/* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009 Michael Stapelberg and contributors (see also: LICENSE) * * workspace.c: Modifying workspaces, accessing them, moving containers to * workspaces. * */ #include "all.h" #include "yajl_utils.h" /* * Stores a copy of the name of the last used workspace for the workspace * back-and-forth switching. * */ char *previous_workspace_name = NULL; /* NULL-terminated list of workspace names (in order) extracted from * keybindings. */ static char **binding_workspace_names = NULL; /* * Returns the workspace with the given name or NULL if such a workspace does * not exist. * */ Con *get_existing_workspace_by_name(const char *name) { Con *output, *workspace = NULL; TAILQ_FOREACH (output, &(croot->nodes_head), nodes) { GREP_FIRST(workspace, output_get_content(output), !strcasecmp(child->name, name)); } return workspace; } /* * Returns the workspace with the given number or NULL if such a workspace does * not exist. * */ Con *get_existing_workspace_by_num(int num) { Con *output, *workspace = NULL; TAILQ_FOREACH (output, &(croot->nodes_head), nodes) { GREP_FIRST(workspace, output_get_content(output), child->num == num); } return workspace; } /* * Sets ws->layout to splith/splitv if default_orientation was specified in the * configfile. Otherwise, it uses splith/splitv depending on whether the output * is higher than wide. * */ static void _workspace_apply_default_orientation(Con *ws) { /* If default_orientation is set to NO_ORIENTATION we determine * orientation depending on output resolution. */ if (config.default_orientation == NO_ORIENTATION) { Con *output = con_get_output(ws); ws->layout = (output->rect.height > output->rect.width) ? L_SPLITV : L_SPLITH; ws->rect = output->rect; DLOG("Auto orientation. Workspace size set to (%d,%d), setting layout to %d.\n", output->rect.width, output->rect.height, ws->layout); } else { ws->layout = (config.default_orientation == HORIZ) ? L_SPLITH : L_SPLITV; } } /* * Returns the first output that is assigned to a workspace specified by the * given name or number. Returns NULL if no such output exists. * * If an assignment matches by number but there is an assignment later that * matches by name, the second one is preferred. * The order of the 'ws_assignments' queue is respected: if multiple * assignments match the criteria, the first one is returned. * 'name' is ignored when NULL, 'parsed_num' is ignored when it is -1. * */ Con *get_assigned_output(const char *name, long parsed_num) { Con *output = NULL; struct Workspace_Assignment *assignment; TAILQ_FOREACH (assignment, &ws_assignments, ws_assignments) { if (assignment->output == NULL) { continue; } if (name && strcmp(assignment->name, name) == 0) { DLOG("Found workspace name=\"%s\" assignment to output \"%s\"\n", name, assignment->output); Output *assigned_by_name = get_output_by_name(assignment->output, true); if (assigned_by_name) { /* When the name matches exactly, skip numbered assignments. */ return assigned_by_name->con; } } else if (!output && /* Only keep the first numbered assignment. */ parsed_num != -1 && name_is_digits(assignment->name) && ws_name_to_number(assignment->name) == parsed_num) { DLOG("Found workspace number=%ld assignment to output \"%s\"\n", parsed_num, assignment->output); Output *assigned_by_num = get_output_by_name(assignment->output, true); if (assigned_by_num) { output = assigned_by_num->con; } } } return output; } /* * Returns true if the first output assigned to a workspace with the given * workspace assignment is the same as the given output. */ bool output_triggers_assignment(Output *output, struct Workspace_Assignment *assignment) { Con *assigned = get_assigned_output(assignment->name, -1); return assigned && assigned == output->con; } /* * Returns a pointer to the workspace with the given number (starting at 0), * creating the workspace if necessary (by allocating the necessary amount of * memory and initializing the data structures correctly). * */ Con *workspace_get(const char *num) { Con *workspace = get_existing_workspace_by_name(num); if (workspace) { return workspace; } LOG("Creating new workspace \"%s\"\n", num); /* We set workspace->num to the number if this workspace’s name begins with * a positive number. Otherwise it’s a named ws and num will be 1. */ const int parsed_num = ws_name_to_number(num); Con *output = get_assigned_output(num, parsed_num); /* if an assignment is not