Queries

Morphia provides Query<T> class to build a query and map the results back to instances of your entity classes and attempts to provide as much type safety and validation as possible. To create the Query, we invoke the following code:

Query<Product> query = datastore.find(Product.class);

find() returns an instance of Query which we can use to build a query.

filter()

The most significant method filter(Filter…​). This method takes a number of filters to apply to the query being built. The filters are added to any existing, previously defined filters so you needn’t add them all at once. There are dozens of filters predefined in Morphia and can be found in the dev.morphia.query.filters package.

The filters can be accessed via the Filters class. The method names largely match the operation name you would use querying via the mongo shell so this should help you translate queries in to Morphia’s API. For example, to query for products whose prices is greater than or equal to 1000, you would write this:

query.filter(Filters.gte("price", 1000));

This will append the new criteria to any existing criteria already defined. You can define as many filters in one call as you’d like or you may choose to append them in smaller groups based on whatever query building logic your application might have.

Complex Queries

Of course, queries are usually more complex than single field comparisons. Morphia offers both and() and or() to build up more complex queries. An and query might look something like this:

q.filter(and(
    eq("width", 10),
    eq("height", 1)));

An or clause looks exactly the same except for using or() instead of and(), of course. The default is to "and" filter criteria together so if all you need is an and clause, you don’t need an explicit call to and():

datastore.find(UserLocation.class)
    .filter(
        lt("x", 5),
        gt("y", 4),
        gt("z", 10));

This generates an implicit and across the field comparisons.

Other Query Options

There is more to querying than simply filtering against different document values. Listed below are some of the options for modifying the query results in different ways.

Projections

Projections allow you to return only a subset of the fields in a document. This is useful when you need to only return a smaller view of a larger object. Borrowing from the unit tests, this is an example of this feature in action:

ContainsRenamedFields user = new ContainsRenamedFields("Frank", "Zappa");
datastore.save(user);

ContainsRenamedFields found = datastore
                                  .find(ContainsRenamedFields.class)
                                  .iterator(new FindOptions()
                                               .projection().include("first_name")
                                               .limit(1))
                                  .tryNext();
assertNotNull(found.firstName);
assertNull(found.lastName);

As you can see here, we’re saving this entity with a first and last name but our query only returns the first name (and the _id value) in the returned instance of our type. It’s also worth noting that this projection works with both the mapped document field name "first_name" and the Java field name "firstName".

While projections can be a nice performance win in some cases, it’s important to note that this object can not be safely saved back to MongoDB.Any fields in the existing document in the database that are missing from the entity will be removed if this entity is saved. For example, in the example above if found is saved back to MongoDB, the last_name field that currently exists in the database for this entity will be removed. To save such instances back consider using Datastore#merge(T)

Limiting and Skipping

Pagination of query results is often done as a combination of skips and limits. Morphia offers FindOptions.limit(int) and FindOptions.skip(int) for these cases. An example of these methods in action would look like this:

datastore.find(Person.class)
    .iterator(new FindOptions()
	    .skip(1)
	    .limit(10))

This query will skip the first element and take up to the next 10 items found by the query. There’s a caveat to using skip/limit for pagination, however. See the skip documentation for more detail.

Ordering

Ordering the results of a query is done via FindOptions.sort(Sort…​), etc. For example, to sort by age (youngest to oldest) and then income (highest to lowest), you would use this:

getDs().find(User.class)
       .iterator(new FindOptions()
                    .sort(ascending("age"), descending("income"))
                    .limit(1))
       .tryNext();

Tailable Cursors

If you have a capped collection it’s possible to "tail" a query so that when new documents are added to the collection that match your query, they’ll be returned by the tailable cursor. An example of this feature in action can be found in the unit tests in the testTailableCursors() test:

datastore.getMapper().map(CappedPic.class);
getDs().ensureCaps();                                                          (1)
final Query<CappedPic> query = getDs().find(CappedPic.class);
final List<CappedPic> found = new ArrayList<>();

final MorphiaCursor<CappedPic> tail =
    query.iterator(new FindOptions()
        .cursorType(CursorType.Tailable));
while(found.size() < 10) {
	found.add(tail.next());                                                    (2)
}

There are two things to note about this code sample:

  1. This tells Morphia to make sure that any entity configured to use a capped collection has its collection created correctly. If the collection already exists and is not capped, you will have to manually update your collection to be a capped collection.

  2. Since this Iterator is backed by a tailable cursor, hasNext() and next() will block until a new item is found. In this version of the unit test, we tail the cursor waiting to pull out objects until we have 10 of them and then proceed with the rest of the application.

Polymorphic Queries

By default, Morphia will only return documents of the type given in find(). However, if you want to retrieve subtypes as well, you can enable this in the MapperOptions via MapperOptions.Builder.enablePolymorphicQueries(boolean).

Queries by ID will ignore this setting since such queries are filtering by a specific, unique value and polymorphic queries do incur potential performance hits due to the wider scope of the query filter.