7

I'm working on a micro-processor(Arduino) project. My library Foo is inherited from a existing library Basic. Later I extended the functionalities of Basic, into another class Advanced. However, Advanced stretches the hardware harder, making one of the already made demos unusable.

What I'm thinking about is as following:

class Foo:
#ifndef USE_BASIC
public Advanced
#else
public Basic
#endif
{
...
}

And put #define USE_BASIC in my demo code:

#define USE_BASIC
#include <Foo.h>

However Foo is not inheriting from Basic. Am I doing it wrong here? Or if there're alternatives to solve this problem?

  • 5
    You'll have to define USE_BASIC in every translation unit (.cpp + included headers) that includes Foo.h, before the #include <Foo.h> directive. Consider either using a compiler switch (that declares USE_BASIC automatically in every translation unit) or put the #define in the header. – dyp May 3 '13 at 12:24
  • 1
    @Named I don't agree. Headers are nothing special, the OP shows the example defining USE_BASIC before including the header. Compiler is run on the cpp, therefore the preprocessor sees the define first then includes the header (in the OP's example). – dyp May 3 '13 at 12:29
  • I can't understand the -1. – Ian Medeiros May 3 '13 at 13:04
17

A much more clean solution would be using template : let the compiler choose the base class depending on a template argument.

Here is one example:

 #include <type_traits> //for std::conditional


 //here you go with your own class
 template<bool UseAdvanced>
 class Foo : public std::conditional<UseAdvanced, Advanced, Basic>::type
 {
      //your code
 };

And here is how you would be using this class:

Foo<true>   fooWithAdvanced; //it uses Advanced as base class
Foo<false>  fooWithBasic;    //it uses Basic as base class!

Well that is one way to do that. But there are better ways. In particular, I would design the class template in the following way, in which the template argument would act as base class. This would be more flexible design.

 template<typename Base>
 class Foo : public Base
 {
      //your code
 };

So you can use Basic, Advanced or any other class as base class, as long as it supports the functionalities as required by Foo and its usage:

 Foo<Advanced>  fooWithAdvanced;
 Foo<Basic>     fooWithBasic;
 Foo<OtherBase> fooWithOtherBase;

Hope that helps.

  • 1
    thanks! It's quite good to know about these methods, may not fit my case though, not sure if adding templates into microprocessors will do it more good or evil... – Xun Yang May 3 '13 at 12:47
  • @XunYang: What "microprocessors" are you talking about? Did you mean preprocessor? If yes, then you don't need to use preprocessor with templates. – Nawaz May 3 '13 at 12:51
  • No, it's on Arduino, so this is kind of an embedded system – Xun Yang May 3 '13 at 12:51
  • @XunYang: I don't think template would cause any issue in Arduino, because once a class template is instantiated, it becomes just like any other ordinary class. – Nawaz May 3 '13 at 12:53
  • templates is not a default language feature for the Arduino compiler, so I'll need to bring in another 3rd-part library to use templates, which will take more storage space that's already at its limits... May worth a try though, for the next project :) – Xun Yang May 3 '13 at 12:57
2

This is a basic configuration problem that library vendors face constantly. For small projects, just #define USE_BASIC, when appropriate, in the foo.h header. For larger projects with lots of configuration options you might want to go to a configuration file that gets #included in every library header and define appropriate things there. In that case, I'd do all of the selection in the configuration header:

// uncomment to use `Basic` throughout:
// #define USE_BASIC
#ifdef USE_BASIC
typedef Basic FooBase;
#else
typedef Advanced FooBase;
#endif
  • 1
    I'm sure you meant typedef Basic FooBase; not typedef FooBase Basic; Same with the other typedef. – Nawaz May 3 '13 at 13:21
  • @Nawaz - yup, thanks. Don't know how I did something that silly. Fixed. – Pete Becker May 3 '13 at 15:05
1

Another solution would be to avoid inheritance and use patterns like Strategy that offer much more flexibility. So you can change the behaviour of Foo during runtime from Basic to Advanced.

  • That might not be possible if memory is limited or indirections hit performance too much. – dyp May 3 '13 at 12:30
1

Some people suggested the pattern strategy. If your choice is during compile-time, you should better use Policy-based design: http://en.wikipedia.org/wiki/Policy-based_design

This is roughly the same design as yours, but you use templates:

template <class Base> class YourClass : public base {
    ...
};

At use:

#ifdef BASIC
typedef YourFinalClass Yourclass<Basic>;
#else
typedef YourFinalClass Yourclass<Advanced>;
#endif

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