found, we create this workspace on the current output */ if (!output) { output = con_get_output(focused); } /* No parent because we need to attach this container after setting its * type. con_attach will handle CT_WORKSPACEs differently. */ workspace = con_new(NULL, NULL); char *name; sasprintf(&name, "[i3 con] workspace %s", num); x_set_name(workspace, name); free(name); FREE(workspace->name); workspace->name = sstrdup(num); workspace->workspace_layout = config.default_layout; workspace->num = parsed_num; workspace->type = CT_WORKSPACE; workspace->gaps = gaps_for_workspace(workspace); con_attach(workspace, output_get_content(output), false); _workspace_apply_default_orientation(workspace); ipc_send_workspace_event("init", workspace, NULL); ewmh_update_desktop_properties(); return workspace; } /* * Extracts workspace names from keybindings (e.g. “web” from “bindsym $mod+1 * workspace web”), so that when an output needs a workspace, i3 can start with * the first configured one. Needs to be called before reorder_bindings() so * that the config-file order is used, not the i3-internal order. * */ void extract_workspace_names_from_bindings(void) { Binding *bind; int n = 0; if (binding_workspace_names != NULL) { for (int i = 0; binding_workspace_names[i] != NULL; i++) { free(binding_workspace_names[i]); } FREE(binding_workspace_names); } TAILQ_FOREACH (bind, bindings, bindings) { DLOG("binding with command %s\n", bind->command); if (strlen(bind->command) < strlen("workspace ") || strncasecmp(bind->command, "workspace", strlen("workspace")) != 0) { continue; } DLOG("relevant command = %s\n", bind->command); const char *target = bind->command + strlen("workspace "); while (*target == ' ' || *target == '\t') { target++; } /* We check if this is the workspace * next/prev/next_on_output/prev_on_output/back_and_forth command. * Beware: The workspace names "next", "prev", "next_on_output", * "prev_on_output", "back_and_forth" and "current" are OK, * so we check before stripping the double quotes */ if (strncasecmp(target, "next", strlen("next")) == 0 || strncasecmp(target, "prev", strlen("prev")) == 0 || strncasecmp(target, "next_on_output", strlen("next_on_output")) == 0 || strncasecmp(target, "prev_on_output", strlen("prev_on_output")) == 0 || strncasecmp(target, "back_and_forth", strlen("back_and_forth")) == 0 || strncasecmp(target, "current", strlen("current")) == 0) { continue; } if (strncasecmp(target, "--no-auto-back-and-forth", strlen("--no-auto-back-and-forth")) == 0) { target += strlen("--no-auto-back-and-forth"); while (*target == ' ' || *target == '\t') { target++; } } if (strncasecmp(target, "number", strlen("number")) == 0) { target += strlen("number"); while (*target == ' ' || *target == '\t') { target++; } } char *target_name = parse_string(&target, false); if (target_name == NULL) { continue; } if (strncasecmp(target_name, "__", strlen("__")) == 0) { LOG("Cannot create workspace \"%s\". Names starting with __ are i3-internal.\n", target); free(target_name); continue; } DLOG("Saving workspace name \"%s\"\n", target_name); binding_workspace_names = srealloc(binding_workspace_names, ++n * sizeof(char *)); binding_workspace_names[n - 1] = target_name; } binding_workspace_names = srealloc(binding_workspace_names, ++n * sizeof(char *)); binding_workspace_names[n - 1] = NULL; } /* * Returns a pointer to a new workspace in the given output. The workspace * is created attached to the tree hierarchy through the given content * container. * */ Con *create_workspace_on_output(Output *output, Con *content) { /* add a workspace to this output */ bool exists = true; Con *ws = con_new(NULL, NULL); ws->type = CT_WORKSPACE; /* try the configured workspace bindings first to find a free name */ for (int n = 0; binding_workspace_names[n] != NULL; n++) { char *target_name = binding_workspace_names[n]; /* Ensure that this workspace is not assigned to a different output — * otherwise we would create it, then move it over to its output, then * find a new workspace, etc… */ Con *assigned = get_assigned_output(target_name, -1); if (assigned && assigned != output->con) { continue; } const int num = ws_name_to_number(target_name); exists = (num == -1) ? get_existing_workspace_by_name(target_name) : get_existing_workspace_by_num(num); if (!exists) { ws->name = sstrdup(target_name); /* Set ->num to the number of the workspace, if the name actually * is a number or starts with a number */ ws->num = num; DLOG("Used number %d for workspace with name %s\n", ws->num, ws->name); break; } } if (exists) { /* get the next unused workspace number */ DLOG("Getting next unused workspace by number\n"); int c = 0; while (exists) { c++; Con *assigned = get_assigned_output(NULL, c); exists = (get_existing_workspace_by_num(c) || (assigned && assigned != output->con)); DLOG("result for ws %d: exists = %d\n", c, exists); } ws->num = c; sasprintf(&(ws->name), "%d", c); } con_attach(ws, content, false); char *name; sasprintf(&name, "[i3 con] workspace %s", ws->name); x_set_name(ws, name); free(name); ws->gaps = gaps_for_workspace(ws); ws->fullscreen_mode = CF_OUTPUT; ws->workspace_layout = config.default_layout; _workspace_apply_default_orientation(ws); ipc_send_workspace_event("init", ws, NULL); return ws; } /* * Returns true if the workspace is currently visible. Especially important for * multi-monitor environments, as they can have multiple currently active * workspaces. * */ bool workspace_is_visible(Con *ws) { Con *output = con_get_output(ws); if (output == NULL) { return false; } Con *fs = con_get_fullscreen_con(output, CF_OUTPUT); return (fs == ws); } /* * XXX: we need to clean up all this recursive walking code. * */ static Con *_get_sticky(Con *con, const char *sticky_group, Con *exclude) { Con *current; TAILQ_FOREACH (current, &(con->nodes_head), nodes) { if (current != exclude && current->sticky_group != NULL && current->window != NULL && strcmp(current->sticky_group, sticky_group) == 0) { return current; } Con *recurse = _get_sticky(current, sticky_group, exclude); if (recurse != NULL) { return recurse; } } TAILQ_FOREACH (current, &(con->floating_head), floating_windows) { if (current != exclude && current->sticky_group != NULL && current->window != NULL && strcmp(current->sticky_group, sticky_group) == 0) { return current; } Con *recurse = _get_sticky(current, sticky_group, exclude); if (recurse != NULL) { return recurse; } } return NULL; } /* * Reassigns all child windows in sticky containers. Called when the user * changes workspaces. * * XXX: what about sticky containers which contain containers? * */ static void workspace_reassign_sticky(Con *con) { Con *current; /* 1: go through all containers */ /* handle all children and floating windows of this node */ TAILQ_FOREACH (current, &(con->nodes_head), nodes) { if (current->sticky_group == NULL) { workspace_reassign_sticky(current); continue; } LOG("Ah, this one is sticky: %s / %p\n", current->name, current); /* 2: find a window which we can re-assign */ Con *output = con_get_output(current); Con *src = _get_sticky(output, current->sticky_group, current); if (src == NULL) { LOG("No window found for this sticky group\n"); workspace_reassign_sticky(current); continue; } x_move_win(src, current); current->window = src->window; current->mapped = true; src->window = NULL; src->mapped = false; x_reparent_child(current, src); LOG("re-assigned window from src %p to dest %p\n", src, current); } TAILQ_FOREACH (current, &(con->floating_head), floating_windows) { workspace_reassign_sticky(current); } } /* * Callback to reset the urgent flag of the given con to false. May be started by * workspace_show to avoid urgency hints being lost by switching to a workspace * focusing the con. * */ static void workspace_defer_update_urgent_hint_cb(EV_P_ ev_timer *w, int revents) { Con *con = w->data; ev_timer_stop(main_loop, con->urgency_timer); FREE(con->urgency_timer); if (con->urgent) { DLOG("Resetting urgency flag of con %p by timer\n", con); con_set_urgency(con, false); con_update_parents_urgency(con); workspace_update_urgent_flag(con_get_workspace(con)); ipc_send_window_event("urgent", con); tree_render(); } } /* * Switches to the given workspace * */ void workspace_show(Con *workspace) { Con *current, *old = NULL; /* safe-guard against showing i3-internal workspaces like __i3_scratch */ if (con_is_internal(workspace)) { return; } /* disable fullscreen for the other workspaces and get the workspace we are * currently on. */ TAILQ_FOREACH (current, &(workspace->parent->nodes_head), nodes) { if (current->fullscreen_mode == CF_OUTPUT) { old = current; } current->fullscreen_mode = CF_NONE; } /* enable fullscreen for the target workspace. If it happens to be the * same one we are currently on anyways, we can stop here. */ workspace->fullscreen_mode = CF_OUTPUT; current = con_get_workspace(focused); if (workspace == current) { DLOG("Not switching, already there.