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TDengine
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f0df8cc6
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f0df8cc6
编写于
2月 05, 2020
作者:
P
plum-lihui
提交者:
GitHub
2月 05, 2020
浏览文件
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差异文件
Merge pull request #1187 from taosdata/feature/liaohj
Feature/liaohj
上级
45c10cb5
a81ea816
变更
7
隐藏空白更改
内联
并排
Showing
7 changed file
with
150 addition
and
144 deletion
+150
-144
src/client/src/tscSQLParser.c
src/client/src/tscSQLParser.c
+35
-28
src/client/src/tscServer.c
src/client/src/tscServer.c
+1
-2
src/client/src/tscSql.c
src/client/src/tscSql.c
+2
-0
src/client/src/tscStream.c
src/client/src/tscStream.c
+2
-0
src/client/src/tscSyntaxtreefunction.c
src/client/src/tscSyntaxtreefunction.c
+24
-24
src/client/src/tscUtil.c
src/client/src/tscUtil.c
+4
-0
src/system/detail/src/vnodeQueryImpl.c
src/system/detail/src/vnodeQueryImpl.c
+82
-90
未找到文件。
src/client/src/tscSQLParser.c
浏览文件 @
f0df8cc6
...
...
@@ -652,7 +652,16 @@ int32_t parseIntervalClause(SQueryInfo* pQueryInfo, SQuerySQL* pQuerySql) {
SColumnList
ids
=
getColumnList
(
1
,
0
,
PRIMARYKEY_TIMESTAMP_COL_INDEX
);
return
insertResultField
(
pQueryInfo
,
0
,
&
ids
,
TSDB_KEYSIZE
,
TSDB_DATA_TYPE_TIMESTAMP
,
aAggs
[
TSDB_FUNC_TS
].
aName
);
int32_t
ret
=
insertResultField
(
pQueryInfo
,
0
,
&
ids
,
TSDB_KEYSIZE
,
TSDB_DATA_TYPE_TIMESTAMP
,
aAggs
[
TSDB_FUNC_TS
].
aName
);
if
(
ret
!=
TSDB_CODE_SUCCESS
)
{
return
ret
;
}
if
(
setSlidingClause
(
pQueryInfo
,
pQuerySql
)
!=
TSDB_CODE_SUCCESS
)
{
return
TSDB_CODE_INVALID_SQL
;
}
return
TSDB_CODE_SUCCESS
;
}
int32_t
setSlidingClause
(
SQueryInfo
*
pQueryInfo
,
SQuerySQL
*
pQuerySql
)
{
...
...
@@ -675,6 +684,8 @@ int32_t setSlidingClause(SQueryInfo* pQueryInfo, SQuerySQL* pQuerySql) {
if
(
pQueryInfo
->
nSlidingTime
>
pQueryInfo
->
nAggTimeInterval
)
{
return
invalidSqlErrMsg
(
pQueryInfo
->
msg
,
msg1
);
}
}
else
{
pSliding
->
n
=
pQueryInfo
->
nAggTimeInterval
;
}
return
TSDB_CODE_SUCCESS
;
...
...
@@ -5394,10 +5405,6 @@ int32_t doCheckForStream(SSqlObj* pSql, SSqlInfo* pInfo) {
}
}
if
(
setSlidingClause
(
pQueryInfo
,
pQuerySql
)
!=
TSDB_CODE_SUCCESS
)
{
return
TSDB_CODE_INVALID_SQL
;
}
// set the created table[stream] name
if
(
setMeterID
(
pMeterMetaInfo
,
pzTableName
,
pSql
)
!=
TSDB_CODE_SUCCESS
)
{
return
invalidSqlErrMsg
(
pQueryInfo
->
msg
,
msg1
);
...
...
@@ -5581,29 +5588,29 @@ int32_t doCheckForQuery(SSqlObj* pSql, SQuerySQL* pQuerySql, int32_t index) {
return
invalidSqlErrMsg
(
pQueryInfo
->
msg
,
msg2
);
}
// set sliding value, the query time range needs to be decide in the first place
SSQLToken
*
pSliding
=
&
pQuerySql
->
sliding
;
if
(
pSliding
->
n
!=
0
)
{
if
(
!
tscEmbedded
&&
pCmd
->
inStream
==
0
&&
hasDefaultQueryTimeRange
(
pQueryInfo
))
{
// sliding only allowed in stream
const
char
*
msg
=
"time range expected for sliding window query"
;
return
invalidSqlErrMsg
(
tscGetErrorMsgPayload
(
pCmd
),
msg
);
}
getTimestampInUsFromStr
(
pSliding
->
z
,
pSliding
->
n
,
&
pQueryInfo
->
nSlidingTime
);
if
(
pMeterMetaInfo
->
pMeterMeta
->
precision
==
TSDB_TIME_PRECISION_MILLI
)
{
pQueryInfo
->
nSlidingTime
/=
1000
;
}
if
(
pQueryInfo
->
nSlidingTime
<
tsMinSlidingTime
)
{
return
invalidSqlErrMsg
(
pQueryInfo
->
msg
,
msg3
);
}
if
(
pQueryInfo
->
nSlidingTime
>
pQueryInfo
->
nAggTimeInterval
)
{
return
invalidSqlErrMsg
(
pQueryInfo
->
msg
,
msg4
);
}
}
else
{
pQueryInfo
->
nSlidingTime
=
-
1
;
}
//
// set sliding value, the query time range needs to be decide in the first place
//
SSQLToken* pSliding = &pQuerySql->sliding;
//
if (pSliding->n != 0) {
//
if (!tscEmbedded && pCmd->inStream == 0 && hasDefaultQueryTimeRange(pQueryInfo)) { // sliding only allowed in stream
//
const char* msg = "time range expected for sliding window query";
//
return invalidSqlErrMsg(tscGetErrorMsgPayload(pCmd), msg);
//
}
//
//
getTimestampInUsFromStr(pSliding->z, pSliding->n, &pQueryInfo->nSlidingTime);
//
if (pMeterMetaInfo->pMeterMeta->precision == TSDB_TIME_PRECISION_MILLI) {
//
pQueryInfo->nSlidingTime /= 1000;
//
}
//
//
if (pQueryInfo->nSlidingTime < tsMinSlidingTime) {
//
return invalidSqlErrMsg(pQueryInfo->msg, msg3);
//
}
//
//
if (pQueryInfo->nSlidingTime > pQueryInfo->nAggTimeInterval) {
//
return invalidSqlErrMsg(pQueryInfo->msg, msg4);
//
}
//
} else {
//
pQueryInfo->nSlidingTime = -1;
//
}
// in case of join query, time range is required.
if
(
QUERY_IS_JOIN_QUERY
(
pQueryInfo
->
type
))
{
...
