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In another question I incorrectly used the term POD to refer to data types that aren't actually POD types (on account of having a constructor). Now, I've looked through the standard and couldn't find a proper name for what I want. Nor can I actually find a guarantee that copying is actually allowed.

The data type I mean is a POD, but may contain functions, including constructors, but nothing that should alter its alignment or size characteristics when compared to an equivalent POD type.

In section 3.9 of the standard it states that POD data can be copied with memcpy, either to another object, or to character data and back. No such guarantee is ever made of non-POD data.

However, the object representation of an object is defined in the same section. It is defined such that one would believe any two objects of the same type could be safely copied via memcpy.

So my questions are:

  1. Is the copy with memcpy actually guaranteed to be safe for such objects?
  2. If yes, then why is there a special note about memcpy and POD?
  3. Is there a name for this type of data which is memcpy safe?

A simple example of the type of object I mean:

struct ex_struct
{
  int a,b,c,d;
  ex_struct() : a(123) { }
}

Reading the C++0x draft, my struct would appear to be a trivially copyable class (9.1). I believe that implies memcpy would be safe.

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The other question is - Why do you think there is an advantage in using memcpy, and why do you think the compiler will not see that? –  Bo Persson Mar 25 '11 at 10:08
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remove the constructor, and move the member initialization into a init() member function, and your type will be a true POD –  smerlin Mar 25 '11 at 10:14
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@smerlin: Except that that is a horrid idea. –  Lightness Races in Orbit Mar 25 '11 at 10:26
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@Nim: fully statically-allocated would be better. C++ doesn't care where such objects physically go. –  Lightness Races in Orbit Mar 25 '11 at 10:26
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@edA-qa mort-ora-y: Not really. You're flagrantly ignoring padding, endianness and type width across platforms. You also didn't address my question: why not use std::copy? –  Lightness Races in Orbit Mar 25 '11 at 10:35

4 Answers 4

up vote 5 down vote accepted

In C++0x, the concept of PODness is broken out into several individually useful categories:

A trivially copyable class is a class that (draft 3242, section [class]):

  • has no non-trivial copy constructors (12.8),
  • has no non-trivial move constructors (12.8),
  • has no non-trivial copy assignment operators (13.5.3, 12.8),
  • has no non-trivial move assignment operators (13.5.3, 12.8), and
  • has a trivial destructor (12.4).

A trivial class is a class that has a trivial default constructor (12.1) and is trivially copyable.

[ Note: In particular, a trivially copyable or trivial class does not have virtual functions or virtual base classes. — end note ]

A standard-layout class is a class that:

  • has no non-static data members of type non-standard-layout class (or array of such types) or reference,
  • has no virtual functions (10.3) and no virtual base classes (10.1),
  • has the same access control (Clause 11) for all non-static data members,
  • has no non-standard-layout base classes,
  • either has no non-static data members in the most derived class and at most one base class with non-static data members, or has no base classes with non-static data members, and
  • has no base classes of the same type as the first non-static data member.

The requirements for trivial constructors, assignment operators, and destructor are scattered throughout section 12 "Special Member Functions" [special].

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So my struct is trivially copyable, meaning I may use memcpy on it. This also means that if I derive from such a class I can still remain trivially copyable so long as my derived class would also be. –  edA-qa mort-ora-y Mar 28 '11 at 4:09
    
Yes, C++0x guarantees that it is safe to use memcpy on instances of such a class. As long as all your subobjects (including base classes) are trivially-copyable, your composite also will be by default (until you start adding copy-constructors, etc). –  Ben Voigt Mar 28 '11 at 4:12

The notion of POD in C++03 is too strict indeed. In C++0x POD is generalized to include the objects you described too. So don't worry, you can name it POD. See a nice summery on Wikipedia.

