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So, I'm trying to define a macro to simplify the following code:

for (vector<TYPE>::iterator iter = iterable.begin(); 
             iter != iterable.end(); iter++)


for (map<TYPE, TYPE>::iterator iter = iterable.begin();
             iter != iterable.end(); iter++)


Existing Work

So far, I've got

#define every(iter, iterable) ::iterator iter = iterable.begin(); iter != iterable.end(); iter++
for (vector<TYPE> every(iter, iterable))

but I'd like to simplify this further.


Ideally, I'd like to be able to do

for (every(iter, iterable))

which means that I'd need to somehow get the class<TYPE> of the iterable object. Is this possible? If so, how can I do it?


  • This, ideally, needs to go into a (relatively) large codebase already set up to access the iterator object.
  • I am running on a compiler pre - C++11


#define every(iter, iterable) typeof(iterable.begin()) iter = iterable.begin(); iter != iterable.end(); iter++
for (every(iter, iterable))
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Can you use C++11 and decltype? If not, you can write a small trait class. –  Kerrek SB Dec 9 '11 at 1:23

5 Answers 5

up vote 6 down vote accepted

This answer does not depend on C++11, but it needs typeof, which some compilers may not have. Should work with any recent g++

#define For(iter, iterable) for(typeof((iterable).begin()) iter = (iterable).begin(); iter != (iterable).end(); ++iter)
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it's so straightforward, i missed it! –  pcperini Dec 9 '11 at 1:36
I did not know typeof could be used this way. +1 –  Seth Carnegie Dec 9 '11 at 1:37
I think there are some limitations to typeof. If f() returns a reference type, such as int&, then (as far as I remember) typeof(f()) is int, not int&. But it does a good job in the macro I just described. –  Aaron McDaid Dec 9 '11 at 1:39

If you are using C++11, you may use the new for syntax.

vector<double> v(9, 0.5);
auto total = 0.;
for (auto x: v) {
    total += x;

If you need a reference to modify the values, you may use:

vector<double> v(9, 0.5);
for (auto &x: v) {
    x = 5;

Just compile with the flag -std=c++0x.

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If you're using c++11 then use auto!

for (auto it = vec.begin(); it != vec.end(); it++)


This would be your macro:

#define every(iter, iterable) auto iter = iterable.begin(); iter != iterable.end(); iter++

Then the implmentation:

for(every(iter, iterable))
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auto doesn't return an iterator properly (or at least, when I use auto, I get errors saying things like "no match for operator++ in TYPE") –  pcperini Dec 9 '11 at 1:16
Compare your macro to my edits please. –  arasmussen Dec 9 '11 at 1:29
it's identical. i'm under the impression that auto is doing something different, as i'm compiling with a pre - C++11 compiler –  pcperini Dec 9 '11 at 1:31
Ahh yeah it's a C++11 feature so that part would be important :) –  arasmussen Dec 9 '11 at 1:39
In C++11 there wouldn't be any need for this macro. (Ideally, currently auto might be supported, but range-for not.) –  UncleBens Dec 9 '11 at 15:12

Why not simply use std::for_each ? In C++11 you can use them with lambdas.

C++11 also has a range base loop.

template<typename T>
void Foo(const T& x)
    for (auto& i : x)
        std::cout << i << std::endl;

Of course the obligatory...MACROS ARE EVIL

If you are stuck with an ancient compiler you can always do

typedef std::map<int,int> IntMap_t;
IntMap_t tmap;
for( IntMap_t::iterator iter = tmap.begin();
         iter != tmap.end();
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if i could assume that iterable would be a map<int, int>, couldn't i just include that in the macro? unless map<int, int> is some sort of weird "universal iterable" in c++ –  pcperini Dec 9 '11 at 1:21

You can use for(auto iter = iterable.being(); iter != iterable.end(); iter++) if your compiler supports C++0x.

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