Is there a way to calculate the median using the MongoDB aggregation framework?
The median is somewhat tricky to compute in the general case, because it involves sorting the whole data set, or using a recursion with a depth that is also proportional to the data set size. That's maybe the reason why many databases don't have a median operator out of the box (MySQL doesn't have one, either).
The simplest way to compute the median would be with these two statements (assuming the attribute on which we want to compute the median is called a
and we want it over all documents in the collection, coll
):
count = db.coll.count();
db.coll.find().sort( {"a":1} ).skip(count / 2  1).limit(1);
This is the equivalent to what people suggest for MySQL.

8I know it is not allowed to put a comment just to say thanks.. but this is beautiful :) – fguillen Jan 14 '16 at 12:04

It's possible to do it in one shot with the aggregate framework.
Sort => put in Array sorted values => get Size of array => divide size by two => get Int value of the division (left side of median) => add 1 to left side ( right side) => get array element at left side and right side => average of the two elements
This is a sample with Spring java mongoTemplate :
The model is a list of book with the login of the author ("owner"), the objective is to get the median of book by users :
GroupOperation countByBookOwner = group("owner").count().as("nbBooks");
SortOperation sortByCount = sort(Direction.ASC, "nbBooks");
GroupOperation putInArray = group().push("nbBooks").as("nbBooksArray");
ProjectionOperation getSizeOfArray = project("nbBooksArray").and("nbBooksArray").size().as("size");
ProjectionOperation divideSizeByTwo = project("nbBooksArray").and("size").divide(2).as("middleFloat");
ProjectionOperation getIntValueOfDivisionForBornLeft = project("middleFloat", "nbBooksArray").and("middleFloat")
.project("trunc").as("beginMiddle");
ProjectionOperation add1ToBornLeftToGetBornRight = project("beginMiddle", "middleFloat", "nbBooksArray")
.and("beginMiddle").project("add", 1).as("endMiddle");
ProjectionOperation arrayElementAt = project("beginMiddle", "endMiddle", "middleFloat", "nbBooksArray")
.and("nbBooksArray").project("arrayElemAt", "$beginMiddle").as("beginValue").and("nbBooksArray")
.project("arrayElemAt", "$endMiddle").as("endValue");
ProjectionOperation averageForMedian = project("beginMiddle", "endMiddle", "middleFloat", "nbBooksArray",
"beginValue", "endValue").and("beginValue").project("avg", "$endValue").as("median");
Aggregation aggregation = newAggregation(countByBookOwner, sortByCount, putInArray, getSizeOfArray,
divideSizeByTwo, getIntValueOfDivisionForBornLeft, add1ToBornLeftToGetBornRight, arrayElementAt,
averageForMedian);
long time = System.currentTimeMillis();
AggregationResults<MedianContainer> groupResults = mongoTemplate.aggregate(aggregation, "book",
MedianContainer.class);
And here the resulting aggregation :
{
"aggregate": "book" ,
"pipeline": [
{
"$group": {
"_id": "$owner" ,
"nbBooks": {
"$sum": 1
}
}
} , {
"$sort": {
"nbBooks": 1
}
} , {
"$group": {
"_id": null ,
"nbBooksArray": {
"$push": "$nbBooks"
}
}
} , {
"$project": {
"nbBooksArray": 1 ,
"size": {
"$size": ["$nbBooksArray"]
}
}
} , {
"$project": {
"nbBooksArray": 1 ,
"middleFloat": {
"$divide": ["$size" , 2]
}
}
} , {
"$project": {
"middleFloat": 1 ,
"nbBooksArray": 1 ,
"beginMiddle": {
"$trunc": ["$middleFloat"]
}
}
} , {
"$project": {
"beginMiddle": 1 ,
"middleFloat": 1 ,
"nbBooksArray": 1 ,
"endMiddle": {
"$add": ["$beginMiddle" , 1]
}
}
} , {
"$project": {
"beginMiddle": 1 ,
"endMiddle": 1 ,
"middleFloat": 1 ,
"nbBooksArray": 1 ,
"beginValue": {
"$arrayElemAt": ["$nbBooksArray" , "$beginMiddle"]
} ,
"endValue": {
"$arrayElemAt": ["$nbBooksArray" , "$endMiddle"]
}
}
} , {
"$project": {
"beginMiddle": 1 ,
"endMiddle": 1 ,
"middleFloat": 1 ,
"nbBooksArray": 1 ,
"beginValue": 1 ,
"endValue": 1 ,
"median": {
"$avg": ["$beginValue" , "$endValue"]
}
}
}
]
}

