/* GLIB - Library of useful routines for C programming * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * 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, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* * Modified by the GLib Team and others 1997-1999. See the AUTHORS * file for a list of people on the GLib Team. See the ChangeLog * files for a list of changes. These files are distributed with * GLib at ftp://ftp.gtk.org/pub/gtk/. */ /* * MT safe */ #include "glib.h" typedef struct _GRealTree GRealTree; typedef struct _GTreeNode GTreeNode; struct _GRealTree { GTreeNode *root; GCompareFunc key_compare; }; struct _GTreeNode { gint balance; /* height (left) - height (right) */ GTreeNode *left; /* left subtree */ GTreeNode *right; /* right subtree */ gpointer key; /* key for this node */ gpointer value; /* value stored at this node */ }; static GTreeNode* g_tree_node_new (gpointer key, gpointer value); static void g_tree_node_destroy (GTreeNode *node); static GTreeNode* g_tree_node_insert (GTreeNode *node, GCompareFunc compare, gpointer key, gpointer value, gint *inserted); static GTreeNode* g_tree_node_remove (GTreeNode *node, GCompareFunc compare, gpointer key); static GTreeNode* g_tree_node_balance (GTreeNode *node); static GTreeNode* g_tree_node_remove_leftmost (GTreeNode *node, GTreeNode **leftmost); static GTreeNode* g_tree_node_restore_left_balance (GTreeNode *node, gint old_balance); static GTreeNode* g_tree_node_restore_right_balance (GTreeNode *node, gint old_balance); static gpointer g_tree_node_lookup (GTreeNode *node, GCompareFunc compare, gpointer key); static gint g_tree_node_count (GTreeNode *node); static gint g_tree_node_pre_order (GTreeNode *node, GTraverseFunc traverse_func, gpointer data); static gint g_tree_node_in_order (GTreeNode *node, GTraverseFunc traverse_func, gpointer data); static gint g_tree_node_post_order (GTreeNode *node, GTraverseFunc traverse_func, gpointer data); static gpointer g_tree_node_search (GTreeNode *node, GSearchFunc search_func, gpointer data); static gint g_tree_node_height (GTreeNode *node); static GTreeNode* g_tree_node_rotate_left (GTreeNode *node); static GTreeNode* g_tree_node_rotate_right (GTreeNode *node); static void g_tree_node_check (GTreeNode *node); G_LOCK_DEFINE_STATIC (g_tree_global); static GMemChunk *node_mem_chunk = NULL; static GTreeNode *node_free_list = NULL; static GTreeNode* g_tree_node_new (gpointer key, gpointer value) { GTreeNode *node; G_LOCK (g_tree_global); if (node_free_list) { node = node_free_list; node_free_list = node->right; } else { if (!node_mem_chunk) node_mem_chunk = g_mem_chunk_new ("GLib GTreeNode mem chunk", sizeof (GTreeNode), 1024, G_ALLOC_ONLY); node = g_chunk_new (GTreeNode, node_mem_chunk); } G_UNLOCK (g_tree_global); node->balance = 0; node->left = NULL; node->right = NULL; node->key = key; node->value = value; return node; } static void g_tree_node_destroy (GTreeNode *node) { if (node) { g_tree_node_destroy (node->right); g_tree_node_destroy (node->left); G_LOCK (g_tree_global); node->right = node_free_list; node_free_list = node; G_UNLOCK (g_tree_global); } } GTree* g_tree_new (GCompareFunc key_compare_func) { GRealTree *rtree; g_return_val_if_fail (key_compare_func != NULL, NULL); rtree = g_new (GRealTree, 1); rtree->root = NULL; rtree->key_compare = key_compare_func; return (GTree*) rtree; } void g_tree_destroy (GTree *tree) { GRealTree *rtree; g_return_if_fail (tree != NULL); rtree = (GRealTree*) tree; g_tree_node_destroy (rtree->root); g_free (rtree); } void g_tree_insert (GTree *tree, gpointer key, gpointer value) { GRealTree *rtree; gint inserted; g_return_if_fail (tree != NULL); rtree = (GRealTree*) tree; inserted = FALSE; rtree->root = g_tree_node_insert (rtree->root, rtree->key_compare, key, value, &inserted); } void g_tree_remove (GTree *tree, gpointer key) { GRealTree *rtree; g_return_if_fail (tree != NULL); rtree = (GRealTree*) tree; rtree->root = g_tree_node_remove (rtree->root, rtree->key_compare, key); } gpointer g_tree_lookup (GTree *tree, gpointer key) { GRealTree *rtree; g_return_val_if_fail (tree != NULL, NULL); rtree = (GRealTree*) tree; return g_tree_node_lookup (rtree->root, rtree->key_compare, key); } void g_tree_traverse (GTree *tree, GTraverseFunc traverse_func, GTraverseType traverse_type, gpointer