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I find the update operation on set tedious since there's no such an API on cppreference. So what I currently do is sth like this:

//find element in set by iterator
Element copy = *iterator;
... // update member value on copy, varies

Basically the iterator return by Set is a const_iterator and you can't change its value directly.

Is there a better way to do this? Or maybe I should override set by creating my own (which I don't know exactly how it works..)


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Make an inline function if you find using 2 statements is already tedious. – kennytm Feb 7 '10 at 19:02
KennyTM hit the nail on the head. There are no downsides performancewise to doing this, so just do it already! :-P – j_random_hacker Feb 7 '10 at 19:24
If you write an update function, you may want to model it the same way as Boost.MultiIndex:… – Emile Cormier Feb 7 '10 at 21:55 is an awful reference. Finding aspects of the language "tedious" because of it seems... odd. – Lightness Races in Orbit Jun 12 '11 at 22:24

7 Answers 7

up vote 46 down vote accepted

set returns const iterators (the standard says set::iterator is const, and that set::const_iterator and set::iterator may in fact be the same type - see 23.2.4/6 in n3000.pdf) because it is an ordered container. If it returned a regular iterator, you'd be allowed to change the items value out from under the container, potentially altering the ordering.

Your solution is the idiomatic way to alter items in a set.

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Members of (non-const) std::set does not return const_iterator and you can modify its elements if you're careful. Why is this (incorrect) answer getting so many upvotes? What am I missing? – avakar Feb 7 '10 at 19:36
My answer is correct - yours is wrong. I updated my post with references to the standard. – Terry Mahaffey Feb 7 '10 at 19:43
Terry, thank you for discussion. I've rechecked: the defect report had indeed been submitted in 1998, but was not incorporated into C++03. It will be into C++0x. So while your answer is not correct as far as the current letter of the standard is concerned, it is correct as far as the intent goes. +1. – avakar Feb 7 '10 at 20:02
Thanks for your comment and your debate with Avakar (Or Avatar?). They helped alot. – Figo Feb 7 '10 at 20:28
@avakar: The elements are technically mutable but it's not allowed to alter them. This is a defect in the standard. – Lightness Races in Orbit Jun 12 '11 at 22:25

There are 2 ways to do this, in the easy case:

  • You can use mutable on the variable that are not part of the key
  • You can split your class in a Key Value pair (and use a std::map)

Now, the question is for the tricky case: what happens when the update actually modifies the key part of the object ? Your approach works, though I admit it's tedious.

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+1 mutable on a non-key member is a great idea – kfmfe04 Jun 25 '13 at 17:53
adding mutable on a non key member might be ok if its some internal/private class, but its still a dirty hack! As soon as the class is exposed to some users, id never dare to use mutable for members that are not meant to be mutable! Thats evil! – Marti Nito Sep 17 at 16:00

Update: Although the following is true as of now, the behavior is considered a defect and will be changed in the upcoming version of the standard. How very sad.

There are several points that make your question rather confusing.

  1. Functions can return values, classes can't. std::set is a class, and therefore cannot return anything.
  2. If you can call s.erase(iter), then iter is not a const_iterator. erase requires a non-const iterator.
  3. All member functions of std::set that return an iterator return a non-const iterator as long as the set is non-const as well.

You are allowed to change the value of an element of a set as long as the update doesn't change the order of elements. The following code compiles and works just fine.

#include <set>

int main()
    std::set<int> s;

    std::set<int>::iterator iter = s.find(20);

    // OK
    *iter = 30;

    // error, the following changes the order of elements
    // *iter = 0;

If your update changes the order of elements, then you have to erase and reinsert.

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That code does not compile, at least in VC10 - for the reasons I outlined in my post. This may have changed recently (been a "bug fix" to the standard), I thought it was in C++03, but I could be wrong. – Terry Mahaffey Feb 7 '10 at 19:38
Well, I'm looking at 23.1.2[lib.associative.reqmts] of C++03, table 69 and it says: "a.find(k): iterator; const_iterator for constant a". – avakar Feb 7 '10 at 19:42
It is in the Standard library defect reports: It doesn't compile with GCC, which makes a mention of DR 103 and typedefs both iterator and const_iterator to be the same type. - One proposed workaround for OP's problems, BTW, are const_cast and mutable members. – UncleBens Feb 7 '10 at 20:05
+1 for the interesting discussion in comments – just somebody Feb 7 '10 at 20:06
@UncleBens, yes, I've found the DR too. I'm a little surprised it didn't make it into C++03 but was incorporated into the current draft. It is a rather severe change from my perspective as it will break otherwise correct code. – avakar Feb 7 '10 at 20:10

You may want to use an std::map instead. Use the portion of Element that affects the ordering the key, and put all of Element as the value. There will be some minor data duplication, but you will have easier (and possibly faster) updates.

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I encountered the very same issue in C++11, where indeed ::std::set<T>::iterator is constant and thus does not allow to change its contents, even if we know the transformation will not affect the < invariant. You can get around this by wrapping ::std::set into a mutable_set type or write a wrapper for the content:

  template <typename T>
  struct MutableWrapper {
    mutable T data;
    MutableWrapper(T const& data) : data(data) {}
    MutableWrapper(T&& data) : data(data) {}
    MutableWrapper const& operator=(T const& data) { this->data = data; }
    operator T&() const { return data; }
    T* operator->() const { return &data; }
    friend bool operator<(MutableWrapper const& a, MutableWrapper const& b) {
      return <;
    friend bool operator==(MutableWrapper const& a, MutableWrapper const& b) {
      return ==;
    friend bool operator!=(MutableWrapper const& a, MutableWrapper const& b) {
      return !=;

I find this much simpler and it works in 90% the cases without the user even noticing there to be something between the set and the actual type.

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Interesting idea, I'm going to try to remember this one. – Mark Ransom Aug 28 '14 at 22:25
@MarkRansom: Yes, but just to be extra sure, it should be noted, that this may only be used if the modification of the data stored behind the iterator is guaranteed not to change the ordering of the set. Otherwise, this is UB and it will break! (Just reiterating this to be sure nobody shoots themselves in the foot. I'm not implying you, in particular, don't realise this.) – bitmask Aug 29 '14 at 0:44
+1 this is ideal if you want unique sorted items based on some key (for which set is the appropriate container) but also want to keep some 'metadata' with them which can change – stijn Apr 27 at 10:24

If your set contains objects you want to alter make sure you store their pointers in the set.

Well this does not prevent you from inserting multiple objects with the same value (well you can't insert the same object multiple times) but its useful if you want a container with fast insert and remove.

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This is faster in some cases:

std::pair<std::set<int>::iterator, bool> result = Set.insert(value);
if (!result.second) {

If the value is usually not already in the std::set then this can have better performance.

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