I have not used the geometry datatype, and have never had reason to read up on it. Even so, it seems to me that if you’re just doing basic arithmatic on a simple geometric object, the mundane old SQL datatypes should be quite effiicient, particularly if you toss in some calculated columns for frequently used calculations.
--DROP TABLE MyTable
CREATE TABLE MyTable
X1 decimal not null
,Y1 decimal not null
,X2 decimal not null
,Y2 decimal not null
,Area as abs((X2-X1) * (Y2-Y1))
,XLength as abs((X2 - X1))
,YLength as abs((Y2 - Y1))
,Diagonal as sqrt(power(abs((X2 - X1)), 2) + power(abs((Y2 - Y1)), 2))
INSERT MyTable values (1,1,4,5)
INSERT MyTable values (4,5,1,1)
INSERT MyTable values (0,0,3,3)
SELECT * from MyTable
Ugly calculations, but they won’t be performed unless and until they are actually referenced (or unless you choose to index them). I have no statistics, but performing the same operations via the Geometry datatype probably means accessing rarely used mathematical subroutines, possibly embedded in system CLR assemblies, and I just can’t see that being significantly faster than the bare-bones SQL arithmatic routines.
I just took a look in BOL on the Geometry datatype. (a) Zounds! (b) Cool! Check out the entries under “geomety Data Type Method Reference” (online here , but you want to look at the expanded treeview under this entry.) If that’s the kind of functionality you’ll be needing, by all means use the Geometry data type, but for simple processing, I’d stick with the knucklescraper datatypes.