特色函数
Influxdb函数分为聚合函数,选择函数,转换函数,预测函数等。除了与普通数据库一样提供了基本操作函数外,还提供了一些特色函数以方便数据统计计算,下面将一一介绍其中一些常用的特色函数。
- 聚合函数:FILL()、INTEGRAL()、SPREAD(),MEAN(),MEDIAN()等。
- 选择函数: SAMPLE()、PERCENTILE()、FIRST()、 LAST()、TOP()、BOTTOM()等。
- 转换函数: DERIVATIVE()、DIFFERENCE()等。
- 预测函数:HOLT_WINTERS()。
数据准备
> SELECT * FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z'
name: h2o_feet
time level description location water_level
---- ----------------- -------- -----------
2015-08-18T00:00:00Z between 6 and 9 feet coyote_creek 8.12
2015-08-18T00:00:00Z below 3 feet santa_monica 2.064
2015-08-18T00:06:00Z between 6 and 9 feet coyote_creek 8.005
2015-08-18T00:06:00Z below 3 feet santa_monica 2.116
2015-08-18T00:12:00Z between 6 and 9 feet coyote_creek 7.887
2015-08-18T00:12:00Z below 3 feet santa_monica 2.028
2015-08-18T00:18:00Z between 6 and 9 feet coyote_creek 7.762
2015-08-18T00:18:00Z below 3 feet santa_monica 2.126
2015-08-18T00:24:00Z between 6 and 9 feet coyote_creek 7.635
2015-08-18T00:24:00Z below 3 feet santa_monica 2.041
2015-08-18T00:30:00Z between 6 and 9 feet coyote_creek 7.5
2015-08-18T00:30:00Z below 3 feet santa_monica 2.051
GROUP BY,FILL()
如下语句中
- GROUP BY time(12m),*:表示以每12分钟和tag(location) 分组(如果是GROUP BY time(12m)则表示仅每12分钟分组,GROUP BY 参数只能是time和tag)。
- fill(200):表示如果这个时间段没有数据,以200填充,
- mean(field_key):求该范围内数据的平均值(注意:这是依据series来计算。其他还有 sum 求和,median 求中位数)。
- LIMIT 7:表示限制返回的 point(记录数 ) 最多为7条
- SLIMIT 1:则是限制返回的 series 为1个。
这里的时间区间,起始时间为整点前包含这个区间第一个12m的时间,比如这里为 2015-08-17T:23:48:00Z,第一条为 2015-08-17T23:48:00Z <= t < 2015-08-18T00:00:00Z这个区间的location=coyote_creek的water_level的平均值,这里没有数据,于是填充的200。第二条为 2015-08-18T00:00:00Z <= t < 2015-08-18T00:12:00Z区间的location=coyote_creek的water_level平均值,这里为 (8.12+8.005)/ 2 = 8.0625,其他以此类推。
## GROUP BY time(12m)
> SELECT mean("water_level") FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(12m),* fill(200) LIMIT 7 SLIMIT 1
name: h2o_feet
tags: location=coyote_creek
time mean
---- ----
2015-08-17T23:48:00Z 200
2015-08-18T00:00:00Z 8.0625
2015-08-18T00:12:00Z 7.8245
2015-08-18T00:24:00Z 7.5675
而GROUP BY time(10m)则表示以10分钟分组,起始时间为包含这个区间的第一个10m的时间,即 2015-08-17T23:40:00Z。默认返回的是第一个series,如果要计算另外那个series,可以在SQL语句后面加上 SOFFSET 1。
## GROUP BY time(10m),SOFFSET设置为1
> SELECT mean("water_level") FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(10m),* fill(200) LIMIT 7 SLIMIT 1 SOFFSET 1
name: h2o_feet
tags: location=santa_monica
time mean
---- ----
2015-08-17T23:40:00Z 200
2015-08-17T23:50:00Z 200
2015-08-18T00:00:00Z 2.09
2015-08-18T00:10:00Z 2.077
2015-08-18T00:20:00Z 2.041
2015-08-18T00:30:00Z 2.051
而GROUP BY time(10m)则表示以10分钟分组,起始时间为包含这个区间的第一个10m的时间,即 2015-08-17T23:40:00Z。默认返回的是第一个series,如果要计算另外那个series,可以在SQL语句后面加上 SOFFSET 1。
