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I am making my own dictionary using templates (no I can't and I won't use anything from STL).

I want to have a very simple search function, but I have a small problem.

template <typename TElement>
void Dictionary<TElement>::search(TElement ADT, int key) {  // Abstract Data Type
    inf flag = 0;
    index =  int (key % max);
    temp[index] = root[index]; // root of the hash
    while (temp[index]->next != NULL) {
        if(temp[index]->data->key_actual_name == key) { @things happen }

What I want to understand: how to use template so that I can have temp[index]->data-><template call> if that makes any sense

I want to call the dictionary by using: Class_type == TElement and "key" is always an int but it can be different things. It might be an ID or phone number. Problem is I need to use the actual name of the key (if(temp[index]->data->ID (or phone or what ever) == key) { @things happen }), I imagine I could use templates here but I don't know how.

also maybe relevant:

template <typename TElement>
typedef struct list{
    TElement data;
    struct list *next;
node_type *ptr[max], *root[max], *temp[max]; 

Also, if I do use a template for key_actual_name, how would the implementation work AND how would I call that function ?

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Flagged for rude and offensive, but I would appreciate anyone to explain what is wrong with that ? I'm willing to learn and understand if you're willing to explain instead of ... whatever @KerrekSB did. –  Kalec May 29 '12 at 14:45
Why or how is the keyword typedef used, please? I have seen occasionally seen code that issues typedef like this, but I have admittedly never understood the purpose. To me, typedef exists to define an alias for an existing type: is that what your code does? –  thb May 29 '12 at 14:54
old borland c++ habit I think. Don't think I even understood why, but teacher insisted. Didn't realize it's not normal. –  Kalec May 29 '12 at 14:57
Well it looks a lot like C, or non-standard C++. I strongly suggest not to pickup that habit. In C++ just saying struct A { ... }; defines the type A, no need to prefix struct, no need for typedef, so why go through all the trouble ? :p –  LeSnip3R May 29 '12 at 15:03
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2 Answers

up vote 5 down vote accepted

You can get some inspiration from standard library functions like find_if that has an extra parameter for the comparison.

template <class InputIterator, class Predicate>
InputIterator find_if ( InputIterator first, InputIterator last, Predicate pred );

You can then pass a parameter telling the search function how to find the key you are looking for. Perhaps replace the use of == with

if(pred(temp[index]->data, key)) { @things happen }

and pass different pred functions for comparing the key to the appropriate member.

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I'm sorry but I am just a beginner and I don't follow. pred(data, key) ?. Also is there no way I could just use some sort of template <typename getFunction> then temp[index]->getFunction == key where I have either getNumber or getID and use it that way ? –  Kalec May 29 '12 at 14:51
+1 I was writing a answer suggesting to look at find_if implementation –  Alessandro Teruzzi May 29 '12 at 14:52
have a look at this link cplusplus.com/reference/algorithm/find_if there is an implementation of find_if –  Alessandro Teruzzi May 29 '12 at 14:53
pred can be a function that compares data->something to key. Create one function for each comparison you need, and pass that to search. No template tricks needed. :-) –  Bo Persson May 29 '12 at 14:53
@Kalec pred is an unary template class that has an overloaded operator() with the following signature bool operator()(T& lhs, T& rhs) that will compare lhs with rhs and decide if they are equal. –  LeSnip3R May 29 '12 at 15:11
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If I understand correctly:


resolves to a data member of TElement which is an int, and you want that to be a template. If that's the case you can do this:

template <template <class> class TElement, typename TKey>
struct node_type
    TElement<TKey> data;
    node_type *next;

template <template <class> class TElement, typename TKey>
class Dictionary
    typedef node_type<TElement, TKey> node_t;
    node_t _root;

    void search(node_t& node, const TKey& key)
        TKey& thekey = node.data.key_actual_name;
        // Do some algorithm
    void search(const TKey& key)
        search(_root, key);

template <class T>
struct Element
    T key_actual_name;

int main(int argc, char ** argv)
    Dictionary<Element, int> dic1;

    Dictionary<Element, char> dic2;

    return 0;

As you can see, the Element has a template parameter, so you can change the type of key_actual_name to whatever suits your case, yet have the search function access it in a generic way (assuming it has the operator== overload).

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Yes, this is what I intended to say and I think this should work, thank you!. I will select your answer once I try this out. –  Kalec May 29 '12 at 15:28
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