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Assume you have a class T with two member functions

  1. char foo() const {...}
  2. char foo() {...}.

It is my understanding that when called for a constant T, we resolve to (1); and for a non-constant T, we resolve to (2). 

  1. is that correct?   
  2. which rule is invoked in this resolution? (reference to standard great, but a helpful brief summary appreciated) 


  1. I tried to google for it, but old hits I got on SO were cases for other overload resolutions involving const. However, link to an old SO actually explaining the above obviously great.     

  2. This came up when re-reading Stroustrup's "The C++ programming language", 2nd edition ("Special Edition"), String/Cref example in section 11.12, p. 296. As Stroustrup is so precise, the answer might be in previous sections, but I fail to see where. Reference to sections in Stroustrup very welcome too (2nd edition best as this is the one I have). Section 10.2.6 introduces const members as those "that don't change an object's value", which hints at the answer, but doesn't strike me as a clear resolution directive.

share|improve this question
On a high level view, you can think on the transformation that the compiler will do. The member functions would be transformed into: char foo(T const *this) and char foo(T *this) (details aside). – David Rodríguez - dribeas Jan 30 '14 at 22:57
@David Rodriguez - dribeas: I see; and for pointer type arguments, const p and p are distinguished in overload resolution, correct?This does give some intuition. – gnometorule Jan 30 '14 at 23:02
I’ve reformatted your question properly. Please take a moment to read the Markdown formatting help. – Konrad Rudolph Jan 30 '14 at 23:11
@Konrad Rudolph: appreciated. Problem is when I use my iPhone as I'm away from my computer: I'm familiar with proper formatting, but phone is known to add/remove non-printables. It looks right on my phone, but isn't. I usually edit myself once at home, but didn't want to wait until midnight to ask question. – gnometorule Jan 30 '14 at 23:14
The additional T* / T const* parameter is called the implicit object parameter (it's actually a reference, though); I don't see why this should be a high level view. There are some details different between the implicit object parameter and actual function parameters, but AFAIK the greater part of overload resolution treats them equally. See [over.match.funcs] – dyp Jan 30 '14 at 23:15
up vote 4 down vote accepted

In N3242 (the standard draft I have on hand), 13.3.1 paragraph 4 says

the type of the implicit object parameter is "lvalue reference to cv X” for [non-static member] functions declared without a ref-qualifier or with the & ref-qualifier

this means that type of the implicit object argument, which occurs first, is an "lvalue reference to cv X", where X is the class, and cv is the cv-qualification of the member variable (i.e. const or non-const). Then, overload resolution continues as normal.

To review the overload resolution process, first, both are listed as "candidate" functions as they are in the correct scope and have the correct name.

In the const case, only the const member function gets to the next step (called "viability"), so it's automatically the best choice. The non-const member function is not viable because you can't convert a const reference into a non-const reference.

In the non-const case, both the const and non-const versions are viable, but the non-const one is "better" because of the fifth rule of paragraph 3, quoted below.

Standard conversion sequence S1 is a better conversion sequence than standard conversion sequence S2 if ...

S1 and S2 are reference bindings, and the types to which the references refer are the same type except for top-level cv-qualifiers, and the type to which the reference initialized by S2 refers is more cv-qualified than the type to which the reference initialized by S1 refers.

share|improve this answer
Your explanation makes sense, but (a) shouldn't the quote continue? It seems to be "if type is (...)", but appears to miss "then (...)"; (b) the quote applies to tmember functions, correct? (quote says function only. – gnometorule Jan 30 '14 at 23:29
sorry, that got lost as it was mentioned in the sentence above. Does it make sense now? – rmcclellan Jan 30 '14 at 23:32
I see you already addressed (b) (thanks); what about (a)? (or tell me if/why (a) doesn't matter) – gnometorule Jan 30 '14 at 23:34
sorry, I don't understand. I added in more context recently. Basically it's saying, for non-static member function declared without a ref-qualifier (your case), the implicit object parameter is a reference to X with whatever cv state the function was declared with. I don't see any conditionals that haven't been met. – rmcclellan Jan 30 '14 at 23:36
after that point, the overload resolution treats the implicit object parameter exactly the same as any other argument, only that it occurs first. – rmcclellan Jan 30 '14 at 23:36

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