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I've done a bunch of Java coding recently and have got used to very specific package naming systems, with deep nesting e.g. com.company.project.db. This works fine in Java, AS3/Flex and C#. I've seen the same paradigm applied in C++ too, but I've also heard that it's bad to view C++ namespaces as direct counterparts to Java packages.

Is that true, and why? How are namespaces/packages alike and different? What problems are likely to be seen if you do use deep nested namespaces?

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What advantage(s) do you see in using deeply nested namespaces? –  anon Jan 21 '10 at 9:45
    
The same as in any other language like Java, AS3, C#,... I don't see the point of your question. –  John Jan 21 '10 at 9:48
    
My point is that I can't see any, and would be interested to know what an obvious fan finds useful about them. –  anon Jan 21 '10 at 9:49
    
@Neil: it offers a great way of hierarchically structuring your code. It may not have caught on in C++ (yet!) but it is tremendously helpful. The finer-grained organization also helps to prevent name conflicts much better than flat namespaces. Namespaces/packages introduce a better modularity than can be achieved through header files alone. –  Konrad Rudolph Jan 21 '10 at 9:52
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Although I use namespaces in my own code, I have come across remarkably few cases where they actually do prevent a name clash, so there is no need for complex hierarchies to solve this problem. And I don't find hierarchies a very useful design tool in any case - if we have learned anything from OOP, it is that complex hierarchies are not the answer. –  anon Jan 21 '10 at 9:56

6 Answers 6

up vote 18 down vote accepted

In C++ namespaces are just about partitioning the available names. Java packages are about modules. The naming hierarchy is just one aspect of it.

There's nothing wrong, per-se, with deeply nested namespaces in C++, except that they're not normally necessary as there's no module system behind them, and the extra layers just add noise. It's usually sufficient to have one or two levels of namespace, with the odd extra level for internal details (often just called Details).

There are also extra rules to C++ namespaces that may catch you out if overused - such as argument-dependent-lookup, and the rules around resolving to parent levels. WRT the latter, take:

namespace a{ namespace b{ int x; } }
namespace b{ string x; }
namespace a
{
  b::x = 42;
}

Is this legal? Is it obvious what's happening? You need to know the precendence of the namespace resolution to answer those questions.

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1  
Interesting. Could you add some links about "dependent-lookup" and "resolving parent levels"? Never heard of it. –  sleske Jan 21 '10 at 11:14
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@sleske - there ya go –  philsquared Jan 21 '10 at 11:41
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@sleske: the full explanation is much longer than what you can actually write in a comment. The basic idea is what when the compiler finds a non-fully-qualified identifier it will try to match it starting in the current namespace, and if not found it will try the enclosing namespace... all the way to the root. This is extended by ADL (Argument Dependent Lookup), so that if you call a function on a set of arguments, it will also try to match the method identifier in the arguments namespaces. f( std::string(), ::ns::myclass() ) will also look for f in std and ns namespaces. –  David Rodríguez - dribeas Jan 21 '10 at 11:52
    
Thanks for the explanations. As for ADL: that seems mindbogglingly complicated. I wonder if that was really necessary in the language's design. I prefer the Java approach (either unqualified, or fully qualified). Well, C++ has never been excused of being too simple... –  sleske Jan 21 '10 at 16:56
    
The original idea behind ADL was to let you use operators that had been overloaded within the namespace that the first operand lived. When it was noticed that this led to an enhanced interface principle (declare things that "operate" on other objects within the same namespace) it was extended to any function. There is a certain elegance to it, but at the same time it is subtle and often surprising (and used to be sporadically supported) –  philsquared Jan 22 '10 at 8:31

Java packages are not nested, they're flat. Any apparent nesting is nothing more than a naming convention.

For example, the package com.company.project.db has no relation whatsoever to com.company.project or com.company.project.db.x. Code in com.company.project.db has no more access to code in com.company.project.db.x than would code in a.b.c.

