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4b86e0a3
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4b86e0a3
编写于
5月 08, 2020
作者:
H
hjxilinx
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
[td-225] add remove support for skiplist and super table index.
上级
557064d1
变更
3
隐藏空白更改
内联
并排
Showing
3 changed file
with
267 addition
and
246 deletion
+267
-246
src/tsdb/src/tsdbMeta.c
src/tsdb/src/tsdbMeta.c
+9
-3
src/util/inc/tskiplist.h
src/util/inc/tskiplist.h
+2
-3
src/util/src/tskiplist.c
src/util/src/tskiplist.c
+256
-240
未找到文件。
src/tsdb/src/tsdbMeta.c
浏览文件 @
4b86e0a3
...
...
@@ -502,13 +502,19 @@ static int tsdbAddTableIntoIndex(STsdbMeta *pMeta, STable *pTable) {
memcpy
(
SL_GET_NODE_DATA
(
pNode
),
&
pTable
,
POINTER_BYTES
);
tSkipListPut
(
list
,
pNode
);
return
0
;
}
static
int
tsdbRemoveTableFromIndex
(
STsdbMeta
*
pMeta
,
STable
*
pTable
)
{
assert
(
pTable
->
type
==
TSDB_CHILD_TABLE
);
// TODO
assert
(
pTable
->
type
==
TSDB_CHILD_TABLE
&&
pTable
!=
NULL
);
STable
*
pSTable
=
tsdbGetTableByUid
(
pMeta
,
pTable
->
superUid
);
assert
(
pSTable
!=
NULL
);
char
*
key
=
dataRowTuple
(
pTable
->
tagVal
);
// key
bool
ret
=
tSkipListRemove
(
pSTable
->
pIndex
,
key
);
assert
(
ret
);
return
0
;
}
...
...
src/util/inc/tskiplist.h
浏览文件 @
4b86e0a3
...
...
@@ -178,10 +178,9 @@ SSkipListNode *tSkipListPut(SSkipList *pSkipList, SSkipListNode *pNode);
*
* @param pSkipList
* @param pKey
* @param keyType
* @return
*/
SArray
*
tSkipListGet
(
SSkipList
*
pSkipList
,
SSkipListKey
pKey
,
int16_t
keyType
);
SArray
*
tSkipListGet
(
SSkipList
*
pSkipList
,
SSkipListKey
pKey
);
/**
* get the size of skip list
...
...
@@ -242,7 +241,7 @@ void *tSkipListDestroyIter(SSkipListIterator *iter);
* true: one node has been removed
* false: no node has been removed
*/
bool
tSkipListRemove
(
SSkipList
*
pSkipList
,
SSkipListKey
*
pK
ey
);
bool
tSkipListRemove
(
SSkipList
*
pSkipList
,
SSkipListKey
k
ey
);
/*
* remove the specified node in parameters
...
...
src/util/src/tskiplist.c
浏览文件 @
4b86e0a3
...
...
@@ -74,6 +74,7 @@ static void tSkipListDoInsert(SSkipList *pSkipList, SSkipListNode **forward, SSk
static
SSkipListNode
*
tSkipListPushBack
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
);
static
SSkipListNode
*
tSkipListPushFront
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
);
static
SSkipListIterator
*
doCreateSkipListIterator
(
SSkipList
*
pSkipList
,
int32_t
order
);
static
SSkipListNode
*
tSkipListDoGet
(
SSkipList
*
pSkipList
,
SSkipListKey
key
);
static
bool
initForwardBackwardPtr
(
SSkipList
*
pSkipList
)
{
uint32_t
maxLevel
=
pSkipList
->
maxLevel
;
...
...
@@ -97,6 +98,7 @@ static bool initForwardBackwardPtr(SSkipList* pSkipList) {
return
true
;
}
SSkipList
*
tSkipListCreate
(
uint8_t
maxLevel
,
uint8_t
keyType
,
uint8_t
keyLen
,
uint8_t
dupKey
,
uint8_t
lock
,
uint8_t
freeNode
,
__sl_key_fn_t
fn
)
{
SSkipList
*
pSkipList
=
(
SSkipList
*
)
calloc
(
1
,
sizeof
(
SSkipList
));
...
...