...
src/client/src/tscServer.c
浏览文件 @
f0df8cc6
...
...
@@ -1110,8 +1110,7 @@ static void tscHandleSubRetrievalError(SRetrieveSupport *trsupport, SSqlObj *pSq
}
// all subqueries are failed
tscError
(
"%p retrieve from %d vnode(s) completed,code:%d.FAILED."
,
pPObj
,
pState
->
numOfTotal
,
pState
->
code
);
tscError
(
"%p retrieve from %d vnode(s) completed,code:%d.FAILED."
,
pPObj
,
pState
->
numOfTotal
,
pState
->
code
);
pPObj
->
res
.
code
=
-
(
pState
->
code
);
// release allocated resource
...
...
src/client/src/tscSql.c
浏览文件 @
f0df8cc6
...
...
@@ -754,6 +754,8 @@ void taos_free_result_imp(TAOS_RES* res, int keepCmd) {
pSql
->
pStream
==
NULL
&&
pMeterMetaInfo
->
pMeterMeta
!=
NULL
)))
{
pCmd
->
command
=
(
pCmd
->
command
>
TSDB_SQL_MGMT
)
?
TSDB_SQL_RETRIEVE
:
TSDB_SQL_FETCH
;
tscTrace
(
"%p code:%d, numOfRows:%d, command:%d"
,
pSql
,
pRes
->
code
,
pRes
->
numOfRows
,
pCmd
->
command
);
void
*
fp
=
pSql
->
fp
;
if
(
fp
!=
NULL
)
{
pSql
->
freed
=
1
;
...
...
src/client/src/tscStream.c
浏览文件 @
f0df8cc6
...
...
@@ -411,7 +411,9 @@ static void tscSetSlidingWindowInfo(SSqlObj *pSql, SSqlStream *pStream) {
}
pStream
->
slidingTime
=
pQueryInfo
->
nSlidingTime
;
pQueryInfo
->
nAggTimeInterval
=
0
;
// clear the interval value to avoid the force time window split by query processor
pQueryInfo
->
nSlidingTime
=
0
;
}
static
int64_t
tscGetStreamStartTimestamp
(
SSqlObj
*
pSql
,
SSqlStream
*
pStream
,
int64_t
stime
)
{
...
...
src/client/src/tscSyntaxtreefunction.c
浏览文件 @
f0df8cc6
...
...
@@ -26,7 +26,7 @@
int32_t step = ((_ord) == TSQL_SO_ASC) ? 1 : -1; \
\
if ((len1) == (len2)) { \
for (; i < (len2) && i >= 0; i += step, (out) +=
step
) { \
for (; i < (len2) && i >= 0; i += step, (out) +=
1
) { \
if (isNull((char *)&((left)[i]), _left_type) || isNull((char *)&((right)[i]), _right_type)) { \
setNull((char *)(out), _res_type, tDataTypeDesc[_res_type].nSize); \
continue; \
...
...
@@ -34,7 +34,7 @@
*(out) = (double)(left)[i] op(right)[i]; \
} \
} else if ((len1) == 1) { \
for (; i >= 0 && i < (len2); i += step, (out) +=
step
) { \
for (; i >= 0 && i < (len2); i += step, (out) +=
1
) { \
if (isNull((char *)(left), _left_type) || isNull((char *)&(right)[i], _right_type)) { \
setNull((char *)(out), _res_type, tDataTypeDesc[_res_type].nSize); \
continue; \
...
...
@@ -42,7 +42,7 @@
*(out) = (double)(left)[0] op(right)[i]; \
} \
} else if ((len2) == 1) { \
for (; i >= 0 && i < (len1); i += step, (out) +=
step
) { \
for (; i >= 0 && i < (len1); i += step, (out) +=
1
) { \
if (isNull((char *)&(left)[i], _left_type) || isNull((char *)(right), _right_type)) { \
setNull((char *)(out), _res_type, tDataTypeDesc[_res_type].nSize); \
continue; \
...
...
@@ -58,7 +58,7 @@
int32_t step = (_ord == TSQL_SO_ASC) ? 1 : -1; \
\
if (len1 == (len2)) { \
for (; i >= 0 && i < (len2); i += step, (out) +=
step
) { \
for (; i >= 0 && i < (len2); i += step, (out) +=
1
) { \
if (isNull((char *)&(left[i]), _left_type) || isNull((char *)&(right[i]), _right_type)) { \
setNull((char *)(out), _res_type, tDataTypeDesc[_res_type].nSize); \
continue; \
...
...
@@ -66,7 +66,7 @@
*(out) = (double)(left)[i] - ((int64_t)(((double)(left)[i]) / (right)[i])) * (right)[i]; \
} \
} else if (len1 == 1) { \
for (; i >= 0 && i < (len2); i += step, (out) +=
step
) { \
for (; i >= 0 && i < (len2); i += step, (out) +=
1
) { \
if (isNull((char *)(left), _left_type) || isNull((char *)&((right)[i]), _right_type)) { \
setNull((char *)(out), _res_type, tDataTypeDesc[_res_type].nSize); \
continue; \
...
...
@@ -74,7 +74,7 @@
*(out) = (double)(left)[0] - ((int64_t)(((double)(left)[0]) / (right)[i])) * (right)[i]; \
} \
} else if ((len2) == 1) { \
for (; i >= 0 && i < len1; i += step, (out) +=
step
) { \
for (; i >= 0 && i < len1; i += step, (out) +=
1
) { \
if (isNull((char *)&((left)[i]), _left_type) || isNull((char *)(right), _right_type)) { \
setNull((char *)(out), _res_type, tDataTypeDesc[_res_type].nSize); \
continue; \
...
...
@@ -112,7 +112,7 @@ void calc_fn_i32_i32_add(void *left, void *right, int32_t numLeft, int32_t numRi
int32_t
step
=
(
order
==
TSQL_SO_ASC
)
?
