/* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009 Michael Stapelberg and contributors (see also: LICENSE) * * move.c: Moving containers into some direction. * */ #include "all.h" /* * Returns the lowest container in the tree that has both a and b as descendants. * */ static Con *lowest_common_ancestor(Con *a, Con *b) { Con *parent_a = a; while (parent_a) { Con *parent_b = b; while (parent_b) { if (parent_a == parent_b) { return parent_a; } parent_b = parent_b->parent; } parent_a = parent_a->parent; } assert(false); } /* * Returns the direct child of ancestor that contains con. * */ static Con *child_containing_con_recursively(Con *ancestor, Con *con) { Con *child = con; while (child && child->parent != ancestor) { child = child->parent; assert(child->parent); } return child; } /* * Returns true if the given container is the focused descendant of ancestor, recursively. * */ static bool is_focused_descendant(Con *con, Con *ancestor) { Con *current = con; while (current != ancestor) { if (TAILQ_FIRST(&(current->parent->focus_head)) != current) { return false; } current = current->parent; assert(current->parent); } return true; } /* * This function detaches 'con' from its parent and inserts it either before or * after 'target'. * */ void insert_con_into(Con *con, Con *target, position_t position) { Con *parent = target->parent; /* We need to preserve the old con->parent. While it might still be used to * insert the entry before/after it, we call the on_remove_child callback * afterwards which might then close the con if it is empty. */ Con *old_parent = con->parent; /* We compare the focus order of the children of the lowest common ancestor. If con or * its ancestor is before target's ancestor then con should be placed before the target * in the focus stack. */ Con *lca = lowest_common_ancestor(con, parent); if (lca == con) { ELOG("Container is being inserted into one of its descendants.\n"); return; } Con *con_ancestor = child_containing_con_recursively(lca, con); Con *target_ancestor = child_containing_con_recursively(lca, target); bool moves_focus_from_ancestor = is_focused_descendant(con, con_ancestor); bool focus_before; /* Determine if con is going to be placed before or after target in the parent's focus stack. */ if (con_ancestor == target_ancestor) { /* Happens when the target is con's old parent. Eg with layout V [ A H [ B C ] ], * if we move C up. Target will be H. */ focus_before = moves_focus_from_ancestor; } else { /* Look at the focus stack order of the children of the lowest common ancestor. */ Con *current; TAILQ_FOREACH(current, &(lca->focus_head), focused) { if (current == con_ancestor || current == target_ancestor) { break; } } focus_before = (current == con_ancestor); } /* If con is the focused container in our old ancestor we place the new ancestor * before the old ancestor in the focus stack. Example: * Consider the layout [ H [ V1 [ A* B ] V2 [ C ] ] ] where A is focused. We move to * a second workspace and from there we move A to the right and switch back to the * original workspace. Without the change focus would move to B instead of staying * with A. */ if (moves_focus_from_ancestor && focus_before) { Con *place = TAILQ_PREV(con_ancestor, focus_head, focused); TAILQ_REMOVE(&(lca->focus_head), target_ancestor, focused); if (place) { TAILQ_INSERT_AFTER(&(lca->focus_head), place, target_ancestor, focused); } else { TAILQ_INSERT_HEAD(&(lca->focus_head), target_ancestor, focused); } } con_detach(con); con_fix_percent(con->parent); /* When moving to a workspace, we respect the user’s configured * workspace_layout */ if (parent->type == CT_WORKSPACE) { Con *split = workspace_attach_to(parent); if (split != parent) { DLOG("Got a new split con, using that one instead\n"); con->parent = split; con_attach(con, split, false); DLOG("attached\n"); con->percent = 0.0; con_fix_percent(split); con = split; DLOG("ok, continuing with con %p instead\n", con); con_detach(con); } } con->parent = parent; if (parent == lca) { if (focus_before) { /* Example layout: H [ A B* ], we move A up/down. 'target' will be H. */ TAILQ_INSERT_BEFORE(target, con, focused); } else { /* Example layout: H [ A B* ], we move A up/down. 'target' will be H. */ TAILQ_INSERT_AFTER(&(parent->focus_head), target, con, focused); } } else { if (focus_before) { /* Example layout: V [ H [ A B ] C* ], we move C up. 'target' will be A. */ TAILQ_INSERT_HEAD(&(parent->focus_head), con, focused); } else { /* Example layout: V [ H [ A* B ] C ], we move C up. 'target' will be A. */ TAILQ_INSERT_TAIL(&(parent->focus_head), con, focused); } } if (position == BEFORE) { TAILQ_INSERT_BEFORE(target, con, nodes); } else if (position == AFTER) { TAILQ_INSERT_AFTER(&(parent->nodes_head), target, con, nodes); } /* Pretend the con was just opened with regards to size percent values. * Since the con is moved to a completely different con, the old value * does not make sense anyways. */ con->percent = 0.0; con_fix_percent(parent); CALL(old_parent, on_remove_child); } /* * This function detaches 'con' from its parent and puts it in the given * workspace. Position is determined by the direction of movement into the * workspace container. * */ static void attach_to_workspace(Con *con, Con *ws, direction_t direction) { con_detach(con); Con *old_parent = con->parent; con->parent = ws; if (direction == D_RIGHT || direction == D_DOWN) { TAILQ_INSERT_HEAD(&(ws->nodes_head), con, nodes); } else { TAILQ_INSERT_TAIL(&(ws->nodes_head), con, nodes); } TAILQ_INSERT_TAIL(&(ws->focus_head), con, focused); /* Pretend the con was just opened with regards to size percent values. * Since the con is moved to a completely different con, the old value * does not make sense anyways. */ con->percent = 0.0; con_fix_percent(ws); con_fix_percent(old_parent); CALL(old_parent, on_remove_child); } /* * Moves the given container to the closest output in the given direction if * such an output exists. * */ static void move_to_output_directed(Con *con, direction_t direction) { Output *current_output = get_output_for_con(con); Output *output = get_output_next(direction, current_output, CLOSEST_OUTPUT); if (!output) { DLOG("No output in this direction found. Not moving.