/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */ /* * SECTION:stack * @short_description: Which windows cover which other windows */ /* * Copyright (C) 2001 Havoc Pennington * Copyright (C) 2002, 2003 Red Hat, Inc. * Copyright (C) 2004 Rob Adams * Copyright (C) 2004, 2005 Elijah Newren * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ #include "config.h" #include "core/stack.h" #include "backends/meta-logical-monitor.h" #include "cogl/cogl.h" #include "core/frame.h" #include "core/main-private.h" #include "core/meta-workspace-manager-private.h" #include "core/window-private.h" #include "meta/group.h" #include "meta/prefs.h" #include "meta/workspace.h" #include "x11/meta-x11-display-private.h" #define WINDOW_TRANSIENT_FOR_WHOLE_GROUP(w) \ (meta_window_has_transient_type (w) && w->transient_for == NULL) static void meta_window_set_stack_position_no_sync (MetaWindow *window, int position); static void stack_do_relayer (MetaStack *stack); static void stack_do_constrain (MetaStack *stack); static void stack_do_resort (MetaStack *stack); static void stack_ensure_sorted (MetaStack *stack); enum { PROP_DISPLAY = 1, N_PROPS }; enum { CHANGED, WINDOW_ADDED, WINDOW_REMOVED, N_SIGNALS }; static GParamSpec *pspecs[N_PROPS] = { 0 }; static guint signals[N_SIGNALS] = { 0 }; G_DEFINE_TYPE (MetaStack, meta_stack, G_TYPE_OBJECT) static void on_stack_changed (MetaStack *stack) { MetaDisplay *display = stack->display; GArray *all_root_children_stacked; GList *l; GArray *hidden_stack_ids; GList *sorted; meta_topic (META_DEBUG_STACK, "Syncing window stack to server\n"); all_root_children_stacked = g_array_new (FALSE, FALSE, sizeof (uint64_t)); hidden_stack_ids = g_array_new (FALSE, FALSE, sizeof (uint64_t)); meta_topic (META_DEBUG_STACK, "Bottom to top: "); meta_push_no_msg_prefix (); sorted = meta_stack_list_windows (stack, NULL); for (l = sorted; l; l = l->next) { MetaWindow *w = l->data; uint64_t top_level_window; uint64_t stack_id; if (w->unmanaging) continue; meta_topic (META_DEBUG_STACK, "%u:%d - %s ", w->layer, w->stack_position, w->desc); if (w->frame) top_level_window = w->frame->xwindow; else top_level_window = w->xwindow; if (w->client_type == META_WINDOW_CLIENT_TYPE_X11) stack_id = top_level_window; else stack_id = w->stamp; /* We don't restack hidden windows along with the rest, though they are * reflected in the _NET hints. Hidden windows all get pushed below * the screens fullscreen guard_window. */ if (w->hidden) { g_array_append_val (hidden_stack_ids, stack_id); continue; } g_array_append_val (all_root_children_stacked, stack_id); } meta_topic (META_DEBUG_STACK, "\n"); meta_pop_no_msg_prefix (); if (display->x11_display) { uint64_t guard_window_id; /* The screen guard window sits above all hidden windows and acts as * a barrier to input reaching these windows. */ guard_window_id = display->x11_display->guard_window; g_array_append_val (hidden_stack_ids, guard_window_id); } /* Sync to server */ meta_topic (META_DEBUG_STACK, "Restacking %u windows\n", all_root_children_stacked->len); meta_stack_tracker_restack_managed (display->stack_tracker, (uint64_t *)all_root_children_stacked->data, all_root_children_stacked->len); meta_stack_tracker_restack_at_bottom (display->stack_tracker, (uint64_t *)hidden_stack_ids->data, hidden_stack_ids->len); g_array_free (hidden_stack_ids, TRUE); g_array_free (all_root_children_stacked, TRUE); g_list_free (sorted); } static void meta_stack_init (MetaStack *stack) { g_signal_connect (stack, "changed", G_CALLBACK (on_stack_changed), NULL); } static void meta_stack_finalize (GObject *object) { MetaStack *stack = META_STACK (object); g_list_free (stack->sorted); G_OBJECT_CLASS (meta_stack_parent_class)->finalize (object); } static void meta_stack_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { MetaStack *stack = META_STACK (object); switch (prop_id) { case PROP_DISPLAY: stack->display = g_value_get_object (value); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); } } static void meta_stack_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec) { MetaStack *stack = META_STACK (object); switch (prop_id) { case PROP_DISPLAY: g_value_set_object (value, stack->display); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); } } static void meta_stack_class_init (MetaStackClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); object_class->set_property = meta_stack_set_property; object_class->get_property = meta_stack_get_property; object_class->finalize = meta_stack_finalize; signals[CHANGED] = g_signal_new ("changed", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0, NULL, NULL, NULL, G_TYPE_NONE, 0); signals[WINDOW_ADDED] = g_signal_new ("window-added", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0, NULL, NULL, g_cclosure_marshal_VOID__OBJECT, G_TYPE_NONE, 1, META_TYPE_WINDOW); signals[WINDOW_REMOVED] = g_signal_new ("window-removed", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0, NULL, NULL, g_cclosure_marshal_VOID__OBJECT, G_TYPE_NONE, 1, META_TYPE_WINDOW); pspecs[PROP_DISPLAY] = g_param_spec_object ("display", "Display", "Display", META_TYPE_DISPLAY, G_PARAM_READWRITE | G_PARAM_CONSTRUCT_ONLY); g_object_class_install_properties (object_class, N_PROPS, pspecs); } MetaStack * meta_stack_new (MetaDisplay *display) { return g_object_new (META_TYPE_STACK, "display", display, NULL); } static void meta_stack_changed (MetaStack *stack) { /* Bail out if frozen */ if (stack->freeze_count > 0) return; stack_ensure_sorted (stack); g_signal_emit (stack, signals[CHANGED], 0); } void meta_stack_add (MetaStack *stack, MetaWindow *window) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; COGL_TRACE_BEGIN_SCOPED (MetaStackAdd, "Stack (add window)"); g_return_if_fail (meta_window_is_stackable (window)); meta_topic (META_DEBUG_STACK, "Adding window %s to the stack\n", window->desc); if (meta_window_is_in_stack (window)) meta_bug ("Window %s had stack position already\n", window->desc); stack->sorted = g_list_prepend (stack->sorted, window); stack->need_resort = TRUE; /* may not be needed as we add to top */ stack->need_constrain = TRUE; stack->need_relayer = TRUE; g_signal_emit (stack, signals[WINDOW_ADDED], 0, window); window->stack_position = stack->n_positions; stack->n_positions += 1; meta_topic (META_DEBUG_STACK, "Window %s has stack_position initialized to %d\n", window->desc, window->stack_position); meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, workspace_manager->active_workspace); } void meta_stack_remove (MetaStack *stack, MetaWindow *window) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; COGL_TRACE_BEGIN_SCOPED (MetaStackRemove, "Stack (remove window)"); meta_topic (META_DEBUG_STACK, "Removing window %s from the stack\n", window->desc); /* Set window to top position, so removing it will not leave gaps * in the set of positions */ meta_window_set_stack_position_no_sync (window, stack->n_positions - 1); window->stack_position = -1; stack->n_positions -= 1; stack->sorted = g_list_remove (stack->sorted, window); g_signal_emit (stack, signals[WINDOW_REMOVED], 0, window); meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, workspace_manager->active_workspace); } void meta_stack_update_layer (MetaStack *stack, MetaWindow *window) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; stack->need_relayer = TRUE; meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, workspace_manager->active_workspace); } void meta_stack_update_transient (MetaStack *stack, MetaWindow *window) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; stack->need_constrain = TRUE; meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, workspace_manager->active_workspace); } /* raise/lower within a layer */ void meta_stack_raise (MetaStack *stack, MetaWindow *window) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; GList *l; int max_stack_position = window->stack_position; MetaWorkspace *workspace; stack_ensure_sorted (stack); workspace = meta_window_get_workspace (window); for (l = stack->sorted; l; l = l->next) { MetaWindow *w = (MetaWindow *) l->data; if (meta_window_located_on_workspace (w, workspace) && w->stack_position > max_stack_position) max_stack_position = w->stack_position; } if (max_stack_position == window->stack_position) return; meta_window_set_stack_position_no_sync (window, max_stack_position); meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, workspace_manager->active_workspace); } void meta_stack_lower (MetaStack *stack, MetaWindow *window) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; GList *l; int min_stack_position = window->stack_position; MetaWorkspace *workspace; stack_ensure_sorted (stack); workspace = meta_window_get_workspace (window); for (l = stack->sorted; l; l = l->next) { MetaWindow *w = (MetaWindow *) l->data; if (meta_window_located_on_workspace (w, workspace) && w->stack_position < min_stack_position) min_stack_position = w->stack_position; } if (min_stack_position == window->stack_position) return; meta_window_set_stack_position_no_sync (window, min_stack_position); meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, workspace_manager->active_workspace); } void meta_stack_freeze (MetaStack *stack) { stack->freeze_count += 1; } void meta_stack_thaw (MetaStack *stack) { g_return_if_fail (stack->freeze_count > 0); stack->freeze_count -= 1; meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, NULL); } void meta_stack_update_window_tile_matches (MetaStack *stack, MetaWorkspace *workspace) { GList *windows, *tmp; if (stack->freeze_count > 0) return; windows = meta_stack_list_windows (stack, workspace); tmp = windows; while (tmp) { meta_window_compute_tile_match ((MetaWindow *) tmp->data); tmp = tmp->next; } g_list_free (windows); } /* Front of the layer list is the topmost window, * so the lower stack position is later in the list */ static int compare_window_position (void *a, void *b) { MetaWindow *window_a = a; MetaWindow *window_b = b; /* Go by layer, then stack_position */ if (window_a->layer < window_b->layer) return 1; /* move window_a later in list */ else if (window_a->layer > window_b->layer) return -1; else if (window_a->stack_position < window_b->stack_position) return 1; /* move window_a later in list */ else if (window_a->stack_position > window_b->stack_position) return -1; else return 0; /* not reached */ } /* * Stacking constraints * * Assume constraints of the form "AB" meaning "window A must be * below window B" * * If we have windows stacked from bottom to top * "ABC" then raise A we get "BCA". Say C is * transient for B is transient for A. So * we have constraints AB and BC. * * After raising A, we need to reapply the constraints. * If we do this by raising one window at a time - * * start: BCA * apply AB: CAB * apply BC: ABC * * but apply constraints in the wrong order and it breaks: * * start: BCA * apply BC: BCA * apply AB: CAB * * We make a directed graph of the constraints by linking * from "above windows" to "below windows as follows: * * AB -> BC -> CD * \ * CE * * If we then walk that graph and apply the constraints in the order * that they appear, we will apply them correctly. Note that the * graph MAY have cycles, so we have to guard against that. * */ typedef struct Constraint Constraint; struct Constraint { MetaWindow *above; MetaWindow *below; /* used to keep the constraint in the * list of constraints for window "below" */ Constraint *next; /* used to create the graph. */ GSList *next_nodes; /* constraint has been applied, used * to detect cycles. */ unsigned int applied : 1; /* constraint has a previous node in the graph, * used to find places to start in the graph. * (I think this also has the side effect * of preventing cycles, since cycles will * have no starting point - so maybe * the "applied" flag isn't needed.) */ unsigned int has_prev : 1; }; /* We index the array of constraints by window * stack positions, just because the stack * positions are a convenient index. */ static void add_constraint (Constraint **constraints, MetaWindow *above, MetaWindow *below) { Constraint *c; /* check if constraint is a duplicate */ c = constraints[below->stack_position]; while (c != NULL) { if (c->above == above) return; c = c->next; } /* if not, add the constraint */ c = g_new (Constraint, 1); c->above = above; c->below = below; c->next = constraints[below->stack_position]; c->next_nodes = NULL; c->applied = FALSE; c->has_prev = FALSE; constraints[below->stack_position] = c; } static void create_constraints (Constraint **constraints, GList *windows) { GList *tmp; tmp = windows; while (tmp != NULL) { MetaWindow *w = tmp->data; if (!meta_window_is_in_stack (w)) { meta_topic (META_DEBUG_STACK, "Window %s not in the stack, not constraining it\n", w->desc); tmp = tmp->next; continue; } if (WINDOW_TRANSIENT_FOR_WHOLE_GROUP (w)) { GSList *group_windows; GSList *tmp2; MetaGroup *group; group = meta_window_get_group (w); if (group != NULL) group_windows = meta_group_list_windows (group); else group_windows = NULL; tmp2 = group_windows; while (tmp2 != NULL) { MetaWindow *group_window = tmp2->data; if (!meta_window_is_in_stack (group_window) || group_window->override_redirect) { tmp2 = tmp2->next; continue; } #if 0 /* old way of doing it */ if (!