1
:
-
1
;
if
(
numLeft
==
numRight
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -121,7 +121,7 @@ void calc_fn_i32_i32_add(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
i
]
+
pRight
[
i
];
}
}
else
if
(
numLeft
==
1
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)(
pLeft
),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -130,7 +130,7 @@ void calc_fn_i32_i32_add(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
0
]
+
pRight
[
i
];
}
}
else
if
(
numRight
==
1
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)(
pRight
),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -310,7 +310,7 @@ void calc_fn_i32_i32_sub(void *left, void *right, int32_t numLeft, int32_t numRi
int32_t
step
=
(
order
==
TSQL_SO_ASC
)
?
1
:
-
1
;
if
(
numLeft
==
numRight
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
&
(
pOutput
[
i
]),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -318,7 +318,7 @@ void calc_fn_i32_i32_sub(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
i
]
-
pRight
[
i
];
}
}
else
if
(
numLeft
==
1
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)(
pLeft
),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -326,7 +326,7 @@ void calc_fn_i32_i32_sub(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
0
]
-
pRight
[
i
];
}
}
else
if
(
numRight
==
1
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
pLeft
[
i
],
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)(
pRight
),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -521,7 +521,7 @@ void calc_fn_i32_i32_multi(void *left, void *right, int32_t numLeft, int32_t num
int32_t
step
=
(
order
==
TSQL_SO_ASC
)
?
1
:
-
1
;
if
(
numLeft
==
numRight
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -530,7 +530,7 @@ void calc_fn_i32_i32_multi(void *left, void *right, int32_t numLeft, int32_t num
*
pOutput
=
(
double
)
pLeft
[
i
]
*
pRight
[
i
];
}
}
else
if
(
numLeft
==
1
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)(
pLeft
),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -539,7 +539,7 @@ void calc_fn_i32_i32_multi(void *left, void *right, int32_t numLeft, int32_t num
*
pOutput
=
(
double
)
pLeft
[
0
]
*
pRight
[
i
];
}
}
else
if
(
numRight
==
1
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)(
pRight
),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -719,7 +719,7 @@ void calc_fn_i32_i32_div(void *left, void *right, int32_t numLeft, int32_t numRi
int32_t
step
=
(
order
==
TSQL_SO_ASC
)
?
1
:
-
1
;
if
(
numLeft
==
numRight
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -728,7 +728,7 @@ void calc_fn_i32_i32_div(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
i
]
/
pRight
[
i
];
}
}
else
if
(
numLeft
==
1
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)(
pLeft
),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -737,7 +737,7 @@ void calc_fn_i32_i32_div(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
0
]
/
pRight
[
i
];
}
}
else
if
(
numRight
==
1
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)(
pRight
),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -933,7 +933,7 @@ void calc_fn_i32_i32_rem(void *left, void *right, int32_t numLeft, int32_t numRi
int32_t
step
=
(
order
==
TSQL_SO_ASC
)
?
1
:
-
1
;
if
(
numLeft
==
numRight
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -942,7 +942,7 @@ void calc_fn_i32_i32_rem(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
i
]
-
((
int64_t
)(((
double
)
pLeft
[
i
])
/
pRight
[
i
]))
*
pRight
[
i
];
}
}
else
if
(
numLeft
==
1
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)(
pLeft
),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -951,7 +951,7 @@ void calc_fn_i32_i32_rem(void *left, void *right, int32_t numLeft, int32_t numRi
*
pOutput
=
(
double
)
pLeft
[
0
]
-
((
int64_t
)(((
double
)
pLeft
[
0
])
/
pRight
[
i
]))
*
pRight
[
i
];
}
}
else
if
(
numRight
==
1
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)(
pRight
),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -991,7 +991,7 @@ void calc_fn_i32_d_rem(void *left, void *right, int32_t numLeft, int32_t numRigh
int32_t
step
=
(
order
==
TSQL_SO_ASC
)
?
1
:
-
1
;
if
(
numLeft
==
numRight
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)(
pOutput
),
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -1000,7 +1000,7 @@ void calc_fn_i32_d_rem(void *left, void *right, int32_t numLeft, int32_t numRigh
*
pOutput
=
(
double
)
pLeft
[
i
]
-
((
int64_t
)(((
double
)
pLeft
[
i
])
/
pRight
[
i
]))
*
pRight
[
i
];
}
}
else
if
(
numLeft
==
1
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numRight
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)(
pLeft
),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)
&
(
pRight
[
i
]),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
@@ -1009,7 +1009,7 @@ void calc_fn_i32_d_rem(void *left, void *right, int32_t numLeft, int32_t numRigh
*
pOutput
=
(
double
)
pLeft
[
0
]
-
((
int64_t
)(((
double
)
pLeft
[
0
])
/
pRight
[
i
]))
*
pRight
[
i
];
}
}
else
if
(
numRight
==
1
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
step
)
{
for
(;
i
>=
0
&&
i
<
numLeft
;
i
+=
step
,
pOutput
+=
1
)
{
if
(
isNull
((
char
*
)
&
(
pLeft
[
i
]),
TSDB_DATA_TYPE_INT
)
||
isNull
((
char
*
)(
pRight
),
TSDB_DATA_TYPE_INT
))
{
setNull
((
char
*
)
pOutput
,
TSDB_DATA_TYPE_DOUBLE
,
tDataTypeDesc
[
TSDB_DATA_TYPE_DOUBLE
].
nSize
);
continue
;
...
...
src/client/src/tscUtil.c
浏览文件 @
f0df8cc6
...
...
@@ -214,6 +214,10 @@ bool tscIsTwoStageMergeMetricQuery(SQueryInfo* pQueryInfo, int32_t tableIndex) {
if
(
pMeterMetaInfo
==
NULL
||
pMeterMetaInfo
->
pMetricMeta
==
NULL
)
{
return
false
;
}
if
((
pQueryInfo
->
type
&
TSDB_QUERY_TYPE_FREE_RESOURCE
)
==
TSDB_QUERY_TYPE_FREE_RESOURCE
)
{
return
false
;
}
// for ordered projection query, iterate all qualified vnodes sequentially
if
(
tscNonOrderedProjectionQueryOnSTable
(
pQueryInfo
,
tableIndex
))
{
...
