149

Is this query equivalent to a LEFT OUTER join?

//assuming that I have a parameter named 'invoiceId' of type int
from c in SupportCases
let invoice = c.Invoices.FirstOrDefault(i=> i.Id == invoiceId)
where (invoiceId == 0 || invoice != null)    
select new 
{
      Id = c.Id
      , InvoiceId = invoice == null ? 0 : invoice.Id
}
0

6 Answers 6

239

You don't need the into statements:

var query = 
    from customer in dc.Customers
    from order in dc.Orders
         .Where(o => customer.CustomerId == o.CustomerId)
         .DefaultIfEmpty()
    select new { Customer = customer, Order = order } 
    //Order will be null if the left join is null

And yes, the query above does indeed create a LEFT OUTER join.

Link to a similar question that handles multiple left joins: Linq to Sql: Multiple left outer joins

9
  • 16
    While I know that @Marc Gravvel's answer does work, I really prefer this method because IMO it feels more in line with what a left join should look like.
    – llaughlin
    Aug 6, 2012 at 15:30
  • 1
    Excellent answer. Looking for more than 5 hours of google search. This is the only way resulting SQL will have left join in it.
    – Faisal Mq
    Jul 13, 2013 at 22:01
  • 1
    THANK YOU soooo much....I was searching for a solution for this all afternoon and your code nailed it (and feels natural to boot). Wish I could upvote this several times.
    – Jim
    Sep 12, 2013 at 20:52
  • 2
    @Jim thanks :-) I'm glad devs are still getting mileage out of this answer. I completely agree that the DefaultIfEmpty() feels a lot more natural than using the into statements.
    – Amir
    Sep 13, 2013 at 15:35
  • 9
    Just a note for anyone else who finds this like I just did, this results in a LEFT OUTER JOIN inside a CROSS APPLY, which means you will get duplicates if there are multiple matches on the right-hand side of the join. Marc Gravell's solution, while not as "pretty" gave me the proper SQL output and result set that I was looking for.
    – Mike U
    Jun 21, 2016 at 14:48
185

Not quite - since each "left" row in a left-outer-join will match 0-n "right" rows (in the second table), where-as yours matches only 0-1. To do a left outer join, you need SelectMany and DefaultIfEmpty, for example:

var query = from c in db.Customers
            join o in db.Orders
               on c.CustomerID equals o.CustomerID into sr
            from x in sr.DefaultIfEmpty()
            select new {
               CustomerID = c.CustomerID, ContactName = c.ContactName,
               OrderID = x == null ? -1 : x.OrderID };   

(or via the extension methods)

9
  • 29
    Can someone explain how this crazy syntax works? I fail to see how any of those keywords magically makes it a left join. What does the "into sr" do? Linq frustrates me sometimes :) Apr 7, 2014 at 21:29
  • 5
    @JoePhillips I have plenty of SQL experience but trying to learn LINQ is like wading through mud. I agree it is absolutely crazy.
    – Nick.Mc
    Jun 12, 2014 at 3:41
  • @marc-gravell:Could you help me in solving my sql query to linq conversion : stackoverflow.com/questions/28367941/…
    – Vishal
    Feb 9, 2015 at 7:35
  • 1
    @VishalIPatil so... why do that? Just about every LINQ tool includes the ability to run hand-written SQL. Why not just do that? Feb 9, 2015 at 14:57
  • 1
    @JoePhillips, I think into sq is called a grouping in LINQ terms. It's the virtual result of the join operation and is a collection made up of all the other joined objects, but seems to also have the properties of the right side of the join. Like x.Customer and x.Order and also x.AllPropertiesOfOrder (because they are looping through sr with from x in sr.DefaultIfEmpty(). DefaultIfEmpty just initialises a default Order if the join yielded null. Mar 2, 2021 at 10:13
14
Public Sub LinqToSqlJoin07()
Dim q = From e In db.Employees _
        Group Join o In db.Orders On e Equals o.Employee Into ords = Group _
        From o In ords.DefaultIfEmpty _
        Select New With {e.FirstName, e.LastName, .Order = o}

ObjectDumper.Write(q) End Sub

Check http://msdn.microsoft.com/en-us/vbasic/bb737929.aspx

1
  • Nice try but it looks like the OP is using c#. The VB syntax is oddly different.
    – Levitikon
    Sep 6, 2012 at 15:29
5

I found 1 solution. if want to translate this kind of SQL (left join) into Linq Entity...

