First question: is it possible to "force" a const_iterator using auto? For example:

map<int> usa;
//...init usa
auto city_it = usa.find("New York");

I just want to query, instead of changing anything pointed by city_it, so I'd like to have city_it to be map<int>::const_iterator. But by using auto, city_it is the same to the return type of map::find(), which is map<int>::iterator. Any suggestion?

  • You want a variable of a specific type without specifying the type? Sorry, it can't be done easily in this case. – Mooing Duck Mar 5 '13 at 20:20
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    possible duplicate of How to select iterator type using auto variable – ks1322 Jul 1 '13 at 12:38
  • Maybe static_cast<map<int> const &>(usa).find("New York")? – Kerrek SB Jul 1 '13 at 21:11
  • map<int> is an error (if you mean std::map). You must specify at least two template parameters; the key type and the value type. – M.M Sep 11 '15 at 1:38
  • "const auto" is OK in many situations so it's not that absurd – QuentinUK Jan 14 '16 at 3:39

Sorry, but I just think the best suggestion is not using auto at all, since you want to perform a (implicitly valid) type conversion. auto is meant for deducing the exact type, which is not what you want here.

Just write it this way:

std::map<std::string, int>::const_iterator city_it = usa.find("New York");

As correctly pointed out by MooingDuck, using type aliases can improve the readability and maintainability of your code:

typedef std::map<std::string, int> my_map;
my_map::const_iterator city_it = usa.find("New York");
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  • Related: when I need stuff like this I almost always typedef my containers. – Mooing Duck Mar 5 '13 at 20:21
  • @MooingDuck: Right. Let me add that. Thank you – Andy Prowl Mar 5 '13 at 20:22
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    Or, if for any obscure reason someone hates typedefs, there is still decltype(usa.cbegin()) it = ... ;) – us2012 Mar 5 '13 at 20:25
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    @us2012: Yes, that would work, but I wouldn't be able to decide between cbegin() and cend() :-D Just kidding – Andy Prowl Mar 5 '13 at 20:26
  • Thanks a lot for the clarification! Good to know the limitation of auto. – virtualPN Mar 5 '13 at 20:28

Since C++17 you can use std::as_const like this:

#include <utility>

// ...

auto city_it = std::as_const(usa).find("New York");
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This isn't a drastically different take on conversion to const in comparision to @Jollymorphic's answer, but I think that having a utility one-liner function like this is handy:

template<class T> T const& constant(T& v){ return v; }

Which makes the conversion much more appealing to the eye:

auto it = constant(usa).find("New York");
// other solutions for direct lengths comparision
std::map<std::string, int>::const_iterator city_it = usa.find("New York");
auto city_it = const_cast<const std::map<std::string, int>&>(usa).find("New York");

Well, I'd say, bigger isn't always better. You can of course choose the name of the function according to your preferences - as_const or just const_ are possible alternatives.

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  • I used make_const on the occasion I used this idea. – GManNickG Mar 5 '13 at 21:56
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    @GMan: make_x implies, to me atleast, the creation of something new that wasn't there before. That's why I opted for as_const, which changes the view on the object. – Xeo Mar 5 '13 at 22:51
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    c++17 has added std::as_const to the header <utility> link – ChetS Aug 19 '16 at 21:55

A clean solution is to work with a const reference to the otherwise modifiable map:

const auto &const_usa = usa;
auto city_it = const_usa.find("New York");

This will make sure you can't modify const_usa, and will use const iterators.

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Another variation using auto (keeping both a mutable usa and a const usa):

map<std::string, int> usa;
//...init usa
const auto &const_usa = usa;
auto city_it = const_usa.find("New York");

If you don't need the map to be mutable at all after init there are some other options.

you can define usa as const and init it with a function call:

const map<std::string, int> usa = init_usa();
auto city_it = usa.find("New York");

or using a lambda to init a const map:

const auto usa = [&]()->const map<std::string, int> 
   map<std::string, int> usa;
   //...init usa
   return usa;
auto city_it = usa.find("New York");
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In C++11, you can do this:

decltype(usa)::const_iterator city_it = usa.find("New York");
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I'm not in a position to test this right now, but I think it'll do the trick:

auto city_it = const_cast< const map<int> & >(usa).find("New York");
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  • 1
    Hmm, but what makes this solution better than simply specifiying map<int>::const_iterator as the type? It's not shorter or more readable in any way. – us2012 Mar 5 '13 at 20:17
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    @us2012: technically, OP didn't request shorter or more readable, he requested a const_iterator using auto, which is exactly what this allows. :P – Mooing Duck Mar 5 '13 at 20:22

You can use auto to "track" a type or "deduce" a type: // deduce auto city_it = usa.find("New York");

// track auto city_it = std::map<int>::const_iterator( usa.find("New York"));

Also, watch is modern c++ style talks by Herb Sutter, which covers most of these type deductions guidance. https://youtu.be/xnqTKD8uD64

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  • auto city_it = {std::map<int>::const_iterator} usa.find("New York"); is a syntax error. Can you rephrase your answer and explain a bit more about what you are trying to say? – M.M Sep 11 '15 at 1:40
  • It is still an error, map<int> is not a type. And you do not explain what the difference between "deduce" and "track" is. – M.M Sep 16 '15 at 23:27

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