/************************************************************************ * * SKIPLIST.C - Skiplist functions for use in Nagios event/object lists * * Copyright (c) 2008 Ethan Galstad * Last Modified: 02-28-2008 * * Notes: * * These function implement a slightly modified skiplist from that * described by William Pugh (ftp://ftp.cs.umd.edu/pub/skipLists/skiplists.pdf). * The structures and function were modified to allow the list to act * like a priority queue for the Nagios event list/queue(s). Multiple nodes with * the same key value are allowed on the list to accomodate multiple events * occurring at the same (second) point in time. Implemented peek() and pop() * functions to allow for quick event queue processing, and a method to delete * a specific list item, based on its pointer, rather than its data value. Again, * this is useful for the Nagios event queue. * * License: * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * 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. ************************************************************************/ #include "../include/config.h" #include "../include/common.h" #include "../include/skiplist.h" skiplist *skiplist_new(int max_levels, float level_probability, int allow_duplicates, int append_duplicates, int (*compare_function)(void *, void *)) { skiplist *newlist = NULL; /* alloc memory for new list structure */ if((newlist = (skiplist *)malloc(sizeof(skiplist)))) { /* initialize levels, etc. */ newlist->current_level = 0; newlist->max_levels = max_levels; newlist->level_probability = level_probability; newlist->allow_duplicates = allow_duplicates; newlist->append_duplicates = append_duplicates; newlist->items = 0; newlist->compare_function = compare_function; /* initialize head node */ newlist->head = skiplist_new_node(newlist, max_levels); } return newlist; } int skiplist_insert(skiplist *list, void *data) { skiplistnode **update = NULL; skiplistnode *thisnode = NULL; skiplistnode *nextnode = NULL; skiplistnode *newnode = NULL; int level = 0; int x = 0; if(list == NULL || data == NULL) { return SKIPLIST_ERROR_ARGS; } /* initialize update vector */ if((update = (skiplistnode **)malloc(sizeof(skiplistnode *) * list->max_levels)) == NULL) { return SKIPLIST_ERROR_MEMORY; } for(x = 0; x < list->max_levels; x++) update[x] = NULL; /* check to make sure we don't have duplicates */ /* NOTE: this could made be more efficient */ if(list->allow_duplicates == FALSE) { if(skiplist_find_first(list, data, NULL)) return SKIPLIST_ERROR_DUPLICATE; } /* find proper position for insert, remember pointers with an update vector */ thisnode = list->head; for(level = list->current_level; level >= 0; level--) { while((nextnode = thisnode->forward[level])) { if(list->append_duplicates == TRUE) { if(list->compare_function(nextnode->data, data) > 0) break; } else { if(list->compare_function(nextnode->data, data) >= 0) break; } thisnode = nextnode; } update[level] = thisnode; } /* get a random level the new node should be inserted at */ level = skiplist_random_level(list); /*printf("INSERTION LEVEL: %d\n",level);*/ /* we're adding a new level... */ if(level > list->current_level) { /*printf("NEW LEVEL!\n");*/ list->current_level++; level = list->current_level; update[level] = list->head; } /* create a new node */ if((newnode = skiplist_new_node(list, level)) == NULL) { /*printf("NODE ERROR\n");*/ free(update); return SKIPLIST_ERROR_MEMORY; } newnode->data = data; /* update pointers to insert node at proper location */ do { thisnode = update[level]; newnode->forward[level] = thisnode->forward[level]; thisnode->forward[level] = newnode; } while(--level >= 0); /* update counters */ list->items++; /* free memory */ free(update); return SKIPLIST_OK; } skiplistnode *skiplist_new_node(skiplist *list, int node_levels) { skiplistnode *newnode = NULL; register int x = 0; if(list == NULL) return