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I am looking for the definition of when I am allowed to do forward declaration of a class in another class's header file:

Am I allowed to do it for a base class, for a class held as a member, for a class passed to member function by reference, etc. ?

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I desperately want this to be renamed "when should I", and the answers updated appropriately... –  deworde Jun 8 at 7:51

10 Answers 10

up vote 564 down vote accepted

Put yourself in the compiler's position: when you forward declare a type, all the compiler knows is that this type exists; it knows nothing about its size, members, or methods. This is why it's called an incomplete type. Therefore, you cannot use the type to declare a member, or a base class, since the compiler would need to know the layout of the type.

Assuming the following forward declaration.

class X;

Here's what you can and cannot do.

What you can do with an incomplete type:

  • Declare a member to be a pointer or a reference to the incomplete type:

    class Foo {
        X *pt;
        X &pt;
  • Declare functions or methods which accept/return incomplete types:

    void f1(X);
    X    f2();
  • Define functions or methods which accept/return pointers/references to the incomplete type (but without using its members):

    void f3(X*, X&) {}
    X&   f4()       {}
    X*   f5()       {}

What you cannot do with an incomplete type:

  • Use it as a base class

    class Foo : X {} // compiler error!
  • Use it to declare a member:

    class Foo {
        X m; // compiler error!
  • Define functions or methods using this type

    void f1(X x) {} // compiler error!
    X    f2()    {} // compiler error!
  • Use its methods or fields, in fact trying to dereference a variable with incomplete type

    class Foo {
        X *m;            
        void method()            
            m->someMethod();      // compiler error!
            int i = m->someField; // compiler error!

When it comes to templates, there is no absolute rule: whether you can use an incomplete type as a template parameter is dependent on the way the type is used in the template.

For instance, std::vector<T> requires its parameter to be a complete type, while boost::container::vector<T> does not. Sometimes, a complete type is required only if you use certain member functions; this is the case for std::unique_ptr<T>, for example.

A well-documented template should indicate in its documentation all the requirements of its parameters, including whether they need to be complete types or not.

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@Hossein Yes, yes and yes. If you include a class header, you make its definition accessible, it is no longer an incomplete type. Note that for using a member function on an object, you only need the declaration of this function: its definition (implementation) can be compiled separately, and later linked into the final executable/library. Look up separate compilation for more details. –  Luc Touraille Jun 24 '13 at 16:25
Great answer but please see mine below for the engineering point on which I disagree. In short, if you don't include headers for incomplete types you accept or return, you force an invisible dependency on the consumer of your header having to know which others they need. –  Andy Dent Jul 6 '13 at 2:55
This set of rules ignores one very important case: you need a complete type to instantiate most templates in the standard library. Particular attention needs to be paid to this, because violating the rule results in undefined behavior, and may not cause a compiler error. –  James Kanze Jul 12 '13 at 8:11
@ontherocks Just like sizeof, it needs to know the size of the type. –  Jim Balter Oct 16 '14 at 1:57
@JesusChrist: Exactly: when you pass an object by value, the compiler needs to know its size in order to make the appropriate stack manipulation; when passing a pointer or a reference, the compiler does not need the size or layout of the object, only the size of an address (i.e. the size of a pointer), which does not depend on the type pointed to. –  Luc Touraille Nov 24 '14 at 8:12

The main rule is that you can only forward-declare classes whose memory layout (and thus member functions and data members) do not need to be known in the file you forward-declare it.

This would rule out base classes and anything but classes used via references and pointers.

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Almost. You can also refer to "plain" (i.e. non-pointer/reference) incomplete types as parameters or return types in function prototypes. –  j_random_hacker Feb 16 '09 at 16:04
What about classes that I want to use as members of a class that I define in the header file? Can I forward declare them? –  Igor Oks Feb 16 '09 at 16:15
Yes, but in that case you can only use a reference or a pointer to the forward-declared class. But it does let you have members, nevertheless. –  Pukku Feb 16 '09 at 16:21

Lakos distinguishes between class usage

  1. in-name-only (for which a forward declaration is sufficient) and
  2. in-size (for which the class definition is needed).

