时间序列管理
创建时间序列
根据建立的数据模型,我们可以分别在两个存储组中创建相应的时间序列。创建时间序列的 SQL 语句如下所示:
IoTDB > create timeseries root.ln.wf01.wt01.status with datatype=BOOLEAN,encoding=PLAIN
IoTDB > create timeseries root.ln.wf01.wt01.temperature with datatype=FLOAT,encoding=RLE
IoTDB > create timeseries root.ln.wf02.wt02.hardware with datatype=TEXT,encoding=PLAIN
IoTDB > create timeseries root.ln.wf02.wt02.status with datatype=BOOLEAN,encoding=PLAIN
IoTDB > create timeseries root.sgcc.wf03.wt01.status with datatype=BOOLEAN,encoding=PLAIN
IoTDB > create timeseries root.sgcc.wf03.wt01.temperature with datatype=FLOAT,encoding=RLE
从 v0.13 起,可以使用简化版的 SQL 语句创建时间序列:
IoTDB > create timeseries root.ln.wf01.wt01.status BOOLEAN encoding=PLAIN
IoTDB > create timeseries root.ln.wf01.wt01.temperature FLOAT encoding=RLE
IoTDB > create timeseries root.ln.wf02.wt02.hardware TEXT encoding=PLAIN
IoTDB > create timeseries root.ln.wf02.wt02.status BOOLEAN encoding=PLAIN
IoTDB > create timeseries root.sgcc.wf03.wt01.status BOOLEAN encoding=PLAIN
IoTDB > create timeseries root.sgcc.wf03.wt01.temperature FLOAT encoding=RLE
需要注意的是,当创建时间序列时指定的编码方式与数据类型不对应时,系统会给出相应的错误提示,如下所示:
IoTDB> create timeseries root.ln.wf02.wt02.status WITH DATATYPE=BOOLEAN, ENCODING=TS_2DIFF
error: encoding TS_2DIFF does not support BOOLEAN
详细的数据类型与编码方式的对应列表请参见 编码方式。
创建对齐时间序列
创建一组对齐时间序列的SQL语句如下所示:
IoTDB> CREATE ALIGNED TIMESERIES root.ln.wf01.GPS(latitude FLOAT encoding=PLAIN compressor=SNAPPY, longitude FLOAT encoding=PLAIN compressor=SNAPPY)
一组对齐序列中的序列可以有不同的数据类型、编码方式以及压缩方式。
对齐的时间序列也支持设置别名、标签、属性。
删除时间序列
我们可以使用(DELETE | DROP) TimeSeries <PathPattern>
语句来删除我们之前创建的时间序列。SQL 语句如下所示:
IoTDB> delete timeseries root.ln.wf01.wt01.status
IoTDB> delete timeseries root.ln.wf01.wt01.temperature, root.ln.wf02.wt02.hardware
IoTDB> delete timeseries root.ln.wf02.*
IoTDB> drop timeseries root.ln.wf02.*
查看时间序列
SHOW LATEST? TIMESERIES pathPattern? whereClause? limitClause?
SHOW TIMESERIES 中可以有四种可选的子句,查询结果为这些时间序列的所有信息
时间序列信息具体包括:时间序列路径名,database,Measurement 别名,数据类型,编码方式,压缩方式,属性和标签。
示例:
SHOW TIMESERIES
展示系统中所有的时间序列信息
SHOW TIMESERIES <
Path
>返回给定路径的下的所有时间序列信息。其中
Path
需要为一个时间序列路径或路径模式。例如,分别查看root
路径和root.ln
路径下的时间序列,SQL 语句如下所示:
IoTDB> show timeseries root.**
IoTDB> show timeseries root.ln.**
执行结果分别为:
+-------------------------------+--------+-------------+--------+--------+-----------+-------------------------------------------+--------------------------------------------------------+--------+-------------------+
| timeseries| alias| database|dataType|encoding|compression| tags| attributes|deadband|deadband parameters|
+-------------------------------+--------+-------------+--------+--------+-----------+-------------------------------------------+--------------------------------------------------------+--------+-------------------+
|root.sgcc.wf03.wt01.temperature| null| root.sgcc| FLOAT| RLE| SNAPPY| null| null| null| null|
| root.sgcc.wf03.wt01.status| null| root.sgcc| BOOLEAN| PLAIN| SNAPPY| null| null| null| null|
| root.turbine.d1.s1|newAlias| root.turbine| FLOAT| RLE| SNAPPY|{"newTag1":"newV1","tag4":"v4","tag3":"v3"}|{"attr2":"v2","attr1":"newV1","attr4":"v4","attr3":"v3"}| null| null|
| root.ln.wf02.wt02.hardware| null| root.ln| TEXT| PLAIN| SNAPPY| null| null| null| null|
| root.ln.wf02.wt02.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY| null| null| null| null|
