# Explanation of self-joins

I don't understand the need for self-joins. Can someone please explain them to me?

A simple example would be very helpful.

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You can view self-join as two identical tables. But in normalization you cannot create two copies of the table so you just simulate having two tables with self-join.

Suppose you have two tables:

### Table `emp1`

``````Id Name Boss_id
1   ABC   3
2   DEF   1
3   XYZ   2
``````

### Table `emp2`

``````Id Name Boss_id
1   ABC   3
2   DEF   1
3   XYZ   2
``````

Now if you want get the name of each employee with their boss's names:

``````select
c1.Name , c2.Name As Boss
from
emp1 c1
inner join emp2 c2
on c1.Boss_id = c2.Id
``````

Which will output the following table:

``````Name  Boss
ABC   XYZ
DEF   ABC
XYZ   DEF
``````
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It's quite common when you have a table that references itself. Example: an employee table where every employee can have a manager, and you want to list all employees and the name of their manager.

``````SELECT e.name, m.name
FROM employees e LEFT OUTER JOIN employees m
ON e.manager = m.id
``````
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Great minds think alike... :-) –  ceejayoz Mar 16 '10 at 22:16
haha, but you beat me to the clock :-) –  windyjonas Mar 17 '10 at 8:02
+1 to both of u –  Na Mo Dec 4 '13 at 6:49

A self join is a join of a table with itself.

A common use case is when the table stores entities (records) which have a hierarchical relationship between them. For example a table containing person information (Name, DOB, Address...) and including a column where the ID of the Father (and/or of the mother) is included. Then with a small query like

``````SELECT Child.ID, Child.Name, Child.PhoneNumber, Father.Name, Father.PhoneNumber
FROM myTableOfPersons As Child
LEFT OUTER JOIN  myTableOfPersons As Father ON Child.FatherId = Father.ID
WHERE Child.City = 'Chicago'  -- Or some other condition or none
``````

we can get info about both child and father (and mother, with a second self join etc. and even grand parents etc...) in the same query.

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Let's say you have a table `users`, set up like so:

• user ID
• user name
• user's manager's ID

In this situation, if you wanted to pull out both the user's information and the manager's information in one query, you might do this:

``````SELECT users.user_id, users.user_name, managers.user_id AS manager_id, managers.user_name AS manager_name INNER JOIN users AS manager ON users.manager_id=manager.user_id
``````
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They are useful if your table is self-referential. For example, for a table of pages, each page may have a `next` and `previous` link. These would be the IDs of other pages in the same table. If at some point you want to get a triple of successive pages, you'd do two self-joins on the `next` and `previous` columns with the same table's `id` column.

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Imagine a table called `Employee` as described below. All employees have a manager which is also an employee (maybe except for the CEO, whose manager_id would be null)

``````Table (Employee):

int id,
varchar name,
int manager_id
``````

You could then use the following select to find all employees and their managers:

``````select e1.name, e2.name as ManagerName
from Employee e1, Employee e2 where
where e1.manager_id = e2.id
``````
-

Without the ability for a table to reference itself, we'd have to create as many tables for hierarchy levels as the number of layers in the hierarchy. But since that functionality is available, you join the table to itself and sql treats it as two separate tables, so everything is stored nicely in one place.

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but now you (hopefully) understand what would happen if the self-reference was not available. –  Eugene Mar 16 '10 at 22:29

It's the database equivalent of a linked list/tree, where a row contains a reference in some capacity to another row.

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Actually, given that more than one row can reference a "parent" it can be a tree, too, such as with the oft cited example of employee->manager. –  NVRAM Mar 16 '10 at 23:24
I was just trying for a simple analogy, but yes a tree could work, too. –  Unsliced Mar 17 '10 at 8:04

This image explains

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er, no it doesn't. The image doesn't mention self joins and is unreadable at that size anyway. Original Code Project Article –  Martin Smith Mar 17 '12 at 17:45
thank you ... understood the whole concept of joins through this image –  Na Mo Dec 4 '13 at 7:12

There are many correct answers here, but there is a variation that is equally correct. You can place your join conditions in the join statement instead of the WHERE clause.

``````SELECT e1.emp_id AS 'Emp_ID'
, e1.emp_name AS 'Emp_Name'
, e2.emp_id AS 'Manager_ID'
, e2.emp_name AS 'Manager_Name'
FROM Employee e1 RIGHT JOIN Employee e2 ON e1.emp_id = e2.emp_id
``````

Keep in mind sometimes you want e1.manager_id > e2.id

The advantage to knowing both scenarios is sometimes you have a ton of WHERE or JOIN conditions and you want to place your self join conditions in the other clause to keep your code readable.

No one addressed what happens when an Employee does not have a manager. Huh? They are not included in the result set. What if you want to include employees that do not have managers but you don't want incorrect combinations returned?

Try this puppy;

``````SELECT e1.emp_id AS 'Emp_ID'
, e1.emp_name AS 'Emp_Name'
, e2.emp_id AS 'Manager_ID'
, e2.emp_name AS 'Manager_Name'
FROM Employee e1 LEFT JOIN Employee e2
ON e1.emp_id > e2.emp_id
AND e1.emp_name = e2.emp_name
AND e1.every_other_matching_column = e2.every_other_matching_column
``````
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Hm, in the puppy, why do you join on "greater than" instead of "equals"? –  Marcel Feb 5 at 18:29