I have the following schema:
{
a: string;
b: date;
c: number;
}
My query is
find({
a: 'some value',
b: {
$gte: new Date('some date')
}
})
.sort({
c: -1
});
I have an index that is:
{ a: 1, b: 1, c: 1 }
But it's not using this index.
I have several other indexes, and when analyzing my explain(), it shows it's employing multiple other indexes to accomplish my query.
I believe since my "b" query is a date range, that's not considered an equality condition, so maybe that index won't work?
Should I have two indexes:
{ a: 1, c: 1} and separately { b: 1 }
Dates tend to be much more selective than other fields, so when you have an index that looks like {dateField: 1, otherField: 1}, the selectivity of the dateField means that otherField will be useless unless you have multiple items that share the same date.
Depending on what your data distribution actually looks like, you might consider {otherField: 1, dateField: 1} (which means that mongo can go through in sorted order to check whether the docs match your date query). In general, putting your sort field before any fields used in a range query is a good idea.
Mlab's indexing docs are the best resource I've seen on index usage, and they recommend:
A good rule of thumb for queries with sort is to order the indexed fields in this order:
First, the field(s) on which you will query for exact values
Second, one small $in array
Third, the field(s) on which you will sort in the same order and specification as the sort itself (sorting on multiple fields)
Finally, the field(s) on which you will query for a range of values in the order of most selective to least selective (see range operators below)
I am facing a strange issue. I have a partial, compound, unique index with defination:
createIndex({a: 1, b:1, c: 1}, {unique:1, partialFilterExpression: {c: {$type: "string"}}})
Now when I perform a query this index is never used as per the explain plan. Even though there are document(s) matching the query.
Chaning same index to sparse instead of partial fixes the above issue, but sparse, compound, unique indexes have following issue:
dealing-with-mongodb-unique-sparse-compound-indexes
As noted in the query coverage documentation for partial indexes:
MongoDB will not use the partial index for a query or sort operation if using the index results in an incomplete result set.
To use the partial index, a query must contain the filter expression (or a modified filter expression that specifies a subset of the filter expression) as part of its query condition.
In your set up you create a partial index filtering on {c: {$type: "string"}}.
Your query conditions are {a:"1", b:"p", c:"2"}, or a query shape of three equality comparisons ({a: eq, b: eq, c: eq}). Since this query shape does not include a $type filter on c, the query planner has to consider that queries fitting the shape should match values of any data type and the partial index is not a viable candidate for complete results.
Some example queries that would use your partial index (tested with MongoDB 3.4.5):
// Search on {a, b} with c criteria matching the index filter
db.mydb.find({a:"1", b:"p", c: { $type: "string" } })
// Search on {a,b,c} and use $and to include the type of c
db.mydb.find({a:"1", b:"p", $and: [{ c: "2"} , {c: { $type: "string" }}]})
My question is about the way MongoDB operates when querying MultiKey document.
Assuming I have these documents:
{
a: 1,
b: 2,
c: ['x','y','z']
},
{
a:3,
b: null,
c: ['x','z']
}
My query is this:
db.<collection>.find({ b: null, c: 'x'})
And my index is:
db.<collection>.ensureIndex({ c: 1 })
My question is: For the query above (that asks for c AND b), how does MongoDB invokes the query? Does it 'see' that I have an index on c or does it try to only look for an index for both c AND b ?
Thanks Disposer
The query just finds the index of c even if the statement includes c and b.
Can you perform a MongoDB covered query for two fields, for example
db.collection.find( { _id: 1, a: 2 } )
without having a compound index such as
db.collection.ensureIndex( { _id: 1, a: 1 } )
but instead having only one index for _id (you get that by default) and another index for field "a", as in
db.collection.ensureIndex( { a: 1 } )
In other words, I'd like to know if in order to perform a covered query for two fields I need a compound index vs. needing only two single (i.e., not compound) indexes, one for each field.
Queries only use one index.
