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576f7703
编写于
3月 04, 2020
作者:
H
hzcheng
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4 changed file
with
882 addition
and
700 deletion
+882
-700
src/util/inc/tarray.h
src/util/inc/tarray.h
+91
-0
src/util/inc/tskiplist.h
src/util/inc/tskiplist.h
+109
-93
src/util/src/tarray.c
src/util/src/tarray.c
+117
-0
src/util/src/tskiplist.c
src/util/src/tskiplist.c
+565
-607
未找到文件。
src/util/inc/tarray.h
0 → 100644
浏览文件 @
576f7703
/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* 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 <http://www.gnu.org/licenses/>.
*/
#ifndef TDENGINE_TAOSARRAY_H
#define TDENGINE_TAOSARRAY_H
#ifdef __cplusplus
extern
"C"
{
#endif
#include "os.h"
#define TARRAY_MIN_SIZE 8
#define TARRAY_GET_ELEM(array, index) ((array)->pData + (index) * (array)->elemSize)
typedef
struct
SArray
{
size_t
size
;
size_t
capacity
;
size_t
elemSize
;
void
*
pData
;
}
SArray
;
/**
*
* @param size
* @param elemSize
* @return
*/
void
*
taosArrayInit
(
size_t
size
,
size_t
elemSize
);
/**
*
* @param pArray
* @param pData
* @return
*/
void
*
taosArrayPush
(
SArray
*
pArray
,
void
*
pData
);
/**
*
* @param pArray
*/
void
taosArrayPop
(
SArray
*
pArray
);
/**
*
* @param pArray
* @param index
* @return
*/
void
*
taosArrayGet
(
SArray
*
pArray
,
size_t
index
);
/**
*
* @param pArray
* @return
*/
size_t
taosArrayGetSize
(
SArray
*
pArray
);
/**
*
* @param pArray
* @param index
* @param pData
*/
void
taosArrayInsert
(
SArray
*
pArray
,
int32_t
index
,
void
*
pData
);
/**
*
* @param pArray
*/
void
taosArrayDestory
(
SArray
*
pArray
);
#ifdef __cplusplus
}
#endif
#endif // TDENGINE_TAOSARRAY_H
src/util/inc/tskiplist.h
浏览文件 @
576f7703
...
@@ -20,59 +20,62 @@
...
@@ -20,59 +20,62 @@
extern
"C"
{
extern
"C"
{
#endif
#endif
#define MAX_SKIP_LIST_LEVEL 20
#include <pthread.h>
#include <stdint.h>
#include <stdlib.h>
#include "os.h"
#include "os.h"
#include "ttypes.h"
#include "ttypes.h"
#include "tarray.h"
/*
/*
* key of each node
* key of each node
* todo move to as the global structure in all search codes...
* todo move to as the global structure in all search codes...
*/
*/
#define MAX_SKIP_LIST_LEVEL 15
#define SKIP_LIST_RECORD_PERFORMANCE 0
typedef
char
*
SSkipListKey
;
typedef
char
*
(
*
__sl_key_fn_t
)(
const
void
*
);
/**
* the format of skip list node is as follows:
* +------------+-----------------------+------------------------+-----+------+
* | node level | forward pointer array | backward pointer array | key | data |
* +------------+-----------------------+------------------------+-----+------+
* the skiplist node is located in a consecutive memory area, key will not be copy to skip list
*/
typedef
struct
SSkipListNode
{
uint8_t
level
;
}
SSkipListNode
;
const
static
size_t
SKIP_LIST_STR_KEY_LENGTH_THRESHOLD
=
15
;
#define SL_NODE_HEADER_SIZE(_l) (sizeof(SSkipListNode) + ((_l) << 1u) * POINTER_BYTES)
typedef
tVariant
tSkipListKey
;
typedef
enum
tSkipListPointQueryType
{
INCLUDE_POINT_QUERY
,
EXCLUDE_POINT_QUERY
,
}
tSkipListPointQueryType
;
typedef
struct
tSkipListNode
{
#define SL_GET_FORWARD_POINTER(n, _l) ((SSkipListNode **)((char *)(n) + sizeof(SSkipListNode)))[(_l)]
uint16_t
nLevel
;
#define SL_GET_BACKWARD_POINTER(n, _l) \
char
*
pData
;
((SSkipListNode **)((char *)(n) + sizeof(SSkipListNode) + ((n)->level) * POINTER_BYTES))[(_l)]
struct
tSkipListNode
**
pForward
;
#define SL_GET_NODE_DATA(n) ((char*)(n) + SL_NODE_HEADER_SIZE((n)->level))
struct
tSkipListNode
**
pBackward
;
#define SL_GET_NODE_KEY(s, n) ((s)->keyFn(SL_GET_NODE_DATA(n)))
tSkipListKey
key
;
#define SL_GET_NODE_LEVEL(n) *(int32_t *)((n))
}
tSkipListNode
;
/*
/*
* @version 0.
