# C# char calculation problem

Im trying to do a permutation. of five in this case, so 5,4,3,2,1 . Eventually I want it to permute up to 100 which can be stored in my intX class. the calculation is fine, but I want to add up all individual numbers of the output, using the script below.

so 5! = 5x4x3x2x1 = 120 ----> 1+2+0 = 3. BUT My script below gives the output 147:

120
1
2
0
147


What am I doing wrong? I allready tried all converts, I started with just using the string[pointer] thingy, I tried different arrays etc.. but it all keeps coming up with 147. Is it some kind of representation thing?

    static void Main(string[] args)
{
IntX total=1;
IntX totalsum = 0;
int perm = 5;
for (int i = perm; i > 0; i--)
{
total = total * i;
}
Console.WriteLine(total);

for (int x = 0; x < answerArray.Length; x++)
{
}
Console.WriteLine(totalsum);
}

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total = total * i; can be written like total *= i; –  Ramhound Jul 28 '11 at 15:49

The problem is the way you are converting your answerArray elements back to numbers

Convert.ToInt32(answerArray[x])


The above line takes the char 1 and converts it to an int. This is not the same as parsing it as an int. 1 is ascii character 49 so internally the char has an int representation of 49 and so that is what it is converted to (since this is just trying to do a type conversion rather than any kind of processing)

Similarly 2 = 50 and 0 = 48 so you get the total of 147.

What you want to do is use Integer.Parse to parse strings as numbers. I believe it should implicitly convert the char to a string before parsing it.

    for (int x = 0; x < answerArray.Length; x++)
{
}


You can also do it the way others suggested with subtracting chars. This works because the ascii value of 1 is 1 higher than the ascii value for 0. 2 is 2 higher, etc.

Of course this only works with single digit chars. If you ever want to convert more than two digit numbers into int from a string you'll need int.parse.

For what its worth I suspect that the character subtraction method is the most efficient since it is effectively just doing some very simple type conversion and subtraction. The parse method is likely to do a lot more stuff and so be a bit more heavyweight. I dont' you will notice a performance difference though.

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Ahhhh, Im new to the language... Somewhat assumed that the int that was printed was the thing Id gain when I converted it. Thanks man. super! I have to wait 6 mins to be able to answer –  Hans Wassink Jul 28 '11 at 15:43
@Hans: the reason to remember for why that clearly can't work is that your char could be 'z' or ';' and your method wouldn't work for that. I guess it could do similar to javascript where it can convert strings to numbers in clever ways but it doesn't. Or rather it does but in totally different clever ways. :) –  Chris Jul 28 '11 at 15:46

The problem lies in here:

for (int x = 0; x < answerArray.Length; x++)
{
//Casting char to int, not what you want!
//Parsing char to int, what you do want!
}

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Instead of converting to an integer (which will take the ASCII character value), try using answerArray[x] - '0'.

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(int)'0' is not equal to 0. You should use ((int)answerArray[x] - (int)'0')

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The int conversions are actually unnecessary; a char - char is implicitly an int. –  Dan Bryant Jul 28 '11 at 15:37
char - char is implicitly an int, but not the ints they appear to be. –  FlyingStreudel Jul 28 '11 at 15:40
@FlyingStreudel: What do you mean not the ints they appear to be? '5'-'0' equals 5 doesn't it? –  Chris Jul 28 '11 at 15:55
Sorry, yes. A char - char is the int you would expect. However it is important to note that subtraction is the only operation which is viable, as behind the scenes '5' != 5. –  FlyingStreudel Jul 29 '11 at 20:06

Why bother changing it to a char array? You already have the information that you need.

while (total > 0)
{
ones_digit = total % 10;
totalsum += ones_digit;
total -= ones_digit;
total /= 10;
}

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Good point. This would be more elegant though not strictly answering the question. :) –  Chris Jul 28 '11 at 15:54

Convert.ToInt32 returns the Unicode values of characters 1, 2 and 0 which are 49, 50 and 48. That's why the sum comes out as 147.

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