# Rounding an arrays of values to 100%

I have an dictionary of lists of objects as shown below:

``````IDictionary<string, IList> MyItemDictionary
``````

I work out the percentages by doing a for each through the dictionary with the code below:

``````IList<double> percentages = new List<double>();

foreach(KeyValuePair<string, IList> pair in MyItemDictionary)
{
double percentage = (100d/totalItemsCount)*pair.Value.Count;
}
``````

Basically I need to process the percentages list and round each percentage to a whole number BUT have them add up to 100. Accuracy is not of the highest importance but a sub 1 percentage i.e. 0.45 needs to be rounded to 1.

Does anyone know how to do this?

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If your list contained 1, 1 and 1, what would you want to happen? –  Ruffles Sep 11 '09 at 13:02
I second comment above: please provide numeric examples; your goal is unclear as stated in the question –  mjv Sep 11 '09 at 13:16
Hi thanks for your responses. If I had 3 sets of 1 I would have them expanded to 33, 33 and 34. Basically I am populating a 10 x 10 grid with the results of this. –  Adam Sep 11 '09 at 15:17

If your percentage list ends up containing 1.5 + 1.5 + .. + 1.5 = 100.0 and you were to round them into 2 + 2 + .. + 2, you would end up with 134 as the total sum (~67 entries), not 100. The way to fix this, is to distribute the error (134-100=34) among the existing percentages. In this case, you would subtract 1 from 34 of the percentages so you end up with a series of 1 + 2 + 1 + 2 + .. + 2 = 100.0.

To find what "every other" means you simply do int(numberOfPercentages / theError) and that should give you the interval.

Also, you must take care not to subtract anything from your sub 1 percentages.

Oh, and in case all your percentages are sub 1, the problem cannot be solved :-(

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Can you have an "Other" or "Misc" category? If you have many small percentages, and you round them all up or down, you will accumulate a huge error as wic pointed out. You might need a minmimum threshold beyond which you lump everything together as miscellaneous stuff.

Otherwise, I second wic's idea about summing up the percentages to find the error and then distributing the error over the largest percentages.

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That would also neatly solve the issue of when there are 101 items in the list –  Ruffles Sep 11 '09 at 13:40
Thats an interesting proposal... I may beable to use that. Thank you! –  Adam Sep 11 '09 at 15:19