Suppose you have the following code:

long& fn2(long& another_var1, long another_var2){

    another_var1 = another_var1 + another_var2;
    another_var2 = another_var2 + another_var1;

    return another_var1;

int main (){
    cout << boolalpha;

    long var1 = 5;
    long var2 = 10;

    auto result = fn2(var1, var2);

    cout << &result << endl;
    cout << &var1 << endl;
    cout << result << endl; //Line 1
    cout << (&result == &var1) << endl; //Line 2 

Everything works as expected until you reach Line 2, where false is returned. When you auto result, it is supposed to be a reference variable to another_var1, which is a reference to var1, i.e. they should all have the same address - they are just name aliases for the same memory. Looking at Line 1, 15 is returned, giving the illusion that they are all the same. Then, Line 2 disproves that.

I think, however, this may be an issue with auto. If you delete auto and replace it with its true return type long&, you get the expected results.

Can anyone explain what is really happening?

  • 5
    auto defaults to non-reference if I remember correctly. – user4581301 May 7 '18 at 22:31
  • 4
    auto result is a value, auto& result might do the trick. – Captain Giraffe May 7 '18 at 22:31
  • @user4581301 indeed that is why. That is so dumb. – Art May 7 '18 at 22:32
  • 1
    @user4581301 The opposite would be unexpected and dangerous. – Captain Giraffe May 7 '18 at 22:32
  • 3
    @user4581301 if you find this unintuitive then I'd suggest updating your intuition about references – M.M May 7 '18 at 23:43

When you auto result, it is supposed to be a reference variable to another_var1

Here's your bug. If result is supposed to be a reference, then you must declare a reference. Like this:

auto& result = fn2(var1, var2);
  • 1
    You don't necessarily need to declare a reference explicitly -- decltype(auto) behaves more like the way the OP was expecting auto to behave and would also result in a reference here. – user743382 May 7 '18 at 22:55
  • @hvd Please edit this or make a new answer to show that magic. – Captain Giraffe May 8 '18 at 0:02
  • @CaptainGiraffe I think it would be better as an edit to this answer, but I also think it would be rude for me to edit it in myself. Let's wait to see what user2079303 thinks of it first. – user743382 May 8 '18 at 0:09

What is really happening

auto deduces the type of the variable from the type of the variable used to initialize it1. I can't find anyone actually comes out and says it2, but I suspect the reference is not deduced because there is no such thing as a reference variable. References don't exist as independent entities. They are just a handy-dandy new name, an alias, for an existing variable. Once all of the referencing is resolved

auto result = fn2(var1, var2);

might as well be

fn2(var1, var2);
auto result = var1;

How do I get what I expected?

Declare the new variable as a reference with

auto & result = fn2(var1, var2);

If you are building for C++14 or a more recent standard, decltype can be used to track the returned type's value category, an lvalue reference, to retain the reference.

decltype(auto) result = fn2(var1, var2);

1 Gory details. Note how it uses the same deduction rules as templates. Why repeat yourself?

2 No longer true. I should know better than to neglect checking with Herb Sutter or Scott Meyers first.

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