# Accumulation of subsequences of a sequence using C#/Linq

I'm trying to find a better way of processing a sequence of numbers based on the following requirement: the value of `sequence[i]` is the sum of its own value plus the accumulation from `sequence[0]` to `sequence[i-1]`.

For example: if the sequence is a list

``````List<double> list = new List<double> { 10.0, 20.0, 30.0, 40.0 };
``````

the output result should be

``````list[0] = 10.0
list[1] = 20.0 + 10.0
list[2] = 30.0 + 10.0 + 20.0
list[3] = 40.0 + 10.0 + 20.0 + 30.0
``````

I know the brute force way which uses multiple iterations, but I wonder there must be some better solution (maybe with LINQ).

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I'm not sure I understand your brute force way... `newList[0]=List[0]; for (i = 1 to n) {newList[i] = List[i]+newList[i-1];}` seems like the obvious brute force method to me and doesn't use multiple iterations... –  Chris Feb 1 '12 at 17:13

Use the relatively-unknown overload of Select that lets you see the index:

``````var result = list.Select((val, index) => list.Take(index + 1).Sum())
``````
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Will this not use multiple iterations though? it iterates over the list for the select and then iterates over it again while doing the sum... –  Chris Feb 1 '12 at 17:16
You're right...this would give a stupid O(n^2) running time. –  Joe Strommen Feb 1 '12 at 17:18

``````using System.Linq;

List<int> numbers = new List<int> {10, 20, 30, 40};
List<int> runningTotals = new List<int>(numbers.Count);

numbers.Aggregate(0, (sum, value) => {
sum += value;
return sum;
});
``````
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This will perform better than Joe's answer. I would do this, or even better, use the supposedly brute-force technique! –  Meta-Knight Feb 1 '12 at 17:23
Yes indeed. This is the only one of the linq answers that only iterates over the list once I think... I'm not fond of the linq statement updating the runningTotals outside since they tend to have no side effects. I don't know if that is a best practice/good code thing or just personal preference though... –  Chris Feb 1 '12 at 17:33
I wasn't a fan of the side effects myself. Probably would be better to have it do a yield return, since the sum is never used elsewhere. –  Chris Doggett Feb 1 '12 at 18:02

My version which is a modification of what I put in comments and returns an IEnumerable rather than a List but a ToList() will sort that out.

Should be pretty efficient. And who doesn't like using `yield return`? ;-)

``````public IEnumerable<double> GetCumulativeSequence (IEnumerable<double> input)
{
var runningTotal = 0.0;
foreach (double current in input)
{
runningTotal+=current;
yield return runningTotal;
}
}

void Main()
{
List<double> list = new List<double> { 10.0, 20.0, 30.0, 40.0 };
var foo = GetCumulativeSequence(list);
}
``````

Main advantage of this is that it only does one loop over the input array. and if you don't actually use all of the stuff returned (ie you only look at the first three) then it won't calculate the rest. Potentially useful in longer lists, etc. The same will be said of things like Chris Doggett's answer but not all those here using linq.

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+1 for yield!!! –  Erik Philips Feb 1 '12 at 17:26
See? I knew people loved yield returning. ;-) –  Chris Feb 1 '12 at 17:28

A non-LINQ version, just to be different:

``````List<double> GetSums(List<double> values)
{
List<double> sums = new List<double>();
double total = 0;
foreach(double d in values)
{
total += d;
}
return sums;
}
``````
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There's a mistake in your code ;-) –  Meta-Knight Feb 1 '12 at 17:25
I should say so. Thanks. –  Esoteric Screen Name Feb 1 '12 at 17:27
``````double currentValue = 0;
var result = list.Select(value => { currentValue += value; return currentValue;});
``````

Not side effect free but at least the items are processed only once.

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