...
src/system/detail/src/vnodeQueryImpl.c
浏览文件 @
f0df8cc6
...
...
@@ -49,8 +49,6 @@ enum {
#define IS_DISK_DATA_BLOCK(q) ((q)->fileId >= 0)
// static int32_t copyDataFromMMapBuffer(int fd, SQInfo *pQInfo, SQueryFilesInfo *pQueryFile, char *buf, uint64_t
// offset, int32_t size);
static
int32_t
readDataFromDiskFile
(
int
fd
,
SQInfo
*
pQInfo
,
SQueryFilesInfo
*
pQueryFile
,
char
*
buf
,
uint64_t
offset
,
int32_t
size
);
...
...
@@ -70,12 +68,12 @@ static int32_t getNextDataFileCompInfo(SQueryRuntimeEnv *pRuntimeEnv, SMeterObj
static
void
setGroupOutputBuffer
(
SQueryRuntimeEnv
*
pRuntimeEnv
,
SOutputRes
*
pResult
);
static
void
getAlignedIntervalQueryRange
(
SQueryRuntimeEnv
*
pRuntimeEnv
,
TSKEY
keyInData
,
TSKEY
skey
,
TSKEY
ekey
);
static
void
doApplyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
pInfo
,
static
void
doApplyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
p
MeterQuery
Info
,
SBlockInfo
*
pBlockInfo
,
int64_t
*
pPrimaryCol
,
SField
*
pFields
,
__block_search_fn_t
searchFn
);
static
int32_t
saveResult
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
pMeterQueryInfo
,
int32_t
numOfResult
);
static
void
applyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterDataInfo
*
p
InfoEx
,
int64_t
*
pPrimaryData
,
static
void
applyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterDataInfo
*
p
MeterDataInfo
,
SBlockInfo
*
pBlockInfo
,
int32_t
blockStatus
,
SField
*
pFields
,
__block_search_fn_t
searchFn
);
...
...
@@ -1728,6 +1726,8 @@ int32_t numOfClosedSlidingWindow(SSlidingWindowInfo *pSlidingWindowInfo) {
return
i
;
}
}
return
0
;
}
void
closeSlidingWindow
(
SSlidingWindowInfo
*
pSlidingWindowInfo
,
int32_t
slot
)
{
...
...
@@ -2112,7 +2112,7 @@ static int32_t rowwiseApplyAllFunctions(SQueryRuntimeEnv *pRuntimeEnv, int32_t *
SSlidingWindowInfo
*
pSlidingWindowInfo
=
&
pRuntimeEnv
->
swindowResInfo
;
// query completed
if
(
lastKey
>=
pQuery
->
ekey
&&
QUERY_IS_ASC_QUERY
(
pQuery
)
||
if
(
(
lastKey
>=
pQuery
->
ekey
&&
QUERY_IS_ASC_QUERY
(
pQuery
)
)
||
(
lastKey
<=
pQuery
->
ekey
&&
!
QUERY_IS_ASC_QUERY
(
pQuery
)))
{
closeAllSlidingWindow
(
pSlidingWindowInfo
);
...
...
@@ -5027,7 +5027,7 @@ static int64_t doScanAllDataBlocks(SQueryRuntimeEnv *pRuntimeEnv) {
static
void
updatelastkey
(
SQuery
*
pQuery
,
SMeterQueryInfo
*
pMeterQInfo
)
{
pMeterQInfo
->
lastKey
=
pQuery
->
lastKey
;
}
void
queryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
int64_t
*
primaryKeys
,
int32_t
blockStatus
,
SBlockInfo
*
pBlockBasicInfo
,
SMeterDataInfo
*
p
DataHeadInfoEx
,
SField
*
pFields
,
SBlockInfo
*
pBlockBasicInfo
,
SMeterDataInfo
*
p
MeterDataInfo
,
SField
*
pFields
,
__block_search_fn_t
searchFn
)
{
/* cache blocks may be assign to other meter, abort */
if
(
pBlockBasicInfo
->
size
<=
0
)
{
...
...
@@ -5043,18 +5043,17 @@ void queryOnBlock(SMeterQuerySupportObj *pSupporter, int64_t *primaryKeys, int32
// note: only fixed number of output for each group by operation
if
(
numOfRes
>
0
)
{
pSupporter
->
pResult
[
p
DataHeadInfoEx
->
groupIdx
].
numOfRows
=
numOfRes
;
pSupporter
->
pResult
[
p
MeterDataInfo
->
groupIdx
].
numOfRows
=
numOfRes
;
}
// used to decide the correct start position in cache after check all data in files
updatelastkey
(
pQuery
,
p
DataHeadInfoEx
->
pMeterQInfo
);
updatelastkey
(
pQuery
,
p
MeterDataInfo
->
pMeterQInfo
);
if
(
pRuntimeEnv
->
pTSBuf
!=
NULL
)
{
p
DataHeadInfoEx
->
pMeterQInfo
->
cur
=
tsBufGetCursor
(
pRuntimeEnv
->
pTSBuf
);
p
MeterDataInfo
->
pMeterQInfo
->
cur
=
tsBufGetCursor
(
pRuntimeEnv
->
pTSBuf
);
}
}
else
{
applyIntervalQueryOnBlock
(
pSupporter
,
pDataHeadInfoEx
,
primaryKeys
,
pBlockBasicInfo
,
blockStatus
,
pFields
,
searchFn
);
applyIntervalQueryOnBlock
(
pSupporter
,
pMeterDataInfo
,
pBlockBasicInfo
,
blockStatus
,
pFields
,
searchFn
);
}
}
...
...
@@ -5265,13 +5264,13 @@ static tFilePage *getFilePage(SMeterQuerySupportObj *pSupporter, int32_t pageId)
return
(
tFilePage
*
)(
pSupporter
->
meterOutputMMapBuf
+
DEFAULT_INTERN_BUF_SIZE
*
pageId
);
}
static
tFilePage
*
getMeterDataPage
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterDataInfo
*
p
InfoEx
,
int32_t
pageId
)
{
SMeterQueryInfo
*
p
Info
=
pInfoEx
->
pMeterQInfo
;
if
(
pageId
>=
pInfo
->
numOfPages
)
{
static
tFilePage
*
getMeterDataPage
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterDataInfo
*
p
MeterDataInfo
,
int32_t
pageId
)
{
SMeterQueryInfo
*
p
MeterQueryInfo
=
pMeterDataInfo
->
pMeterQInfo
;
if
(
pageId
>=
p
MeterQuery
Info
->
numOfPages
)
{
return
NULL
;
}
int32_t
realId
=
pInfo
->
pageList
[
pageId
];
int32_t
realId
=
p
MeterQuery
Info
->
pageList
[
pageId
];
return
getFilePage
(
pSupporter
,
realId
);
}
...
