# Help optimizing algorithm

I have a particular application that needs to calculate something very specific, and while I excel at logic, math has always been my weak spot.

Given a number, say -20, it needs to apply a calculation of a 100 base (that is, the base is 100, not 0. not to be confused with base 100 which would be something else totally).

In other words, the math works like this ..., 105, 104, 103, 102, 101, 100, -101, -102, -103, -104, -105, ...

Then I need to do the math based on this 100 base figure.

So, for example:

``````-140 - 20 =  120
-120 - 20 =  100
-115 - 20 = -105
-110 - 20 = -110
-105 - 20 = -115
100 - 20 = -120
120 - 20 = -140
``````

If it helps, the problem is related to sports odds. In theory, this refers to money (risk \$1.40 to win \$1.00 on one side, risk \$1.00 to win \$1.20 on the other, the .20 difference is what casinos call "the juice" or their cut of moving money back and forth.) However, the program is not dealing with real money, it's more of a simulator.

My current formula works like this:

``````decimal CalculateSides(decimal side, decimal vig)
{
decimal newSide = side - vig;

newSide = -(newSide < 0) ? newSide + 100 : newSide - 100;

return (newSide < 0) ? newSide + 100 : newSide - 100;
}
``````

While this formula works, I'm not very happy with the conditional +/-, but this is basically the only formula that works for me.

Can anyone suggest a way to improve this? Preferably without conditions of +/-?

EDIT:

When I asked the question, I knew one possible answer was "It's probably best the way you're doing it", and that seems to be the consensus.

-
Can you show me how this is used? Not sure that I am quite clear. What is the range of 'side' and 'vig'? – Ed S. Sep 5 '09 at 6:37
I don't know how +/- 100,000 should be obvious from your example... I also tend to agree with Pax here. – Ed S. Sep 5 '09 at 6:43
It should be clear from my example data. side will be +/- 100, up to, theoretically +/- 100,000. Typically, though, this will be in the range of +/-100 - +/-1000 – Erik Funkenbusch Sep 5 '09 at 6:44

One sensible way to handle this would be to compute internally with ordinary numbers which go from positive to negative at zero, and only add/subtract 100 for presentation.

-
That's a thought that hadn't occurred to me. I'll mull that one over. – Erik Funkenbusch Sep 5 '09 at 6:52
what I would've suggested had I seen the question sooner :) – warren Sep 5 '09 at 11:45

I strongly suspect that your sample function is broken. Is it a copy paste or did you retyped it ?

``````decimal CalculateSides(decimal side, decimal vig)
{
decimal newSide = side - vig;
newSide = -(newSide < 0) ? newSide + 100 : newSide - 100;
return (newSide < 0) ? newSide + 100 : newSide - 100;
}
``````

Just try with CalculatesSides(115, 20) you get -95, unlikely to be what you want. (I I understand well result should be -105).

However what you where trying to write seems clear enough. I believe it should be:

``````decimal CalculateSides(decimal side, decimal vig)
{
decimal newSide;
side = (side < 0) ? side + 100 : side - 100;
newSide = side - vig;
return (newSide < 0) ? newSide - 100 : newSide + 100;
}
``````

This is quite straightforward and won't be easy to optimize

1. change mode from 100base to 0base
2. compute in zero base
3. convert result base from 0base to 100base

You can do some tricks based on signs to avoid the tests as other suggested, but the result will be quite obfuscated and probably slower.

My advice would be to leave it that way.

-
vig will always be a negative number, if you use negative numbers the math works out correctly. CalculateSides(140,-20) = -160 which is correct. It's all +'s and -'s, so it really doesn't matter the order you do it in as long as you add the correct sign at the right time. – Erik Funkenbusch Sep 5 '09 at 11:38
I don't think so, or your function is way more broken that I thought ;-). But I indeed made a mistake. I quicly tried the algorithm in python languages overlooking the different semantic for -(newSide <0) (in python I must write 'not (newSide <0)). Hence CalculadeSides(140, -20) is 120 as expected. However, try with CalculateSides(115, -20) and your function give 95. If you want to change calling convention passing 20 instead of -20, no problem, it's your design. Just replace NewSide - vig with NewSide + vig. – kriss Sep 5 '09 at 12:44
What's going on with the sign is clear for me. At first reading I was sure the program was broken because you were not testing on the right variable (testing newSide instead of side), but with the c#/python confusion I pointed out the wrong error case, CalculatesSides(140, 20) indeed give 120 as expected. – kriss Sep 5 '09 at 12:55

Optimization is generally done to make something run faster. Have you actually found that your code is not running fast enough? I suspect not.

If your code generates the right results and does it in such a way that it doesn't take a great deal of time, leave it alone, and concentrate on other code that's an actual rather than a perceived, problem.

If you're just worried about the way it looks, add some comments to explain how it works. You would most likely have to do that anyway with a one-formula solution so you may as well not waste your effort.

-
Otimizing is not only to make something run faster. It's also to make the code more elegant or easy to read or to simplify the problem. In this case, it has nothing to do with performance. – Erik Funkenbusch Sep 5 '09 at 6:38
I should say, though, that this simulator could run billions of iterations, so performance could be an issue.. i just haven't reached the point of measuring that yet. – Erik Funkenbusch Sep 5 '09 at 6:40
Code is best made easy to read by adding a comment explaining it, and I can think of little more elegant than an if-statement with two one-statement choices. No doubt you could make it clever with a complicated y=fn(x) type statement, but that's likely to be less obvious (hence readable) than more. – paxdiablo Sep 5 '09 at 6:40
And the right time to optimize is when you have a problem, not before. Otherwise it's potentially wasted effort. "Measure, don't guess" is one of my all-time favorite sayings. – paxdiablo Sep 5 '09 at 6:41
so maybe it's a bad title for the question - what he's asking is still valid – warren Sep 5 '09 at 11:46

The 'sign' solution could be more elegant:

``````decimal CalculateSides(decimal side, decimal vig)
{
decimal res = side - vig  +  (100 * Math.Sign(side));
return  res               +  (100 * Math.Sign(res));
}
``````