What is the simplest way to map an arbitrarily funky nested list `expr`

to a function `unflatten`

so that `expr==unflatten@@Flatten@expr`

?

**Motivation:**
`Compile`

can only handle full arrays (something I just learned -- but not from the error message), so the idea is to use `unflatten`

together with a compiled version of the flattened expression:

```
fPrivate=Compile[{x,y},Evaluate@Flatten@expr];
f[x_?NumericQ,y_?NumericQ]:=unflatten@@fPrivate[x,y]
```

**Example of a solution to a less general problem:**
What I actually need to do is to calculate all the derivatives for a given multivariate function up to some order. For this case, I hack my way along like so:

```
expr=Table[D[x^2 y+y^3,{{x,y},k}],{k,0,2}];
unflatten=Module[{f,x,y,a,b,sslot,tt},
tt=Table[D[f[x,y],{{x,y},k}],{k,0,2}] /.
{Derivative[a_,b_][_][__]-> x[a,b], f[__]-> x[0,0]};
(Evaluate[tt/.MapIndexed[#1->sslot[#2[[1]]]&,
Flatten[tt]]/. sslot-> Slot]&) ]
Out[1]= {x^2 y + y^3, {2 x y, x^2 + 3 y^2}, {{2 y, 2 x}, {2 x, 6 y}}}
Out[2]= {#1, {#2, #3}, {{#4, #5}, {#5, #7}}} &
```

This works, but it is neither elegant nor general.

**Edit:** Here is the "job security" version of the solution provided by aaz:

```
makeUnflatten[expr_List]:=Module[{i=1},
Function@Evaluate@ReplaceAll[
If[ListQ[#1],Map[#0,#1],i++]&@expr,
i_Integer-> Slot[i]]]
```

It works a charm:

```
In[2]= makeUnflatten[expr]
Out[2]= {#1,{#2,#3},{{#4,#5},{#6,#7}}}&
```

`rearrangeAs`

might work stackoverflow.com/questions/4811082/… – Yaroslav Bulatov Feb 15 '11 at 8:05