It is often said that one should prefer `lapply`

over `for`

loops.
There are some exception as for example Hadley Wickham points out in his Advance R book.

(http://adv-r.had.co.nz/Functionals.html) (Modifying in place, Recursion etc). The following is one of this case.

Just for sake of learning, I tried to rewrite a perceptron algorithm in a functional form in order to benchmark relative performance. source (https://rpubs.com/FaiHas/197581).

Here is the code.

```
# prepare input
data(iris)
irissubdf <- iris[1:100, c(1, 3, 5)]
names(irissubdf) <- c("sepal", "petal", "species")
head(irissubdf)
irissubdf$y <- 1
irissubdf[irissubdf[, 3] == "setosa", 4] <- -1
x <- irissubdf[, c(1, 2)]
y <- irissubdf[, 4]
# perceptron function with for
perceptron <- function(x, y, eta, niter) {
# initialize weight vector
weight <- rep(0, dim(x)[2] + 1)
errors <- rep(0, niter)
# loop over number of epochs niter
for (jj in 1:niter) {
# loop through training data set
for (ii in 1:length(y)) {
# Predict binary label using Heaviside activation
# function
z <- sum(weight[2:length(weight)] * as.numeric(x[ii,
])) + weight[1]
if (z < 0) {
ypred <- -1
} else {
ypred <- 1
}
# Change weight - the formula doesn't do anything
# if the predicted value is correct
weightdiff <- eta * (y[ii] - ypred) * c(1,
as.numeric(x[ii, ]))
weight <- weight + weightdiff
# Update error function
if ((y[ii] - ypred) != 0) {
errors[jj] <- errors[jj] + 1
}
}
}
# weight to decide between the two species
return(errors)
}
err <- perceptron(x, y, 1, 10)
### my rewriting in functional form auxiliary
### function
faux <- function(x, weight, y, eta) {
err <- 0
z <- sum(weight[2:length(weight)] * as.numeric(x)) +
weight[1]
if (z < 0) {
ypred <- -1
} else {
ypred <- 1
}
# Change weight - the formula doesn't do anything
# if the predicted value is correct
weightdiff <- eta * (y - ypred) * c(1, as.numeric(x))
weight <<- weight + weightdiff
# Update error function
if ((y - ypred) != 0) {
err <- 1
}
err
}
weight <- rep(0, 3)
weightdiff <- rep(0, 3)
f <- function() {
t <- replicate(10, sum(unlist(lapply(seq_along(irissubdf$y),
function(i) {
faux(irissubdf[i, 1:2], weight, irissubdf$y[i],
1)
}))))
weight <<- rep(0, 3)
t
}
```

I did not expected any consistent improvement due to the aforementioned
issues. But nevertheless I was really surprised when I saw the sharp worsening
using `lapply`

and `replicate`

.

I obtained this results using `microbenchmark`

function from `microbenchmark`

library

What could possibly be the reasons? Could it be some memory leak?

```
expr min lq mean median uq
f() 48670.878 50600.7200 52767.6871 51746.2530 53541.2440
perceptron(as.matrix(irissubdf[1:2]), irissubdf$y, 1, 10) 4184.131 4437.2990 4686.7506 4532.6655 4751.4795
perceptronC(as.matrix(irissubdf[1:2]), irissubdf$y, 1, 10) 95.793 104.2045 123.7735 116.6065 140.5545
max neval
109715.673 100
6513.684 100
264.858 100
```

The first function is the `lapply`

/`replicate`

function

The second is the function with `for`

loops

The third is the same function in `C++`

using `Rcpp`

Here According to Roland the profiling of the function. I am not sure I can interpret it in the right way. It looks like to me most of the time is spent in subsetting Function profiling

`apply`

in your function`f`

.`irissubdf[, 4] <- 1`

should be`irissubdf$y <- 1`

, so you can use that name later, and second,`weight`

is not defined before you use it in`f`

. It's also not clear to me that the`<<-`

is doing the right thing in your`lapply`

and`replicate`

command, but it's not clear to me what it's supposed to be doing. This also may be a major difference between the two; the`<<-`

has to deal with environments while the other does not, and while I don't know exactly what effect that might have, it's not quite an apples to apples comparison anymore.3more comments