2

I have an issue now that a table has had an id removed.

First I had this query below where entity (table) 'RecordsProduct' has a 'DefendnatId' that was mapped to a Defendant table. It was fine!

            records = records
                .Include(r => r.Employer)
                .Include(r => r.Contractor)
                .Include(r => r.RecordProducts)
                .ThenInclude(rp => rp.Defendant)
                .Where(r => EF.Functions.Like(r.Employer.DefendantCode, "%" + input.DefendantCode + "%")
                    || EF.Functions.Like(r.Contractor.DefendantCode, "%" + input.DefendantCode + "%")
                    || r.RecordProducts.Any(rp => EF.Functions.Like(rp.Defendant.DefendantCode, "%" + input.DefendantCode + "%") && rp.IsActive == true));

That DefendantId has been removed from the table and replaced with a DefendantProductId from a translation table called ProductDefendant like this

ProductDefendant table:

  • DefendantProductId
  • DefendantId
  • ProductId

So I can't do this anymore:

rp.Defendant.DefendantCode

now I have to do this

rp.ProductDefendant.Defendant.DefendantCode

and now my query is blowing up! Is there anything I can do to modify it to make it faster? Or change the way the joins are working?

           records = records
                .Include(r => r.Employer)
                .Include(r => r.Contractor)
                .Include(r => r.RecordProducts)
                .ThenInclude(rp => rp.ProductDefendant.Defendant)
                .Where(r => EF.Functions.Like(r.Employer.DefendantCode, "%" + input.DefendantCode + "%")
                    || EF.Functions.Like(r.Contractor.DefendantCode, "%" + input.DefendantCode + "%")
                    || r.RecordProducts.Any(rp => EF.Functions.Like(rp.ProductDefendant.Defendant.DefendantCode, "%" + input.DefendantCode + "%")
                    && rp.IsActive == true));

here is the generated SQL below. I think the problem is in the "Where" clause

SELECT [t].[Id], [t].[StartDate], [t].[EndDate], [t].[WitnessName], [t].[SourceCode], [t].[JobsiteName], [t].[ShipName], [t].[EmployerCode]
FROM (
    SELECT DISTINCT [r].[RecordID] AS [Id], [r].[StartDate], [r].[EndDate], [r.Witness].[FullName] AS [WitnessName], CASE
        WHEN [r].[SourceID] IS NOT NULL
        THEN [r.Source].[SourceCode] ELSE N'zzzzz'
    END AS [SourceCode], CASE
        WHEN [r].[JobsiteID] IS NOT NULL
        THEN [r.Jobsite].[JobsiteName] ELSE N'zzzzz'
    END AS [JobsiteName], CASE
        WHEN [r].[ShipID] IS NOT NULL
        THEN [r.Ship].[ShipName] ELSE N'zzzzz'
    END AS [ShipName], CASE
        WHEN [r].[EmployerID] IS NOT NULL
        THEN [r.Employer].[DefendantCode] ELSE N'zzzzz'
    END AS [EmployerCode]
    FROM [Records] AS [r]
    LEFT JOIN [Ships] AS [r.Ship] ON [r].[ShipID] = [r.Ship].[ShipID]
    LEFT JOIN [Jobsites] AS [r.Jobsite] ON [r].[JobsiteID] = [r.Jobsite].[JobsiteID]
    LEFT JOIN [Sources] AS [r.Source] ON [r].[SourceID] = [r.Source].[SourceID]
    LEFT JOIN [Witnesses] AS [r.Witness] ON [r].[WitnessID] = [r.Witness].[WitnessID]
    LEFT JOIN [Defendants] AS [r.Contractor] ON [r].[ContractorID] = [r.Contractor].[DefendantID]
    LEFT JOIN [Defendants] AS [r.Employer] ON [r].[EmployerID] = [r.Employer].[DefendantID]
    WHERE ([r].[IsActive] = 1) AND (([r.Employer].[DefendantCode] LIKE (N'%' + @__input_DefendantCode_1) + N'%' OR [r.Contractor].[DefendantCode] LIKE (N'%' + @__input_DefendantCode_3) + N'%') OR EXISTS (
        SELECT 1
        FROM [Records_Products] AS [rp]
        INNER JOIN [Product_Defendant] AS [rp.ProductDefendant] ON [rp].[DefendantProductID] = [rp.ProductDefendant].[DefendantProductID]
        INNER JOIN [Defendants] AS [rp.ProductDefendant.Defendant] ON [rp.ProductDefendant].[DefendantID] = [rp.ProductDefendant.Defendant].[DefendantID]
        WHERE ([rp.ProductDefendant.Defendant].[DefendantCode] LIKE (N'%' + @__input_DefendantCode_5) + N'%' AND ([rp].[IsActive] = 1)) AND ([r].[RecordID] = [rp].[RecordID])))
) AS [t]
ORDER BY [t].[SourceCode]
OFFSET @__p_6 ROWS FETCH NEXT @__p_7 ROWS ONLY

