/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), 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. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #ifndef TDENGINE_TSKIPLIST_H #define TDENGINE_TSKIPLIST_H #ifdef __cplusplus extern "C" { #endif #include "os.h" #include "taosdef.h" #include "tarray.h" #define MAX_SKIP_LIST_LEVEL 15 #define SKIP_LIST_RECORD_PERFORMANCE 0 // For key property setting #define SL_ALLOW_DUP_KEY (uint8_t)0x0 // Allow duplicate key exists #define SL_DISCARD_DUP_KEY (uint8_t)0x1 // Discard duplicate key #define SL_UPDATE_DUP_KEY (uint8_t)0x2 // Update duplicate key by remove/insert // For thread safety setting #define SL_THREAD_SAFE (uint8_t)0x4 typedef char *SSkipListKey; typedef char *(*__sl_key_fn_t)(const void *); typedef struct SSkipListNode { uint8_t level; uint8_t flags; void * pData; struct SSkipListNode *forwards[]; } SSkipListNode; #define SL_NODE_DELETED_FLAG (uint8_t)0x1 #define SL_GET_NODE_DATA(n) (n)->pData #define SL_IS_NODE_DELETED(n) ((n)->flags & SL_NODE_DELETED_FLAG) #define SL_SET_NODE_DELETED(n) (n)->flags |= SL_NODE_DELETED_FLAG #define SL_NODE_GET_FORWARD_POINTER(n, l) (n)->forwards[(l)] #define SL_NODE_GET_BACKWARD_POINTER(n, l) (n)->forwards[(n)->level + (l)] /* * @version 0.3 * @date 2017/11/12 * the simple version of skip list. * * for multi-thread safe purpose, we employ pthread_rwlock_t to guarantee to generate * deterministic result. Later, we will remove the lock in SkipList to further enhance the performance. * In this case, one should use the concurrent skip list (by using michael-scott algorithm) instead of * this simple version in a multi-thread environment, to achieve higher performance of read/write operations. * * Note: Duplicated primary key situation. * In case of duplicated primary key, two ways can be employed to handle this situation: * 1. add as normal insertion without special process. * 2. add an overflow pointer at each list node, all nodes with the same key will be added in the overflow pointer. * In this case, the total steps of each search will be reduced significantly. * Currently, we implement the skip list in a line with the first means, maybe refactor it soon. * * Memory consumption: the memory alignment causes many memory wasted. So, employ a memory * pool will significantly reduce the total memory consumption, as well as the calloc/malloc operation costs. * */ // state struct, record following information: // number of links in each level. // avg search steps, for latest 1000 queries // avg search rsp time, for latest 1000 queries // total memory size typedef struct tSkipListState { // in bytes, sizeof(SSkipList)+sizeof(SSkipListNode)*SSkipList->nSize uint64_t nTotalMemSize; uint64_t nLevelNodeCnt[MAX_SKIP_LIST_LEVEL]; uint64_t queryCount; // total query count /* * only record latest 1000 queries * when the value==1000, = 0, * nTotalStepsForQueries = 0, * nTotalElapsedTimeForQueries = 0 */ uint64_t nRecQueries; uint16_t nTotalStepsForQueries; uint64_t nTotalElapsedTimeForQueries; uint16_t nInsertObjs; uint16_t nTotalStepsForInsert; uint64_t nTotalElapsedTimeForInsert; } tSkipListState; typedef struct SSkipList { __compar_fn_t comparFn; __sl_key_fn_t keyFn; pthread_rwlock_t *lock; uint16_t len; uint8_t maxLevel; uint8_t flags; uint8_t type; // static info above uint8_t level; uint32_t size; // semantic meaning of size uint32_t tsize; // # of all skiplist nodes in this SL SSkipListNode * pHead; // point to the first element SSkipListNode * pTail; // point to the last element #if SKIP_LIST_RECORD_PERFORMANCE tSkipListState state; // skiplist state #endif } SSkipList; typedef struct SSkipListIterator { SSkipList * pSkipList; SSkipListNode *cur; int32_t step; // the number of nodes that have been checked already int32_t order; // order of the iterator } SSkipListIterator; #define SL_IS_THREAD_SAFE(s) (((s)->flags) & SL_THREAD_SAFE) #define SL_DUP_MODE(s) (((s)->flags) & ((((uint8_t)1) << 2) - 1)) #define SL_GET_NODE_KEY(s, n) ((s)->keyFn((n)->pData)) #define SL_GET_MIN_KEY(s) SL_GET_NODE_KEY(s, SL_NODE_GET_FORWARD_POINTER((s)->pHead, 0)) #define SL_GET_MAX_KEY(s) SL_GET_NODE_KEY((s), SL_NODE_GET_BACKWARD_POINTER((s)->pTail, 0)) #define SL_SIZE(s) (s)->size #define SL_TSIZE(s) (s)->tsize SSkipList * tSkipListCreate(uint8_t nMaxLevel, uint8_t keyType, uint16_t keyLen, uint8_t flags, __sl_key_fn_t fn); void tSkipListDestroy(SSkipList *pSkipList); SSkipListNode *tSkipListPut(SSkipList *pSkipList, void *pData); SArray * tSkipListGet(SSkipList *pSkipList, SSkipListKey pKey); void tSkipListPrint(SSkipList *pSkipList, int16_t nlevel); SSkipListIterator *tSkipListCreateIter(SSkipList *pSkipList); SSkipListIterator *tSkipListCreateIterFromVal(SSkipList *pSkipList, const char *val, int32_t type, int32_t order); bool tSkipListIterNext(SSkipListIterator *iter); SSkipListNode * tSkipListIterGet(SSkipListIterator *iter); void * tSkipListDestroyIter(SSkipListIterator *iter); uint32_t tSkipListRemove(SSkipList *pSkipList, SSkipListKey key); void tSkipListRemoveNode(SSkipList *pSkipList, SSkipListNode *pNode); SSkipListKey tSkipListGetMinKey(SSkipList *pSkipList); SSkipListKey tSkipListGetMaxKey(SSkipList *pSkipList); #ifdef __cplusplus } #endif #endif // TDENGINE_TSKIPLIST_H