As I have previously stated, using `Compile`

will given faster code. Using an algorithm from fxtbook, the following code generates a next partition in lexicographic ordering:

```
PermutationIterator[f_, n_Integer?Positive, nextFunc_] :=
Module[{this = Range[n]},
While[this =!= {-1}, f[this]; this = nextFunc[n, this]];]
```

The following code assumes we run version 8:

```
ClearAll[cfNextPartition];
cfNextPartition[target : "MVM" | "C"] :=
cfNextPartition[target] =
Compile[{{n, _Integer}, {this, _Integer, 1}},
Module[{i = n, j = n, ni, next = this, r, s},
While[Part[next, --i] > Part[next, i + 1],
If[i == 1, i = 0; Break[]]];
If[i == 0, {-1}, ni = Part[next, i];
While[ni > Part[next, j], --j];
next[[i]] = Part[next, j]; next[[j]] = ni;
r = n; s = i + 1;
While[r > s, ni = Part[next, r]; next[[r]] = Part[next, s];
next[[s]] = ni; --r; ++s];
next
]], RuntimeOptions -> "Speed", CompilationTarget -> target
];
```

Then

```
In[75]:= Reap[PermutationIterator[Sow, 4, cfNextPartition["C"]]][[2,
1]] === Permutations[Range[4]]
Out[75]= True
```

This is clearly better in performance than the original `gen`

function.

```
In[83]:= gen[dummy, 9] // Timing
Out[83]= {26.067, Null}
In[84]:= PermutationIterator[dummy, 9, cfNextPartition["C"]] // Timing
Out[84]= {1.03, Null}
```

Using Mathematica's virtual machine is not much slower:

```
In[85]:= PermutationIterator[dummy, 9,
cfNextPartition["MVM"]] // Timing
Out[85]= {1.154, Null}
```

Of course this is nowhere near C code implementation, yet provides a substantial speed-up over pure top-level code.