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I'm trying to write an expression template and I've run into a problem I don't know how to solve. I've read C++ Templates: The Complete Guide but they don't seem to address this question.

As an example, consider a expression template for a set type set (of integers) with the standard set operations intersection, union, negation, xor, difference, etc. These functions all have efficient implementations in terms of iterators, so I want my expression template classes to have an iterator-like interface. For example,

class set_expr_set
  set::iter i;

  set_expr_set (const set &s) : i(s) { }

  operator bool () const { return (bool)i; }
  void operator ++ () { i ++; }
  int val () { return *i; }  

and then I have expression template classes set_expr_union, etc. Now, the problem is, the objects created corresponding to expression templates expression are all temporaries and therefore const, but to evaluate the expression I need to iterate through the values (calling ++ and val), and these are non-const. I can't declare set::operator = (set_expr &) as non-const, because the temporaries won't bind a non-const parameter. I could cast away the const-ness in operator =, but that doesn't feel like the right solution.

I'm my example doesn't have enough details to make the problem clear, I'll be happy to clarify.

EDIT: Here are some more details. Suppose set_expr_union and set_expr_intersection have the above interface, too: operator ++, val and operator bool. Also, suppose I have

template<class T>
class set_expr
  T t;

where T is intended to be one of set_expr_union, etc. and set_expr also exports t's ++, val, bool interface.

The expression template objects arise through various operators, e.g.:

template<class T1, class T2>
operator & (const set_expr<T1> &e1, const set_expr<T2> &e2)
  return set_expr<set_expr_intersection> (set_expr_intersection (e1.t, e2.t));

Really, the temporary corresponding to the return value from the operators is where the problem lies.

Now, consider

class set

  template<class T>
  set &operator = (const set_expr<T> &e)
    clear ();
    for (; e; e ++)
      add_element (e.val ());

which I want to use in something like set3 = set1 & set2.

This is the kind of code I want to write.

share|improve this question
Temporaries don't have to be const unless you want them to be. Can you show an example of an expression that you are trying to get to work? –  Charles Bailey Dec 27 '11 at 23:12
Also consider writing your expression templates on top of Boost.Proto to avoid these sorts of problems. –  ildjarn Dec 27 '11 at 23:14
This is rather vague. Temporaries aren't always const. Assuming set is some kind of container like std::set then it should have a non-const iterator implementation as well. You shouldn't be doing things like return (bool)i; or const_cast in the vast majority of situations either. –  AJG85 Dec 27 '11 at 23:15
AJG85: Oops, I didn't mean to be using the const iterator in set_expr_set. Fixed. Yes, my types, like std::set, have non-const iterators. –  Cotton Seed Dec 27 '11 at 23:34
Why aren't you using the set in the STL? –  piotr Dec 30 '11 at 13:17

1 Answer 1

up vote 1 down vote accepted

One solution is to make your set expressions copy constructable and assignable (which shouldn't be a big problem if they are relatively light-weight, which seems to be the case). In the set assignment operator, you create a copy of the set expression and iterate over the copy.

template<class T>
set& operator=(const set_expr<T> &e) {
  clear ();
  for (set_expr<T> i = e; i; i++) {
    add_element (i.val());
  return *this;

If copying the set expressions turns out to be too expensive, consider moving to c++11 and reading up on move semantics.

share|improve this answer
Hi Markus, thanks for the reply! This is exactly what I ended up doing, by making the operator= argument non-reference. And thanks for the tip on c++11 move semantics, that sounds generally useful. –  Cotton Seed Dec 30 '11 at 15:59

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