I have a stored procedure which returns a large set of electricity consumption measurement data. Each record consists of date and time of the measurement and four values measured. Rate at which the measurement is performed ranges from seconds to minutes, in my example (as well as in my real data) the interval is 15 minutes, but may be lower.
Because of the way the data are stored (all values measured are compressed and stored in single column in raw format) the stored procedure I'm using is calling an external assembly which processes the data and returns result set.
EXEC dbo.sp_get_energy_consumption @Identify, @StartTime, @EndTime, @Args
Now the stored procedure takes some arguments.
int and represents identifier of the measurement device.
nvarchar and indicates which of the four measured values will be included in the result set. Both
@EndTime are pretty straightforward, they are
datetime and are used to limit the range of the records.
The stored procedure itself is defined as:
CREATE PROCEDURE sp_get_energy_consumption @identify int, @startTime datetime, @endTime datetime, @args nvarchar(60) AS EXTERNAL NAME Procedury.StoredProcedures.akd_energy_consumption_list
When executed, depending on arguments, the result may look like this.
EXEC dbo.sp_get_energy_consumption 1, N'2013-01-08 00:00:00', N'2013-01-09 00:00:00', N'i,e' ID | Time | V1 | V2 | V3 | V4 | 1 | 2013-01-08 15:30:00 | 111.42 | 0.24 | NULL | NULL | 2 | 2013-01-08 15:45:00 | 111.90 | 0.24 | NULL | NULL | 3 | 2013-01-08 16:00:00 | 112.34 | 0.24 | NULL | NULL | 4 | 2013-01-08 16:15:00 | 112.96 | 0.24 | NULL | NULL | ...
The web application I'm about to develop should visualize these data in a form of charts representing selected date range. I will also have to group the records by hours, days, weeks or months depending on date range and chart scale, because transferring about 3,000 records to client just to render some small one month chart is a no go. I have to cut the numbers and calculate some minimums, maximums, averages and standard deviation for each day of the month or week, for example.
I'm quite new in SQL Server so I've Googled a little bit and I found a possible way in transforming the stored procedure into table-valued function, so wrote a very simple TVF which would basically just call the stored procedure and return a table I could use to perform another
SELECTs on, but I failed because SQL Server don't allow me to
INSERT EXEC into TVF result table.
CREATE FUNCTION dbo.fn_get_energy_consumption(@Identify int, @StartTime datetime, @EndTime datetime, @Args nvarchar(30)) RETURNS @ConsumptionList TABLE ( Id INT IDENTITY, Time DATETIME, V1 FLOAT NULL, V2 FLOAT NULL, V3 FLOAT NULL, V4 FLOAT NULL ) AS BEGIN INSERT @ConsumptionList EXEC dbo.sp_get_energy_consumption @Identify, @StartTime, @EndTime, @Args RETURN END GO
Msg 443, Level 16, State 14, Procedure fn_get_energy_consumption, Line 16
Invalid use of a side-effecting operator 'INSERT EXEC' within a function.
Another possibility I did not tried yet could be using
OPENROWSET which is something, I would like to avoid, if possible.
I'm also a little bit concerned about overall performance, because on my 3 years old quad-core workstation it takes about 5 minutes to execute stored procedure call returning about 6,800 records (almost 2.5 months) with all four measured values (it takes half the time with only two selected) and there is nothing I can do about it, if not caching it in some table or something.
But for now I would be quite happy to figure out how to get a table from the stored procedure.
Because of poor performance of the stored procedure I'm thinking of writing periodic task executing long-running CLR stored procedure (
sp_get_energy_consumption) and saving results into regular table serving as a cache. This way I will achieve what I would get by using table-valued function with much lower execution time for later queries.
As for now, the only disadvantage that comes to my mind is giving up access to real-time data, because there will always be some delay given by interval between periodic task execution.