Docs Menu

Docs HomeDevelop ApplicationsMongoDB Manual

Compound Indexes

On this page

  • Create a Compound Index
  • Sort Order
  • Prefixes
  • Index Intersection
  • Additional Considerations

MongoDB supports compound indexes, where a single index structure holds references to multiple fields [1] within a collection's documents. The following diagram illustrates an example of a compound index on two fields:

Diagram of a compound index on the ``userid`` field (ascending) and the ``score`` field (descending). The index sorts first by the ``userid`` field and then by the ``score`` field.
[1] MongoDB imposes a limit of 32 fields for any compound index.

Compound indexes can support queries that match on multiple fields.

To create a compound index use an operation that resembles the following prototype:

db.collection.createIndex( { <field1>: <type>, <field2>: <type2>, ... } )

The value of the field in the index specification describes the kind of index for that field. For example, a value of 1 specifies an index that orders items in ascending order. A value of -1 specifies an index that orders items in descending order. For additional index types, see index types.


Starting in MongoDB 4.4:

  • Compound indexes may contain a single hashed index field.

  • You will receive an error if you attempt to create a compound index that contains more than one hashed index field.

In MongoDB 4.2 or earlier:

Consider a collection named products that holds documents that resemble the following document:

"_id": ObjectId(...),
"item": "Banana",
"category": ["food", "produce", "grocery"],
"location": "4th Street Store",
"stock": 4,
"type": "cases"

The following operation creates an ascending index on the item and stock fields:

db.products.createIndex( { "item": 1, "stock": 1 } )

The order of the fields listed in a compound index is important. The index will contain references to documents sorted first by the values of the item field and, within each value of the item field, sorted by values of the stock field. See Sort Order for more information.

In addition to supporting queries that match on all the index fields, compound indexes can support queries that match on the prefix of the index fields. That is, the index supports queries on the item field as well as both item and stock fields:

db.products.find( { item: "Banana" } )
db.products.find( { item: "Banana", stock: { $gt: 5 } } )

For details, see Prefixes.

Indexes store references to fields in either ascending (1) or descending (-1) sort order. For single-field indexes, the sort order of keys doesn't matter because MongoDB can traverse the index in either direction. However, for compound indexes, sort order can matter in determining whether the index can support a sort operation.

Consider a collection events that contains documents with the fields username and date. Applications can issue queries that return results sorted first by ascending username values and then by descending (i.e. more recent to last) date values, such as: { username: 1, date: -1 } )

or queries that return results sorted first by descending username values and then by ascending date values, such as: { username: -1, date: 1 } )

The following index can support both these sort operations: { "username" : 1, "date" : -1 } )

However, the above index cannot support sorting by ascending username values and then by ascending date values, such as the following: { username: 1, date: 1 } )

For more information on sort order and compound indexes, see Use Indexes to Sort Query Results.

Index prefixes are the beginning subsets of indexed fields. For example, consider the following compound index:

{ "item": 1, "location": 1, "stock": 1 }

The index has the following index prefixes:

  • { item: 1 }

  • { item: 1, location: 1 }

For a compound index, MongoDB can use the index to support queries on the index prefixes. As such, MongoDB can use the index for queries on the following fields:

  • the item field,

  • the item field and the location field,

  • the item field and the location field and the stock field.

MongoDB can also use the index to support a query on the item and stock fields, since the item field corresponds to a prefix. However, in this case the index would not be as efficient in supporting the query as it would be if the index were on only item and stock. Index fields are parsed in order; if a query omits a particular index prefix, it is unable to make use of any index fields that follow that prefix.

Since a query on item and stock omits the location index prefix, it cannot use the stock index field which follows location. Only the item field in the index can support this query. See Create Indexes to Support Your Queries for more information.

MongoDB cannot use the index to support queries that include the following fields since without the item field, none of the listed fields correspond to a prefix index:

  • the location field,

  • the stock field, or

  • the location and stock fields.

If you have a collection that has both a compound index and an index on its prefix (e.g. { a: 1, b: 1 } and { a: 1 }), if neither index has a sparse or unique constraint, then you can remove the index on the prefix (e.g. { a: 1 }). MongoDB will use the compound index in all of the situations that it would have used the prefix index.

Starting in version 2.6, MongoDB can use index intersection to fulfill queries. The choice between creating compound indexes that support your queries or relying on index intersection depends on the specifics of your system. See Index Intersection and Compound Indexes for more details.

Applications may encounter reduced performance during index builds, including limited read/write access to the collection. For more information on the index build process, see Index Builds on Populated Collections, including the Index Builds in Replicated Environments section.

Some drivers may specify indexes, using NumberLong(1) rather than 1 as the specification. This does not have any affect on the resulting index.

←  Single Field IndexesMultikey Indexes →