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I just noticed that you can not use standard math operators on an enum such as ++ or +=

So what is the best way to iterate through all of the values in a C++ enum?

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Linked items have some interesting responses. – Tony Jun 13 '13 at 1:27
These answers don't seem to cover the problem that int may not be big enough! ([C++03: 7.2/5]) – Lightness Races in Orbit Jun 21 '13 at 10:03
Interestingly, you can define operator++ on enums; however, so you can do for(Enum_E e = (Enum_E)0; e < ENUM_COUNT; e++). Note you have to cast 0 to Enum_E because C++ forbids assignment operators on enums. – weberc2 Jun 25 '14 at 22:52

11 Answers 11

up vote 129 down vote accepted

The typical way is as follows:

enum Foo {

for ( int fooInt = One; fooInt != Last; fooInt++ )
   Foo foo = static_cast<Foo>(fooInt);
   // ...

Of course, this breaks down if the enum values are specified:

enum Foo {
  One = 1,
  Two = 9,
  Three = 4,

This illustrates that an enum is not really meant to iterate through. The typical way to deal with an enum is to use it in a switch statement.

switch ( foo )
    case One:
        // ..
    case Two:  // intentional fall-through
    case Three:
        // ..
    case Four:
        // ..
        assert( ! "Invalid Foo enum value" );

If you really want to enumerate, stuff the enum values in a vector and iterate over that. This will properly deal with the specified enum values as well.

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Note that, in the first part of the example, if you want to use 'i' as a Foo enum and not an int, you will need to static cast it like: static_cast<Foo>(i) – Clayton Mar 17 '09 at 22:30
Also you are skipping Last in the loop. Should be <= Last – Tony Jun 13 '13 at 1:24
@Tony Last is meant to be skipped. If you want to add more enums later, add them before Last... the loop in the first example will still work. By utilizing a "fake" Last enum, you don't have to update your terminating condition in the for loop to the last "real" enum each time you want to add a new enum. – timidpueo Aug 3 '13 at 21:06
Except now you've actually allocated memory when an enum, provided it is zero-indexed and strictly continous, can do that task without allocating memory. – Dogbert Jan 17 '14 at 23:02
It would be awesome to paste @Tony's comment into the answer. I was really confused by that. – tsusanka Oct 24 '14 at 21:30

One of many approaches: When enum Just Isn't Enough: Enumeration Classes for C++.

And, if you want something more encapsulated, try this approach from James Kanze.

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Thanks for including useful links! – jwfearn Nov 6 '08 at 17:54
Glad to, @jwfearn! – Don Wakefield Nov 6 '08 at 23:29
I am usually reluctant to comment on old answers (I don't remember what I wrote about in 2008!), however the Dr Dobbs article is rather bad. The idea is good, but the example implementation is quite aweful. Example: enum_11(11), god :x – Matthieu M. Jul 3 '12 at 9:29
It's working again now, so I guess the server was down earlier. – GOTO 0 Oct 20 '13 at 14:37
Commenting on MatthieuM. 's comment from a long time ago. I had independently found @DonWakefield 's Dr. Dobb's link a few weeks ago and tried for hours to understand it. I am new to C++ and couldn't untie the gordian knot. If someone could re-implement this in a modern, readable and de-obfuscated manner it would be really helpful. I was unable to do so. – Matthew James Briggs Jun 14 '14 at 6:33

If your enum starts with 0 and the increment is always 1.

enum enumType 
    A = 0,

for(int i=0; i<enumTypeEnd; i++)
   enumType eCurrent = (enumType) i;            

If not I guess the only why is to create something like a

vector<enumType> vEnums;

add the items, and use normal iterators....

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You can't with an enum. Maybe an enum isn't the best fit for your situation.

A common convention is to name the last enum value something like MAX and use that to control a loop using an int.

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You can try and define the following macro:

#define for_range(_type, _param, _A1, _B1) for (bool _ok = true; _ok;)\
for (_type _start = _A1, _finish = _B1; _ok;)\
    for (int _step = 2*(((int)_finish)>(int)_start)-1;_ok;)\
         for (_type _param = _start; _ok ; \
 (_param != _finish ? \
           _param = static_cast<_type>(((int)_param)+_step) : _ok = false))

Now you can use it:

enum Count { zero, one, two, three }; 

    for_range (Count, c, zero, three)
        cout << "forward: " << c << endl;

It can be used to iterate backwards and forwards through unsigned, integers, enums and chars:

for_range (unsigned, i, 10,0)
    cout << "backwards i: " << i << endl;

for_range (char, c, 'z','a')
    cout << c << endl;

Despite its awkward definition it is optimized very well. I looked at disassembler in VC++. The code is extremely efficient. Don't be put off but the three for statements: the compiler will produce only one loop after optimization! You can even define enclosed loops:

unsigned p[4][5];

for_range (Count, i, zero,three)
    for_range(unsigned int, j, 4, 0)
        p[i][j] = static_cast<unsigned>(i)+j;

You obviously cannot iterate through enumerated types with gaps.