\n"); return; } /* Used to correctly update focus when pushing sticky windows. Holds the * previously focused container in the same output as workspace. For * example, if a sticky window is focused and then we switch focus to a * workspace in another output and then switch to a third workspace in the * first output, the sticky window needs to be refocused. */ Con *old_focus = old ? con_descend_focused(old) : NULL; /* Remember currently focused workspace for switching back to it later with * the 'workspace back_and_forth' command. * NOTE: We have to duplicate the name as the original will be freed when * the corresponding workspace is cleaned up. * NOTE: Internal cons such as __i3_scratch (when a scratchpad window is * focused) are skipped, see bug #868. */ if (current && !con_is_internal(current)) { FREE(previous_workspace_name); previous_workspace_name = sstrdup(current->name); DLOG("Setting previous_workspace_name = %s\n", previous_workspace_name); } workspace_reassign_sticky(workspace); DLOG("switching to %p / %s\n", workspace, workspace->name); Con *next = con_descend_focused(workspace); /* Memorize current output */ Con *old_output = con_get_output(focused); /* Display urgency hint for a while if the newly visible workspace would * focus and thereby immediately destroy it */ if (next->urgent && (int)(config.workspace_urgency_timer * 1000) > 0) { /* focus for now… */ next->urgent = false; con_focus(next); /* … but immediately reset urgency flags; they will be set to false by * the timer callback in case the container is focused at the time of * its expiration */ focused->urgent = true; workspace->urgent = true; if (focused->urgency_timer == NULL) { DLOG("Deferring reset of urgency flag of con %p on newly shown workspace %p\n", focused, workspace); focused->urgency_timer = scalloc(1, sizeof(struct ev_timer)); /* use a repeating timer to allow for easy resets */ ev_timer_init(focused->urgency_timer, workspace_defer_update_urgent_hint_cb, config.workspace_urgency_timer, config.workspace_urgency_timer); focused->urgency_timer->data = focused; ev_timer_start(main_loop, focused->urgency_timer); } else { DLOG("Resetting urgency timer of con %p on workspace %p\n", focused, workspace); ev_timer_again(main_loop, focused->urgency_timer); } } else { con_focus(next); } ipc_send_workspace_event("focus", workspace, current); DLOG("old = %p / %s\n", old, (old ? old->name : "(null)")); /* Close old workspace if necessary. This must be done *after* doing * urgency handling, because tree_close_internal() will do a con_focus() on the next * client, which will clear the urgency flag too early. Also, there is no * way for con_focus() to know about when to clear urgency immediately and * when to defer it. */ if (old && TAILQ_EMPTY(&(old->nodes_head)) && TAILQ_EMPTY(&(old->floating_head))) { /* check if this workspace is currently visible */ if (!workspace_is_visible(old)) { LOG("Closing old workspace (%p / %s), it is empty\n", old, old->name); yajl_gen gen = ipc_marshal_workspace_event("empty", old, NULL); tree_close_internal(old, DONT_KILL_WINDOW, false); const unsigned char *payload; ylength length; y(get_buf, &payload, &length); ipc_send_event("workspace", I3_IPC_EVENT_WORKSPACE, (const char *)payload); y(free); /* Avoid calling output_push_sticky_windows later with a freed container. */ if (old == old_focus) { old_focus = NULL; } ewmh_update_desktop_properties(); } } workspace->fullscreen_mode = CF_OUTPUT; LOG("focused now = %p / %s\n", focused, focused->name); /* Set mouse pointer */ Con *new_output = con_get_output(focused); if (old_output != new_output) { x_set_warp_to(&next->rect); } /* Update the EWMH hints */ ewmh_update_current_desktop(); /* Push any sticky windows to the now visible workspace. */ output_push_sticky_windows(old_focus); } /* * Looks up the workspace by name and switches to it. * */ void workspace_show_by_name(const char *num) { workspace_show(workspace_get(num)); } /* * Focuses the next workspace. * */ Con *workspace_next(void) { Con *current = con_get_workspace(focused); Con *next = NULL, *first = NULL, *first_opposite = NULL; Con *output; if (current->num == -1) { /* If currently a named workspace, find next named workspace. */ if ((next = TAILQ_NEXT(current, nodes)) != NULL) { return next; } bool found_current = false; TAILQ_FOREACH (output, &(croot->nodes_head), nodes) { /* Skip outputs starting