INTEGRAL(field_key, unit)
计算数值字段值覆盖的曲面的面积值并得到面积之和。测试数据如下:
> SELECT "water_level" FROM "h2o_feet" WHERE "location" = 'santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z'
name: h2o_feet
time water_level
---- -----------
2015-08-18T00:00:00Z 2.064
2015-08-18T00:06:00Z 2.116
2015-08-18T00:12:00Z 2.028
2015-08-18T00:18:00Z 2.126
2015-08-18T00:24:00Z 2.041
2015-08-18T00:30:00Z 2.051
使用INTERGRAL计算面积。注意,这个面积就是这些点连接起来后与时间围成的不规则图形的面积,注意unit默认是以1秒计算,所以下面语句计算结果为3732.66=2.028*1800+分割出来的梯形和三角形面积。如果unit改为1分,则结果为3732.66/60 = 62.211。unit为2分,则结果为3732.66/120 = 31.1055。以此类推。
# unit为默认的1秒
> SELECT INTEGRAL("water_level") FROM "h2o_feet" WHERE "location" = 'santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z'
name: h2o_feet
time integral
---- --------
1970-01-01T00:00:00Z 3732.66
# unit为1分
> SELECT INTEGRAL("water_level", 1m) FROM "h2o_feet" WHERE "location" = 'santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z'
name: h2o_feet
time integral
---- --------
1970-01-01T00:00:00Z 62.211
SPREAD(field_key)
计算数值字段的最大值和最小值的差值。
> SELECT SPREAD("water_level") FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(12m),* fill(18) LIMIT 3 SLIMIT 1 SOFFSET 1
name: h2o_feet
tags: location=santa_monica
time spread
---- ------
2015-08-17T23:48:00Z 18
2015-08-18T00:00:00Z 0.052000000000000046
2015-08-18T00:12:00Z 0.09799999999999986
STDDEV(field_key)
**计算字段的标准差。influxdb用的是贝塞尔修正的标准差计算公式 ,如下:
- mean=(v1+v2+…+vn)/n;
- stddev = math.sqrt(
((v1-mean)2 + (v2-mean)2 + …+(vn-mean)2)/(n-1)
)
> SELECT STDDEV("water_level") FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(12m),* fill(18) SLIMIT 1;
name: h2o_feet
tags: location=coyote_creek
time stddev
---- ------
2015-08-17T23:48:00Z 18
2015-08-18T00:00:00Z 0.08131727983645186
2015-08-18T00:12:00Z 0.08838834764831845
2015-08-18T00:24:00Z 0.09545941546018377
PERCENTILE(field_key, N)
选取某个字段中大于N%的这个字段值。
如果一共有4条记录,N为10,则10%*4=0.4,四舍五入为0,则查询结果为空。N为20,则 20% * 4 = 0.8,四舍五入为1,选取的是4个数中最小的数。如果N为40,40% * 4 = 1.6,四舍五入为2,则选取的是4个数中第二小的数。由此可以看出N=100时,就跟MAX(field_key)是一样的,而当N=50时,与MEDIAN(field_key)在字段值为奇数个时是一样的。
> SELECT PERCENTILE("water_level",20) FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(12m)
name: h2o_feet
time percentile
---- ----------
2015-08-17T23:48:00Z
2015-08-18T00:00:00Z 2.064
2015-08-18T00:12:00Z 2.028
2015-08-18T00:24:00Z 2.041
> SELECT PERCENTILE("water_level",40) FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(12m)
name: h2o_feet
time percentile
---- ----------
2015-08-17T23:48:00Z
2015-08-18T00:00:00Z 2.116
2015-08-18T00:12:00Z 2.126
2015-08-18T00:24:00Z 2.051
SAMPLE(field_key, N)
随机返回field key的N个值。如果语句中有GROUP BY time(),则每组数据随机返回N个值。
> SELECT SAMPLE("water_level",2) FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z';
