# Adding digits at Even and Odd Places (C#)

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I need to add the digits on the even and odd places in an integer. Say, Let `number = 1234567`. Sum of even place digits = `2+4+6 = 12` Sum of odd place digits = `1+3+5+7 = 16`

Wait, don't jump for an answer!

I'm looking for codes with minimal lines, preferably one-line codes. Similar to what 'chaowman' has posted in the thread Sum of digits in C#.

Does anyone has some cool codes. Thanks.

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Just one question, Do we start counting as odd/even from the left or from the right? This will make a difference if the number has even number of digits. – erelender Aug 24 '09 at 9:11

``````    bool odd = false;

int oddSum = 1234567.ToString().Sum(c => (odd = !odd) ? c - '0' : 0 );

odd = false;

int evenSum = 1234567.ToString().Sum(c => (odd = !odd) ? 0 : c - '0' );
``````
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 Hey thats a cool code. Thanks for your work. I'm taking this code. :-) – abhilashca Aug 24 '09 at 9:41

It's not a one-liner, but the following works:

``````int oddSum = 0, evenSum = 0;
bool odd = true;
while (n != 0) {
if (odd)
oddSum += n % 10;
else
evenSum += n % 10;
n /= 10;
odd = !odd;
}
``````

EDIT:

If you want it on one line:

``````int oddSum = 0, evenSum = 0; bool odd = true; while (n != 0) { if (odd) oddSum += n % 10; else evenSum += n % 10; n /= 10; odd = !odd; }
``````
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 @ThePower: I think you have a misunderstanding. OP asks for the sums of numbers at even and odd places, not even and odd digits. – erelender Aug 24 '09 at 9:21 Damn, Patrick, it took me too long to remove the line breaks from your post and by the time my post went up you had already edited yours. :( – Imagist Aug 24 '09 at 9:25 I like your one-liner Humor Sense! Thanks. – abhilashca Aug 24 '09 at 9:42

If you liked chaowmans solution to the other question, this would be the logical extension to even/odd numbers:

``````int even = 17463.ToString().Where((c, i) => i%2==1).Sum(c => c - '0');
int odd  = 17463.ToString().Where((c, i) => i%2==0).Sum(c => c - '0');
``````

A loop might be simpler and more efficient though:

``````for (odd = even = 0; n != 0; n /= 10) {
tmp = odd;
odd = even*10 + n%10;
even = tmp;
}
``````

And it's also not really longer or more complicated. Both versions determine the "oddness" from the left of the number.

-
``````"1234567".Where((ch, i) => i % 2 == 0).Sum(ch => ch - '0')
``````
-

Ruben's version with modified Grouping logic:

``````bool isOdd = false;
var sums = 1234567
.ToString()
.Select(x => Char.GetNumericValue(x))
.GroupBy(x => isOdd = !isOdd)
.Select(x => new { IsOdd = x.Key, Sum = x.Sum() });

foreach (var x in sums)
Console.WriteLine("Sum of {0} is {1}", x.IsOdd ? "odd" : "even", x.Sum);
``````
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Nice, but I'm really not a fan of the mutating flag trick [in ay of the versions] - each loop over the enumerable will rely on the state in there [and will preclude having interleaved versions etc.]. But then as long as we're trying to do Stupid Coding Tricks, then that's all fine and dandy. – Ruben Bartelink Aug 24 '09 at 10:04

Here's my one-long-liner using LINQ that (a) calculates the odd and even totals in a single line, (b) doesn't convert the original number to an intermediate `string`, and (c) doesn't have any side-effects:

``````var totals = Enumerable.Range(0, 10)
.Select(x => (number / (int)Math.Pow(10, x)) % 10)
.Where(x => x > 0)
.Reverse()
.Select((x, i) => new { Even = x * (i % 2), Odd = x * ((i + 1) % 2) })
.Aggregate((a, x) => new { Even = a.Even + x.Even, Odd = a.Odd + x.Odd });

Console.WriteLine(number);         // 1234567
Console.WriteLine(totals.Even);    // 12
Console.WriteLine(totals.Odd);     // 16
``````

(The code above counts the odd/even positions from left-to-right. To count from right-to-left instead just remove the call to `Reverse`. Calculating from L-to-R will give different results than R-to-L when `number` has an even number of digits.)

