I'm trying to implement a hardware abstraction layer (HAL) to access several similar devices using all the same interface. The question is, how i should implement the dynamic switching of the implementation for one device class vs. another.
The following code shows how i do that actually. However, i am not sure if this implementation is safe enough to stay. Especially I'm unsure if it is the right way to use 'shared_ptr' for switching the implementation or if it would be better to use a factory pattern or even more abstraction. What would you recommend to implement such a dynamic HAL?

#include <iostream>
#include <string>
#include <memory>

using namespace std;

// Common HAL base class
struct Base {
  virtual string Identify() {return string("Baseclass");}
  Base() {cout << "Base Constructor" << '\n';}
  virtual ~Base() {cout << "Base Destructor" << '\n';} 
  // Important to make destructor virtual so that destructor of derived classes is invoked, too

// HAL Device 1 Implementation
struct Derived1: public Base {
  string Identify() override {return string("Derived 1 class");}
  Derived1() {cout << "Derived1 Constructor" << '\n';}
  ~Derived1() {cout << "Derived1 Destructor" << '\n';}

// HAL Device 2 Implementation
struct Derived2: public Base {
  string Identify() override {return string("Derived 2 class");}
  Derived2() {cout << "Derived2 Constructor" << '\n';}
  ~Derived2() {cout << "Derived2 Destructor" << '\n';}

// Switches implementation via setting a pointer to a class instance
struct ImplementationDispatcher {
  shared_ptr<Base> Impl = make_shared<Base>();

  Base& Implementation() {return *Impl;}
  void SetImplementation(shared_ptr<Base> impl) {Impl = impl;}

// Top level class which calls HAL device functions
struct Actor {
  ImplementationDispatcher HAL;

  void Work() {cout << HAL.Implementation().Identify() << '\n';}
  void SetActor(shared_ptr<Base> newImpl) {HAL.SetImplementation(newImpl);}

int main()
  Actor actor;


I define a base class with common functionality for all devices (In the case of this example this is only the Identify() method). Then i derive classes for device implementations Derived1 and Derived2. I want to switch between those implementations in the main code (e.g. device selector or sth similar. In the example this is just done by calling a setter from the main).
To implement the switching i added a class ImplementationDispatcher which holds a shared_ptr to the current implementation for isolation purposes, similar to the pimpl-idiom. The switching is done by feeding the switcher class with new instances of subclasses from base.


Seems like overengineering. Simply implement your abstract device and pass a proper instance to Work. At least in your example, there is simply no need for the ImplementationDispatcher.

  • Thank you for your answer. I see you point. However, the Work method should not 'know' which implementation it calls. The actual implementation is meant to be set in some UI handler or initialization code at a different place. I could hold a shared_ptr<Base> Impl directly in the Actor class, but then the Actor depends on the way how the implementation is switched. – pqans Jun 4 '20 at 7:27
  • 1
    Tha'ts perfectly doable: just have Work(Base&), and you can implement class Device1: public Base, class Device2: public Base, etc. What I am suggesting is akin to the Visitor pattern, when you decouple your work from the actual worker. – jvd Jun 4 '20 at 7:30
  • OK, thank you again. I'll take a look at the visitor pattern. Maybe i just meant to implement the correct design pattern although visitor may be suited better. – pqans Jun 4 '20 at 7:44
  • I think the visitor hint was very helpful. – pqans Jun 5 '20 at 11:28

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