| root.ln.wf01.wt01.temperature| null| root.ln| FLOAT| RLE| SNAPPY| null| null| null| null|
| root.ln.wf01.wt01.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY| null| null| null| null|
+-------------------------------+--------+-------------+--------+--------+-----------+-------------------------------------------+--------------------------------------------------------+--------+-------------------+
Total line number = 7
It costs 0.016s
+-----------------------------+-----+-------------+--------+--------+-----------+----+----------+--------+-------------------+
| timeseries|alias| database|dataType|encoding|compression|tags|attributes|deadband|deadband parameters|
+-----------------------------+-----+-------------+--------+--------+-----------+----+----------+--------+-------------------+
| root.ln.wf02.wt02.hardware| null| root.ln| TEXT| PLAIN| SNAPPY|null| null| null| null|
| root.ln.wf02.wt02.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY|null| null| null| null|
|root.ln.wf01.wt01.temperature| null| root.ln| FLOAT| RLE| SNAPPY|null| null| null| null|
| root.ln.wf01.wt01.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY|null| null| null| null|
+-----------------------------+-----+-------------+--------+--------+-----------+----+----------+--------+-------------------+
Total line number = 4
It costs 0.004s
SHOW TIMESERIES LIMIT INT OFFSET INT
只返回从指定下标开始的结果,最大返回条数被 LIMIT 限制,用于分页查询。例如:
show timeseries root.ln.** limit 10 offset 10
SHOW LATEST TIMESERIES
表示查询出的时间序列需要按照最近插入时间戳降序排列
需要注意的是,当查询路径不存在时,系统会返回 0 条时间序列。
统计时间序列总数
IoTDB 支持使用COUNT TIMESERIES<Path>
来统计一条路径中的时间序列个数。SQL 语句如下所示:
IoTDB > COUNT TIMESERIES root.**
IoTDB > COUNT TIMESERIES root.ln.**
IoTDB > COUNT TIMESERIES root.ln.*.*.status
IoTDB > COUNT TIMESERIES root.ln.wf01.wt01.status
除此之外,还可以通过定义LEVEL
来统计指定层级下的时间序列个数。这条语句可以用来统计每一个设备下的传感器数量,语法为:COUNT TIMESERIES <Path> GROUP BY LEVEL=<INTEGER>
。
例如有如下时间序列(可以使用show timeseries
展示所有时间序列):
+-------------------------------+--------+-------------+--------+--------+-----------+-------------------------------------------+--------------------------------------------------------+--------+-------------------+
| timeseries| alias| database|dataType|encoding|compression| tags| attributes|deadband|deadband parameters|
+-------------------------------+--------+-------------+--------+--------+-----------+-------------------------------------------+--------------------------------------------------------+--------+-------------------+
|root.sgcc.wf03.wt01.temperature| null| root.sgcc| FLOAT| RLE| SNAPPY| null| null| null| null|
| root.sgcc.wf03.wt01.status| null| root.sgcc| BOOLEAN| PLAIN| SNAPPY| null| null| null| null|
| root.turbine.d1.s1|newAlias| root.turbine| FLOAT| RLE| SNAPPY|{"newTag1":"newV1","tag4":"v4","tag3":"v3"}|{"attr2":"v2","attr1":"newV1","attr4":"v4","attr3":"v3"}| null| null|
| root.ln.wf02.wt02.hardware| null| root.ln| TEXT| PLAIN| SNAPPY| {"unit":"c"}| null| null| null|
| root.ln.wf02.wt02.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY| {"description":"test1"}| null| null| null|
| root.ln.wf01.wt01.temperature| null| root.ln| FLOAT| RLE| SNAPPY| null| null| null| null|
| root.ln.wf01.wt01.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY| null| null| null| null|
