Here’s how you might write this query in lambda:
var customers = new List {
new Customer { CompanyId = “AC”, CustomerId = “Customer1” },
new Customer { CompanyId = “not-AC”, CustomerId = “Customer2” },
};
var userCustomers = new List {
new UserCustomer { CompanyId = “AC”, CustomerId = “Customer1”, User = “not-admin” },
new UserCustomer { CompanyId = “AC”, CustomerId = “Customer1”, User = “admin” },
new UserCustomer { CompanyId = “AC”, CustomerId = “Customer2”, User = “not-admin” },
new UserCustomer { CompanyId = “AC”, CustomerId = “Customer2”, User = “admin” },
new UserCustomer { CompanyId = “not-AC”, CustomerId = “Customer1”, User = “not-admin” },
new UserCustomer { CompanyId = “not-AC”, CustomerId = “Customer1”, User = “admin” },
new UserCustomer { CompanyId = “not-AC”, CustomerId = “Customer2”, User = “not-admin” },
new UserCustomer { CompanyId = “not-AC”, CustomerId = “Customer2”, User = “admin” }
};
Using query expression
var query =
from c in customers
join uc in userCustomers on
new { c.CompanyId, c.CustomerId } equals new { uc.CompanyId, uc.CustomerId }
where c.CompanyId == “AC” && uc.User == “admin“
select c;
Using lambda expressions
var lambda = customers.Where(c => c.CompanyId == “AC”) // inner sequence
.Join(userCustomers.Where(uc => uc.User == “admin”), // outer sequence
c => new { c.CompanyId, c.CustomerId }, // inner key selector
uc => new { uc.CompanyId, uc.CustomerId }, // outer key selector
(c, uc) => c);
Both approach yields the same result (customer with company Id “AC” and customer Id “Customer1”), but as you can see, lambda expression is much harder to write and read!
Hope this helps!