Develop Reference

Find document then get all related documents

I have this mongodb document :
{
"_id" : ObjectId("5e382d27bb4bd5ce3ef5fb1d"),
"code" : "25116",
"datecrea" : "2015-11-14 18:23:24",
"datemodif" : "2015-11-14 18:23:24",
"datas" : {
"songId" : 25116,
"artistId" : 128,
"albumId" : 1822,
"name" : "Free Me",
"songTrack" : 10,
"genres" : [
"24"
],
}
}
I want to make a request that search for the song by its genre which is an array of genres, and then get me the artist and the album related to this song based on the datas.artistId and datas.albumId fields.
I have tried this query :
db.getCollection('songs').aggregate([
{ $elemMatch: { "datas.genre": 31 } },
{ $lookup: { from: "artists", localField: "datas.artisId", foreignField: "code", as: "artist" } },
{ $unwind: "$artist"}
])
But it returns an error, knowing that I totally news to mongodb.
Thanks to everyone for helping

You are not far off. You just have two minor syntax errors.
The $elemMatch, Without going too much into it. $elemMatch is not a pipeline stage and cannot be used in an aggregate operation. it is typically used in a find query.
In the lookup you wrote datas.artisId instead of datas.artistId
So change you're pipeline into this:
db.getCollection('songs').aggregate([
{ $match: { "datas.genre": 31 } },
{ $lookup: { from: "artists", localField: "datas.artistId", foreignField: "code", as: "artist" } },
{ $unwind: "$artist"}
])
One more fun fact, unrelated to the actual code, the word data is already in it's plural form. hence datas is a grammatical mistake. And in case you're wondering the singular form of data is datum.

Mongodb aggregate query $skip $limit issues [duplicate]

This question already has an answer here:
Mongoose Aggregation does not Filter by Input Date
(1 answer)
Closed 3 years ago.
I've got a query I call on from my app, to provide me with paged results from my db
const query = [
{
"$match" : {
"$or" : [
{ "expires_at" : { "$gt" : moment().toISOString() }},
{ "expires_at" : null }
],
"vendor_category" : {
"$nin" : ignoredCategories
}
}
},
{
"$lookup": {
"from": models.retailers.collection.name,
"localField": "retailer",
"foreignField": "_id",
"as": "retailer"
}
},
{
"$lookup": {
"from": models.categories.collection.name,
"localField": "category",
"foreignField": "_id",
"as": "category"
}
},
{
"$sort": {
"category.popularity" : -1,
...sortBy
}
},
{ "$unwind": "$retailer" },
{ "$unwind": "$category" },
{ "$skip" : skip },
{ "$limit" : limit }
]
This mostly works, my two $lookup and $unwind objects join the other collections to the results and my $sort object correctly sorts the root query by the products category popularity.
However my $match object only returns about 18 (of 72) results. Which would be fine except that when i run const total = await models.products.countDocuments(query[0].$match), so count the documents using that match query, i get 72. So There is a mismatch between the two.
So what is happening to the rest of the results? Am i doing something wrong in this query? This is definitely the first aggregate query i've written, so maybe i'm just completely missing something. Any tips / questions / optimizations are welcomed! If you need any more info let me know.
Edit
Here is an example of the match query expanded. When i was using Model.find with this it was working fine, but since i've been isolating parts of the query this seems to be the culprit. The intent is to only pull results that have an expire time greater than the current time, or the field is null. The data comes from a scraper and sometimes i don't have the expires data. I also exclude a string of categories, this is a safeguard from displaying items that make it through the scraper but i don't want on the site.
$match : {
$or : [
{ expires_at : { $gt : moment().toISOString() }},
{ expires_at : null }
],
vendor_category : {
$nin : [ 'ID-6', 'ID-8', 'ID-283', 'ID-288', 'ID-354', 'ID-513', 'ID-654', 'ID-659', 'ID-33', 'ID-450', 'ID-497', 'ID-59', 'ID-404', 'ID-337']
}
}

Ok after digging and digging I found a github issue that solved my problem and hopefully this will help others in the future. When using Model.aggregate, Mongoose does not cast it's arguments.
If you are looking to match with a date using Model.aggregate you HAVE to wrap the date in new Date().
Originally i was doing this which didn't work: { expires_at : { $gte : moment().toISOString() }}
And changed it to this, which works: { expires_at : { $gte : new Date(moment().toISOString()) }}

