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I just found a nasty bug in my code because I captured a const reference to a string by reference. By the time the lambda was run the original string object was already long gone and the referenced value was empty whereas the purpose was that it would contains the value of the original string, hence the bug.

What baffles me is that this did not invoke a crash at runtime: after all, shouldn't this be undefined behaviour since afaik there is a dangling reference? Moreover when looking at id under the debugger, it doesn't even look like garbage but just like a properly constructed empty string.

Here's the test case; this just prints an empty line:

typedef std::vector< std::function< void() > > functions;

void AddFunction( const std::string& id, functions& funs )
  funs.push_back( [&id] ()
        //the type of id is const std::string&, but there
        //is no object to reference. UB?
      std::cout << id << std::endl;
    } );

int main()
  functions funs;
  AddFunction( "id", funs );
  funs[ 0 ]();
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You're yet another victim of the temporary to const-reference binding :( –  Matthieu M. Jul 21 '11 at 11:32
yeah I know that already, luckily the unit tests pointed that out –  stijn Jul 21 '11 at 11:35
you might have been less lucky, and it might have been working without problems. Imagine compiler adjusted the stack after AddFunction call, but the stack area where temporary resided was still intact. Then one day, kaboom! –  Gene Bushuyev Jul 21 '11 at 17:53
this brings a question, you can either specify lambda to capture a reference or a copy, but there is no way to tell it to move from the temporary. –  Gene Bushuyev Jul 21 '11 at 18:35
@Gene interesting question indeed.. –  stijn Jul 22 '11 at 7:05

3 Answers 3

up vote 4 down vote accepted

Undefined behavior means there is no requirement what should happen. There is no requirement that it should crash. Whatever memory your dangling reference points at, there's no reason it shouldn't contain something that looks like an empty string, and it's plausible that the destructor of string leaves the memory in that state.

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so it's just a coincidence? –  stijn Jul 21 '11 at 11:34
@stijn: it's not guaranteed, but if the destructor does leave the memory looking like an empty string, that's probably not by accident, it'll be because it clears some fields. The part that is fluke, is that the region of stack that used to contain the temporary string hasn't been reused yet. –  Steve Jessop Jul 21 '11 at 12:38
just for testing I added the code above in an actual application and there I do get the runtime crashes indeed, for the exact reason you state: once the memory gets reused the string goes all bogus –  stijn Jul 21 '11 at 14:07

Capturing anything by reference means that you have to take care that it's alive long enough. If you don't the program may just work, but it might just call Domino's and order a double pepperoni. At least, according to the standard.

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Alas, nobody has yet shown me a compiler that would actually order pizza upon UB, so I'm beginning to be wary of this example. –  Kerrek SB Jul 21 '11 at 12:02
I'd rather send a patch to the GCC folks with some IP geolocation :-) –  dascandy Jul 21 '11 at 12:10
@Kerrek SB: you need to introduce more UBs in the code to improve the odds :) –  Gene Bushuyev Jul 21 '11 at 17:49

(as pointed out by dascandy) The problem has little or nothing to do with the const and reference syntax, more simply it's an abdication of the responsibility to ensure the existence of everything that is passed by reference at any time it is referenced. The literal in the function call is strictly temporary for that call and evaporates on return, so we are accessing a temporary - a flaw often detected by the compilers - just not in this case.

typedef std::vector<std::function<void()> > functions;

void AddFunction(const std::string& id, functions& funs) {
    funs.push_back([&id] ()
        //the type of id is const std::string&, but there
        //is no object to reference. UB?
            std::cout <<"id="<< id << std::endl;

int emain() {
    functions funs;

    std::string ida("idA");
           // let idB be done by the tenporary literal below
    std::string idc("idC");

    AddFunction(ida, funs);
    AddFunction("idB", funs);
    AddFunction(idc, funs);
    //funs[1](); // uncomment this for (possibly) bizarre results   
    std::cout<<"emain exit"<<std::endl;
    return 0;

int main(int argc, char* argv[]){
    int iret = emain();
    return 0;
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