#define RCSID "$Id: Tree.c,v 1.8 2006/02/25 15:00:23 geuzaine Exp $" /* * Copyright (C) 1997-2006 P. Dular, C. Geuzaine * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. * * Please report all bugs and problems to . * * Contributor(s): * Marc Ume */ #include #include #include "Malloc.h" #include "Tree.h" Tree_T *Tree_Create(int size, int (*fcmp)(const void *a, const void *b)) { Tree_T *tree; tree = (Tree_T *) Malloc(sizeof(Tree_T)); tree->size = size; tree->root = avl_init_table(fcmp); return(tree); } void Tree_Delete(Tree_T *tree) { if(!tree) return; avl_free_table(tree->root, Free, 0); Free(tree); } void Tree_Add(Tree_T *tree, void *data) { void *ptr; ptr = Malloc(tree->size); memcpy(ptr,data,tree->size); avl_insert(tree->root, ptr, ptr); } void * Tree_AddP(Tree_T *tree, void *data) { void *ptr; ptr = Malloc(tree->size); memcpy(ptr,data,tree->size); avl_insert(tree->root, ptr, ptr); return ptr ; } int Tree_Nbr(Tree_T *tree) { if(!tree) return 0; return(avl_count(tree->root)); } void Tree_Insert(Tree_T *tree, void *data) { if (Tree_Search(tree,data) == 0) Tree_Add(tree,data); } int Tree_Replace(Tree_T *tree, void *data) { void *ptr; int state; state = avl_lookup(tree->root, data, &ptr); if (state == 0) { Tree_Add(tree,data); return(0); } else { memcpy(ptr,data,tree->size); return (1); } } int Tree_Search(Tree_T *tree, void *data) { void *ptr; return (avl_lookup(tree->root, data, &ptr)); } int Tree_Query(Tree_T *tree, void *data) { void *ptr; int state; state = avl_lookup(tree->root, data, &ptr); if (state == 0) return(0); memcpy(data,ptr,tree->size); return (1); } void *Tree_PQuery(Tree_T *tree, void *data) { void *ptr; int state; state = avl_lookup(tree->root, data, &ptr); if (state == 0) return(NULL); return (ptr); } int Tree_Suppress(Tree_T *tree, void *data) { void *ptr; int state; ptr = data; state = avl_delete(tree->root, &ptr, &ptr) ; if (state == 0) return(0); Free(ptr); return(1); } int Tree_Left(Tree_T *tree, void *data) { void *ptr; int state; state = avl_extremum(tree->root, AVL_MOST_LEFT, &ptr); if (state == 0) return (0); memcpy(data,ptr,tree->size); return (1); } int Tree_Right(Tree_T *tree, void *data) { void *ptr; int state; state = avl_extremum(tree->root, AVL_MOST_RIGHT, &ptr); if (state == 0) return (0); memcpy(data,ptr,tree->size); return (1); } void Tree_Action(Tree_T *tree, void (*action) (void *data, void *dummy)) { if(!tree) return; avl_foreach(tree->root, action, AVL_FORWARD); } int Tree_Size(Tree_T *tree) { if(!tree) return 0; return(tree->size); }