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.

Ok so Im just learning templates for the first time and so I was toying around creating my own template class that mimics its underlying type which is a vector. Keep in mind that the call to push_back just calls the push_back method of the underlying vector.

vector<string> sV;
sV.push_back("ha");       //ok: converts from const char[3] to string

Foo<string> fS;
fS.push_back("ha");      //error: const char[3] does not match the argument list

Is there a way I can fix this? I just want my template to feel as natural as if I'm using the real thing.

EDIT : This is basically the body of the class

template <typename T> class FooPtr;
template <typename T>
class Foo{
    friend class FooPtr<T>;
    Foo() {data->make_shared(vector<T>); }
    void push_back(T &t) { data->push_back(t); }
    void push_back(T &&t) { data->push_back(move(t)); }
    bool empty() { if (data->size() == 0) return true; }
    FooPtr<T> insert(size_t, T&);
    T& operator[](size_t);
    T& front();
    T& back();
    FooPtr<T> begin() { return FooPtr<T>(*this); }
    FooPtr<T> end() { return FooPtr<T>(*this, data->size()); }
    void pop_back() { data->pop_back(); }
    void pop_front() { data->pop_front; }
    void check(const string&, size_t = 0);
    shared_ptr<vector<T>> data;
share|improve this question
template <typename T> void Foo<&T>::push_back(T) template <typename T> void Foo<&&T>::push_back(move(T)) Does that answer? –  RudolphRedNose Jan 30 at 6:18
@RudolphRedNose, That shouldn't compile in the first place. –  chris Jan 30 at 6:19
Jsut for push_back(), please... –  laune Jan 30 at 6:21
Unrelated (sorta): unless I'm not reading this right (a distinct possibility), that std::move(t) should be a std::forward<T>(t). –  WhozCraig Jan 30 at 6:38
@WhozCraig don't you think the answers are wrong here? shouldn't void push_back(T &&t) be picked for his call? since during overload resolution the converting constructor of the std::string is called and the std::string hence formed is an rvalue? –  Koushik Jan 30 at 7:23

4 Answers 4

A method that should be able to accept a string literal same way as a std::string object must have a signature

void foo( const std::string & arg )

Therefore, your Foo::push_back must be

void Foo::push_back( const T & arg )
share|improve this answer
so simple... yet so brilliant. –  RudolphRedNose Jan 30 at 6:32
@RudolphRedNose The Standard Library documentation is a rich hoard of information. –  laune Jan 30 at 6:45

As you can see here http://www.cplusplus.com/reference/vector/vector/push_back/ the std::vector offers two methods for push_back which are overloaded.

One for const types and for non const types.

Your first push_back succeeds as the std::vector provides a function which can handle types like

 const char *

where const is the magic word. Your wrapper template just offers a push_back method with the signature

T & t

Extending your implementation with the following should solve your problem:

void push_back (const T& t) {data->push_back(t);}
share|improve this answer

You want to only try to convert const char* (NOT const char or char or another type of char) to string, otherwise you're trying to map an element to a STL-container/array of that element which is nonsense in C++.

share|improve this answer
Very cryptic, please explain and use standard English. –  laune Jan 30 at 6:22
@laune does that edit speak in a clearer tongue? –  Paul Evans Jan 30 at 6:26
Yes,thanks, very much so. But I think OP's original problem was the missing const. Never mind. –  laune Jan 30 at 6:43

I think your compiler is wrong. my reasoning is as follows

when you instantiate Foo with std::string the push_back member functions that are generated will be as follows

void push_back(std::string &t) { data->push_back(t); }           --1
void push_back(std::string &&t) { data->push_back(move(t)); }    --2

1 will be picked if the argument is a non-const lvalue expression of type std::string.
2 will be picked if the argument is a non-const rvalue expression of type std::string.

when you pass "ha" , user defined conversion in std::string kicks in and since the produced std::string (std::string("ha")) is an rvalue, 2 should be picked. even addition of const to 1 will not cause the 2 from not being picked.

a nice post from STL

share|improve this answer

Your Answer


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.