name: h2o_feet
time sample
---- ------
2015-08-18T00:00:00Z 2.064
2015-08-18T00:12:00Z 2.028
> SELECT SAMPLE("water_level",2) FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z' GROUP BY time(12m);
name: h2o_feet
time sample
---- ------
2015-08-18T00:06:00Z 2.116
2015-08-18T00:06:00Z 8.005
2015-08-18T00:12:00Z 7.887
2015-08-18T00:18:00Z 7.762
2015-08-18T00:24:00Z 7.635
2015-08-18T00:30:00Z 2.051
CUMULATIVE_SUM(field_key)
计算字段值的递增和。
> SELECT CUMULATIVE_SUM("water_level") FROM "h2o_feet" WHERE time >= '2015-08-17T23:48:00Z' AND time <= '2015-08-18T00:30:00Z';
name: h2o_feet
time cumulative_sum
---- --------------
2015-08-18T00:00:00Z 8.12
2015-08-18T00:00:00Z 10.184
2015-08-18T00:06:00Z 18.189
2015-08-18T00:06:00Z 20.305
2015-08-18T00:12:00Z 28.192
2015-08-18T00:12:00Z 30.22
2015-08-18T00:18:00Z 37.982
2015-08-18T00:18:00Z 40.108
2015-08-18T00:24:00Z 47.742999999999995
2015-08-18T00:24:00Z 49.78399999999999
2015-08-18T00:30:00Z 57.28399999999999
2015-08-18T00:30:00Z 59.334999999999994
DERIVATIVE(field_key, unit) 和 NON_NEGATIVE_DERIVATIVE(field_key, unit)
计算字段值的变化比。unit默认为1s,即计算的是1秒内的变化比。
如下面的第一个数据计算方法是 (2.116-2.064)/(6*60) = 0.00014…,其他计算方式同理。虽然原始数据是6m收集一次,但是这里的变化比默认是按秒来计算的。如果要按6m计算,则设置unit为6m即可。
> SELECT DERIVATIVE("water_level") FROM "h2o_feet" WHERE "location" = 'santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z'
name: h2o_feet
time derivative
---- ----------
2015-08-18T00:06:00Z 0.00014444444444444457
2015-08-18T00:12:00Z -0.00024444444444444465
2015-08-18T00:18:00Z 0.0002722222222222218
2015-08-18T00:24:00Z -0.000236111111111111
2015-08-18T00:30:00Z 0.00002777777777777842
> SELECT DERIVATIVE("water_level", 6m) FROM "h2o_feet" WHERE "location" = 'santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z'
name: h2o_feet
time derivative
---- ----------
2015-08-18T00:06:00Z 0.052000000000000046
2015-08-18T00:12:00Z -0.08800000000000008
2015-08-18T00:18:00Z 0.09799999999999986
2015-08-18T00:24:00Z -0.08499999999999996
2015-08-18T00:30:00Z 0.010000000000000231
而DERIVATIVE结合GROUP BY time,以及mean可以构造更加复杂的查询,如下所示:
> SELECT DERIVATIVE(mean("water_level"), 6m) FROM "h2o_feet" WHERE time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z' group by time(12m), *
name: h2o_feet
tags: location=coyote_creek
time derivative
---- ----------
2015-08-18T00:12:00Z -0.11900000000000022
2015-08-18T00:24:00Z -0.12849999999999984
name: h2o_feet
tags: location=santa_monica
time derivative
---- ----------
2015-08-18T00:12:00Z -0.00649999999999995
2015-08-18T00:24:00Z -0.015499999999999847
这个计算其实是先根据GROUP BY time求平均值,然后对这个平均值再做变化比的计算。因为数据是按12分钟分组的,而变化比的unit是6分钟,所以差值除以2(12/6)才得到变化比。如第一个值是 (7.8245-8.0625)/2 = -0.1190。
