/***************************************************************************** Copyright (c) 2006, 2016, Oracle and/or its affiliates. All Rights Reserved. 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; version 2 of the License. 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA *****************************************************************************/ /*******************************************************************//** @file include/ut0list.h A double-linked list Created 4/26/2006 Osku Salerma ************************************************************************/ /*******************************************************************//** A double-linked list. This differs from the one in ut0lst.h in that in this one, each list node contains a pointer to the data, whereas the one in ut0lst.h uses a strategy where the list pointers are embedded in the data items themselves. Use this one when you need to store arbitrary data in the list where you can't embed the list pointers in the data, if a data item needs to be stored in multiple lists, etc. Note about the memory management: ib_list_t is a fixed-size struct whose allocation/deallocation is done through ib_list_create/ib_list_free, but the memory for the list nodes is allocated through a user-given memory heap, which can either be the same for all nodes or vary per node. Most users will probably want to create a memory heap to store the item-specific data, and pass in this same heap to the list node creation functions, thus automatically freeing the list node when the item's heap is freed. ************************************************************************/ #ifndef IB_LIST_H #define IB_LIST_H #include "mem0mem.h" struct ib_list_t; struct ib_list_node_t; /****************************************************************//** Create a new list using mem_alloc. Lists created with this function must be freed with ib_list_free. @return list */ ib_list_t* ib_list_create(void); /*=================*/ /****************************************************************//** Free a list. */ void ib_list_free( /*=========*/ ib_list_t* list); /*!< in: list */ /****************************************************************//** Add the data to the end of the list. @return new list node */ ib_list_node_t* ib_list_add_last( /*=============*/ ib_list_t* list, /*!< in: list */ void* data, /*!< in: data */ mem_heap_t* heap); /*!< in: memory heap to use */ /****************************************************************//** Remove the node from the list. */ void ib_list_remove( /*===========*/ ib_list_t* list, /*!< in: list */ ib_list_node_t* node); /*!< in: node to remove */ /****************************************************************//** Get the first node in the list. @return first node, or NULL */ UNIV_INLINE ib_list_node_t* ib_list_get_first( /*==============*/ ib_list_t* list); /*!< in: list */ /****************************************************************//** Get the last node in the list. @return last node, or NULL */ UNIV_INLINE ib_list_node_t* ib_list_get_last( /*=============*/ ib_list_t* list); /*!< in: list */ /******************************************************************** Check if list is empty. */ UNIV_INLINE ibool ib_list_is_empty( /*=============*/ /* out: TRUE if empty else */ const ib_list_t* list); /* in: list */ /******************************************************************** Get number of items on list. @return number of items on list */ UNIV_INLINE ulint ib_list_len( /*========*/ const ib_list_t* list); /*