Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a very big list of element in my non-sql database.

Every element has a sort order from 1 to N. This sort order specifies how the results appear on the forms.

When in the UI triggers a change of order (put element i in position j) I need to update all the entities between. If the element 1 becomes the lastest, I need to make N updates.

Is there an efficient way to make this operation less costly? Is there an smart way to index the sort value?

Some considerations:

  • I'm re-designing my application so I can afford to reindex the entities with a smarter solution.
  • The cost of a write (update) is +-4 times bigger than a fetch (read 1 entity).
  • The list is big, does not fit in memory.
share|improve this question
As far as javascript goes, the less changes to the DOM you make, the better. It would be best if you could determine your form elements' orders before using appendChild. – Steve Binder Sep 25 '12 at 20:44
First, do the elements have to be actual random-access indices, or just in monotonically-increasing order. (For example, if you could add two elements at position 2.333 and 2.666 and have them show up between 2 and 3, would that be good enough, or do you need to know that the one at position 3 is actually the 4th one rather than the 6th?) – abarnert Sep 25 '12 at 20:49
Second, I'm assuming lookups have to be faster than inserts/moves, but if that's not true, that opens up a wider range of answers, so it's worth asking… – abarnert Sep 25 '12 at 20:51
Third, are you keeping a list/dict/whatever of elements with (among other members) sort orders, plus a separate list/array/whatever in sort order (like a SQL-style index)? What are the actual data structures you're using? – abarnert Sep 25 '12 at 20:55
What language? You got multiple of them listed. – Caesar Sep 25 '12 at 20:55

4 Answers 4

up vote 2 down vote accepted
  1. Reindex your entities. Set order property to double.
  2. Every time a user moves an entity to a new position, assign it a new order property between the other two entities:

    entityA.setOrder((entityB.getOrder() + entityC.getOrder())/2);

  3. Save entity A (property "order" should be indexed).

  4. When a user requests entities from 10000 to 10200, build a Query on your order property with a sort order. Retrieve results from 10000 to 10200:


  5. Never reindex your entities again. Datastore does it for you every time you save an entity.

share|improve this answer
I agree, this is pretty much the same as what I was suggesting. While doubles are indeed sparse, assuming you have infinite space is courting disaster. Let's say he makes a wildly successful twitter clone and has a trillion entities (about 3 days of tweets if each tweet was an entity). If he sorts once per second, yes, at the worst case he could hit a collision in about 8 years. However in a month, when he has 8x the data, it would only take him 1 year to hit the collision. It really depends how much data and how much sorting he's doing, but it's not impossible. – dragonx Sep 26 '12 at 15:27
You are suggesting that his app will have something like 18,000,000 of TRILLIONS of records in about a year? We can safely assume it's not going to happen. If hits just one trillion, he'll be tweeting from his yacht in France. – Andrei Volgin Sep 26 '12 at 15:37
I wish! The practical answer is no, I won't have trillions of entities but the question is which is the most efficient way. We can discuss a lot about what is efficiency. I'd say the best solution is the one it can handle more data with less collisions with the minimum ops. – Jordi P.S. Sep 27 '12 at 8:15
There will be no collisions in my solution, and there is zero cost: no extra reads or writes relative to just saving your entity with a new order number. It won't get more efficient than that. – Andrei Volgin Sep 27 '12 at 10:58

I'm assuming you're storing entities in the GAE datastore and letting the datastore index the entities for you. The datastore uses a linked-list like index, but you don't have access to the linked list.

I don't think there's a perfect mechanism, but instead of sorting your N items from 1..N, I'd use a large sparse set of numbers (for example, use floats), and evenly distribute your entities across that range. Whenever you sort an item, simply generate a new index value that exists between the two new neighbors.

If you hit a worst case scenario, where the neighbors are too close together, generate new indexes for the neighbors, and so forth. A more advanced system might guarantee that there is a minimum amount of space between entities after every re-sort, and reindex a few extra neighbors proactively.

share|improve this answer
Appengine stores all floats as doubles. I am not sure what you mean by "too close together". It would take him a billion years to run out of double's precision. – Andrei Volgin Sep 26 '12 at 14:41

In my opinion, there is not other alternative with your current model. Like an indexed collection, you have to "re-index" elements when you move them: decrement or increment part of the collection

Change the model could be a solution for your requirements. You could try to design it like a linked list , where remove/move/insert operations are "cheaper". Every element knows its next (simple) or next and previous elements(Double)

share|improve this answer
If I use a linked list strategy (I guess you mean by pointing to the next element) then the cost is 2 operations but then at every sort I need to load all the data and then rebuild the list so I can then sort it. – Jordi P.S. Sep 25 '12 at 21:08
@Jordi can you explain what you mean by "loading" all the data and "rebuilding" the list? – Bitwise Sep 25 '12 at 21:31
When I want to display the elements from 10000 to 10200 sorted, assuming I don't have the elements phisically sorted, I need to retrieve the whole data, construct the linked list, go thru it and get those elements. In your solution is cheap to update but not ideal to read. – Jordi P.S. Sep 25 '12 at 21:40
@Jordi, I see your point, but with your current design removing the first element or moving it to the end has the same effect. – Víctor Herraiz Sep 26 '12 at 9:20
I agree. Your solution is 4 times cheaper than mine,since reads are 4 times cheaper but still O(N). – Jordi P.S. Sep 26 '12 at 13:24

you can separate sort order & UI data from other bulky data in each entity. the later can remain unchanged.

hmm, if you have this:

entitles = [bigdata1, bigdata2, bigdata3, ...]
order_numbers = [2, 3, 1, ...]

order_numbers can be the result of a sort or arbitrarily user defined values.

then you have

display_order = [2, 0, 1, ...]

means bigdata3 is displayed first. If UI wants to change the orders in anyway, only order_numbers and display_order need changes, not entitles. This is my understanding.

share|improve this answer
I'm not sure I have understood your answer. Can you extend it? – Jordi P.S. Sep 25 '12 at 21:42
The question is not about UI. It's about efficient way to reindex 2 million entities in a datastore. – Andrei Volgin Sep 25 '12 at 22:04
quote: When in the UI triggers a change of order (put element i in position j) I need to update all the entities between. If the element 1 becomes the lastest, I need to make N updates. What values in an entities need to be updated? it could not be everything. give me an example. – swang Sep 26 '12 at 1:58

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.