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A blog I came across at writes:

After working in this code base for a while now I believe that returning references are evil and should be treated just like returning a pointer, which is avoid it.

For example the problem that arose that took a week to debug was the following:

class Foo {
        std::vector< Bar > m_vec;
        void insert(Bar& b) { m_vec.push_back(b); }
        Bar const& getById(int id) { return m_vec[id]; }

The problem in this example is clients are calling and getting references that are stored in the vector. Now what happens after clients insert a bunch of new elements? The vector needs to resize internally and guess what happens to all those references? That's right there invalid. This caused a very hard to find bug that was simply fixed by removing the &.

I can't see anything wrong with the code. Am I misunderstanding return by reference & STL containers, or is the post incorrect?

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up vote 2 down vote accepted

Say for example you have 2 elements in the vector:

a and b. You return references for these r1 and r2.

Now another client does an insert into the vector. Since the vector has only two element storage present. It reallocs the storage. It copies a and b and inserts c after them. This changes the locations of a and b. So references r1 and r2 are now invalid and are pointing to junk locations.

If the getById method was not return by reference a copy would have been made and everything would have worked fine.

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The issue is more easily displayed as:

std::vector<int> vec;
const int& ref = vec[0];

The contents of vec[1] are undefined. In the second push_back, ref is reference to wherever in memory vec[0] was when it was initialized. Inside of push_back, the vector might have to reallocate, thereby invalidating what ref refers to.

This is a major inconvenience, but luckily, it isn't a problem that happens all too often. Is Foo a container people insert the same Bar they just found by ID? That seems funny to me. Incurring a copy on every access seems like overkill to solve the problem. If you think it is bad enough,

void insert(const Bar& b)
    if (( <= &b) && (&b < + m_vec.size()))
        Bar copy(b);
        return insert(copy);

In C++11, it would be much better to write Foo::insert like so (assuming Bar has a decent move constructor):

void insert(Bar b)
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In addition to other answers, it's worth pointing out that this effect depends on a container type. For example, for vectors we have:

Vector reallocation occurs when a member function must increase the sequence contained in the vector object beyond its current storage capacity. Other insertions and erasures may alter various storage addresses within the sequence. In all such cases, iterators or references that point at altered portions of the sequence become invalid. If no reallocation happens, only iterators and references before the insertion/deletion point remain valid.

while lists are more relaxed in this regard due to their manner of storing data:

List reallocation occurs when a member function must insert or erase elements of the list. In all such cases, only iterators or references that point at erased portions of the controlled sequence become invalid.

And so on for other container types.

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