I understand the following should limit n1 documents in the result and skip n2 of that.
Nope, you got that wrong. Here is what happens:
- Your query is processed by the query optimizer, which puts
.sort()
, .skip()
and .limit()
into exactly this order
- The documents to be returned are identified, either by means of utilizing indices or a collection scan
- Now they are sorted according to the parameters of the
.sort()
clause, if present
- The first number of documents of that sorted list of documents are skipped according to the parameter of the
.skip()
clause.
- Now, a number of documents equalling the parameter of the
.limit()
clause are returned
Actually it is easy to prove:
> db.bg.insert({a:1})
WriteResult({ "nInserted" : 1 })
> db.bg.insert({a:2})
WriteResult({ "nInserted" : 1 })
> db.bg.insert({a:3})
WriteResult({ "nInserted" : 1 })
> db.bg.insert({a:4})
WriteResult({ "nInserted" : 1 })
> db.bg.find()
{ "_id" : ObjectId("56889a8a32a39e5b2c96acb5"), "a" : 1 }
{ "_id" : ObjectId("56889a8d32a39e5b2c96acb6"), "a" : 2 }
{ "_id" : ObjectId("56889a9032a39e5b2c96acb7"), "a" : 3 }
{ "_id" : ObjectId("56889ad332a39e5b2c96acb8"), "a" : 4 }
// According to your logic, this query would be empty
// (Only one doc returned, and of that returned one skipped)
// But it bears a result…
> db.bg.find().sort({a:-1}).limit(1).skip(1)
{ "_id" : ObjectId("56889a9032a39e5b2c96acb7"), "a" : 3 }
// …actually the same result when switching the place of the clauses
> db.bg.find().sort({a:-1}).skip(1).limit(1)
{ "_id" : ObjectId("56889a9032a39e5b2c96acb7"), "a" : 3 }
// Even when we put the sort clause to the end.
// If the query optimizer would not have enforced the order mentioned
// we would have natural order as in the default query,
// then skip 1 (we would be at {a:2}),and limit to that document, making
// the sort clause useless.
// But, as you can see, it is the same result as before
> db.bg.find().skip(1).limit(1).sort({a:-1})
{ "_id" : ObjectId("56889a9032a39e5b2c96acb7"), "a" : 3 }