For one thing, Map/Reduce in MongoDB wasn't made for ad-hoc queries, there's considerable overhead to M/R. Even a very simple M/R operation on a small dataset can take in the hundreds of milliseconds because of that overhead.
I can't say much about the performance of M/R compared to the aggregation framework on large datasets in practice, but in theory, M/R operations on a large sharded database should be faster since the shards can run the operations largely in parallel.
$cos operator in the aggregation framework, nor a meaningful way to build discrete buckets from continuous numbers (something like
$truncate), the aggregation framework wouldn't help in that case.
So, in a nutshell, I'd say the use cases are
- keeping the results of M/R in a separate collection and updating it from time to time (using the
out parameter and merging the results)
- Complex queries on large sharded data sets
- Queries that are so complex that you can't use the aggregation framework. I'd say that's a pretty certain sign of a design flaw in the data structure, but in principle, it can help