/* splay_tree.c -- splay tree and linked list convenience Copyright (C) 2004-2006 Guus Sliepen 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, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. $Id: splay_tree.c 1374 2004-03-21 14:21:22Z guus $ */ #include "system.h" #include "splay_tree.h" #include "xalloc.h" /* Splay operation */ static splay_node_t *splay_top_down(splay_tree_t *tree, const void *data, int *result) { splay_node_t left = {0}, right = {0}; splay_node_t *leftbottom = &left, *rightbottom = &right, *child, *grandchild; splay_node_t *root = tree->root; int c; if(!root) { if(result) *result = 0; return NULL; } while((c = tree->compare(data, root->data))) { if(c < 0 && (child = root->left)) { c = tree->compare(data, child->data); if(c < 0 && (grandchild = child->left)) { rightbottom->left = child; child->parent = rightbottom; rightbottom = child; if((root->left = child->right)) child->right->parent = root; child->right = root; root->parent = child; child->left = NULL; grandchild->parent = NULL; root = grandchild; } else if (c > 0 && (grandchild = child->right)) { leftbottom->right = child; child->parent = leftbottom; leftbottom = child; child->right = NULL; grandchild->parent = NULL; rightbottom->left = root; root->parent = rightbottom; rightbottom = root; root->left = NULL; root = grandchild; } else { rightbottom->left = root; root->parent = rightbottom; rightbottom = root; root->left = NULL; child->parent = NULL; root = child; break; } } else if(c > 0 && (child = root->right)) { c = tree->compare(data, child->data); if(c > 0 && (grandchild = child->right)) { leftbottom->right = child; child->parent = leftbottom; leftbottom = child; if((root->right = child->left)) child->left->parent = root; child->left = root; root->parent = child; child->right = NULL; grandchild->parent = NULL; root = grandchild; } else if (c < 0 && (grandchild = child->left)) { rightbottom->left = child; child->parent = rightbottom; rightbottom = child; child->left = NULL; grandchild->parent = NULL; leftbottom->right = root; root->parent = leftbottom; leftbottom = root; root->right = NULL; root = grandchild; } else { leftbottom->right = root; root->parent = leftbottom; leftbottom = root; root->right = NULL; child->parent = NULL; root = child; break; } } else { break; } } /* Merge trees */ if(left.right) { if(root->left) { leftbottom->right = root->left; root->left->parent = leftbottom; } root->left = left.right; left.right->parent = root; } if(right.left) { if(root->right) { rightbottom->left = root->right; root->right->parent = rightbottom; } root->right = right.left; right.left->parent = root; } /* Return result */ tree->root = root; if(result) *result = c; return tree->root; } static void splay_bottom_up(splay_tree_t *tree, splay_node_t *node) { splay_node_t *parent, *grandparent, *greatgrandparent; while((parent = node->parent)) { if(!(grandparent = parent->parent)) { /* zig */ if(node == parent->left) { if((parent->left = node->right)) parent->left->parent = parent; node->right = parent; } else { if((parent->right = node->left)) parent->right->parent = parent; node->left = parent; } parent->parent = node; node->parent = NULL; } else { greatgrandparent = grandparent->parent; if(node == parent->left && parent == grandparent->left) { /* left zig-zig */ if((grandparent->left = parent->right)) grandparent->left->parent = grandparent; parent->right = grandparent; grandparent->parent = parent; if((parent->left = node->right)) parent->left->parent = parent; node->right = parent; parent->parent = node; } else if(node == parent->right && parent == grandparent->right) { /* right zig-zig */ if((grandparent->right = parent->left)) grandparent->right->parent = grandparent; parent->left = grandparent; grandparent->parent = parent; if((parent->right = node->left)) parent->right->parent = parent; node->left = parent; parent->parent = node; } else if(node == parent->right && parent == grandparent->left) { /* left-right zig-zag */ if((parent->right = node->left)) parent->right->parent = parent; node->left = parent; parent->parent = node; if((grandparent->left = node->right)) grandparent->left->parent = grandparent; node->right = grandparent; grandparent->parent = node; } else { /* right-left zig-zag */ if((parent->left = node->right)) parent->left->parent = parent; node->right = parent; parent->parent = node; if((grandparent->right = node->left)) grandparent->right->parent = grandparent; node->left = grandparent; grandparent->parent = node; } if((node->parent = greatgrandparent)) { if(grandparent == greatgrandparent->left) greatgrandparent->left = node; else greatgrandparent->right = node; } } } tree->root = node; } /* (De)constructors */ splay_tree_t *splay_alloc_tree(splay_compare_t compare, splay_action_t delete) { splay_tree_t *tree; tree = xmalloc_and_zero(sizeof(splay_tree_t)); tree->compare = compare; tree->delete = delete; return tree; } void splay_free_tree(splay_tree_t *tree) { free(tree); } splay_node_t *splay_alloc_node(void) { return xmalloc_and_zero(sizeof(splay_node_t)); } void splay_free_node(splay_tree_t *tree, splay_node_t *node) { if(node->data && tree->delete) tree->delete(node->data); free(node); } /* Searching */ void *splay_search(splay_tree_t *tree, const void *data) { splay_node_t *node; node = splay_search_node(tree, data); return node ? node->data : NULL; } void *splay_search_closest(splay_tree_t *tree, const void *data, int *result) { splay_node_t *node; node = splay_search_closest_node(tree, data, result); return node ? node->data : NULL; } void *splay_search_closest_smaller(splay_tree_t *tree, const void *data) { splay_node_t *node; node = splay_search_closest_smaller_node(tree, data); return node ? node->data : NULL; } void *splay_search_closest_greater(splay_tree_t *tree, const void *data) { splay_node_t *node; node = splay_search_closest_greater_node(tree, data); return node ? node->data : NULL; } splay_node_t *splay_search_node(splay_tree_t *tree, const void *data) { splay_node_t *node; int result; node = splay_search_closest_node(tree, data, &result); return result ? NULL : node; } splay_node_t *splay_search_closest_node_nosplay(const splay_tree_t *tree, const void *data, int *result) { splay_node_t *node; int c; node = tree->root; if(!node) { if(result) *result = 0; return NULL; } for(;;) { c = tree->compare(data, node->data); if(c < 0) { if(node->left) node = node->left; else break; } else if(c > 0) { if(node->right) node = node->right; else break; } else { break; } } if(result) *result = c; return node; } splay_node_t *splay_search_closest_node(splay_tree_t *tree, const void *data, int *result) { return splay_top_down(tree, data, result); } splay_node_t *splay_search_closest_smaller_node(splay_tree_t *tree, const void *data) { splay_node_t *node; int result; node = splay_search_closest_node(tree, data, &result); if(result < 0) node = node->prev; return node; } splay_node_t *splay_search_closest_greater_node(splay_tree_t *tree, const void *data) { splay_node_t *node; int result; node = splay_search_closest_node(tree, data, &result); if(result > 0) node = node->next; return node; } /* Insertion and deletion */ splay_node_t *splay_insert(splay_tree_t *tree, void *data) { splay_node_t *closest, *new; int result; if(!tree->root) { new = splay_alloc_node(); new->data = data; splay_insert_top(tree, new); } else { closest = splay_search_closest_node(tree, data, &result); if(!result) return NULL; new = splay_alloc_node(); new->data = data; if(result < 0) splay_insert_before(tree, closest, new); else splay_insert_after(tree, closest, new); } return new; } splay_node_t *splay_insert_node(splay_tree_t *tree, splay_node_t *node) { splay_node_t *closest; int result; if(!tree->root) splay_insert_top(tree, node); else { closest = splay_search_closest_node(tree, node->data, &result); if(!result) return NULL; if(result < 0) splay_insert_before(tree, closest, node); else splay_insert_after(tree, closest, node); } return node; } void splay_insert_top(splay_tree_t *tree, splay_node_t *node) { node->prev = node->next = node->left = node->right = node->parent = NULL; tree->head = tree->tail = tree->root = node; } void splay_insert_before(splay_tree_t *tree, splay_node_t *before, splay_node_t *node) { if(!before) { if(tree->tail) splay_insert_after(tree, tree->tail, node); else splay_insert_top(tree, node); return; } node->next = before; if((node->prev = before->prev)) before->prev->next = node; else tree->head = node; before->prev = node; splay_bottom_up(tree, before); node->right = before; before->parent = node; if((node->left = before->left)) before->left->parent = node; before->left = NULL; node->parent = NULL; tree->root = node; } void splay_insert_after(splay_tree_t *tree, splay_node_t *after, splay_node_t *node) { if(!after) { if(tree->head) splay_insert_before(tree, tree->head, node); else splay_insert_top(tree, node); return; } node->prev = after; if((node->next = after->next)) after->next->prev = node; else tree->tail = node; after->next = node; splay_bottom_up(tree, after); node->left = after; after->parent = node; if((node->right = after->right)) after->right->parent = node; after->right = NULL; node->parent = NULL; tree->root = node; } splay_node_t *splay_unlink(splay_tree_t *tree, void *data) { splay_node_t *node; node = splay_search_node(tree, data); if(node) splay_unlink_node(tree, node); return node; } void splay_unlink_node(splay_tree_t *tree, splay_node_t *node) { if(node->prev) node->prev->next = node->next; else tree->head = node->next; if(node->next) node->next->prev = node->prev; else tree->tail = node->prev; splay_bottom_up(tree, node); if(node->prev) { node->left->parent = NULL; tree->root = node->left; if((node->prev->right = node->right)) node->right->parent = node->prev; } else if(node->next) { tree->root = node->right; node->right->parent = NULL; } else { tree->root = NULL; } } void splay_delete_node(splay_tree_t *tree, splay_node_t *node) { splay_unlink_node(tree, node); splay_free_node(tree, node); } void splay_delete(splay_tree_t *tree, void *data) { splay_node_t *node; node = splay_search_node(tree, data); if(node) splay_delete_node(tree, node); } /* Fast tree cleanup */ void splay_delete_tree(splay_tree_t *tree) { splay_node_t *node, *next; for(node = tree->head; node; node = next) { next = node->next; splay_free_node(tree, node); } splay_free_tree(tree); } /* Tree walking */ void splay_foreach(const splay_tree_t *tree, splay_action_t action) { splay_node_t *node, *next; for(node = tree->head; node; node = next) { next = node->next; action(node->data); } } void splay_foreach_node(const splay_tree_t *tree, splay_action_t action) { splay_node_t *node, *next; for(node = tree->head; node; node = next) { next = node->next; action(node); } }