Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm using a vector of pointers to free up a series of node objects in the heap. The vector has all the node object addresses and there is a function, delete_nodes, which is used with the for_each loop to delete all nodes in the vector. For some reason I get the following error in eclipse cdt with the for_each loop underlined in red:

error: no matching function for call to 'for_each(__gnu_cxx::__normal_iterator<Node**, std::vector<Node*, std::allocator<Node*> > >, __gnu_cxx::__normal_iterator<Node**, std::vector<Node*, std::allocator<Node*> > >, <unresolved overloaded function type>)'

The code is for Huffman coding, and the for_each loop is at the very end. The nodes_delete vector is created right before the while loop.

void Huff::delete_nodes(Node*n){//this is used to delete all the nodes in the binary tree at the end of Huff::compress()
    delete n;
}
vector<Code>* Huff::compress(){
    //-------GETTING WEIGHTS/FREQUENCIES------
    vector<Node *>* nodes = new vector<Node*>; // Vector of nodes for later use
    map<char, int>* freq = new map<char, int>; //  Map to find weight of nodes
    for(unsigned int i = 0; i < content.length(); i++)
        (*freq)[content[i]]++; 
    CopyTo copyto(nodes); //sets vector<Node*> to copy to 
    for_each(freq->begin(), freq->end(), copyto); // Copies 
    delete freq;
    vector<Node *>::iterator beg = nodes->begin();

    //-------SETTING UP TO BUILD TREE------
    if(nodes->size() % 2 == 1){ //makes sure there are an even number of nodes
        Node* fill = new Node;
        fill->set_node(0, '*', NULL, NULL);
        nodes->push_back(fill);
    }
    huff_sort(nodes); // sort nodes by weight
    vector<Node*> nodes_delete(*nodes); //this is used to delete all the nodes in the binary tree at the end
    //-------BUILDING TREE------
    while(nodes->size() != 1){ //Sorts nodes by weight and then removes two of them and replaces them with one
        int w= (**beg).weight + (**(beg+1)).weight;
        Node* p = new Node;
        p->set_node(w, '*', *nodes->begin(), *(nodes->begin()+1)); //making it the parent node of the two lowest nodes
        nodes->erase(nodes->begin(), nodes->begin()+2);
        unsigned int i = 0;
        while(w > (*nodes)[i]->weight && i <= nodes->size()){ //finds where to insert the parent node based on weight
            i++;
        }
        if(i > nodes->size()) //if it needs to be inserted at the end
            nodes->push_back(p);
        else
            nodes->insert(nodes->begin()+i, p);
    }
    //-------TRAVERSING TREE------
    Node* root = (*nodes)[0];
    delete nodes;
    vector<Code>* codes = new vector<Code>;
    traverse(root, codes , "");
    delete root;
    for_each(nodes_delete.begin(), nodes_delete.end(), delete_nodes);
    return codes;
}
share|improve this question
    
Is there more than one (overloaded) definition for the delete_nodes function? In the code above I can see only one, but have you checked whether there is another one, perhaps in one of the header files? –  jogojapan Jul 25 '12 at 1:58
    
@jogojapan There are no other delete_nodes as far as I know. Plus, if I change the name of delete_nodes to anything else, the error persists. –  sinθ Jul 25 '12 at 2:02
    
Btw I assumed the delete_nodes function is defined as a static member function. Is that actually correct? If not, Matteo Italia below is right (although I'd find the error message by the compiler rather misleading in that case). –  jogojapan Jul 25 '12 at 2:02
    
@jogojapan No, I checked and it wasn't defined as a static member function. I changed it and it works now. –  sinθ Jul 25 '12 at 2:05
    
pointers to vectors and vectors of pointers... you are determined to leak memory aren't you? :) Move semantics/RVO and smart pointers are your friend (if you even need pointers in you vector, which you probably do not). You could also simply pass in a vector<T>& to be filled by the function. –  Ed S. Jul 25 '12 at 2:05

2 Answers 2

up vote 3 down vote accepted

It look like your delete_nodes is a non-static member function. If so, you cannot just use delete_nodes as an argument for std::for_each. std::for_each requires a functor. Your delete_nodes is not a functor.

Firstly, to obtain a pointer to a non-static member function, & operator and a qualified name are always required. A mere name of non-static member function (just delete_nodes) is not a valid expression in C++. You have to do &Huff::delete_nodes.

Secondly, again, a pointer to a member function (as opposed to a pointer to an "ordinary" function) is not a functor. In order to turn it into a functor you can use std::mem_fun function. That will give you a binary functor, since std::mem_fun will turn the implicit this parameter into an explicit one. In order to turn it into a unary functor required by std::for_each you have to bind the first argument to a specific object pointer value (this probably?).

The end result of the above steps will look as

bind1st(mem_fun(&Huff::delete_nodes), this)

This is a unary functor that calls delete_nodes for this object.

So, the for_each call in your example should look as follows

for_each(nodes_delete.begin(), nodes_delete.end(),
  bind1st(mem_fun(&Huff::delete_nodes), this));

However, it looks like in your implementation delete_nodes can be turned into a static member function. A static member function is an "ordinary" function, meaning that it is a functor and it can be used directly. I.e. if you make delete_nodes static your code should work as is.

Decide what path you wish to follow and make the necessary changes.

share|improve this answer

You are trying to pass as a functor an unbounded member function. You have to bind it to the current object using e.g. std::mem_fn and bind.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.