Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

After going through all the hard work of writing a recursive CTE query to meet my needs, I realize I can't use it because it doesn't work in an indexed view. So I need something else to replace the CTE below. (Yes you can use a CTE in a non-indexed view, but that's too slow for me).

The requirements:

  1. My ultimate goal is to have a self updating indexed view (it doesn't have to be a view, but something similar)... that is, if data changes in any of the tables the view joins on, then the view needs to update itself.

  2. The view needs to be indexed because it has to be very fast, and the data doesn't change very frequently. Unfortunately, the non-indexed view using a CTE takes 3-5 seconds to run which is way too long for my needs. I need the query to run in milliseconds. The recursive table has a few hundred thousand records in it.

As far as my research has taken me, the best solution to meet all these requirements is an indexed view, but I'm open to any solution.

The CTE can be found in the answer to my other post. Or here it is again:

     Id INT 
    ,[Name] VARCHAR(20) 
    ,ParentId INT 

INSERT INTO @tbl( Id, Name, ParentId ) 
 (1, 'Europe', NULL) 
,(2, 'Asia',   NULL) 
,(3, 'Germany', 1) 
,(4, 'UK',      1) 
,(5, 'China',   2) 
,(6, 'India',   2) 
,(7, 'Scotland', 4) 
,(8, 'Edinburgh', 7) 
,(9, 'Leith', 8) 

DECLARE @tbl2 table (id int, abbreviation varchar(10), tbl_id int)
INSERT INTO @tbl2( Id, Abbreviation, tbl_id ) 
 (100, 'EU', 1) 
,(101, 'AS', 2) 
,(102, 'DE', 3) 
,(103, 'CN', 5)

;WITH abbr AS (
    SELECT a.*, isnull(b.abbreviation,'') abbreviation
    FROM @tbl a
    left join @tbl2 b on a.Id = b.tbl_id
), abcd AS ( 
          -- anchor 
        SELECT  id, [Name], ParentID,
                CAST(([Name]) AS VARCHAR(1000)) [Path],
                cast(abbreviation as varchar(max)) abbreviation
        FROM    abbr
        WHERE   ParentId IS NULL 
        UNION ALL
          --recursive member 
        SELECT  t.id, t.[Name], t.ParentID, 
                CAST((a.path + '/' + t.Name) AS VARCHAR(1000)) [Path],
                isnull(nullif(t.abbreviation,'')+',', '') + a.abbreviation
        FROM    abbr AS t 
                JOIN abcd AS a 
                  ON t.ParentId = a.id 
SELECT *, [Path] + ':' + abbreviation
FROM abcd
share|improve this question
Is there a max depth? –  RichardTheKiwi Jan 25 '11 at 22:25
If it's easier then sure. The depth shouldn't go past 4. –  goku_da_master Jan 26 '11 at 0:08
The real query doesn't run against those memvar tables does it? –  Ken Downs Jan 26 '11 at 2:29
Nope. Regular permanent tables. –  goku_da_master Jan 26 '11 at 15:20
add comment

1 Answer

up vote 3 down vote accepted

After hitting all the roadblocks with indexed views (self join, cte, udf accessing data etc), I propose that the below as a solution for you.

Create support function

Based on maximum depth of 4 from root (5 total). Or use a CTE

CREATE FUNCTION dbo.GetHierPath(@hier_id int) returns varchar(max)
return (
    select FullPath =
               isnull(H5.Name+'/','') + 
               isnull(H4.Name+'/','') +
               isnull(H3.Name+'/','') +
               isnull(H2.Name+'/','') +
               isnull(','+A1.abbreviation,'') +
               isnull(','+A2.abbreviation,'') + 
               isnull(','+A3.abbreviation,'') +
               isnull(','+A4.abbreviation,'') +
    from dbo.HIER H1
    left join dbo.ABBR A1 on A1.hier_id = H1.Id
    left join dbo.HIER H2 on H1.ParentId = H2.Id
    left join dbo.ABBR A2 on A2.hier_id = H2.Id
    left join dbo.HIER H3 on H2.ParentId = H3.Id
    left join dbo.ABBR A3 on A3.hier_id = H3.Id
    left join dbo.HIER H4 on H3.ParentId = H4.Id
    left join dbo.ABBR A4 on A4.hier_id = H4.Id
    left join dbo.HIER H5 on H4.ParentId = H5.Id
    left join dbo.ABBR A5 on A5.hier_id = H5.Id
    where H1.id = @hier_id)