...
@@ -5281,14 +5280,14 @@ typedef struct Position {
}
Position
;
typedef
struct
SCompSupporter
{
SMeterDataInfo
**
p
InfoEx
;
SMeterDataInfo
**
p
MeterDataInfo
;
Position
*
pPosition
;
SMeterQuerySupportObj
*
pSupporter
;
}
SCompSupporter
;
int64_t
getCurrentTimestamp
(
SCompSupporter
*
pSupportor
,
int32_t
meterIdx
)
{
Position
*
pPos
=
&
pSupportor
->
pPosition
[
meterIdx
];
tFilePage
*
pPage
=
getMeterDataPage
(
pSupportor
->
pSupporter
,
pSupportor
->
p
InfoEx
[
meterIdx
],
pPos
->
pageIdx
);
tFilePage
*
pPage
=
getMeterDataPage
(
pSupportor
->
pSupporter
,
pSupportor
->
p
MeterDataInfo
[
meterIdx
],
pPos
->
pageIdx
);
return
*
(
int64_t
*
)(
pPage
->
data
+
TSDB_KEYSIZE
*
pPos
->
rowIdx
);
}
...
...
@@ -5311,10 +5310,10 @@ int32_t meterResultComparator(const void *pLeft, const void *pRight, void *param
return
-
1
;
}
tFilePage
*
pPageLeft
=
getMeterDataPage
(
supportor
->
pSupporter
,
supportor
->
p
InfoEx
[
left
],
leftPos
.
pageIdx
);
tFilePage
*
pPageLeft
=
getMeterDataPage
(
supportor
->
pSupporter
,
supportor
->
p
MeterDataInfo
[
left
],
leftPos
.
pageIdx
);
int64_t
leftTimestamp
=
*
(
int64_t
*
)(
pPageLeft
->
data
+
TSDB_KEYSIZE
*
leftPos
.
rowIdx
);
tFilePage
*
pPageRight
=
getMeterDataPage
(
supportor
->
pSupporter
,
supportor
->
p
InfoEx
[
right
],
rightPos
.
pageIdx
);
tFilePage
*
pPageRight
=
getMeterDataPage
(
supportor
->
pSupporter
,
supportor
->
p
MeterDataInfo
[
right
],
rightPos
.
pageIdx
);
int64_t
rightTimestamp
=
*
(
int64_t
*
)(
pPageRight
->
data
+
TSDB_KEYSIZE
*
rightPos
.
rowIdx
);
if
(
leftTimestamp
==
rightTimestamp
)
{
...
...
@@ -5465,17 +5464,17 @@ int32_t doMergeMetersResultsToGroupRes(SMeterQuerySupportObj *pSupporter, SQuery
cs
.
pPosition
[
pos
].
pageIdx
+=
1
;
// try next page
// check if current page is empty or not. if it is empty, ignore it and try next
if
(
cs
.
pPosition
[
pos
].
pageIdx
<=
cs
.
p
InfoEx
[
pos
]
->
pMeterQInfo
->
numOfPages
-
1
)
{
if
(
cs
.
pPosition
[
pos
].
pageIdx
<=
cs
.
p
MeterDataInfo
[
pos
]
->
pMeterQInfo
->
numOfPages
-
1
)
{
tFilePage
*
newPage
=
getMeterDataPage
(
cs
.
pSupporter
,
pValidMeter
[
pos
],
position
->
pageIdx
);
if
(
newPage
->
numOfElems
<=
0
)
{
// if current source data page is null, it must be the last page of source output page
cs
.
pPosition
[
pos
].
pageIdx
+=
1
;
assert
(
cs
.
pPosition
[
pos
].
pageIdx
>=
cs
.
p
InfoEx
[
pos
]
->
pMeterQInfo
->
numOfPages
-
1
);
assert
(
cs
.
pPosition
[
pos
].
pageIdx
>=
cs
.
p
MeterDataInfo
[
pos
]
->
pMeterQInfo
->
numOfPages
-
1
);
}
}
// the following code must be executed if current source pages are exhausted
if
(
cs
.
pPosition
[
pos
].
pageIdx
>=
cs
.
p
InfoEx
[
pos
]
->
pMeterQInfo
->
numOfPages
)
{
if
(
cs
.
pPosition
[
pos
].
pageIdx
>=
cs
.
p
MeterDataInfo
[
pos
]
->
pMeterQInfo
->
numOfPages
)
{
cs
.
pPosition
[
pos
].
pageIdx
=
-
1
;
cs
.
pPosition
[
pos
].
rowIdx
=
-
1
;
...
...
@@ -5635,7 +5634,7 @@ int32_t doCloseAllOpenedResults(SMeterQuerySupportObj *pSupporter) {
void
disableFunctForSuppleScan
(
SQueryRuntimeEnv
*
pRuntimeEnv
,
int32_t
order
)
{
SQuery
*
pQuery
=
pRuntimeEnv
->
pQuery
;
if
(
isGroupbyNormalCol
(
pQuery
->
pGroupbyExpr
)
||
pQuery
->
slidingTime
>
0
&&
pQuery
->
nAggTimeInterval
>
0
)
{
if
(
isGroupbyNormalCol
(
pQuery
->
pGroupbyExpr
)
||
(
pQuery
->
slidingTime
>
0
&&
pQuery
->
nAggTimeInterval
>
0
)
)
{
for
(
int32_t
i
=
0
;
i
<
pQuery
->
numOfOutputCols
;
++
i
)
{
pRuntimeEnv
->
pCtx
[
i
].
order
=
(
pRuntimeEnv
->
pCtx
[
i
].
order
)
^
1
;
}
...
...
