/* gtktreerbtree.c * Copyright (C) 2000 Red Hat, Inc., Jonathan Blandford * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library. If not, see . */ #include "config.h" #include "gtktreerbtreeprivate.h" #include "gtkdebug.h" static GtkTreeRBNode *gtk_tree_rbnode_new (GtkTreeRBTree *tree, gint height); static void gtk_tree_rbnode_free (GtkTreeRBNode *node); static void gtk_tree_rbnode_rotate_left (GtkTreeRBTree *tree, GtkTreeRBNode *node); static void gtk_tree_rbnode_rotate_right (GtkTreeRBTree *tree, GtkTreeRBNode *node); static void gtk_tree_rbtree_insert_fixup (GtkTreeRBTree *tree, GtkTreeRBNode *node); static void gtk_tree_rbtree_remove_node_fixup (GtkTreeRBTree *tree, GtkTreeRBNode *node, GtkTreeRBNode *parent); static inline void fixup_validation (GtkTreeRBTree *tree, GtkTreeRBNode *node); static inline void fixup_total_count (GtkTreeRBTree *tree, GtkTreeRBNode *node); #ifdef G_ENABLE_DEBUG static void gtk_tree_rbtree_test (const gchar *where, GtkTreeRBTree *tree); static void gtk_tree_rbtree_debug_spew (GtkTreeRBTree *tree, GString *s); #endif static const GtkTreeRBNode nil = { /* .flags = */ GTK_TREE_RBNODE_BLACK, /* rest is NULL */ }; gboolean gtk_tree_rbtree_is_nil (GtkTreeRBNode *node) { return node == &nil; } static GtkTreeRBNode * gtk_tree_rbnode_new (GtkTreeRBTree *tree, gint height) { GtkTreeRBNode *node = g_slice_new (GtkTreeRBNode); node->left = (GtkTreeRBNode *) &nil; node->right = (GtkTreeRBNode *) &nil; node->parent = (GtkTreeRBNode *) &nil; node->flags = GTK_TREE_RBNODE_RED; node->total_count = 1; node->count = 1; node->children = NULL; node->offset = height; return node; } static void gtk_tree_rbnode_free (GtkTreeRBNode *node) { #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { node->left = (gpointer) 0xdeadbeef; node->right = (gpointer) 0xdeadbeef; node->parent = (gpointer) 0xdeadbeef; node->total_count = 56789; node->offset = 56789; node->count = 56789; node->flags = 0; } #endif g_slice_free (GtkTreeRBNode, node); } static void gtk_tree_rbnode_rotate_left (GtkTreeRBTree *tree, GtkTreeRBNode *node) { gint node_height, right_height; GtkTreeRBNode *right; g_return_if_fail (!gtk_tree_rbtree_is_nil (node)); g_return_if_fail (!gtk_tree_rbtree_is_nil (node->right)); right = node->right; node_height = GTK_TREE_RBNODE_GET_HEIGHT (node); right_height = GTK_TREE_RBNODE_GET_HEIGHT (right); node->right = right->left; if (!gtk_tree_rbtree_is_nil (right->left)) right->left->parent = node; right->parent = node->parent; if (!gtk_tree_rbtree_is_nil (node->parent)) { if (node == node->parent->left) node->parent->left = right; else node->parent->right = right; } else { tree->root = right; } right->left = node; node->parent = right; node->count = 1 + node->left->count + node->right->count; right->count = 1 + right->left->count + right->right->count; node->offset = node_height + node->left->offset + node->right->offset + (node->children ? node->children->root->offset : 0); right->offset = right_height + right->left->offset + right->right->offset + (right->children ? right->children->root->offset : 0); fixup_validation (tree, node); fixup_validation (tree, right); fixup_total_count (tree, node); fixup_total_count (tree, right); } static void gtk_tree_rbnode_rotate_right (GtkTreeRBTree *tree, GtkTreeRBNode *node) { gint node_height, left_height; GtkTreeRBNode *left; g_return_if_fail (!gtk_tree_rbtree_is_nil (node)); g_return_if_fail (!gtk_tree_rbtree_is_nil (node->left)); left = node->left; node_height = GTK_TREE_RBNODE_GET_HEIGHT (node); left_height = GTK_TREE_RBNODE_GET_HEIGHT (left); node->left = left->right; if (!gtk_tree_rbtree_is_nil (left->right)) left->right->parent = node; left->parent = node->parent; if (!gtk_tree_rbtree_is_nil (node->parent)) { if (node == node->parent->right) node->parent->right = left; else node->parent->left = left; } else { tree->root = left; } /* link node and left */ left->right = node; node->parent = left; node->count = 1 + node->left->count + node->right->count; left->count = 1 + left->left->count + left->right->count; node->offset = node_height + node->left->offset + node->right->offset + (node->children ? node->children->root->offset : 0); left->offset = left_height + left->left->offset + left->right->offset + (left->children ? left->children->root->offset : 0); fixup_validation (tree, node); fixup_validation (tree, left); fixup_total_count (tree, node); fixup_total_count (tree, left); } static void gtk_tree_rbtree_insert_fixup (GtkTreeRBTree *tree, GtkTreeRBNode *node) { /* check Red-Black properties */ while (node != tree->root && GTK_TREE_RBNODE_GET_COLOR (node->parent) == GTK_TREE_RBNODE_RED) { /* we have a violation */ if (node->parent == node->parent->parent->left) { GtkTreeRBNode *y = node->parent->parent->right; if (GTK_TREE_RBNODE_GET_COLOR (y) == GTK_TREE_RBNODE_RED) { /* uncle is GTK_TREE_RBNODE_RED */ GTK_TREE_RBNODE_SET_COLOR (node->parent, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (y, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (node->parent->parent, GTK_TREE_RBNODE_RED); node = node->parent->parent; } else { /* uncle is GTK_TREE_RBNODE_BLACK */ if (node == node->parent->right) { /* make node a left child */ node = node->parent; gtk_tree_rbnode_rotate_left (tree, node); } /* recolor and rotate */ GTK_TREE_RBNODE_SET_COLOR (node->parent, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (node->parent->parent, GTK_TREE_RBNODE_RED); gtk_tree_rbnode_rotate_right (tree, node->parent->parent); } } else { /* mirror image of above code */ GtkTreeRBNode *y = node->parent->parent->left; if (GTK_TREE_RBNODE_GET_COLOR (y) == GTK_TREE_RBNODE_RED) { /* uncle is GTK_TREE_RBNODE_RED */ GTK_TREE_RBNODE_SET_COLOR (node->parent, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (y, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (node->parent->parent, GTK_TREE_RBNODE_RED); node = node->parent->parent; } else { /* uncle is GTK_TREE_RBNODE_BLACK */ if (node == node->parent->left) { node = node->parent; gtk_tree_rbnode_rotate_right (tree, node); } GTK_TREE_RBNODE_SET_COLOR (node->parent, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (node->parent->parent, GTK_TREE_RBNODE_RED); gtk_tree_rbnode_rotate_left (tree, node->parent->parent); } } } GTK_TREE_RBNODE_SET_COLOR (tree->root, GTK_TREE_RBNODE_BLACK); } static void gtk_tree_rbtree_remove_node_fixup (GtkTreeRBTree *tree, GtkTreeRBNode *node, GtkTreeRBNode *parent) { while (node != tree->root && GTK_TREE_RBNODE_GET_COLOR (node) == GTK_TREE_RBNODE_BLACK) { if (node == parent->left) { GtkTreeRBNode *w = parent->right; if (GTK_TREE_RBNODE_GET_COLOR (w) == GTK_TREE_RBNODE_RED) { GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (parent, GTK_TREE_RBNODE_RED); gtk_tree_rbnode_rotate_left (tree, parent); w = parent->right; } g_assert (w); if (GTK_TREE_RBNODE_GET_COLOR (w->left) == GTK_TREE_RBNODE_BLACK && GTK_TREE_RBNODE_GET_COLOR (w->right) == GTK_TREE_RBNODE_BLACK) { GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_RED); node = parent; } else { if (GTK_TREE_RBNODE_GET_COLOR (w->right) == GTK_TREE_RBNODE_BLACK) { GTK_TREE_RBNODE_SET_COLOR (w->left, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_RED); gtk_tree_rbnode_rotate_right (tree, w); w = parent->right; } GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_GET_COLOR (parent)); GTK_TREE_RBNODE_SET_COLOR (parent, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (w->right, GTK_TREE_RBNODE_BLACK); gtk_tree_rbnode_rotate_left (tree, parent); node = tree->root; } } else { GtkTreeRBNode *w = parent->left; if (GTK_TREE_RBNODE_GET_COLOR (w) == GTK_TREE_RBNODE_RED) { GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (parent, GTK_TREE_RBNODE_RED); gtk_tree_rbnode_rotate_right (tree, parent); w = parent->left; } g_assert (w); if (GTK_TREE_RBNODE_GET_COLOR (w->right) == GTK_TREE_RBNODE_BLACK && GTK_TREE_RBNODE_GET_COLOR (w->left) == GTK_TREE_RBNODE_BLACK) { GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_RED); node = parent; } else { if (GTK_TREE_RBNODE_GET_COLOR (w->left) == GTK_TREE_RBNODE_BLACK) { GTK_TREE_RBNODE_SET_COLOR (w->right, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_RED); gtk_tree_rbnode_rotate_left (tree, w); w = parent->left; } GTK_TREE_RBNODE_SET_COLOR (w, GTK_TREE_RBNODE_GET_COLOR (parent)); GTK_TREE_RBNODE_SET_COLOR (parent, GTK_TREE_RBNODE_BLACK); GTK_TREE_RBNODE_SET_COLOR (w->left, GTK_TREE_RBNODE_BLACK); gtk_tree_rbnode_rotate_right (tree, parent); node = tree->root; } } parent = node->parent; } GTK_TREE_RBNODE_SET_COLOR (node, GTK_TREE_RBNODE_BLACK); } GtkTreeRBTree * gtk_tree_rbtree_new (void) { GtkTreeRBTree *retval; retval = g_new (GtkTreeRBTree, 1); retval->parent_tree = NULL; retval->parent_node = NULL; retval->root = (GtkTreeRBNode *) &nil; return retval; } static void gtk_tree_rbtree_free_helper (GtkTreeRBTree *tree, GtkTreeRBNode *node, gpointer data) { if (node->children) gtk_tree_rbtree_free (node->children); gtk_tree_rbnode_free (node); } void gtk_tree_rbtree_free (GtkTreeRBTree *tree) { gtk_tree_rbtree_traverse (tree, tree->root, G_POST_ORDER, gtk_tree_rbtree_free_helper, NULL); if (tree->parent_node && tree->parent_node->children == tree) tree->parent_node->children = NULL; g_free (tree); } static void gtk_rbnode_adjust (GtkTreeRBTree *tree, GtkTreeRBNode *node, int count_diff, int total_count_diff, int offset_diff) { while (tree && node && !gtk_tree_rbtree_is_nil (node)) { fixup_validation (tree, node); node->offset += offset_diff; node->count += count_diff; node->total_count += total_count_diff; node = node->parent; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; count_diff = 0; } } } void gtk_tree_rbtree_remove (GtkTreeRBTree *tree) { #ifdef G_ENABLE_DEBUG GtkTreeRBTree *tmp_tree; if (GTK_DEBUG_CHECK (TREE)) gtk_tree_rbtree_test (G_STRLOC, tree); #endif /* ugly hack to make