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Difficulty in applying a function over a sequence, when the function doesn’t take the sequence as an argument and when the function uses values returned from the function itself at the previous value of the sequence.

I have the following problem. In my main method function mainn, I will first initialise fa, mu.a, mu.b, sigma, which will then be used as arguments in the step2 function. (Please note that I am pretty sure that my px.q4 and step2 are working correctly/properly in the sense that px.q4 returns a value and step2 returns 3 values)

This is where my question enters. I would like to perform apply step2 over a sequence, and every time it applies over the sequence (except for the first iteration), the step2 function will use NOT the initial values but the values of fa.iter, mu.a.iter, mu.b.iter from the previous step2. Can this be done in R? Or do I have to use a for-loop for this sort of question

I was able to do this using a for-loop. However, I want to learn more about R. Is there a (more efficient) particular command that I can use to get around the problem?

#this function returns a value    
px.q4 <- function(fa, mu.a, mu.b,sigma)
  v <- fa + mu.a + mu.b * sigma

#this function returns 3 values, fa.iter, mu.a.iter, and mu.b.iter
#for completeness I include the full code of what i am trying to do. 
#But all you need to know is that the function step2 returns 3 values .
step2 <- function(fa, mu.a, mu.b)

  #set prev = iter values // this also allow set initial values = prev in 
  #the 1st iteration
  mu.a.prev <- mu.a.iter
  mu.b.prev <- mu.b.iter
  fa.prev <- fa.iter

  #draw a trail point x.trail from propsal distribution ~ N(x_i-1,0.1)
  mu.a.trail <- rnorm(1, mu.a.prev, 0.1)
  mu.b.trail <- rnorm(1, mu.b.prev, 0.1)
  fa.trail <- rnorm(1, fa.prev, 0.1)
  while(fa.trail < 0 || fa.trail > 1)         
    fa.trail <- rnorm(1, fa.prev, sigma)
  #if p(x_trail) >= p(x_i-1) set x_i = x_trail
  a <- px.q4(fa.trail, mu.a.trail, mu.b.trail, sigma) 
  b <- px.q4(fa.prev ,mu.a.prev , mu.b.prev,sigma)
  if(a >= b)
    mu.a.iter <- mu.a.trail
    mu.b.iter <- mu.b.trail
    fa.iter <- fa.trail
    r <- runif(1,min = 0, max = 1)
    if(r < a/b){
      mu.a.iter <- mu.a.trail
      mu.b.iter <- mu.b.trail
      fa.iter <- fa.trail
      mu.a.iter <- mu.a.prev
      mu.b.iter <- mu.b.prev
      fa.iter <- fa.prev

  res <-  list(mu.a.iter,  mu.b.iter,  fa.iter)
#main body

mainn <- function(n,fa,mu.a,mu.b)
  sigma <- 0.3
  mu.a.init <- mu.a               #initial values 
  mu.b.init <- mu.b
  fa.init <- fa           #(must be between 0 and 1)

  #set initial values = iter values (for entering for loop)
  mu.a.iter <- mu.a.init
  mu.b.iter <- mu.b.init
  fa.iter <- fa.init

  #where to the logical flaw comes in and how can I overcome it
    y <- sapply(n,FUN = step2)

share|improve this question
Can you make this example any simpler? Get rid of all the specifics of your analysis and just leave the essence of your problem. I feel like it could be shown in about five lines of R. As it stands, 90% of the people on here aren't going to bother. – Spacedman Nov 27 '12 at 8:19
will simplify this later on. Sorry – mynameisJEFF Nov 27 '12 at 9:11
As a general rule. You CANNOT EVER vectorise or parallelise a function that takes it's own result as input. – Stephen Henderson Nov 27 '12 at 10:37
@StephenHenderson I agree, with the exception of recursive functions (which is not what the OP wants). PS watch those apostrophes!:-) – Carl Witthoft Nov 27 '12 at 12:30

You can use Reduce to apply a function recursively over a list: for instance,

Reduce(`+`, 1:10, accumulate=TRUE)

is equivalent to cumsum(1:10).

In your case, you are not applying the function over a list, but just iterating it: you can still use Reduce, if you ignore the second argument.

# It is easier if your function takes a vector and returns a vector.
# The second argument is ignored.
step2 <- function(x, u) cumsum(x) + rnorm(length(x))
r <- Reduce(step2, 1:100, init=c(0,0,0), accumulate = TRUE)

But there is nothing wrong in using a loop: it should not be significantly slower, unless your function is very fast.

share|improve this answer

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