  • This is just one more join (PK index search) which normally should not affect the query performance significantly. And no, it can't be avoided because the introduced intermediate translation table requires it. – Ivan Stoev Jun 18 '19 at 8:08
  • Yes, I agree it can't be avoided, but it does affect query performance! Very much so... – user1186050 Jun 18 '19 at 16:02
  • 2
    This sounds like a database issue more than an EF one. Check what indexes exist to be used by this query. – Ben Jun 18 '19 at 21:59
  • The only index I think I need here is on the DefendantId for the join on the Defendant table. And that already exists! But I could be wrong, maybe there is something else needed. I'm not following a code first approach or a database first approach. Just working off former employers work. – user1186050 Jun 18 '19 at 22:31
  • You may also need an index on ProductDefendant.DefendantId (to cover all the foreign keys). – Martin Staufcik Jun 20 '19 at 15:33
3
+100

It's hard to give you a good advice because the generated SQL query looks fine for that model, and nowadays SQL query optimizers (CBO) should not be affected by the way you write the query like the old RBOs (CBO stands for Cost Based Optimizer, RBO - Rule Based Optimizer). They should be able to turn EXISTS or IN into JOIN (produce the same execution plan as JOIN). The only difference between the current SQL and the original is one additional join, which with clustered PK index seek should not affect the performance significantly.

But since you say that, apparently something unknown is causing the CBO to choose a bad plan. And since the plan depends on the data which I don't have, all I can do is to suggest trying two alternative functionally equivalent queries.

First, your current (slow) query seems to be like this:

var input = new { DefendantCode = "Abc", Skip = 4, Take = 2 };
var defendantCodePattern = "%" + input.DefendantCode + "%";

var query = db.Set<Record>()
    .Where(r => r.IsActive)
    .Where(r => EF.Functions.Like(r.Employer.DefendantCode, defendantCodePattern)
        || EF.Functions.Like(r.Contractor.DefendantCode, defendantCodePattern)
        || r.RecordProducts.Any(rp => EF.Functions.Like(rp.ProductDefendant.Defendant.DefendantCode, defendantCodePattern))
    )
    .Select(r => new
    {
        ID = r.RecordID,
        StartDate = r.StartDate,
        EndDate = r.EndDate,
        WitnessName = r.Witness.FullName,
        SourceCode = r.Source != null ? r.Source.SourceCode : "zzzzz",
        JobsiteName = r.Jobsite != null ? r.Jobsite.JobsiteName : "zzzzz",
        ShipName = r.Ship != null ? r.Ship.ShipName : "zzzzz",
        EmployeeCode = r.Employer != null ? r.Employer.DefendantCode : "zzzzz",
    })
    //.Distinct()
    .OrderBy(t => t.SourceCode)
    .Skip(input.Skip).Take(input.Take);

Some things to mention. First, the query is using projection (Select), so the Include / ThenInclude are not needed (because they are ignored). Second, the common search pattern is created and stored outside the query, thus ending up with a sing parameter rather than 3. Third, the Distinct is not needed for this query, so I've removed it.

Now the potential attempts to improve the generated SQL query executing speed.

