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I am trying to calculate the cumulative sum for each row in R using the following code:

df <- data.frame(count=1:10)

for (loop in (1:nrow(df)))
    {df[loop,"acc_sum"] <- sum(df[1:loop,"count"])}

But I don't like the explicit loop here, how can I modify it? Thanks.

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help.search("cumulative sum") –  Joshua Ulrich Sep 26 '11 at 3:30
Do you mean to have a per row calculation? If so, then your example df is only 1 column, which is easily handled with vector operations. Try df <- matrix(1:100, ncol = 10) to generate a data frame based on a matrix (or, being pedantic, tensor of order 2). –  Iterator Sep 26 '11 at 4:22

3 Answers 3

up vote 14 down vote accepted

You want cumsum()

df <- within(df, acc_sum <- cumsum(count))
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+1 for within, wasn't aware of that one and can think of a number of uses! Cheers! –  Brandon Bertelsen Sep 26 '11 at 3:40
+1 I agree: within looks quite useful. I'm surprised I've not seen it more. –  Iterator Sep 26 '11 at 3:49
Hmm, now I wonder if I'm missing something. This seems to work for vectors as-is, but doesn't seem to work for a data frame with multiple columns. However, it looks like within can be generalized for data frames with multiple columns. Any ideas on that? (E.g. df <- matrix(1:100, ncol = 10)) –  Iterator Sep 26 '11 at 4:25
@Iterator: it works on data.frames, not matrices. –  Aaron Sep 26 '11 at 14:08

You can also try mySum = t(apply(df, 1, cumsum)).

The transpose is in there because the results come out transposed, for a reason I have not yet determined.

I'm sure there are fine solutions with plyr, such as ddply and multicore methods.

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The first dimension in the result matches the length of individual calls to FUN, then the MARGIN dimension/s come next. So it's not so much "transposed" as that being only a trivial consequence in 2D. That's my reading of this in ?apply anyways. " If each call to ‘FUN’ returns a vector of length ‘n’, then ‘apply’ returns an array of dimension ‘c(n, dim(X)[MARGIN])’ if ‘n > 1’." –  mdsumner Sep 26 '11 at 4:02
What's the benefit of calling apply here since cumsum is vectorized to begin with? –  Chase Sep 26 '11 at 4:06
@Chase: I think you may be misreading the question. Vectorization isn't relevant here. The apply is necessary when the input is a data frame with both rows and columns > 1. The OP has only given an example with a single column, so cumsum works as-is for that case, with no need for apply, but the title and text of the question refers to a per-row calculation. Or am I misunderstanding you? If you can get cumsum to work without specifying the margin via an external function, it would be good to know. –  Iterator Sep 26 '11 at 4:18
This has me wondering if there's an error in the original question. –  Iterator Sep 26 '11 at 4:19
Hmmm...well now I'm thoroughly confused as well :) I'll revisit this after some sleep and caffeine. As for per-row or per-column calculations, perhaps colSums() or rowSums() are more appropriate for the OP. –  Chase Sep 26 '11 at 4:30

To replicate the OP's result, the cumsum function is all that is needed, as Chase's answer shows. However, the OP's wording "for each row" possibly indicates interest in the cumulative sums of a matrix or data frame.

For column-wise cumsums of a data.frame, interestingly, cumsum is again all one needs! cumsum is a primitive that is part of the Math group of generic functions, which is defined for data frames as applying the function to each column; inside the code, it just does this : x[] <- lapply(x, .Generic, ...).

> foo <- matrix(1:6, ncol=3)
> df <- data.frame(foo)
> df
     [,1] [,2] [,3]
[1,]    1    3    5
[2,]    2    4    6
> cumsum(df)
  X1 X2 X3
1  1  3  5
2  3  7 11

Interestingly, sum is not part of Math, but part of the Summary group of generic functions; for data frames, this group first converts the data frame to a matrix and then calls the generic, so sum returns not column-wise sums but the overall sum:

> sum(df)
[1] 21

This discrepancy is (in my opinion) most likely because cumsum returns a matrix of the same size as the original, but sum would not.

For row-wise cumulative sums, there not a single function that replicates this behavior that I know of; Iterator's solution is probably one of the most straightforward.

If speed is an issue, it would be almost certainly be fastest and most foolproof to write it in C; however, it speeds up a little (~2x ?) for long loops by using a simple for loop.

rowCumSums <- function(x) {
  for(i in seq_len(dim(x)[1])) { x[i,] <- cumsum(x[i,]) }; x
colCumSums <- function(x) {
  for(i in seq_len(dim(x)[2])) { x[,i] <- cumsum(x[,i]) }; x

This can be sped up more by using the plain cumsum and subtracting off the sum so far when you get to the end of a column. For row cumulative sums, one needs to transpose twice.

colCumSums2 <- function(x) {
  matrix(cumsum(rbind(x,-colSums(x))), ncol=ncol(x))[1:nrow(x),]
rowCumSums2 <- function(x) {

That's really a hack though. Don't do it.

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