In this blog post, Eric Niebler states that:

What is wrong with std::begin and std::end? Surprise! they are not memory safe. Consider what this code does:

extern std::vector<int> get_data();
auto it = std::begin(get_data());
int i = *it; // BOOM

std::begin has two overloads for const and non-const lvalues. Trouble is, rvalues bind to const lvalue references, leading to the dangling iterator it above.

I'm having trouble understanding his point and why it is a dangling reference. Could someone explain?

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    How is the above code any different from auto it = get_data().begin();. That code has the same problem I think, so what point is the author is making? – john Feb 11 '19 at 7:56
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    @john Eric is saying that ranges::begin is better than std::begin, he isn't claiming anything about .begin. – Marc Glisse Feb 11 '19 at 8:58
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    @MarcGlisse OK, I was misled by the title of this post, and I couldn't easily find the original quote. – john Feb 11 '19 at 9:00
  • Related question: stackoverflow.com/questions/48976859/… – Arne Vogel Feb 11 '19 at 12:26
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    Personally, I would say that's more a combination of "not Machiavelli-safe" or "not derp-safe" and a quirk of rvalue references than "not memory-safe", since it demonstrates that std::begin() is exactly as memory-safe as the parameter you pass to it, and not inherently unsafe solely in and of itself. That's just me, though. – Justin Time - Reinstate Monica Feb 12 '19 at 7:40

The get_data function returns an object. When used the way shown, that object will be a temporary object, which will be destructed once the full expression ends. The iterator now references a vector object which no longer exists, and can't be dereferenced or used in any useful way.

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    Though this is definitely correct, isn't john's comment to the original post also appropriate? How does the given example show a problem of std::begin and std::end? – Benjamin Bihler Feb 11 '19 at 8:35
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    Because std::begin lets you make that mistake, but std::ranges::begin will not. – Eric Niebler Feb 11 '19 at 16:17

I think Eric's point about std::begin is that it silently accepts an rvalue container as an argument to begin with. On the face of it, the problem with the code is also exemplified in

auto it = get_data().begin();

But std::begin is a free function template, it can be made to reject rvalues without needing to add the proper reference qualifiers to each container's begin members. By "just" forwarding it misses an opportunity to add a layer of memory safety to code.

Ideally, the overload set could have benefited from the addition of

template< class C > 
void begin( C&& ) = delete;

That one would have caused the code in the blog post to be flat out rejected on the spot.

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    Is it possible for us to make a warning of deprecation or usage for that particular template instantiation instead of outright deleting it? Compiler specific extensions allowed. – Paul Stelian Feb 11 '19 at 9:51
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    @PaulStelian - Here's how btw, pure C++14. coliru.stacked-crooked.com/a/7c99059b5b1a8dca – StoryTeller - Unslander Monica Feb 11 '19 at 10:01
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    @PaulStelian - No, we can't. I intentionally provided an example in another namespace. To add this overload, we'd need to write a proposal, then get it voted int o the standard. – StoryTeller - Unslander Monica Feb 11 '19 at 11:25
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    The thing is, as Alexandrescu points it out with humour in its 2018 cppcon talk, the C++ committee likes to be consistent in its past errors. One might think the reason why std::begin accepts r-values is to let begin(c) and c.begin() be perfectly equivalent. (but yes obviously this overload set would be ideal) – YSC Feb 11 '19 at 12:24
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    @YSC .begin() could also be made to reject rvalues, couldn't it? iterator begin() && = delete; – The Vee Feb 11 '19 at 18:00

The temporary vector returned by get_data goes out of scope after std::begin is done. It is not kept alive, so it is an iterator into a destroyed object.


Is it fair to say this is a memory safety failing of std::begin? There is no 'safe' way of creating an iterator such that it will be valid to follow the pointer after the container is deleted.

It lacks a check that another method has, but it's not like there is no way to make a ranges derived iterator go pop. You just have to try a bit harder...


Because it allows initialisation from an rvalue, which is bad.


In fact, the complicated function can be simplified to two short functions, such as:

int& foo(int x){
   return x;
int generate_a_int(){
   return 42;

and then invoke it foo(generate_a_int()), a temporary value is generated, once out of the function body, the temporary value generated by generate_a_int() is destroyed, and then a dangle reference hass happened.

Do you understand now?

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