$lookup on nested array of Objects

In my project Node and Mongo project, i'm using mongoose for my modelling.
I'm trying to perform a lookup on a nested document.
I have a thread object, with an array of "post" objects as one of its properties. One of the properties of this nested "post" object, is a user_id, the person who posted.
I've tried to lookup the user_id(ie - localfield: thread.post.user_id, from users, foreignfield: _id) but the shell keeps returning nothing.
Can anybody suggest an amendment to what i've tried below:
db.threads.aggregate([
{ "$match": { "posts._id": ObjectId("abcdef") } },
{ "$sort": { "dateAdded": -1 } },
{ "$limit": 15 },
{ "$lookup": {"localField": "posts.user_id","from": "users","foreignField": "_id","as": "userinfo"} },
{ "$unwind": "$userinfo" },
{ "$project":{"dateAdded":1,"userinfo.name":1,"userinfo.username":1}}
]);
And a sample of the records in my collections
db.threads.find({}) returns...
{
"_id" : ObjectId("78910"),
"dateAdded" : ISODate("2017-08-18T16:44:23Z"),
"title" : "Thread Zero",
"posts" : [ {
"_id" : ObjectId("abcdef"),
"user_id" : ObjectId("12345"),
"postText" : "good evening",
"dateAdded" : "2017-8-18 17:44:34" } ],
"__v" : 0
}
db.users.find({}) returns...
Sample user object
{
"_id" : ObjectId("12345"), "name" : "James Free",
"name" : "Al Isonwunderland",
"password" : "$2a$10$ILpitvg1.o8X8GnaSaoG4ulnuNWrFTUfhQDA8CdihbHPjBrB8NaVm",
"username" : "muppet",
"__v" : 0
}
So from this, I would like to return the name property from the "user" object for each of the posts on the thread.
What i've written is an attempt to get the user's name ad username for one specific post, I would assume retrieving the user name and name for all comments is to leave the $match parameter blank, allowing it to return a list of posts along with the user's name/username
Can anyone confirm this?

I swapped out ObjectId for a uuid property as ObjectId is messy to deal with(the Mongo shell's .find() function returns as ObjectId("5998a2a81762e90ce9f55d92"), then when reading from database it's just the alphanumeric("5998a2a81762e90ce9f55d92") returns and then inputting that alphanumeric into the shell to test commands always returns null)
The following solved my problem,
db.threads.aggregate([
{$match: {uuid: 'de36dd72-238b-47b0-b363-3fbfa1f2743e'}},
{$unwind:"$posts"},
{$lookup: {
from: 'users',
localField: 'posts.user_uuid',
foreignField: 'uuid',
as: 'userInfo'}}
]);
This MongoDB $lookup on nested document
proved useful.
Hope this helps someone else along the way

how to get data from two collections using inner join in mongoDb with Node Js? [duplicate]

How do I perform the SQL Join equivalent in MongoDB?
For example say you have two collections (users and comments) and I want to pull all the comments with pid=444 along with the user info for each.
comments
{ uid:12345, pid:444, comment="blah" }
{ uid:12345, pid:888, comment="asdf" }
{ uid:99999, pid:444, comment="qwer" }
users
{ uid:12345, name:"john" }
{ uid:99999, name:"mia" }
Is there a way to pull all the comments with a certain field (eg. ...find({pid:444}) ) and the user information associated with each comment in one go?
At the moment, I am first getting the comments which match my criteria, then figuring out all the uid's in that result set, getting the user objects, and merging them with the comment's results. Seems like I am doing it wrong.

As of Mongo 3.2 the answers to this question are mostly no longer correct. The new $lookup operator added to the aggregation pipeline is essentially identical to a left outer join:
https://docs.mongodb.org/master/reference/operator/aggregation/lookup/#pipe._S_lookup
From the docs:
{
$lookup:
{
from: <collection to join>,
localField: <field from the input documents>,
foreignField: <field from the documents of the "from" collection>,
as: <output array field>
}
}
Of course Mongo is not a relational database, and the devs are being careful to recommend specific use cases for $lookup, but at least as of 3.2 doing join is now possible with MongoDB.