@@ -6693,11 +6692,11 @@ void cleanBlockOrderSupporter(SBlockOrderSupporter *pSupporter, int32_t numOfTab
int32_t
createDataBlocksInfoEx
(
SMeterDataInfo
**
pMeterDataInfo
,
int32_t
numOfMeters
,
SMeterDataBlockInfoEx
**
pDataBlockInfoEx
,
int32_t
numOfCompBlocks
,
int32_t
*
n
AllocBlocksInfoSize
,
int64_t
addr
)
{
int32_t
*
n
umOfAllocBlocks
,
int64_t
addr
)
{
// release allocated memory first
freeDataBlockFieldInfo
(
*
pDataBlockInfoEx
,
*
n
AllocBlocksInfoSize
);
freeDataBlockFieldInfo
(
*
pDataBlockInfoEx
,
*
n
umOfAllocBlocks
);
if
(
*
n
AllocBlocksInfoSize
==
0
||
*
nAllocBlocksInfoSize
<
numOfCompBlocks
)
{
if
(
*
n
umOfAllocBlocks
==
0
||
*
numOfAllocBlocks
<
numOfCompBlocks
)
{
char
*
tmp
=
realloc
((
*
pDataBlockInfoEx
),
sizeof
(
SMeterDataBlockInfoEx
)
*
numOfCompBlocks
);
if
(
tmp
==
NULL
)
{
tfree
(
*
pDataBlockInfoEx
);
...
...
@@ -6706,7 +6705,7 @@ int32_t createDataBlocksInfoEx(SMeterDataInfo **pMeterDataInfo, int32_t numOfMet
*
pDataBlockInfoEx
=
(
SMeterDataBlockInfoEx
*
)
tmp
;
memset
((
*
pDataBlockInfoEx
),
0
,
sizeof
(
SMeterDataBlockInfoEx
)
*
numOfCompBlocks
);
*
n
AllocBlocksInfoSize
=
numOfCompBlocks
;
*
n
umOfAllocBlocks
=
numOfCompBlocks
;
}
SBlockOrderSupporter
supporter
=
{
0
};
...
...
@@ -6740,14 +6739,14 @@ int32_t createDataBlocksInfoEx(SMeterDataInfo **pMeterDataInfo, int32_t numOfMet
supporter
.
pDataBlockInfoEx
[
numOfQualMeters
]
=
(
SMeterDataBlockInfoEx
*
)
buf
;
for
(
int32_t
k
=
0
;
k
<
pMeterDataInfo
[
j
]
->
numOfBlocks
;
++
k
)
{
SMeterDataBlockInfoEx
*
pInfoEx
=
&
supporter
.
pDataBlockInfoEx
[
numOfQualMeters
][
k
];
pInfoEx
->
pBlock
.
compBlock
=
&
pBlock
[
k
];
pInfoEx
->
pBlock
.
fields
=
NULL
;
pInfoEx
->
pMeterDataInfo
=
pMeterDataInfo
[
j
];
pInfoEx
->
groupIdx
=
pMeterDataInfo
[
j
]
->
groupIdx
;
// set the group index
pInfoEx
->
blockIndex
=
pMeterDataInfo
[
j
]
->
start
+
k
;
// set the block index in original meter
SMeterDataBlockInfoEx
*
p
Block
InfoEx
=
&
supporter
.
pDataBlockInfoEx
[
numOfQualMeters
][
k
];
p
Block
InfoEx
->
pBlock
.
compBlock
=
&
pBlock
[
k
];
p
Block
InfoEx
->
pBlock
.
fields
=
NULL
;
p
Block
InfoEx
->
pMeterDataInfo
=
pMeterDataInfo
[
j
];
p
Block
InfoEx
->
groupIdx
=
pMeterDataInfo
[
j
]
->
groupIdx
;
// set the group index
p
Block
InfoEx
->
blockIndex
=
pMeterDataInfo
[
j
]
->
start
+
k
;
// set the block index in original meter
cnt
++
;
}
...
...
@@ -7013,7 +7012,7 @@ int32_t setIntervalQueryExecutionContext(SMeterQuerySupportObj *pSupporter, int3
return
0
;
}
static
void
doApplyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
pInfo
,
static
void
doApplyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
p
MeterQuery
Info
,
SBlockInfo
*
pBlockInfo
,
int64_t
*
pPrimaryCol
,
SField
*
pFields
,
__block_search_fn_t
searchFn
)
{
SQueryRuntimeEnv
*
pRuntimeEnv
=
&
pSupporter
->
runtimeEnv
;
...
...
@@ -7029,10 +7028,10 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
assert
(
steps
>
0
);
// NOTE: in case of stable query, only ONE(or ZERO) row of result generated for each query range
if
(
pInfo
->
lastResRows
==
0
)
{
pInfo
->
lastResRows
=
numOfRes
;
if
(
p
MeterQuery
Info
->
lastResRows
==
0
)
{
p
MeterQuery
Info
->
lastResRows
=
numOfRes
;
}
else
{
assert
(
pInfo
->
lastResRows
==
1
);
assert
(
p
MeterQuery
Info
->
lastResRows
==
1
);
}
int32_t
pos
=
pQuery
->
pos
+
steps
*
factor
;
...
...
@@ -7071,20 +7070,20 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
if
(
pQuery
->
lastKey
>
pSupporter
->
rawEKey
||
nextKey
>
pSupporter
->
rawEKey
)
{
/* whole query completed, save result and abort */
assert
(
queryCompleted
);
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
// save the pQuery->lastKey for retrieve data in cache, actually, there will be no qualified data in cache.
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
}
else
if
(
pQuery
->
ekey
==
pBlockInfo
->
keyLast
)
{
/* current interval query is completed, set the next query range on other data blocks if exist */
int64_t
prevEKey
=
pQuery
->
ekey
;
getAlignedIntervalQueryRange
(
pRuntimeEnv
,
pQuery
->
lastKey
,
pSupporter
->
rawSKey
,
pSupporter
->
rawEKey
);
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
assert
(
queryCompleted
&&
prevEKey
<
pQuery
->
skey
);
if
(
pInfo
->
lastResRows
>
0
)
{
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
if
(
p
MeterQuery
Info
->
lastResRows
>
0
)
{
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
}
}
else
{
/*
...
...
@@ -7095,7 +7094,7 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
* With the information of the directly next data block, whether locates in cache or disk,
* current interval query being completed or not can be decided.
