2

I have a question about entity framework query building.

Schema

I have a table structure like this:

CREATE TABLE [dbo].[DataLogger](
    [ID] [bigint] IDENTITY(1,1) NOT NULL,
    [ProjectID] [bigint] NULL,
    CONSTRAINT [PrimaryKey1] PRIMARY KEY CLUSTERED ( [ID] ASC )
)

CREATE TABLE [dbo].[DCDistributionBox](
    [ID] [bigint] IDENTITY(1,1) NOT NULL,
    [DataLoggerID] [bigint] NOT NULL,
    CONSTRAINT [PrimaryKey2] PRIMARY KEY CLUSTERED ( [ID] ASC )
)

ALTER TABLE [dbo].[DCDistributionBox]
    ADD CONSTRAINT [FK_DCDistributionBox_DataLogger] FOREIGN KEY([DataLoggerID])
    REFERENCES [dbo].[DataLogger] ([ID])

CREATE TABLE [dbo].[DCString] (
    [ID] [bigint] IDENTITY(1,1) NOT NULL,
    [DCDistributionBoxID] [bigint] NOT NULL,
    [CurrentMPP] [decimal](18, 2) NULL,
    CONSTRAINT [PrimaryKey3] PRIMARY KEY CLUSTERED ( [ID] ASC )
)

ALTER TABLE [dbo].[DCString]
    ADD CONSTRAINT [FK_DCString_DCDistributionBox] FOREIGN KEY([DCDistributionBoxID])
    REFERENCES [dbo].[DCDistributionBox] ([ID])

CREATE TABLE [dbo].[StringData](
    [DCStringID] [bigint] NOT NULL,
    [TimeStamp] [datetime] NOT NULL,
    [DCCurrent] [decimal](18, 2) NULL,
    CONSTRAINT [PrimaryKey4] PRIMARY KEY CLUSTERED ( [TimeStamp] DESC, [DCStringID] ASC)
)

The [StringData] table as has following storage stats:

  • Data space: 26,901.86 MB
  • Row count: 131,827,749
  • Partitioned: true
  • Partition count: 62

Usage

I now want to group the data in the [StringData] table and do some aggregation.

In pure SQL it would look like this:

declare @projectID bigint = 20686;
declare @from datetime = '06.02.2016';
declare @till datetime = '07.02.2016';
declare @interval int = 15;

SELECT 
DATEADD(MINUTE, DATEDIFF(MINUTE, 0, [StringData].[TimeStamp] ) / @interval * @interval, 0) AS [TimeStamp]
, AVG([StringData].[DCCurrent] / [DCString].[CurrentMPP]) AS [DCCurrentAvg]
, MIN([StringData].[DCCurrent] / [DCString].[CurrentMPP]) AS [DCCurrentMin]
, MAX([StringData].[DCCurrent] / [DCString].[CurrentMPP]) AS [DCCurrentMax]
, STDEV([StringData].[DCCurrent] / [DCString].[CurrentMPP]) AS [DCCurrentStDev]
, COUNT(*) AS [Count]

FROM [StringData]
JOIN [DCString] ON [DCString].[ID] = [StringData].[DCStringID]
JOIN [DCDistributionBox] ON [DCDistributionBox].[ID] = [DCString].[DCDistributionBoxID]
JOIN [DataLogger] ON [DataLogger].[ID] = [DCDistributionBox].[DataLoggerID]

WHERE [DataLogger].[ProjectID] = @projectID
AND [StringData].[TimeStamp] >= @from
AND [StringData].[TimeStamp] < @till

GROUP BY DATEADD(MINUTE, DATEDIFF(MINUTE, 0, [StringData].[TimeStamp] ) / @interval * @interval, 0)

Excecution timespan: 653ms

Now I created a Entity Framework equivalent (I thought):

var compareData = model.StringDatas
    AsNoTracking()
    .Where(p => p.DCString.DCDistributionBox.DataLogger.ProjectID == projectID && p.TimeStamp >= from && p.TimeStamp < till)                    
    .Select(d => new
    {
        TimeStamp = d.Key,
        DCCurrentMin = d.Min(v => v.DCCurrent / v.DCString.CurrentMPP),
        DCCurrentMax = d.Max(v => v.DCCurrent / v.DCString.CurrentMPP),
        DCCurrentAvg = d.Average(v => v.DCCurrent / v.DCString.CurrentMPP),
        DCCurrentStDev = DbFunctions.StandardDeviation(d.Select(v => v.DCCurrent / v.DCString.CurrentMPP))
    })
    .ToList();

And the result of excecution was a timeout (longer the 30 seconds)!?