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That's a wonderful hack! Although it is more appropriate for C than for C++, one might say. – einpoklum Jun 27 '13 at 11:29
#include <iostream>
#include <algorithm>

namespace MyEnum
  enum Type
    a = 100,
    b = 220,
    c = -1

  static const Type All[] = { a, b, c };

void fun( const MyEnum::Type e )
  std::cout << e << std::endl;

int main()
  // all
  for ( const auto e : MyEnum::All )
    fun( e );

  // some
  for ( const auto e : { MyEnum::a, MyEnum::b } )
    fun( e );

  // all
  std::for_each( std::begin( MyEnum::All ), std::end( MyEnum::All ), fun );

  return 0;
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Thanks! Note that if you're crossing files/classes and if MS compatibility is giving you issues with header-declared non-integer constants, it helps under my compiler to explicitly put the size in the type in the header: static const Type All[3]; and then I'm able to initialize in the source: const MyEnum::Type MyEnum::All[3] = { a, b, c }; Before doing that, I was getting obnoxious Error in range-based for... errors (because the array had an unknown size). Figured this out thanks to a related answer – sage Mar 4 at 5:47

You can also overload the increment/decrement operators for your enumerated type.

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You can't overload any operators on C or C++ enumerated types. Unless you were to create a struct/class that emulated an enumeration of values. – Trevor Hickey Sep 1 at 23:34

too much complicated these solution, i do like that :

enum NodePosition { Primary = 0, Secondary = 1, Tertiary = 2, Quaternary = 3};

const NodePosition NodePositionVector[] = { Primary, Secondary, Tertiary, Quaternary };

for (NodePosition pos : NodePositionVector) {
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I don't know why this was downvoted. It's a reasonable solution. – Paul Brannan Dec 19 '14 at 13:27
I expect it was because the entries need to be maintained in two places. – Ant May 29 at 13:51

Something that hasn't been covered in the other answers = if you're using strongly typed C++11 enums, you cannot use ++ or + int on them. In that case, a bit of a messier solution is required:

enum class myenumtype {

for(myenumtype myenum = myenumtype::MYENUM_FIRST;
    myenum != myenumtype::MYENUM_LAST;
    myenum = static_cast<myenumtype>(static_cast<int>(myenum) + 1)) {


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...but C++11 introduces the range based for that is shown in other answers. :-) – sage Mar 4 at 5:52

With c++11, there actually is an alternative: writing a simple templatized custom iterator.

let's assume your enum is

enum class foo {

This generic code will do the trick, quite efficiently - place in a generic header, it'll serve you for any enum you may need to iterate over:

#include <type_traits>
template < typename C, C beginVal, C endVal>
class Iterator {
  typedef typename std::underlying_type<C>::type val_t;
  int val;
  Iterator(const C & f) : val(static_cast<val_t>(f)) {}
  Iterator() : val(static_cast<val_t>(beginVal)) {}
  Iterator operator++() {
    return *this;
  foo operator*() { return static_cast<C>(val); }
  Iterator begin() { return *this; } //default ctor is good
  Iterator end() {
      static const Iterator endIter=++Iterator(endVal); // cache it
      return endIter;
  bool operator!=(const Iterator& i) { return val != i.val; }

You'll need to specialize it

typedef Iterator<foo, foo::one, foo::three> fooIterator;

And then you can iterate using range-for

for (foo i : fooIterator() ) { //notice the parenteses!

The assumption that you don't have gaps in your enum is still true; there is no assumption on the number of bits actually needed to store the enum value (thanks to std::underlying_type)

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please note that the "generic code" is tied to "foo" (see the code about the middle), so you can't actually use it with other enum definitions. – lepe Sep 14 at 7:11
@lepe ? You just make a different typedef for a different enum. – Andrew Lazarus Sep 24 at 21:49

C++ doesn't have introspection, so you can't determine this kind of thing at run-time.

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