/*************************************************************************** * gh_list.h -- a simple doubly-linked list implementation. * * * ***********************IMPORTANT NSOCK LICENSE TERMS*********************** * * * The nsock parallel socket event library is (C) 1999-2013 Insecure.Com * * LLC This library is free software; you may redistribute and/or * * modify it under the terms of the GNU General Public License as * * published by the Free Software Foundation; Version 2. This guarantees * * your right to use, modify, and redistribute this software under certain * * conditions. 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See the GNU * * General Public License v2.0 for more details * * (http://www.gnu.org/licenses/gpl-2.0.html). * * * ***************************************************************************/ /* $Id$ */ #ifndef GH_LIST_H #define GH_LIST_H #ifdef HAVE_CONFIG_H #include "nsock_config.h" #include "nbase_config.h" #endif #ifdef WIN32 #include "nbase_winconfig.h" #endif #include "error.h" #include #define GH_LIST_MAGIC 0xBADFACE #define GH_LIST_PARANOID 0 typedef struct gh_list_node { struct gh_list_node *next; struct gh_list_node *prev; } gh_lnode_t; typedef struct gh_list { /* Number of elements in the list */ unsigned int count; gh_lnode_t *first; gh_lnode_t *last; } gh_list_t; /* That one's an efficiency killer but it should reveal * any inconsistency in nsock's lists management. To be * called on every list we get and return. */ static inline void paranoid_list_check(gh_list_t *list) { #if GH_LIST_PARANOID switch (list->count) { case 0: assert(list->first == NULL); assert(list->last == NULL); break; case 1: assert(list->first); assert(list->last); assert(list->first == list->last); break; default: assert(list->first); assert(list->last); assert(list->first != list->last); break; } #endif } static inline int gh_list_init(gh_list_t *newlist) { newlist->count = 0; newlist->first = NULL; newlist->last = NULL; return 0; } static inline int gh_list_append(gh_list_t *list, gh_lnode_t *lnode) { gh_lnode_t *oldlast; paranoid_list_check(list); oldlast = list->last; if (oldlast) oldlast->next = lnode; lnode->prev = oldlast; lnode->next = NULL; list->count++; list->last = lnode; if (list->count == 1) list->first = lnode; paranoid_list_check(list); return 0; } static inline int gh_list_prepend(gh_list_t *list, gh_lnode_t *lnode) { gh_lnode_t *oldfirst; paranoid_list_check(list); oldfirst = list->first; if (oldfirst) oldfirst->prev = lnode; lnode->next = oldfirst; lnode->prev = NULL; list->count++; list->first = lnode; if (list->count == 1) list->last = lnode; paranoid_list_check(list); return 0; } static inline int gh_list_insert_before(gh_list_t *list, gh_lnode_t *before, gh_lnode_t *lnode) { paranoid_list_check(list); lnode->prev = before->prev; lnode->next = before; if (before->prev) before->prev->next = lnode; else list->first = lnode; before->prev = lnode; list->count++; paranoid_list_check(list); return 0; } static inline gh_lnode_t *gh_list_pop(gh_list_t *list) { gh_lnode_t *elem; paranoid_list_check(list); elem = list->first; if (!elem) { paranoid_list_check(list); return NULL; } list->first = list->first->next; if (list->first) list->first->prev = NULL; list->count--; if (list->count < 2) list->last = list->first; elem->prev = NULL; elem->next = NULL; paranoid_list_check(list); return elem; } static inline int gh_list_remove(gh_list_t *list, gh_lnode_t *lnode) { paranoid_list_check(list); if (lnode->prev) { lnode->prev->next = lnode->next; } else { assert(list->first == lnode); list->first = lnode->next; } if (lnode->next) { lnode->next->prev = lnode->prev; } else { assert(list->last == lnode); list->last = lnode->prev; } lnode->prev = NULL; lnode->next = NULL; list->count--; paranoid_list_check(list); return 0; } static inline int gh_list_free(gh_list_t *list) { paranoid_list_check(list); while (list->count > 0) gh_list_pop(list); paranoid_list_check(list); memset(list, 0, sizeof(gh_list_t)); return 0; } static inline int gh_list_move_front(gh_list_t *list, gh_lnode_t *lnode) { paranoid_list_check(list); if (list->first == lnode) return 0; /* remove element from its current position */ lnode->prev->next = lnode->next; if (lnode->next) { lnode->next->prev = lnode->prev; } else { assert(list->last == lnode); list->last = lnode->prev; } /* add element to the beginning of the list */ list->first->prev = lnode; lnode->next = list->first; lnode->prev = NULL; list->first = lnode; paranoid_list_check(list); return 0; } /* Take a LIST ELEMENT (not just the data) and return the next one */ static inline gh_lnode_t *gh_lnode_next(gh_lnode_t *elem) { return elem->next; } /* Same as above but return the previous element */ static inline gh_lnode_t *gh_lnode_prev(gh_lnode_t *elem) { return elem->prev; } /* Take a LIST (not a list element) and return the first element */ static inline gh_lnode_t *gh_list_first_elem(gh_list_t *list) { return list->first; } /* Same as above but return the last element */ static inline gh_lnode_t *gh_list_last_elem(gh_list_t *list) { return list->last; } static inline unsigned int gh_list_count(gh_list_t *list) { return list->count; } #endif /* GH_LIST_H */