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The problem is often mentioned in object-relation mapping discussions, and I understand that it has something do to with having to make a lot of database queries for something that seems simple in the object world.

Does anybody have a more detailed--but simple--explanation of the problem?

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all I wanted to know about select(n+1) problem but was afraid to ask –  chester89 Apr 1 '10 at 22:35
IMO javalobby.org/java/forums/t20533.html this explanation is better –  didxga Jun 19 '12 at 5:48
Hate the name of this problem. In my dream world it's called "n vs. 1", not n+1. –  Lee Whitney Jul 4 '12 at 18:29
This is a great link with nice explanation on understanding the n+1 problem. It also covers the solutions to counter this issue: architects.dzone.com/articles/how-identify-and-resilve-n1 –  aces. Aug 29 '12 at 20:29
N+1 is one of the most famous question among java developers. It will give some performance issue if you where working on a large project. So it's better to resolve it using some techniques given here javawebtutorial.blogspot.in/2013/09/… –  user528050 Oct 8 '13 at 8:41

14 Answers 14

up vote 377 down vote accepted

I'm not an expert, and the best guide is Java Persistence with Hibernate, chapter 13. But I can try to give a short example.

Let's say you have a collection of Car objects (database rows), and each Car has a collection of Wheel objects (database rows). In other words, Car:Wheel is a 1-to-many relationship.

Now, let's say you need to iterate through all the cars, and for each one, print out a list of the wheels. The naive O/R implementation would do the following:


/* for each car */

In other words, you have one select for the Cars, and then N additional selects, where N is the total number of cars.

This is bad :-). Hibernate (I'm not familiar with the other ORM frameworks) gives you several ways to handle it.

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To clarify on the "This is bad" - you could get all the wheels with 1 select (SELECT * from Wheel;), instead of N+1. With a large N, the performance hit can be very significant. –  tucuxi Aug 30 '10 at 10:43
@tucuxi I'm surprised you got so many upvotes for being wrong. A database is very good about indexes, doing the query for a specific CarID would return very fast. But if you got all the Wheels are once, you would have to search for CarID in your application, which is not indexed, this is slower. Unless you have major latency issues reaching your database going n + 1 is actually faster - and yes, I benchmarked it with a large variety of real world code. –  Ariel Oct 30 '11 at 20:32
@ariel The 'correct' way is to get all the wheels, ordered by CarId (1 select), and if more details than the CarId are required, make a second query for all cars (2 queries total). Printing things out is now optimal, and no indexes or secondary storage were required (you can iterate over results, no need to download them all). You benchmarked the wrong thing. If you are still confident of your benchmarks, would you mind posting a longer comment (or a full answer) explaining your experiment and results? –  tucuxi Nov 1 '11 at 12:36
"Hibernate (I'm not familiar with the other ORM frameworks) gives you several ways to handle it." and these way are? –  Tima Jan 12 '12 at 14:17
@Ariel Try running your benchmarks with database and application servers on separate machines. In my experience, round trips to the database cost more in overhead than the query itself. So yes, the queries are really fast, but it's the round trips that wreak havok. I've converted "WHERE Id = const" to "WHERE Id IN (const, const, ...)" and gotten orders of magnitude increases out of it. –  Hans Oct 2 '12 at 23:07
, table2.*
INNER JOIN table2 ON table2.SomeFkId = table1.SomeId

That gets you a result set where child rows in table2 cause duplication by returning the table1 results for each child row in table2. O/R mappers should differentiate table1 instances based on a unique key field, then use all the table2 columns to populate child instances.

SELECT table1.*

SELECT table2.* WHERE SomeFkId = #

The N+1 is where the first query populates the primary object and the second query populates all the child objects for each of the unique primary objects returned.


class House
    int Id { get; set; }
    string Address { get; set; }
    Person[] Inhabitants { get; set; }

class Person
    string Name { get; set; }
    int HouseId { get; set; }

and tables with a similar structure. A single query for the address "22 Valley St" may return:

Id Address      Name HouseId
1  22 Valley St Dave 1
1  22 Valley St John 1
1  22 Valley St Mike 1

The O/RM should fill an instance of Home with ID=1, Address="22 Valley St" and then populate the Inhabitants array with People instances for Dave, John, and Mike with just one query.