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The notion of POD isn't significantly changed, but a new notion, layout compatible, was introduced which covers his case. –  James Kanze Mar 25 '11 at 10:09
    
according to that wikipedia article, the ex_struct type of the OP is no POD, since it has a non-trivial constructor. –  smerlin Mar 25 '11 at 10:13
    
-1 as smerlin said, the new definition of POD doesn't fit his requirements at all. –  Lightness Races in Orbit Mar 25 '11 at 10:28
    
I fail to see why the C++0x definition is "better" than C++03's one. OP's example is not a POD, but if it has a trivial default constructor and a non trivial non default constructor setting a to zero, then it is a POD ? The definition sucks as much as the old one. Anyways we are only interested here in standard-layout classes, which seems a good concept. –  Alexandre C. Mar 25 '11 at 10:33
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It's not POD, nor on C++0x, but C++0x relaxes the memcpy preconditions from POD to simple trivially copyable. That's why the C++0x definitions are "better". –  Ben Voigt Mar 28 '11 at 4:14

One issue with your example is that it has an implicitly-declared, trivial destructor. Despite the name, the implementation is not AFAIK forbidden from doing something in a trivial destructor of a non-POD class.

So legally on some weird implementation, your class ex_struct could exhibit runtime behavior equivalent to the following:

struct weird_ex_struct
{
  int a,b,c,d;
  weird_ex_struct() : a(123), aptr(&a) { }
  weird_ex_struct(const weird_ex_struct &o) : 
    a(o.a), b(o.b), c(o.c), d(o.d), aptr(&a) {}
  weird_ex_struct &operator=(const weird_ex_struct &o) {
    a = o.a; //etc
    aptr = &a;
    return *this;
  }
  ~weird_ex_struct() {
    if (aptr != &a) std::terminate();
  }
private:
  int *aptr;
}

I say runtime behavior, because weird_ex_struct has a non-trivial destructor, and that affects how it can legally be used (not in unions, for one thing). Also I think there are standard ways to detect the existence of private data members at compile-time. But as long as the implementation can keep this stuff secret unless you do something undefined (memcpy a non-POD object), it's then allowed to spring the surprise on you later.

Clearly if weird_ex_struct is copied with memcpy, then something strange will happen when it's destroyed.

There's no obvious reason for an implementation to do this, but the standard left non-POD classes wide open for implementations to do odd things. Not sure whether this is because they thought anyone would think of some useful weirdness, or just because they didn't get around to defining standard-layout like C++0x does.

[Edit: Johannes has pointed that I'm wrong about trivial destructors - for reasons set out in the part of the standard dealing with object lifetime, an implementation can't do things in trivial destructors that rely on the contents of the memory of the object. Possibly they can if the destructor is called explicitly, I'm not certain.

However, the fact remains that the standard permits implementations to do quite a lot of crazy things with non-POD objects, and as soon as you write a constructor, you open that door.]

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Would there be any way, as guaranteed by the standard, of preventing the implementation from doing this? Is C++0x's layout compatibility enough to prevent this? –  edA-qa mort-ora-y Mar 25 '11 at 11:09
    
I looked at the draft and updated my post. It appears my struct is a "trivially copyable class" (9.1) but not a trivial class. "trivially copyable classes" may be used in memcpy as they relaxed (3.9.2). Do you read that the same? –  edA-qa mort-ora-y Mar 25 '11 at 11:21
    
@edA-qa mort-ora-y: In C++03 no, the definition of POD is the way to get memcpy working. In C++0x I'm not sure, I'm not familiar enough with it. I just tried to look it all up, but misunderstood something and deleted the comment... But yes, I do agree with your reading that "trivially copyable" is the property you want, and that ex_struct is trivially copyable whereas weird_ex_struct is not. –  Steve Jessop Mar 25 '11 at 11:23
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Note though that you can simulate constructors to get what you want using POD classes in some cases: ex_struct make_ex_struct(int a) { ex_struct foo; foo.a = a; return foo; }. Then use make_ex_struct in some (not all) circumstances where you'd otherwise use the constructor. –  Steve Jessop Mar 25 '11 at 11:28
    
The lifetime of an object of type T ends "if T is a class type with a non-trivial destructor (12.4), the destructor call starts, or the storage which the object occupies is reused or released.". Therefor, whatever an implementation might want to do in a trivial destructor, the implementation must not dependent on it (you are also allowed to apply delete on a pointer to incomplete class, as long as its destructor is trivial): "if there is no explicit call to the destructor [...] any program that depends on the side effects produced by the destructor has undefined behavior." –  Johannes Schaub - litb Mar 26 '11 at 15:18

Yes it's safe to copy with memcpy because you constructor only initialize values.

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