It’s Less Efficient To Have Low Cardinality Leading Columns In An Index (Right) ? February 13, 2008Posted by Richard Foote in Concatenated Indexes, Index Internals, Oracle General, Oracle Indexes, Oracle Myths, Performance Tuning.
A common myth or mis-perception is that when deciding how to order the columns in a concatenated, multi-column index, one should avoid placing low cardinality columns in front.
For example, if you want to create an index on two columns, column ID which has many many distinct values and column CODE which has very few distinct values, create the index as (ID, CODE) as it’ll be far more efficient than a corresponding index on (CODE, ID).
The reasoning goes that by creating the (CODE, ID) index, one decreases the performance and efficiency of using the index as Oracle will have to scan through multiple index leaf blocks containing the low cardinality column, until it eventually finds the specific index entries of interest.
Or so the theory goes …
In actual fact, there’s no real difference in navigating to the specific leaf block of interest for an index on (ID, CODE) compared to an index based on (CODE, ID), providing both indexed columns are known.
The important fact that’s missed is that the branch index entries contain column entries based on all indexed columns, or at least on as much as is necessary to uniquely identify the required navigational path. Therefore, Oracle can directly navigate to the leaf block of interest, no matter the index order, providing all index column values are know.
The only slight overhead that an index based on (CODE,ID) will have is that these branch index entries are going to be somewhat larger as it will likely require both columns for the branch index entries but likely only the one column the other way around. However, branch blocks usually take up a small percentage of the overall index structure and this (usually) minor overhead is very unlikely to make a difference to the index height.
This demo on Index Column Cardinality Order shows how Oracle navigates to a specific leaf block of interest in the same manner and with the same costs, regardless of the ordering of low and high cardinality columns in the index. It also shows and describes a couple of index branch block dumps to highlight how Oracle uses the column values to define the necessary navigational path.
So the high cardinality column shouldn’t necessarily be the column given leading column status.
In actual fact there are a number of good reasons why the low cardinality column could be considered as the better option as the leading column. For a start, the index can be compressed much more efficiently if the leading column has lower cardinality. Also, an Index Skip Scan can at least be considered if the leading column has lower cardinality.
Of course, the ordering of columns in an index can be very significant and can make a huge difference to the possible efficiency of an index for other key reasons as well. Whether the leading column is always going to be a known value is an important consideration, as is the clustering factor of the leading column.
All good discussions for another day