data) { GRealTree *rtree; g_return_if_fail (tree != NULL); rtree = (GRealTree*) tree; if (!rtree->root) return; switch (traverse_type) { case G_PRE_ORDER: g_tree_node_pre_order (rtree->root, traverse_func, data); break; case G_IN_ORDER: g_tree_node_in_order (rtree->root, traverse_func, data); break; case G_POST_ORDER: g_tree_node_post_order (rtree->root, traverse_func, data); break; case G_LEVEL_ORDER: g_warning ("g_tree_traverse(): traverse type G_LEVEL_ORDER isn't implemented."); break; } } gpointer g_tree_search (GTree *tree, GSearchFunc search_func, gpointer data) { GRealTree *rtree; g_return_val_if_fail (tree != NULL, NULL); rtree = (GRealTree*) tree; if (rtree->root) return g_tree_node_search (rtree->root, search_func, data); else return NULL; } gint g_tree_height (GTree *tree) { GRealTree *rtree; g_return_val_if_fail (tree != NULL, 0); rtree = (GRealTree*) tree; if (rtree->root) return g_tree_node_height (rtree->root); else return 0; } gint g_tree_nnodes (GTree *tree) { GRealTree *rtree; g_return_val_if_fail (tree != NULL, 0); rtree = (GRealTree*) tree; if (rtree->root) return g_tree_node_count (rtree->root); else return 0; } static GTreeNode* g_tree_node_insert (GTreeNode *node, GCompareFunc compare, gpointer key, gpointer value, gint *inserted) { gint old_balance; gint cmp; if (!node) { *inserted = TRUE; return g_tree_node_new (key, value); } cmp = (* compare) (key, node->key); if (cmp == 0) { *inserted = FALSE; node->value = value; return node; } if (cmp < 0) { if (node->left) { old_balance = node->left->balance; node->left = g_tree_node_insert (node->left, compare, key, value, inserted); if ((old_balance != node->left->balance) && node->left->balance) node->balance -= 1; } else { *inserted = TRUE; node->left = g_tree_node_new (key, value); node->balance -= 1; } } else if (cmp > 0) { if (node->right) { old_balance = node->right->balance; node->right = g_tree_node_insert (node->right, compare, key, value, inserted); if ((old_balance != node->right->balance) && node->right->balance) node->balance += 1; } else { *inserted = TRUE; node->right = g_tree_node_new (key, value); node->balance += 1; } } if (*inserted) { if ((node->balance < -1) || (node->balance > 1)) node = g_tree_node_balance (node); } return node; } static GTreeNode* g_tree_node_remove (GTreeNode *node, GCompareFunc compare, gpointer key) { GTreeNode *new_root; gint old_balance; gint cmp; if (!node) return NULL; cmp = (* compare) (key, node->key); if (cmp == 0) { GTreeNode *garbage; garbage = node; if (!node->right) { node = node->left; } else { old_balance = node->right->balance; node->right = g_tree_node_remove_leftmost (node->right, &new_root); new_root->left = node->left; new_root->right = node->right; new_root->balance = node->balance; node = g_tree_node_restore_right_balance (new_root, old_balance); } G_LOCK (g_tree_global); garbage->right = node_free_list; node_free_list = garbage; G_UNLOCK (g_tree_global); } else if (cmp < 0) { if (node->left) { old_balance = node->left->balance; node->left = g_tree_node_remove (node->left, compare, key); node = g_tree_node_restore_left_balance (node, old_balance); } } else if (cmp > 0) { if (node->right) { old_balance = node->right->balance; node->right = g_tree_node_remove (node->right, compare, key); node = g_tree_node_restore_right_balance (node, old_balance); } } return node; } static GTreeNode* g_tree_node_balance (GTreeNode *node) { if (node->balance < -1) { if (node->left->balance > 0) node->left = g_tree_node_rotate_left (node->left); node = g_tree_node_rotate_right (node); } else if (node->balance > 1) { if (node->right->balance < 0) node->right = g_tree_node_rotate_right (node->right); node = g_tree_node_rotate_left (node); } return node; } static GTreeNode* g_tree_node_remove_leftmost (GTreeNode *node, GTreeNode **leftmost) { gint old_balance; if (!node->left) { *leftmost = node; return node->right; } old_balance = node->left->balance; node->left = g_tree_node_remove_leftmost (node->left, leftmost); return g_tree_node_restore_left_balance (node, old_balance); } static GTreeNode* g_tree_node_restore_left_balance (GTreeNode *node, gint old_balance) { if (!node->left) node->balance += 1; else if ((node->left->balance != old_balance) && (node->left->balance == 0)) node->balance += 1; if (node->balance > 