(1) If the Defendant related table is not big, you can prefetch the DefendantIDs matching the search filter, and then use Contains (translated to SQL IN) for filtering This would help eliminating some of the joins. e.g.

var defendantIds = db.Set<Defendant>()
    .Where(d => EF.Functions.Like(d.DefendantCode, defendantCodePattern))
    .Select(d => d.DefendantID)
    .ToList();

and then (the second Where):

.Where(r => defendantIds.Contains(r.Employer.DefendantID)
    || defendantIds.Contains(r.Contractor.DefendantID)
    || r.RecordProducts.Any(rp => defendantIds.Contains(rp.ProductDefendant.Defendant.DefendantID))
)

(2) The following trick will replace the EXISTS with LEFT JOIN. Replace the second Where with:

.SelectMany(r => r.RecordProducts.DefaultIfEmpty(), (r, rp) => new { r, rp })
.Where(x => EF.Functions.Like(x.r.Employer.DefendantCode, defendantCodePattern)
    || EF.Functions.Like(x.r.Contractor.DefendantCode, defendantCodePattern)
    || EF.Functions.Like(x.rp.ProductDefendant.Defendant.DefendantCode, defendantCodePattern)
)
.Select(x => x.r)

and uncomment the .Distinct() (here it is needed because the LEFT JOIN (from SelectMany) multiplies the source records). The generated SQL in this case looks like this:

SELECT [t].[ID], [t].[StartDate], [t].[EndDate], [t].[WitnessName], [t].[SourceCode], [t].[JobsiteName], [t].[ShipName], [t].[EmployeeCode]
FROM (
    SELECT DISTINCT [r].[RecordID] AS [ID], [r].[StartDate], [r].[EndDate], [r.Witness].[FullName] AS [WitnessName], CASE
        WHEN [r].[SourceID] IS NOT NULL
        THEN [r.Source].[SourceCode] ELSE N'zzzzz'
    END AS [SourceCode], CASE
        WHEN [r].[JobsiteID] IS NOT NULL
        THEN [r.Jobsite].[JobsiteName] ELSE N'zzzzz'
    END AS [JobsiteName], CASE
        WHEN [r].[ShipID] IS NOT NULL
        THEN [r.Ship].[ShipName] ELSE N'zzzzz'
    END AS [ShipName], CASE
        WHEN [r].[EmployerID] IS NOT NULL
        THEN [r.Employer].[DefendantCode] ELSE N'zzzzz'
    END AS [EmployeeCode]
    FROM [Records] AS [r]
    LEFT JOIN [Ships] AS [r.Ship] ON [r].[ShipID] = [r.Ship].[ShipID]
    LEFT JOIN [Jobsites] AS [r.Jobsite] ON [r].[JobsiteID] = [r.Jobsite].[JobsiteID]
    LEFT JOIN [Sources] AS [r.Source] ON [r].[SourceID] = [r.Source].[SourceID]
    LEFT JOIN [Witnesses] AS [r.Witness] ON [r].[WitnessID] = [r.Witness].[WitnessID]
    LEFT JOIN [Defendants] AS [r.Contractor] ON [r].[ContractorID] = [r.Contractor].[DefendantID]
    LEFT JOIN [Defendants] AS [r.Employer] ON [r].[EmployerID] = [r.Employer].[DefendantID]
    LEFT JOIN [Records_Products] AS [r.RecordProducts] ON [r].[RecordID] = [r.RecordProducts].[RecordID]
    LEFT JOIN [Product_Defendant] AS [r.RecordProducts.ProductDefendant] ON [r.RecordProducts].[DefendantProductID] = [r.RecordProducts.ProductDefendant].[DefendantProductID]
    LEFT JOIN [Defendants] AS [r.RecordProducts.ProductDefendant.Defendant] ON [r.RecordProducts.ProductDefendant].[DefendantID] = [r.RecordProducts.ProductDefendant.Defendant].[DefendantID]
    WHERE ([r].[IsActive] = 1) AND (([r.Employer].[DefendantCode] LIKE @__defendantCodePattern_1 OR [r.Contractor].[DefendantCode] LIKE @__defendantCodePattern_1) OR [r.RecordProducts.ProductDefendant.Defendant].[DefendantCode] LIKE @__defendantCodePattern_1)
  ) AS [t]
ORDER BY [t].[SourceCode]
OFFSET @__p_2 ROWS FETCH NEXT @__p_3 ROWS ONLY

As I said at the very beginning, normally this should not affect the CBO plan. But I definitely see different estimated execution plan from the original, so it's worth trying (although the LINQ query looks ugly).

| improve this answer | |
  • The solution I was looking for but couldn't explain, was by changing the query from a exists to a join, I just didn't know how to do it and using a exist was running the query into a 40+ second operation, now it's down to ~10 seconds which is acceptable for my users. thanks for the help – user1186050 Jun 26 '19 at 20:38

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