-
 Note that I'm not recommending this method: A standard loop would be shorter, faster and easier to understand. This is just me jumping through hoops to answer the "preferably one line" request in the question! – LukeH Aug 24 '09 at 12:17

If you're looking for the inevitable stupid LINQ tricks version, here's one:

``````var result = 1234567
.ToString()
.Select((c, index) => new { IndexIsOdd = index % 2 == 1, ValueOfDigit = Char.GetNumericValue(c) })
.GroupBy(d => d.IndexIsOdd)
.Select(g => new { OddColumns = g.Key, sum = g.Sum(item => item.ValueOfDigit) });
foreach( var r in result )
Console.WriteLine(r);
``````

I'm sure that can be mutated into a one-liner by someone bored (and remove converting it to a string as a way of generating the digits).

EDIT: Using Tuples to make it shorter (but more confusing)

``````var result = 1234567
.ToString()
.Select((c, index) => Tuple.Create( index % 2 == 1, Char.GetNumericValue(c))
.GroupBy(d=>d.Item1)
.Select(g => new { OddColumns = g.Key, Sum = g.Sum(item => item.Item2) });
foreach( var r in result )
Console.WriteLine(r);
``````
-

I don't really know C# but here's a one-liner that may look a bit familiar to Patrick McDonald:

``````int oddSum = 0, evenSum = 0; bool odd = true; while (n != 0) { if (odd) oddSum += n % 10; else evenSum += n % 10; n /= 10; odd = !odd; }
``````
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Every C# program could be written on a single line like that :P – Cecil Has a Name Aug 24 '09 at 9:48
Simply removing all the newlines doesn't quite make it a one-liner... en.wikipedia.org/wiki/One-liner_program – Banang Aug 24 '09 at 10:32
``````int number = 1234567;
int oddSum = 0;
int evenSum = 0;
while(number!=0)
{
if (n%2 == 0) evenSum += number % 10;
else oddSum += number % 10;
number /= 10;
}
``````
-
`````` int evenSum = 1234567.ToString().ToCharArray().Where((c, i) => (i % 2 == 0)).Sum(c => c - '0');
int oddSum = 1234567.ToString().ToCharArray().Where((c, i) => (i % 2 == 1)).Sum(c => c - '0');
``````
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```int n = 1234567;
int[] c = new int[2];
int p = 0;
n.ToString().Select(ch => (int)ch - '0').ToList().ForEach(d => { c[p] += d; p ^= 1; });
Console.WriteLine("even sum = {0}, odd sum = {1}", c[0], c[1]);```

Shorter one:

```int n = 1234567, p = 0;
int[] c = new int[2];
while (n > 0) { c[p] += n % 10; n /= 10;  p ^= 1; };
Console.WriteLine("even sum = {0}, odd sum = {1}", c[p ^ 1], c[p]);```
-

This works if you're starting from the right. At least, it works in C++. I don't know C#, as I said. I kind of hope they removed some of this nonsense in C#.

It's not a one-liner, but it's one statement if you discount the declaration (which I think is fair):

``````int oddSum, evenSum;
for(bool odd = ((oddSum = evenSum = 0) == 0);
n != 0;
odd = (!odd || (n /= 10) == n + (oddSum += (odd ? n % 10 : 0) - evenSum + (evenSum += (!odd ? n % 10 : 0)))))
;
``````

As extra credit, here's a one-line Python script that will turn all of your C# solutions into one-liners.

``````one_liner.py
``````

Usage:

``````python one_liner.py infile outfile
``````
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This works without LINQ.

``````var r = new int[]{0,0}; for (int i=0; i<7; i++) r[i%2]+="1234567"[i]-48;
System.Console.WriteLine("{0} {1}",r[0],r[1]);
``````
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