fixup_validation work in the first iteration of the * loop below */ GTK_TREE_RBNODE_UNSET_FLAG (tree->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID); gtk_rbnode_adjust (tree->parent_tree, tree->parent_node, 0, -(int) tree->root->total_count, -tree->root->offset); #ifdef G_ENABLE_DEBUG tmp_tree = tree->parent_tree; #endif gtk_tree_rbtree_free (tree); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) gtk_tree_rbtree_test (G_STRLOC, tmp_tree); #endif } GtkTreeRBNode * gtk_tree_rbtree_insert_after (GtkTreeRBTree *tree, GtkTreeRBNode *current, gint height, gboolean valid) { GtkTreeRBNode *node; gboolean right = TRUE; #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { GString *s; s = g_string_new (""); g_string_append_printf (s, "gtk_tree_rbtree_insert_after: %p\n", current); gtk_tree_rbtree_debug_spew (tree, s); g_message ("%s", s->str); g_string_free (s, TRUE); gtk_tree_rbtree_test (G_STRLOC, tree); } #endif if (current != NULL && !gtk_tree_rbtree_is_nil (current->right)) { current = current->right; while (!gtk_tree_rbtree_is_nil (current->left)) current = current->left; right = FALSE; } /* setup new node */ node = gtk_tree_rbnode_new (tree, height); /* insert node in tree */ if (current) { node->parent = current; if (right) current->right = node; else current->left = node; gtk_rbnode_adjust (tree, node->parent, 1, 1, height); } else { g_assert (gtk_tree_rbtree_is_nil (tree->root)); tree->root = node; gtk_rbnode_adjust (tree->parent_tree, tree->parent_node, 0, 1, height); } if (valid) gtk_tree_rbtree_node_mark_valid (tree, node); else gtk_tree_rbtree_node_mark_invalid (tree, node); gtk_tree_rbtree_insert_fixup (tree, node); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { GString *s; s = g_string_new ("gtk_tree_rbtree_insert_after finished...\n"); gtk_tree_rbtree_debug_spew (tree, s); g_message ("%s", s->str); g_string_free (s, TRUE); gtk_tree_rbtree_test (G_STRLOC, tree); } #endif return node; } GtkTreeRBNode * gtk_tree_rbtree_insert_before (GtkTreeRBTree *tree, GtkTreeRBNode *current, gint height, gboolean valid) { GtkTreeRBNode *node; gboolean left = TRUE; #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { GString *s; s = g_string_new (""); g_string_append_printf (s, "gtk_tree_rbtree_insert_before: %p\n", current); gtk_tree_rbtree_debug_spew (tree, s); g_message ("%s", s->str); g_string_free (s, TRUE); gtk_tree_rbtree_test (G_STRLOC, tree); } #endif if (current != NULL && !gtk_tree_rbtree_is_nil (current->left)) { current = current->left; while (!gtk_tree_rbtree_is_nil (current->right)) current = current->right; left = FALSE; } /* setup new node */ node = gtk_tree_rbnode_new (tree, height); /* insert node in tree */ if (current) { node->parent = current; if (left) current->left = node; else current->right = node; gtk_rbnode_adjust (tree, node->parent, 1, 1, height); } else { g_assert (gtk_tree_rbtree_is_nil (tree->root)); tree->root = node; gtk_rbnode_adjust (tree->parent_tree, tree->parent_node, 0, 1, height); } if (valid) gtk_tree_rbtree_node_mark_valid (tree, node); else gtk_tree_rbtree_node_mark_invalid (tree, node); gtk_tree_rbtree_insert_fixup (tree, node); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { GString *s; s = g_string_new ("gtk_tree_rbtree_insert_before finished...\n"); gtk_tree_rbtree_debug_spew (tree, s); g_message ("%s", s->str); g_string_free (s, TRUE); gtk_tree_rbtree_test (G_STRLOC, tree); } #endif return node; } GtkTreeRBNode * gtk_tree_rbtree_find_count (GtkTreeRBTree *tree, gint count) { GtkTreeRBNode *node; node = tree->root; while (!gtk_tree_rbtree_is_nil (node) && (node->left->count + 1 != count)) { if (node->left->count >= count) node = node->left; else { count -= (node->left->count + 1); node = node->right; } } if (gtk_tree_rbtree_is_nil (node)) return NULL; return node; } void gtk_tree_rbtree_node_set_height (GtkTreeRBTree *tree, GtkTreeRBNode *node, gint height) { gint diff = height - GTK_TREE_RBNODE_GET_HEIGHT (node); if (diff == 0) return; gtk_rbnode_adjust (tree, node, 0, 0, diff); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) gtk_tree_rbtree_test (G_STRLOC, tree); #endif } void gtk_tree_rbtree_node_mark_invalid (GtkTreeRBTree *tree, GtkTreeRBNode *node) { if (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID)) return; GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_INVALID); do { if (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID)) return; GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); node = node->parent; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; } } while (node); } #if 0 /* Draconian version. */ void gtk_tree_rbtree_node_mark_invalid (GtkTreeRBTree *tree, GtkTreeRBNode *node) { GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_INVALID); do { fixup_validation (tree, node); node = node->parent; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; } } while (node); } #endif void