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Is it possible to vectorise code like the following?

length(x) <- 100;
x[1]      <- 1;
y         <- rnorm(100);

for(i in 2:100) {
    x[i] <- 2 * y[i] * x[i-1];
}

I appreciate that this is a trivial example, but it serves to illustrate the idea.

I often need to write code where the i-th value in a vector depends on the (i-1)-th value and if possible, I'd like to write this without needing a for loop, as profiling suggests the functions with this type of operation are the major bottlenecks in my code.

Is this operation vectorizable so I do not need to use a for() loop in the calculation?

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You have found the weakest link of R:) I am afraid the only general solution is to drop the computation to C level. –  VitoshKa Jan 15 '11 at 11:27
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5 Answers

up vote 10 down vote accepted

In general, if you want a vectorised solution you need to solve the recurrence relation.

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1  
Thanks for the link, +1. I'm struggling, with my limited math, to turn that Wikipedia page info into something that solves to OP's problem. If it is not too involved, could you expand on your answer to suggest a way to solve the OP's Q directly? –  Gavin Simpson Jan 15 '11 at 19:57
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In the example you have you could work out the formula for x[i] and see if it can be vectorized. In this case I think cumprod might work.

x <- c(1, cumprod(2*y)[1:99])

For some cases case you can also use the filter command in convolution or recursive mode. See ?filter

However if it is isn't possible to work out a formula for the n'th value that fits one of the molds above, you could try using a package like inline or Rcpp to write this in loop in C/C++.

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I don't get the same answer as @kaybenleroll 's Question with the cumprod solution. I don't think this is right here either, the for loop is not cumulative over 1, ..., n, just a function of n-1. –  Gavin Simpson Jan 15 '11 at 19:38
    
It's just a minor indexing error: the correct answer is c(1, cumprod(2*y[-1])) –  hadley Jan 15 '11 at 23:51
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The interior of this plot command is equivalent. Rather interesting to repeatedly run it:

plot(c(1, 2^(2:length(x)-1)*cumprod(rnorm(99) )) )

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I don't have full details on this yet, but it looks the function filter() is going to be useful to do what I need.

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You can write the non-vertorized code in C++:

library(inline)
myfun <- cxxfunction(signature(y="numeric"), body='
Rcpp::NumericVector yvec(y);
int ysize = yvec.size();
Rcpp::NumericVector result(ysize);
if (ysize > 0) {
    result[0] = 1;
    for (int i = 1; i < ysize; i++) {
        result[i] = 2 * yvec[i] * result[i-1];
    }
}
return result;
', plugin="Rcpp")

Then call this function from R:

y <- rnorm(100);
x <- myfun(y);
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