We can merge/join all data inside only one collection with a easy function in few lines using the mongodb client console, and now we could be able of perform the desired query.
Below a complete example,
.- Authors:
db.authors.insert([
{
_id: 'a1',
name: { first: 'orlando', last: 'becerra' },
age: 27
},
{
_id: 'a2',
name: { first: 'mayra', last: 'sanchez' },
age: 21
}
]);
.- Categories:
db.categories.insert([
{
_id: 'c1',
name: 'sci-fi'
},
{
_id: 'c2',
name: 'romance'
}
]);
.- Books
db.books.insert([
{
_id: 'b1',
name: 'Groovy Book',
category: 'c1',
authors: ['a1']
},
{
_id: 'b2',
name: 'Java Book',
category: 'c2',
authors: ['a1','a2']
},
]);
.- Book lending
db.lendings.insert([
{
_id: 'l1',
book: 'b1',
date: new Date('01/01/11'),
lendingBy: 'jose'
},
{
_id: 'l2',
book: 'b1',
date: new Date('02/02/12'),
lendingBy: 'maria'
}
]);
.- The magic:
db.books.find().forEach(
function (newBook) {
newBook.category = db.categories.findOne( { "_id": newBook.category } );
newBook.lendings = db.lendings.find( { "book": newBook._id } ).toArray();
newBook.authors = db.authors.find( { "_id": { $in: newBook.authors } } ).toArray();
db.booksReloaded.insert(newBook);
}
);
.- Get the new collection data:
db.booksReloaded.find().pretty()
.- Response :)
{
"_id" : "b1",
"name" : "Groovy Book",
"category" : {
"_id" : "c1",
"name" : "sci-fi"
},
"authors" : [
{
"_id" : "a1",
"name" : {
"first" : "orlando",
"last" : "becerra"
},
"age" : 27
}
],
"lendings" : [
{
"_id" : "l1",
"book" : "b1",
"date" : ISODate("2011-01-01T00:00:00Z"),
"lendingBy" : "jose"
},
{
"_id" : "l2",
"book" : "b1",
"date" : ISODate("2012-02-02T00:00:00Z"),
"lendingBy" : "maria"
}
]
}
{
"_id" : "b2",
"name" : "Java Book",
"category" : {
"_id" : "c2",
"name" : "romance"
},
"authors" : [
{
"_id" : "a1",
"name" : {
"first" : "orlando",
"last" : "becerra"
},
"age" : 27
},
{
"_id" : "a2",
"name" : {
"first" : "mayra",
"last" : "sanchez"
},
"age" : 21
}
],
"lendings" : [ ]
}
I hope this lines can help you.

This page on the official mongodb site addresses exactly this question:
https://mongodb-documentation.readthedocs.io/en/latest/ecosystem/tutorial/model-data-for-ruby-on-rails.html
When we display our list of stories, we'll need to show the name of the user who posted the story. If we were using a relational database, we could perform a join on users and stores, and get all our objects in a single query. But MongoDB does not support joins and so, at times, requires bit of denormalization. Here, this means caching the 'username' attribute.
Relational purists may be feeling uneasy already, as if we were violating some universal law. But let’s bear in mind that MongoDB collections are not equivalent to relational tables; each serves a unique design objective. A normalized table provides an atomic, isolated chunk of data. A document, however, more closely represents an object as a whole. In the case of a social news site, it can be argued that a username is intrinsic to the story being posted.

You have to do it the way you described. MongoDB is a non-relational database and doesn't support joins.

