# Getting more details from optim function from R

I'm not very familiar with the optim function, and I wanted to get these informations from its results: a) how many iterations were needed for achieving the result? and b) to plot the sequence of partial solutions, that is, the solution obtained in the end of each iteration.

My code until now looks like this:

``````  f1 <- function(x) {
x1 <- x
x2 <- x
x1^2 + 3*x2^2
}

res <- optim(c(1,1), f1, method="CG")
``````

How can I improve it to get further information?

You could modify your function to store the values that are passed into it into a global list.

``````i <- 0
vals <- list()
f1 <- function(x) {
i <<- i+1
vals[[i]] <<- x

x1 <- x
x2 <- x
x1^2 + 3*x2^2
}

res <- optim(c(1,1), f1, method="CG")
``````

Now if you examine i and vals after you run the function you can see what happened. If you want to see the values while optim is running throw a print statement into the function as well.

• A nice exercise in functional programming is to write a function that takes a function as argument and returns a function that is the same as that argument function but does the logging to a global. Then you can add logging to any function passed to optim by wrapping it rather than changing it! Jun 1 '14 at 10:22
• It was great to have all these possibilities, but I think this one is the most appropriate to my context. Thanks a lot, guys! Jun 2 '14 at 2:16

Passing `trace=1` as a control parameter to `optim` gives you more detailed information about the progress of the optimization:

``````res <- optim(c(1,1), f1, method="CG", control=list(trace=1))
# Method: Fletcher Reeves
# tolerance used in gradient test=3.63798e-12
# 0 1 4.000000
# parameters    1.00000    1.00000
# * i> 1 4 0.480000
# parameters    0.60000   -0.20000
#   i> 2 6 0.031667
# ......
# * i> 13 34 0.000000
# parameters   -0.00000    0.00000
# 14 34 0.000000
# parameters   -0.00000    0.00000
# Exiting from conjugate gradients minimizer
#   34 function evaluations used
``````

However, it seems like the information is only written to standard output, so you will have to use `sink` to pipe the output to a text file, and then do some editing to get the parameter values for plotting.

If all you wanted was the number of function evaluations, see the `\$counts` element of the result:

`````` counts: A two-element integer vector giving the number of calls to
‘fn’ and ‘gr’ respectively. This excludes those calls needed
to compute the Hessian, if requested, and any calls to ‘fn’
to compute a finite-difference approximation to the gradient.
``````

For the partial solutions you'll need @Dason's solution or something like it.

• +1, but I am wondering the relationship between `counts` and the number of actual iterations. Say I set the maximum number of iterations `maxit = 10` but I can get `counts` for `fn` as 20. How should we explain this? Jul 18 '16 at 3:02
• (hmm, I thought I commented but maybe it got lost). Depends on method and on details: for example, Nelder-Mead can take different numbers (2-3, I think) of function evaluations per iteration depending on the local geometry. e.g. try `example("optim"); optim(c(-1.2,1), fr, method = "Nelder-Mead",control=list(trace=100))` Jul 18 '16 at 3:21