@@ -139,25 +141,6 @@ SSkipList *tSkipListCreate(uint8_t maxLevel, uint8_t keyType, uint8_t keyLen, ui
return
pSkipList
;
}
// static void doRemove(SSkipList *pSkipList, SSkipListNode *pNode, SSkipListNode *forward[]) {
// int32_t level = pNode->level;
// for (int32_t j = level - 1; j >= 0; --j) {
// if ((forward[j]->pForward[j] != NULL) && (forward[j]->pForward[j]->pForward[j])) {
// forward[j]->pForward[j]->pForward[j]->pBackward[j] = forward[j];
// }
//
// if (forward[j]->pForward[j] != NULL) {
// forward[j]->pForward[j] = forward[j]->pForward[j]->pForward[j];
// }
// }
//
// pSkipList->state.nTotalMemSize -= (sizeof(SSkipListNode) + POINTER_BYTES * pNode->level * 2);
// removeNodeEachLevel(pSkipList, pNode->level);
//
// tfree(pNode);
// --pSkipList->size;
//}
void
*
tSkipListDestroy
(
SSkipList
*
pSkipList
)
{
if
(
pSkipList
==
NULL
)
{
return
NULL
;
...
...
@@ -257,105 +240,10 @@ SSkipListNode *tSkipListPut(SSkipList *pSkipList, SSkipListNode *pNode) {
return
pNode
;
}
void
tSkipListDoInsert
(
SSkipList
*
pSkipList
,
SSkipListNode
**
forward
,
SSkipListNode
*
pNode
)
{
DO_MEMSET_PTR_AREA
(
pNode
);
for
(
int32_t
i
=
0
;
i
<
pNode
->
level
;
++
i
)
{
SSkipListNode
*
x
=
forward
[
i
];
SL_GET_BACKWARD_POINTER
(
pNode
,
i
)
=
x
;
SSkipListNode
*
next
=
SL_GET_FORWARD_POINTER
(
x
,
i
);
SL_GET_BACKWARD_POINTER
(
next
,
i
)
=
pNode
;
SL_GET_FORWARD_POINTER
(
pNode
,
i
)
=
next
;
SL_GET_FORWARD_POINTER
(
x
,
i
)
=
pNode
;
}
atomic_add_fetch_32
(
&
pSkipList
->
size
,
1
);
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
}
SSkipListNode
*
tSkipListPushFront
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
)
{
SSkipListNode
*
forward
[
MAX_SKIP_LIST_LEVEL
]
=
{
0
};
for
(
int32_t
i
=
0
;
i
<
pSkipList
->
level
;
++
i
)
{
forward
[
i
]
=
pSkipList
->
pHead
;
}
tSkipListDoInsert
(
pSkipList
,
forward
,
pNode
);
return
pNode
;
}
SSkipListNode
*
tSkipListPushBack
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
)
{
// do clear pointer area
DO_MEMSET_PTR_AREA
(
pNode
);
for
(
int32_t
i
=
0
;
i
<
pNode
->
level
;
++
i
)
{
SSkipListNode
*
prev
=
SL_GET_BACKWARD_POINTER
(
pSkipList
->
pTail
,
i
);
SL_GET_FORWARD_POINTER
(
prev
,
i
)
=
pNode
;
SL_GET_FORWARD_POINTER
(
pNode
,
i
)
=
pSkipList
->
pTail
;
SL_GET_BACKWARD_POINTER
(
pNode
,
i
)
=
prev
;
SL_GET_BACKWARD_POINTER
(
pSkipList
->
pTail
,
i
)
=
pNode
;
}
pSkipList
->
lastKey
=
SL_GET_NODE_KEY
(
pSkipList
,
pNode
);
atomic_add_fetch_32
(
&
pSkipList
->
size
,
1
);
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
return
pNode
;
}
SArray
*
tSkipListGet
(
SSkipList
*
pSkipList
,
SSkipListKey
pKey
,
int16_t
keyType
)
{
int32_t
sLevel
=
pSkipList
->
level
-
1
;
// result list
SArray
*
tSkipListGet
(
SSkipList
*
pSkipList
,
SSkipListKey
key
)
{
SArray
*
sa
=
taosArrayInit
(
1
,
POINTER_BYTES
);
SSkipListNode
*
pNode
=
pSkipList
->
pHead
;
if
(
pSkipList
->
lock
)
{
pthread_rwlock_rdlock
(
pSkipList
->
lock
);
}
#if SKIP_LIST_RECORD_PERFORMANCE
pSkipList
->
state
.
queryCount
++
;
#endif
__compar_fn_t
filterComparFn
=
getComparFunc
(
pSkipList
->
keyInfo
.