With right combination of $lookup, $project and $match, you can join mutiple tables on multiple parameters. This is because they can be chained multiple times.
Suppose we want to do following (reference)
SELECT S.* FROM LeftTable S
LEFT JOIN RightTable R ON S.ID = R.ID AND S.MID = R.MID
WHERE R.TIM > 0 AND S.MOB IS NOT NULL
Step 1: Link all tables
you can $lookup as many tables as you want.
$lookup - one for each table in query
$unwind - correctly denormalises data , else it'd be wrapped in arrays
Python code..
db.LeftTable.aggregate([
# connect all tables
{"$lookup": {
"from": "RightTable",
"localField": "ID",
"foreignField": "ID",
"as": "R"
}},
{"$unwind": "R"}
])
Step 2: Define all conditionals
$project : define all conditional statements here, plus all the variables you'd like to select.
Python Code..
db.LeftTable.aggregate([
# connect all tables
{"$lookup": {
"from": "RightTable",
"localField": "ID",
"foreignField": "ID",
"as": "R"
}},
{"$unwind": "R"},
# define conditionals + variables
{"$project": {
"midEq": {"$eq": ["$MID", "$R.MID"]},
"ID": 1, "MOB": 1, "MID": 1
}}
])
Step 3: Join all the conditionals
$match - join all conditions using OR or AND etc. There can be multiples of these.
$project: undefine all conditionals
Complete Python Code..
db.LeftTable.aggregate([
# connect all tables
{"$lookup": {
"from": "RightTable",
"localField": "ID",
"foreignField": "ID",
"as": "R"
}},
{"$unwind": "$R"},
# define conditionals + variables
{"$project": {
"midEq": {"$eq": ["$MID", "$R.MID"]},
"ID": 1, "MOB": 1, "MID": 1
}},
# join all conditionals
{"$match": {
"$and": [
{"R.TIM": {"$gt": 0}},
{"MOB": {"$exists": True}},
{"midEq": {"$eq": True}}
]}},
# undefine conditionals
{"$project": {
"midEq": 0
}}
])
Pretty much any combination of tables, conditionals and joins can be done in this manner.

You can join two collection in Mongo by using lookup which is offered in 3.2 version. In your case the query would be
db.comments.aggregate({
$lookup:{
from:"users",
localField:"uid",
foreignField:"uid",
as:"users_comments"
}
})
or you can also join with respect to users then there will be a little change as given below.
db.users.aggregate({
$lookup:{
from:"comments",
localField:"uid",
foreignField:"uid",
as:"users_comments"
}
})
It will work just same as left and right join in SQL.

As others have pointed out you are trying to create a relational database from none relational database which you really don't want to do but anyways, if you have a case that you have to do this here is a solution you can use. We first do a foreach find on collection A( or in your case users) and then we get each item as an object then we use object property (in your case uid) to lookup in our second collection (in your case comments) if we can find it then we have a match and we can print or do something with it.
Hope this helps you and good luck :)
db.users.find().forEach(
function (object) {
var commonInBoth=db.comments.findOne({ "uid": object.uid} );
if (commonInBoth != null) {
printjson(commonInBoth) ;
printjson(object) ;
}else {
// did not match so we don't care in this case
}
});

Here's an example of a "join" * Actors and Movies collections:
https://github.com/mongodb/cookbook/blob/master/content/patterns/pivot.txt
It makes use of .mapReduce() method
* join - an alternative to join in document-oriented databases

$lookup (aggregation)
Performs a left outer join to an unsharded collection in the same database to filter in documents from the “joined” collection for processing. To each input document, the $lookup stage adds a new array field whose elements are the matching documents from the “joined” collection. The $lookup stage passes these reshaped documents to the next stage.
The $lookup stage has the following syntaxes:
Equality Match
To perform an equality match between a field from the input documents with a field from the documents of the “joined” collection, the $lookup stage has the following syntax:
{
$lookup:
{
from: <collection to join>,
localField: <field from the input documents>,
foreignField: <field from the documents of the "from" collection>,
as: <output array field>
}
}
The operation would correspond to the following pseudo-SQL statement:
SELECT *, <output array field>
FROM collection
WHERE <output array field> IN (SELECT <documents as determined from the pipeline>
FROM <collection to join>
WHERE <pipeline> );
Mongo URL

