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I'm having a trouble overloading operator [] for both read and write in my objects. This is a large code with different components and I'm not going to put all the details here since it wont help. In a nutshell what I have is the following

class MyObject(){
    inline SetterProxy& operator[](int i) {
        SetterProxy a(i);
        return a;
    inline double operator[](int i) const{            
        return some_value;

The first overloaded [] works fine for assigning values (if you are wondering what the SetterProxy is, I have to use Proxy classes to be able to do some checking and internal function calls before assigning values). However, the second one which should supposedly be called when reading does not work and the code crashes. I'm not sure what is happening here but when I comment out the first one it just works fine! Could it be that compiler somehow confuses the two since they are both inline?

Any thought would be appreciated.

EDIT: Ok here is the SetterProxy itself:

class SetterProxy{
    Vec v;
    int i;
    double *ptr_val;
    inline SetterProxy(Vec v_, int i_) {
        v = v_;
        i = i_;
    inline ~SetterProxy(){

    inline void operator=(double rhs ){
        ptr_val[i] = rhs;

Although I dont think its coming directly from that. Also initially I had it to return by value and I though changing it to reference would be more efficient. I think this should be safe since the assignment is done in the Proxy operator=() class and after that the proxy class goes out of scope. Either way, that does not save my problem!

share|improve this question
Could this be related to something you do inside SetterProxy? Could you please update the question with the digest of what it does? – dasblinkenlight Dec 5 '11 at 22:59
Are you calling operator[] on a const object or a non-const object when it crashes? – Seth Carnegie Dec 5 '11 at 23:00
@ seth: tried both const and non-const. The code crashes when calling something like printf("%f\n",a[0]);. Also using cout I get the compile error that the operator << is not defined for SetterProxy class! But the thing is isn't the compiler supposed to call the other overloaded [] ? – GradGuy Dec 5 '11 at 23:15
up vote 10 down vote accepted

You're returning a reference to a local variable - it goes out of scope when the operator returns, leaving your reference dangling. A good compiler should warn you about this if you turn the warning setting up to a reasonable level.

share|improve this answer
Good eye (length) – Seth Carnegie Dec 5 '11 at 23:05
Question: Isn't the code supposed to call the second operator when reading values in a printf statement for example? – GradGuy Dec 5 '11 at 23:33
@GradGuy : No, which overload is called is determined by the constness of the object, not by what you attempt to do with the return value. If your object isn't const, then the first overload will always be called. – ildjarn Dec 5 '11 at 23:56
Alright then. Is there anyway to ask the compiler call the second function for read-only purposes? – GradGuy Dec 6 '11 at 0:11
@GradGuy : Give it a unique name, or make your object const for the duration of the call. But in any case I don't see the point, because if the first overload is written properly there will be no harm in calling it even for read-only purposes. – ildjarn Dec 6 '11 at 0:14

As noted in @Stuart Golodetz's answer, you are returning a reference to SetterProxy referring to a, which is local to your method and thus goes out of scope when it returns.

You should instead return a SetterProxy instance by value: that shouldn't be a big deal, SetterProxy will probably just hold the index and a reference to the "parent" object, so the compiler-generated copy constructor for it will be fine and the copy won't be costly at all.

By the way, unless you want to allow negative indexes, the usual idiom is to use size_t for indexes in arrays.

share|improve this answer
@SethCarnegie: unsigned int isn't guaranteed to be big enough to hold the size of any object that can be allocated (and thus indexes inside them); think about Windows x86_64: unsigned int is 32 bit, while size_t is 64 bit (so unsigned int cannot be used as index for >4GB arrays - which can exist there, while size_t can). Have a look here for other examples. – Matteo Italia Dec 5 '11 at 23:13
Ok thanks very much. Time for a massive search-and-replace. – Seth Carnegie Dec 5 '11 at 23:14
@SethCarnegie: use ptrdiff_t, because it's signed (avoiding trouble) and large enough. use size_t if you're programming for certain old-fashioned DSPs, or if you're willing to accept various bugs and general trouble for the sake of appearing to conform with general public opinion, and/or for the sake of appearing to conform with the standard library's convention (which supports archaic systems that now don't exist anymore). Needless to say the "appearing to conform" reasons are technically unsound. But sometimes its better to sacrifice on the technical, especially with a primitive manager. – Cheers and hth. - Alf Dec 5 '11 at 23:33
@SethCarnegie: Since you're asking you probably think that you already know the answer to that, which, if true, means that the question is not entirely honest, and designed to deceive. :-( But anyway, the range issue is a concern on 16-bit systems. Whence the C standard requires ptrdiff_t to be at least 17 bits. Now I bet you didn't know that. A little knowledge is dangerous, as they say. – Cheers and hth. - Alf Dec 5 '11 at 23:39
@Seth: i'm sorry. i misunderstood a coincidence. – Cheers and hth. - Alf Dec 6 '11 at 6:21

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