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I've been trying for a while now to produce a code that brings me a new vector of the sum of the 25 previous rows for an original vector.

So if we say I have a variable Y with 500 rows and I would like a running sum, in a new vector, which contains the sum of rows [1:25] then [2:26] for the length of Y, such as this:



I've tried using some different functions here and then even using the apply functions on top but none seem to produce the right answers....

Would anyone be able to help? I realise it's probably very easy for many of the community here but any help would be appreciated


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possible duplicate – Roland Jun 14 '12 at 14:13
up vote 1 down vote accepted

This function calculates the sum of the 24 preceding values and the actual value:

 movsum <- function(x,n=25){filter(x,rep(1,n), sides=1)}

It is easy to adapt to sum only preceding values, if this is what you really want.

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Thanks for this! It works great and I've learnt something in the process. – Ash Jun 15 '12 at 13:28
Would you consider closing the question by accepting an answer? – Roland Jun 15 '12 at 16:05

In addition to Roland's answer you code use the zoo library

library ( zoo )
y <- 1:500
rollapply ( zoo ( y ), 25, sum )


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I like Roland's answer better as it relies on a time series function and will probably be pretty quick. Since you mentioned you started going down the path of using apply() and friends, here's one approach to do that:

#How many to sum at a time?
n <- 25
#Create a matrix of the appropriate start and end points
mat <- cbind(start = head(y, -(n-1)), end = tail(y, -(n-1)))
#Check output
rbind(head(mat,3), tail(mat,3))
       start end
           1  25
           2  26
           3  27
[474,]   474 498
[475,]   475 499
[476,]   476 500

#add together
apply(mat, 1, function(x) sum(y[x[1]]:y[x[2]]))

#Is it the same as Roland's answer after removing the NA values it returns?
all.equal(apply(mat, 1, function(x) sum(y[x[1]]:y[x[2]])),
[1] TRUE
share|improve this answer
Thanks - it helpful to see the apply function being used in a manner related to my work - I'll try this way out too so I at least know how it all works! – Ash Jun 15 '12 at 13:29

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