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I implemented a hashmap in C++ in order to learn more about associative maps in general, and everything works nicely except for one sticking point -- I want the programmer to be able to create maps with arbitrary parametrization (e.g. [using std::string for example] HashMap<string,string*>, HashMap<string,string>, and HashMap<string*,string> etc. are all legal).

The trouble is that in the HashMap::get(int key_data) function the returned map Value on a miss (where the given Key does not match any mapped Values) can't simply be NULL if I support having objects as map Values. I could have the get(...) function always return a pointer to the parametrized map Value type, but if that type is already a pointer I can't use the unary & operator, and if it is an object I have to use the & operator. I definitely don't want to use RTTI, so the question is as follows:

How can I allow for both object and pointer-to-object return types from my HashMap::get() function, which is also required to allow for misses?

Bear in mind I am using gcc 4.7 with C++11 switched on, so all C++11 features and caveats apply. Below follows my HashMap::get() function so far using an 'always return a pointer to whatever value_data happens to be' paradigm:

template <class key_data,class value_data> value_data*  
HashMap<key_data,value_data>::get(key_data dk) {

    int key = keyGen(dk);

    int hash_val = HashFunc(key);
    HashNode* entry = _table[hash_val];

    while (entry != 0) {
        if (entry->getCurrentKey() == key) {

            //value_data val = entry->getCurrentValue(); //this temporary will be 
            //gone from the stack quickly and therefore the returned pointer to a 
            //pointer (if value_data is a pointer) will segfault

            return &(entry->getCurrentValue()); //this should be legal and yield 
            //a pointer to a pointer (iff value_data was a pointer), but instead 
            //I get a compiler error claiming 
            //operator & requires an lvalue operand...

        entry = entry->next();


    printf("Your get of int key %i resulted in no hits."
           "The returned pointer to Value is NULL!\n",key);

    return NULL;

As the comments state, the line return &(entry->getCurrentValue()); throws a compiler error stating that operator & requires an lvalue operand. I can get rid of that error by placing a value_data temporary onto the stack, but that will lead to a segfault when I actually try to use it because the returned pointer will be invalid almost instantly. Simply using references to abstract away the syntax issue doesn't work either because in that case misses could not be implemented via return NULL (ISO requires that references, unlike raw pointers, point to valid lvalues).

If anyone has a suggestion regarding handling a returned reference that may be 'invalid' (like a dummy object that can be queried for validity that everything else inherits from), I'm open to those as well.

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Why don’t you have a look at how the standard library solves this? –  Konrad Rudolph Oct 14 '13 at 19:25
"I get a compiler error claiming operator & requires an lvalue operand..." I bet getCurrentValue returns by value (or a pointer)? If so, it returns a prvalue. To make it compile, make it return a reference. (That won't solve the underlying problem, though.) –  dyp Oct 14 '13 at 19:30
getCurrentValue() returns whatever value_data was parametrized as; could be an object or a pointer (I'm not supporting references because they don't easily allow for 'misses' as defined above) –  CCJ Oct 14 '13 at 20:17
@CCJ Well in your example, getCurrentValue is only called when the entry exists, right? So it could return a reference. –  dyp Oct 14 '13 at 20:28
@CCJ The Standard Library associative containers create a new value via the default-ctor if you use operator[] and the key cannot be found. In any case, a valid reference is returned. This allows my_map[key] = something; no matter if the element exists beforehand. You can use the at member function (or find) for "bounds-checking". –  dyp Oct 14 '13 at 21:27

1 Answer 1

up vote 1 down vote accepted

One possible way to tackle this would be partial template specialization. For an example how to do this for pointers, see this other question.

Basically (copied from the answer there), you'll need

template <class I>
class GList<I*>

to provide a specialized version of a list for any pointer type.

share|improve this answer
hmm, so something like 'template <class key_data, class value_data> class HashMap<value_data>{...handle mapped objects here};' and 'template <class key_data, class value_data> class HashMap<value_data*>{...handle mapped pointers here};'? How would the compiler handle situations where HashMap was parametrized with a pointer in the value_data slot to begin with (HashMap<string,string*>) -- is it smart enough to identify the data type for value_data as std::string and then check whether a pointer or reference operator is also applied to generate the proper code to handle objects versus pointers? –  CCJ Oct 14 '13 at 20:10
I'll experiment with this and write back shortly; thanks for the suggestion! –  CCJ Oct 14 '13 at 20:11
right, with a little massage and help from the comments above this worked. Thanks! –  CCJ Oct 17 '13 at 18:12

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