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# Keeping track of current index when using apply

Wanted to see if someone has a more elegant solution. But what is the appropriate way to keep track of the current index while using apply. For example, suppose I wanted to take the sum ONLY from the current element I am evaluating going forward to the end of my vector.

Is this the best way to do it?

``````y = rep(1,100)
apply(as.matrix(seq(1:length(y))),1,function(x) { sum(y[x:length(y)])})
``````

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This looks more like a task for `sapply`:

``````sapply(seq_along(y), function(x){sum(y[x:length(y)])})
``````

For your specific example, there are loads of other options (like reversing the vector `y` and then using `cumsum`), but I guess this is the general pattern: use `seq_along` or at worst `seq` to get the sequence you are interested in, and pass this to `*apply`.

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Just a question for clarification of the problem discussed: isn't a for loop more practical if one needs an index? Or am I missing the point here? – ROLO Oct 12 '11 at 13:18
@ROLO: the `*apply` family of function typically can provides very reasonable memory handling for the results, and stores them in a practical form if `simplify=TRUE` (which is not that obvious with these simple examples). Historically, it also used to be so that they were a lot faster than 'normal' loops, but that's not true anymore. So, for simple cases, it doesn't matter too much. – Nick Sabbe Oct 12 '11 at 13:25
+1 for the cumsum suggestion – Thierry Oct 12 '11 at 13:27

Your solution is a clever one, I don't know any better. Just add a new column with numbers 1:N.

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`rev(cumsum(y))` would be a lot faster in the current instance:

``````> y = rep(1,100000)
> system.time(apply(as.matrix(seq(1:length(y))),1,function(x) { sum(y[x:length(y)])}) )
user  system elapsed
88.108  88.639 176.094
> system.time( rev(cumsum(y)) )
user  system elapsed
0.002   0.001   0.004
``````
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