type
,
0
);
int32_t
ret
=
-
1
;
for
(
int32_t
i
=
sLevel
;
i
>=
0
;
--
i
)
{
SSkipListNode
*
p
=
SL_GET_FORWARD_POINTER
(
pNode
,
i
);
while
(
p
!=
pSkipList
->
pTail
)
{
char
*
key
=
SL_GET_NODE_KEY
(
pSkipList
,
p
);
if
((
ret
=
filterComparFn
(
key
,
pKey
))
<
0
)
{
pNode
=
p
;
p
=
SL_GET_FORWARD_POINTER
(
p
,
i
);
}
else
{
break
;
}
}
// find the qualified key
if
(
ret
==
0
)
{
SSkipListNode
*
pResult
=
SL_GET_FORWARD_POINTER
(
pNode
,
i
);
taosArrayPush
(
sa
,
&
pResult
);
// skip list does not allowed duplicated key, abort further retrieve data
if
(
!
pSkipList
->
keyInfo
.
dupKey
)
{
break
;
}
}
}
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
SSkipListNode
*
pNode
=
tSkipListDoGet
(
pSkipList
,
key
);
taosArrayPush
(
sa
,
&
pNode
);
return
sa
;
}
...
...
@@ -367,114 +255,6 @@ size_t tSkipListGetSize(const SSkipList* pSkipList) {
return
pSkipList
->
size
;
}
SSkipListIterator
*
tSkipListCreateIter
(
SSkipList
*
pSkipList
)
{
if
(
pSkipList
==
NULL
)
{
return
NULL
;
}
return
doCreateSkipListIterator
(
pSkipList
,
TSDB_ORDER_ASC
);
}
SSkipListIterator
*
tSkipListCreateIterFromVal
(
SSkipList
*
pSkipList
,
const
char
*
val
,
int32_t
type
,
int32_t
order
)
{
if
(
pSkipList
==
NULL
)
{
return
NULL
;
}
assert
(
order
==
TSDB_ORDER_ASC
||
order
==
TSDB_ORDER_DESC
);
if
(
val
==
NULL
)
{
return
doCreateSkipListIterator
(
pSkipList
,
order
);
}
else
{
SSkipListNode
*
forward
[
MAX_SKIP_LIST_LEVEL
]
=
{
0
};
int32_t
ret
=
-
1
;
__compar_fn_t
filterComparFn
=
getKeyComparFunc
(
pSkipList
->
keyInfo
.
type
);
SSkipListNode
*
pNode
=
pSkipList
->
pHead
;
for
(
int32_t
i
=
pSkipList
->
level
-
1
;
i
>=
0
;
--
i
)
{
SSkipListNode
*
p
=
SL_GET_FORWARD_POINTER
(
pNode
,
i
);
while
(
p
!=
pSkipList
->
pTail
)
{
char
*
key
=
SL_GET_NODE_KEY
(
pSkipList
,
p
);
if
((
ret
=
filterComparFn
(
key
,
val
))
<
0
)
{
pNode
=
p
;
p
=
SL_GET_FORWARD_POINTER
(
p
,
i
);
}
else
{
break
;
}
}
forward
[
i
]
=
pNode
;
}
SSkipListIterator
*
iter
=
doCreateSkipListIterator
(
pSkipList
,
order
);
// set the initial position
if
(
order
==
TSDB_ORDER_ASC
)
{
iter
->
cur
=
forward
[
0
];
// greater equals than the value
}
else
{
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
forward
[
0
],
0
);
if
(
ret
==
0
)
{
assert
(
iter
->
cur
!=
pSkipList
->
pTail
);
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
iter
->
cur
,
0
);
}
}
return
iter
;
}
}
bool
tSkipListIterNext
(
SSkipListIterator
*
iter
)
{
if
(
iter
->
pSkipList
==
NULL
)
{
return
false
;
}
SSkipList
*
pSkipList
=
iter
->
pSkipList
;
if
(
pSkipList
->
lock
)
{
pthread_rwlock_rdlock
(
pSkipList
->
lock
);
}
if
(
iter
->
order
==
TSDB_ORDER_ASC
)
{
// ascending order iterate
if
(
iter
->
cur
==
NULL
)
{
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
pSkipList
->
pHead
,
0
);
}
else
{
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
iter
->
cur
,
0
);
}
}
else
{
// descending order iterate
if
(
iter
->
cur
==
NULL
)
{
iter
->
cur
=
SL_GET_BACKWARD_POINTER
(
pSkipList
->
pTail
,
0
);
}
else
{
iter
->
cur
=
SL_GET_BACKWARD_POINTER
(
iter
->
cur
,
0
);
}
}
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
return
(
iter
->
order
==
TSDB_ORDER_ASC
)
?
