I wrote this SQL request with multiple JOIN (including a LEFT JOIN).
It gives me the expected result.

       COUNT(v.Id) AS 'Nb_V2',
       COUNT(DISTINCT v.IdUser) AS 'Nb_V1',
       r.cnt AS 'Nb_R'
JOIN TABLE_V v on c.Id = v.Id
    SELECT Id, COUNT(*)  AS cnt 
) r ON c.Id = r.Id
WHERE c.IdUser = '1234'
GROUP BY c.Id, c.Title, r.cnt

However, 'Id like the Linq equivalent of this request, to put it my application's Data Access layer.

I tried something like :

var qResult = from c in dbContext.TABLE_C
              join v in dbContext.TABLE_V on c.IdC equals v.IdC
              join r in dbContext.TABLE_R on v.IdC equals r.IdC into temp
              from x in temp.DefaultIfEmpty()
              group x by new { c.IdC, c.Title /*miss something ?*/} into grouped
              select new
                  IdC = grouped.Key.IdC,          --good result
                  Title = grouped.Key.Title,      --good result
                  NbR = grouped.Distinct().Count(t => t.IdC > 0), --good, but "t.Id > 0" seems weird
                  Count = --I'm lost. No idea how to get my COUNT(...) properties (Nb_V1 and Nb_V2)

I tried to adapt this SO question but I can't figure it out. I'm lost with the Count inside the groupped sub-request.
Can anyone explain me where i'm wrong ?

Pro tip : Bonus point if someone can write the equivalent with a lambda expression

  • The correct answer is - don't. LINQ isn't a replacement for SQL, it's a language on top of an ORM. If you need to perform JOINs in LINQ, it means your DbContext lacks the proper relations. Instead of joining you should add the missing relations Sep 9, 2020 at 5:47
  • And DbSets aren't tables, they are repositories for entities, with configured relations between each other that generate JOINs dynamically as needed. A DbContext is neither a connection nor a model of the database, it's actually a Unit-of-Work. Sep 9, 2020 at 6:14

1 Answer 1


For translating SQL to LINQ query comprehension:

  1. Translate subselects as separately declared variables unless they reference columns outside the subselect, in which case use parentheses to create a sub-query.
  2. Translate each clause in LINQ clause order, translating monadic and aggregate operators (DISTINCT, TOP, MIN, MAX etc) into functions applied to the whole LINQ query.
  3. Use table aliases as range variables. Use column aliases as anonymous type field names.
  4. Use anonymous types (new { ... }) for multiple columns (e.g. in groupby).
  5. Use First().field to get non-key values from the groupby aggregate range variable.
  6. When using EF or EF Core, translate JOIN clauses into navigation properties possibly using .Include().
  7. Otherwise JOIN clauses that are multiple ANDed equality tests between the two tables should be translated into anonymous objects on each side of equals.
  8. JOIN conditions that aren't all equality tests with AND must be handled using where clauses outside the join, or with cross product (from ... from ...) and then where. If you are doing LEFT JOIN, add a lambda Where clause between the join range variable and the DefaultIfEmpty() call.
  9. LEFT JOIN is simulated by using into joinvariable and doing another from the joinvariable followed by .DefaultIfEmpty().
  10. Translate multiple tables in the FROM clause into multiple from clauses.
  11. Translate FROM T1 CROSS APPLY T2 into two from clauses, one for T1 and one for T2.
  12. Translate FROM T1 OUTER APPLY T2 into two from clauses, one for T1 and one for T2, but add .DefaultIfEmpty() to T2.
  13. Replace COALESCE with the conditional operator (?:)and a null test.
  14. Translate IN to .Contains() and NOT IN to !...Contains(), using literal arrays or array variables for constant lists.
  15. Translate x BETWEEN low AND high to low <= x && x <= high.
  16. Translate CASE, ISNULL and IIF to the ternary conditional operator ?:.
  17. SELECT * must be replaced with select range_variable or for joins, an anonymous object containing all the range variables.
  18. SELECT columns must be replaced with select new { ... } creating an anonymous object with all the desired fields or expressions.
  19. References to computed SELECT columns can be translated by repeating the expression or by using let to name the expression before its first use.
  20. Proper FULL OUTER JOIN must be handled with an extension method.
  21. Translate UNION to Concat unless both sub-queries are DISTINCT, in which case you can translate to Union and leave off the DISTINCT.
  22. Translate aggregate queries that have no GROUP BY using a singleton GroupBy: add .GroupBy(r => 1) and then translate the aggregate functions in the Select.
  23. Date Math and some other canonical functions can be accessed using EF.Functions to get an instance of the DbFunctions class (EF Core), EntityFunctions class (EF < 6) or DbFunctions to access the static methods (EntityFramework 6.x).
  24. Translate SQL LIKE expressions using (EF Core >= 2) EF.Functions.Like(column, pattern) or (EF 6.x) DbFunctions.Like(column, pattern).

