I came across this post in Stackoverflow. The first answer mentions something like A clustered index has all the data for the table while a non clustered index only has the column + the location of the clustered index or the row if it is on a heap (a table without a clustered index). How can a non-clustered index have the location of the clustered index? It only contains the column values sorted as nodes in a B-treee with each node pinting to the row where the column has that node-value, right?
Assuming you're talking about SQL Server and also assuming that you have a clustered index on your table (as you should).
Then the nonclustered index has the columns that you define in your
That clustering key value is the "pointer" to where the actual data is located.
If the query executor seeks through your nonclustered index for a value and find a match, then
For a pretty good explanation - see this blog post here. It says:
Or see this blog post in a whole series on SQL Server indexes which explains the "bookmarks" stored in a nonclustered index leaf-level page, too.
its pretty easy to imagine like it this:
You have a table of customers, for example customer(id, name, age, adress). On this table you have an clustered index on age. This means your data is sorted by age on the harddrive. This is very benificial when you want to do range querys like:
SELECT * FROM customer WHERE age > 18;
Then the data can be fetched from your harddrive with only a few sequential reads. If it were unclustered you would have to make one disc access (included the seek of the data) for every matching customer tuple).
Maybe for your application you also need to access the users by id. This means without a additional index on id you would have to run over the entire file to find an particular id, because its sorted by age and u have no index! To avoid that, you create a second index on id. Now you can search for an id in this index and the leaf of the index, which contains the customer you are looking for, points to the place in your (by age clustered) data on disc, where u find the tuple. By this u must not read the whole table need much less disc accesses (in general 2 for index lookup + 1 for fetching the tuple).
EDIT: I didn't see that you were talking about the same column. One thing I could imagine is, that you do one clustered index on one colum for the reason described above and another combined index of this and another column for example. This can be usefull to do an index-only lookup, here u have all the required attributes in the index and must not do a page fetch at all. Another reason would be to have a clustered B+-Index for range querys and a Hash-Index for equality querys. But I think the benefit here would be negligible.
Hope it helped!