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  • What are the pros and cons of using Plain Old Data (POD) structs\classes in C++?
  • In what cases should one prefer using them over non-PODs?
  • Specifically, do PODs have advantages while working with serialization frameworks? Perhaps when working cross-platform and cross-language?
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There is one advantage of POD in conjunction with constants.

If you declare/define a constant and you use a POD type for it the whole POD is put into the (constant) data section of the executable/library and is available after loading.

If you use a non-POD the constructor must run to initialize it. Since the order of running constructors of static classes in C++ is undefined you cannot access static A from static B's constructor or any code that is invoked from within static B's constructor.

So using PODs in this case is safe.

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1  
"the order of running constructors of static objects in C++ is undefined" - if they're in different translation units. – Steve Jessop Dec 24 '10 at 10:13
    
@Steve: Yes...sure. – mmmmmmmm Dec 24 '10 at 14:46

If you have a gazillion small objects, ensuring that those objects are POD can be a huge advantage.

  1. You can calloc() or malloc() a large chunk of them, saving you a gazillion calls to constructors.
  2. For persistence, rather than streaming out the objects one at a time, you can use fwrite() and fread() entire chunk of them for speed.

The disadvantage is, you have to keep your mind flexible to handle non-OOP PODs in your code. PODs are a fallback from old-style C code where you know and care about the layout of your data. When that layout is well-defined, you may optimize by working chunks of memory rather than lots of little pieces.

Please note that what I describe above applies to trivially laid out structures. In other words, if you call type_trait's std::is_trivially_copyable() on this type, you will get true. The requirements for POD are actually even stronger than that of trivially-copiable structures. So what I just described above applies to all PODs and even some non-PODs which happen to be trivially-copiable.

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PODs can be used in C interfaces which means that you can have a library written in C++ but with a C interface which can advantageous.

The disadvantage is that you can't use a constructor to put burden of initialization onto the type itself - the user code will have to take care of that.

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pods have some subtle advantage. I don't know any portable way to calculate memory size required for new[] operator if array elements are non-pod, so it is dificult to use safely placement new[] operator for such an array. If nonpod structure has a destructor, new[] needs extra space to store array size, but this extra size is implementation-dependent (althogh usually it is sizeof(size_t) + (perhaps) some padding to provide proper alignment)

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