\n"); return; } Con *ws = NULL; GREP_FIRST(ws, output_get_content(output->con), workspace_is_visible(child)); if (!ws) { DLOG("No workspace on output in this direction found. Not moving.\n"); return; } Con *old_ws = con_get_workspace(con); const bool moves_focus = (focused == con); attach_to_workspace(con, ws, direction); if (moves_focus) { /* workspace_show will not correctly update the active workspace because * the focused container, con, is now a child of ws. To work around this * and still produce the correct workspace focus events (see * 517-regress-move-direction-ipc.t) we need to temporarily set focused * to the old workspace. */ focused = old_ws; workspace_show(ws); con_focus(con); } /* force re-painting the indicators */ FREE(con->deco_render_params); tree_flatten(croot); ipc_send_window_event("move", con); ewmh_update_wm_desktop(); } /* * Moves the given container in the given direction (D_LEFT, D_RIGHT, * D_UP, D_DOWN). * */ void tree_move(Con *con, int direction) { position_t position; Con *target; DLOG("Moving in direction %d\n", direction); /* 1: get the first parent with the same orientation */ if (con->type == CT_WORKSPACE) { DLOG("Not moving workspace\n"); return; } if (con->fullscreen_mode == CF_GLOBAL) { DLOG("Not moving fullscreen global container\n"); return; } if ((con->fullscreen_mode == CF_OUTPUT) || (con->parent->type == CT_WORKSPACE && con_num_children(con->parent) == 1)) { /* This is the only con on this workspace */ move_to_output_directed(con, direction); return; } orientation_t o = orientation_from_direction(direction); Con *same_orientation = con_parent_with_orientation(con, o); /* The do {} while is used to 'restart' at this point with a different * same_orientation, see the very last lines before the end of this block * */ do { /* There is no parent container with the same orientation */ if (!same_orientation) { if (con_is_floating(con)) { /* this is a floating con, we just disable floating */ floating_disable(con, true); return; } if (con_inside_floating(con)) { /* 'con' should be moved out of a floating container */ DLOG("Inside floating, moving to workspace\n"); attach_to_workspace(con, con_get_workspace(con), direction); goto end; } DLOG("Force-changing orientation\n"); ws_force_orientation(con_get_workspace(con), o); same_orientation = con_parent_with_orientation(con, o); } /* easy case: the move is within this container */ if (same_orientation == con->parent) { Con *swap = (direction == D_LEFT || direction == D_UP) ? TAILQ_PREV(con, nodes_head, nodes) : TAILQ_NEXT(con, nodes); if (swap) { if (!con_is_leaf(swap)) { DLOG("Moving into our bordering branch\n"); target = con_descend_direction(swap, direction); position = (con_orientation(target->parent) != o || direction == D_UP || direction == D_LEFT ? AFTER : BEFORE); insert_con_into(con, target, position); goto end; } DLOG("Swapping with sibling.\n"); if (direction == D_LEFT || direction == D_UP) { TAILQ_SWAP(swap, con, &(swap->parent->nodes_head), nodes); } else { TAILQ_SWAP(con, swap, &(swap->parent->nodes_head), nodes); } ipc_send_window_event("move", con); return; } if (con->parent == con_get_workspace(con)) { /* If we couldn't find a place to move it on this workspace, try * to move it to a workspace on a different output */ move_to_output_directed(con, direction); return; } /* If there was no con with which we could swap the current one, * search again, but starting one level higher. */ same_orientation = con_parent_with_orientation(con->parent, o); } } while (same_orientation == NULL); /* this time, we have to move to another container */ /* This is the container *above* 'con' (an ancestor of con) which is inside * 'same_orientation' */ Con *above = con; while (above->parent != same_orientation) above = above->parent; /* Enforce the fullscreen focus restrictions. */ if (!con_fullscreen_permits_focusing(above->parent)) { LOG("Cannot move out of fullscreen container\n"); return; } DLOG("above = %p\n", above); Con *next = (direction == D_UP || direction == D_LEFT ? TAILQ_PREV(above, nodes_head, nodes) : TAILQ_NEXT(above, nodes)); if (next && !con_is_leaf(next)) { DLOG("Moving into the bordering branch of our adjacent container\n"); target = con_descend_direction(next, direction); position = (con_orientation(target->parent) != o || direction == D_UP || direction == D_LEFT ? AFTER : BEFORE); insert_con_into(con, target, position); } else if (!next && con->parent->parent->type == CT_WORKSPACE && con->parent->layout != L_DEFAULT && con_num_children(con->parent) == 1) { /* Con is the lone child of a non-default layout container at the edge * of the workspace. Treat it as though the workspace is its parent * and move it to the next output. */ DLOG("Grandparent is workspace\n"); move_to_output_directed(con, direction); return; } else { DLOG("Moving into container above\n"); position = (direction == D_UP || direction == D_LEFT ? BEFORE : AFTER); insert_con_into(con, above, position); } end: /* force re-painting the indicators */ FREE(con->deco_render_params); tree_flatten(croot); ipc_send_window_event("move", con); ewmh_update_wm_desktop(); }