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When attempting to understand how a SQL statement is executing, it is sometimes recommended to look at the explain plan. What is the process one should go through in interpreting (making sense) of an explain plan? What should stand out as, "Oh, this is working splendidly?" versus "Oh no, that's not right."

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11 Answers 11

up vote 58 down vote accepted

I shudder whenever I see comments that full tablescans are bad and index access is good. Full table scans, index range scans, fast full index scans, nested loops, merge join, hash joins etc. are simply access mechanisms that must be understood by the analyst and combined with a knowledge of the database structure and the purpose of a query in order to reach any meaningful conclusion.

A full scan is simply the most efficient way of reading a large proportion of the blocks of a data segment (a table or a table (sub)partition), and, while it often can indicate a performance problem, that is only in the context of whether it is an efficient mechanism for achieving the goals of the query. Speaking as a data warehouse and BI guy, my number one warning flag for performance is an index based access method and a nested loop.

So, for the mechanism of how to read an explain plan the Oracle documentation is a good guide: http://download.oracle.com/docs/cd/B28359_01/server.111/b28274/ex_plan.htm#PFGRF009

Have a good read through the Performance Tuning Guide also.

Also have a google for "cardinality feedback", a technique in which an explain plan can be used to compare the estimations of cardinality at various stages in a query with the actual cardinalities experienced during the execution. Wolfgang Breitling is the author of the method, I believe.

So, bottom line: understand the access mechanisms. Understand the database. Understand the intention of the query. Avoid rules of thumb.

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I knew it was you after the first 9 words. It's like "name that tune"... I can identify a Dave A post in n words or less... –  Mark Brady Oct 27 '08 at 15:36
    
I would quibble a little bit with your use of "large"... sometimes the data can be so poorly clustered around your index columns that a FTS would out perform an index scan for even 10% of the rows... –  Mark Brady Oct 27 '08 at 15:39
    
"I knew it was you ..." :D –  David Aldridge Oct 28 '08 at 18:33
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On the 10% -- absolutely. If you have 200 rows per block and you're looking for 0.5% of rows, then you might theoretically have to access 100% of the blocks to get all the values anyway, so it gets even more extreme than 10%. –  David Aldridge Oct 28 '08 at 18:36
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+1, never too late to upvote a good answer! –  DCookie May 2 '11 at 3:20

This subject is too big to answer in a question like this. You should take some time to read Oracle's Performance Tuning Guide

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link is broken. Live link. Here is updated version (for 11.2) –  Alexander Malakhov Sep 5 '11 at 2:30
    
@Alexander: Thanks –  Tony Andrews Sep 5 '11 at 9:40

Really for issues like these, the best thing to do is ASKTOM. In particular his answer to that question contains links to the online Oracle doc, where a lot of the those sorts of rules are explained.

One thing to keep in mind, is that explain plans are really best guesses.

It would be a good idea to learn to use sqlplus, and experiment with the AUTOTRACE command. With some hard numbers, you can generally make better decisions.

But you should ASKTOM. He knows all about it :)

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Rules of Thumb

(you probably want to read up on the details too:

Bad

Table Scans of Several Large Tables

Good

Using a unique index
Index includes all required fields

Most Common Win

In about 90% of performance problems I have seen, the easiest win is to break up a query with lots (4 or more) of tables into 2 smaller queries and a temporary table.

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Table Scan's are too often seen as bad things and it is initially what inexperienced people would focus on. This is highly dependant on the number of records being returned from that table, there is a threshold when its faster to do a full table scan rather than index lookup. –  ScottCher Oct 27 '08 at 16:00
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Downvoted for the outrageous advice. 90% of performance problems are NOT solved by temp tables and splitting up a query. What world do you live in?! –  TheSoftwareJedi Oct 27 '08 at 16:39
    
@Jedi, I live in a world where indeces are mostly right and databases are pretty much structured sensibly. I'd be interested to read your answer, though. –  AJ. Oct 28 '08 at 15:33

The two examples below show a FULL scan and a FAST scan using an INDEX.

It's best to concentrate on your Cost and Cardinality. Looking at the examples the use of the index reduces the Cost of running the query.

