Yes, that can be a kind of a problem that the partial filter expression cannot contain any 'not' filters.
For those who can be interested in a C# solution for an index like this, here is an example.
We have a 'User' entity, which has one-to-one 'relation' to a 'Doctor' entity.
This relation is represented by the not required, nullable field 'DoctorId' in the 'User' entity. In other words, there is a requirement that a given 'Doctor' can be linked to only single 'User' at a time.
So we need an unique index which can fire an exception when something attempts to set DoctorId to the same Guid which already set for any other 'User' entity. At the same time multiple 'null' entries must be allowed for the 'DoctorId' field, since many users do not have any doctor attached to them.
The solution to build this kind of an index looks like:
var uniqueDoctorIdIndexDefinition = new IndexKeysDefinitionBuilder<User>()
.Ascending(o => o.DoctorId);
var existsFilter = Builders<User>.Filter.Exists(o => o.DoctorId);
var notNullFilter = Builders<User>.Filter.Type(o => o.DoctorId, BsonType.String);
var andFilter = Builders<User>.Filter.And(existsFilter, notNullFilter);
var createIndexOptions = new CreateIndexOptions<User>
{
Unique = true,
Name = UniqueDoctorIdIndexName,
PartialFilterExpression = andFilter,
};
var uniqueDoctorIdIndex = new CreateIndexModel<User>(
uniqueDoctorIdIndexDefinition,
createIndexOptions);
users.Indexes.CreateOne(uniqueDoctorIdIndex);
Probably in your description of a 'User' entity you must directly specify the BsonType of the 'DoctorId' field, by using an attribute, for example in our case it was:
[BsonRepresentation(BsonType.String)]
public Guid? DoctorId { get; set; }
I am more than sure that there is a more proficient and compact solution for this problem, so would be happy if somebody suggests it here.