2
Starting Mongo 4.4
, the $group
stage has a new aggregation operator $accumulator
allowing custom accumulations of documents as they get grouped, via javascript user defined functions.
Thus, in order to find the median:
// { "a" : 25, "b" : 12 }
// { "a" : 89, "b" : 7 }
// { "a" : 25, "b" : 17 }
// { "a" : 25, "b" : 24 }
// { "a" : 89, "b" : 15 }
db.collection.aggregate([
{ $group: {
_id: "$a",
median: {
$accumulator: {
accumulateArgs: ["$b"],
init: function() { return []; },
accumulate: function(bs, b) { return bs.concat(b); },
merge: function(bs1, bs2) { return bs1.concat(bs2); },
finalize: function(bs) {
bs.sort(function(a, b) { return a  b });
var mid = bs.length / 2;
return mid % 1 ? bs[mid  0.5] : (bs[mid  1] + bs[mid]) / 2;
},
lang: "js"
}
}
}}
])
// { "_id" : 25, "median" : 17 }
// { "_id" : 89, "median" : 11 }
The accumulator:
 accumulates on the field
b
(accumulateArgs
)  is initialised to an empty array (
init
)  accumulates
b
items in an array (accumulate
andmerge
)  and finally performs the median calculation on
b
items (finalize
)

hi, this is a very good way to solve the problem. But I'm working on a Java project that needs the same thing. Do you know where I can find related docs about this. Thank you – anquangman May 19 '20 at 10:17
While maxiplay's answer is not accurate, it did lead me in the correct direction. The problem with the given solution is that it only works when the number of records is even. Because for odd number of records, one simply needs to take the value at midpoint without having to calculate an average.
This is how I got it to work.
db.collection.aggregate([
{ "$match": { "processingStatus": "Completed" } },
{
"$group": {
"_id": "$userId",
"valueArray": {
"$push": "$value"
}
}
},
{ "$sort": { "value": 1 } },
{
"$project": {
"_id": 0,
"userId": "$_id",
"valueArray": 1,
"size": { "$size": ["$valueArray"] }
}
},
{
"$project": {
"userId": 1,
"valueArray": 1,
"isEvenLength": { "$eq": [{ "$mod": ["$size", 2] }, 0 ] },
"middlePoint": { "$trunc": { "$divide": ["$size", 2] } }
}
},
{
"$project": {
"userId": 1,
"valueArray": 1,
"isEvenLength": 1,
"middlePoint": 1,
"beginMiddle": { "$subtract": [ "$middlePoint", 1] },
"endMiddle": "$middlePoint"
}
},
{
"$project": {
"userId": 1,
"valueArray": 1,
"middlePoint": 1,
"beginMiddle": 1,
"beginValue": { "$arrayElemAt": ["$stepsArray", "$beginMiddle"] },
"endValue": { "$arrayElemAt": ["$stepsArray", "$endMiddle"] },
"isEvenLength": 1
}
},
{
"$project": {
"userId": 1,
"valueArray": 1,
"middlePoint": 1,
"beginMiddle": 1,
"beginValue": 1,
"endValue": 1,
"middleSum": { "$add": ["$beginValue", "$endValue"] },
"isEvenLength": 1
}
},
{
"$project": {
"userId": 1,
"valueArray": 1,
"median": {
"$cond": {
if: "$isEvenLength",
then: { "$divide": ["$middleSum", 2] },
else: { "$arrayElemAt": ["$stepsArray", "$middlePoint"] }
}
}
}
}
])
The aggregation framework doesn't support median outofthebox. So you will have to write something on your own.
I would recommend you to do this on the application level. Retrieve all your documents with a normal find(), sort the result sets (either on the datbase by using the .sort()
function of the cursor or sorting them in the application  your decision) and then getting the element size / 2
.
When you really want to do it on the database level, you could do it with mapreduce. The mapfunction would emit key and an array with a single value  the value you want to get the median of. The reducefunction would just concatenate the arrays of the results it receives, so each key ends up with an array with all values. The finalizefunction would then compute the median of that array, again by by sorting the array and then get the element number size / 2
.
$median
so probably you'll have to use mapreduce for this. – hgoebl Dec 8 '13 at 17:19$median
accumulator. Please upvote/watch SERVER4929 in the MongoDB issue tracker. – Stennie Jan 2 '14 at 20:21