A N+1 query for the same address used above would result in:

Id Address
1  22 Valley St

with a separate query like

SELECT * FROM Person WHERE HouseId = 1

and resulting in a separate data set like

Name    HouseId
Dave    1
John    1
Mike    1

and the final result being the same as above with the single query.

The advantages to single select is that you get all the data up front which may be what you ultimately desire. The advantages to N+1 is query complexity is reduced and you can use lazy loading where the child result sets are only loaded upon first request.

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The other advantage of n + 1 is that it's faster because the database can return the results directly from an index. Doing the join and then sorting requires a temp table, which is slower. The only reason to avoid n + 1 is if you have a lot of latency talking to your database. –  Ariel Oct 30 '11 at 20:34
Joining and sorting can be quite fast (because you will be joining on indexed-and-possibly-sorted fields). How big is your 'n+1'? Do you seriously believe that the n+1 problem only applies to high-latency database connections? –  tucuxi Nov 1 '11 at 12:46
@tucuxi Joining and sorting is slow because you need to sort on columns from two different tables, and MySQL at least doesn't support such an index, so it sorts it in a temporary table - this is slow. (Some database do have a composite index from two tables, that would help a lot.) –  Ariel Nov 1 '11 at 19:42
@ariel - Your advice that N+1 is the "fastest" is wrong, even though your benchmarks may be correct. How is that possible? See en.wikipedia.org/wiki/Anecdotal_evidence, and also my comment in the other answer to this question. –  Lee Whitney Jul 4 '12 at 18:27
@Ariel - I think I understood it fine :). I'm just trying to point out that your result only applies to one set of conditions. I could easily construct a counter example that showed the opposite. Does that make sense? –  Lee Whitney Jul 5 '12 at 0:31

Supplier with a one-to-many relationship with Product. One Supplier has (supplies) many Products.

***** Table: Supplier *****
| ID  |       NAME        |
|  1  |  Supplier Name 1  |
|  2  |  Supplier Name 2  |
|  3  |  Supplier Name 3  |
|  4  |  Supplier Name 4  |

***** Table: Product *****
|1    | Product 1 | Name for Product 1 |  2.0  |     1      |
|2    | Product 2 | Name for Product 2 | 22.0  |     1      |
|3    | Product 3 | Name for Product 3 | 30.0  |     2      |
|4    | Product 4 | Name for Product 4 |  7.0  |     3      |


  • Lazy mode for Supplier set to “true” (default)

  • Fetch mode used for querying on Product is Select

  • Fetch mode (default): Supplier information is accessed

  • Caching does not play a role for the first time the

  • Supplier is accessed

Fetch mode is Select Fetch (default)

// It takes Select fetch mode as a default
Query query = session.createQuery( "from Product p");
List list = query.list();
// Supplier is being accessed

select ... various field names ... from PRODUCT
select ... various field names ... from SUPPLIER where SUPPLIER.id=?
select ... various field names ... from SUPPLIER where SUPPLIER.id=?
select ... various field names ... from SUPPLIER where SUPPLIER.id=?


  • 1 select statement for Product
  • N select statements for Supplier

This is N+1 select problem!

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The code block is repeated, is that intentional? –  Abhijeet Kashnia Sep 30 '10 at 15:18

We moved away from the ORM in Django because of this problem. Basically, if you try and do

for p in person:
    print p.car.colour

The ORM will happily return all people (typically as instances of a Person object), but then it will need to query the car table for each Person.

A simple and very effective approach to this is something I call "fanfolding", which avoids the nonsensical idea that query results from a relational database should map back to the original tables from which the query is composed.

Step 1: Wide select

  select * from people_car_colour; # this is a view or sql function

This will return something like

  p.id | p.name | p.telno | car.id | car.type | car.colour
  2    | jones  | 2145    | 77     | ford     | red
  2    | jones  | 2145    | 1012   | toyota   | blue
  16   | ashby  | 124     | 99     | bmw      | yellow

Step 2: Objectify

Suck the results into a generic object creator with an argument to split after the third item. This means that "jones" object won't be made more than once.