> SELECT mean("water_level") FROM "h2o_feet" WHERE time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z' group by time(12m), *
name: h2o_feet
tags: location=coyote_creek
time mean
---- ----
2015-08-18T00:00:00Z 8.0625
2015-08-18T00:12:00Z 7.8245
2015-08-18T00:24:00Z 7.5675
name: h2o_feet
tags: location=santa_monica
time mean
---- ----
2015-08-18T00:00:00Z 2.09
2015-08-18T00:12:00Z 2.077
2015-08-18T00:24:00Z 2.0460000000000003
NON_NEGATIVE_DERIVATIVE与DERIVATIVE不同的是它只返回的是非负的变化比:
> SELECT DERIVATIVE(mean("water_level"), 6m) FROM "h2o_feet" WHERE location='santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z' group by time(6m), *
name: h2o_feet
tags: location=santa_monica
time derivative
---- ----------
2015-08-18T00:06:00Z 0.052000000000000046
2015-08-18T00:12:00Z -0.08800000000000008
2015-08-18T00:18:00Z 0.09799999999999986
2015-08-18T00:24:00Z -0.08499999999999996
2015-08-18T00:30:00Z 0.010000000000000231
> SELECT NON_NEGATIVE_DERIVATIVE(mean("water_level"), 6m) FROM "h2o_feet" WHERE location='santa_monica' AND time >= '2015-08-18T00:00:00Z' AND time <= '2015-08-18T00:30:00Z' group by time(6m), *
name: h2o_feet
tags: location=santa_monica
time non_negative_derivative
---- -----------------------
2015-08-18T00:06:00Z 0.052000000000000046
2015-08-18T00:18:00Z 0.09799999999999986
2015-08-18T00:30:00Z 0.010000000000000231
连续查询
基本语法
连续查询(CONTINUOUS QUERY,简写为CQ)是指定时自动在实时数据上进行的InfluxQL查询,查询结果可以存储到指定的measurement中。基本语法格式如下:
CREATE CONTINUOUS QUERY <cq_name> ON <database_name>
BEGIN
<cq_query>
END
cq_query格式:
SELECT <function[s]> INTO <destination_measurement> FROM <measurement> [WHERE <stuff>] GROUP BY time(<interval>)[,<tag_key[s]>]
CQ操作的是实时数据,它使用本地服务器的时间戳、GROUP BY time()时间间隔以及InfluxDB预先设置好的时间范围来确定什么时候开始查询以及查询覆盖的时间范围。注意CQ语句里面的WHERE条件是没有时间范围的,因为CQ会根据GROUP BY time()自动确定时间范围。
CQ执行的时间间隔和GROUP BY time()的时间间隔一样,它在InfluxDB预先设置的时间范围的起始时刻执行。如果GROUP BY time(1h),则单次查询的时间范围为 now()-GROUP BY time(1h)到 now(),也就是说,如果当前时间为17点,这次查询的时间范围为 16:00到16:59.99999。
下面看几个示例,示例数据如下,这是数据库transportation中名为bus_data的measurement,每15分钟统计一次乘客数和投诉数。数据文件bus_data.txt如下:
# DDL
CREATE DATABASE transportation
# DML
# CONTEXT-DATABASE: transportation
bus_data,complaints=9 passengers=5 1472367600
bus_data,complaints=9 passengers=8 1472368500
bus_data,complaints=9 passengers=8 1472369400
bus_data,complaints=9 passengers=7 1472370300
bus_data,complaints=9 passengers=8 1472371200
bus_data,complaints=7 passengers=15 1472372100
bus_data,complaints=7 passengers=15 1472373000
bus_data,complaints=7 passengers=17 1472373900
bus_data,complaints=7 passengers=20 1472374800
导入数据,命令如下:
[root@f216e9be15bf:/]# influx -import -path=bus_data.txt -precision=s
[root@f216e9be15bf:/]# influx -precision=rfc3339 -database=transportation