*/
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
assert
(
pQuery
->
lastKey
>
pBlockInfo
->
keyLast
&&
pQuery
->
lastKey
<=
pQuery
->
ekey
);
/*
...
...
@@ -7103,7 +7102,7 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
* merge with other meters in the same group
*/
if
(
queryCompleted
)
{
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
}
}
...
...
@@ -7119,23 +7118,23 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
if
(
pQuery
->
lastKey
<
pSupporter
->
rawEKey
||
(
nextKey
<
pSupporter
->
rawEKey
&&
nextKey
!=
-
1
))
{
/* whole query completed, save result and abort */
assert
(
queryCompleted
);
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
/*
* save the pQuery->lastKey for retrieve data in cache, actually,
* there will be no qualified data in cache.
*/
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
}
else
if
(
pQuery
->
ekey
==
pBlockInfo
->
keyFirst
)
{
// current interval query is completed, set the next query range on other data blocks if exist
int64_t
prevEKey
=
pQuery
->
ekey
;
getAlignedIntervalQueryRange
(
pRuntimeEnv
,
pQuery
->
lastKey
,
pSupporter
->
rawSKey
,
pSupporter
->
rawEKey
);
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
assert
(
queryCompleted
&&
prevEKey
>
pQuery
->
skey
);
if
(
pInfo
->
lastResRows
>
0
)
{
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
if
(
p
MeterQuery
Info
->
lastResRows
>
0
)
{
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
}
}
else
{
/*
...
...
@@ -7146,7 +7145,7 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
* With the information of the directly next data block, whether locates in cache or disk,
* current interval query being completed or not can be decided.
*/
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
assert
(
pQuery
->
lastKey
<
pBlockInfo
->
keyFirst
&&
pQuery
->
lastKey
>=
pQuery
->
ekey
);
/*
...
...
@@ -7154,7 +7153,7 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
* flag, and merge with other meters in the same group
*/
if
(
queryCompleted
)
{
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
}
}
...
...
@@ -7163,14 +7162,14 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
}
assert
(
queryCompleted
);
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
assert
((
nextKey
>=
pQuery
->
lastKey
&&
QUERY_IS_ASC_QUERY
(
pQuery
))
||
(
nextKey
<=
pQuery
->
lastKey
&&
!
QUERY_IS_ASC_QUERY
(
pQuery
)));
/* still in the same block to query */
getAlignedIntervalQueryRange
(
pRuntimeEnv
,
nextKey
,
pSupporter
->
rawSKey
,
pSupporter
->
rawEKey
);
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
int32_t
newPos
=
searchFn
((
char
*
)
pPrimaryCol
,
pBlockInfo
->
size
,
pQuery
->
skey
,
pQuery
->
order
.
order
);
assert
(
newPos
==
pQuery
->
pos
+
steps
*
factor
);
...
...
@@ -7179,26 +7178,25 @@ static void doApplyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMete
}
}
static
void
doApplyIntervalQueryOnBlock_rv
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
pInfo
,
static
void
doApplyIntervalQueryOnBlock_rv
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterQueryInfo
*
p
MeterQuery
Info
,
SBlockInfo
*
pBlockInfo
,
int64_t
*
pPrimaryCol
,
SField
*
pFields
,
__block_search_fn_t
searchFn
)
{
SQueryRuntimeEnv
*
pRuntimeEnv
=
&
pSupporter
->
runtimeEnv
;
SQuery
*
pQuery
=
pRuntimeEnv
->
pQuery
;
int32_t
factor
=
GET_FORWARD_DIRECTION_FACTOR
(
pQuery
->
order
.
order
);
int64_t
nextKey
=
-
1
;
bool
completed
=
false
;
while
(
1
)
{
int64_t
nextKey
=
-
1
;
int32_t
numOfRes
=
0
;
int32_t
steps
=
applyFunctionsOnBlock
(
pRuntimeEnv
,
pBlockInfo
,
pPrimaryCol
,
pFields
,
searchFn
,
&
numOfRes
);
assert
(
steps
>
0
);
// NOTE: in case of stable query, only ONE(or ZERO) row of result generated for each query range
if
(
pInfo
->
lastResRows
==
0
)
{
pInfo
->
lastResRows
=
numOfRes
;
if
(
p
MeterQuery
Info
->
lastResRows
==
0
)
{
p
MeterQuery
Info
->
lastResRows
=
numOfRes
;
}
else
{
assert
(
pInfo
->
lastResRows
==
1
);
assert
(
p
MeterQuery
Info
->
lastResRows
==
1
);
}
int32_t
pos
=
pQuery
->
pos
+
steps
*
factor
;
...
...
@@ -7212,6 +7210,7 @@ static void doApplyIntervalQueryOnBlock_rv(SMeterQuerySupportObj *pSupporter, SM
}
// all data satisfy current query are checked, query completed
bool
completed
=
false
;
if
(
QUERY_IS_ASC_QUERY
(
pQuery
))
{
completed
=
(
pQuery
->
lastKey
>
pQuery
->
ekey
);
}
else
{
...
...
@@ -7232,7 +7231,7 @@ static void doApplyIntervalQueryOnBlock_rv(SMeterQuerySupportObj *pSupporter, SM
* With the information of the directly next data block, whether locates in cache or disk,
* current interval query being completed or not can be decided.
*/
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
if
(
QUERY_IS_ASC_QUERY
(
pQuery
))
{
assert
(
pQuery
->
lastKey
>
pBlockInfo
->
keyLast
&&
pQuery
->
lastKey
<=
pQuery
->
ekey
);
...
...
@@ -7247,36 +7246,28 @@ static void doApplyIntervalQueryOnBlock_rv(SMeterQuerySupportObj *pSupporter, SM
if
(
pQuery
->
ekey
==
pSupporter
->
rawEKey
)
{
/* whole query completed, save result and abort */
saveResult
(
pSupporter
,
p
Info
,
p
Info
->
lastResRows
);
saveResult
(
pSupporter
,
p
MeterQueryInfo
,
pMeterQuery
Info
->
lastResRows
);
// save the pQuery->lastKey for retrieve data in cache, actually, there will be no qualified data in cache.
