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int ia[3][4];
for (auto row : ia)
        for (auto col : row)

The first for iterates through ia, whose elements are arrays of size 4. Because row is not a reference, when the compiler initializes row it will convert each array element (like any other object of array type) to a pointer to that array’s first element. As a result, in this loop the type of row is int*.

I am not really sure that I understand how this auto works, but if I can assume it automatically gives a type to a row based on ia array members type, but I don't understand why this kind of for, where row is not a reference, is not valid. Why is this going to happen? "pointer to that array’s first element", because of what?

share|improve this question
I found this in C++ Primer 5th Edition by Lippman, page 182. – user5585984 Jan 24 at 20:16
up vote 69 down vote accepted

The problem is that row is an int * and not a int[4] as one would expect because arrays decay to pointers and there is no automatic way to know how many elements a pointer points to.

To get around that problem std::array has been added where everything works as expected:

#include <array>

int main() {
    std::array<std::array<int, 4>, 3> ia;
    for (auto &row : ia){
        for (auto &col : row){
            col = 0;

Note the & before row and col which indicate that you want a reference and not a copy of the rows and columns, otherwise setting col to 0 would have no effect on ia.

share|improve this answer
+1 for bracing the loops, and using C++11 features properly. In a C++ only environment, this is the best way to handle this. – WeRelic Jan 25 at 4:00
Note that the equivalent of int[3][4] is not std::array<std::array<int, 3>, 4>, but std::array<std::array<int, 4>, 3>. This is a common mistake and worth pointing out, doubly so since you made it as well. ;-] – ildjarn Jan 25 at 9:32
@Deduplicator what temporary copies ? – Quentin Jan 25 at 14:15
@Quentin: Ah, misread. He change the type and went for references. So no extra-copies. Still, the type-change is cumbersome, and is certainly API and perhaps also ABI-breaking, if calling other functions with that as an argument. – Deduplicator Jan 25 at 14:20
As an aside, traversing loops row major vs column major can have a significant performance implication for large-ish array sizes, so it is important to know what your rows vs columns really are. – Eric J. Jan 26 at 20:28

To prevent the decay of the int[] to int* you can use &&

int main() {
    int ia[3][4];
    for (auto && row : ia)
        for (auto && col : row)
share|improve this answer
Or just plain reference would be enough. – Revolver_Ocelot Jan 24 at 20:42
Actually, you should use rvalue references (&&) only in move constructors, move assignment operators or when plain references don't work and you exactly know what you are doing. – Michael Karcher Jan 24 at 21:23
I used && here specifically because that is what is being proposed in N3853 to support the even more reduced ( elem : collection ) syntax – Thomas Jan 24 at 21:34
@MichaelKarcher But that's not a (plain) rvalue reference - it's a forwarding reference. – Angew Jan 25 at 11:15

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