2
* @version 0.
3
* @date 2017/11/12
* @date 2017/11/12
* the simple version of SkipList.
* the simple version of skip list.
*
* for multi-thread safe purpose, we employ pthread_rwlock_t to guarantee to generate
* 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
* deterministic result. Later, we will remove the lock in SkipList to further enhance the performance.
* enhance the performance. In this case, one should use the concurrent skip list (by
* In this case, one should use the concurrent skip list (by using michael-scott algorithm) instead of
* using michael-scott algorithm) instead of this simple version in a multi-thread
* this simple version in a multi-thread environment, to achieve higher performance of read/write operations.
* environment, to achieve higher performance of read/write operations.
*
*
* Note: Duplicated primary key situation.
* Note: Duplicated primary key situation.
* In case of duplicated primary key, two ways can be employed to handle this situation:
* In case of duplicated primary key, two ways can be employed to handle this situation:
* 1. add as normal insertion with
out special process.
* 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
* 2. add an overflow pointer at each list node, all nodes with the same key will be added
in the overflow pointer.
*
in the overflow pointer.
In this case, the total steps of each search will be reduced significantly.
* 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.
* 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
* 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.
* pool will significantly reduce the total memory consumption, as well as the calloc/malloc operation costs.
*
*
* 3. use the iterator pattern to refactor all routines to make it more clean
*/
*/
// state struct, record following information:
// state struct, record following information:
...
@@ -81,7 +84,7 @@ typedef struct tSkipListNode {
...
@@ -81,7 +84,7 @@ typedef struct tSkipListNode {
// avg search rsp time, for latest 1000 queries
// avg search rsp time, for latest 1000 queries
// total memory size
// total memory size
typedef
struct
tSkipListState
{
typedef
struct
tSkipListState
{
// in bytes, sizeof(
tSkipList)+sizeof(tSkipListNode)*t
SkipList->nSize
// in bytes, sizeof(
SSkipList)+sizeof(SSkipListNode)*S
SkipList->nSize
uint64_t
nTotalMemSize
;
uint64_t
nTotalMemSize
;
uint64_t
nLevelNodeCnt
[
MAX_SKIP_LIST_LEVEL
];
uint64_t
nLevelNodeCnt
[
MAX_SKIP_LIST_LEVEL
];
uint64_t
queryCount
;
// total query count
uint64_t
queryCount
;
// total query count
...
@@ -101,68 +104,95 @@ typedef struct tSkipListState {
...
@@ -101,68 +104,95 @@ typedef struct tSkipListState {
uint64_t
nTotalElapsedTimeForInsert
;
uint64_t
nTotalElapsedTimeForInsert
;
}
tSkipListState
;
}
tSkipListState
;
typedef
struct
tSkipList
{
typedef
struct
SSkipListKeyInfo
{
tSkipListNode
pHead
;
uint8_t
dupKey
:
2
;
// if allow duplicated key in the skip list
uint64_t
nSize
;
uint8_t
type
:
6
;
// key type
uint16_t
nMaxLevel
;
uint8_t
len
;
// maximum key length, used in case of string key
uint16_t
nLevel
;
}
SSkipListKeyInfo
;
uint16_t
keyType
;
uint16_t
nMaxKeyLen
;
typedef
struct
SSkipList
{
__compar_fn_t
comparFn
;
__sl_key_fn_t
keyFn
;
uint32_t
size
;
uint8_t
maxLevel
;
uint8_t
level
;
SSkipListKeyInfo
keyInfo
;
pthread_rwlock_t
*
lock
;
SSkipListNode
*
pHead
;
#if SKIP_LIST_RECORD_PERFORMANCE
tSkipListState
state
;
// skiplist state
#endif
__compar_fn_t
comparator
;
}
SSkipList
;
pthread_rwlock_t
lock
;
// will be removed soon
tSkipListState
state
;
// skiplist state
