I am working on some dynamic problem (about belief updating using Bayes rule) and seeking a "loop-less" solution to speed up the calculation as my current solution using for loops is really slow.

Suppose I have a data frame or matrix, and for each row, I want to do the same calculation. However, the calculation for row `r`

requires the output generated in the previous calculation on row `r-1`

. The process can be illustrated by the following:

Suppose I have a `R`

by `n`

matrix, `MA`

, and some initial variables `y0`

:

`[input] MA[1,] + y0 => [output] y1`

`[input] MA[2,] + y1 => [output] y2`

`[input] MA[3,] + y2 => [output] y3`

- ....

One of the simplest examples might be the calculation of `n!`

. The value of `n! = n * (n-1)!`

, where `(n-1)!`

is the result from the previous calculation.

The first function I came up with is the `apply`

family but apply functions can't be applied to the recursive (or dynamic) operations like I have right now; it simply repeats the same calculation to different inputs but doesn't carry the output forwards. Not sure if there is any other trick we can use. Can any genius come up with a loop-free solution to this particular problem?

`within`

from base R. – Ananda Mahto Aug 28 '13 at 7:52