SQL index for date range query

Ben picture Ben · Oct 16, 2017 · Viewed 11.1k times · Source

For a few days, I've been struggling with improving the performance of my database and there are some issues that I'm still kind a confused about regarding indexing in a SQL Server database.

I'll try to be as informative as I can.

My database currently contains about 100k rows and will keep growing, therfore I'm trying to find a way to make it work faster.

I'm also writing to this table, so if you suggestion will drastically reduce the writing time please let me know.

Overall goal is to select all rows with a specific names that are in a date range.

That will usually be to select over 3,000 rows out of a lot lol ...

Table schema:

CREATE TABLE [dbo].[reports]
(
    [id] [int] IDENTITY(1,1) NOT NULL,
    [IsDuplicate] [bit] NOT NULL,
    [IsNotValid] [bit] NOT NULL,
    [Time] [datetime] NOT NULL,
    [ShortDate] [date] NOT NULL,
    [Source] [nvarchar](350) NULL,
    [Email] [nvarchar](350) NULL,

    CONSTRAINT [PK_dbo.reports] 
        PRIMARY KEY CLUSTERED ([id] ASC)
) ON [PRIMARY]

This is the SQL query I'm using:

SELECT * 
FROM [db].[dbo].[reports]
WHERE Source = 'name1' 
  AND ShortDate BETWEEN '2017-10-13' AND '2017-10-15'

As I understood, my best approach to improve efficency without hurting the writing time as much would be to create a nonclustered index on the Source and ShortDate.

Which I did like such, index schema:

CREATE NONCLUSTERED INDEX [Source&Time] 
ON [dbo].[reports]([Source] ASC, [ShortDate] ASC)

Now we are getting to the tricky part which got me completely lost, the index above sometimes works, sometime half works and sometime doesn't work at all....

(not sure if it matters but currently 90% of the database rows has the same Source, although this won't stay like that for long)

  1. With the query below, the index isn't used at all, I'm using SQL Server 2014 and in the Execution Plan it says it only uses the clustered index scan:

    SELECT * 
    FROM [db].[dbo].[reports]
    WHERE Source = 'name1' 
      AND ShortDate BETWEEN '2017-10-10' AND '2017-10-15'
    
  2. With this query, the index isn't used at all, although I'm getting a suggestion from SQL Server to create an index with the date first and source second... I read that the index should be made by the order the query is? Also it says to include all the columns Im selecting, is that a must?... again I read that I should include in the index only the columns I'm searching.

    SELECT * 
    FROM [db].[dbo].[reports]
    WHERE Source = 'name1' 
      AND ShortDate = '2017-10-13'
    

    SQL Server index suggestion -

    /* The Query Processor estimates that implementing the following 
       index could improve the query cost by 86.2728%. */
    
    /*
    USE [db]
    GO
    
    CREATE NONCLUSTERED INDEX [<Name of Missing Index, sysname,>]
    ON [dbo].[reports] ([ShortDate], [Source])
    INCLUDE ([id], [IsDuplicate], [IsNotValid], [Time], [Email])
    GO
    */
    

Now I tried using the index SQL Server suggested me to make and it works, seems like it uses 100% of the nonclustered index using both the queries above.

I tried to use this index but deleting the included columns and it doesn't work... seems like I must include in the index all the columns I'm selecting?

BTW it also work when using the index I made if I include all the columns.

To summarize: seems like the order of the index didn't matter, as it worked both when creating Source + ShortDate and ShortDate + Source

But for some reason its a must to include all the columns... (which will drastically affect the writing to this table?)

Thanks a lot for reading, My goal is to understand why this stuff happens and what I should do otherwise (not just the solution as I'll need to apply it on other projects as well ).

Cheers :)

Answer

marc_s picture marc_s · Oct 16, 2017

Indexing in SQL Server is part know-how from long experience (and many hours of frustration), and part black magic. Don't beat yourself up over that too much - that's what a place like SO is ideal for - lots of brains, lots of experience from many hours of optimizing, that you can tap into.

I read that the index should be made by the order the query is?

If you read this - it is absolutely NOT TRUE - the order of the columns is relevant - but in a different way: a compound index (made up from multiple columns) will only ever be considered if you specify the n left-most columns in the index definition in your query.

Classic example: a phone book with an index on (city, lastname, firstname). Such an index might be used:

  • in a query that specifies all three columns in its WHERE clause
  • in a query that uses city and lastname (find all "Miller" in "Detroit")
  • or in a query that only filters by city

but it can NEVER EVER be used if you want to search only for firstname ..... that's the trick about compound indexes you need to be aware of. But if you always use all columns from an index, their ordering is typically not really relevant - the query optimizer will handle this for you.


As for the included columns - those are stored only in the leaf level of the nonclustered index - they are NOT part of the search structure of the index, and you cannot specify filter values for those included columns in your WHERE clause.

The main benefit of these included columns is this: if you search in a nonclustered index, and in the end, you actually find the value you're looking for - what do you have available at that point? The nonclustered index will store the columns in the non-clustered index definition (ShortDate and Source), and it will store the clustering key (if you have one - and you should!) - but nothing else.

So in this case, once a match is found, and your query wants everything from that table, SQL Server has to do what is called a Key lookup (often also referred to as a bookmark lookup) in which it takes the clustered key and then does a Seek operation against the clustered index, to get to the actual data page that contains all the values you're looking for.

If you have included columns in your index, then the leaf level page of your non-clustered index contains

  • the columns as defined in the nonclustered index
  • the clustering key column(s)
  • all those additional columns as defined in your INCLUDE statement

If those columns "cover" your query, e.g. provide all the values that your query needs, then SQL Server is done once it finds the value you searched for in the nonclustered index - it can take all the values it needs from that leaf-level page of the nonclustered index, and it does NOT need to do another (expensive) key lookup into the clustering index to get the actual values.

Because of this, trying to always explicitly specify only those columns you really need in your SELECT can be beneficial - in this case, you might be able to create an efficient covering index that provides all the values for your SELECT - always using SELECT * makes that really hard or next to impossible.....