i ran into a curious problem regarding evaluation of expressions:

```
reference operator()(size_type i, size_type j) {
return by_index(i, j, index)(i, j); // return matrix index reference with changed i, j
}
matrix& by_index(size_type &i, size_type &j, index_vector &index) {
size_type a = position(i, index); // find position of i using std::upper_bound
size_type b = position(j, index);
i -= index[a];
j -= index[b];
return matrix_(a,b); // returns matrix reference stored in 2-D array
}
```

I have thought matrix(i,j) will be evaluated after the call to buy_index, so that i, j will be updated. this appears to be correct, i verified in debugger. however, for some types of matrix, specifically those which have to cast size_type the something else, for example int, the update in by_index is lost. modifying code slightly removes the problem:

```
reference operator()(size_type i, size_type j) {
matrix &m = by_index(i, j, index);
return m(i, j);
}
```

do you know why the first operator misbehaves? thanks

prototypes which work and which do not

```
inline reference operator () (size_t i, size_t j); // ublas, size_type is std::size_t
reference operator () (int i, int j); // other prototype, size_type is int
```

in debugger backtrace stack looks like this:

- i = 1 upon entry to operator() //okay
- i = 0 after finish from by_index //okay
- i = 1 upon entry to matrix:: operator() //not right, should be 0