As a matter of best practices, I'm trying to determine if it's better to create a function and `apply()`

it across a matrix, or if it's better to simply loop a matrix through the function. I tried it both ways and was surprised to find `apply()`

is slower. The task is to take a vector and evaluate it as either being positive or negative and then return a vector with 1 if it's positive and -1 if it's negative. The `mash()`

function loops and the `squish()`

function is passed to the `apply()`

function.

```
million <- as.matrix(rnorm(100000))
mash <- function(x){
for(i in 1:NROW(x))
if(x[i] > 0) {
x[i] <- 1
} else {
x[i] <- -1
}
return(x)
}
squish <- function(x){
if(x >0) {
return(1)
} else {
return(-1)
}
}
ptm <- proc.time()
loop_million <- mash(million)
proc.time() - ptm
ptm <- proc.time()
apply_million <- apply(million,1, squish)
proc.time() - ptm
```

`loop_million`

results:

```
user system elapsed
0.468 0.008 0.483
```

`apply_million`

results:

```
user system elapsed
1.401 0.021 1.423
```

What is the advantage to using `apply()`

over a `for`

loop if performance is degraded? Is there a flaw in my test? I compared the two resulting objects for a clue and found:

```
> class(apply_million)
[1] "numeric"
> class(loop_million)
[1] "matrix"
```

Which only deepens the mystery. The `apply()`

function cannot accept a simple numeric vector and that's why I cast it with `as.matrix()`

in the beginning. But then it returns a numeric. The `for`

loop is fine with a simple numeric vector. And it returns an object of same class as that one passed to it.

`system.time()`

instead of`proc.time`

, it's better suited for the task. Or better yet, follow some of the examples in this post and get better results by replicating the test multiple times and taking the mean of that: stats.stackexchange.com/questions/3235/timing-functions-in-r – Chase Apr 3 '11 at 23:45`microbenchmark`

package for more accurate measures. – aL3xa Apr 4 '11 at 2:12