I prefer the first option, it is easier to code within the application and requires much less state holders and functions to understand how things should work.
As for adding a new field over time you don't need to update all your records to support this new field like you would in SQL all you need to do is write the new field into your model application side and support this field being
null if it is not returned from MongoDB.
A good example is in PHP.
I have a class of
user at first with only one field,
6 months down the line and 60,000 users later I want to add, say,
address. All I do is add that variable to my application model:
public $address = array();
This now works exactly like adding a new
null field to SQL without having to actually add it to every row on-demand.
It is a very reactive design, don't update what you don't need to. If that row gets used it will get updated, if not then who cares.
So eventually your rows actually become a mix and match between option 1 and 2 but it is really a reactive option 1.
On the storage side you have also got to think of pre-allocation and movement of documents.
Say the amount of a set record now is only a third of the doc but then suddenly, from the user updating the doc with all of the fields, you now have extra fragmentation from the movement of your docs.
Normally when you are defining a schema like this you are defining one that will eventually grow and apply to that user in most cases (much like an SQL schema does).
This is something to take into consideration that even though storage might be lower in the short term it could cause fragmentation and slow querying due to that fragmentation and you could easily find yourself having to run
repairDbs due to the problems you now face.
I should mention that both of those functions I said above are not designed to be run regularly and have a significant performance problem to them while they run on a production environment.
So really with the structure above you don't need to add a new field across all documents and you will most likely get less movement and problems in the long run.
You can fix the performance problems of consistently growing documents by using power of 2 sizes padding, but then this is collection wide which means that even your fully filled documents will use up at least double their previous space and you small documents will probably be using as much space as your full documents would have on a padding factor of
Aka you lose space, not gain it.