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When I go thru the code written by collegue, in certain place, they use:

this->doSomething(); //-->case A
doSomething(); //-->case B

In fact I'm not sure about the great usage of *this pointer...:(

Another question with argument matching:

obj.doOperation();  //-->case C
(&obj)->doOperation(); //-->case D

In fact both cases are performing the desired operation, is it simply a way to make the code look more complex?

What is your recommendation on the above two question? When is the appropriate time to use them and why?

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Why this is tagged with C? What has the term "argument matching" to do here? –  Jens Gustedt Sep 29 '10 at 15:52
Of course you should always use the most complicated looking method :) –  codymanix Sep 29 '10 at 16:40
I like the remark: simply a way to make the code look more complex (bolds mine), or paraphrasing, "a simple way to write complex code." Wow! –  Arun Sep 30 '10 at 4:57
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3 Answers

up vote 5 down vote accepted

This is not an answer to your question, but a note that both fragments may do different things:

namespace B { void doSomething() {} }

struct A {    
    void f()
        using B::doSomething;
        this->doSomething(); // call A::doSomething
        doSomething(); // calls B::doSomething

    int a;
    void g(int a)
        this->a = a; // assigns argument to member

    A* operator & () { return this; }
    void doOperation() {}
    void doSomething() {}

void g(A &obj)
    obj.doOperation();  // calls A::doOperation directly
    (&obj)->doOperation(); // calls A::operator & first
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And if you'd overloaded operator->, it would also call that in the second example! –  Oli Charlesworth Sep 29 '10 at 15:45
The former is a possible argument against using using! –  Oli Charlesworth Sep 29 '10 at 15:46
@Oli: "if you'd overloaded ..." no. It would be called if I'd write obj->doOperation(). "The former is a..." it's a very weak argument. –  ybungalobill Sep 29 '10 at 15:48
Good point on operator->. Regarding using, I'd say it's a fairly canonical argument; cluttering up the local namespace which then leads to confusion, rather than explicit disambiguation (i.e. B::doSomething()). –  Oli Charlesworth Sep 29 '10 at 15:53
@Oli: Agree in this situation, but not against using using in general. –  ybungalobill Sep 29 '10 at 15:55
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Cases B and C are always the appropriate way. Cases A and D are equivalent and do nothing different.

A few exceptions to that:

  • If the class has an overloaded operator& that does surprising things, then case D could do something different that C. Actually having classes which do this is not recommended, since it would be confusing.
  • If there is a local variable doSomething (or something else of that name in the local scope), then A would refer to a different doSomething than B. Again it isn't recommended to get yourself into such a situation, better give different names to different things.
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C and D are different. If doOperation is virtual, case D will perform the virtual call, case C will perform a non-virtual call if obj is not a reference. This assumes however that operator& and operator-> have not been overloaded.

I tend to use A over B since there may be a local doSomething identifier. Inside template code, things may get worse (although I can't come with a precise example right now). It is a good habit to take.

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"non-virtual call if obj is not a reference" — Hmmm.... Can there be a difference between virtual and non-virtual call if obj is not a reference? Isn't it get resolved to the same function? –  ybungalobill Sep 29 '10 at 16:02
@ybungalobill: nope. if obj is a variable of class C, obj.doSomething() will always resolve to obj.C::doSomething(). If obj is a reference, it will perform the virtual dispatch. –  Alexandre C. Sep 29 '10 at 16:03
If obj is a variable, virtual call (&obj)->doSomething() will get resolved to the same function as the non-virtual call obj.doSomething(), but one call is virtual and the other is non-virtual I guess :) –  Maciej Hehl Sep 29 '10 at 16:24
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