(meta_window_is_ancestor_of_transient (w, group_window)) && !WINDOW_TRANSIENT_FOR_WHOLE_GROUP (group_window)) /* note */;/*note*/ #else /* better way I think, so transient-for-group are constrained * only above non-transient-type windows in their group */ if (!meta_window_has_transient_type (group_window)) #endif { meta_topic (META_DEBUG_STACK, "Constraining %s above %s as it's transient for its group\n", w->desc, group_window->desc); add_constraint (constraints, w, group_window); } tmp2 = tmp2->next; } g_slist_free (group_windows); } else if (w->transient_for != NULL) { MetaWindow *parent; parent = w->transient_for; if (parent && meta_window_is_in_stack (parent)) { meta_topic (META_DEBUG_STACK, "Constraining %s above %s due to transiency\n", w->desc, parent->desc); add_constraint (constraints, w, parent); } } tmp = tmp->next; } } static void graph_constraints (Constraint **constraints, int n_constraints) { int i; i = 0; while (i < n_constraints) { Constraint *c; /* If we have "A below B" and "B below C" then AB -> BC so we * add BC to next_nodes in AB. */ c = constraints[i]; while (c != NULL) { Constraint *n; g_assert (c->below->stack_position == i); /* Constraints where ->above is below are our * next_nodes and we are their previous */ n = constraints[c->above->stack_position]; while (n != NULL) { c->next_nodes = g_slist_prepend (c->next_nodes, n); /* c is a previous node of n */ n->has_prev = TRUE; n = n->next; } c = c->next; } ++i; } } static void free_constraints (Constraint **constraints, int n_constraints) { int i; i = 0; while (i < n_constraints) { Constraint *c; c = constraints[i]; while (c != NULL) { Constraint *next = c->next; g_slist_free (c->next_nodes); g_free (c); c = next; } ++i; } } static void ensure_above (MetaWindow *above, MetaWindow *below) { gboolean is_transient; is_transient = meta_window_has_transient_type (above) || above->transient_for == below; if (is_transient && above->layer < below->layer) { meta_topic (META_DEBUG_STACK, "Promoting window %s from layer %u to %u due to constraint\n", above->desc, above->layer, below->layer); above->layer = below->layer; } if (above->stack_position < below->stack_position) { /* move above to below->stack_position bumping below down the stack */ meta_window_set_stack_position_no_sync (above, below->stack_position); g_assert (below->stack_position + 1 == above->stack_position); } meta_topic (META_DEBUG_STACK, "%s above at %d > %s below at %d\n", above->desc, above->stack_position, below->desc, below->stack_position); } static void traverse_constraint (Constraint *c) { GSList *tmp; if (c->applied) return; ensure_above (c->above, c->below); c->applied = TRUE; tmp = c->next_nodes; while (tmp != NULL) { traverse_constraint (tmp->data); tmp = tmp->next; } } static void apply_constraints (Constraint **constraints, int n_constraints) { GSList *heads; GSList *tmp; int i; /* List all heads in an ordered constraint chain */ heads = NULL; i = 0; while (i < n_constraints) { Constraint *c; c = constraints[i]; while (c != NULL) { if (!c->has_prev) heads = g_slist_prepend (heads, c); c = c->next; } ++i; } /* Now traverse the chain and apply constraints */ tmp = heads; while (tmp != NULL) { Constraint *c = tmp->data; traverse_constraint (c); tmp = tmp->next; } g_slist_free (heads); } /** * stack_do_relayer: * * Update the layers that windows are in */ static void stack_do_relayer (MetaStack *stack) { GList *tmp; if (!stack->need_relayer) return; meta_topic (META_DEBUG_STACK, "Recomputing layers\n"); tmp = stack->sorted; while (tmp != NULL) { MetaWindow *w; MetaStackLayer old_layer; w = tmp->data; old_layer = w->layer; w->layer = meta_window_calculate_layer (w); if (w->layer != old_layer) { meta_topic (META_DEBUG_STACK, "Window %s moved from layer %u to %u\n", w->desc, old_layer, w->layer); stack->need_resort = TRUE; stack->need_constrain = TRUE; /* don't need to constrain as constraining * purely operates in terms of stack_position * not layer */ } tmp = tmp->next; } stack->need_relayer = FALSE; } /** * stack_do_constrain: * * Update stack_position and layer to reflect transiency * constraints */ static void stack_do_constrain (MetaStack *stack) { Constraint **constraints; /* It'd be nice if this were all faster, probably */ if (!stack->need_constrain) return; meta_topic (META_DEBUG_STACK, "Reapplying constraints\n"); constraints = g_new0 (Constraint*, stack->n_positions); create_constraints (constraints, stack->sorted); graph_constraints (constraints, stack->n_positions); apply_constraints (constraints, stack->n_positions); free_constraints (constraints, stack->n_positions); g_free (constraints); stack->need_constrain = FALSE; } /** * stack_do_resort: * * Sort stack->sorted with layers having priority over stack_position. */ static void stack_do_resort (MetaStack *stack) { if (!stack->need_resort) return; meta_topic (META_DEBUG_STACK, "Sorting stack list\n"); stack->sorted = g_list_sort (stack->sorted, (GCompareFunc) compare_window_position); meta_display_queue_check_fullscreen (stack->display); stack->need_resort = FALSE; } /** * stack_ensure_sorted: * * Puts the stack into canonical form. * * Honour the removed and added lists of the stack, and then recalculate * all the layers (if the flag is set), re-run all the constraint calculations * (if the flag is set), and finally re-sort the stack (if the flag is set, * and if it wasn't already it might have become so during all the previous * activity). */ static void stack_ensure_sorted (MetaStack *stack) { stack_do_relayer (stack); stack_do_constrain (stack); stack_do_resort (stack); } MetaWindow * meta_stack_get_top (MetaStack *stack) { stack_ensure_sorted (stack); if (stack->sorted) return stack->sorted->data; else return NULL; } MetaWindow * meta_stack_get_bottom (MetaStack *stack) { GList *link; stack_ensure_sorted (stack); link = g_list_last (stack->sorted); if (link != NULL) return link->data; else return NULL; } MetaWindow * meta_stack_get_above (MetaStack *stack, MetaWindow *window, gboolean only_within_layer) { GList *link; MetaWindow *above; stack_ensure_sorted (stack); link = g_list_find (stack->sorted, window); if (link == NULL) return NULL; if (link->prev == NULL) return NULL; above = link->prev->data; if (only_within_layer && above->layer != window->layer) return NULL; else return above; } MetaWindow * meta_stack_get_below (MetaStack *stack, MetaWindow *window, gboolean only_within_layer) { GList *link; MetaWindow *below; stack_ensure_sorted (stack); link = g_list_find (stack->sorted, window); if (link == NULL) return NULL; if (link->next == NULL) return NULL; below = link->next->data; if (only_within_layer && below->layer != window->layer) return NULL; else return below; } static gboolean window_contains_point (MetaWindow *window, int root_x, int root_y) { MetaRectangle rect; meta_window_get_frame_rect (window, &rect); return META_POINT_IN_RECT (root_x, root_y, rect); } static gboolean window_can_get_default_focus (MetaWindow *window) { if (window->unmaps_pending > 0) return FALSE; if (window->unmanaging) return FALSE; if (!meta_window_is_focusable (window)) return FALSE; if (!meta_window_should_be_showing (window)) return FALSE; if (window->type == META_WINDOW_DOCK) return FALSE; return TRUE; } static MetaWindow * get_default_focus_window (MetaStack *stack, MetaWorkspace *workspace, MetaWindow *not_this_one, gboolean must_be_at_point, int root_x, int root_y) { /* Find the topmost, focusable, mapped, window. * not_this_one is being unfocused or going away, so exclude it. */ GList *l; stack_ensure_sorted (stack); /* top of this layer is at the front of the list */ for (l = stack->sorted; l != NULL; l = l->next) { MetaWindow *window = l->data; if (!window) continue; if (window == not_this_one) continue; if (!window_can_get_default_focus (window)) continue; if (must_be_at_point && !window_contains_point (window, root_x, root_y)) continue; return window; } return NULL; } MetaWindow * meta_stack_get_default_focus_window_at_point (MetaStack *stack, MetaWorkspace *workspace, MetaWindow *not_this_one, int root_x, int root_y) { return get_default_focus_window (stack, workspace, not_this_one, TRUE, root_x, root_y); } MetaWindow * meta_stack_get_default_focus_window (MetaStack *stack, MetaWorkspace *workspace, MetaWindow *not_this_one) { return get_default_focus_window (stack, workspace, not_this_one, FALSE, 0, 0); } GList * meta_stack_list_windows (MetaStack *stack, MetaWorkspace *workspace) { GList *workspace_windows = NULL; GList *link; stack_ensure_sorted (stack); /* do adds/removes */ link = stack->sorted; while (link) { MetaWindow *window = link->data; if (window && (workspace == NULL || meta_window_located_on_workspace (window, workspace))) { workspace_windows = g_list_prepend (workspace_windows, window); } link = link->next; } return workspace_windows; } GList * meta_stack_get_default_focus_candidates (MetaStack *stack, MetaWorkspace *workspace) { GList *windows = meta_stack_list_windows (stack, workspace); GList *l; for (l = windows; l;) { GList *next = l->next; if (!window_can_get_default_focus (l->data)) windows = g_list_delete_link (windows, l); l = next; } return windows; } int meta_stack_windows_cmp (MetaStack *stack, MetaWindow *window_a, MetaWindow *window_b) { /* -1 means a below b */ stack_ensure_sorted (stack); /* update constraints, layers */ if (window_a->layer < window_b->layer) return -1; else if (window_a->layer > window_b->layer) return 1; else if (window_a->stack_position < window_b->stack_position) return -1; else if (window_a->stack_position > window_b->stack_position) return 1; else return 0; /* not reached */ } static int compare_just_window_stack_position (void *a, void *b) { MetaWindow *window_a = a; MetaWindow *window_b = b; if (window_a->stack_position < window_b->stack_position) return -1; /* move window_a earlier in list */ else if (window_a->stack_position > window_b->stack_position) return 1; else return 0; /* not reached */ } GList * meta_stack_get_positions (MetaStack *stack) { GList *tmp; /* Make sure to handle any adds or removes */ stack_ensure_sorted (stack); tmp = g_list_copy (stack->sorted); tmp = g_list_sort (tmp, (GCompareFunc) compare_just_window_stack_position); return tmp; } static gint compare_pointers (gconstpointer a, gconstpointer b) { if (a > b) return 1; else if (a < b) return -1; else return 0; } static gboolean lists_contain_same_windows (GList *a, GList *b) { GList *copy1, *copy2; GList *tmp1, *tmp2; if (g_list_length (a) != g_list_length (b)) return FALSE; tmp1 = copy1 = g_list_sort (g_list_copy (a), compare_pointers); tmp2 = copy2 = g_list_sort (g_list_copy (b), compare_pointers); while (tmp1 && tmp1->data == tmp2->data) /* tmp2 is non-NULL if tmp1 is */ { tmp1 = tmp1->next; tmp2 = tmp2->next; } g_list_free (copy1); g_list_free (copy2); return (tmp1 == NULL); /* tmp2 is non-NULL if tmp1 is */ } void meta_stack_set_positions (MetaStack *stack, GList *windows) { int i; GList *tmp; /* Make sure any adds or removes aren't in limbo -- is this needed? */ stack_ensure_sorted (stack); if (!lists_contain_same_windows (windows, stack->sorted)) { meta_warning ("This list of windows has somehow changed; not resetting " "positions of the windows.\n"); return; } g_list_free (stack->sorted); stack->sorted = g_list_copy (windows); stack->need_resort = TRUE; stack->need_constrain = TRUE; i = 0; tmp = windows; while (tmp != NULL) { MetaWindow *w = tmp->data; w->stack_position = i++; tmp = tmp->next; } meta_topic (META_DEBUG_STACK, "Reset the stack positions of (nearly) all windows\n"); meta_stack_changed (stack); meta_stack_update_window_tile_matches (stack, NULL); } void meta_window_set_stack_position_no_sync (MetaWindow *window, int position) { int low, high, delta; GList *tmp; g_return_if_fail (window->display->stack != NULL); g_return_if_fail (window->stack_position >= 0); g_return_if_fail (position >= 0); g_return_if_fail (position < window->display->stack->n_positions); if (position == window->stack_position) { meta_topic (META_DEBUG_STACK, "Window %s already has position %d\n", window->desc, position); return; } window->display->stack->need_resort = TRUE; window->display->stack->need_constrain = TRUE; if (position < window->stack_position) { low = position; high = window->stack_position - 1; delta = 1; } else { low = window->stack_position + 1; high = position; delta = -1; } tmp = window->display->stack->sorted; while (tmp != NULL) { MetaWindow *w = tmp->data; if (w->stack_position >= low && w->stack_position <= high) w->stack_position += delta; tmp = tmp->next; } window->stack_position = position; meta_topic (META_DEBUG_STACK, "Window %s had stack_position set to %d\n", window->desc, window->stack_position); } void meta_window_set_stack_position (MetaWindow *window, int position) { MetaWorkspaceManager *workspace_manager = window->display->workspace_manager; meta_window_set_stack_position_no_sync (window, position); meta_stack_changed (window->display->stack); meta_stack_update_window_tile_matches (window->display->stack, workspace_manager->active_workspace); }