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Explain why Access.Application.Eval() (commonly abbreviated as Eval()) produces a different result than just evaluating the original expression in this case:

Debug.Print Round(.575 * 100)
Debug.Print Eval("Round(.575 * 100)")

EDIT: To address GSerg's answer, the following still returns different results:

Debug.Print Eval("Round(CSng(.575) * 100)")
Debug.Print Round(CSng(.575) * 100)
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For the same reason Debug.Print Round(0.575#*100.0#), Round(57.5#*1.0#) returns 57 58? –  Jean-François Corbett Jun 22 '11 at 14:02

5 Answers 5

up vote 6 down vote accepted

That multiplication returns a different product under Eval(), but I don't understand why.

Debug.Print (.575 * 100) < 57.5

Debug.Print Eval("(.575 * 100) = 57.5")

In the first case, the product is less than 57.5, so Round() will round it down to 57.

In the second case, the product is equal to 57.5, so Round() will apply its standard "round to even" approach to yield 58.

Edit: You all are right that Eval() coerces the literal value to a different data type.

? TypeName(.575)

? Eval("TypeName(.575)")

? Round(CDec(.575) * 100)
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As @GSerg surmised I'm guessing it has to do with coercing literal numbers to different datatypes. I'm thinking VBA coerces to Double and Jet coerces to Currency. See the answer I posted. Also, the binary/floating point representation of .575 works out to 0.57499999999999996, which is probably why (.575 * 100) < 57.5. –  mwolfe02 Jun 22 '11 at 15:20
Good. But what does Jet have to do with this? Are you saying Eval() runs its expression through Jet? I don't see anything about that in the Help topic. –  HansUp Jun 22 '11 at 15:30
You're right, Eval() apparently uses the Access Expression Service which is different from (though probably closely tied to) the Jet Expression Service (source). The whole situation is a bit of a black box to me and I'd like to know a bit more about what is going on inside. –  mwolfe02 Jun 22 '11 at 15:51
I just reread the help for Eval() and this caught my eye: You can use the Eval function to access expression operators that aren't ordinarily available in Visual Basic. For example, you can't use the SQL operators Between...And or In directly in your code, but you can use them in an expression passed to the Eval function. Since Between...And and In are expressions that Jet knows how to evaluate, I'm thinking that Jet is involved somehow, either directly or indirectly. –  mwolfe02 Jun 22 '11 at 16:01
Earlier I wrote @GSerg's answer was the most plausible at the time... But this one is more than plausible, it's proof definitive! +2 –  Jean-François Corbett Jun 23 '11 at 14:05

GSerg got me thinking. I'm starting to believe that Jet attempts to coerce decimal literals to the Currency type when Eval is called whereas VBA coerces decimal literals to the Double type. Case in point:

? Math.Round(.575 * 100)
? Math.Round(CSng(.575) * 100)
? Math.Round(CDbl(.575) * 100)
? Math.Round(CCur(.575) * 100)

? Eval("Round(.575 * 100)")
? Eval("Round(CSng(.575) * 100)")
? Eval("Round(CDbl(.575) * 100)")
? Eval("Round(CCur(.575) * 100)")
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Nice experiment, but you forgot to coerce the 100! ? Eval("Round(CSng(.575) * CSng(100))") returns 58. Anyway, +1 for doing some fairly extensive testing before posting an answer -- something that just isn't common enough on SO. –  Jean-François Corbett Jun 23 '11 at 6:38
D'oh! Nice catch. –  mwolfe02 Jun 23 '11 at 13:30

If you run the following SQL expression in Access, you get 58:

select Round((.575 - Int(.575)) * 100) as MyValue

If you run the following statement in Access (and, for that matter any Office VBA IDE) Immediate window, you get 57:

Round((.575 - Int(.575)) * 100)

So, that leads me to believe VBA has a different way of doing Round rather than Access and, probably more applicable, JET.

Now, why is that different? Dunno...will take someone with better skills than me.

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This is not the issue: in both the OP's cases, VBA's Round is called. You are onto something: VBA's Round uses banker's rounding, i.e. round 0.5's to the nearest even integer; while Access does not. But again, this isn't the issue in this particular question. –  Jean-François Corbett Jun 22 '11 at 14:07

That is because of different float precision.

In one case the constants get recognized as Doubles, in the other as Singles.

? math.round((.575! - Int(.575!)) * 100)
? math.round((.575# - Int(.575#)) * 100)
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Ok, so why does this happen: Print Round(0.575#*100.0#), Round(57.5#*1.0#) returns 57 58. It's all doubles. I guess I need to read more on floating-point arithmetic... –  Jean-François Corbett Jun 22 '11 at 14:04
@Jean Yeah, with floating points 0.575#*100.0# might not be exactly equal to 57.5#*1.0#. As for the question, the following is also true: math.Round(.575# * 100#) => 57, math.Round(.575! * 100!) => 58. –  GSerg Jun 22 '11 at 14:09
This is the most plausible explanation. I'm satisfied. +1 –  Jean-François Corbett Jun 22 '11 at 14:13
@Jean: It is because .5 can be exactly represented with binary fractions (ie, .1 in binary or 1/2) while .575 cannot. See Floating Point Arithmetic: Issues and Limitations in the Python tutorial for a concise and straightforward explanation. –  mwolfe02 Jun 22 '11 at 14:16
This was probably the most helpful answer (in terms of pointing everyone in the right direction), but @HansUp's use of TypeName provided a better proof of what was actually going on. –  mwolfe02 Jun 22 '11 at 16:08

I don't use Access, but I would guess that the Eval evaluates the expression as an Access expression, so that the Round and Int functions may operate differently from the VBA versions?

I know from bitter experience that VBA's Round() function uses the round-to-even rounding method (aka Banker's rounding), rather than the more common round-away-from-zero-on-a-5 (aka symmetric arithmetic rounding) method.

share|improve this answer
Guesses, guesses, guesses... –  Jean-François Corbett Jun 22 '11 at 14:07
BTW, wrong guess in this case. –  Jean-François Corbett Jun 22 '11 at 14:12

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