Connected to http://localhost:8086 version 1.3.5
InfluxDB shell version: 1.3.5
> select * from bus_data
name: bus_data
time complaints passengers
---- ---------- ----------
2016-08-28T07:00:00Z 9 5
2016-08-28T07:15:00Z 9 8
2016-08-28T07:30:00Z 9 8
2016-08-28T07:45:00Z 9 7
2016-08-28T08:00:00Z 9 8
2016-08-28T08:15:00Z 7 15
2016-08-28T08:30:00Z 7 15
2016-08-28T08:45:00Z 7 17
2016-08-28T09:00:00Z 7 20
示例1 自动缩小取样存储到新的measurement中
对单个字段自动缩小取样并存储到新的measurement中。
CREATE CONTINUOUS QUERY "cq_basic" ON "transportation"
BEGIN
SELECT mean("passengers") INTO "average_passengers" FROM "bus_data" GROUP BY time(1h)
END
这个CQ的意思就是对bus_data每小时自动计算取样数据的平均乘客数并存储到 average_passengers中。那么在2016-08-28这天早上会执行如下流程:
At 8:00 cq_basic 执行查询,查询时间范围 time >= '7:00' AND time < '08:00'.
cq_basic写入一条记录到 average_passengers:
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 7
At 9:00 cq_basic 执行查询,查询时间范围 time >= '8:00' AND time < '9:00'.
cq_basic写入一条记录到 average_passengers:
name: average_passengers
------------------------
time mean
2016-08-28T08:00:00Z 13.75
# Results
> SELECT * FROM "average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 7
2016-08-28T08:00:00Z 13.75
示例2 自动缩小取样并存储到新的保留策略(Retention Policy)中
CREATE CONTINUOUS QUERY "cq_basic_rp" ON "transportation"
BEGIN
SELECT mean("passengers") INTO "transportation"."three_weeks"."average_passengers" FROM "bus_data" GROUP BY time(1h)
END
与示例1类似,不同的是保留的策略不是autogen,而是改成了three_weeks(创建保留策略语法 CREATE RETENTION POLICY “three_weeks” ON “transportation” DURATION 3w REPLICATION 1)。
> SELECT * FROM "transportation"."three_weeks"."average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 7
2016-08-28T08:00:00Z 13.75
示例3 使用后向引用(backreferencing)自动缩小取样并存储到新的数据库中
CREATE CONTINUOUS QUERY "cq_basic_br" ON "transportation"
BEGIN
SELECT mean(*) INTO "downsampled_transportation"."autogen".:MEASUREMENT FROM /.*/ GROUP BY time(30m),*
END
使用后向引用语法自动缩小取样并存储到新的数据库中。语法 :MEASUREMENT 用来指代后面的表,而 /.*/则是分别查询所有的表。这句CQ的含义就是每30分钟自动查询transportation的所有表(这里只有bus_data一个表),并将30分钟内数字字段(passengers和complaints)求平均值存储到新的数据库 downsampled_transportation中。
最终结果如下:
> SELECT * FROM "downsampled_transportation."autogen"."bus_data"
name: bus_data
--------------
time mean_complaints mean_passengers
2016-08-28T07:00:00Z 9 6.5
2016-08-28T07:30:00Z 9 7.5
2016-08-28T08:00:00Z 8 11.5
2016-08-28T08:30:00Z 7 16
示例4 自动缩小取样以及配置CQ的时间范围
CREATE CONTINUOUS QUERY "cq_basic_offset" ON "transportation"
BEGIN
SELECT mean("passengers") INTO "average_passengers" FROM "bus_data" GROUP BY time(1h,15m)
END
与前面几个示例不同的是,这里的GROUP BY time(1h, 15m)指定了一个时间偏移,也就是说 cq_basic_offset执行的时间不再是整点,而是往后偏移15分钟。执行流程如下:
At 8:15 cq_basic_offset 执行查询的时间范围 time >= '7:15' AND time < '8:15'.
