# Rounding a value to only a list of certain values in C#

I have a list of double values, I want to Round a variable's value to only that list of numbers

Example:

The list contents are: {12,15,23,94,35,48}

The Variable's value is 17, So it will be rounded to 15

If The variable's value is less than the least number, it will be rounded to it, if it's value is larger than the largest number, it will be rounded to it.

The list contents is always changing according to an external factor, So I cannot hardocde the values I Want to round up or down to.

How can do it in C# ?

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Can you use LINQ? –  Yuck Oct 23 '11 at 11:30
Work out the difference between unrounded values and possible results. Store these differences in a dictionary keyed by possible result and select the result with the lowest difference. –  Keyo Oct 23 '11 at 11:33
How big can this collection be? Otherwise you should consider using a sorted collection and using binary search. –  Steven Jeuris Oct 23 '11 at 11:58
As Seven said, especially if your list is static (doesn't change) –  xanatos Oct 23 '11 at 12:15

Here's a method using LINQ:

``````var list = new[] { 12, 15, 23, 94, 35, 48 };
var input = 17;

var diffList = from number in list
select new {
number,
difference = Math.Abs(number - input)
};
var result = (from diffItem in diffList
orderby diffItem.difference
select diffItem).First().number;
``````

EDIT: Renamed some of the variables so the code is less confusing...

EDIT:

The `list` variable is an implicitly declare array of `int`. The first LINQ statement `diffList` defines an anonymous type that has your original number from the list (`number`) as well as the difference between it and your current value (`input`).

The second LINQ statement `result` orders that anonymous type collection by the difference, which is your "rounding" requirement. It takes the first item in that list as it will have the smallest difference, and then selects only the original `.number` from the anonymous type.

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+1. It's more efficient than my solution since it only loops `values` once. –  Anders Abel Oct 23 '11 at 11:44
Works like a charm, although I cannot understand all of it :) –  SKandeel Oct 23 '11 at 11:50
Thanks for the explanation very much... –  SKandeel Oct 23 '11 at 12:00
@AndersAbel: Actually, rather twice, if not more. First to get the differences. Then to order. –  Steven Jeuris Oct 23 '11 at 12:02
@Steven Jeuris: You're right, especially the sorting implementation of `OrderBy` will have a large impact on the performance. –  Anders Abel Oct 23 '11 at 12:16

Assuming the array is sorted, you could perform a binary search in the array, narrowing it down to which two numbers the given number lies between.

Then once you have these two numbers, you simply round to the nearest of the two.

``````static int RoundToArray(int value, int[] array) {
int min = 0;
if (array[min] >= value) return array[min];

int max = array.Length - 1;
if (array[max] <= value) return array[max];

while (max - min > 1) {
int mid = (max + min) / 2;

if (array[mid] == value) {
return array[mid];
} else if (array[mid] < value) {
min = mid;
} else {
max = mid;
}
}

if (array[max] - value <= value - array[min]) {
return array[max];
} else {
return array[min];
}

}
``````
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Not only assuming, if this is supposed to work on big collections, a sorted collection is the way to go. –  Steven Jeuris Oct 23 '11 at 11:56
In practice of course it does not matter, but I note that you are doing the "dangerous" way of finding the midpoint of two integers. If min + max happens to overflow to negative then half that is a negative number. See this article for an entertaining analysis of the problem and its possible solutions: locklessinc.com/articles/binary_search –  Eric Lippert Oct 23 '11 at 13:10

Do something like this:

``````double distance = double.PositiveInfinity;
float roundedValue = float.NaN;
foreach (float f in list)
{
double d = Math.Abs(d - f);
if (d < distance)
{
distance = d;
roundedValue = f;
}
}
``````
-

Using linq:

``````int value = 17;
var values =  new float[] { 12, 15, 23, 94, 35, 48 };
if(value < values.First()) return value.First();
if(value > values.Last()) return value.Last();

float below = values.Where(v => v <= value).Max();
float above = values.Where(v => v >= value).Min();

if(value - below < above - value)
return below;
else
return above;
``````

As long as then number of possible values is quite small this should work. If you have thousands of possible values another solution should be used, which takes advantage of `values` being sorted (if it really is sorted).

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Error 1 'int' does not contain a definition for 'First' and no extension method 'First' accepting a first argument of type 'int' could be found (are you missing a using directive or an assembly reference?) –  SKandeel Oct 23 '11 at 11:47

You could loop through the array of numbers and set a roundedNum variable equal to each one if a variable delta is less than the current lowest delta. Some things are best described in code.

``````int roundedNum = myNum;
int delta = myArray[myArray.Length-1] + 1;

for(int i=0; i<myArray.Length; ++i) {
if(Math.Abs(myNum - myArray[i]) < delta) {
delta = Math.Abs(myNum - myArray[i]);
roundedNum = myArray[i];
}
}
``````

That should do the trick quite nicely.

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``````double value= 17;
double retVal = 0;
retVal = list.Where(p=> value<= retval).First();
``````
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Your code will return the first item of list if value is less than retval and throw if not. It does not solve OPs problem –  Rune FS Oct 23 '11 at 13:09