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I need a table that maps codes to C++ member functions. Suppose we have this class:

class foo
  bool one() const;
  bool two() const;
  bool call(char*) const;

What I want is a table like this:

  { “somestring”,  one },
  { ”otherstring”, two }

So that if I have a foo object f, f.call(”somestring”) would look up “somestring” in the table, call the one() member function, and return the result.

All of the called functions have identical prototypes, i.e., they are const, take no parameters, and return bool.

Is this possible? How?

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This is all very doable by hand. a more interesting question is what is the best way to do automatically. –  Dan Jan 26 '12 at 17:37

5 Answers 5

up vote 2 down vote accepted

Since you only need to store members of the same class, with the same arguments and return types, you can use pointer-to-member-functions:

bool foo::call(char const * name) const {
    static std::map<std::string, bool (foo::*)() const> table 
        {"one", &foo::one}, 
        {"two", &foo::two}

    auto entry = table.find(name);
    if (entry != table.end()) {
        return (this->*(entry->second))();
    } else {
        return false;

That uses the new initialisation syntax of C++11. If your compiler doesn't support it, there are various other options. You could initialise the map with a static function:

typedef std::map<std::string, bool (foo::*)() const> table_type;
static table_type table = make_table();

static table_type make_table() {
    table_type table;
    table["one"] = &foo::one;
    table["two"] = &foo::two;
    return table;

or you could use Boost.Assignment:

static std::map<std::string, bool (foo::*)() const> table = 
        ("one", &foo::one)
        ("two", &foo::two);

or you could use an array, and find the entry with std::find_if (or a simple for loop if your library doesn't have that yet), or std::binary_search if you make sure the array is sorted.

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+1 for using auto. Otherwise one have to write std::map<std::string, bool (foo::*)() const>::iterator which is too ugly! –  Nawaz Jan 26 '12 at 17:34
I like the elegance and simplicity of this method, but I didn't think it was possible to initialize a map like that? MSVC doesn't like it, anyway. –  chrisd Jan 27 '12 at 14:51
@chrisd: That's the new C++11 initialisation syntax. I've added a few alternatives if your compiler doesn't support it. –  Mike Seymour Jan 27 '12 at 15:08
Got it, thanks. I had already implemented this by initializing the map from a table similar to the one shown by Nawaz below, but I was trying to understand your original syntax. I guess it's time to look into C++11. Thanks again. –  chrisd Jan 27 '12 at 16:45

Yes, it's possible, using pointer to member syntax.

Using the prototypes you supplied, the map would be.

std::map< std::string, bool( foo::*)() const>

It would be called with this syntax


That odd-looking ->* operator is for pointer to member functions, which can have some odd considerations, due to inheritance. (It's not just a raw address, as -> would expect)

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@MooingDuck: Thanks. I overlooked that const. –  Drew Dormann Jan 26 '12 at 17:30


struct foo_method
   std::string name;
   bool (foo::*pfun)() const;

foo_method methodTable[] = 
  { “somestring”,  &foo::one },
  { ”otherstring”, &foo::one }

void foo::call(const char* name) const
   size_t size = sizeof(methodTable)/sizeof(*methodTable);
   for(size_t i = 0 ; i < size ; ++i)
       if ( methodTable[i].name == name )
           bool (foo::*pfun)() const = methodTable[i].pfun;
           (this->*pfun)(); //invoke
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I think I'd prefer a map to a table, but the idea is valid. –  Mooing Duck Jan 26 '12 at 17:26

I would go with boost::function with std::map. Concretely, something like this :

typedef boost::function<bool()> MyFunc;
typedef std::map<std::string, MyFunc> MyFuncMap;

Then, given an instance of MyFuncMap, you could just do map["something"](). Then you could wrap that in a class that overloads operator(). You could use function pointers/references, but I prefer using boost::function because it allows me to bind pointers to member functions (using boost::bind) or use other function objects. You can also test boost::function in conditionals as you would with regular function pointers.

Here is the relevant documentation :

Good luck!

Edit: Regarding your question about the const member and boost::function, here's an example :

#include <boost/function.hpp>
#include <boost/bind.hpp>

typedef boost::function<bool ()> FuncPtr;

struct Test
    bool test() const
        std::cout << "yay" << std::endl;

int main(int argc, char **argv)
    Test t;
    FuncPtr ptr = boost::bind(&Test::test, &t);
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const is part of the function's type, but I don't know how that interacts with boost::function. Should it be part of the declaration? –  Mooing Duck Jan 26 '12 at 17:28
Just looked into it, it seems that boost::function<bool ()> will do for both const and non-const members. Not quite sure how or why, but it works. –  migimunz Jan 26 '12 at 17:37

I'd just like to add that a pointer to a member function is meaningless without having an instance of a class on which to call it. The situation you've described accounts for this (and I think you know this), however in other situations, it may be necessary to encapsulate the function pointer with a pointer or reference to the instance to which it corresponds in some sort of functor construct.

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