In computer programming, a forward declaration is a declaration of an identifier (denoting an entity such as a type, a variable, a constant, or a function) for which the programmer has not yet given a complete definition.
It is required for a compiler to know certain properties of an identifier (size for memory allocation, data type for type checking, such as type signature of functions), but not other details, like the particular value it holds (in case of variables or constants) or definition (in the case of functions). This is particularly useful for one-pass compilers and separate compilation.
Forward declaration is used in languages that require declaration before use; it is necessary for mutual recursion in such languages, as it is impossible to define such functions (or data structures) without a forward reference in one definition: one of the functions (respectively, data structures) must be defined first. It is also useful to allow flexible code organization, for example if one wishes to place the main body at the top, and called functions below it.
In other languages forward declarations are not necessary, which generally requires instead a multi-pass compiler and for some compilation to be deferred to link time. In these cases identifiers must be defined (variables initialized, functions defined) before they can be employed during runtime without the need for pre-definition in the source code for either compilation or interpretation: identifiers do not need to be immediately resolved to an existing entity.
A basic example in C is:
In C and C++, the line above represents a forward declaration of a function and is the function's prototype. After processing this declaration, the compiler would allow the program code to refer to the entity printThisInteger
in the rest of the program. The definition for a function must be provided somewhere (same file or other, where it would be the responsibility of the linker to correctly match references to a particular function in one or several object files with the definition, which must be unique, in another):
Variables may have only forward declaration and lack definition. During compilation time these are initialized by language specific rules (to undefined values, 0, NULL pointers, ...). Variables that are defined in other source/object files must have a forward declaration specified with a keyword extern
:
In Pascal and other Wirth programming languages, it is a general rule that all entities must be declared before use, and thus forward declaration is necessary for mutual recursion, for instance. In C, the same general rule applies, but with an exception for undeclared functions and incomplete types. Thus, in C it is possible (although unwise) to implement a pair of mutually recursive functions thus:
int second(int x)
In Pascal, the same implementation requires a forward declaration of second
to precede its use in first
. Without the forward declaration, the compiler will produce an error message indicating that the identifier second
has been used without being declared.
In some object-oriented languages like C++ and Objective-C, it is sometimes necessary to forward-declare classes. This is done in situations when it is necessary to know that the name of the class is a type, but where it is unnecessary to know the structure.
In C++, classes and structs can be forward-declared like this:
Forward-declaration is used to avoid unnecessary coupling which help reducing compilation time by reducing the number of header inclusion. This has a triple advantage:
Forward declaration of a class is not sufficient if you need to use the actual class type, for example, if you have a member whose type is that class directly (not a pointer), or if you need to use it as a base class, or if you need to use the methods of the class in a method.
In Objective-C, classes and protocols can be forward-declared like this:
Forward declaration of a class or protocol is not sufficient if you need to subclass that class or implement that protocol.
The term forward reference is sometimes used as a synonym of forward declaration.[1] However, more often it is taken to refer to the actual use of an entity before any declaration; that is, the first reference to second
in the code above is a forward reference.[2] [3] Thus, we may say that because forward declarations are mandatory in Pascal, forward references are prohibited.
An example of (valid) forward reference in C++:
In this example, there are two references to myValue
before it is declared. C++ generally prohibits forward references, but they are allowed in the special case of class members. Since the member function accessor
cannot be compiled until the compiler knows the type of the member variable myValue
, it is the compiler's responsibility to remember the definition of accessor
until it sees myValue
's declaration.
Permitting forward references can greatly increase the complexity and memory requirements of a compiler, and generally prevents the compiler from being implemented in one pass.