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I am trying to compile the following snippets of code. Please check the errors I am getting at the end.

#include "Tree.h"

template <class T>
CNode<T>* CNode<T>::GetChild(const T& kData)
    for( std::vector< CNode >::iterator it = m_vChildren.begin(); it!= m_vChildren.end(); ++it)
        if(*it== kData)
           return &(*it);

Tree.h (Header file):

#include "../include_m.h"
#include <vector>

template <class T>
class CNode
    CNode(const T& kData)
        m_Data = kData;

    void AddChildNode(const CNode& kcChildNode);
    void DeleteChildNode(const T& kData);
    void GetChildNode(const T& kData) const;
    void Print();

    T                       m_Data;
    std::vector<CNode>      m_vChildren;

    CNode * GetChild(const T& kData);

This fails to compile with the following errors:

g++ -o tree Tree.cpp 
Tree.cpp: In member function ‘CNode<T>* CNode<T>::GetChild(const T&)’:
Tree.cpp:12: error: expected `;' before ‘it’
Tree.cpp:12: error: ‘it’ was not declared in this scope
share|improve this question
Don't you need for (std::vector< CNode<T> >::iterator it = ...? And what is m_vChildren declared as? –  Jonathan Leffler Mar 11 '13 at 6:22
I had that before, but removed it. Compiler doesn't complain, so thought it is OK. –  Murali Medisetty Mar 11 '13 at 6:27
You can't store a vector of type CNode since CNode isn't actually a class; your compiler is telling you the declaration of it is not valid, therefore it was not declared. –  Jimmy Thompson Mar 11 '13 at 6:31
@JonathanLeffler: Added the Tree.h code as well. Please check it out. –  Murali Medisetty Mar 11 '13 at 6:34
@Jimmy What do you mean "CNode isn't actually a class" ? –  Murali Medisetty Mar 11 '13 at 6:35

3 Answers 3

up vote 2 down vote accepted

All you're missing is a typename before std::vector< CNode >::iterator. Since CNode<T>::GetChild is a templated context, the compiler can't know whether std::vector< CNode >::iterator is a type or a value member. You could for instance have a template specialization of std::vector<CNode<int> > where iterator is defined as a class field. You need to use the typename keyword to resolve this ambiguity.

On a relevant note, there's an even trickier situation where you need the template keyword, and it might be worth mentioning here, consider:

template <class T>
struct C {
   template <class U>
   void memfunc();

template <class T>
void func() {
   C<T> c;
   c.template memfunc<int>();

You need the odd template keyword in the last line there, since due to a similar reason to your problem, the compiler can't know that the member is in fact a template method in all specializations of the class C. The error messages you get with this is also quite odd and they puzzle me every time.

The other answers also have a relevant point about having a template definition in a .cpp file. You should probably follow their advice and move the definition to a .h file. However, there actually are circumstances where you want a template definition in a .cpp file. For instance, it might be that the method is only used in the same .cpp file. Or you might want to take control of what types you want the templated member function to be instantiated with using explicit instantiation. You would achieve this with:

template class CNode<int>; // explicitly instantiate CNode<int> 
template CNode<double>* CNode<double>::GetChild(const double& kData); // explicitly instantiate only the GetChild method for CNode<double>

This way, you won't have to recompile every .cpp file that includes tree.h whenever you make a change to the implementation of the GetChild method.

share|improve this answer
Absolutely. Thanks a lot :) –  Murali Medisetty Mar 11 '13 at 6:48
I can't vote up (because of my low reputation )sorry. –  Murali Medisetty Mar 11 '13 at 6:48
You're welcome, this typename issue gets me all the time as well, it just seems so obvious to a human eye, but not to the vigilant eye of the compiler. –  enobayram Mar 11 '13 at 6:57
@MuraliMedisetty you might want to check my latest edits. –  enobayram Mar 11 '13 at 7:15
  1. You can't use a .cpp file with a template class. Everything must be in the .h.
  2. You're using references to CNode in your header to indicate return types, values placed inside std::vectors and parameters. These all have to be changed to CNode<T>.

This is because CNode does not exist as a class in itself, but rather a template for classes to be created from at compile time. For every type placed inside <T>; a new class is created at compile time.

Meaning CNode<X> is not the same class as CNode<Y>, and CNode does not exist at all in the binary/executable.

This means that you can never reference CNode, or its members, without providing a value for <T>.

share|improve this answer
Agreed. That was not the issue. –  Murali Medisetty Mar 11 '13 at 6:47
That is your issue, using typename in this context is a workaround, and said keyword was made to be used when dealing with typedefs in template classes to determine when they get expanded. –  Jimmy Thompson Mar 11 '13 at 6:50
How is using typename a workaround? He would need to use it even if he moved the implementation to the .h file. –  enobayram Mar 11 '13 at 7:18
I agree with @enobayram. There is an ambiguity there for the compiler and hence using the keyword typename makes sense. –  Murali Medisetty Mar 11 '13 at 8:17
Using typename is masking an obvious ambiguity in your code. The ambiguity being that you're talking about something that isn't a type as if it were one; typename is tantamount to a typedef. You could just as easily insert typename CNode<T> CNode; at the top of your class definition and achieve the same result. However, this makes the code harder to read. The fact you're resorting to inserting an extra typename keyword should be a further indicator that something "smells" wrong with the code. Using CNode<T> consistently would remove the problem itself, not just hide it. –  Jimmy Thompson Mar 11 '13 at 9:59

Put all implementations inside .h, Use typename before std::vector< CNode >::iterator:

for(typename std::vector< CNode >::iterator it = m_vChildren.begin(); ...
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