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Interesting, I'd never thought about it but assumed package-level scope/visibility would apply to sub-packages. So a package level class in a.b.c is invisible to a.b.c.d? –  John Jan 21 '10 at 10:08
    
BTW, Java enforces nesting in the file structure, doesn't it? Not what you meant, but still important... java packages are not arbitrary text you can type in (IIRC) –  John Jan 21 '10 at 10:09
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@John: On your first point: correct. On your second point, java tools generally enforce a directory structure that looks like the package naming, yes, but again, it's nothing more than a convention, albeit a strong one. –  skaffman Jan 21 '10 at 10:24
    
True, but that doesn't answer the question... –  sleske Jan 21 '10 at 11:13
1  
[cont] On the other hand, the JVM says "Each Java virtual machine implementation determines how packages, compilation units, and subpackages are created and stored[...]" so the rule of putting class files into a directory hierarchy is just a convention of the ClassLoader which Sun's runtime implementation happens to use. OK, enough nitpicking :-). –  sleske Jan 21 '10 at 17:12

In C++, the basic unit of design and implementation is the class, not the namespace. Namespaces were intended as a means of preventing name clashes in large libraries, not for expressing concepts.

Classes have several advantages over namespaces:

  • they can have constructors and destructors
  • they can have private members
  • they cannot be re-opened

However, I would look twice at any deeply nested relationship. That is really not a good way of designing software, and leads to unreadable code, whether you juse classes or namespaces.

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I think you’re comparing the wrong units. Packages are much more like header files in C++ than like classes. The basic unit of modularity in C and C++ is header files and compilation units, not classes. –  Konrad Rudolph Jan 21 '10 at 9:56
    
"they cannot be re-opened" - some would see that as a disadvantage ;-) –  philsquared Jan 21 '10 at 9:57
    
@Konrad - I'd be careful about comparing header files with modules. Header files are very much a pre-processor thing. If anything the most closely corresponding entity we have right now is the translation unit (cpp file) - although the symbols are usually exported via header files - but that is not a necessity –  philsquared Jan 21 '10 at 9:59
    
@Phil You are not suggesting C++ embraces duck typing, I hope! –  anon Jan 21 '10 at 10:00
    
@Neil - where do you get that idea from? –  philsquared Jan 21 '10 at 10:02

You can have nested namespaces in C++.

They don't work the same as in java, though, obviously. Java packages are really much better defined and there is no real static init weirdness. With C++ namespaces are helpful but still have a fair bit of danger involved.

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4  
Please clarify this "danger" you mention. –  anon Jan 21 '10 at 11:06

I think there is something missing in the previous answers, and it is one of the reasons I really like C++.

Imagine you are programming a graphical application and suddenly you realize that there is something common among all your widgets. You want all of them to have a new function. What do you do?

1) Edit the base widget class? OK, but most likely you do not have access to it. Maybe there is a licensing problem that prevents you from doing your own modification. Even if you can just do it, if it is something that only makes sense for your project, the authors will not include it in their future release, and upgrading the toolkit will be more painful

2) Create an interface class / multi-inheritance? Depending on your existing code it will be more or less of a pain to update every single class related with a widget. Do this and your code will cost more to maintain because everyone defining a new class must know that they are suppose to inherit from your interface. Becoming dependent of other people discipline is really risky.

The wonderful thing of C++ namespaces here is that you have an extra way to encapsulate stuff within an already existing system. Not only you can encapsulate within already existing libraries that you cannot edit, you can encapsulate similar concepts that you cannot easily insert into your hierarchy of classes/objects.

Java forces you to focus more on a pure OOP design. Sure that I am telling you might be a dirty hack and not elegant, but there are lots of lazy people programming who do not spend time fixing their designs.

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I'll throw in a couple of things I've heard but don't know the truthfulness of, please help confirm/dispel them.

  1. C++ performance is (somehow) affected by long fully-specified method names e.g namespace1::namespace2::namespace3::classX::method123()

  2. You might hit a limit on allowed symbol length in the compiler/linker

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3  
1) No - namespaces are a purely compile-time thing. 2) Possible - but most C++ compilers support very long names - they have to, or templates wouldn't work. –  anon Jan 21 '10 at 11:28
    
I'll back Neil up here on both counts and add that the symbol length limit is likely to be per namespace, rather for the whole qualified hierarchy. –  philsquared Jan 21 '10 at 11:34
    
Even when you throw RTTI into the mix? –  John Jan 21 '10 at 11:45
    
Do you mean that a type identifier you get from RTTI might be very long? Possible I suppose (the type id does not have to match the name the programmer provided), but very little C++ code uses this language feature. –  anon Jan 21 '10 at 11:53

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