(
iter
->
cur
!=
pSkipList
->
pTail
)
:
(
iter
->
cur
!=
pSkipList
->
pHead
);
}
SSkipListNode
*
tSkipListIterGet
(
SSkipListIterator
*
iter
)
{
if
(
iter
==
NULL
||
iter
->
cur
==
iter
->
pSkipList
->
pTail
||
iter
->
cur
==
iter
->
pSkipList
->
pHead
)
{
return
NULL
;
}
else
{
return
iter
->
cur
;
}
}
void
*
tSkipListDestroyIter
(
SSkipListIterator
*
iter
)
{
if
(
iter
==
NULL
)
{
return
NULL
;
}
tfree
(
iter
);
return
NULL
;
}
// static int32_t tSkipListEndParQuery(SSkipList *pSkipList, SSkipListNode *pStartNode, SSkipListKey *pEndKey,
// int32_t cond, SSkipListNode ***pRes) {
// pthread_rwlock_rdlock(&pSkipList->lock);
...
...
@@ -588,25 +368,162 @@ void* tSkipListDestroyIter(SSkipListIterator* iter) {
// }
//
// // compress the minimum level of skip list
// while (pSkipList->level > 0 &&
pSkipList->pHead.pForward[pSkipList->level - 1]
== NULL) {
// while (pSkipList->level > 0 &&
SL_GET_FORWARD_POINTER(pSkipList->pHead, pSkipList->level - 1)
== NULL) {
// pSkipList->level -= 1;
// }
//
// return true;
//}
//
// void tSkipListRemoveNode(SSkipList *pSkipList, SSkipListNode *pNode) {
// SSkipListNode *forward[MAX_SKIP_LIST_LEVEL] = {0};
//
// pthread_rwlock_rdlock(&pSkipList->lock);
// for (int32_t i = 0; i < pNode->level; ++i) {
// forward[i] = pNode->pBackward[i];
// }
//
// removeSupport(pSkipList, forward, &pNode->key);
// pthread_rwlock_unlock(&pSkipList->lock);
//}
//
bool
tSkipListRemove
(
SSkipList
*
pSkipList
,
SSkipListKey
key
)
{
SSkipListNode
*
pNode
=
tSkipListDoGet
(
pSkipList
,
key
);
if
(
pNode
!=
NULL
)
{
tSkipListRemoveNode
(
pSkipList
,
pNode
);
return
true
;
}
return
false
;
}
void
tSkipListRemoveNode
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
)
{
int32_t
level
=
pNode
->
level
;
if
(
pSkipList
->
lock
)
{
pthread_rwlock_wrlock
(
pSkipList
->
lock
);
}
for
(
int32_t
j
=
level
-
1
;
j
>=
0
;
--
j
)
{
SSkipListNode
*
prev
=
SL_GET_BACKWARD_POINTER
(
pNode
,
j
);
SSkipListNode
*
next
=
SL_GET_FORWARD_POINTER
(
pNode
,
j
);
SL_GET_FORWARD_POINTER
(
prev
,
j
)
=
next
;
SL_GET_BACKWARD_POINTER
(
next
,
j
)
=
prev
;
}
if
(
pSkipList
->
keyInfo
.
freeNode
)
{
tfree
(
pNode
);
}
atomic_sub_fetch_32
(
&
pSkipList
->
size
,
1
);
// compress the minimum level of skip list
while
(
pSkipList
->
level
>
0
&&
SL_GET_FORWARD_POINTER
(
pSkipList
->
pHead
,
pSkipList
->
level
-
1
)
==
NULL
)
{
pSkipList
->
level
-=
1
;
}
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
}
SSkipListIterator
*
tSkipListCreateIter
(
SSkipList
*
pSkipList
)
{
if
(
pSkipList
==
NULL
)
{
return
NULL
;
}
return
doCreateSkipListIterator
(
pSkipList
,
TSDB_ORDER_ASC
);
}
SSkipListIterator
*
tSkipListCreateIterFromVal
(
SSkipList
*
pSkipList
,
const
char
*
val
,
int32_t
type
,
int32_t
order
)
{
if
(
pSkipList
==
NULL
)
{
return
NULL
;
}
assert
(
order
==
TSDB_ORDER_ASC
||
order
==
TSDB_ORDER_DESC
);
if
(
val
==
NULL
)
{
return
doCreateSkipListIterator
(
pSkipList
,
order
);
}
else
{
SSkipListNode
*
forward
[
MAX_SKIP_LIST_LEVEL
]
=
{
0
};
int32_t
ret
=
-
1
;
__compar_fn_t
filterComparFn
=
getKeyComparFunc
(
pSkipList
->
keyInfo
.