}
tSkipList
;
/*
/*
* iterate the skiplist
* iterate the skiplist
* this will cause the multi-thread problem, when the skiplist is destroyed, the iterate may
* this will cause the multi-thread problem, when the skiplist is destroyed, the iterate may
* continue iterating the skiplist, so add the reference count for skiplist
* continue iterating the skiplist, so add the reference count for skiplist
* TODO add the ref for skiplist when one iterator is created
* TODO add the ref for skip
list when one iterator is created
*/
*/
typedef
struct
SSkipListIterator
{
typedef
struct
SSkipListIterator
{
t
SkipList
*
pSkipList
;
S
SkipList
*
pSkipList
;
t
SkipListNode
*
cur
;
S
SkipListNode
*
cur
;
int64_t
num
;
int64_t
num
;
}
SSkipListIterator
;
}
SSkipListIterator
;
/*
/**
* query condition structure to denote the range query
*
* todo merge the point query cond with range query condition
* @param nMaxLevel maximum skip list level
* @param keyType type of key
* @param dupKey allow the duplicated key in the skip list
* @return
*/
*/
typedef
struct
tSKipListQueryCond
{
SSkipList
*
tSkipListCreate
(
uint8_t
nMaxLevel
,
uint8_t
keyType
,
uint8_t
keyLen
,
uint8_t
dupKey
,
uint8_t
threadsafe
,
// when the upper bounding == lower bounding, it is a point query
__sl_key_fn_t
fn
);
tSkipListKey
lowerBnd
;
tSkipListKey
upperBnd
;
int32_t
lowerBndRelOptr
;
// relation operator to denote if lower bound is
int32_t
upperBndRelOptr
;
// included or not
}
tSKipListQueryCond
;
tSkipList
*
tSkipListCreate
(
int16_t
nMaxLevel
,
int16_t
keyType
,
int16_t
nMaxKeyLen
);
void
*
tSkipListDestroy
(
tSkipList
*
pSkipList
);
// create skip list key
tSkipListKey
tSkipListCreateKey
(
int32_t
type
,
char
*
val
,
size_t
keyLength
);
// destroy skip list key
/**
void
tSkipListDestroyKey
(
tSkipListKey
*
pKey
);
*
* @param pSkipList
* @return NULL will always be returned
*/
void
*
tSkipListDestroy
(
SSkipList
*
pSkipList
);
// put data into skiplist
/**
tSkipListNode
*
tSkipListPut
(
tSkipList
*
pSkipList
,
void
*
pData
,
tSkipListKey
*
pKey
,
int32_t
insertIdenticalKey
);
*
* @param pSkipList
* @param level
* @param headSize
*/
void
tSkipListRandNodeInfo
(
SSkipList
*
pSkipList
,
int32_t
*
level
,
int32_t
*
headSize
);
/*
/**
* get only *one* node of which key is equalled to pKey, even there are more
* put the skip list node into the skip list.
* than one nodes are of the same key
* If failed, NULL will be returned, otherwise, the pNode will be returned.
*
* @param pSkipList
* @param pNode
* @return
*/
*/
tSkipListNode
*
tSkipListGetOne
(
tSkipList
*
pSkipList
,
tSkipListKey
*
pKey
);
SSkipListNode
*
tSkipListPut
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
);
/*
/**
* get all data with the same keys
* get only *one* node of which key is equalled to pKey, even there are more than one nodes are of the same key
*
* @param pSkipList
* @param pKey
* @param keyType
* @return
*/
*/
int32_t
tSkipListGets
(
tSkipList
*
pSkipList
,
tSkipListKey
*
pKey
,
tSkipListNode
***
pRes
);
SArray
*
tSkipListGet
(
SSkipList
*
pSkipList
,
SSkipListKey
pKey
,
int16_t
keyType
);
int32_t
tSkipListIterateList
(
tSkipList
*
pSkipList
,
tSkipListNode
***
pRes
,
bool
(
*
fp
)(
tSkipListNode
*
,
void
*
),
/**
*
* @param pSkipList
* @param pRes
* @param fp
* @param param
* @return
*/
int32_t
tSkipListIterateList
(
SSkipList
*
pSkipList
,
SSkipListNode
***
pRes
,
bool
(
*
fp
)(
SSkipListNode
*
,
void
*
),
void
*
param
);
void
*
param
);
/*
/*
...
@@ -173,30 +203,16 @@ int32_t tSkipListIterateList(tSkipList *pSkipList, tSkipListNode ***pRes, bool (
...