SQL:

SELECT * FROM [JOBBOOKING] AS [t0]
LEFT OUTER JOIN [REFTABLE] AS [t1] ON ([t0].[trxtype] = [t1].[code])
                                  AND ([t1]. [reftype] = "TRX")

LINQ:

from job in JOBBOOKINGs
join r in (from r1 in REFTABLEs where r1.Reftype=="TRX" select r1) 
          on job.Trxtype equals r.Code into join1
from j in join1.DefaultIfEmpty()
select new
{
   //cols...
}
1
2

I'd like to add one more thing. In LINQ to SQL if your DB is properly built and your tables are related through foreign key constraints, then you do not need to do a join at all.

Using LINQPad I created the following LINQ query:

//Querying from both the CustomerInfo table and OrderInfo table
from cust in CustomerInfo
where cust.CustomerID == 123456
select new {cust, cust.OrderInfo}

Which was translated to the (slightly truncated) query below

 -- Region Parameters
 DECLARE @p0 Int = 123456
-- EndRegion
SELECT [t0].[CustomerID], [t0].[AlternateCustomerID],  [t1].[OrderID], [t1].[OnlineOrderID], (
    SELECT COUNT(*)
    FROM [OrderInfo] AS [t2]
    WHERE [t2].[CustomerID] = [t0].[CustomerID]
    ) AS [value]
FROM [CustomerInfo] AS [t0]
LEFT OUTER JOIN [OrderInfo] AS [t1] ON [t1].[CustomerID] = [t0].[CustomerID]
WHERE [t0].[CustomerID] = @p0
ORDER BY [t0].[CustomerID], [t1].[OrderID]

Notice the LEFT OUTER JOIN above.

1

Take care of performance:

I experienced that at least with EF Core the different answers given here might result in different performance. I'm aware that the OP asked about Linq to SQL, but it seems to me that the same questions occur also with EF Core.

In a specific case I had to handle, the (syntactically nicer) suggestion by Marc Gravell resulted in left joins inside a cross apply -- similarly to what Mike U described -- which had the result that the estimated costs for this specific query were two times as high compared to a query with no cross joins. The server execution times differed by a factor of 3. [1]

The solution by Marc Gravell resulted in a query without cross joins.

Context: I essentially needed to perform two left joins on two tables each of which again required a join to another table. Furthermore, there I had to specify other where-conditions on the tables on which I needed to apply the left join. In addition, I had two inner joins on the main table.

Estimated operator costs:

  • with cross apply: 0.2534
  • without cross apply: 0.0991.

Server execution times in ms (queries executed 10 times; measured using SET STATISTICS TIME ON):

  • with cross apply: 5, 6, 6, 6, 6, 6, 6, 6, 6, 6
  • without cross apply: 2, 2, 2, 2, 2, 2, 2, 2, 2, 2

(The very first run was slower for both queries; seems that something is cached.)

Table sizes:

  • main table: 87 rows,
  • first table for left join: 179 rows;
  • second table for left join: 7 rows.

EF Core version: 2.2.1.

SQL Server version: MS SQL Server 2017 - 14... (on Windows 10).

All relevant tables had indexes on the primary keys only.

My conclusion: it's always recommended to look at the generated SQL since it can really differ.


[1] Interestingly enough, when setting the 'Client statistics' in MS SQL Server Management Studio on, I could see an opposite trend; namely that last run of the solution without cross apply took more than 1s. I suppose that something was going wrong here - maybe with my setup.

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