In most computer languages (including T-SQL) floating point values are approximate, so comparing `FLOAT`

variables for being equal is often a bad idea (especially after doing some maths on them) E.g. a `FLOAT`

variable is only accurate to about 15 digits (by default)

You can see this by adding the following line at the end of your sample code:

`PRINT STR((@Actual - @Expected) * 1000000, 40, 20)`

which returns -0.00010000000**82740**

So you could either

Use the built in SQL function ROUND to allow numbers approximately the same to be viewed as equal:

`EXEC tSQLt.AssertEquals ROUND (@Expected, 14), ROUND (@Actual, 14)`

Use an exact type for the variables, like `NUMERIC (38, 19)`

. Replacing every FLOAT in your example with NUMERIC (38, 19) *seems* to give the same result, but when you add the `PRINT STR((@Actual - @Expected) * 1000000, 40, 20)`

mentioned above, it now prints exactly
-0.0001000000**000000**, showing that there is an inaccuracy in the PRINT statement as well

Of course your tSQLt.AssertEquals test will still fail since the values are different in the 10th digit after the decimal point. (one number is ...925... and the other is ...935...). If you want it to pass even then, round the values off to 9 digits with ROUND

## Further information:

See David Goldberg's excellent article *What Every Computer Scientist Should Know About Floating-Point Arithmetic* here or here under the heading Rounding Errors.

http://msdn.microsoft.com/en-us/library/ms173773.aspx

http://www.informit.com/library/content.aspx?b=STY_Sql_Server_7&seqNum=93