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I'm trying to store a lambda in an object system involving several layers of indirection. I'm using g++ 4.7.1.

Depending on how exactly I construct the (equivalent) objects, the lambda may or may not have the correct value.


#include <iostream>
#include <functional> // used for std::function

using namespace std; // TODO nope

typedef function<int()> intf;

struct SaveLambda {
    const intf func;
    SaveLambda(const intf& _func) : func(_func) {}  

struct StoreSaved {
    const SaveLambda* child;
    StoreSaved(const SaveLambda& _child) : child(&_child) {
        cout << "Before returning parent: " <<  child->func() << endl;

int main() {
    const int ten = 10;

    auto S = SaveLambda([ten](){return ten;});
    cout << "No indirection: " << S.func() << endl << endl;

    auto saved = StoreSaved(S);
    cout << "Indirection, saved: " << saved.child->func() << endl << endl;

    auto temps = StoreSaved ( SaveLambda([ten](){cout << "&ten: "<< &ten << endl; return ten;}) );
    cout << "***** what. *****" << endl;
    cout << "Indirection, unsaved: " << temps.child->func() << endl;
    cout << "***** what. *****" << endl << endl;

    cout << "ten still lives: " << ten << endl;

Compile as g++ -std=c++11 -Wall -o itest itest.cpp and run: notice the one line of output with a different value.

What am I doing wrong? I assumed that capture-by-value would, well, capture by value. (Observe most disconcertingly that the print in StoreSaved (line 15) produces the correct value, unlike line 34, despite these both referring to the same object. The only difference is adding another layer of indirection.)

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You want to make a copy of the saved lambda and not keep a pointer. –  Vaughn Cato Sep 5 '12 at 1:25

2 Answers 2

up vote 4 down vote accepted

This is wrong:

auto temps = StoreSaved(
                /* This temporary value dies at the last semicolon! */
                SaveLambda([ten](){cout << "&ten: "<< &ten << endl; return ten;})

StoreSaved then has a pointer to a nonexistent object. Using it is UB.

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Hm. I assumed it would be copied - is there some reason it isn't? (Changing StorSaved from call-by-const-reference to call-by-value doesn't change the behavior, incidentally.) It was my impression that call-by-value, at least, would save temporaries, even temporary objects. –  Bakkot Sep 5 '12 at 1:29
@Bakkot: It's not the lambda capture, it's your StoreSaved, which is capturing by pointer. –  Dave S Sep 5 '12 at 1:30
@Bakkot: I'm not sure I follow. Copy what to where? And yes, changing const-reference to value just changes the scope of the value (the latter having an even smaller scope), the problem remains. –  GManNickG Sep 5 '12 at 1:41

As already pointed out by others, the problem is that in temps you end with a pointer to a nonexistent SaveLambda struct, as it is a temporary.

You can keep a copy using a SaveLambda struct in StoreSaved, instead of a pointer:

struct StoreSaved {
   const SaveLambda child;
   StoreSaved(const SaveLambda& _child) : child(_child) {
       cout << "Before returning parent: " <<  child.func() << endl;

You also have to change all the child->func() to child.func(), as you are not dealing with a pointer anymore.

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