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I have been reading lately about how clustered index and non-clustered index works. My understanding in simple terms (correct me if wrong):

The data structure that backs clustered and non-clustered index is B-Tree

Clustered Index: physically sorts the data based on the index column (or key). you can have only one clustered Index per table. If no index is specified during table creation, SQL server will automatically create a clustered Index on the primary key column.

Q1: Since data is physically sorted based on index, there is no extra space needed here. is this correct? so what happens when I drop the index I created?

Non-clustered Index: In non-clustered indexes, the leaf-node of the tree contains the columns values and a pointer (row locator) to the actual row in the database. Here there is extra space needed for storing this non-clustered index table physically on disk. However, one is not limited by the number of non-clustered Indexes.

Q2: Does it mean a query on non-clustered index column will not result in the sorted data?

Q3: There is an extra look-up associated here to locate the actual row data using the pointer at the leaf node. How much performance difference would this be when compared to a clustered index?

Excercise:

consider an Employee table:

CREATE TABLE Employee
(
PersonID int PRIMARY KEY,
Name varchar(255),
age int,
salary int
); 

Now I created an employee table ( a default clustered index on employee is created).

Two frequent queries on this table happen only on age and salary columns. For sake of simplicity, lets assume that the table is NOT frequently updated

for example:

select * from employee where age > XXX;

select * from employee where salary > XXXX and salary < YYYY;

Q4 : what is the best way to construct indexes, so that queries on both these column have similar performance. If I have clustered index on age queries on age column will be faster but than on salary column will be slower.

Q5: On a related note, I have repeatedly seen that indexes (both clustered and non-clustered) should be created on column with unique constraints. why is that? what will happen on failure to do this?

Thank you very much Posts I read are here:

http://javarevisited.blogspot.com/2013/08/difference-between-clustered-index-and-nonclustered-index-sql-server-database.html

http://msdn.microsoft.com/en-us/library/ms190457.aspx

Clustered vs Non-Clustered

What do Clustered and Non clustered index actually mean?

What are the differences between a clustered and a non-clustered index?

How does database indexing work?

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  • You tagged this question mysql, but your questions imply that you are asking about Microsoft SQL Server. Which is it? Both products provide clustered and non-clustered indexes, but the internal details may differ slightly. Can you please clarify, and if necessary edit the tags? Sep 12, 2014 at 19:29
  • @BillKarwin: I am not asking about Microsoft SQl server. I want this to be a general question. The interal implementation of indexes might differ between mysql and Microsoft's. but I am interested in the concept/idea of how it works. I am not sure what part of question specifies Microsoft SQL server if so, kindly edit it. I am a beginner here, so I might have interchanged terminologies unknowingly. Thanks! Sep 12, 2014 at 19:37

2 Answers 2

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I don't know about internals of Microsoft SQL Server, but I can answer for MySQL, which you tagged for your question. The details could vary for other implementations.

Q1. Right, no extra space is needed for the clustered index.

What happens if you drop the clustered index? MySQL's InnoDB engine always uses the primary key (or the first non-null unique key) as the clustered index. If you define a table without a primary key, or you drop the primary key of an existing table, InnoDB generates an internal artificial key for the clustered index. This internal key has no logical column to reference it.

Q2. A order of rows returned by a query that uses a non-clustered index is not guaranteed. In practice, it's the order in which the rows were accessed. If you need rows to be returned in a specific order, you should use ORDER BY in your query. If the optimizer can infer that your desired order is the same as the order in which it will access rows (index order, whether by clustered or non-clustered index), then it can skip the sorting step.

Q3. InnoDB non-clustered index does not have a pointer to the corresponding row at a leaf of the index, it has the value of the primary key. So a lookup in a non-clustered index is really two B-tree searches, the first to find the leaf of the non-clustered index, and then a second search in the clustered index.

This is double the cost of a single B-tree search (more or less), so InnoDB has an extra feature called the Adaptive Hash Index. Frequently-searched values get cached in the AHI, and the next time a query searches for a cached value, it can do an O(1) lookup. In the AHI cache, it finds a pointer directly to the leaf of the clustered index, so it eliminates both B-tree searches, part of the time.

How much this improves total performance depends on how frequently you search for the same value(s) that have been searched before. In my experience, it's typical for the ratio of hash searches vs. non-hash searches to be about 1:2.

Q4. Construct the indexes to serve the queries you need to be optimized. Typically a clustered index is a primary or unique key, and at least in the case of InnoDB, this is required. Neither age nor salary is likely to be unique.

You may like my presentation, How to Design Indexes, Really.