It depends on what you're trying to do.
You currently have it set up as a normalized database, which is fine, and the way you are doing it is appropriate.
However, there are other ways of doing it.
You could have a posts collection that has imbedded comments for each post with references to the users that you can iteratively query to get. You could store the user's name with the comments, you could store them all in one document.
The thing with NoSQL is it's designed for flexible schemas and very fast reading and writing. In a typical Big Data farm the database is the biggest bottleneck, you have fewer database engines than you do application and front end servers...they're more expensive but more powerful, also hard drive space is very cheap comparatively. Normalization comes from the concept of trying to save space, but it comes with a cost at making your databases perform complicated Joins and verifying the integrity of relationships, performing cascading operations. All of which saves the developers some headaches if they designed the database properly.
With NoSQL, if you accept that redundancy and storage space aren't issues because of their cost (both in processor time required to do updates and hard drive costs to store extra data), denormalizing isn't an issue (for embedded arrays that become hundreds of thousands of items it can be a performance issue, but most of the time that's not a problem). Additionally you'll have several application and front end servers for every database cluster. Have them do the heavy lifting of the joins and let the database servers stick to reading and writing.
TL;DR: What you're doing is fine, and there are other ways of doing it. Check out the mongodb documentation's data model patterns for some great examples. http://docs.mongodb.org/manual/data-modeling/

There is a specification that a lot of drivers support that's called DBRef.
DBRef is a more formal specification for creating references between documents. DBRefs (generally) include a collection name as well as an object id. Most developers only use DBRefs if the collection can change from one document to the next. If your referenced collection will always be the same, the manual references outlined above are more efficient.
Taken from MongoDB Documentation: Data Models > Data Model Reference >
Database References

Before 3.2.6, Mongodb does not support join query as like mysql. below solution which works for you.
db.getCollection('comments').aggregate([
{$match : {pid : 444}},
{$lookup: {from: "users",localField: "uid",foreignField: "uid",as: "userData"}},
])

You can run SQL queries including join on MongoDB with mongo_fdw from Postgres.

MongoDB does not allow joins, but you can use plugins to handle that. Check the mongo-join plugin. It's the best and I have already used it. You can install it using npm directly like this npm install mongo-join. You can check out the full documentation with examples.
(++) really helpful tool when we need to join (N) collections
(--) we can apply conditions just on the top level of the query
Example
var Join = require('mongo-join').Join, mongodb = require('mongodb'), Db = mongodb.Db, Server = mongodb.Server;
db.open(function (err, Database) {
Database.collection('Appoint', function (err, Appoints) {
/* we can put conditions just on the top level */
Appoints.find({_id_Doctor: id_doctor ,full_date :{ $gte: start_date },
full_date :{ $lte: end_date }}, function (err, cursor) {
var join = new Join(Database).on({
field: '_id_Doctor', // <- field in Appoints document
to: '_id', // <- field in User doc. treated as ObjectID automatically.
from: 'User' // <- collection name for User doc
}).on({
field: '_id_Patient', // <- field in Appoints doc
to: '_id', // <- field in User doc. treated as ObjectID automatically.
from: 'User' // <- collection name for User doc
})
join.toArray(cursor, function (err, joinedDocs) {
/* do what ever you want here */
/* you can fetch the table and apply your own conditions */
.....
.....
.....
resp.status(200);
resp.json({
"status": 200,
"message": "success",
"Appoints_Range": joinedDocs,
});
return resp;
});
});

You can do it using the aggregation pipeline, but it's a pain to write it yourself.
You can use mongo-join-query to create the aggregation pipeline automatically from your query.
This is how your query would look like:
const mongoose = require("mongoose");
const joinQuery = require("mongo-join-query");
joinQuery(
mongoose.models.Comment,
{
find: { pid:444 },
populate: ["uid"]
},
(err, res) => (err ? console.log("Error:", err) : console.log("Success:", res.results))
);
Your result would have the user object in the uid field and you can link as many levels deep as you want. You can populate the reference to the user, which makes reference to a Team, which makes reference to something else, etc..
Disclaimer: I wrote mongo-join-query to tackle this exact problem.

playORM can do it for you using S-SQL(Scalable SQL) which just adds partitioning such that you can do joins within partitions.

Nope, it doesn't seem like you're doing it wrong. MongoDB joins are "client side". Pretty much like you said:
At the moment, I am first getting the comments which match my criteria, then figuring out all the uid's in that result set, getting the user objects, and merging them with the comment's results. Seems like I am doing it wrong.
1) Select from the collection you're interested in.
2) From that collection pull out ID's you need
3) Select from other collections
4) Decorate your original results.
It's not a "real" join, but it's actually alot more useful than a SQL join because you don't have to deal with duplicate rows for "many" sided joins, instead your decorating the originally selected set.
There is alot of nonsense and FUD on this page. Turns out 5 years later MongoDB is still a thing.