+-------------------------------+--------+-------------+--------+--------+-----------+-------------------------------------------+--------------------------------------------------------+--------+-------------------+
Total line number = 7
It costs 0.004s
那么 Metadata Tree 如下所示:
可以看到,root
被定义为LEVEL=0
。那么当你输入如下语句时:
IoTDB > COUNT TIMESERIES root.** GROUP BY LEVEL=1
IoTDB > COUNT TIMESERIES root.ln.** GROUP BY LEVEL=2
IoTDB > COUNT TIMESERIES root.ln.wf01.* GROUP BY LEVEL=2
你将得到以下结果:
IoTDB> COUNT TIMESERIES root.** GROUP BY LEVEL=1
+------------+-----------------+
| column|count(timeseries)|
+------------+-----------------+
| root.sgcc| 2|
|root.turbine| 1|
| root.ln| 4|
+------------+-----------------+
Total line number = 3
It costs 0.002s
IoTDB > COUNT TIMESERIES root.ln.** GROUP BY LEVEL=2
+------------+-----------------+
| column|count(timeseries)|
+------------+-----------------+
|root.ln.wf02| 2|
|root.ln.wf01| 2|
+------------+-----------------+
Total line number = 2
It costs 0.002s
IoTDB > COUNT TIMESERIES root.ln.wf01.* GROUP BY LEVEL=2
+------------+-----------------+
| column|count(timeseries)|
+------------+-----------------+
|root.ln.wf01| 2|
+------------+-----------------+
Total line number = 1
It costs 0.002s
注意:时间序列的路径只是过滤条件,与 level 的定义无关。
标签点管理
我们可以在创建时间序列的时候,为它添加别名和额外的标签和属性信息。
标签和属性的区别在于:
- 标签可以用来查询时间序列路径,会在内存中维护标点到时间序列路径的倒排索引:标签 -> 时间序列路径
- 属性只能用时间序列路径来查询:时间序列路径 -> 属性
所用到的扩展的创建时间序列的 SQL 语句如下所示:
create timeseries root.turbine.d1.s1(temprature) with datatype=FLOAT, encoding=RLE, compression=SNAPPY tags(tag1=v1, tag2=v2) attributes(attr1=v1, attr2=v2)
括号里的temprature
是s1
这个传感器的别名。
我们可以在任何用到s1
的地方,将其用temprature
代替,这两者是等价的。
IoTDB 同时支持在查询语句中 使用 AS 函数 设置别名。二者的区别在于:AS 函数设置的别名用于替代整条时间序列名,且是临时的,不与时间序列绑定;而上文中的别名只作为传感器的别名,与其绑定且可与原传感器名等价使用。
注意:额外的标签和属性信息总的大小不能超过
tag_attribute_total_size
.
- 标签点属性更新
创建时间序列后,我们也可以对其原有的标签点属性进行更新,主要有以下六种更新方式: - 重命名标签或属性
ALTER timeseries root.turbine.d1.s1 RENAME tag1 TO newTag1
- 重新设置标签或属性的值
ALTER timeseries root.turbine.d1.s1 SET newTag1=newV1, attr1=newV1
- 删除已经存在的标签或属性
ALTER timeseries root.turbine.d1.s1 DROP tag1, tag2
- 添加新的标签
ALTER timeseries root.turbine.d1.s1 ADD TAGS tag3=v3, tag4=v4
- 添加新的属性
ALTER timeseries root.turbine.d1.s1 ADD ATTRIBUTES attr3=v3, attr4=v4
- 更新插入别名,标签和属性
如果该别名,标签或属性原来不存在,则插入,否则,用新值更新原来的旧值
ALTER timeseries root.turbine.d1.s1 UPSERT ALIAS=newAlias TAGS(tag2=newV2, tag3=v3) ATTRIBUTES(attr3=v3, attr4=v4)
- 使用标签作为过滤条件查询时间序列
SHOW TIMESERIES (<`PathPattern`>)? WhereClause
返回给定路径的下的所有满足条件的时间序列信息,SQL 语句如下所示:
ALTER timeseries root.ln.wf02.wt02.hardware ADD TAGS unit=c
ALTER timeseries root.ln.wf02.wt02.status ADD TAGS description=test1
show timeseries root.ln.** where unit=c
show timeseries root.ln.** where description contains 'test1'
执行结果分别为:
+--------------------------+-----+-------------+--------+--------+-----------+------------+----------+--------+-------------------+
| timeseries|alias| database|dataType|encoding|compression| tags|attributes|deadband|deadband parameters|
+--------------------------+-----+-------------+--------+--------+-----------+------------+----------+--------+-------------------+
|root.ln.wf02.wt02.hardware| null| root.ln| TEXT| PLAIN| SNAPPY|{"unit":"c"}| null| null| null|
+--------------------------+-----+-------------+--------+--------+-----------+------------+----------+--------+-------------------+
Total line number = 1
It costs 0.005s
