I want to implement pagination on top of a MongoDB. For my range query, I thought about using ObjectIDs:

db.tweets.find({ _id: { $lt: maxID } }, { limit: 50 })

However, according to the docs, the structure of the ObjectID means that "ObjectId values do not represent a strict insertion order":

The relationship between the order of ObjectId values and generation time is not strict within a single second. If multiple systems, or multiple processes or threads on a single system generate values, within a single second; ObjectId values do not represent a strict insertion order. Clock skew between clients can also result in non-strict ordering even for values, because client drivers generate ObjectId values, not the mongod process.

I then thought about querying with a timestamp:

db.tweets.find({ created: { $lt: maxDate } }, { limit: 50 })

However, there is no guarantee the date will be unique — it's quite likely that two documents could be created within the same second. This means documents could be missed when paging.

Is there any sort of ranged query that would provide me with more stability?

  • why would you think that ObjectId() doesn't give you stability? – Asya Kamsky Jan 10 '14 at 9:01
  • 2
    As in my question, according to the docs the structure of the ObjectID means that "ObjectId values do not represent a strict insertion order". – user1082754 Jan 10 '14 at 19:43
up vote 55 down vote accepted
+100

It is perfectly fine to use ObjectId() though your syntax for pagination is wrong. You want:

 db.tweets.find().limit(50).sort({"_id":-1});

This says you want tweets sorted by _id value in descending order and you want the most recent 50. Your problem is the fact that pagination is tricky when the current result set is changing - so rather than using skip for the next page, you want to make note of the smallest _id in the result set (the 50th most recent _id value and then get the next page with:

 db.tweets.find( {_id : { "$lt" : <50th _id> } } ).limit(50).sort({"_id":-1});

This will give you the next "most recent" tweets, without new incoming tweets messing up your pagination back through time.

There is absolutely no need to worry about whether _id value is strictly corresponding to insertion order - it will be 99.999% close enough, and no one actually cares on the sub-second level which tweet came first - you might even notice Twitter frequently displays tweets out of order, it's just not that critical.

If it is critical, then you would have to use the same technique but with "tweet date" where that date would have to be a timestamp, rather than just a date.

  • 6
    My main concern with using ObjectIDs for the range query was that they would not represent a strict order. If two documents are created using different MongoDB processes (I don't know when this would happen; perhaps on a sharded database), that would mean the middle two fragments of the ObjectID ("a 3-byte machine identifier, a 2-byte process id") would be different. I'm worried this sort of thing would throw off the ordering (and thus the range query). – user1082754 Jan 10 '14 at 19:55
  • yes, they do represent a strict order. ObjectId() will be sorted deterministically and consistently the same way. Think of it this way, if you are sorting "1,a,1" and "1,b,1" it doesn't matter than 1 is the same in both because a>b so those two will always be ordered the same relative to each other. – Asya Kamsky Jan 10 '14 at 22:24
  • Playing devil's advocate here. What if we were sorting "1,a,2" and "1,b,1"? The latter was created first (assuming the middle fragment is the process ID and the last fragment is the counter), but this is not how they will be sorted. I guess this is the extremely far edge case you mentioned? I only ask because it's good to understand! – user1082754 Jan 10 '14 at 23:04
  • My concern was that whole tweet documents would be missed out because of this edge case, but I think I realise now they will be included by the range query. The only real potential issue is the sorting might be incorrect. Right? – user1082754 Jan 10 '14 at 23:09
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    That is the point. The next page will be read after the first query has executed so you will miss tweets if you are very concerned about keeping a correct stable order in your pages. Also if you move to the previous page you may see tweets inserted between already seen tweets which may be acceptable or not (this is usually a very poor UX though). – Daniel Williams Jan 11 '14 at 0:31

Wouldn't a tweet "actual" timestamp (i.e. time tweeted and the criteria you want it sorted by) be different from a tweet "insertion" timestamp (i.e. time added to local collection). This depends on your application, of course, but it's a likely scenario that tweet inserts could be batched or otherwise end up being inserted in the "wrong" order. So, unless you work at Twitter (and have access to collections inserted in correct order), you wouldn't be able to rely just on $natural or ObjectID for sorting logic.

Mongo docs suggest skip and limit for paging:

db.tweets.find({created: {$lt: maxID}).
          sort({created: -1, username: 1}).
          skip(50).limit(50); //second page

There is, however, a performance concern when using skip:

The cursor.skip() method is often expensive because it requires the server to walk from the beginning of the collection or index to get the offset or skip position before beginning to return result. As offset increases, cursor.skip() will become slower and more CPU intensive.

This happens because skip does not fit into the MapReduce model and is not an operation that would scale well, you have to wait for a sorted collection to become available before it can be "sliced". Now limit(n) sounds like an equally poor method as it applies a similar constraint "from the other end"; however with sorting applied, the engine is able to somewhat optimize the process by only keeping in memory n elements per shard as it traverses the collection.