I think, if You need normalized data tables - You need to try some other database solutions.
But I've foun that sollution for MOngo on Git
By the way, in inserts code - it has movie's name, but noi movie's ID.
Problem
You have a collection of Actors with an array of the Movies they've done.
You want to generate a collection of Movies with an array of Actors in each.
Some sample data
db.actors.insert( { actor: "Richard Gere", movies: ['Pretty Woman', 'Runaway Bride', 'Chicago'] });
db.actors.insert( { actor: "Julia Roberts", movies: ['Pretty Woman', 'Runaway Bride', 'Erin Brockovich'] });
Solution
We need to loop through each movie in the Actor document and emit each Movie individually.
The catch here is in the reduce phase. We cannot emit an array from the reduce phase, so we must build an Actors array inside of the "value" document that is returned.
The code
map = function() {
for(var i in this.movies){
key = { movie: this.movies[i] };
value = { actors: [ this.actor ] };
emit(key, value);
}
}
reduce = function(key, values) {
actor_list = { actors: [] };
for(var i in values) {
actor_list.actors = values[i].actors.concat(actor_list.actors);
}
return actor_list;
}
Notice how actor_list is actually a javascript object that contains an array. Also notice that map emits the same structure.
Run the following to execute the map / reduce, output it to the "pivot" collection and print the result:
printjson(db.actors.mapReduce(map, reduce, "pivot"));
db.pivot.find().forEach(printjson);
Here is the sample output, note that "Pretty Woman" and "Runaway Bride" have both "Richard Gere" and "Julia Roberts".
{ "_id" : { "movie" : "Chicago" }, "value" : { "actors" : [ "Richard Gere" ] } }
{ "_id" : { "movie" : "Erin Brockovich" }, "value" : { "actors" : [ "Julia Roberts" ] } }
{ "_id" : { "movie" : "Pretty Woman" }, "value" : { "actors" : [ "Richard Gere", "Julia Roberts" ] } }
{ "_id" : { "movie" : "Runaway Bride" }, "value" : { "actors" : [ "Richard Gere", "Julia Roberts" ] } }

We can merge two collection by using mongoDB sub query. Here is example,
Commentss--
`db.commentss.insert([
{ uid:12345, pid:444, comment:"blah" },
{ uid:12345, pid:888, comment:"asdf" },
{ uid:99999, pid:444, comment:"qwer" }])`
Userss--
db.userss.insert([
{ uid:12345, name:"john" },
{ uid:99999, name:"mia" }])
MongoDB sub query for JOIN--
`db.commentss.find().forEach(
function (newComments) {
newComments.userss = db.userss.find( { "uid": newComments.uid } ).toArray();
db.newCommentUsers.insert(newComments);
}
);`
Get result from newly generated Collection--
db.newCommentUsers.find().pretty()
Result--
`{
"_id" : ObjectId("5511236e29709afa03f226ef"),
"uid" : 12345,
"pid" : 444,
"comment" : "blah",
"userss" : [
{
"_id" : ObjectId("5511238129709afa03f226f2"),
"uid" : 12345,
"name" : "john"
}
]
}
{
"_id" : ObjectId("5511236e29709afa03f226f0"),
"uid" : 12345,
"pid" : 888,
"comment" : "asdf",
"userss" : [
{
"_id" : ObjectId("5511238129709afa03f226f2"),
"uid" : 12345,
"name" : "john"
}
]
}
{
"_id" : ObjectId("5511236e29709afa03f226f1"),
"uid" : 99999,
"pid" : 444,
"comment" : "qwer",
"userss" : [
{
"_id" : ObjectId("5511238129709afa03f226f3"),
"uid" : 99999,
"name" : "mia"
}
]
}`
Hope so this will help.

