Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As part of the Roslyn documentation on CodePlex, there's a page called Language feature implementation status, with planned language features for C# and VB.

One feature I couldn't wrap my head around was private protected access modifier:

private protected string GetId() { … } 

There is also a page of C# Language Design Notes, which explains many new features, but not this one.

Eric Lippert said in a comment:

Your error is in thinking of the modifiers as increasing restrictions. The modifiers in fact always decrease restrictions. Remember, things are "private" by default; only by adding modifiers do you make them less restricted.

What is the meaning of private protected? When might I use it?

share|improve this question
2  
Note that there is information about it under the VB language design notes. –  Jesse Good Apr 4 at 8:13
2  
It is a mapping to MethodAttributes.FamANDAssem. C# has a strange mapping of internal, it uses (Private|FamANDAssem). And internal protected maps to (Private|Family). The CLR attributes are weird. –  Hans Passant Apr 4 at 9:39
16  
This proposed feature will make my comment incorrect. –  Eric Lippert Apr 4 at 15:54
    
The C# design team has published a survey with suggested alternative syntax for this feature. Some of these are interesting, like protected & internal, assembly protected or proternal (I hope some of these are jokes). There is also the Discussion thread with some nice insights. –  Kobi May 1 at 10:40
1  
Feature is now marked withdrawn in the Language Feature implementation status! Personally I like the idea of this access level and I think its a useful feature. I want to use the protected to keep my code according to the class design, but I don't want others to write hacky sublasses that get access to this members. IMO the best solution would be if we could write protected | internal and protected & internal –  Felix Keil Aug 14 at 8:39

5 Answers 5

up vote 81 down vote accepted

According to "Professional C# 2008" by De Bill Evjen and Jay Glynn, page 1699:

private protected - "only derived types within the current assembly"

C++/CLI has a similar feature - Define and Consume Classes and Structs (C++/CLI) > Member visibility:

private protected -or- protected private - Member is protected inside the assembly but private outside the assembly.

share|improve this answer
58  
So it's "protected and internal" instead of "protected or internal"? –  Mehrdad Apr 4 at 8:16
    
@Mehrdad exactly. –  Petr Abdulin Apr 4 at 8:19
2  
Will now be possible to have a member which is accessible to derived classes accept or return things of internal type without requiring the member to be itself exposed to everything in the assembly? –  supercat Apr 4 at 15:53
    
Thanks! I didn't think about that. I actually has cases I would have used that modifier, and fell back on internal. –  Kobi Apr 4 at 18:40
3  
The existence of this proposal/feature seems to suggest that internal visibility (related to where the class is defined) is really orthogonal to public/protected/private visibility (related to inheritance) and that, perhaps, internal should be its own modifier separate from public/protected/private. –  jpmc26 Apr 4 at 19:10

Here are all access modifiers in Venn diagrams, from more limiting to more promiscuous:

private:
enter image description here

private protected: ( suggested feature - currently not available in C#)
enter image description here

internal:
enter image description here

protected:
enter image description here

protected internal:
enter image description here

public:
enter image description here

share|improve this answer
    
Source image: Access Modifiers.pdn‌​. I used the aptly named Paint.Net. –  Kobi Apr 9 at 9:44
1  
Where have these diagrams been all my (C#) life? They are excellent - thank you! –  Jon Peterson May 8 at 19:41
1  
This answer does not have enough up votes. –  nexus Jul 14 at 22:33

This is just to provide a graph (made with http://ashitani.jp/gv/) of the different accessibility levels (images do not fit in comments).

digraph diagram of C# access levels

Each arrow means "is more restrictive than".

The CLR names are Private, FamilyANDAssembly, Assembly, Family, FamilyORAssembly, Public.

share|improve this answer
    
It might just be me, but the arrows seem to be going in the 'less restrictive than' direction. –  acarlon Apr 8 at 21:27
2  
@acarlon Yes, so a → b in the diagram means "a is more restrictive than b", so you can "read" the arrow as "is more restrictive than" (that was what I tried to explain), so the arrow points in the least restrictive "direction". The opposite convention for the arrows could have been just as good, by the way, but I had to choose one convention. –  Jeppe Stig Nielsen Apr 8 at 22:13
    
thanks, agree it makes sense from that perspective. –  acarlon Apr 8 at 22:28

It's just a guess, but from a name you could possibly guess it's a more restricted version of private, (or less relaxed version of protected if you wish). And only reasonable variant of it is restricting protected behaviour to assembly.

Possible usage: then you want to have protected for internal implementation, but not for external uses (and you don't want sealing the class).

P.S. It always existed in CLR, but not in C#. It's a combination of protected and internal, quote:

CLR also supports “Family and assembly” access type. This means that the method is accessible from within the declaring type, nested and derived types but only if they’re declared in the same assembly. Well, apparently C# team didn’t think of this as a very useful feature so it’s not supported in this language.

share|improve this answer
    
+1 for the CLR comment - I spend so much time in C# and so little in the other .NET languages these days that I sometimes forget they are not the same thing. –  brichins Apr 9 at 0:15

"May be" only visible to subclasses that are in same assembly. This makes it a little restricted than protected.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.