1) return g_tree_node_balance (node); return node; } static GTreeNode* g_tree_node_restore_right_balance (GTreeNode *node, gint old_balance) { if (!node->right) node->balance -= 1; else if ((node->right->balance != old_balance) && (node->right->balance == 0)) node->balance -= 1; if (node->balance < -1) return g_tree_node_balance (node); return node; } static gpointer g_tree_node_lookup (GTreeNode *node, GCompareFunc compare, gpointer key) { gint cmp; if (!node) return NULL; cmp = (* compare) (key, node->key); if (cmp == 0) return node->value; if (cmp < 0) { if (node->left) return g_tree_node_lookup (node->left, compare, key); } else if (cmp > 0) { if (node->right) return g_tree_node_lookup (node->right, compare, key); } return NULL; } static gint g_tree_node_count (GTreeNode *node) { gint count; count = 1; if (node->left) count += g_tree_node_count (node->left); if (node->right) count += g_tree_node_count (node->right); return count; } static gint g_tree_node_pre_order (GTreeNode *node, GTraverseFunc traverse_func, gpointer data) { if ((*traverse_func) (node->key, node->value, data)) return TRUE; if (node->left) { if (g_tree_node_pre_order (node->left, traverse_func, data)) return TRUE; } if (node->right) { if (g_tree_node_pre_order (node->right, traverse_func, data)) return TRUE; } return FALSE; } static gint g_tree_node_in_order (GTreeNode *node, GTraverseFunc traverse_func, gpointer data) { if (node->left) { if (g_tree_node_in_order (node->left, traverse_func, data)) return TRUE; } if ((*traverse_func) (node->key, node->value, data)) return TRUE; if (node->right) { if (g_tree_node_in_order (node->right, traverse_func, data)) return TRUE; } return FALSE; } static gint g_tree_node_post_order (GTreeNode *node, GTraverseFunc traverse_func, gpointer data) { if (node->left) { if (g_tree_node_post_order (node->left, traverse_func, data)) return TRUE; } if (node->right) { if (g_tree_node_post_order (node->right, traverse_func, data)) return TRUE; } if ((*traverse_func) (node->key, node->value, data)) return TRUE; return FALSE; } static gpointer g_tree_node_search (GTreeNode *node, GSearchFunc search_func, gpointer data) { gint dir; if (!node) return NULL; do { dir = (* search_func) (node->key, data); if (dir == 0) return node->value; if (dir < 0) node = node->left; else if (dir > 0) node = node->right; } while (node && (dir != 0)); return NULL; } static gint g_tree_node_height (GTreeNode *node) { gint left_height; gint right_height; if (node) { left_height = 0; right_height = 0; if (node->left) left_height = g_tree_node_height (node->left); if (node->right) right_height = g_tree_node_height (node->right); return MAX (left_height, right_height) + 1; } return 0; } static GTreeNode* g_tree_node_rotate_left (GTreeNode *node) { GTreeNode *left; GTreeNode *right; gint a_bal; gint b_bal; left = node->left; right = node->right; node->right = right->left; right->left = node; a_bal = node->balance; b_bal = right->balance; if (b_bal <= 0) { if (a_bal >= 1) right->balance = b_bal - 1; else right->balance = a_bal + b_bal - 2; node->balance = a_bal - 1; } else { if (a_bal <= b_bal) right->balance = a_bal - 2; else right->balance = b_bal - 1; node->balance = a_bal - b_bal - 1; } return right; } static GTreeNode* g_tree_node_rotate_right (GTreeNode *node) { GTreeNode *left; GTreeNode *right; gint a_bal; gint b_bal; left = node->left; right = node->right; node->left = left->right; left->right = node; a_bal = node->balance; b_bal = left->balance; if (b_bal <= 0) { if (b_bal > a_bal) left->balance = b_bal + 1; else left->balance = a_bal + 2; node->balance = a_bal - b_bal + 1; } else { if (a_bal <= -1) left->balance = b_bal + 1; else left->balance = a_bal + b_bal + 2; node->balance = a_bal + 1; } return left; } static void g_tree_node_check (GTreeNode *node) { gint left_height; gint right_height; gint balance; if (node) { left_height = 0; right_height = 0; if (node->left) left_height = g_tree_node_height (node->left); if (node->right) right_height = g_tree_node_height (node->right); balance = right_height - left_height; if (balance != node->balance) g_log (g_log_domain_glib, G_LOG_LEVEL_INFO, "g_tree_node_check: failed: %d ( %d )\n", balance, node->balance); if (node->left) g_tree_node_check (node->left); if (node->right) g_tree_node_check (node->right); } }