Applying these rules to your SQL query, you get:

var subrq = from r in Table_R
            group r by r.Id into rg
            select new { Id = rg.Key, cnt = rg.Count() };

var ansq = (from c in Table_C
            join v in Table_V on c.Id equals v.Id
            join r in subrq on c.Id equals r.Id into rj
            from r in rj.DefaultIfEmpty()
            where c.IdUser == "1234"
            group new { c, v, r } by new { c.Id, c.Title, r.cnt } into cvrg
            select new {
                Nb_V2 = cvrg.Count(),
                Nb_V1 = cvrg.Select(cvr => cvr.v.IdUser).Distinct().Count(),
                Nb_R = (int?)cvrg.Key.cnt

The lambda translation is tricky, but the conversion of LEFT JOIN to GroupJoin...SelectMany is what is needed:

var subr2 = Table_R.GroupBy(r => r.Id).Select(rg => new { Id = rg.Key, cnt = rg.Count() });
var ans2 = Table_C.Where(c => c.IdUser == "1234")
                  .Join(Table_V, c => c.Id, v => v.Id, (c, v) => new { c, v })
                  .GroupJoin(subr, cv => cv.c.Id, r => r.Id, (cv, rj) => new { cv.c, cv.v, rj })
                  .SelectMany(cvrj => cvrj.rj.DefaultIfEmpty(), (cvrj, r) => new { cvrj.c, cvrj.v, r })
                  .GroupBy(cvr => new { cvr.c.Id, cvr.c.Title, cvr.r.cnt })
                  .Select(cvrg => new { cvrg.Key.Title, Nb_V2 = cvrg.Count(), Nb_V1 = cvrg.Select(cvr => cvr.v.IdUser).Distinct().Count(), Nb_R = (int?)cvrg.Key.cnt });
  • 2
    It's a nice copy / paste from stackoverflow.com/a/48348721/2687153 or stackoverflow.com/a/48895078/2687153, but I've already found these posts and I'd appreciate a more personalized answer. Because I'm afraid I'm unable to adapt it to my problem... Mar 12, 2018 at 23:37
  • 1
    Yeah, I wrote those answers too :) - did you try to apply the recipe?
    – NetMage
    Mar 13, 2018 at 18:15
  • I tried your Linq query but I'm stuck at Fail cast in value type System.Int32, because materialized value is Null. The generic parameter of the result type or the request must use nullable type (roughly translated) Is it because the left join produces some null values ? subrq is good but ansq produces this error. This seem to be the group new clause which fails. Could it be the r.cnt ? Mar 14, 2018 at 0:45
  • 1
    @user2687153 Sorry, that was left over from my testing! I test in LINQPad using LINQ to Objects normally, and it doesn't handle nulls automatically the way LINQ to SQL does so I must put in ?. but sometimes I forget to take them out when pasting into SO. I fixed it. My guess is the final select might need the same (int?) cast in the lambda version.
    – NetMage
    Mar 15, 2018 at 18:31
  • 1
    It would be good to add a section that strongly advocates using navigation properties instead of joins. This "recipe" may lead to the bad habit of automatically translating joins literally and not leveraging the power of an ORM. May 1, 2021 at 19:39

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