Say we have a table partitioned as:-
CREATE EXTERNAL TABLE MyTable (
col1 string,
col2 string,
col3 string
)
PARTITIONED BY(year INT, month INT, day INT, hour INT, combination_id BIGINT);
Now obviously year is going to store year value (e.g. 2016), the month will store month va.ue (e.g. 7) the day will store day (e.g. 18) and hour will store hour value in 24 hour format (e.g. 13). And combination_id is going to be combination of padded (if single digit value pad it with 0 on left) values for all these. So in this case for example the combination id is 2016071813.
So we fire query (lets call it Query A):-
select * from mytable where combination_id = 2016071813
Now Hive doesn't know that combination_id is actually combination of year,month,day and hour. So will this query not take proper advantage of partitioning?
In other words, if I have another query, call it Query B, will this be more optimal than query A or there is no difference?:-
select * from mytable where year=2016 and month=7 and day=18 and hour=13
If Hive partitioning scheme is really hierarchical in nature then Query B should be better from performance point of view is what I am thinking. Actually I want to decide whether to get rid of combination_id altogether from partitioning scheme if it is not contributing to better performance at all.
The only real advantage for using combination id is to be able to use BETWEEN operator in select:-
select * from mytable where combination_id between 2016071813 and 2016071823
But if this is not going to take advantage of partitioning scheme, it is going to hamper performance.
explain select ....
for both queries, and inspect the execution plan. That should give you some clues about how the Hive optimizer does "partition pruning".