Your example shows _id as one of the elements of your index? _id Needs to be unique in a collection, so it wouldn't make sense to make a compound index of _id and something else.
If you instead had:
db.collection.ensureIndex( { a: 1, b: 1 })
You could then use the a index as needed, independently, or as a compound index with b.
Is tip #25 in Tips and Tricks for MongoDB Developers correct?
It says that this query:
collection.find({"x" : criteria, "y" : criteria, "z" : criteria})
can be optimized with
collection.ensureIndex({"y" : 1, "z" : 1, "x" : 1})
I think it's false because for this to work, x should be in front. I thought the order of indexes matter.
So where did I go wrong?
The order of the fields in the index only matters if the query doesn't include all of the fields in the index. This query is referencing all three fields so the order of the fields in the index doesn't matter.
See more details in the docs on compound indexes.
The order of the fields in the find query object is not relevant.
For beginners who wants to understand it better
Mongodb says The index contains 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." What does this mean ????
let's create a compound index on fields a, b, c, and d in ascescending order(1)
Model.createIndex({ a: 1, b: 1, c: 1, d: 1 });
I visualize it as:
at level-1, list of references sorted in a specified order(1) based on the value of the first index field(a)
at level-2, each reference at level-1, holds another set of references from thier location in a specified order(1) based on the value of the second field in the chain(b).
at level-3, each reference at level-2, holds another set of references from thier location in a specified order(1) based on the value of the second field in the chain(c).
at level-4, each reference at level-3, holds another set of references from thier location in a specified order(1) based on the value of the second field in the chain(d).
This chain forms a tree structure thus is chosen to store in B-TREE data structure.
I would love to call this storage system a compound-index-chain in this context.
Normally we build indices to perform two types of operations 1. Query Operation like find() and 2. Non-query operation like Sort()
Now you created compound index on { a: 1, b: 1, c: 1, d: 1 }. But only index creation is not enought. It becomes inefficient and sometimes useless if you don't structure your database operatons(find and sort) in a way that use those indexes.
Let's dig deeper into what kinds of query supports what kind of index ?
find():
The following prefixes of the compound index supports also indexed find() query operation on fields
{a:1},
{a:1, b:1},
{a:1, b:1, c:1}
// Index prefixes are the beginning subsets of indexed fields
#JohnnyHK already said "The order of the fields in the find query object is not relevant."
The fields could be in ANY ORDER like {b:1, a1} instead of {a1:, b:1}. Index will still be utilized as long as it is find() operation being operated on compound index or the prefix of the compound index.
However the performance of the query will not be same(may degrade) even though the find() query is using the same index and index is being utilized if the order of the the fields in find() is not highly selective than other subsequent fields.
Meaning, if the first field in a query say find({a: 'red', b: tshrt}), has HIGH SELECTIVITY, the query will be less efficient than find({a: 'tshirt', b: 'red'}) as this query hs LOWER SELECTIVITY even though both queries are using one index {a:1, b:1}.
However the HIGHLY SELECTIVE query will perform better than not having any index at all.
I think #Sushil tried to touch this topic.
In case if you are still wondering, Query selectivity refers to how well the query predicate excludes or filters out documents in a collection. Query selectivity can determine whether or not queries can use indexes effectively or even use indexes at all.
Now Let's come to the prefixes of compound indexs
Note:find() behaves differently on this {a:1, c:1} prefix of the compound index {a:1, b:1, c:1, d1} than rest of its prefixes?
In this case, The find() operation will not be able to utilize our compound index efficiently.
What happens is a:1 field index will only be able to support the find query. index on c:1 field will not be used at all because compound-index-chain has been broken in between due to the absence of b:1 index field in the prefix.
So if find() query operates on a and c field together, for field a:1 IXSCAN( i.e use of index on a) and field c COLLSCAN(i.e no use of index) will be used. Meaining the query will be slower than having separate compound index on {a:1,c:1} but faster than not having any index at all.
Conclusion is 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.