type
);
SSkipListNode
*
pNode
=
pSkipList
->
pHead
;
for
(
int32_t
i
=
pSkipList
->
level
-
1
;
i
>=
0
;
--
i
)
{
SSkipListNode
*
p
=
SL_GET_FORWARD_POINTER
(
pNode
,
i
);
while
(
p
!=
pSkipList
->
pTail
)
{
char
*
key
=
SL_GET_NODE_KEY
(
pSkipList
,
p
);
if
((
ret
=
filterComparFn
(
key
,
val
))
<
0
)
{
pNode
=
p
;
p
=
SL_GET_FORWARD_POINTER
(
p
,
i
);
}
else
{
break
;
}
}
forward
[
i
]
=
pNode
;
}
SSkipListIterator
*
iter
=
doCreateSkipListIterator
(
pSkipList
,
order
);
// set the initial position
if
(
order
==
TSDB_ORDER_ASC
)
{
iter
->
cur
=
forward
[
0
];
// greater equals than the value
}
else
{
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
forward
[
0
],
0
);
if
(
ret
==
0
)
{
assert
(
iter
->
cur
!=
pSkipList
->
pTail
);
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
iter
->
cur
,
0
);
}
}
return
iter
;
}
}
bool
tSkipListIterNext
(
SSkipListIterator
*
iter
)
{
if
(
iter
->
pSkipList
==
NULL
)
{
return
false
;
}
SSkipList
*
pSkipList
=
iter
->
pSkipList
;
if
(
pSkipList
->
lock
)
{
pthread_rwlock_rdlock
(
pSkipList
->
lock
);
}
if
(
iter
->
order
==
TSDB_ORDER_ASC
)
{
// ascending order iterate
if
(
iter
->
cur
==
NULL
)
{
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
pSkipList
->
pHead
,
0
);
}
else
{
iter
->
cur
=
SL_GET_FORWARD_POINTER
(
iter
->
cur
,
0
);
}
}
else
{
// descending order iterate
if
(
iter
->
cur
==
NULL
)
{
iter
->
cur
=
SL_GET_BACKWARD_POINTER
(
pSkipList
->
pTail
,
0
);
}
else
{
iter
->
cur
=
SL_GET_BACKWARD_POINTER
(
iter
->
cur
,
0
);
}
}
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
return
(
iter
->
order
==
TSDB_ORDER_ASC
)
?
(
iter
->
cur
!=
pSkipList
->
pTail
)
:
(
iter
->
cur
!=
pSkipList
->
pHead
);
}
SSkipListNode
*
tSkipListIterGet
(
SSkipListIterator
*
iter
)
{
if
(
iter
==
NULL
||
iter
->
cur
==
iter
->
pSkipList
->
pTail
||
iter
->
cur
==
iter
->
pSkipList
->
pHead
)
{
return
NULL
;
}
else
{
return
iter
->
cur
;
}
}
void
*
tSkipListDestroyIter
(
SSkipListIterator
*
iter
)
{
if
(
iter
==
NULL
)
{
return
NULL
;
}
tfree
(
iter
);
return
NULL
;
}
// bool tSkipListRemove(SSkipList *pSkipList, SSkipListKey *pKey) {
// SSkipListNode *forward[MAX_SKIP_LIST_LEVEL] = {0};
// __compar_fn_t filterComparFn = getComparFunc(pSkipList, pKey->nType);
...
...