An alternative is to use range based paging. After retrieving the first page of tweets, you know what the created value is for the last tweet, so all you have to do is substitute the original maxID with this new value:

db.tweets.find({created: {$lt: lastTweetOnCurrentPageCreated}).
          sort({created: -1, username: 1}).
          limit(50); //next page

Performing a find condition like this can be easily parallellized. But how to deal with pages other than the next one? You don't know the begin date for pages number 5, 10, 20, or even the previous page! @SergioTulentsev suggests creative chaining of methods but I would advocate pre-calculating first-last ranges of the aggregate field in a separate pages collection; these could be re-calculated on update. Furthermore, if you're not happy with DateTime (note the performance remarks) or are concerned about duplicate values, you should consider compound indexes on timestamp + account tie (since a user can't tweet twice at the same time), or even an artificial aggregate of the two:

db.pages.
find({pagenum: 3})
> {pagenum:3; begin:"01-01-2014@BillGates"; end:"03-01-2014@big_ben_clock"}

db.tweets.
find({_sortdate: {$lt: "03-01-2014@big_ben_clock", $gt: "01-01-2014@BillGates"}).
sort({_sortdate: -1}).
limit(50) //third page

Using an aggregate field for sorting will work "on the fold" (although perhaps there are more kosher ways to deal with the condition). This could be set up as a unique index with values corrected at insert time, with a single tweet document looking like

{
  _id: ...,
  created: ...,    //to be used in markup
  user: ...,    //also to be used in markup
  _sortdate: "01-01-2014@BillGates" //sorting only, use date AND time
}
  • 1
    I thought it was bad practice to use skip? docs.mongodb.org/manual/reference/method/cursor.skip – user1082754 Jan 9 '14 at 10:33
  • @OliverJosephAsh: it is expensive, but it seems like the only way to achieve pagination (the example is even in the docos). I can't think of a way to use range based paging in your example (i.e. a query for "next 10" results is trivial, but how would you calculate a correct range for jumping to page, say, 55?). I'll expand my answer shortly. – o.v. Jan 9 '14 at 20:48
  • Jumping to a page isn't something I require so much of. I just need to be able to say "give me the next 50 documents". Sorry if I confused things by calling it pagination. – user1082754 Jan 9 '14 at 22:54
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    it is absolutely fine to use skip (just not for skipping 70% of your collection or anything like that. @o.v. I have no idea what you mean by bringing in MapReduce into this - it has nothing to do with querying. Unique indexes are also completely inappropriate for this. – Asya Kamsky Jan 10 '14 at 9:08
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    skip is a poor choice for paging except for some specific conditions. it is essentially like using LIMIT X,Y in mysql which you can find quite a few articles about why it is a poor choice. – Daniel Williams Jan 10 '14 at 19:57

The following approach wil work even if there are multiple documents inserted/updated at same millisecond even if from multiple clients (which generates ObjectId). For simiplicity, In following queries I am projecting _id, lastModifiedDate.

  1. First page, fetch the result Sorted by modifiedTime (Descending), ObjectId (Ascending) for fist page.

    db.product.find({},{"_id":1,"lastModifiedDate":1}).sort({"lastModifiedDate":-1, "_id":1}).limit(2)

Note down the ObjectId and lastModifiedDate of the last record fetched in this page. (loid, lmd)

  1. For sencod page, include query condition to search if (lastModifiedDate = lmd AND oid > loid ) OR (lastModifiedDate < loid)

db.productfind({$or:[{"lastModifiedDate":{$lt:lmd}},{"_id":1,"lastModifiedDate":1},{$and:[{"lastModifiedDate":lmd},{"_id":{$gt:loid}}]}]},{"_id":1,"lastModifiedDate":1}).sort({"lastModifiedDate":-1, "_id":1}).limit(2)

repeat same for subsequent pages.

ObjectIds should be good enough for pagination if you limit your queries to the previous second (or don't care about the subsecond possibility of weirdness). If that is not good enough for your needs then you will need to implement an ID generation system that works like an auto-increment.

Update:

To query the previous second of ObjectIds you will need to construct an ObjectID manually.

See the specification of ObjectId http://docs.mongodb.org/manual/reference/object-id/

Try using this expression to do it from a mongos.

{ _id : 
  {
      $lt : ObjectId(Math.floor((new Date).getTime()/1000 - 1).toString(16)+"ffffffffffffffff")
  }

}

The 'f''s at the end are to max out the possible random bits that are not associated with a timestamp since you are doing a less than query.

I recommend during the actual ObjectId creation on your application server rather than on the mongos since this type of calculation can slow you down if you have many users.

  • Interesting, thank you. How would you query with an ID, minus one second? – user1082754 Jan 6 '14 at 22:59
  • I updated my answer – Daniel Williams Jan 6 '14 at 23:22
  • It might be easier to just use the date as I am already storing that? If I did do it as you demonstrated above, I imagine I would need to substitute the input date for the timestamp of the ObjectID I want it to be less than? – user1082754 Jan 6 '14 at 23:30
  • Yes you would need to substitute the date with the timestamp of the ObjectId. Using the stored date you have would be adequate if there are very few subsecond tweets or else the ObjectId is your best bet. – Daniel Williams Jan 6 '14 at 23:37
  • I don't see any difference between using a stored date or using the timestamp from an ObjectID. Surely they both could introduce "subsecond weirdness"? – user1082754 Jan 8 '14 at 12:43

I have build a pagination using mongodb _id this way.

// import ObjectId from mongodb
let sortOrder = -1;
let query = []
if (prev) {
    sortOrder = 1
    query.push({title: 'findTitle', _id:{$gt: ObjectId('_idValue')}})
}

if (next) {
    sortOrder = -1
    query.push({title: 'findTitle', _id:{$lt: ObjectId('_idValue')}})
}

db.collection.find(query).limit(10).sort({_id: sortOrder})

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