gtk_tree_rbtree_node_mark_valid (GtkTreeRBTree *tree, GtkTreeRBNode *node) { if ((!GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID)) && (!GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_COLUMN_INVALID))) return; GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_INVALID); GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_COLUMN_INVALID); do { if ((GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID)) || (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_COLUMN_INVALID)) || (node->children && GTK_TREE_RBNODE_FLAG_SET (node->children->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID)) || (GTK_TREE_RBNODE_FLAG_SET (node->left, GTK_TREE_RBNODE_DESCENDANTS_INVALID)) || (GTK_TREE_RBNODE_FLAG_SET (node->right, GTK_TREE_RBNODE_DESCENDANTS_INVALID))) return; GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); node = node->parent; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; } } while (node); } #if 0 /* Draconian version */ void gtk_tree_rbtree_node_mark_valid (GtkTreeRBTree *tree, GtkTreeRBNode *node) { GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_INVALID); GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_COLUMN_INVALID); do { fixup_validation (tree, node); node = node->parent; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; } } while (node); } #endif /* Assume tree is the root node as it doesn't set DESCENDANTS_INVALID above. */ void gtk_tree_rbtree_column_invalid (GtkTreeRBTree *tree) { GtkTreeRBNode *node; if (tree == NULL) return; for (node = gtk_tree_rbtree_first (tree); node != NULL; node = gtk_tree_rbtree_next (tree, node)) { if (!(GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID))) GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_COLUMN_INVALID); GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); if (node->children) gtk_tree_rbtree_column_invalid (node->children); } } void gtk_tree_rbtree_mark_invalid (GtkTreeRBTree *tree) { GtkTreeRBNode *node; if (tree == NULL) return; for (node = gtk_tree_rbtree_first (tree); node != NULL; node = gtk_tree_rbtree_next (tree, node)) { GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_INVALID); GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); if (node->children) gtk_tree_rbtree_mark_invalid (node->children); } } void gtk_tree_rbtree_set_fixed_height (GtkTreeRBTree *tree, gint height, gboolean mark_valid) { GtkTreeRBNode *node; if (tree == NULL) return; for (node = gtk_tree_rbtree_first (tree); node != NULL; node = gtk_tree_rbtree_next (tree, node)) { if (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID)) { gtk_tree_rbtree_node_set_height (tree, node, height); if (mark_valid) gtk_tree_rbtree_node_mark_valid (tree, node); } if (node->children) gtk_tree_rbtree_set_fixed_height (node->children, height, mark_valid); } } static void reorder_prepare (GtkTreeRBTree *tree, GtkTreeRBNode *node, gpointer data) { node->offset -= node->left->offset + node->right->offset; GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); } static void reorder_fixup (GtkTreeRBTree *tree, GtkTreeRBNode *node, gpointer data) { node->offset += node->left->offset + node->right->offset; node->count = 1 + node->left->count + node->right->count; fixup_validation (tree, node); fixup_total_count (tree, node); } static void reorder_copy_node (GtkTreeRBTree *tree, GtkTreeRBNode *to, GtkTreeRBNode *from) { to->flags = (to->flags & GTK_TREE_RBNODE_NON_COLORS) | GTK_TREE_RBNODE_GET_COLOR (from); to->left = from->left; if (!gtk_tree_rbtree_is_nil (to->left)) to->left->parent = to; to->right = from->right; if (!gtk_tree_rbtree_is_nil (to->right)) to->right->parent = to; to->parent = from->parent; if (gtk_tree_rbtree_is_nil (to->parent)) tree->root = to; else if (to->parent->left == from) to->parent->left = to; else if (to->parent->right == from) to->parent->right = to; } /* It basically pulls everything out of the tree, rearranges it, and puts it * back together. Our strategy is to keep the old RBTree intact, and just * rearrange the contents. When that is done, we go through and update the * heights. There is probably a more elegant way to write this function. If * anyone wants to spend the time writing it, patches will be accepted. */ void gtk_tree_rbtree_reorder (GtkTreeRBTree *tree, gint *new_order, gint length) { GtkTreeRBNode **nodes; GtkTreeRBNode *node; gint i, j; g_return_if_fail (tree != NULL); g_return_if_fail (length > 0); g_return_if_fail (tree->root->count == length); nodes = g_new (GtkTreeRBNode *, length); gtk_tree_rbtree_traverse (tree, tree->root, G_PRE_ORDER, reorder_prepare, NULL); for (node = gtk_tree_rbtree_first (tree), i = 0; node; node = gtk_tree_rbtree_next (tree, node), i++) { nodes[i] = node; } for (i = 0; i < length; i++) { GtkTreeRBNode tmp = { 0, }; GSList *l, *cycle = NULL; tmp.offset = -1; /* already swapped */ if (nodes[i] == NULL) continue; /* no need to swap */ if (new_order[i] == i) continue; /* make a list out of the pending nodes */ for (j = i; new_order[j] != i; j = new_order[j]) { cycle = g_slist_prepend (cycle, nodes[j]); nodes[j] = NULL; } node = nodes[j]; reorder_copy_node (tree, &tmp, node); for (l = cycle; l; l = l->next) { reorder_copy_node (tree, node, l->data); node = l->data; } reorder_copy_node (tree, node, &tmp); nodes[j] = NULL; g_slist_free (cycle); } gtk_tree_rbtree_traverse (tree, tree->root, G_POST_ORDER, reorder_fixup, NULL); g_free (nodes); } /** * gtk_tree_rbtree_contains: * @tree: a tree * @potential_child: a potential child of @tree * * Checks if @potential_child is a child (direct or via intermediate * trees) of @tree. * * Returns: %TRUE if @potential_child is a child of @tree. **/ gboolean gtk_tree_rbtree_contains (GtkTreeRBTree *tree, GtkTreeRBTree *potential_child) { g_return_val_if_fail (tree != NULL, FALSE); g_return_val_if_fail (potential_child != NULL, FALSE); do { potential_child = potential_child->parent_tree; if (potential_child == tree) return TRUE; } while (potential_child != NULL); return FALSE; } gint gtk_tree_rbtree_node_find_offset (GtkTreeRBTree *tree, GtkTreeRBNode *node) { GtkTreeRBNode *last; gint retval; g_assert (node); g_assert (node->left); retval = node->left->offset; while (tree && node && !gtk_tree_rbtree_is_nil (node)) { last = node; node = node->parent; /* Add left branch, plus children, iff we came from the right */ if (node->right == last) retval += node->offset - node->right->offset; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; /* Add the parent node, plus the left branch. */ if (node) retval += node->left->offset + GTK_TREE_RBNODE_GET_HEIGHT (node); } } return retval; } guint gtk_tree_rbtree_node_get_index (GtkTreeRBTree *tree, GtkTreeRBNode *node) { GtkTreeRBNode *last; guint retval; g_assert (node); g_assert (node->left); retval = node->left->total_count; while (tree && node && !gtk_tree_rbtree_is_nil (node)) { last = node; node = node->parent; /* Add left branch, plus children, iff we came from the right */ if (node->right == last) retval += node->total_count - node->right->total_count; if (gtk_tree_rbtree_is_nil (node)) { node = tree->parent_node; tree = tree->parent_tree; /* Add the parent node, plus the left branch. */ if (node) retval += node->left->total_count + 1; /* 1 == GTK_TREE_RBNODE_GET_PARITY() */ } } return retval; } static gint gtk_rbtree_real_find_offset (GtkTreeRBTree *tree, gint height, GtkTreeRBTree **new_tree, GtkTreeRBNode **new_node) { GtkTreeRBNode *tmp_node; g_assert (tree); if (height < 0) { *new_tree = NULL; *new_node = NULL; return 0; } tmp_node = tree->root; while (!gtk_tree_rbtree_is_nil (tmp_node) && (tmp_node->left->offset > height || (tmp_node->offset - tmp_node->right->offset) < height)) { if (tmp_node->left->offset > height) tmp_node = tmp_node->left; else { height -= (tmp_node->offset - tmp_node->right->offset); tmp_node = tmp_node->right; } } if (gtk_tree_rbtree_is_nil (tmp_node)) { *new_tree = NULL; *new_node = NULL; return 0; } if (tmp_node->children) { if ((tmp_node->offset - tmp_node->right->offset - tmp_node->children->root->offset) > height) { *new_tree = tree; *new_node = tmp_node; return (height - tmp_node->left->offset); } return gtk_rbtree_real_find_offset (tmp_node->children, height - tmp_node->left->offset - (tmp_node->offset - tmp_node->left->offset - tmp_node->right->offset - tmp_node->children->root->offset), new_tree, new_node); } *new_tree = tree; *new_node = tmp_node; return (height - tmp_node->left->offset); } gint gtk_tree_rbtree_find_offset (GtkTreeRBTree *tree, gint height, GtkTreeRBTree **new_tree, GtkTreeRBNode **new_node) { g_assert (tree); if ((height < 0) || (height >= tree->root->offset)) { *new_tree = NULL; *new_node = NULL; return 0; } return gtk_rbtree_real_find_offset (tree, height, new_tree, new_node); } gboolean gtk_tree_rbtree_find_index (GtkTreeRBTree *tree, guint index, GtkTreeRBTree **new_tree, GtkTreeRBNode **new_node) { GtkTreeRBNode *tmp_node; g_assert (tree); tmp_node = tree->root; while (!gtk_tree_rbtree_is_nil (tmp_node)) { if (tmp_node->left->total_count > index) { tmp_node = tmp_node->left; } else if (tmp_node->total_count - tmp_node->right->total_count <= index) { index -= tmp_node->total_count - tmp_node->right->total_count; tmp_node = tmp_node->right; } else { index -= tmp_node->left->total_count; break; } } if (gtk_tree_rbtree_is_nil (tmp_node)) { *new_tree = NULL; *new_node = NULL; return FALSE; } if (index > 0) { g_assert (tmp_node->children); return gtk_tree_rbtree_find_index (tmp_node->children, index - 1, new_tree, new_node); } *new_tree = tree; *new_node = tmp_node; return TRUE; } void gtk_tree_rbtree_remove_node (GtkTreeRBTree *tree, GtkTreeRBNode *node) { GtkTreeRBNode *x, *y; gint y_height; guint y_total_count; g_return_if_fail (tree != NULL); g_return_if_fail (node != NULL); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { GString *s; s = g_string_new (""); g_string_append_printf (s, "gtk_tree_rbtree_remove_node: %p\n", node); gtk_tree_rbtree_debug_spew (tree, s); g_message ("%s", s->str); g_string_free (s, TRUE); gtk_tree_rbtree_test (G_STRLOC, tree); } #endif /* make sure we're deleting a node that's actually in the tree */ for (x = node; !gtk_tree_rbtree_is_nil (x->parent); x = x->parent) ; g_return_if_fail (x == tree->root); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) gtk_tree_rbtree_test (G_STRLOC, tree); #endif if (gtk_tree_rbtree_is_nil (node->left) || gtk_tree_rbtree_is_nil (node->right)) { y = node; } else { y = node->right; while (!gtk_tree_rbtree_is_nil (y->left)) y = y->left; } y_height = GTK_TREE_RBNODE_GET_HEIGHT (y) + (y->children ? y->children->root->offset : 0); y_total_count = 1 + (y->children ? y->children->root->total_count : 0); /* x is y's only child, or nil */ if (!gtk_tree_rbtree_is_nil (y->left)) x = y->left; else x = y->right; /* remove y from the parent chain */ if (!gtk_tree_rbtree_is_nil (x)) x->parent = y->parent; if (!gtk_tree_rbtree_is_nil (y->parent)) { if (y == y->parent->left) y->parent->left = x; else y->parent->right = x; } else { tree->root = x; } /* We need to clean up the validity of the tree. */ gtk_rbnode_adjust (tree, y, -1, -y_total_count, -y_height); if (GTK_TREE_RBNODE_GET_COLOR (y) == GTK_TREE_RBNODE_BLACK) gtk_tree_rbtree_remove_node_fixup (tree, x, y->parent); if (y != node) { gint node_height, node_total_count; /* We want to see how much we remove from the aggregate values. * This is all the children we remove plus the node's values. */ node_height = GTK_TREE_RBNODE_GET_HEIGHT (node) + (node->children ? node->children->root->offset : 0); node_total_count = 1 + (node->children ? node->children->root->total_count : 0); /* Move the node over */ if (GTK_TREE_RBNODE_GET_COLOR (node) != GTK_TREE_RBNODE_GET_COLOR (y)) y->flags ^= (GTK_TREE_RBNODE_BLACK | GTK_TREE_RBNODE_RED); y->left = node->left; if (!gtk_tree_rbtree_is_nil (y->left)) y->left->parent = y; y->right = node->right; if (!gtk_tree_rbtree_is_nil (y->right)) y->right->parent = y; y->parent = node->parent; if (!gtk_tree_rbtree_is_nil (y->parent)) { if (y->parent->left == node) y->parent->left = y; else y->parent->right = y; } else { tree->root = y; } y->count = node->count; y->total_count = node->total_count; y->offset = node->offset; gtk_rbnode_adjust (tree, y, 0, y_total_count - node_total_count, y_height - node_height); } gtk_tree_rbnode_free (node); #ifdef G_ENABLE_DEBUG if (GTK_DEBUG_CHECK (TREE)) { GString *s; s = g_string_new ("gtk_tree_rbtree_remove_node finished...\n"); gtk_tree_rbtree_debug_spew (tree, s); g_message ("%s", s->str); g_string_free (s, TRUE); gtk_tree_rbtree_test (G_STRLOC, tree); } #endif } GtkTreeRBNode * gtk_tree_rbtree_first (GtkTreeRBTree *tree) { GtkTreeRBNode *node; node = tree->root; if (gtk_tree_rbtree_is_nil (node)) return NULL; while (!gtk_tree_rbtree_is_nil (node->left)) node = node->left; return node; } GtkTreeRBNode * gtk_tree_rbtree_next (GtkTreeRBTree *tree, GtkTreeRBNode *node) { g_return_val_if_fail (tree != NULL, NULL); g_return_val_if_fail (node != NULL, NULL); /* Case 1: the node's below us. */ if (!gtk_tree_rbtree_is_nil (node->right)) { node = node->right; while (!gtk_tree_rbtree_is_nil (node->left)) node = node->left; return node; } /* Case 2: it's an ancestor */ while (!gtk_tree_rbtree_is_nil (node->parent)) { if (node->parent->right == node) node = node->parent; else return (node->parent); } /* Case 3: There is no next node */ return NULL; } GtkTreeRBNode * gtk_tree_rbtree_prev (GtkTreeRBTree *tree, GtkTreeRBNode *node) { g_return_val_if_fail (tree != NULL, NULL); g_return_val_if_fail (node != NULL, NULL); /* Case 1: the node's below us. */ if (!gtk_tree_rbtree_is_nil (node->left)) { node = node->left; while (!gtk_tree_rbtree_is_nil (node->right)) node = node->right; return node; } /* Case 2: it's an ancestor */ while (!gtk_tree_rbtree_is_nil (node->parent)) { if (node->parent->left == node) node = node->parent; else return (node->parent); } /* Case 3: There is no next node */ return NULL; } void gtk_tree_rbtree_next_full (GtkTreeRBTree *tree, GtkTreeRBNode *node, GtkTreeRBTree **new_tree, GtkTreeRBNode **new_node) { g_return_if_fail (tree != NULL); g_return_if_fail (node != NULL); g_return_if_fail (new_tree != NULL); g_return_if_fail (new_node != NULL); if (node->children) { *new_tree = node->children; *new_node = (*new_tree)->root; while (!gtk_tree_rbtree_is_nil ((*new_node)->left)) *new_node = (*new_node)->left; return; } *new_tree = tree; *new_node = gtk_tree_rbtree_next (tree, node); while ((*new_node == NULL) && (*new_tree != NULL)) { *new_node = (*new_tree)->parent_node; *new_tree = (*new_tree)->parent_tree; if (*new_tree) *new_node = gtk_tree_rbtree_next (*new_tree, *new_node); } } void gtk_tree_rbtree_prev_full (GtkTreeRBTree *tree, GtkTreeRBNode *node, GtkTreeRBTree **new_tree, GtkTreeRBNode **new_node) { g_return_if_fail (tree != NULL); g_return_if_fail (node != NULL); g_return_if_fail (new_tree != NULL); g_return_if_fail (new_node != NULL); *new_tree = tree; *new_node = gtk_tree_rbtree_prev (tree, node); if (*new_node == NULL) { *new_node = (*new_tree)->parent_node; *new_tree = (*new_tree)->parent_tree; } else { while ((*new_node)->children) { *new_tree = (*new_node)->children; *new_node = (*new_tree)->root; while (!gtk_tree_rbtree_is_nil ((*new_node)->right)) *new_node = (*new_node)->right; } } } gint gtk_tree_rbtree_get_depth (GtkTreeRBTree *tree) { GtkTreeRBTree *tmp_tree; gint depth = 0; tmp_tree = tree->parent_tree; while (tmp_tree) { ++depth; tmp_tree = tmp_tree->parent_tree; } return depth; } static void gtk_tree_rbtree_traverse_pre_order (GtkTreeRBTree *tree, GtkTreeRBNode *node, GtkTreeRBTreeTraverseFunc func, gpointer data) { if (gtk_tree_rbtree_is_nil (node)) return; (*func)(tree, node, data); gtk_tree_rbtree_traverse_pre_order (tree, node->left, func, data); gtk_tree_rbtree_traverse_pre_order (tree, node->right, func, data); } static void gtk_tree_rbtree_traverse_post_order (GtkTreeRBTree *tree, GtkTreeRBNode *node, GtkTreeRBTreeTraverseFunc func, gpointer data) { if (gtk_tree_rbtree_is_nil (node)) return; gtk_tree_rbtree_traverse_post_order (tree, node->left, func, data); gtk_tree_rbtree_traverse_post_order (tree, node->right, func, data); (*func)(tree, node, data); } void gtk_tree_rbtree_traverse (GtkTreeRBTree *tree, GtkTreeRBNode *node, GTraverseType order, GtkTreeRBTreeTraverseFunc func, gpointer data) { g_return_if_fail (tree != NULL); g_return_if_fail (node != NULL); g_return_if_fail (func != NULL); g_return_if_fail (order <= G_LEVEL_ORDER); switch (order) { case G_PRE_ORDER: gtk_tree_rbtree_traverse_pre_order (tree, node, func, data); break; case G_POST_ORDER: gtk_tree_rbtree_traverse_post_order (tree, node, func, data); break; case G_IN_ORDER: case G_LEVEL_ORDER: default: g_warning ("unsupported traversal order."); break; } } static inline void fixup_validation (GtkTreeRBTree *tree, GtkTreeRBNode *node) { if (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID) || GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_COLUMN_INVALID) || GTK_TREE_RBNODE_FLAG_SET (node->left, GTK_TREE_RBNODE_DESCENDANTS_INVALID) || GTK_TREE_RBNODE_FLAG_SET (node->right, GTK_TREE_RBNODE_DESCENDANTS_INVALID) || (node->children != NULL && GTK_TREE_RBNODE_FLAG_SET (node->children->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID))) { GTK_TREE_RBNODE_SET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); } else { GTK_TREE_RBNODE_UNSET_FLAG (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID); } } static inline void fixup_total_count (GtkTreeRBTree *tree, GtkTreeRBNode *node) { node->total_count = 1 + (node->children != NULL ? node->children->root->total_count : 0) + node->left->total_count + node->right->total_count; } #ifdef G_ENABLE_DEBUG static guint get_total_count (GtkTreeRBNode *node) { guint child_total = 0; child_total += (guint) node->left->total_count; child_total += (guint) node->right->total_count; if (node->children) child_total += (guint) node->children->root->total_count; return child_total + 1; } static guint count_total (GtkTreeRBTree *tree, GtkTreeRBNode *node) { guint res; if (gtk_tree_rbtree_is_nil (node)) return 0; res = count_total (tree, node->left) + count_total (tree, node->right) + (guint) 1 + (node->children ? count_total (node->children, node->children->root) : 0); if (res != node->total_count) g_error ("total count incorrect for node"); if (get_total_count (node) != node->total_count) g_error ("Node has incorrect total count %u, should be %u", node->total_count, get_total_count (node)); return res; } static gint _count_nodes (GtkTreeRBTree *tree, GtkTreeRBNode *node) { gint res; if (gtk_tree_rbtree_is_nil (node)) return 0; g_assert (node->left); g_assert (node->right); res = (_count_nodes (tree, node->left) + _count_nodes (tree, node->right) + 1); if (res != node->count) g_error ("Tree failed"); return res; } static void gtk_tree_rbtree_test_height (GtkTreeRBTree *tree, GtkTreeRBNode *node) { gint computed_offset = 0; /* This whole test is sort of a useless truism. */ if (!gtk_tree_rbtree_is_nil (node->left)) computed_offset += node->left->offset; if (!gtk_tree_rbtree_is_nil (node->right)) computed_offset += node->right->offset; if (node->children && !gtk_tree_rbtree_is_nil (node->children->root)) computed_offset += node->children->root->offset; if (GTK_TREE_RBNODE_GET_HEIGHT (node) + computed_offset != node->offset) g_error ("node has broken offset"); if (!gtk_tree_rbtree_is_nil (node->left)) gtk_tree_rbtree_test_height (tree, node->left); if (!gtk_tree_rbtree_is_nil (node->right)) gtk_tree_rbtree_test_height (tree, node->right); if (node->children && !gtk_tree_rbtree_is_nil (node->children->root)) gtk_tree_rbtree_test_height (node->children, node->children->root); } static void gtk_tree_rbtree_test_dirty (GtkTreeRBTree *tree, GtkTreeRBNode *node, gint expected_dirtyness) { g_assert (node); if (expected_dirtyness) { g_assert (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_COLUMN_INVALID) || GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID) || GTK_TREE_RBNODE_FLAG_SET (node->left, GTK_TREE_RBNODE_DESCENDANTS_INVALID) || GTK_TREE_RBNODE_FLAG_SET (node->right, GTK_TREE_RBNODE_DESCENDANTS_INVALID) || (node->children && GTK_TREE_RBNODE_FLAG_SET (node->children->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID))); } else { g_assert (!GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_COLUMN_INVALID) && !GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID)); if (!gtk_tree_rbtree_is_nil (node->left)) g_assert (!GTK_TREE_RBNODE_FLAG_SET (node->left, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); if (!gtk_tree_rbtree_is_nil (node->right)) g_assert (!GTK_TREE_RBNODE_FLAG_SET (node->right, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); if (node->children != NULL) g_assert (!GTK_TREE_RBNODE_FLAG_SET (node->children->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); } if (!gtk_tree_rbtree_is_nil (node->left)) gtk_tree_rbtree_test_dirty (tree, node->left, GTK_TREE_RBNODE_FLAG_SET (node->left, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); if (!gtk_tree_rbtree_is_nil (node->right)) gtk_tree_rbtree_test_dirty (tree, node->right, GTK_TREE_RBNODE_FLAG_SET (node->right, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); if (node->children != NULL && !gtk_tree_rbtree_is_nil (node->children->root)) gtk_tree_rbtree_test_dirty (node->children, node->children->root, GTK_TREE_RBNODE_FLAG_SET (node->children->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); } static void gtk_tree_rbtree_test_structure (GtkTreeRBTree *tree); static void gtk_tree_rbtree_test_structure_helper (GtkTreeRBTree *tree, GtkTreeRBNode *node) { g_assert (!gtk_tree_rbtree_is_nil (node)); g_assert (node->left != NULL); g_assert (node->right != NULL); g_assert (node->parent != NULL); if (!gtk_tree_rbtree_is_nil (node->left)) { g_assert (node->left->parent == node); gtk_tree_rbtree_test_structure_helper (tree, node->left); } if (!gtk_tree_rbtree_is_nil (node->right)) { g_assert (node->right->parent == node); gtk_tree_rbtree_test_structure_helper (tree, node->right); } if (node->children != NULL) { g_assert (node->children->parent_tree == tree); g_assert (node->children->parent_node == node); gtk_tree_rbtree_test_structure (node->children); } } static void gtk_tree_rbtree_test_structure (GtkTreeRBTree *tree) { g_assert (tree->root); if (gtk_tree_rbtree_is_nil (tree->root)) return; g_assert (gtk_tree_rbtree_is_nil (tree->root->parent)); gtk_tree_rbtree_test_structure_helper (tree, tree->root); } static void gtk_tree_rbtree_test (const gchar *where, GtkTreeRBTree *tree) { GtkTreeRBTree *tmp_tree; if (tree == NULL) return; /* Test the entire tree */ tmp_tree = tree; while (tmp_tree->parent_tree) tmp_tree = tmp_tree->parent_tree; if (gtk_tree_rbtree_is_nil (tmp_tree->root)) return; gtk_tree_rbtree_test_structure (tmp_tree); g_assert ((_count_nodes (tmp_tree, tmp_tree->root->left) + _count_nodes (tmp_tree, tmp_tree->root->right) + 1) == tmp_tree->root->count); gtk_tree_rbtree_test_height (tmp_tree, tmp_tree->root); gtk_tree_rbtree_test_dirty (tmp_tree, tmp_tree->root, GTK_TREE_RBNODE_FLAG_SET (tmp_tree->root, GTK_TREE_RBNODE_DESCENDANTS_INVALID)); g_assert (count_total (tmp_tree, tmp_tree->root) == tmp_tree->root->total_count); } static void gtk_tree_rbtree_debug_spew_helper (GtkTreeRBTree *tree, GtkTreeRBNode *node, GString *s, gint depth) { gint i; for (i = 0; i < depth; i++) g_string_append (s, "\t"); g_string_append_printf (s, "(%p - %s) (Offset %d) (Parity %d) (Validity %d%d%d)\n", node, (GTK_TREE_RBNODE_GET_COLOR (node) == GTK_TREE_RBNODE_BLACK) ? "BLACK" : " RED ", node->offset, node->total_count, (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_DESCENDANTS_INVALID)) ? 1 : 0, (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_INVALID)) ? 1 : 0, (GTK_TREE_RBNODE_FLAG_SET (node, GTK_TREE_RBNODE_COLUMN_INVALID)) ? 1 : 0); if (node->children != NULL) { g_string_append (s, "Looking at child.\n"); gtk_tree_rbtree_debug_spew (node->children, s); g_string_append (s, "Done looking at child.\n"); } if (!gtk_tree_rbtree_is_nil (node->left)) { gtk_tree_rbtree_debug_spew_helper (tree, node->left, s, depth + 1); } if (!gtk_tree_rbtree_is_nil (node->right)) { gtk_tree_rbtree_debug_spew_helper (tree, node->right, s, depth + 1); } } static void gtk_tree_rbtree_debug_spew (GtkTreeRBTree *tree, GString *s) { g_return_if_fail (tree != NULL); if (gtk_tree_rbtree_is_nil (tree->root)) g_string_append (s, "Empty tree..."); else gtk_tree_rbtree_debug_spew_helper (tree, tree->root, s, 0); } #endif /* G_ENABLE_DEBUG */