# Math calculation with decimal isn't correct

I have a C# method and which accepts three `string` parameters. After converting them to `decimal`, I am trying to perform a simple math calculation. I don't understand, why isn't the result correct?

``````decimal d = MyFunction(x, y, z);

public decimal MyFunction(string x, string y, string z)
{
decimal dx = 0;
decimal dy = 0;
decimal dz = 0;

Decimal.TryParse(x, out dx);
Decimal.TryParse(y, out dy);
Decimal.TryParse(z, out dz);

decimal result = dx - dz + dy;
return result;
}
``````

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You need to give more details: what are x,y,z equal to and what are you expecting to get in the result variable? – Darin Dimitrov Sep 25 '09 at 13:20
Think about what you're asking, and the information you've given us: "Why is `[unknownValue1] - [unknownValue2] + [unknownValue3] = [unknownValue4]` wrong?" – Dan Tao Sep 25 '09 at 13:29
If you were expecting something other than 151804.25, you were mistaken. – erelender Sep 25 '09 at 13:40
Tell us what you expect. Maybe we find out what the calculation should look like. – Ralph M. Rickenbach Sep 25 '09 at 13:57
Why did you delete your input and expected output from the question? The question is now incomplete and could be downvoted. – dcorking Jan 31 '15 at 11:59

Edit in response to more question information:
I don't see your problem. I get 151804.25, which is the correct result of doing (1186197.29 - 1260711.19) + 226318.15.

Maybe you're confused because you expect x - z + y to mean x - (z + y) and not (x - z) + y?
C# operator precedence for - and + is left to right, so it means (x - z) + y. If you want x - (z + y), you will have to write it that way.

Floating point calculations are often fundamentally inexact (although `decimal` does a lot better than `float` and `double` for monetary and similar usage). Example:

``````decimal x = 1m / 3m;
decimal y = 0;

for (int i = 0; i < 1e6; i++)
{
y += x;
}
``````

Result of `y`:

333333.33333333333333333072026

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@Joren: Ignoring overflow issues, and assuming equal precision of inputs and outputs, floating decimal point addition/subtraction are completely exact. – Brian Sep 25 '09 at 13:24
"The binary representation of a Decimal value consists of a 1-bit sign, a 96-bit integer number, and a scaling factor used to divide the 96-bit integer and specify what portion of it is a decimal fraction." In other words, it's not an approximated value like float or double. – Powerlord Sep 25 '09 at 13:25
@R. Bemrose: the set of real numbers is infinite, while the set of numbers that can be represented exactly by a Decimal is finite, so a Decimal is still an approximation. – MusiGenesis Sep 25 '09 at 13:28
Edited my answer to show an example of `decimal` being inexact. I wouldn't call this overflow, this is simply a consequence of limited precision. Limited precision is pretty fundamental to this kind of datatype. – Joren Sep 25 '09 at 13:30
Although it was wrong for me to say they're never exact. That's blatantly untrue. Edited that as well. – Joren Sep 25 '09 at 13:39

If the result you're getting is zero, then it could be that `TryParse` couldn't parse the strings.

You should replace the calls to `TryParse` with `decimal dx = Decimal.Parse(x);` and see if it throws an exception.

If that isn't the problem, we cannot help you until you provide more details.

What are `x`, `y`, and `z` equal to, and what is the result you're getting?

EDIT: In response to the additional information added to the question, it appears that everyone else is correct and the problem is probably the lack of parenthesis.

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+1. Ignoring the result from the TryParse calls means that there are three potential points of failure. If a string is unparsable, the value will be zero. – Guffa Sep 25 '09 at 13:34
This is not the problem. There is no problem. The answer returned by Florjon's function is correct. – Dan Tao Sep 25 '09 at 13:48
Nothing against you, SLaks, but why do people keep voting this answer up? The inputs in the question parse fine. – MusiGenesis Sep 25 '09 at 13:49
Because I answered before he added the inputs to the question. – SLaks Sep 25 '09 at 15:45

I think I see what your problem is. This function is working correctly, but look closely at this line:

``````decimal result = dx - dz + dy;
``````

You may have intended to write this:

``````decimal result = dx + dz + dy;
``````

or this:

``````decimal result = dx - (dz + dy);
``````
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don't work even in this way. it seems that the value are right, but when i am doing xxxx.29 - xxxx.19 it says that is equal to xxxx.9 this doesn't make sense. – Florjon Sep 25 '09 at 13:40
@Florjon: how are you getting that? When I execute this line: "2000.29M - 1000.19M", I get "1000.1". – MusiGenesis Sep 25 '09 at 13:45
If the first number is greater than the second, the answer is correct: 1000.29 - 2000.19 = -999.9. – Ralph M. Rickenbach Sep 25 '09 at 13:48
@Dan: True, thanks. I did turn that around. My math in this case is clearer then my English. As any mathematician would tell you: just trust the formulas. – Ralph M. Rickenbach Sep 25 '09 at 13:54
@Ralph: I think you hit the nail right between the eyes. The question asker needs a math class. – MusiGenesis Sep 25 '09 at 13:55

I have done this calculation (1186197.29 - 1260711.19 + 226318.15) three times over now, and I am getting 151804.25.

The `M` at the end of the number just means it's a `Decimal`, by the way.

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I did the calculation with Mathematica, with exact symbolic calculation, and it gives 607217/4 = (607217 * 25)/(4 * 25) = 15180425/100. I think we can be pretty sure the `decimal` result is correct. ;) – Joren Sep 25 '09 at 13:53
It seems from the poster's comment on MusiGenesis's answer that he/she is merely confused somehow about the arithmetic itself and is trying to check the answer manually. – Dan Tao Sep 25 '09 at 13:56