+------------------------+-----+-------------+--------+--------+-----------+-----------------------+----------+--------+-------------------+
| timeseries|alias| database|dataType|encoding|compression| tags|attributes|deadband|deadband parameters|
+------------------------+-----+-------------+--------+--------+-----------+-----------------------+----------+--------+-------------------+
|root.ln.wf02.wt02.status| null| root.ln| BOOLEAN| PLAIN| SNAPPY|{"description":"test1"}| null| null| null|
+------------------------+-----+-------------+--------+--------+-----------+-----------------------+----------+--------+-------------------+
Total line number = 1
It costs 0.004s
- 使用标签作为过滤条件统计时间序列数量
COUNT TIMESERIES (<`PathPattern`>)? WhereClause
COUNT TIMESERIES (<`PathPattern`>)? WhereClause GROUP BY LEVEL=<INTEGER>
返回给定路径的下的所有满足条件的时间序列的数量,SQL 语句如下所示:
count timeseries
count timeseries root.** where unit = c
count timeseries root.** where unit = c group by level = 2
执行结果分别为:
IoTDB> count timeseries
+-----------------+
|count(timeseries)|
+-----------------+
| 6|
+-----------------+
Total line number = 1
It costs 0.019s
IoTDB> count timeseries root.** where unit = c
+-----------------+
|count(timeseries)|
+-----------------+
| 2|
+-----------------+
Total line number = 1
It costs 0.020s
IoTDB> count timeseries root.** where unit = c group by level = 2
+--------------+-----------------+
| column|count(timeseries)|
+--------------+-----------------+
| root.ln.wf02| 2|
| root.ln.wf01| 0|
|root.sgcc.wf03| 0|
+--------------+-----------------+
Total line number = 3
It costs 0.011s
注意,现在我们只支持一个查询条件,要么是等值条件查询,要么是包含条件查询。当然 where 子句中涉及的必须是标签值,而不能是属性值。
创建对齐时间序列
create aligned timeseries root.sg1.d1(s1 INT32 tags(tag1=v1, tag2=v2) attributes(attr1=v1, attr2=v2), s2 DOUBLE tags(tag3=v3, tag4=v4) attributes(attr3=v3, attr4=v4))
执行结果如下:
IoTDB> show timeseries
+--------------+-----+-------------+--------+--------+-----------+-------------------------+---------------------------+--------+-------------------+
| timeseries|alias| database|dataType|encoding|compression| tags| attributes|deadband|deadband parameters|
+--------------+-----+-------------+--------+--------+-----------+-------------------------+---------------------------+--------+-------------------+
|root.sg1.d1.s1| null| root.sg1| INT32| RLE| SNAPPY|{"tag1":"v1","tag2":"v2"}|{"attr2":"v2","attr1":"v1"}| null| null|
|root.sg1.d1.s2| null| root.sg1| DOUBLE| GORILLA| SNAPPY|{"tag4":"v4","tag3":"v3"}|{"attr4":"v4","attr3":"v3"}| null| null|
+--------------+-----+-------------+--------+--------+-----------+-------------------------+---------------------------+--------+-------------------+
支持查询:
IoTDB> show timeseries where tag1='v1'
+--------------+-----+-------------+--------+--------+-----------+-------------------------+---------------------------+--------+-------------------+
| timeseries|alias| database|dataType|encoding|compression| tags| attributes|deadband|deadband parameters|
+--------------+-----+-------------+--------+--------+-----------+-------------------------+---------------------------+--------+-------------------+
|root.sg1.d1.s1| null| root.sg1| INT32| RLE| SNAPPY|{"tag1":"v1","tag2":"v2"}|{"attr2":"v2","attr1":"v1"}| null| null|
+--------------+-----+-------------+--------+--------+-----------+-------------------------+---------------------------+--------+-------------------+
上述对时间序列标签、属性的更新等操作都支持。