Step 3: Render

for p in people:
    print p.car.colour # no more car queries

See this web page for an implementation of fanfolding for python.

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i'm so glad i stumbled on your post, because i thought i was going crazy. when i found out about the N+1 problem, my immediate thought was- well, why don't you just create a view that contains all the information you need, and pull from that view? you have validated my position. thank you sir. –  a developer Sep 16 '11 at 15:07

Here's a good description of the problem - http://www.realsolve.co.uk/site/tech/hib-tip-pitfall.php?name=why-lazy

Now that you understand the problem it can typically be avoided by doing a join fetch in your query. This basically forces the fetch of the lazy loaded object so the data is retrieved in one query instead of n+1 queries. Hope this helps.

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This problem doesn't just exist in ORMs. It can certainly be found in plenty of applications that don't use them. There is an explanation of one way to get around the issue in Scott Rudy's HP blog.

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super helpful article. one of the disadvantages of the voting system here is that if you had reproduced the content of the article here in its entirety (not imho a desirable action), you'd probably have gotten tons of upvotes. –  kewpiedoll99 Mar 14 '13 at 14:45
The page tells "You do not have sufficient privileges for this resource or its parent to perform this action." even after registration :( –  mlvljr Jun 25 at 14:13
Yes, please update your answer to include a working link that does not require credentials to access. In addition, if you'd give us the title of the blog we could search for copies of it after they shut down the site; as it is, we're now in the dark with nothing but our imagination to think about what might be on that page... :( –  Garret Wilson Jul 3 at 13:18
The referenced link is loading for a couple of minutes and I had to abort, because it did not load ... if you have something helpful to tell us, please include it in your answer directly or summarize the article referenced. –  Matt Jul 28 at 12:08
This post does not explain what the N+1 selects problem is, therefore it does not answer the question. –  Asad Sep 16 at 16:10

In my opinion the article written in Hibernate Pitfall: Why Relationships Should Be Lazy is exactly opposite of real N+1 issue is.

If you need correct explanation please refer Hibernate - Chapter 19: Improving Performance - Fetching Strategies

Select fetching (the default) is extremely vulnerable to N+1 selects problems, so we might want to enable join fetching

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i read the hibernate page. It doesn't say what the N+1 selects problem actually is. But it says you can use joins to fix it. –  Ian Boyd Aug 26 '10 at 11:25
batch-size is required for select fetching, to select child objects for multiple parents in one select statement. Subselect could be another alternative. Joins can get really bad if you have multiple hierarchy levels and a cartesian product is created. –  Erik Hart Oct 3 '13 at 20:19

Suppose you have COMPANY and EMPLOYEE. COMPANY has many EMPLOYEES (i.e. EMPLOYEE has a field COMPANY_ID).

In some O/R configurations, when you have a mapped Company object and go to access its Employee objects, the O/R tool will do one select for every employee, wheras if you were just doing things in straight SQL, you could select * from employees where company_id = XX. Thus N (# of employees) plus 1 (company)

This is how the initial versions of EJB Entity Beans worked. I believe things like Hibernate have done away with this, but I'm not too sure. Most tools usually include info as to their strategy for mapping.

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Check Ayende post on the topic: Combating the Select N + 1 Problem In NHibernate

Basically, when using an ORM like NHibernate or EntityFramework, if you have a one-to-many (master-detail) relationship, and want to list all the details per each master record, you have to make N + 1 query calls to the database, "N" being the number of master records: 1 query to get all the master records, and N queries, one per master record, to get all the details per master record.

More database query calls --> more latency time --> decreased application/database performance.

However, ORM's have options to avoid this problem, mainly using "joins".

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joins are not a good solution (often), because they may result in a cartesian product, meaning the number of result rows is the number of root table results multiplied with the number of results in each child table. particularly bad over multiple herarchy levels. Selecting 20 "blogs" with 100 "posts" on each and 10 "comments" on each post will result in 20000 result rows. NHibernate has workarounds, like the "batch-size" (select children with in clause on parent ids) or "subselect". –  Erik Hart Oct 3 '13 at 20:12

The supplied link has a very simply example of the n + 1 problem. If you apply it to Hibernate it's basically talking about the same thing. When you query for an object, the entity is loaded but any associations (unless configured otherwise) will be lazy loaded. Hence one query for the root objects and another query to load the associations for each of these. 100 objects returned means one initial query and then 100 additional queries to get the association for each, n + 1.


