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The following code compiles with gcc 4.5.1 but not with VS2010 SP1:

#include <iostream>
#include <vector>
#include <map>
#include <utility>
#include <set>
#include <algorithm>

using namespace std;
class puzzle
        vector<vector<int>> grid;
        map<int,set<int>> groups;
        int member_function();

int puzzle::member_function()
        int i;
        for_each(groups.cbegin(),groups.cend(),[grid,&i](pair<int,set<int>> group){
int main()
        return 0;

This is the error:

error C3480: 'puzzle::grid': a lambda capture variable must be from an enclosing function scope
warning C4573: the usage of 'puzzle::grid' requires the compiler to capture 'this' but the current default capture mode does not allow it


1> which compiler is right?

2> How can I use member variables inside a lambda in VS2010?

share|improve this question
Note: It should be pair<const int, set<int> >, that's the actual pair-type of a map. It should possibly also be a reference-to-const. – Xeo Oct 25 '11 at 21:21
Thanx for pointing that out. – vivek Oct 25 '11 at 21:35

3 Answers 3

up vote 45 down vote accepted

I believe VS2010 to be right this time, and I'd check if I had the standard handy, but currently I don't.

Now, it's exactly like the error message says: You can't capture stuff outside of the enclosing scope of the lambda. grid is not in the enclosing scope, but this is (every access to grid actually happens as this->grid in member functions). For your usecase, capturing this works, since you'll use it right away and you don't want to copy the grid

auto lambda = [this](){ std::cout << grid[0][0] << "\n"; }

If however, you want to store the grid and copy it for later access, where your puzzle object might already be destroyed, you'll need to make an intermediate, local copy:

vector<vector<int> > tmp(grid);
auto lambda = [tmp](){}; // capture the local copy per copy

† I'm simplifying - Google for "reaching scope" or see §5.1.2 for all the gory details.

share|improve this answer
It seems quite limited to me. I don't understand why a compiler would need to prevent such a thing. It works well with bind, although the syntax is horrible with the ostream left shift operator. – Jean-Simon Brochu Nov 27 '13 at 14:53
Could tmp be a const & to grid to cut down on copying? We still want at least one copy, the copy into the lambda ([tmp]), but no need for a second copy. – Aaron McDaid Jul 28 at 15:05
@AaronMcDaid: Sure. – Xeo Jul 28 at 19:45
The solution might make an unnecessary extra copy of grid though it probably gets optimized out. Shorter and better is: auto& tmp = grid; etc. – Tom Swirly Aug 10 at 17:49

I believe, you need to capture this.

share|improve this answer
This is correct, it will capture the this-pointer and you can still just refer to grid directly. Problem being, what if you want to copy the grid? This won't allow you to do that. – Xeo Oct 25 '11 at 21:19
I think you can't… Am I wrong? – Michael Krelin - hacker Oct 25 '11 at 21:24
You can, but only in a roundabout way: You have to make a local copy, and capture that in the lambda. That's just the rule with lambdas, you can't capture stiff outside of the enclosing scope. – Xeo Oct 25 '11 at 21:30
Sure you can copy. I meant you can't copy-capture it, of course. – Michael Krelin - hacker Oct 25 '11 at 21:40
What I described does a copy capture, through the intermediate local copy - see my answer. Aside from that, I don't know any way to copy capture a member variable. – Xeo Oct 25 '11 at 21:42

An alternate method that limits the scope of the lambda rather than giving it access to the whole this is to pass in a local reference to the member variable, e.g.

auto& localGrid = grid;
int i;
for_each(groups.cbegin(),groups.cend(),[localGrid,&i](pair<int,set<int>> group){
share|improve this answer
I love your idea: using a fake reference variable and pass it to capture list :) – Emadpres Nov 18 at 7:52

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