Mongoose populate either ObjectId reference or String

Is there a way to specify a heterogeneous array as a schema property where it can contain both ObjectIds and strings? I'd like to have something like the following:
var GameSchema = new mongoose.schema({
players: {
type: [<UserModel reference|IP address/socket ID/what have you>]
}
Is the only option a Mixed type that I manage myself? I've run across discriminators, which look somewhat promising, but it looks like it only works for subdocuments and not references to other schemas. Of course, I could just have a UserModel reference and create a UserModel that just stores the IP address or whatever I'm using to identify them, but that seems like it could quickly get hugely out of control in terms of space (having a model for every IP I come across sounds bad).
EDIT:
Example:
A game has one logged in user, three anonymous users, the document should look something like this:
{ players: [ ObjectId("5fd88ea85...."), "192.0.0.1", "192.1.1.1", "192.2.2.1"] }
Ideally this would be populated to:
{ players: [ UserModel(id: ..., name: ...), "192.0.0.1", "192.1.1.1", "192.2.2.1"] }
EDIT:
I've decided to go a different route: instead of mixing types, I'm differentiating with different properties. Something like this:
players: [
{
user: <object reference>,
sessionID: <string>,
color: {
type: String
},
...other properties...
}
]
I have a validator that ensures only one of user or sessionID are populated for a given entry. In some ways this is more complex, but it does obviate the need to do this kind of conditional populating and figuring out what type each entry is when iterating over them. I haven't tried any of the answers, but they look promising.

If you are content to go with using Mixed or at least some scheme that will not work with .populate() then you can shift the "join" responsibility to the "server" instead using the $lookup functionality of MongoDB and a little fancy matching.
For me if I have a "games" collection document like this:
{
"_id" : ObjectId("5933723c886d193061b99459"),
"players" : [
ObjectId("5933723c886d193061b99458"),
"10.1.1.1",
"10.1.1.2"
],
"__v" : 0
}
Then I send the statement to the server to "join" with the "users" collection data where an ObjectId is present like this:
Game.aggregate([
{ "$addFields": {
"users": {
"$filter": {
"input": "$players",
"as": "p",
"cond": { "$gt": [ "$$p", {} ] }
}
}
}},
{ "$lookup": {
"from": "users",
"localField": "users",
"foreignField": "_id",
"as": "users"
}},
{ "$project": {
"players": {
"$map": {
"input": "$players",
"as": "p",
"in": {
"$cond": {
"if": { "$gt": [ "$$p", {} ] },
"then": {
"$arrayElemAt": [
{ "$filter": {
"input": "$users",
"as": "u",
"cond": { "$eq": [ "$$u._id", "$$p" ] }
}},
0
]
},
"else": "$$p"
}
}
}
}
}}
])
Which gives the result when joined to the users object as:
{
"_id" : ObjectId("5933723c886d193061b99459"),
"players" : [
{
"_id" : ObjectId("5933723c886d193061b99458"),
"name" : "Bill",
"__v" : 0
},
"10.1.1.1",
"10.1.1.2"
]
}
So the "fancy" part really relies on this logical statement when considering the entries in the "players" array:
"$filter": {
"input": "$players",
"as": "p",
"cond": { "$gt": [ "$$p", {} ] }
}
How this works is that to MongoDB, an ObjectId and actually all BSON types have a specific sort precedence. In this case where the data is "Mixed" between ObjectId and String then the "string" values are considered "less than" the value of a "BSON Object", and the ObjectId values are "greater than".
This allows you to separate the ObjectId values from the source array into their own list. Given that list, you $lookup to perform the "join" at get the objects from the other collection.
In order to put them back, I'm using $map to "transpose" each element of the original "players" where the matched ObjectId was found with the related object. An alternate approach would be to "split" the two types, do the $lookup and $concatArrays between the Users and the "strings". But that would not maintain the original array order, so $map may be a better fit.
I will add of note that the same basic process can be applied in a "client" operation by similarly filtering the content of the "players" array to contain just the ObjectId values and then calling the "model" form of .populate() from "inside" the response of the initial query. The documentation shows an example of that form of usage, as do some answers on this site before it was possible to do a "nested populate" with mongoose.
The other point of mind here is that .populate() itself existed as a mongoose method long before the $lookup aggregation pipeline operator came about, and was a solution for a time when MongoDB itself was incapable of performing a "join" of any sort. So the operations are indeed "client" side as an emulation and really only perform additional queries that you do not need to be aware of in issuing the statements yourself.
Therefore it should generally be desirable in a modern scenario to use the "server" features, and avoid the overhead involved with multiple queries in order to get the result.