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I wrote a method to perform a left join in LINQ, using the standard GroupJoin/SelectMany/DefaultIfEmpty approach:

public static IQueryable<TResult> LeftJoin<TLeft, TRight, TKey, TResult>(
    this IQueryable<TLeft> left,
    IEnumerable<TRight> right,
    Expression<Func<TLeft, TKey>> leftKeySelector,
    Expression<Func<TRight, TKey>> rightKeySelector,
    Expression<Func<TLeft, TRight, TResult>> resultSelector)
{
    var paramL = Expression.Parameter(typeof(TLeft), "l");
    var paramR = Expression.Parameter(typeof(TRight), "r");
    var paramRs = Expression.Parameter(typeof(IEnumerable<TRight>), "rs");

    var expr = Expression.Lambda<Func<TLeft, IEnumerable<TRight>, IEnumerable<TResult>>>(
       Expression.Call(
           typeof(Enumerable),
           "Select",
           new [] { typeof(TRight), typeof(TResult) },
           Expression.Call(typeof(Enumerable), "DefaultIfEmpty", new[] { typeof(TRight) }, paramRs),
           Expression.Lambda<Func<TRight, TResult>>(
               Expression.Invoke(resultSelector, paramL, paramR),
               paramR)),
       paramL,
       paramRs
   );

    return left
        .GroupJoin(
            right,
            leftKeySelector,
            rightKeySelector,
            expr)
        .SelectMany(x => x);
}

I tested it thus:

var q = myDB.PurchaseOrderHeaders
    .LeftJoin(
        myDB.PurchaseOrderLines,
        po => po.PurchaseOrderGUID,
        line => line.PurchaseOrderGUID,
        (po, line) => new { PO = po, Line = line }
    );

var e = q.AsEnumerable();

I expected SQL like this:

SELECT [t0].[PurchaseOrderGUID], ..., [t1].[PurchaseOrderLineGUID], ...
FROM [dbo].[PurchaseOrderHeader] AS [t0]
LEFT OUTER JOIN [dbo].[PurchaseOrderLine] AS [t1]
    ON [t0].[PurchaseOrderGUID] = [t1].[PurchaseOrderGUID]

But got this:

SELECT [t0].[PurchaseOrderGUID], ..., [t2].[test], [t2].[PurchaseOrderLineGUID], ...
FROM [dbo].[PurchaseOrderHeader] AS [t0]
LEFT OUTER JOIN (
    SELECT 1 AS [test], [t1].[PurchaseOrderLineGUID], ...
    FROM [dbo].[PurchaseOrderLine] AS [t1]
    ) AS [t2] ON [t0].[PurchaseOrderGUID] = [t2].[PurchaseOrderGUID]

The difference is the subquery with SELECT 1 as [test]. Why is it generating this? Is it likely to have any significant effect on performance? If so, can I modify the query to eliminate it?

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2 Answers 2

up vote 2 down vote accepted

(Disclaimer: I don't know very much about LINQ. The below is based on my knowledge of SQL, and an educated inference about what LINQ is trying to do.)

Why is it generating this?

I presume that the purpose of 1 AS [test] is to give LINQ a clear, simple, consistent, and unambiguous way to distinguish "no matching records in PurchaseOrderLine" from "one matching record in PurchaseOrderLine". You might think that you could distinguish these by examining PurchaseOrderLineGUID and the other fields, and that's probably true in your case; but in the general case, what would happen if a LEFT JOIN successfully joined to a record, but all of the fields selected from that record were null? (In your case, that's not possible, because PurchaseOrderLineGUID is (I assume) non-nullable, but does LINQ know that? Though for that matter, even without knowing which table-columns are non-nullable, a human query-writer could have avoided the subquery by using [t2].[PurchaseOrderGuid] AS [test] in the top-level field-list, since the ON clause prevents the possibility that [t2].[PurchaseOrderGuid] will be null if the match was successful; but I'm not sure how obvious that is to LINQ.)

Is it likely to have any significant effect on performance?

There shouldn't be any; because 1 AS [test] isn't used anywhere that could really affect query semantics (e.g., in a WHERE or ON or GROUP BY or HAVING clause), SQL Server should be able to perform "predicate pushdown" to (in a sense) move the ON condition into the subquery, and perform a regular indexed hash-join between PurchaseOrderHeader and PurchaseOrderLine to determine which records it needs. The 1 AS [test] would then only be added when it's assembling the result-set, for the PurchaseOrderLine records that are actually selected.

(I say this in part because I know that SQL Server is good at predicate pushdowns — even in the rare cases where that turns out to be a bad thing — and in part because, as noted above, LINQ could have avoided creating the subquery in this case. I imagine that the LINQ team knows what they're doing, and if they thought the subquery could have a performance penalty, I'm guessing that LINQ would try harder to determine whether a given case really requires the subquery. Since LINQ doesn't bother, it's presumably because it doesn't matter.)

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LinqKit helps solve those problems. The following extension creates nice sql.

public static IQueryable<TResult> LeftJoin<TOuter, TInner, TKey, TResult>(
    this IQueryable<TOuter> outer,
    IQueryable<TInner> inner,
    Expression<Func<TOuter, TKey>> outerKeySelector,
    Expression<Func<TInner, TKey>> innerKeySelector,
    Expression<Func<TOuter, TInner, TResult>> result) {

    return outer.GroupJoin(
            inner, 
            outerKeySelector, 
            innerKeySelector, 
            (a, b) => new { a, b }).AsExpandable()
        .SelectMany(
            z => z.b.DefaultIfEmpty(), 
            (z, b) => result.Invoke(z.a, b));
}
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