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I can't comment directly on other answers, because I don't have enough reputation. But it's worth noting that the problem essentially only arises because, historically, a lot of dbms have been quite poor when it comes to handling joins (MySQL being a particularly noteworthy example). So n+1 has, often, been notably faster than a join. And then there are ways to improve on n+1 but still without needing a join, which is what the original problem relates to.

However, MySQL is now a lot better than it used to be when it comes to joins. When I first learned MySQL, I used joins a lot. Then I discovered how slow they are, and switched to n+1 in the code instead. But, recently, I've been moving back to joins, because MySQL is now a heck of a lot better at handling them than it was when I first started using it.

These days, a simple join on a properly indexed set of tables is rarely a problem, in performance terms. And if it does give a performance hit, then the use of index hints often solves them.

This is discussed here by one of the MySQL development team:


So the summary is: If you've been avoiding joins in the past because of MySQL's abysmal performance with them, then try again on the latest versions. You'll probably be pleasantly surprised.

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Upvoted, you should be able to comment now –  nathanchere Sep 10 at 20:03

One millionaire has N cars. You want to get all (4) wheels.

One (1) query loads all the cars, but for each (N) car a separate query is submitted for loading wheels.


Assume indexes fit into ram.

1 + N query parsing and planing + index searching AND 1 + N + (N * 4) plate access for loading payload.

Assume indexes don't fit into ram.

Additional costs in worst case 1 + N plate accesses for loading index.


Bottle neck is plate access (ca. 70 times per second random access on hdd) An eager join select would also access the plate 1 + N + (N * 4) times for payload. So if the indexes fit into ram - no problem, its fast enough because only ram operations involved.

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The issue as others have stated more elegantly is that you either have a Cartesian product of the OneToMany columns or you're doing N+1 Selects. Either possible gigantic resultset or chatty with the database, respectively.

I'm surprised this isn't mentioned but this how I have gotten around this issue... I make a semi-temporary ids table. I also do this when you have the the IN () clause limitation.

This doesn't work for all cases (probably not even a majority) but it works particularly well if you have lots child objects such that the Cartesian product will get out of hand (ie lots of OneToMany columns the number of results will be a multiplication of the columns) and its more of a batch like job.

First you insert your parent object ids as batch into an ids table. This batch_id is something we generate in our app and hold onto.

INSERT INTO temp_ids 
    (product_id, batch_id)
    (SELECT p.product_id, ? 
    FROM product p ORDER BY p.product_id
    LIMIT ? OFFSET ?);

Now for each OneToMany column you just do a SELECT on the ids table INNER JOINing the child table with a WHERE batch_id= (or vice versa). You just want to make sure you order by the id column as it will make merging result columns easier (otherwise you will need a HashMap/Table for the entire result set which may not be that bad).

Then you just periodically clean the ids table.

This also works particularly well if the user selects say 100 or so distinct items for some sort of bulk processing. Put the 100 distinct ids in the temporary table.

Now the number of queries you are doing is by the number of OneToMany columns.

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Take Matt Solnit example, imagine that you define an association between Car and Wheels as LAZY and you need some Wheels fields. This means that after the first select, hibernate is going to do "Select * from Wheels where car_id = :id" FOR EACH Car.

This makes the first select and more 1 select by each N car, that's why it's called n+1 problem.

To avoid this, make the association fetch as eager, so that hibernate loads data with a join.

But attention, if many times you don't access associated Wheels, it's better to keep it LAZY or change fetch type with Criteria.

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Again, joins are not a good solution, especially when more than 2 hierarchy levels may be loaded. Check "subselect" or "batch-size" instead; the last will load children by parent IDs in "in" clause, such as "select ... from wheels where car_id in (1,3,4,6,7,8,11,13)". –  Erik Hart Oct 3 '13 at 20:29

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