Attempts

I now took a look into the Entity Framework generated SQL query and looks like this:

SELECT 
1 AS [C1], 
[Project10].[C1] AS [C2], 
[Project10].[C2] AS [C3], 
[Project10].[C3] AS [C4], 
[Project10].[C4] AS [C5], 
[Project10].[C5] AS [C6]
FROM ( SELECT 
    [Project8].[C1] AS [C1], 
    [Project8].[C2] AS [C2], 
    [Project8].[C3] AS [C3], 
    [Project8].[C4] AS [C4], 
    (SELECT 
        STDEV([Project9].[A1]) AS [A1]
        FROM ( SELECT 
            [Project9].[DCCurrent] / [Project9].[CurrentMPP] AS [A1]
            FROM ( SELECT 
                [Extent17].[DCStringID] AS [DCStringID], 
                [Extent17].[DCCurrent] AS [DCCurrent], 
                [Extent18].[ID] AS [ID], 
                [Extent18].[CurrentMPP] AS [CurrentMPP]
                FROM    [dbo].[StringData] AS [Extent17]
                INNER JOIN [dbo].[DCString] AS [Extent18] ON [Extent17].[DCStringID] = [Extent18].[ID]
                INNER JOIN [dbo].[DCDistributionBox] AS [Extent19] ON [Extent18].[DCDistributionBoxID] = [Extent19].[ID]
                INNER JOIN [dbo].[DataLogger] AS [Extent20] ON [Extent19].[DataLoggerID] = [Extent20].[ID]
                WHERE (([Extent20].[ProjectID] = @p__linq__0) OR (([Extent20].[ProjectID] IS NULL) AND (@p__linq__0 IS NULL))) AND ([Extent17].[TimeStamp] >= @p__linq__1) AND ([Extent17].[TimeStamp] < @p__linq__2) AND (([Project8].[C1] = (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent17].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3))) OR (([Project8].[C1] IS NULL) AND (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent17].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3) IS NULL)))
            )  AS [Project9]
        )  AS [Project9]) AS [C5]
    FROM ( SELECT 
        [Project6].[C1] AS [C1], 
        [Project6].[C2] AS [C2], 
        [Project6].[C3] AS [C3], 
        (SELECT 
            AVG([Project7].[A1]) AS [A1]
            FROM ( SELECT 
                [Project7].[DCCurrent] / [Project7].[CurrentMPP] AS [A1]
                FROM ( SELECT 
                    [Extent13].[DCStringID] AS [DCStringID], 
                    [Extent13].[DCCurrent] AS [DCCurrent], 
                    [Extent14].[ID] AS [ID], 
                    [Extent14].[CurrentMPP] AS [CurrentMPP]
                    FROM    [dbo].[StringData] AS [Extent13]
                    INNER JOIN [dbo].[DCString] AS [Extent14] ON [Extent13].[DCStringID] = [Extent14].[ID]
                    INNER JOIN [dbo].[DCDistributionBox] AS [Extent15] ON [Extent14].[DCDistributionBoxID] = [Extent15].[ID]
                    INNER JOIN [dbo].[DataLogger] AS [Extent16] ON [Extent15].[DataLoggerID] = [Extent16].[ID]
                    WHERE (([Extent16].[ProjectID] = @p__linq__0) OR (([Extent16].[ProjectID] IS NULL) AND (@p__linq__0 IS NULL))) AND ([Extent13].[TimeStamp] >= @p__linq__1) AND ([Extent13].[TimeStamp] < @p__linq__2) AND (([Project6].[C1] = (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent13].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3))) OR (([Project6].[C1] IS NULL) AND (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent13].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3) IS NULL)))
                )  AS [Project7]
            )  AS [Project7]) AS [C4]
        FROM ( SELECT 
            [Project4].[C1] AS [C1], 
            [Project4].[C2] AS [C2], 
            (SELECT 
                MAX([Project5].[A1]) AS [A1]
                FROM ( SELECT 
                    [Project5].[DCCurrent] / [Project5].[CurrentMPP] AS [A1]
                    FROM ( SELECT 
                        [Extent9].[DCStringID] AS [DCStringID], 
                        [Extent9].[DCCurrent] AS [DCCurrent], 
                        [Extent10].[ID] AS [ID], 
                        [Extent10].[CurrentMPP] AS [CurrentMPP]
                        FROM    [dbo].[StringData] AS [Extent9]
                        INNER JOIN [dbo].[DCString] AS [Extent10] ON [Extent9].[DCStringID] = [Extent10].[ID]
                        INNER JOIN [dbo].[DCDistributionBox] AS [Extent11] ON [Extent10].[DCDistributionBoxID] = [Extent11].[ID]
                        INNER JOIN [dbo].[DataLogger] AS [Extent12] ON [Extent11].[DataLoggerID] = [Extent12].[ID]
                        WHERE (([Extent12].[ProjectID] = @p__linq__0) OR (([Extent12].[ProjectID] IS NULL) AND (@p__linq__0 IS NULL))) AND ([Extent9].[TimeStamp] >= @p__linq__1) AND ([Extent9].[TimeStamp] < @p__linq__2) AND (([Project4].[C1] = (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent9].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3))) OR (([Project4].[C1] IS NULL) AND (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent9].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3) IS NULL)))
                    )  AS [Project5]
                )  AS [Project5]) AS [C3]
            FROM ( SELECT 
                [Project2].[C1] AS [C1], 
                (SELECT 
                    MIN([Project3].[A1]) AS [A1]
                    FROM ( SELECT 
                        [Project3].[DCCurrent] / [Project3].[CurrentMPP] AS [A1]
                        FROM ( SELECT 
                            [Extent5].[DCStringID] AS [DCStringID], 
                            [Extent5].[DCCurrent] AS [DCCurrent], 
                            [Extent6].[ID] AS [ID], 
                            [Extent6].[CurrentMPP] AS [CurrentMPP]
                            FROM    [dbo].[StringData] AS [Extent5]
                            INNER JOIN [dbo].[DCString] AS [Extent6] ON [Extent5].[DCStringID] = [Extent6].[ID]
                            INNER JOIN [dbo].[DCDistributionBox] AS [Extent7] ON [Extent6].[DCDistributionBoxID] = [Extent7].[ID]
                            INNER JOIN [dbo].[DataLogger] AS [Extent8] ON [Extent7].[DataLoggerID] = [Extent8].[ID]
                            WHERE (([Extent8].[ProjectID] = @p__linq__0) OR (([Extent8].[ProjectID] IS NULL) AND (@p__linq__0 IS NULL))) AND ([Extent5].[TimeStamp] >= @p__linq__1) AND ([Extent5].[TimeStamp] < @p__linq__2) AND (([Project2].[C1] = (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent5].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3))) OR (([Project2].[C1] IS NULL) AND (DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent5].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3) IS NULL)))
                        )  AS [Project3]
                    )  AS [Project3]) AS [C2]
                FROM ( SELECT 
                    [Distinct1].[C1] AS [C1]
                    FROM ( SELECT DISTINCT 
                        DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Extent1].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3) AS [C1]
                        FROM    [dbo].[StringData] AS [Extent1]
                        INNER JOIN [dbo].[DCString] AS [Extent2] ON [Extent1].[DCStringID] = [Extent2].[ID]
                        INNER JOIN [dbo].[DCDistributionBox] AS [Extent3] ON [Extent2].[DCDistributionBoxID] = [Extent3].[ID]
                        INNER JOIN [dbo].[DataLogger] AS [Extent4] ON [Extent3].[DataLoggerID] = [Extent4].[ID]
                        WHERE (([Extent4].[ProjectID] = @p__linq__0) OR (([Extent4].[ProjectID] IS NULL) AND (@p__linq__0 IS NULL))) AND ([Extent1].[TimeStamp] >= @p__linq__1) AND ([Extent1].[TimeStamp] < @p__linq__2)
                    )  AS [Distinct1]
                )  AS [Project2]
            )  AS [Project4]
        )  AS [Project6]
    )  AS [Project8]
)  AS [Project10]