Add columns to the table itself

For example the fullpath column, if you need, add the other 2 columns in the CTE by splitting the result of dbo.GetHierPath on ':' (left=>path, right=>abbreviations)

-- index maximum key length is 900, based on your data, 400 is enough

Maintain the columns

Because of the hierarchical nature, record X could be deleted that affects a Y descendent and Z ancestor, which is quite hard to identify in either of INSTEAD OF or AFTER triggers. So the alternative approach is based on the conditions

  • if data changes in any of the tables the view joins on, then the view needs to update itself.
  • the non-indexed view using a CTE takes 3-5 seconds to run which is way too long for my needs

We maintain the data simply by running through the entire table again, taking 3-5 seconds per update (or faster if the 5-join query works out better).

SET FullPath = dbo.GetHierPath(HIER.Id)

Finally, index the new column(s) on the table itself

create index ix_hier_fullpath on HIER(FullPath)

If you intended to access the path data via the id, then it is already in the table itself without adding an additional index.

The above TSQL references these objects

Modify the table and column names to suit your schema.

CREATE TABLE dbo.HIER (Id INT Primary Key Clustered, [Name] VARCHAR(20) ,ParentId INT)
INSERT dbo.HIER( Id, Name, ParentId ) VALUES 
     (1, 'Europe', NULL) 
    ,(2, 'Asia',   NULL) 
    ,(3, 'Germany', 1) 
    ,(4, 'UK',      1) 
    ,(5, 'China',   2) 
    ,(6, 'India',   2) 
    ,(7, 'Scotland', 4) 
    ,(8, 'Edinburgh', 7) 
    ,(9, 'Leith', 8)
    ,(10, 'Antartica', NULL) 
CREATE TABLE dbo.ABBR (id int primary key clustered, abbreviation varchar(10), hier_id int)
INSERT dbo.ABBR( Id, Abbreviation, hier_id ) VALUES 
     (100, 'EU', 1) 
    ,(101, 'AS', 2) 
    ,(102, 'DE', 3) 
    ,(103, 'CN', 5)

EDIT - Possibly faster alternative

Given that all records are recalculated each time, there is no real need for a function that returns the FullPath for a single HIER.ID. The query in the support function can be used without the where H1.id = @hier_id filter at the end. Furthermore, the expression for FullPath can be broken into PathOnly and Abbreviation easily down the middle. Or just use the original CTE, whichever is faster.

share|improve this answer
Thx cyberwiki! It's more complex than I hoped, but I understand why. So I'd have to add 3 extra columns to my HIER table: FullPath, PathOnly, Abbreviation (yes I need all 3 columns). So based on that, would you opt to create a separate table (called FullPath for example), with Name, PathOnly, Abbreviation, and HeirId columns? And have the trigger recreate this table, (or delete all records then add them back in)? Or stick with what you proposed? Just looking for best performance and design. –  goku_da_master Jan 26 '11 at 15:52
+1 this covers it. To understand more fully what these types of hierarchy representation are called, pros and cons, and further information, see this question: stackoverflow.com/questions/4048151/… –  orangepips Jan 26 '11 at 17:54
@goku_da_master It is probably better to store them off the table, which can be quickly repopulated after TRUNCATE TABLE. This reduces the impact of changes (e.g. if you had a TIMESTAMP column, it won't get changed unnecessarily). Recreating the table will leave the table momentarily non-existent, whereas clear+fill will only leave the data empty; the latter is definitely more preferable. –  RichardTheKiwi Jan 26 '11 at 18:54
Looking back at our requirements, I think your first answer is going to be the best solution for us, since the table (and data) needs to be available all the time. I don't want it to be unavailable for even a second while I truncate and repopulate it. So I think updating the individual records and the parent/children is the way to go. –  goku_da_master Feb 7 '11 at 17:14
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.