name: average_passengers
------------------------
time mean
2016-08-28T07:15:00Z 7.75
At 9:15 cq_basic_offset 执行查询的时间范围 time >= '8:15' AND time < '9:15'.
name: average_passengers
------------------------
time mean
2016-08-28T08:15:00Z 16.75
最终结果
> SELECT * FROM "average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T07:15:00Z 7.75
2016-08-28T08:15:00Z 16.75
高级语法
InfluxDB连续查询的高级语法如下:
CREATE CONTINUOUS QUERY <cq_name> ON <database_name>
RESAMPLE EVERY <interval> FOR <interval>
BEGIN
<cq_query>
END
与基本语法不同的是,多了RESAMPLE关键字。高级语法里CQ的执行时间和查询时间范围则与RESAMPLE里面的两个interval有关系。
高级语法中CQ以EVERY interval的时间间隔执行,执行时查询的时间范围则是FOR interval来确定。如果FOR interval为2h,当前时间为17:00,则查询的时间范围为15:00-16:59.999999。RESAMPLE的EVERY和FOR两个关键字可以只有一个。
示例的数据表如下,比之前的多了几条记录为了示例3和示例4的测试:
name: bus_data
--------------
time passengers
2016-08-28T06:30:00Z 2
2016-08-28T06:45:00Z 4
2016-08-28T07:00:00Z 5
2016-08-28T07:15:00Z 8
2016-08-28T07:30:00Z 8
2016-08-28T07:45:00Z 7
2016-08-28T08:00:00Z 8
2016-08-28T08:15:00Z 15
2016-08-28T08:30:00Z 15
2016-08-28T08:45:00Z 17
2016-08-28T09:00:00Z 20
示例1 只配置执行时间间隔
CREATE CONTINUOUS QUERY "cq_advanced_every" ON "transportation"
RESAMPLE EVERY 30m
BEGIN
SELECT mean("passengers") INTO "average_passengers" FROM "bus_data" GROUP BY time(1h)
END
这里配置了30分钟执行一次CQ,没有指定FOR interval,于是查询的时间范围还是GROUP BY time(1h)指定的一个小时,执行流程如下:
At 8:00, cq_advanced_every 执行时间范围 time >= '7:00' AND time < '8:00'.
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 7
At 8:30, cq_advanced_every 执行时间范围 time >= '8:00' AND time < '9:00'.
name: average_passengers
------------------------
time mean
2016-08-28T08:00:00Z 12.6667
At 9:00, cq_advanced_every 执行时间范围 time >= '8:00' AND time < '9:00'.
name: average_passengers
------------------------
time mean
2016-08-28T08:00:00Z 13.75
需要注意的是,这里的 8点到9点这个区间执行了两次,第一次执行时时8:30,平均值是 (8+15+15)/ 3 = 12.6667,而第二次执行时间是9:00,平均值是 (8+15+15+17) / 4=13.75,而且最后第二个结果覆盖了第一个结果。InfluxDB如何处理重复的记录可以参见这个文档。
最终结果:
> SELECT * FROM "average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 7
2016-08-28T08:00:00Z 13.75
示例2 只配置查询时间范围
CREATE CONTINUOUS QUERY "cq_advanced_for" ON "transportation"
RESAMPLE FOR 1h
BEGIN
SELECT mean("passengers") INTO "average_passengers" FROM "bus_data" GROUP BY time(30m)
END
只配置了时间范围,而没有配置EVERY interval。这样,执行的时间间隔与GROUP BY time(30m)一样为30分钟,而查询的时间范围为1小时,由于是按30分钟分组,所以每次会写入两条记录。执行流程如下:
At 8:00 cq_advanced_for 查询时间范围:time >= '7:00' AND time < '8:00'.