Question

Why does Entity Framework seperates every aggregation into a sngle subselect and how can I avoid this to get a performance near to the raw SQL query?

Update 1

This has exact the same SQL query output and timeout result:

var query = from d in model.StringDatas
        where d.DCString.DCDistributionBox.DataLogger.ProjectID == projectID
        where d.TimeStamp >= fromDate
        where d.TimeStamp < tillDate
        group d by DbFunctions.AddMinutes(DateTime.MinValue, DbFunctions.DiffMinutes(DateTime.MinValue, d.TimeStamp) / minuteInterval * minuteInterval) into g
        select new
        {
            TimeStamp = g.Key,
            DCCurrentMin = g.Min(v => v.DCCurrent / v.DCString.CurrentMPP),
            DCCurrentMax = g.Max(v => v.DCCurrent / v.DCString.CurrentMPP),
            DCCurrentAvg = g.Average(v => v.DCCurrent / v.DCString.CurrentMPP),
            DCCurrentStDev = DbFunctions.StandardDeviation(g.Select(v => v.DCCurrent / v.DCString.CurrentMPP))
        };

var queryResult= query.ToList();
  • try commenting out your calculation of DCCurrentStDev. I'm not sure how it would go about calculating that, and it may be what's throwing the whole thing off. – Bruce Dunwiddie Feb 16 '16 at 16:03
  • hi @shriop, tried it same result minus one subselect. – Steffen Mangold Feb 16 '16 at 16:27
2

I've noticed that behavior (bug?) when answering How do I get EF6 to generate efficient SQL containing mulitple aggregate columns?.