NULL; if(node_levels < 0 || node_levels > list->max_levels) return NULL; /* allocate memory for node + variable number of level pointers */ if((newnode = (skiplistnode *)malloc(sizeof(skiplistnode) + (node_levels * sizeof(skiplistnode *))))) { /* initialize forward pointers */ for(x = 0; x < node_levels; x++) newnode->forward[x] = NULL; /* initialize data pointer */ newnode->data = NULL; } return newnode; } int skiplist_random_level(skiplist *list) { int level = 0; float r = 0.0; if(list == NULL) return -1; for(level = 0; level < list->max_levels; level++) { r = ((float)rand() / (float)RAND_MAX); if(r > list->level_probability) break; } return (level >= list->max_levels) ? list->max_levels - 1 : level; } int skiplist_empty(skiplist *list) { skiplistnode *this = NULL; skiplistnode *next = NULL; int level = 0; if(list == NULL) return ERROR; /* free all list nodes (but not header) */ for(this = list->head->forward[0]; this != NULL; this = next) { next = this->forward[0]; free(this); } /* reset level pointers */ for(level = list->current_level; level >= 0; level--) list->head->forward[level] = NULL; /* reset list level */ list->current_level = 0; /* reset items */ list->items = 0; return OK; } int skiplist_free(skiplist **list) { skiplistnode *this = NULL; skiplistnode *next = NULL; if(list == NULL) return ERROR; if(*list == NULL) return OK; /* free header and all list nodes */ for(this = (*list)->head; this != NULL; this = next) { next = this->forward[0]; free(this); } /* free list structure */ free(*list); *list = NULL; return OK; } /* get first item in list */ void *skiplist_peek(skiplist *list) { if(list == NULL) return NULL; /* return first item */ return list->head->forward[0]->data; } /* get/remove first item in list */ void *skiplist_pop(skiplist *list) { skiplistnode *thisnode = NULL; void *data = NULL; int level = 0; if(list == NULL) return NULL; /* get first item */ thisnode = list->head->forward[0]; if(thisnode == NULL) return NULL; /* get data for first item */ data = thisnode->data; /* remove first item from queue - update forward links from head to first node */ for(level = 0; level <= list->current_level; level++) { if(list->head->forward[level] == thisnode) list->head->forward[level] = thisnode->forward[level]; } /* free deleted node */ free(thisnode); /* adjust items */ list->items--; return data; } /* get first item in list */ void *skiplist_get_first(skiplist *list, void **node_ptr) { skiplistnode *thisnode = NULL; if(list == NULL) return NULL; /* get first node */ thisnode = list->head->forward[0]; /* return pointer to node */ if(node_ptr) *node_ptr = (void *)thisnode; if(thisnode) return thisnode->data; else return NULL; } /* get next item in list */ void *skiplist_get_next(void **node_ptr) { skiplistnode *thisnode = NULL; skiplistnode *nextnode = NULL; if(node_ptr == NULL || *node_ptr == NULL) return NULL; thisnode = (skiplistnode *)(*node_ptr); nextnode = thisnode->forward[0]; *node_ptr = (void *)nextnode; if(nextnode) return nextnode->data; else return NULL; } /* first first item in list */ void *skiplist_find_first(skiplist *list, void *data, void **node_ptr) { skiplistnode *thisnode = NULL; skiplistnode *nextnode = NULL; int level = 0; if(list == NULL || data == NULL) return NULL; thisnode = list->head; for(level = list->current_level; level >= 0; level--) { while((nextnode = thisnode->forward[level])) { if(list->compare_function(nextnode->data, data) >= 0) break; thisnode = nextnode; } } /* we found it! */ if(nextnode && list->compare_function(nextnode->data, data) == 0) { if(node_ptr) *node_ptr = (void *)nextnode; return nextnode->data; } else { if(node_ptr) *node_ptr = NULL; } return NULL; } /* find next match */ void *skiplist_find_next(skiplist *list, void *data, void **node_ptr) { skiplistnode *thisnode = NULL; skiplistnode *nextnode = NULL; if(list == NULL || data == NULL || node_ptr == NULL) return NULL; if(*node_ptr == NULL) return NULL; thisnode = (skiplistnode *)(*node_ptr); nextnode = thisnode->forward[0]; if(nextnode) { if(list->compare_function(nextnode->data, data) == 0) { *node_ptr = (void *)nextnode; return nextnode->data; } } *node_ptr = NULL; return NULL; } /* delete (all) matching item(s) from list */ int skiplist_delete(skiplist *list, void *data) { return skiplist_delete_all(list, data); } /* delete first matching item from list */ int skiplist_delete_first(skiplist *list, void *data) { skiplistnode **update = NULL; skiplistnode *thisnode = NULL; skiplistnode *nextnode = NULL; int level = 0; int top_level = 0; int deleted = FALSE; int x = 0; if(list == NULL || data == NULL) return ERROR; /* initialize update vector */ if((update = (skiplistnode **)malloc(sizeof(skiplistnode *) * list->max_levels)) == NULL) return ERROR; for(x = 0; x < list->max_levels; x++) update[x] = NULL; /* find location in list */ thisnode = list->head; for(top_level = level = list->current_level; level >= 0; level--) { while((nextnode = thisnode->forward[level])) { if(list->compare_function(nextnode->data, data) >= 0) break; thisnode = nextnode; } update[level] = thisnode; } /* we found a match! */ if(list->compare_function(nextnode->data, data) == 0) { /* adjust level pointers to bypass (soon to be) removed node */ for(level = 0; level <= top_level; level++) { thisnode = update[level]; if(thisnode->forward[level] != nextnode) break; thisnode->forward[level] = nextnode->forward[level]; } /* free node memory */ free(nextnode); /* adjust top/current level of list is necessary */ while(list->head->forward[top_level] == NULL && top_level > 0) top_level--; list->current_level = top_level; /* adjust items */ list->items--; deleted = TRUE; } /* free memory */ free(update); return deleted; } /* delete all matching items from list */ int skiplist_delete_all(skiplist *list, void *data) { int deleted = 0; int total_deleted = 0; /* NOTE: there is a more efficient way to do this... */ while((deleted = skiplist_delete_first(list, data)) == 1) total_deleted++; return total_deleted; } /* delete specific node from list */ int skiplist_delete_node(skiplist *list, void *node_ptr) { void *data = NULL; skiplistnode **update = NULL; skiplistnode *thenode = NULL; skiplistnode *thisnode = NULL; skiplistnode *nextnode = NULL; int level = 0; int top_level = 0; int deleted = FALSE; int x = 0; if(list == NULL || node_ptr == NULL) return ERROR; /* we'll need the data from the node to first find the node */ thenode = (skiplistnode *)node_ptr; data = thenode->data; /* initialize update vector */ if((update = (skiplistnode **)malloc(sizeof(skiplistnode *) * list->max_levels)) == NULL) return ERROR; for(x = 0; x < list->max_levels; x++) update[x] = NULL; /* find location in list */ thisnode = list->head; for(top_level = level = list->current_level; level >= 0; level--) { while((nextnode = thisnode->forward[level])) { /* next node would be too far */ if(list->compare_function(nextnode->data, data) > 0) break; /* this is the exact node we want */ if(list->compare_function(nextnode->data, data) == 0 && nextnode == thenode) break; thisnode = nextnode; } update[level] = thisnode; } /* we found a match! (value + pointers match) */ if(nextnode && list->compare_function(nextnode->data, data) == 0 && nextnode == thenode) { /* adjust level pointers to bypass (soon to be) removed node */ for(level = 0; level <= top_level; level++) { thisnode = update[level]; if(thisnode->forward[level] != nextnode) break; thisnode->forward[level] = nextnode->forward[level]; } /* free node memory */ free(nextnode); /* adjust top/current level of list is necessary */ while(list->head->forward[top_level] == NULL && top_level > 0) top_level--; list->current_level = top_level; /* adjust items */ list->items--; deleted = TRUE; } /* free memory */ free(update); return deleted; }