@@ -173,30 +203,16 @@ int32_t tSkipListIterateList(tSkipList *pSkipList, tSkipListNode ***pRes, bool (
* true: one node has been removed
* true: one node has been removed
* false: no node has been removed
* false: no node has been removed
*/
*/
bool
tSkipListRemove
(
tSkipList
*
pSkipList
,
t
SkipListKey
*
pKey
);
bool
tSkipListRemove
(
SSkipList
*
pSkipList
,
S
SkipListKey
*
pKey
);
/*
/*
* remove the specified node in parameters
* remove the specified node in parameters
*/
*/
void
tSkipListRemoveNode
(
tSkipList
*
pSkipList
,
tSkipListNode
*
pNode
);
void
tSkipListRemoveNode
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
);
// for debug purpose only
void
tSkipListPrint
(
tSkipList
*
pSkipList
,
int16_t
nlevel
);
/*
* range query & single point query function
*/
int32_t
tSkipListQuery
(
tSkipList
*
pSkipList
,
tSKipListQueryCond
*
pQueryCond
,
tSkipListNode
***
pResult
);
/*
* include/exclude point query
*/
int32_t
tSkipListPointQuery
(
tSkipList
*
pSkipList
,
tSkipListKey
*
pKey
,
int32_t
numOfKey
,
tSkipListPointQueryType
type
,
tSkipListNode
***
pResult
);
int32_t
tSkipListIteratorReset
(
t
SkipList
*
pSkipList
,
SSkipListIterator
*
iter
);
int32_t
tSkipListIteratorReset
(
S
SkipList
*
pSkipList
,
SSkipListIterator
*
iter
);
bool
tSkipListIteratorNext
(
SSkipListIterator
*
iter
);
bool
tSkipListIteratorNext
(
SSkipListIterator
*
iter
);
t
SkipListNode
*
tSkipListIteratorGet
(
SSkipListIterator
*
iter
);
S
SkipListNode
*
tSkipListIteratorGet
(
SSkipListIterator
*
iter
);
#ifdef __cplusplus
#ifdef __cplusplus
}
}
...
...
src/util/src/tarray.c
0 → 100755
浏览文件 @
576f7703
/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include "tarray.h"
void
*
taosArrayInit
(
size_t
size
,
size_t
elemSize
)
{
assert
(
elemSize
>
0
);
if
(
size
<
TARRAY_MIN_SIZE
)
{
size
=
TARRAY_MIN_SIZE
;
}
SArray
*
pArray
=
calloc
(
1
,
sizeof
(
SArray
));
if
(
pArray
==
NULL
)
{
return
NULL
;
}
pArray
->
pData
=
calloc
(
size
,
elemSize
*
size
);
if
(
pArray
->
pData
==
NULL
)
{
free
(
pArray
);
return
NULL
;
}
pArray
->
capacity
=
size
;
pArray
->
elemSize
=
elemSize
;
return
pArray
;
}
static
void
taosArrayResize
(
SArray
*
pArray
)
{
assert
(
pArray
->
size
>=
pArray
->
capacity
);
size_t
size
=
pArray
->
capacity
;
size
=
(
size
<<
1u
);
void
*
tmp
=
realloc
(
pArray
->
pData
,
size
*
pArray
->
elemSize
);
if
(
tmp
==
NULL
)
{
// todo
}
pArray
->
pData
=
tmp
;
pArray
->
capacity
=
size
;
}
void
*
taosArrayPush
(
SArray
*
pArray
,
void
*
pData
)
{
if
(
pArray
==
NULL
||
pData
==
NULL
)
{
return
NULL
;
}
if
(
pArray
->
size
>=
pArray
->
capacity
)
{
taosArrayResize
(
pArray
);
}
void
*
dst
=
TARRAY_GET_ELEM
(
pArray
,
pArray
->
size
);
memcpy
(
dst
,
pData
,
pArray
->
elemSize
);
pArray
->
size
+=
1
;
return
dst
;
}
void
taosArrayPop
(
SArray
*
pArray
)
{
if
(
pArray
==
NULL
||
pArray
->
size
==
0
)
{
return
;
}
pArray
->
size
-=
1
;
}
void
*
taosArrayGet
(
SArray
*
pArray
,
size_t
index
)
{
assert
(
index
<
pArray
->
size
);
return
TARRAY_GET_ELEM
(
pArray
,
index
);
}
size_t
taosArrayGetSize
(
SArray
*
pArray
)
{
return
pArray
->
size
;
}
void
taosArrayInsert
(
SArray
*
pArray
,
int32_t
index
,
void
*
pData
)
{
if
(
pArray
==
NULL
||
pData
==
NULL
)
{
return
;
}
if
(
index
>=
pArray
->
size
)
{
taosArrayPush
(
pArray
,
pData
);
return
;
}
if
(
pArray
->
size
>=
pArray
->
capacity
)
{
taosArrayResize
(
pArray
);
}
void
*
dst
=
TARRAY_GET_ELEM
(
pArray
,
index
);
int32_t
remain
=
pArray
->
size
-
index
;
memmove
(
dst
+
pArray
->
elemSize
,
dst
,
pArray
->
elemSize
*
remain
);
memcpy
(
dst
,
pData
,
pArray
->
elemSize
);
pArray
->
size
+=
1
;
}
void
taosArrayDestory
(
SArray
*
pArray
)
{
if
(
pArray
==
NULL
)
{
return
;
}
free
(
pArray
->
pData
);
free
(
pArray
);
}
src/util/src/tskiplist.c
浏览文件 @
576f7703
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