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Execution plans

Between

Reading Richard Foote’s latest blog note about automatic indexing and “non-equality” predicates I was struck by a whimsical thought about how the optimizer handles “between” predicates. (And at the same time I had to worry about the whimsical way that WordPress treats “greater than” and “less than” symbols.)

It’s probably common knowledge that if your SQL has lines like this:

columnA between {constant1} and {constant2}

the optimizer will transform them into lines like these:

rowsets

Here’s a little demonstration of the benefit of rowsets. It started with a very simple question that arrived in my in-box from Kaley Crum.

  • “Why does the query with the UNION ALL take so much longer than the query without the UNION ALL?”

Here are the two queries – surely they should take virtually the same amount of time.

I wish

Here’s a lovely little mechanism new to Postgres 13 that can minimise sorting costs: the “incremental sort”. It would be nice to see it in Oracle as well as it could make an enormous difference to “fetch first N” queries.

The concept is simple – if a rowsource moving up a plan is known to be in “partially sorted” order when it reaches a sort operation the optimizer can choose whether or not to sort the entire rowsource in one go or to sort it in batches as it arrives.

Interval Oddity

Interval partitioning is a popular strategy for partitioning date-based data. It’s an enhanced variant of range partitioning that allows you to define a starting partition and an interval that should be used to derive the high values for all subsequent partitions – and Oracle doesn’t even have to create intervening partitions if you insert data that goes far beyond the current partition, it automatically creates exactly the right partition (with the correct high_value and correctly inferred lower boundary) for the incoming data and behaves as if the intervening partitions will become available when they’re needed at some later point in time.

Inline Hint

If you’ve ever used subquery factoring (“with” subqueries or common table expressions (CTEs) as they are often called) then you’re probably aware of the (undocumented) hints /*+ materialize */ , which forces Oracle to create a local temporary table to hold the result of the subquery for subsequent use, and /*+ inline */, which forces the optimizer to copy the text of the subquery into the body of the query before starting the optimisation phase.

There’s a small, but important, enhancement to these hints that appeared in Oracle 18. Like so many other hints in Oracle they can now have a query block name as a “parameter”, so you can use them at the top level of your query. Here’s some code to demonstrate:

Index FFS Cost

There are a number of unexpected issues with the optimizer’s treatment of the index fast full scan, the access path where Oracle ignores the structure of the B-tree and uses multiblock reads to do a brute-force segment scan as if the index were a “skinny table” with a few blocks of irrelevant garbage (i.e. the branch blocks) that could be ignored.

Serial Bloom

Following the recent note I wrote about an enhancement to the optimizer’s use of Bloom filters, I received a question by email asking about the use of Bloom filters in serial execution plans:

I’m having difficulty understanding the point of a Bloom filter when used in conjunction with a hash join where everything happens within the same process.

I believe you mentioned in your book (Cost Based Oracle) that hash joins have a mechanism similar to a Bloom filter where a row from the probe table is checked against a bitmap, where each hash table bucket is indicated by a single bit. (You have a picture on page 327 of the hash join and bitmap, etc).

Subquery with OR

I’ve written a couple of notes in the past about the problems of optimising queries with predicates of the form “or exists {subquery}”. A recent question on the Oracle Developer Community forum brought to my attention an improvement in this area in (very precisely) 12.2, as well as giving me a cute example of how the first cut of a new feature doesn’t always cover every detail, and creating a nice example of how the new technology enhances the old technology.

We start with some data and a simple query running under 12.2.0.1:

Fetch First vs. Rownum

I’ve pointed out fairly frequently that if you’re running Standard Edition but would like to take advantage of a few features of the Partitioning option then you might be able to do something appropriate with Partition Views (but I’ve just discovered while searching my blog for a suitable item to link to that I haven’t published any of my PV notes on the blog).

I’ve also pointed out that while 12c allows you to use “fetch first N rows” instead of “where rownum <= N” there’s a hidden threat to using the feature because “fetch first N” turns into a hidden row_number() over() analytic function.

Recursive WITH upgrade

There’s a notable change in the way the optimizer does cost and cardinality calculations for recursive subquery factoring that may make some of your execution plans change – with a massive impact on performance – as you upgrade to any version of Oracle from 12.2.0.1 onwards. The problem appeared in a question on the Oracle Developer Community forum a little while ago, with a demonstration script to model the issue.

I’ve copied the script – with a little editing – and reproduced the change in execution plan described by the OP. Here’s my copy of the script, with the insert statements that generate the data (all 1,580 of them) removed.