I have a table with a Binary(128) column. I chose Binary(128) over Varbinary(128) so it would reserve all 128 bytes and prevent page splits when updating the binary value. For testing purposes I have a FILLFACTOR of 100 on my index.
I found that even with the column set to a Binary(128) value it would still cause page splits when performing updates to this column.
Anyone have any idea why?
Here is some code to test with...
-- Create working dataset Create Table TestTable (tID Int Identity, TestBinary Binary(128)); Create Clustered Index hmmmm On TestTable (TestBinary) With (FillFactor=100); With recur As ( Select Convert(Binary(128),0x01) As val, 1 As incr Union All Select Convert(Binary(128),incr + 0x01), incr + 1 From recur Where incr < 100 ) Insert TestTable (TestBinary) Select Convert(Binary(128),Convert(Int,r.val) + Convert(Int,r2.val) + Convert(Int,r3.val)) As TestBinary From recur r Cross Join recur r2 Cross Join recur r3; -- Rebuild Index as needed while testing Alter Index [hmmmm] On [dbo].[TestTable] Rebuild -- Check index fragmentation SELECT Db_Name() As DatabaseName, o.id, s.name, o.name, page_count, record_count, index_type_desc, index_id, index_depth, index_level, avg_fragmentation_in_percent, fragment_count, avg_fragment_size_in_pages, avg_page_space_used_in_percent From sys.dm_db_index_physical_stats (DB_ID(), Object_ID('dbo.TestTable'), NULL , NULL, 'Detailed') n Join sysobjects o On n.object_id = o.id Join sys.schemas s On o.uid = s.schema_id; -- Update the records Update t Set TestBinary = Convert(Binary(128),(Convert(Int,TestBinary) + 10000)) From TestTable t
If you perform a large update with the FILLFACTOR at 100 it causes severe fragmentation, but if I have the FILLFACTOR at 90 everything is good. I thought the non-var datatypes were supposed to reserve memory so you don't run into this issue. Where is the storage inflation coming from?