Why does the following code crash both on Visual Studio and GCC?

For it to crash it requires the range-based for loop, std::map, std::string and taking a reference to the string. If I remove any one of them it will work.

#include <iostream>
#include <string>
#include <map>
using namespace std;

struct S
    map<string, string> m;

        m["key"] = "b";

    const string &func() const
        return m.find("key")->second;

int main()
    for (char c : S().func())
        cout << c;

    return 0;

Ideone link: http://ideone.com/IBmhDH

  • 3
    @tadman: There is no need to test if it is known that the key exists. Dec 4 '16 at 1:52
  • 29
    @tadman: We ask people to post the smallest amount of code that demonstrates a problem. We cannot then ask them to post full error checking in the name of good habits. Dec 4 '16 at 1:54
  • 1
    Why does it crash at runtime ... when else did you expect it to crash?
    – Kerrek SB
    Dec 4 '16 at 2:02
  • 13
    @kerrek I prefer my crashes to be internal compiler errors. Dec 4 '16 at 3:34
  • 3
    @JohnZwinck: There should be an assert at least. That has the benefit of proving that the lack of error checking here isn't the source of the problem. That's part of an MCVE, not superfluous to one. Dec 4 '16 at 14:24

The range initialization line of a for(:) loop does not extend lifetime of anything but the final temporary (if any). Any other temporaries are discarded prior to the for(:) loop executing.

Now, do not despair; there is an easy fix to this problem. But first a walk through of what is going wrong.

The code for(auto x:exp){ /* code */ } expands to, basically:

  auto&& __range=exp;
  auto __it=std::begin(__range);
  auto __end=std::end(__range);
  for(; __it!=__end;++__it){
    auto x=*__it;
    /* code */

(With a modest lies on the __it and __end lines, and all variables starting with __ have no visible name. Also I am showing C++17 version, because I believe in a better world, and the differences do not matter here.)

Your exp creates a temporary object, then returns a reference to within it. The temporary dies after that line, so you have a dangling reference in the rest of the code.

Fixing it is relatively easy. To fix it:

std::string const& func() const& // notice &
    return m.find("key")->second;
std::string func() && // notice &&
    return std::move(m.find("key")->second);

do rvalue overloads and return moved-into values by value when consuming temporaries instead of returning references into them.

Then the

auto&& __range=exp;

line does reference lifetime extension on the by-value returned string, and no more dangling references.

As a general rule, never return a range by reference to a parameter that could be an rvalue.

Appendix: Wait, && and const& after methods? rvalue references to *this?

C++11 added rvalue references. But the this or self parameter to functions is special. To select which overload of a method based on the rvalue/lvalue-ness of the object being invoked, you can use & or && after the end of the method.

This works much like the type of a parameter to a function. && after the method states that the method should be called only on non-const rvalues; const& means it should be called for constant lvalues. Things that don't exactly match follow the usual precidence rules.

When you have a method that returns a reference into an object, make sure you catch temporaries with a && overload and either don't return a reference in those cases (return a value), or =delete the method.

  • Wasn't there a DR to address the lifetime issue of the range-based for loop?
    – Morwenn
    Dec 4 '16 at 15:36
  • 2
    @Yakk: It would be educational if you could link to somewhere explaining the qualifiers after the method parameters. Most people (like me) know about const-qualified methods - but not about const&- or &&-qualified methods.
    – einpoklum
    Dec 4 '16 at 22:09
  • 1
    @DonHatch: It'll fail just as fast in the traditional for: for( const char* p = std::string("abc").c_str(); *p; ++p ) It is not specific to range-based for.
    – Ben Voigt
    Apr 16 '20 at 15:39
  • 2
    @BenVoigt This is indeed all about range based for: en.cppreference.com/w/cpp/language/… "If range_expression returns a temporary, its lifetime is extended until the end of the loop, ... but beware that the lifetime of any temporary within range_expression is not extended." Please read issue 900 (and dup 1498) in open-std.org/jtc1/sc22/wg21/docs/cwg_closed.html which describes the issue well. My interpretation is that extending the lifetime of only the top-level temporary was a goof; hopefully it will be corrected some day.
    – Don Hatch
    Apr 16 '20 at 18:19
  • 1
    @DonHatch: "extending the lifetime of only the top-level temporary" is (1) inaccurate, in this example no temporary lifetime is being extended at all and (2) not a ranged-for choice; it follows directly from the "ranged-for is syntactic sugar for this other code". All reference declarations extend the lifetime of a temporary only if that temporary is the object that's directly bound. Ranged-for is syntactic sugar for a reference declaration plus some additional code, therefore it behaves as all reference declarations do.
    – Ben Voigt
    Apr 16 '20 at 18:33

This constructs a temporary object, and invokes a method that returns a reference to a std::string that's owned (indirectly) by the temporary object (the std::string is in the container that's a part of the temporary object).

After obtaining the reference, the temporary object gets destroyed. This also destroys the std::string that was owned (indirectly) by the temporary object.

After that point, any further usage of the referenced object becomes undefined behavior. Such as iterating over its contents.

This is a very common pitfall, when it comes to using range iteration. Yours truly is also guilty of getting tripped over this.

  • 1
    Are there conventions about not returning a const T& then? Or is it the case this is usually efficient for complex class members and just happens to wreck iterators?
    – Jack Deeth
    Dec 4 '16 at 2:01
  • 1
    Because temporaries get destroyed at the end of the expression. For cout << ... ;, the semicolon is the end of the expression. For range iteration, it's the closing ) (roughly speaking). There are also some situations where temporaries would also be destroyed in the middle of the expression, but that's neither here, nor there. Dec 4 '16 at 2:05
  • 1
    ... and the nice thing about conventions, is that everyone has their own conventions. The convention here, basically, is to avoid anything that smells like a temporary object, when setting up a range iteration. Dec 4 '16 at 2:07
  • 1
    Correct. The first part of the "Explanation" section from en.cppreference.com/w/cpp/language/range-for basically gives the equivalent code that range iteration produces. In my case, when I tripped over this, I tripped over this so badly, that I never forgot it. Dec 4 '16 at 2:17
  • 2
    @kynnysmatto: The value of the range expression is bound to a reference. If the value happens to be a prvalue, you get lifetime extension, but if it's not, then you don't.
    – Kerrek SB
    Dec 4 '16 at 2:23

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