I've never seen it pronounced more succinctly :)

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What is in-name-only mean? –  Boon Dec 25 '14 at 15:58
@Boon: dare I say it...? If you use only the class' name? –  Marc Mutz - mmutz Jan 1 at 19:52

As well as pointers and references to incomplete types, you can also declare function prototypes that specify parameters and/or return values that are incomplete types. However, you cannot define a function having a parameter or return type that is incomplete, unless it is a pointer or reference.


struct X;              // Forward declaration of X

void f1(X* px) {}      // Legal: can always use a pointer/reference
X f2(int);             // Legal: return value in function prototype
void f3(X);            // Legal: parameter in function prototype
void f4(X) {}          // ILLEGAL: *definitions* require complete types
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In file in which you use only Pointer or Reference to a class.And no member/member function should be invoked thought those Pointer/ reference.

with class Foo;//forward declaration

We can declare data members of type Foo* or Foo&.

We can declare (but not define) functions with arguments, and/or return values, of type Foo.

We can declare static data members of type Foo. This is because static data members are defined outside the class definition.

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As long as you don't need the definition (think pointers and references) you can get away with forward declarations. This is why mostly you'd see them in headers while implementation files typically will pull the header for the appropriate definition(s).

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Take it that forward declaration will get your code to compile (obj is created). Linking however (exe creation) will not be successfull unless the definitions are found.

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The general rule I follow is not to include any header file unless I have to. So unless I am storing the object of a class as a member variable of my class I won't include it, I'll just use the forward declaration.

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This breaks encapsulation and makes code brittle. To do this, you need to know if the type is a typedef or a class for a class template with default template parameters, and if the implementation ever changes, you'll need to update ever place you've used a forward declaration. –  Adrian McCarthy May 30 '13 at 23:19
@AdrianMcCarthy is right, and a reasonable solution is to have a forward declaration header that's included by the header whose content it forward declares, which should be owned/maintained/shipped by whomever owns that header too. For example: the iosfwd Standard library header, which contains forward declarations of iostream content. –  Tony D Mar 7 '14 at 14:47

You will usually want to use forward declaration in a classes header file when you want to use the other type (class) as a member of the class. You can not use the forward-declared classes methods in the header file because C++ does not know the definition of that class at that point yet. That's logic you have to move into the .cpp-files, but if you are using template-functions you should reduce them to only the part that uses the template and move that function into the header.

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I'm writing this as a separate answer rather than just a comment because I disagree with Luc Touraille's answer, not on the grounds of legality but for robust software and the danger of misinterpretation.

Specifically, I have an issue with the implied contract of what you expect users of your interface to have to know.

If you are returning or accepting reference types, then you are just saying they can pass through a pointer or reference which they may in turn have known only through a forward declaration.

When you are returning an incomplete type X f2(); then you are saying your caller must have the full type specification of X. They need it in order to create the LHS or temporary object at the call site.

Similarly, if you accept an incomplete type, the caller has to have constructed the object which is the parameter. Even if that object was returned as another incomplete type from a function, the call site needs the full declaration. i.e.:

class X;  // forward for two legal declarations 
X returnsX();
void XAcceptor(X);

XAcepptor( returnsX() );  // X declaration needs to be known here

I think there's an important principle that a header should supply enough information to use it without a dependency requiring other headers. That means header should be able to be included in a compilation unit without causing a compiler error when you use any functions it declares.


  1. If this external dependency is desired behaviour. Instead of using conditional compilation you could have a well-documented requirement for them to supply their own header declaring X. This is an alternative to using #ifdefs and can be a useful way to introduce mocks or other variants.

  2. The important distinction being some template techniques where you are explicitly NOT expected to instantiate them, mentioned just so someone doesn't get snarky with me.

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"I think there's an important principle that a header should supply enough information to use it without a dependency requiring other headers." - another issue is mentioned in a comment by Adrian McCarthy on Naveen's answer. That provides a sound reason not to follow your "should supply enough information to use" principle even for currently non-templated types. –  Tony D Mar 7 '14 at 14:52
@Tony D not sure how you think his comment breaks my "supply enough information to use". I agree that iosfwd is a good example for very highly-reused software. In the case of most classes, if you are refactoring enough to change typedefs for classes I think having the compiler force inspection is a GOOD thing. (I spent 3.5 years recently working at a CAD company with a strong inspection culture.) –  Andy Dent Mar 9 '14 at 3:11
You are talking about when you should (or shouldn't) use forward declarion. That is totally not the point of this question, though. This is about knowing the technical possibilities when (for example) want to break a circular dependency problem. –  JonnyJD Jul 31 '14 at 14:46

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