2. Sort():
For non-query-operation(i.e Sort), the subsets of the compount index must in the same order of the index as well as must also be in the either same or oposite direction of the direction specified for each field while creating the compound index.
Let's see how the our compound index { a: 1, b: 1, c: 1, d: 1 } with ascescending direction behave with sort() operation:
Let's look at the direction of the indexed fields in sorting.
As we know on single field index on {a:1} can support sort on {a:1} same-direction and {a:-1} reverse-direction,
Compound indexes follow the same rules while sorting.
{a:1, b:1, c:1, d:1} // in same-direction as of our compound index
{a:-1, b:-1, c:-1, d:-1 } // in reverse-direction of our compound index
// But these field have neither same-direction nor reverse-direction but is ARBITARY/MIXED. Thus
// Index will be discarded while performing sorting with these fields and directions
{a:-1:, b:1, c:1, d:1}
Another example would be compound index on {a:1, b:-1} can support indexed sorting on {a:1,b:-1} (same-direction) and on {a:-1,b:1}(reverse-direction) BUT NOT support {a:-1, b:-1}.
Now let's look at the order of the indexed fields in sorting
OPTIMUM SORTING:
When a Sort operation using the compound index or using the prefix of the compound index, examining the result set in the memory(RAM) is not needed. Such sorting operation is solely sattisfied by the fields available in the index, gives optimum performance in sorting operation.
For instance:
// compound index
{a:1, b:1, c:1, d:1}
// prefix of the compound index
{a:1},
{a:1, b:1},
{a:1, b:1, c:1}
Compound-Index-Chain-Break:
When a sort operation is partially covered by the compound index, may require to examine the non-indexed matched result set in the memory.
Model.find({ a: 2 }).sort({ c: 1 }); // will not use index for sorting using field c. But will be used for finding
Model.find({ a: { $gt: 2 } }).sort({ c: 1 }); // will not use index for sorting But will be used for finding
// because compound-index-chain-break due to absence of field b of the prefix {a:1, b:1, c:1} of our compound index {a:1, b:1, c:1, d:1}
Sort on Non-prefix Subset:
When prefix keys of the index appear in both the query predicate(i.e find()) and the sort(), that index fields which precedes(or overlap) the sort subset MUST have the equality conditions($eq,$gte,$lte) in the query. So
A compound index can support indexed query on the its index prefixes as well.
Model.find({ c: 5 }).sort({ c: 1 }); // will not use index at all because it does not belongs to any of the prefix of our compound index
Model.find({ b: 3, a: 4 }).sort({ c: 1 }); // will use the index for both finding and sorting as it belongs to one our index prexfix ie. {a:1, b:1, c:1}
Model.find({ a: 4 }).sort({ a: 1, b: 1 }); // will use index for finding but not use index for sorting because a field is overlapped.
Model.find({ a: { $gt: 4 } }).sort({ a: 1, b: 1 }); // will use index for both finding and sorting because overlapped field (a) in the predicate uses equality operator and it belongs to the prefix {a:1, b:1}
Model.find({ a: 5, b: 3 }).sort({ b: 1 }); // will not use index for sorting
Model.find({ a: 5, b: { $lt: 3 } }).sort({ b: 1 }); // will use index for both finding and sorting
Hope this helps somebody
The books states the below scenario
You have 3 queries to run:
Collection.find({x:criteria, y:criteria,z:criteria})
Collection.find({z:criteria, y:criteria,w:criteria})
Collection.find({y:criteria, w:criteria })
To use
collection.ensureIndex({y:1,z:1,x:1})
it is considering the occurrence and as occurrence of y is more, it want all the queries to hit y followed by z and lastly as you will be running the 1st query a thousand times more than the other two hence including x, if this was not the case and you run all 3 queries equally then the suggestion is
Collection.ensureIndex({y:1,w:1,z:1}) .
Moreover as per the MongoDB documentation “The order of fields in a compound index is very important.” But in the above case scenario the use case is different. It is trying to optimize all the use case queries with one index.