with __, they are internal. */ if (con_is_internal(output)) { continue; } NODES_FOREACH (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (!first) { first = child; } if (!first_opposite || (child->num != -1 && child->num < first_opposite->num)) { first_opposite = child; } if (child == current) { found_current = true; } else if (child->num == -1 && found_current) { next = child; return next; } } } } else { /* If currently a numbered workspace, find next numbered workspace. */ TAILQ_FOREACH (output, &(croot->nodes_head), nodes) { /* Skip outputs starting with __, they are internal. */ if (con_is_internal(output)) { continue; } NODES_FOREACH (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (!first || (child->num != -1 && child->num < first->num)) { first = child; } if (!first_opposite && child->num == -1) { first_opposite = child; } if (child->num == -1) { break; } /* Need to check child against current and next because we are * traversing multiple lists and thus are not guaranteed the * relative order between the list of workspaces. */ if (current->num < child->num && (!next || child->num < next->num)) { next = child; } } } } if (!next) { next = first_opposite ? first_opposite : first; } return next; } /* * Focuses the previous workspace. * */ Con *workspace_prev(void) { Con *current = con_get_workspace(focused); Con *prev = NULL, *first_opposite = NULL, *last = NULL; Con *output; if (current->num == -1) { /* If named workspace, find previous named workspace. */ prev = TAILQ_PREV(current, nodes_head, nodes); if (prev && prev->num != -1) { prev = NULL; } if (!prev) { bool found_current = false; TAILQ_FOREACH_REVERSE (output, &(croot->nodes_head), nodes_head, nodes) { /* Skip outputs starting with __, they are internal. */ if (con_is_internal(output)) { continue; } NODES_FOREACH_REVERSE (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (!last) { last = child; } if (!first_opposite || (child->num != -1 && child->num > first_opposite->num)) { first_opposite = child; } if (child == current) { found_current = true; } else if (child->num == -1 && found_current) { prev = child; return prev; } } } } } else { /* If numbered workspace, find previous numbered workspace. */ TAILQ_FOREACH_REVERSE (output, &(croot->nodes_head), nodes_head, nodes) { /* Skip outputs starting with __, they are internal. */ if (con_is_internal(output)) { continue; } NODES_FOREACH_REVERSE (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (!last || (child->num != -1 && last->num < child->num)) { last = child; } if (!first_opposite && child->num == -1) { first_opposite = child; } if (child->num == -1) { continue; } /* Need to check child against current and previous because we * are traversing multiple lists and thus are not guaranteed * the relative order between the list of workspaces. */ if (current->num > child->num && (!prev || child->num > prev->num)) { prev = child; } } } } if (!prev) { prev = first_opposite ? first_opposite : last; } return prev; } /* * Focuses the next workspace on the same output. * */ Con *workspace_next_on_output(void) { Con *current = con_get_workspace(focused); Con *next = NULL; Con *output = con_get_output(focused); if (current->num == -1) { /* If currently a named workspace, find next named workspace. */ next = TAILQ_NEXT(current, nodes); } else { /* If currently a numbered workspace, find next numbered workspace. */ NODES_FOREACH (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (child->num == -1) { break; } /* Need to check child against current and next because we are * traversing multiple lists and thus are not guaranteed the * relative order between the list of workspaces. */ if (current->num < child->num && (!next || child->num < next->num)) { next = child; } } } /* Find next named workspace. */ if (!next) { bool found_current = false; NODES_FOREACH (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (child == current) { found_current = true; } else if (child->num == -1 && (current->num != -1 || found_current)) { next = child; goto workspace_next_on_output_end; } } } /* Find first workspace. */ if (!next) { NODES_FOREACH (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (!next || (child->num != -1 && child->num < next->num)) { next = child; } } } workspace_next_on_output_end: return next; } /* * Focuses the previous workspace on same output. * */ Con *workspace_prev_on_output(void) { Con *current = con_get_workspace(focused); Con *prev = NULL; Con *output = con_get_output(focused); DLOG("output = %s\n", output->name); if (current->num == -1) { /* If named workspace, find previous named workspace. */ prev = TAILQ_PREV(current, nodes_head, nodes); if (prev && prev->num != -1) { prev = NULL; } } else { /* If numbered workspace, find previous numbered workspace. */ NODES_FOREACH_REVERSE (output_get_content(output)) { if (child->type != CT_WORKSPACE || child->num == -1) { continue; } /* Need to check child against current and previous because we * are traversing multiple lists and thus are not guaranteed * the relative order between the list of workspaces. */ if (current->num > child->num && (!prev || child->num > prev->num)) { prev = child; } } } /* Find previous named workspace. */ if (!prev) { bool found_current = false; NODES_FOREACH_REVERSE (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (child == current) { found_current = true; } else if (child->num == -1 && (current->num != -1 || found_current)) { prev = child; goto workspace_prev_on_output_end; } } } /* Find last workspace. */ if (!prev) { NODES_FOREACH_REVERSE (output_get_content(output)) { if (child->type != CT_WORKSPACE) { continue; } if (!prev || child->num > prev->num) { prev = child; } } } workspace_prev_on_output_end: return prev; } /* * Focuses the previously focused workspace. * */ void workspace_back_and_forth(void) { if (!previous_workspace_name) { DLOG("No previous workspace name set. Not switching.\n"); return; } workspace_show_by_name(previous_workspace_name); } /* * Returns the previously focused workspace con, or NULL if unavailable. * */ Con *workspace_back_and_forth_get(void) { if (!previous_workspace_name) { DLOG("No previous workspace name set.\n"); return NULL; } return workspace_get(previous_workspace_name); } static bool get_urgency_flag(Con *con) { Con *child; TAILQ_FOREACH (child, &(con->nodes_head), nodes) { if (child->urgent || get_urgency_flag(child)) { return true; } } TAILQ_FOREACH (child, &(con->floating_head), floating_windows) { if (child->urgent || get_urgency_flag(child)) { return true; } } return false; } /* * Goes through all clients on the given workspace and updates the workspace’s * urgent flag accordingly. * */ void workspace_update_urgent_flag(Con *ws) { bool old_flag = ws->urgent; ws->urgent = get_urgency_flag(ws); DLOG("Workspace urgency flag changed from %d to %d\n", old_flag, ws->urgent); if (old_flag != ws->urgent) { ipc_send_workspace_event("urgent", ws, NULL); } } /* * 'Forces' workspace orientation by moving all cons into a new split-con with * the same layout as the workspace and then changing the workspace layout. * */ void ws_force_orientation(Con *ws, orientation_t orientation) { /* 1: create a new split container */ Con *split = con_new(NULL, NULL); split->parent = ws; /* 2: copy layout from workspace */ split->layout = ws->layout; /* 3: move the existing cons of this workspace below the new con */ Con **focus_order = get_focus_order(ws); DLOG("Moving cons\n"); while (!TAILQ_EMPTY(&(ws->nodes_head))) { Con *child = TAILQ_FIRST(&(ws->nodes_head)); con_detach(child); con_attach(child, split, true); } set_focus_order(split, focus_order); free(focus_order); /* 4: switch workspace layout */ ws->layout = (orientation == HORIZ) ? L_SPLITH : L_SPLITV; DLOG("split->layout = %d, ws->layout = %d\n", split->layout, ws->layout); /* 5: attach the new split container to the workspace */ DLOG("Attaching new split (%p) to ws (%p)\n", split, ws); con_attach(split, ws, false); /* 6: fix the percentages */ con_fix_percent(ws); } /* * Called when a new con (with a window, not an empty or split con) should be * attached to the workspace (for example when managing a new window or when * moving an existing window to the workspace level). * * Depending on the workspace_layout setting, this function either returns the * workspace itself (default layout) or creates a new stacked/tabbed con and * returns that. * */ Con *workspace_attach_to(Con *ws) { DLOG("Attaching a window to workspace %p / %s\n", ws, ws->name); if (ws->workspace_layout == L_DEFAULT) { DLOG("Default layout, just attaching it to the workspace itself.