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It seems that mongodb has 2 types of geospatial index.


The standard one. With a note:

You may only have 1 geospatial index per collection, for now. While MongoDB may allow to create multiple indexes, this behavior is unsupported. Because MongoDB can only use one index to support a single query, in most cases, having multiple geo indexes will produce undesirable behavior.

And then there is this so called geohaystack thingy.


They both claim to use the same algorithm. They both turn earth into several grids. And then search based on that.

So what's the different?

Mongodb doesn't seem to use Rtree and stuff right?

NB: Answer to this question that How does MongoDB implement it's spatial indexes? says that 2d index use geohash too.

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1 Answer 1

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The implementation is similar, but the use case difference is described on the Geospatial Haystack Indexing page.

The haystack indices are "bucket-based" (aka "quadrant") searches tuned for small-region longitude/latitude searches:

    In addition to ordinary 2d geospatial indices, mongodb supports the use
    of bucket-based geospatial indexes. Called "Haystack indexing", these
    indices can accelerate small-region type longitude / latitude queries
    when additional criteria is also required.

    For example, "find all restaurants within 25 miles with name 'foo'".

    Haystack indices allow you to tune your bucket size to the distribution
    of your data, so that in general you search only very small regions of
    2d space for a particular kind of document.  They are not suited for
    finding the closest documents to a particular location, when the
    closest documents are far away compared to bucket size.

The bucketSize parameter is required, and determines the granularity of the haystack index.

So, for example:

 db.places.ensureIndex({ pos : "geoHaystack", type : 1 }, { bucketSize : 1 })

This example bucketSize of 1 creates an index where keys within 1 unit of longitude or latitude are stored in the same bucket. An additional category can also be included in the index, which means that information will be looked up at the same time as finding the location details.

The B-tree representation would be similar to:

 { loc: "x,y", category: z }

If your use case typically searches for "nearby" locations (i.e. "restaurants within 25 miles") a haystack index can be more efficient. The matches for the additional indexed field (eg. category) can be found and counted within each bucket.

If, instead, you are searching for "nearest restaurant" and would like to return results regardless of distance, a normal 2d index will be more efficient.

There are currently (as of MongoDB 2.2.0) a few limitations on haystack indexes:

  • only one additional field can be included in the haystack index
  • the additional index field has to be a single value, not an array
  • null long/lat values are not supported

Note: distance between degrees of latitude will vary greatly (longitude, less so). See: What is the distance between a degree of latitude and longitude?.

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The haystack is bucket base, and the normal one is not? I know the normal one is not r-tree right? –  Jim Thio Sep 17 '12 at 2:38
@JimThio: The default 2d implementation is actually B-tree based. At least one person is working on an R-Tree implementation to contribute (SERVER-3551) but this doesn't appear to have eventuated in a pull request yet. There is a recent presentation from MongoDC contrasting B-Tree with R-Tree which suggests he has made progress: RTree Spatial Indexing with MongoDB. –  Stennie Sep 17 '12 at 3:13
@JimThio .. further to this, the contributor working on R-Tree is actually a 10gen partner and has several commercial offerings available: Getting to Know Geospatial and MongoDB with TST. –  Stennie Sep 17 '12 at 3:24
+1 I'll mark this as answered if there is no other answer. –  Jim Thio Sep 19 '12 at 9:32
@JimThio: I've revised my answer to (hopefully) make it a bit clearer that the haystack index is more of a specific use case optimization than an entirely different implementation. The haystack index is certainly less documented (and probably as a consequence less commonly used). Eventually it would probably make sense to merge this functionality into the main geospatial index. There are also other geospatial algorithms that could be implemented with broader geo support than GeoHash and remove the need for this specific use case optimization. –  Stennie Sep 19 '12 at 13:01

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