It's a bit more complicated (and i don't have a 100% handle on it) but basically the Cost is a function of CPU and IO cost, and the Cardinality is the number of rows Oracle expects to parse. Reducing both of these is a good thing.

Don't forget that the Cost of a query can be influenced by your query and the Oracle optimiser model (eg: COST, CHOOSE etc) and how often you run your statistics.

Example 1:

SCAN

Example 2 using Indexes:

INDEX

And as already suggested, watch out for TABLE SCAN. You can generally avoid these.

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Uh, Rule mode doesn't have costs... so I guess your statement is correct in a sort of absolutest way but I would say that it's fundamentally inaccurate. If you say CHOOSE, you could get the RBO or CBO. CBO is the only one that calcs a cost. –  Mark Brady Oct 27 '08 at 15:35

Looking for things like sequential scans can be somewhat useful, but the reality is in the numbers... except when the numbers are just estimates! What is usually far more useful than looking at a query plan is looking at the actual execution. In Postgres, this is the difference between EXPLAIN and EXPLAIN ANALYZE. EXPLAIN ANALYZE actually executes the query, and gets real timing information for every node. That lets you see what's actually happening, instead of what the planner thinks will happen. Many times you'll find that a sequential scan isn't an issue at all, instead it's something else in the query.

The other key is identifying what the actual expensive step is. Many graphical tools will use different sized arrows to indicate how much different parts of the plan cost. In that case, just look for steps that have thin arrows coming in and a thick arrow leaving. If you're not using a GUI you'll need to eyeball the numbers and look for where they suddenly get much larger. With a little practice it becomes fairly easy to pick out the problem areas.

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I mainly look for index or table scans. This usually tells me I'm missing an index on an important column that's in the where statement or join statement.

From http://www.sql-server-performance.com/tips/query_execution_plan_analysis_p1.aspx:

If you see any of the following in an execution plan, you should consider them warning signs and investigate them for potential performance problems. Each of them are less than ideal from a performance perspective.

* Index or table scans: May indicate a need for better or  additional indexes.
* Bookmark Lookups: Consider changing the current clustered index,
  consider using a covering index, limit
  the number of columns in the SELECT
  statement.
* Filter: Remove any functions in the WHERE clause, don't include wiews
  in your Transact-SQL code, may need
  additional indexes.
* Sort: Does the data really need to be sorted? Can an index be used to
  avoid sorting? Can sorting be done at
  the client more efficiently?

It is not always possible to avoid these, but the more you can avoid them, the faster query performance will be.

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Table scans are not all bad - depending on the number of records returned/processed from the table, a full table scan can be faster than an index scan (if you are going to bring back the records anyway, you'll do a index scan and a full read from the table - 2 steps instead of 1). –  ScottCher Oct 27 '08 at 16:06

Basically, you take a look at each operation and see if the operations "make sense" given your knowledge of how it should be able to work.

For example, if you're joining two tables, A and B on their respective columns C and D (A.C=B.D), and your plan shows a clustered index scan (SQL Server term -- not sure of the oracle term) on table A, then a nested loop join to a series of clustered index seeks on table B, you might think there was a problem. In that scenario, you might expect the engine to do a pair of index scans (over the indexes on the joined columns) followed by a merge join. Further investigation might reveal bad statistics making the optimizer choose that join pattern, or an index that doesn't actually exist.

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One "Oh no, that's not right" is often in the form of a table scan. Table scans don't utilize any special indexes and can contribute to purging of every useful in memory caches. In postgreSQL, for example, you will find it looks like this.

Seq Scan on my_table  (cost=0.00..15558.92 rows=620092 width=78)

Sometimes table scans are ideal over, say, using an index to query the rows. However, this is one of those red-flag patterns that you seem to be looking for.

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(Full) Table scans do not necessarily purge the memory cache. –  a_horse_with_no_name Apr 16 '12 at 17:18

The output of the explain tells you how long each step has taken. The first thing is to find the steps that have taken a long time and understand what they mean. Things like a sequential scan tell you that you need better indexes - it is mostly a matter of research into your particular database and experience.

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look at the percentage of time spent in each subsection of the plan, and consider what the engine is doing. for example, if it is scanning a table, consider putting an index on the field(s) that is is scanning for

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