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
return
;
}
else
if
((
QUERY_IS_ASC_QUERY
(
pQuery
)
&&
pQuery
->
ekey
==
pBlockInfo
->
keyLast
)
||
(
QUERY_IS_ASC_QUERY
(
pQuery
)
&&
pQuery
->
ekey
==
pBlockInfo
->
keyFirst
))
{
// /* current interval query is completed, set the next query range on other data blocks if exist */
// int64_t prevEKey = pQuery->ekey;
//
// getAlignedIntervalQueryRange(pRuntimeEnv, pQuery->lastKey, pSupporter->rawSKey, pSupporter->rawEKey);
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
//
// assert(prevEKey < pQuery->skey);
// if (pInfo->lastResRows > 0) {
// saveResult(pSupporter, pInfo, pInfo->lastResRows);
// }
//
(
!
QUERY_IS_ASC_QUERY
(
pQuery
)
&&
pQuery
->
ekey
==
pBlockInfo
->
keyFirst
))
{
/* current interval query is completed, set the next query range on other data blocks if exist */
saveIntervalQueryRange
(
pRuntimeEnv
,
pMeterQueryInfo
);
return
;
}
saveResult
(
pSupporter
,
pInfo
,
pInfo
->
lastResRows
);
saveResult
(
pSupporter
,
pMeterQueryInfo
,
pMeterQueryInfo
->
lastResRows
);
assert
(
pos
>=
0
&&
pos
<
pBlockInfo
->
size
);
assert
((
nextKey
>=
pQuery
->
lastKey
&&
QUERY_IS_ASC_QUERY
(
pQuery
))
||
(
nextKey
<=
pQuery
->
lastKey
&&
!
QUERY_IS_ASC_QUERY
(
pQuery
)));
/* still in the same block to query */
getAlignedIntervalQueryRange
(
pRuntimeEnv
,
nextKey
,
pSupporter
->
rawSKey
,
pSupporter
->
rawEKey
);
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
int32_t
newPos
=
searchFn
((
char
*
)
pPrimaryCol
,
pBlockInfo
->
size
,
pQuery
->
skey
,
pQuery
->
order
.
order
);
assert
(
newPos
==
pQuery
->
pos
+
steps
*
factor
);
...
...
@@ -7691,19 +7682,20 @@ void copyFromGroupBuf(SQInfo *pQInfo, SOutputRes *result) {
assert
(
pQuery
->
pointsRead
<=
pQuery
->
pointsToRead
);
}
static
void
applyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterDataInfo
*
p
InfoEx
,
int64_t
*
pPrimaryData
,
static
void
applyIntervalQueryOnBlock
(
SMeterQuerySupportObj
*
pSupporter
,
SMeterDataInfo
*
p
MeterDataInfo
,
SBlockInfo
*
pBlockInfo
,
int32_t
blockStatus
,
SField
*
pFields
,
__block_search_fn_t
searchFn
)
{
SQueryRuntimeEnv
*
pRuntimeEnv
=
&
pSupporter
->
runtimeEnv
;
SQuery
*
pQuery
=
pRuntimeEnv
->
pQuery
;
SMeterQueryInfo
*
p
Info
=
pInfoEx
->
pMeterQInfo
;
SMeterQueryInfo
*
p
MeterQueryInfo
=
pMeterDataInfo
->
pMeterQInfo
;
int64_t
*
pPrimaryKey
=
(
int64_t
*
)
pRuntimeEnv
->
primaryColBuffer
->
data
;
/*
* for each block, we need to handle the previous query, since the determination of previous query being completed
* or not is based on the start key of current block.
*/
TSKEY
key
=
getNextAccessedKeyInData
(
pQuery
,
pPrimary
Data
,
pBlockInfo
,
blockStatus
);
setIntervalQueryRange
(
p
InfoEx
->
pMeterQInfo
,
pSupporter
,
key
);
TSKEY
key
=
getNextAccessedKeyInData
(
pQuery
,
pPrimary
Key
,
pBlockInfo
,
blockStatus
);
setIntervalQueryRange
(
p
MeterDataInfo
->
pMeterQInfo
,
pSupporter
,
key
);
if
(((
pQuery
->
skey
>
pQuery
->
ekey
)
&&
QUERY_IS_ASC_QUERY
(
pQuery
))
||
((
pQuery
->
skey
<
pQuery
->
ekey
)
&&
!
QUERY_IS_ASC_QUERY
(
pQuery
)))
{
...
...
@@ -7714,18 +7706,18 @@ static void applyIntervalQueryOnBlock(SMeterQuerySupportObj *pSupporter, SMeterD
((
pBlockInfo
->
keyFirst
>
pQuery
->
ekey
)
&&
!
QUERY_IS_ASC_QUERY
(
pQuery
)))
{
int32_t
numOfRes
=
0
;
/* current block is included in this interval */
int32_t
steps
=
applyFunctionsOnBlock
(
pRuntimeEnv
,
pBlockInfo
,
pPrimary
Data
,
pFields
,
searchFn
,
&
numOfRes
);
int32_t
steps
=
applyFunctionsOnBlock
(
pRuntimeEnv
,
pBlockInfo
,
pPrimary
Key
,
pFields
,
searchFn
,
&
numOfRes
);
assert
(
numOfRes
<=
1
&&
numOfRes
>=
0
&&
steps
>
0
);
if
(
pInfo
->
lastResRows
==
0
)
{
pInfo
->
lastResRows
=
numOfRes
;
if
(
p
MeterQuery
Info
->
lastResRows
==
0
)
{
p
MeterQuery
Info
->
lastResRows
=
numOfRes
;
}
else
{
assert
(
pInfo
->
lastResRows
==
1
);
assert
(
p
MeterQuery
Info
->
lastResRows
==
1
);
}
saveIntervalQueryRange
(
pRuntimeEnv
,
pInfo
);
saveIntervalQueryRange
(
pRuntimeEnv
,
p
MeterQuery
Info
);
}
else
{
doApplyIntervalQueryOnBlock
(
pSupporter
,
p
Info
,
pBlockInfo
,
pPrimaryData
,
pFields
,
searchFn
);
doApplyIntervalQueryOnBlock
(
pSupporter
,
p
MeterQueryInfo
,
pBlockInfo
,
pPrimaryKey
,
pFields
,
searchFn
);
}
}
...
...
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