The only way I was able to resolve it was by introducing a temporary projection before the group by operation, and the same applies to your case:

var query =
    from e in (from d in db.StringDatas.AsNoTracking()
               where d.DCString.DCDistributionBox.DataLogger.ProjectID == projectID
                   && d.TimeStamp >= fromDate && d.TimeStamp < tillDate
               select new { d, s = d.DCString })
    group e by DbFunctions.AddMinutes(DateTime.MinValue, DbFunctions.DiffMinutes(DateTime.MinValue, e.d.TimeStamp) / minuteInterval * minuteInterval) into g
    let ratio = g.Select(e => e.d.DCCurrent / e.s.CurrentMPP)
    select new
    {
        TimeStamp = g.Key,
        DCCurrentMin = ratio.Min(),
        DCCurrentMax = ratio.Max(),
        DCCurrentAvg = ratio.Average(),
        DCCurrentStDev = DbFunctions.StandardDeviation(ratio)
    };

EF generated SQL:

SELECT 
    1 AS [C1], 
    [GroupBy1].[K1] AS [C2], 
    [GroupBy1].[A1] AS [C3], 
    [GroupBy1].[A2] AS [C4], 
    [GroupBy1].[A3] AS [C5], 
    [GroupBy1].[A4] AS [C6]
    FROM ( SELECT 
        [Project1].[K1] AS [K1], 
        MIN([Project1].[A1]) AS [A1], 
        MAX([Project1].[A2]) AS [A2], 
        AVG([Project1].[A3]) AS [A3], 
        STDEV([Project1].[A4]) AS [A4]
        FROM ( SELECT 
            DATEADD (minute, ((DATEDIFF (minute, @p__linq__4, [Project1].[TimeStamp])) / @p__linq__5) * @p__linq__6, @p__linq__3) AS [K1], 
            [Project1].[DCCurrent] / [Project1].[CurrentMPP] AS [A1], 
            [Project1].[DCCurrent] / [Project1].[CurrentMPP] AS [A2], 
            [Project1].[DCCurrent] / [Project1].[CurrentMPP] AS [A3], 
            [Project1].[DCCurrent] / [Project1].[CurrentMPP] AS [A4]
            FROM ( SELECT 
                [Extent1].[TimeStamp] AS [TimeStamp], 
                [Extent1].[DCCurrent] AS [DCCurrent], 
                [Extent2].[CurrentMPP] AS [CurrentMPP]
                FROM    [dbo].[StringDatas] AS [Extent1]
                INNER JOIN [dbo].[DCStrings] AS [Extent2] ON [Extent1].[DCStringID] = [Extent2].[ID]
                INNER JOIN [dbo].[DCDistributionBoxes] AS [Extent3] ON [Extent2].[DCDistributionBoxID] = [Extent3].[ID]
                INNER JOIN [dbo].[DataLoggers] AS [Extent4] ON [Extent3].[DataLoggerID] = [Extent4].[ID]
                WHERE ([Extent4].[ProjectID] = @p__linq__0) AND ([Extent1].[TimeStamp] >= @p__linq__1) AND ([Extent1].[TimeStamp] < @p__linq__2)
            )  AS [Project1]
        )  AS [Project1]
        GROUP BY [K1]
    )  AS [GroupBy1]
| improve this answer | |
0

Try grouping the two properties you need rather than the whole object like this:

group new { d.DCCurrent, d.DCString.CurrentMPP } 

Then change v.DCString.CurrentMPP to v.CurrentMPP


Try setting the UseDatabaseNullSemantics to true.

This will eliminate all the is null checks and should allow the query optimizer to produce a similar execution plan to your original sql.

using(var model = new YourContext())
{
   model.Configuration.UseDatabaseNullSemantics = true;
   var query = from d in model.StringDatas
                ...
}
| improve this answer | |
  • 1
    Hi @Aducci, tried it with same result. The generated SQL looked the same except for the IS NULL checkups. Subselect still in there. – Steffen Mangold Feb 16 '16 at 16:24
  • @SteffenMangold - Let me know if changing the group has any effect on performance – Aducci Feb 16 '16 at 16:42

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.