Consider the simple program below, which attempts to iterate through the values of a set using NON-const references to the elements in it:

#include <set>
#include <iostream>

class Int
   Int(int value) : value_(value) {}
   int value() const { return value_; }
   bool operator<(const Int& other) const { return value_ < other.value(); }
   int value_;

main(int argc, char** argv) {
   std::set<Int> ints;
   for (Int& i : ints) {
      std::cout << i.value() << std::endl;
   return 0;

When compiling this, I get an error from gcc:

test.c: In function ‘int main(int, char**)’:
test.c:18:18: error: invalid initialization of reference of type ‘Int&’ from expression of type ‘const Int’  
for (Int& i : ints) {  

Yes, I know I'm not actually trying to modify the elements in the for loop. But the point is that I should be able to get a non-const reference to use inside the loop, since the set itself is not const qualified. I get the same error if I create a setter function and use that in the loop.

  • I've explained this in detail, here: error: passing xxx as 'this' argument of xxx discards qualifiers – Nawaz Aug 4 '16 at 13:23
  • If you really want to modify an element of a std::set, in place, you can use const_cast. Just be really sure that the modification doesn't alter the order of the element within the set or you will run into undefined behavior. This is very unsafe, which is why you have to go way out of your way to do it. – gnzlbg Aug 5 '16 at 23:32

A set is like a map with no values, only keys. Since those keys are used for a tree that accelerates operations on the set, they cannot change. Thus all elements must be const to keep the constraints of the underlying tree from being broken.

  • 1
    I see that, but I may be modifying something in the set element which does not modify its sorting order in the set; http://www.cplusplus.com/reference/set/set/begin claims that a non-const set will return a non-const iterator from begin() – atomicpirate Aug 4 '16 at 13:24
  • 5
    The std::set can't know that so it makes everything const to be safe. If your structure has mutable data, and some immutable key fields, then maybe you should use a map with the with a structure as the value, and a copy of the immutable key fields as the key. You could always const_cast away the const if you know your are not changing the ordering of the values, but I would think the map approach is cleaner. – nate Aug 4 '16 at 13:27
  • 5
    According to en.cppreference.com/w/cpp/container/set while begin does return iterator that iterator is an alias for const_iterator since C++11 – nate Aug 4 '16 at 13:33
  • 2
    I believe the alias is there to fulfill the general container interface where all containers have a both iterator and const_iterator. This could come into play with templates that are not aware of the details of a std::set – nate Aug 4 '16 at 13:44
  • 2
    Which is a good reason for template code to use auto everywhere, or at least to const-qualify references that it doesn't intend to modify. If the questioner were writing some template code with Container::value_type & in the place where it currently has Int &, then the template needlessly fails to instantiate for a set. – Steve Jessop Aug 4 '16 at 13:59

std::set uses the contained values to form a fast data structure (usually, a red-black tree). Changing a value means the whole structure needs to be altered. So, forcing constness, std::set prevents you from pushing it into a non-usable state.

  • "non-usable", as in "random crashes when you try to use it". – Yakk - Adam Nevraumont Aug 4 '16 at 13:23
  • 2
    @Yakk more likely it just fails to find elements on some operations, which is arguably worse. – Stop Harming Monica Aug 4 '16 at 15:09

From the cpp reference:

In a set, the value of an element also identifies it (the value is itself the key, of type T), and each value must be unique. The value of the elements in a set cannot be modified once in the container (the elements are always const), but they can be inserted or removed from the container.


The behaviour is by design.

Giving you a non-const iterator could inspire you to change the element in the set; the subsequent iterating behaviour would then be undefined.

Note that the C++ standard says that set<T>::iterator is const so the old-fashioned pre C++11 way still wouldn't work.

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