\n"); return ws; } DLOG("Non-default layout, creating a new split container\n"); /* 1: create a new split container */ Con *new = con_new(NULL, NULL); new->parent = ws; /* 2: set the requested layout on the split con */ new->layout = ws->workspace_layout; /* 4: attach the new split container to the workspace */ DLOG("Attaching new split %p to workspace %p\n", new, ws); con_attach(new, ws, false); /* 5: fix the percentages */ con_fix_percent(ws); return new; } /* * Creates a new container and re-parents all of children from the given * workspace into it. * * The container inherits the layout from the workspace. */ Con *workspace_encapsulate(Con *ws) { if (TAILQ_EMPTY(&(ws->nodes_head))) { ELOG("Workspace %p / %s has no children to encapsulate\n", ws, ws->name); return NULL; } Con *new = con_new(NULL, NULL); new->parent = ws; new->layout = ws->layout; Con **focus_order = get_focus_order(ws); DLOG("Moving children of workspace %p / %s into container %p\n", ws, ws->name, new); Con *child; while (!TAILQ_EMPTY(&(ws->nodes_head))) { child = TAILQ_FIRST(&(ws->nodes_head)); con_detach(child); con_attach(child, new, true); } set_focus_order(new, focus_order); free(focus_order); con_attach(new, ws, true); return new; } /* * Move the given workspace to the specified output. */ void workspace_move_to_output(Con *ws, Output *output) { DLOG("Moving workspace %p / %s to output %p / \"%s\".\n", ws, ws->name, output, output_primary_name(output)); Output *current_output = get_output_for_con(ws); Con *content = output_get_content(output->con); DLOG("got output %p with content %p\n", output, content); if (ws->parent == content) { DLOG("Nothing to do, workspace already there\n"); return; } Con *previously_visible_ws = TAILQ_FIRST(&(content->focus_head)); if (previously_visible_ws) { DLOG("Previously visible workspace = %p / %s\n", previously_visible_ws, previously_visible_ws->name); } else { DLOG("No previously visible workspace on output.\n"); } bool workspace_was_visible = workspace_is_visible(ws); if (con_num_children(ws->parent) == 1) { DLOG("Creating a new workspace to replace \"%s\" (last on its output).\n", ws->name); /* check if we can find a workspace assigned to this output */ bool used_assignment = false; struct Workspace_Assignment *assignment; TAILQ_FOREACH (assignment, &ws_assignments, ws_assignments) { if (!output_triggers_assignment(current_output, assignment)) { continue; } /* check if this workspace's name or num is already attached to the tree */ const int num = ws_name_to_number(assignment->name); const bool attached = (num == -1) ? get_existing_workspace_by_name(assignment->name) : get_existing_workspace_by_num(num); if (attached) { continue; } /* so create the workspace referenced to by this assignment */ DLOG("Creating workspace from assignment %s.\n", assignment->name); workspace_get(assignment->name); used_assignment = true; break; } /* if we couldn't create the workspace using an assignment, create it on * the output. Workspace init IPC events are sent either by * workspace_get or create_workspace_on_output. */ if (!used_assignment) { create_workspace_on_output(current_output, ws->parent); } } DLOG("Detaching\n"); /* detach from the old output and attach to the new output */ Con *old_content = ws->parent; con_detach(ws); if (workspace_was_visible) { /* The workspace which we just detached was visible, so focus the next * one in the focus-stack. */ Con *focus_ws = TAILQ_FIRST(&(old_content->focus_head)); DLOG("workspace was visible, focusing %p / %s now\n", focus_ws, focus_ws->name); workspace_show(focus_ws); } con_attach(ws, content, false); /* fix the coordinates of the floating containers */ Con *floating_con; TAILQ_FOREACH (floating_con, &(ws->floating_head), floating_windows) { floating_fix_coordinates(floating_con, &(old_content->rect), &(content->rect)); } ipc_send_workspace_event("move", ws, NULL); if (workspace_was_visible) { /* Focus the moved workspace on the destination output. */ workspace_show(ws); } ewmh_update_desktop_properties(); if (!previously_visible_ws) { return; } /* NB: We cannot simply work with previously_visible_ws since it might have * been cleaned up by workspace_show() already, depending on the focus * order/number of other workspaces on the output. Instead, we loop through * the available workspaces and only work with previously_visible_ws if we * still find it. */ TAILQ_FOREACH (ws, &(content->nodes_head), nodes) { if (ws != previously_visible_ws) { continue; } /* Call the on_remove_child callback of the workspace which previously * was visible on the destination output. Since it is no longer visible, * it might need to get cleaned up. */ CALL(previously_visible_ws, on_remove_child); break; } }