写入两条记录。
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 6.5
2016-08-28T07:30:00Z 7.5
At 8:30 cq_advanced_for 查询时间范围:time >= '7:30' AND time < '8:30'.
写入两条记录。
name: average_passengers
------------------------
time mean
2016-08-28T07:30:00Z 7.5
2016-08-28T08:00:00Z 11.5
At 9:00 cq_advanced_for 查询时间范围:time >= '8:00' AND time < '9:00'.
写入两条记录。
name: average_passengers
------------------------
time mean
2016-08-28T08:00:00Z 11.5
2016-08-28T08:30:00Z 16
需要注意的是,cq_advanced_for每次写入了两条记录,重复的记录会被覆盖。
最终结果:
> SELECT * FROM "average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T07:00:00Z 6.5
2016-08-28T07:30:00Z 7.5
2016-08-28T08:00:00Z 11.5
2016-08-28T08:30:00Z 16
示例3 同时配置执行时间间隔和查询时间范围
CREATE CONTINUOUS QUERY "cq_advanced_every_for" ON "transportation"
RESAMPLE EVERY 1h FOR 90m
BEGIN
SELECT mean("passengers") INTO "average_passengers" FROM "bus_data" GROUP BY time(30m)
END
这里配置了执行间隔为1小时,而查询范围90分钟,最后分组是30分钟,每次插入了三条记录。执行流程如下:
At 8:00 cq_advanced_every_for 查询时间范围 time >= '6:30' AND time < '8:00'.
插入三条记录
name: average_passengers
------------------------
time mean
2016-08-28T06:30:00Z 3
2016-08-28T07:00:00Z 6.5
2016-08-28T07:30:00Z 7.5
At 9:00 cq_advanced_every_for 查询时间范围 time >= '7:30' AND time < '9:00'.
插入三条记录
name: average_passengers
------------------------
time mean
2016-08-28T07:30:00Z 7.5
2016-08-28T08:00:00Z 11.5
2016-08-28T08:30:00Z 16
最终结果:
> SELECT * FROM "average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T06:30:00Z 3
2016-08-28T07:00:00Z 6.5
2016-08-28T07:30:00Z 7.5
2016-08-28T08:00:00Z 11.5
2016-08-28T08:30:00Z 16
示例4 配置查询时间范围和FILL填充
CREATE CONTINUOUS QUERY "cq_advanced_for_fill" ON "transportation"
RESAMPLE FOR 2h
BEGIN
SELECT mean("passengers") INTO "average_passengers" FROM "bus_data" GROUP BY time(1h) fill(1000)
END
在前面值配置查询时间范围的基础上,加上FILL填充空的记录。执行流程如下:
At 6:00, cq_advanced_for_fill 查询时间范围:time >= '4:00' AND time < '6:00',没有数据,不填充。
At 7:00, cq_advanced_for_fill 查询时间范围:time >= '5:00' AND time < '7:00'. 写入两条记录,没有数据的时间点填充1000。
------------------------
time mean
2016-08-28T05:00:00Z 1000 <------ fill(1000)
2016-08-28T06:00:00Z 3 <------ average of 2 and 4
[…] At 11:00, cq_advanced_for_fill 查询时间范围:time >= '9:00' AND time < '11:00'.写入两条记录,没有数据的点填充1000。
name: average_passengers
------------------------
2016-08-28T09:00:00Z 20 <------ average of 20
2016-08-28T10:00:00Z 1000 <------ fill(1000)
At 12:00, cq_advanced_for_fill 查询时间范围:time >= '10:00' AND time < '12:00'。没有数据,不填充。
最终结果:
> SELECT * FROM "average_passengers"
name: average_passengers
------------------------
time mean
2016-08-28T05:00:00Z 1000
2016-08-28T06:00:00Z 3
2016-08-28T07:00:00Z 7
2016-08-28T08:00:00Z 13.75
2016-08-28T09:00:00Z 20
2016-08-28T10:00:00Z 1000