Can I use C++ template classes to differentiate object types? Or what should I use?

Eg. I have a class Synonym and it can be of type Statement, Procedure, etc for example. I have functions that accepts these synonyms and evaluates them depending on its type. So I was thinking it will be nice if I can do something like:

enum Types { Statement, Procedure, Variable, ... };

template <typename Types>
class Synonym { ... }

void evaluate(Synonym<Statement> s, Synonym<Variable> v) { do something }
              ^ so that I can do this ... instead of checking the type in function like: 

void evaluate(Synonym s, Synonym v) {
    assert(s.type == Statement);
    assert(v.type == Variable);

    // also would like to eliminate things like: (if possible)
    switch(s.type) {
        case XXX: doSomething ... 
        case YYY: doAnotherThing ...
  • I don't get it, what exactly do you want to achieve? – StoryTeller Feb 21 '13 at 14:12
  • And you can always overload function parameters so yeah the first evaluate should be fine. – StoryTeller Feb 21 '13 at 14:14

You could create a function template and then specialize on that template

template<typename Type>
void evaluate (Type t) {}

void evaluate<Statement>( Statement s)

This way, when you pass a Statement it will pick that overload, and you can do different behaviors depending on type.


I think using a variant and visitor pattern would be suited. Have a look at Boost.Variant here: http://www.boost.org/doc/libs/1_51_0/doc/html/variant.html, the last example (also below but expanded) shows a visitor implementation. There are also other variant and visitor implementations. std::any and loki are also options. I personally like loki but that is probably just because I'm a huge fan of Alexandrescu.

#include "boost/variant.hpp"
#include <iostream>

class ToLengthVisitor : public boost::static_visitor<int>
    int operator()(int i) const
        return i;

    int operator()(const std::string & str) const
        return str.length();

    int operator()(const char * str) const
        const char * temp = str;
        while(*temp != '\0') temp++;
        return temp-str;

int main()
    typedef boost::variant< int, std::string, const char * > MyVariant;
    MyVariant u(std::string("hello world"));
    std::cout << u; // output: hello world

    MyVariant cu(boost::get<std::string>(u).c_str());

    int result = boost::apply_visitor( ToLengthVisitor(), u );
    std::cout << result; // output: 11 (i.e., length of "hello world")
    result = boost::apply_visitor( ToLengthVisitor(), cu );
    std::cout << result; // output: 11 (i.e., length of "hello world")

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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