDLED; } } } list_free(candidates); return EVENT_PASSTHROUGH; } static bool handle_pointer_motion(wlc_handle handle, uint32_t time, const struct wlc_point *origin) { if (desktop_shell.is_locked) { return EVENT_PASSTHROUGH; } struct wlc_point new_origin = *origin; // Switch to adjacent output if touching output edge. // // Since this doesn't currently support moving windows between outputs we // don't do the switch if the pointer is in a mode. if (config->seamless_mouse && !pointer_state.mode && !pointer_state.left.held && !pointer_state.right.held && !pointer_state.scroll.held) { swayc_t *output = swayc_active_output(), *adjacent = NULL; struct wlc_point abs_pos = *origin; abs_pos.x += output->x; abs_pos.y += output->y; if (origin->x == 0) { // Left edge if ((adjacent = swayc_adjacent_output(output, MOVE_LEFT, &abs_pos, false))) { if (workspace_switch(swayc_active_workspace_for(adjacent))) { new_origin.x = adjacent->width; // adjust for differently aligned outputs (well, this is // only correct when the two outputs have the same // resolution or the same dpi I guess, it should take // physical attributes into account) new_origin.y += (output->y - adjacent->y); } } } else if ((double)origin->x == output->width) { // Right edge if ((adjacent = swayc_adjacent_output(output, MOVE_RIGHT, &abs_pos, false))) { if (workspace_switch(swayc_active_workspace_for(adjacent))) { new_origin.x = 0; new_origin.y += (output->y - adjacent->y); } } } else if (origin->y == 0) { // Top edge if ((adjacent = swayc_adjacent_output(output, MOVE_UP, &abs_pos, false))) { if (workspace_switch(swayc_active_workspace_for(adjacent))) { new_origin.y = adjacent->height; new_origin.x += (output->x - adjacent->x); } } } else if ((double)origin->y == output->height) { // Bottom edge if ((adjacent = swayc_adjacent_output(output, MOVE_DOWN, &abs_pos, false))) { if (workspace_switch(swayc_active_workspace_for(adjacent))) { new_origin.y = 0; new_origin.x += (output->x - adjacent->x); } } } } pointer_position_set(&new_origin, false); return EVENT_PASSTHROUGH; } static bool handle_pointer_button(wlc_handle view, uint32_t time, const struct wlc_modifiers *modifiers, uint32_t button, enum wlc_button_state state, const struct wlc_point *origin) { // Update view pointer is on pointer_state.view = container_under_pointer(); // Update pointer_state switch (button) { case M_LEFT_CLICK: if (state == WLC_BUTTON_STATE_PRESSED) { pointer_state.left.held = true; pointer_state.left.x = origin->x; pointer_state.left.y = origin->y; pointer_state.left.view = pointer_state.view; } else { pointer_state.left.held = false; } break; case M_RIGHT_CLICK: if (state == WLC_BUTTON_STATE_PRESSED) { pointer_state.right.held = true; pointer_state.right.x = origin->x; pointer_state.right.y = origin->y; pointer_state.right.view = pointer_state.view; } else { pointer_state.right.held = false; } break; case M_SCROLL_CLICK: if (state == WLC_BUTTON_STATE_PRESSED) { pointer_state.scroll.held = true; pointer_state.scroll.x = origin->x; pointer_state.scroll.y = origin->y; pointer_state.scroll.view = pointer_state.view; } else { pointer_state.scroll.held = false; } break; //TODO scrolling behavior case M_SCROLL_UP: case M_SCROLL_DOWN: break; } // get focused window and check if to change focus on mouse click swayc_t *focused = get_focused_container(&root_container); // don't change focus or mode if fullscreen if (swayc_is_fullscreen(focused)) { return EVENT_PASSTHROUGH; } // set pointer mode only if floating mod has been set if (config->floating_mod) { pointer_mode_set(button, !(modifiers->mods ^ config->floating_mod)); } // Check whether to change focus swayc_t *pointer = pointer_state.view; if (pointer) { if (focused != pointer) { set_focused_container(pointer_state.view); } // Send to front if floating if (pointer->is_floating) { int i; for (i = 0; i < pointer->parent->floating->length; i++) { if (pointer->parent->floating->items[i] == pointer) { list_del(pointer->parent->floating, i); list_add(pointer->parent->floating, pointer); break; } } wlc_view_bring_to_front(pointer->handle); } } // Return if mode has been set if (pointer_state.mode) { return EVENT_HANDLED; } // Always send mouse release if (state == WLC_BUTTON_STATE_RELEASED) { return EVENT_PASSTHROUGH; } // Finally send click return EVENT_PASSTHROUGH; } bool handle_pointer_scroll(wlc_handle view, uint32_t time, const struct wlc_modifiers* modifiers, uint8_t axis_bits, double _amount[2]) { if (!(modifiers->mods ^ config->floating_mod)) { int x_amount = (int)_amount[0]; int y_amount = (int)_amount[1]; if (x_amount > 0) { handle_command(config->floating_scroll_up_cmd); } else if (x_amount < 0) { handle_command(config->floating_scroll_down_cmd); } if (y_amount > 0) { handle_command(config->floating_scroll_right_cmd); } else if (y_amount < 0) { handle_command(config->floating_scroll_left_cmd); } } return EVENT_PASSTHROUGH; } static void handle_wlc_ready(void) { sway_log(L_DEBUG, "Compositor is ready, executing cmds in queue"); // Execute commands until there are none left config->active = true; while (config->cmd_queue->length) { char *line = config->cmd_queue->items[0]; struct cmd_results *res = handle_command(line); if (res->status != CMD_SUCCESS) { sway_log(L_ERROR, "Error on line '%s': %s", line, res->error); } free_cmd_results(res); free(line); list_del(config->cmd_queue, 0); } } void register_wlc_handlers() { wlc_set_output_created_cb(handle_output_created); wlc_set_output_destroyed_cb(handle_output_destroyed); wlc_set_output_resolution_cb(handle_output_resolution_change); wlc_set_output_focus_cb(handle_output_focused); wlc_set_output_render_post_cb(handle_output_post_render); wlc_set_view_created_cb(handle_view_created); wlc_set_view_destroyed_cb(handle_view_destroyed); wlc_set_view_focus_cb(handle_view_focus); wlc_set_view_render_pre_cb(handle_view_pre_render); wlc_set_view_request_geometry_cb(handle_view_geometry_request); wlc_set_view_request_state_cb(handle_view_state_request); wlc_set_view_properties_updated_cb(handle_view_properties_updated); wlc_set_keyboard_key_cb(handle_key); wlc_set_pointer_motion_cb(handle_pointer_motion); wlc_set_pointer_button_cb(handle_pointer_button); wlc_set_pointer_scroll_cb(handle_pointer_scroll); wlc_set_compositor_ready_cb(handle_wlc_ready); wlc_set_input_created_cb(handle_input_created); wlc_set_input_destroyed_cb(handle_input_destroyed); }