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I have a class which returns the specific device based on runtime.

struct ComponentDc;
struct ComponentIc;

typedef Device<ComponentDc> DevComponentDc;
typedef Device<ComponentIc> DevComponentIc;

template<class Component>
class Device{
 Device<Component>* getDevice() { return this; }
 void exec() { }

In exec(), I'd like to print "Hello" if the component type is ComponentDc and world if it is ComponentIc. Also, these are the only two types with which Device can be created.

How do I do this ?

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up vote 4 down vote accepted

You have two classic possibilities.

First, use two global function overloads, one for ComponentDc, one for ComponentIc:

void globalExec(ComponentDc) { std::cout << "Hello"; }
void globalExec(ComponentIc) { std::cout << "World"; }

void Device<Component>::exec() { globalExec(Component); }

Second, use traits-class: pure template class with no fields and with different typedefs and only static functions as methods. This class has own specializations for different possible argument types.

template<Component> class DeviceTraits {};

template<> class DeviceTraits<ComponentDc> { 
    static std::string getMessage() { return "Hello"; }

template<> class DeviceTraits<ComponentIc> { 
    static std::string getMessage() { return "World"; }

void Device<Component>::exec() { 
    std::cout << DeviceTraits<Component>::getMessage(); 

The advantage of using traits classes is that you don't have to spoil your global namespace with several functions.

About partially specializing the Device class itself - it is not always possible, and it is considered more convenient to move any template-argument-specific code into traits class.

This is the classic approach used in STL. Alternatively, you can use boost::enable_if or std::enable_if (for the latest compilers).

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I'm afraid global functions is not an option. I simplified my question here, so it has to be a member. Can you elaborate on traits classes ? Thanks – brainydexter Mar 19 '13 at 8:31
See my updated answer. – Mikhail Mar 19 '13 at 8:35

You could instantiate template explicitly:

template<> class Device<ComponentDc> {
    void exec() { cout << "Hello"; }

The same goes for Device<ComponentIc>.

Also, if you want to restrict template parameters to a specific set, you should think of inheritance or composition instead of templates.

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How would this be called though ? – brainydexter Mar 19 '13 at 8:30
Just like before, DevComponentDc dc; dc.exec(); The compiler would make specific code depending on template parameter implicitly. – umi Mar 19 '13 at 8:33

You can also use boost::enable_if

void Device<Component>::exec(boost::enable_if< boost::is_same<Component,ComponentDc> >* enabler = 0)

void Device<Component>::exec(boost::enable_if< boost::is_same<Component,ComponentIc> >* enabler = 0)
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That doesn't work unless exec itself is a template. – Xeo Mar 19 '13 at 9:11
Yes, of course, you are right ! I always try it out and then get bitten by that. – sylvain.joyeux Mar 19 '13 at 16:37

Use for instance template specialization:

Here to use it for the specific method: Template specialization of a single method from a templated class

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