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Introduction

Sometimes it is useful to have dynamic message passing as in Objective-C. The small header presented below allows any class to contain a dynamic message map that can be used to add methods dynamically to an object.

Background

Objective-C is deemed more flexible than C++ because it allows a form of dynamic dispatch known as message passing.

Message passing is a form of dynamic dispatch that does not require implementation of a specific interface type. When sending a message to a target object, it is unknown to the compiler if the message can be handled by the object or not. It is only during the execution of the program that conformance to an interface is discovered.

Message passing is quite flexible because it does not require a lot of planning. Objective-C has been praised for this feature as more flexible than C++. This article demonstrates how easy it is to do the same in standard C++ (c++0x).

Using the Code

Using the code is very easy. The following steps have to be followed:

Include the header "mp_object.hpp" in your project.

Inherit from class mp_object .

. Add dynamic methods to your object by using the method ' add_method '.

In order to add methods to an object, you need a prototype function. A prototype function can be any free-standing function. The following code is an example of how to declare prototypes and add dynamic methods to your code:

#include < iostream > #include " mp_object.hpp" using namespace std; void draw() {} void setColor( int color) {} class rect : public mp_object { public : rect() { add_method(::draw, &rect::draw); add_method(::setColor, &rect::setColor); } void draw() { cout << " rect

" ; } void setColor( int color) { cout << " rect color = " << color << "

" ; } }; class circle : public mp_object { public : circle() { add_method(::draw, &circle::draw); add_method(::setColor, &circle::setColor); } void draw() { cout << " circle

" ; } void setColor( int color) { cout << " circle color = " << color << "

" ; } };

You can invoke an object dynamically like this:

int main() { rect r; circle c; r.invoke(draw); c.invoke(draw); r.invoke(setColor, 10 ); c.invoke(setColor, 20 ); return 0 ; }

The output of the above is:

rect circle rect color = 10 circle color = 20

Implementation Details

The implementation is very simple, really. The class mp_object has a hash map of prototype function pointers to method pointers. When a method is invoked, the appropriate method pointer is retrieved from the prototype function and executed.

In order to minimize memory usage, the class mp_object uses copy on-write: a method map is shared between many instances, until it is modified. If modified, the method map is copied and the change is applied to the copy.

The mp_object code is 39 lines of code, thanks to C++0x. If a previous version of C++ was used, then a lot of boilerplate code would be needed for doing essentially the same thing.

The code can easily be expanded with new capabilities; for example, querying an object if it supports a specific method or a form of reflection (combined with macros). These are beyond the scope of this short article, though.

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