@@ -668,6 +585,105 @@ void tSkipListPrint(SSkipList *pSkipList, int16_t nlevel) {
}
}
void
tSkipListDoInsert
(
SSkipList
*
pSkipList
,
SSkipListNode
**
forward
,
SSkipListNode
*
pNode
)
{
DO_MEMSET_PTR_AREA
(
pNode
);
for
(
int32_t
i
=
0
;
i
<
pNode
->
level
;
++
i
)
{
SSkipListNode
*
x
=
forward
[
i
];
SL_GET_BACKWARD_POINTER
(
pNode
,
i
)
=
x
;
SSkipListNode
*
next
=
SL_GET_FORWARD_POINTER
(
x
,
i
);
SL_GET_BACKWARD_POINTER
(
next
,
i
)
=
pNode
;
SL_GET_FORWARD_POINTER
(
pNode
,
i
)
=
next
;
SL_GET_FORWARD_POINTER
(
x
,
i
)
=
pNode
;
}
atomic_add_fetch_32
(
&
pSkipList
->
size
,
1
);
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
}
SSkipListNode
*
tSkipListPushFront
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
)
{
SSkipListNode
*
forward
[
MAX_SKIP_LIST_LEVEL
]
=
{
0
};
for
(
int32_t
i
=
0
;
i
<
pSkipList
->
level
;
++
i
)
{
forward
[
i
]
=
pSkipList
->
pHead
;
}
tSkipListDoInsert
(
pSkipList
,
forward
,
pNode
);
return
pNode
;
}
SSkipListNode
*
tSkipListPushBack
(
SSkipList
*
pSkipList
,
SSkipListNode
*
pNode
)
{
// do clear pointer area
DO_MEMSET_PTR_AREA
(
pNode
);
for
(
int32_t
i
=
0
;
i
<
pNode
->
level
;
++
i
)
{
SSkipListNode
*
prev
=
SL_GET_BACKWARD_POINTER
(
pSkipList
->
pTail
,
i
);
SL_GET_FORWARD_POINTER
(
prev
,
i
)
=
pNode
;
SL_GET_FORWARD_POINTER
(
pNode
,
i
)
=
pSkipList
->
pTail
;
SL_GET_BACKWARD_POINTER
(
pNode
,
i
)
=
prev
;
SL_GET_BACKWARD_POINTER
(
pSkipList
->
pTail
,
i
)
=
pNode
;
}
pSkipList
->
lastKey
=
SL_GET_NODE_KEY
(
pSkipList
,
pNode
);
atomic_add_fetch_32
(
&
pSkipList
->
size
,
1
);
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
return
pNode
;
}
SSkipListNode
*
tSkipListDoGet
(
SSkipList
*
pSkipList
,
SSkipListKey
skey
)
{
SSkipListNode
*
pNode
=
pSkipList
->
pHead
;
SSkipListNode
*
pRes
=
NULL
;
if
(
pSkipList
->
lock
)
{
pthread_rwlock_rdlock
(
pSkipList
->
lock
);
}
#if SKIP_LIST_RECORD_PERFORMANCE
pSkipList
->
state
.
queryCount
++
;
#endif
__compar_fn_t
cmparFn
=
getComparFunc
(
pSkipList
->
keyInfo
.
type
,
0
);
int32_t
ret
=
-
1
;
for
(
int32_t
i
=
pSkipList
->
level
-
1
;
i
>=
0
;
--
i
)
{
SSkipListNode
*
p
=
SL_GET_FORWARD_POINTER
(
pNode
,
i
);
while
(
p
!=
pSkipList
->
pTail
)
{
char
*
key
=
SL_GET_NODE_KEY
(
pSkipList
,
p
);
if
((
ret
=
cmparFn
(
key
,
skey
))
<
0
)
{
pNode
=
p
;
p
=
SL_GET_FORWARD_POINTER
(
p
,
i
);
}
else
{
break
;
}
}
// find the qualified key
if
(
ret
==
0
)
{
pRes
=
SL_GET_FORWARD_POINTER
(
pNode
,
i
);
break
;
// skip list does not allowed duplicated key, abort further retrieve data
// if (!pSkipList->keyInfo.dupKey) {
// break;
// }
}
}
if
(
pSkipList
->
lock
)
{
pthread_rwlock_unlock
(
pSkipList
->
lock
);
}
return
pRes
;
}
SSkipListIterator
*
doCreateSkipListIterator
(
SSkipList
*
pSkipList
,
int32_t
order
)
{
SSkipListIterator
*
iter
=
calloc
(
1
,
sizeof
(
SSkipListIterator
));
...
...
@@ -675,4 +691,4 @@ SSkipListIterator* doCreateSkipListIterator(SSkipList *pSkipList, int32_t order)
iter
->
order
=
order
;
return
iter
;
}
}
\ No newline at end of file
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