Q5. InnoDB automatically creates an index when you declare a unique constraint. You can't have the constraint without an index existing for it. If you didn't have an index, how would the engine ensure uniqueness when you insert a value? It would need to search the entire table for a duplicate value in that column. The index helps to make unique checks much more efficient.

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  • Thanks for the great explanation. regarding Q3: you mentioned two b-tree searches will be made, But to find the right row, I will have three block reads (and each block might have 10-rows to 100 depending on block size). So in theory, even thought I have the ID of primary key, I need to read the entire block, skip through till I find the ID of interest. Is this correct? Sep 12, 2014 at 19:57
  • if you have youtube or any video presentation of your talk, that would be great. I am looking at slides and they are just awesome!! Sep 12, 2014 at 19:57
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    Correct. InnoDB for example stores everything in uniformly-sized pages (16KB by default). Some number of rows fit within one page. But once it loads the page into memory, the overhead of searching it is negligible. The I/O for loading the page from disk is about 100,000 times more expensive. Sep 12, 2014 at 19:59
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    It seems my talk was recorded by ZendCon when I presented it there in 2012. youtube.com/watch?v=ELR7-RdU9XU Sep 12, 2014 at 20:01
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    @AttitudeMonger, searching by an index is faster than searching without an index. The benefit is greater the more rows you have in the table. It makes no difference if the data is increasing or not, the DBMS software takes care of inserting into the index in sorted order. Jun 8, 2016 at 14:47
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For SQL Server

Q1 Extra space is only needed for the clustered index if it is not unique. SQL Server will add a 4 byte uniquifier internally to a non-unique clustered index. This is because it uses the cluster key as a rowid in non-clustered indexes.

Q2 A non-clustered index can be read in order. That may aid queries where you specify an order. It may also make merge joins attractive. It will also help with range queries (x < col and y > col).

Q3 SQL Server does an extra "bookmark lookup" when using a non-clustered index. But, this is only if it needs a column that isn't in the index. Note also, that you can include extra columns in the leaf level of indexs. If an index can be used without the additional lookup it is called a covering index.

If a bookmark lookup is required, it doesn't take a high percentage of rows until it's quicker just to scan the whole clustered index. The level depends on row size, key size etc. But 5% of rows is a typical cut off.

Q4 If the most important thing in your application was making both these queries as fast as possible, you could create covering index on both of them:

create index IX_1 on employee (age) include (name, salary);
create index IX_2 on employee (salary) include (name, age);

Note you don't have to specifically include the cluster key, as the non-clustered index has it as the row pointer.

Q5 This is more important for cluster keys than non-cluster keys due to the uniquifier. The real issue though is whether an index is selective or not for your queries. Imagine an index on a bit value. Unless the distribution of data is very skewed, such an index is unlikely to be used for anything.


More info about the uniquifier. Imagine you and a non unique clustered index on age, and a non-clustered index on salary. Say you had the following rows:

age | salary | uniqifier
20  | 1000   | 1
20  | 2000   | 2

Then the salary index would locate rows like so

1000 -> 20, 1
2000 -> 20, 2

Say you ran the query select * from employee where salary = 1000, and the optimizer chose to use the salary index. It would then find the pair (20, 1) from the index lookup, then lookup this value in the main data.

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  • Thks for taking effort to help here. can you please elaborate your point for Q1. Regarding Q2) select query on a non-clustered index will result in sorted order only if I specify ORDER BY. (From above So answer). On a clustered-index, it is sorted by default. so there is an extra "sorting" process in-case of non-clustered indexes correct? so a range operation (age < 30 and age > 60) is going to be ineffective in non-clustered indexes. please explain Sep 12, 2014 at 20:23
  • +1 good to give examples of how Microsoft differs from MySQL. Index implementations are not universal. In fact, the ANSI/ISO SQL standard doesn't mention indexes at all, so all implementations are vendor extensions to SQL! Sep 12, 2014 at 20:27
  • a non clustered index is still a b-tree, so you can read the index pages in order. Imagine if you wanted to know how many people were aged between 10 and 20. You would find 10 in the btree, and then traverse in order until you got to 20, counting each row as you pass.
    – Laurence
    Sep 12, 2014 at 20:29
  • Q1) how is that uniquifier that SQL server adds helps in locating that row? for example, in my example above, I created a clustered index on age (which is not unique). now when I execute query, select * from employee where age=20; since there are many employee with age 20, how it retrieves all the data Sep 12, 2014 at 20:37
  • I've put some more information about the uniqifier at the end.
    – Laurence
    Sep 12, 2014 at 20:44

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