That is yet another of these Tyler questions that seem to be complicated just for complications sake :)

So here you go:

```
R> x <- c("20(0.23)", "15(0.2)", "16(0.09)")
R> sapply(strsplit(gsub("^(\\d+)\\((.*)\\)$", "\\1 \\2", x), " "),
+ function(x) sprintf("%2d(.%02d)",
+ as.numeric(x[1]),
+ as.numeric(x[2])*100))
[1] "20(.23)" "15(.20)" "16(.09)"
R>
```

We do a few things here:

- The
`gsub()`

picks off the two two numbers: first the one before the parens, then the one inside the parens. [With hindsight, should have picked after the decimal, see below.]
- This prints them out just with whitespace, e.g.
`"20 0.23"`

for the first.
- We then use a standard
`strsplit()`

on this.
- We then use
`sapply`

to process the list we get from `strsplit`

- We print the first number as a two-digit int.
- The second one is more tricky -- the
`(s)printf()`

family *cannot* suppress a leading zero so we print the decimal, and the print two digits of an integer -- and convert the second number accordingly.

It is all concise and in one line, but it would be clearer broken out.

**Edit:** I don;t often provide the fastest solutions, but when I do, at least I can gloat:

```
R> dason <- function(x) { numformat <- function(val){sub("^(-?)0.", "\\1.", sprintf("%.2f", as.numeric(val)))}; gsubfn("0\\.\\d+", numformat, x) }
R> dirk <- function(x) { sapply(strsplit(gsub("^(\\d+)\\((.*)\\)$", "\\1 \\2", x), " "), function(x) sprintf("%2d(.%02d)", as.numeric(x[1]), as.numeric(x[2])*100)) }
R>
R> dason(x)
[1] "20(.23)" "15(.20)" "16(.09)"
R> dirk(x)
[1] "20(.23)" "15(.20)" "16(.09)"
R>
R> res <- benchmark(dason(x), dirk(x), replications=1000, order="relative")
R> res
test replications elapsed relative user.self sys.self user.child sys.child
2 dirk(x) 1000 0.133 1.000 0.132 0.000 0 0
1 dason(x) 1000 2.026 15.233 1.960 0.064 0 0
R>
```

So that's about 15 rimes faster. Not that it matters in *this* context, but speed never hurt anyone in the long run.