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A '''function pointer''' (or '''subroutine pointer or procedure pointer''') is a type of [[pointer (computer programming)|pointer]] supported by [[third-generation programming language|third-generation]] [[programming language]]s (such as [[PL/I]], [[COBOL]], [[Fortran]],<ref>{{cite web
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| accessdate = 2013-09-14
| location = http://www.esm.psu.edu/~ajm138/fortranexamples.html
| title = Fortran Examples
| author = Andrew J. Miller
| url = http://www.esm.psu.edu/~ajm138/fortranexamples.html#ex1
}}</ref> dBASE dBL, and [[C (programming language)|C]]) and [[object-oriented programming]] languages (such as [[C++]] and [[D (programming language)|D]]).<ref>{{cite web
| accessdate = 2011-04-13
| location = http://www.newty.de/
| publisher = logo
| title = The Function Pointer Tutorials
| quote = Function Pointers are pointers, i.e. variables, which point to the address of a function
| url = http://www.newty.de/fpt/intro.html#what}}</ref> Instead of referring to data values, a function pointer points to executable code within memory. When [[dereference operator|dereferenced]], a function pointer can be used to invoke the [[subroutine|function]] it points to and pass it arguments just like a normal function call. Such an invocation is also known as an "indirect" call, because the function is being invoked ''indirectly'' through a variable instead of ''directly'' through a fixed name or address. Function pointers can be used to simplify code by providing a simple way to select a function to execute based on run-time values.
 
==Simple function pointers==
The simplest implementation of a function (or subroutine) pointer is as a [[variable (computer science)|variable]] containing the [[memory address|address]] of the function within executable memory. Older [[third-generation programming language|third-generation languages]] such as [[PL/I]] and [[COBOL]], as well as more modern languages such as [[Pascal (programming language)|Pascal]] and [[C (programming language)|C]] generally implement function pointers in this manner. Such pointers in older languages are generally less [[type safety|type-safe]] than in more modern languages, though, since the latter associate more [[data type|typing]] information with a function pointer variable, such as the data type of the [[return value]] of the function and the data type information of the [[parameter (computer programming)|parameter]]s to the function.<ref>{{cite web
| accessdate = 2011-04-13
| location = http://www.newty.de/
| publisher = logo
| title = The Function Pointer Tutorials
| quote = Important note: A function pointer always points to a function with a specific signature! Thus all functions, you want to use with the same function pointer, must have the same parameters and return-type!
| url = http://www.newty.de/fpt/intro.html#top}}</ref>
 
=== Example in C ===
The following C program uses a function pointer to invoke one of two functions (<code>sin</code> or <code>cos</code>) indirectly from another function (<code>compute_sum</code>, computing an approximation of the function's [[Riemann integration]]). The program operates by having function <code>main</code> call function <code>compute_sum</code> twice, passing it a pointer to the library function <code>sin</code> the first time, and a pointer to function <code>cos</code> the second time. Function <code>compute_sum</code> in turn invokes one of the two functions indirectly by dereferencing its function pointer argument <code>funcp</code> multiple times, adding together the values that the invoked function returns and returning the resulting sum. The two sums are written to the standard output by <code>main</code>.
 
<source lang="c">
#include <math.h>
#include <stdio.h>
 
// Function taking a function pointer as an argument
double compute_sum(double (*funcp)(double), double lo, double hi)
{
    double  sum = 0.0;
 
    // Add values returned by the pointed-to function '*funcp'
    for (int i = 0;  i <= 100;  i++)
    {
        double  x, y;
 
        // Use the function pointer 'funcp' to invoke the function
        x = i/100.0 * (hi - lo) + lo;
        y = (*funcp)(x);
        sum += y;
    }
    return (sum/100.0);
}
 
int main(void)
{
    double  (*fp)(double);      // Function pointer
    double  sum;
 
    // Use 'sin()' as the pointed-to function
    fp = sin;
    sum = compute_sum(fp, 0.0, 1.0);
    printf("sum(sin): %f\n", sum);
 
    // Use 'cos()' as the pointed-to function
    fp = cos;
    sum = compute_sum(fp, 0.0, 1.0);
    printf("sum(cos): %f\n", sum);
    return 0;
}
</source>
 
==Functors==
{{main|Function objects}}
'''Functors''', or '''function objects''', are similar to function pointers, and can be used in similar ways. A functor is an object of a class type that implements the [[function-call operator]], allowing the object to be used within expressions using the same syntax as a function call. Functors are more powerful than simple function pointers, being able to contain their own data values, and allowing the programmer to emulate [[closure (computer science)|closures]]. They are also used as callback functions if it is necessary to use a member function as a callback function.<ref>{{cite web
| accessdate = 2011-04-13
| date = 2005-01-31
| location = http://www.devx.com/
| publisher = DevX.com
| title = Expertise: Intermediate Language: C++: Use Functor for Callbacks in C++
| quote = If you want to use a member function as a callback function, then the member function needs to be associated with an object of the class before it can be called. In this case, you can use functor [with an example on this page].
| url = http://www.devx.com/tips/Tip/27126}}</ref>
 
Many "pure" object-oriented languages do not support function pointers. Something similar can be implemented in these kinds of languages, though, using [[reference (computer science)|references]] to [[protocol (object-oriented programming)|interfaces]] that define a single [[member function]]. [[List of CLI languages|CLI languages]] such as [[C Sharp (programming language)|C#]] and [[Visual Basic .NET]] implement [[type safety|type-safe]] function pointers with [[delegate (CLI)|delegate]]s.
 
In other languages that support [[first-class function]]s, functions are regarded as data, and can be passed, returned, and created dynamically directly by other functions, eliminating the need for function pointers.
 
Extensively using function pointers to call functions may produce a slow-down for the code on modern processors, because [[branch prediction]] may not be able to figure out where to branch to (it depends on the value of the function pointer at run time) although this effect can be overstated as it is often amply compensated for by significantly reduced non indexed table lookups. This makes the memory allocation independent from execution. The concept later was used by the multithreading processing ability.
 
==Method pointers==
C++ is [[object-oriented]], so classes can have [[method (computer science)|methods]]. Non-static member functions (instance methods) have an implicit parameter (the ''[[this (computer science)|this]]'' pointer) which is the pointer to the object it is operating on, so the type of the object must be included as part of the type of the function pointer. The method is then used on an object of that class by using one of the "pointer-to-member" operators: <code>.*</code> or <code>->*</code> (for an object or a pointer to object, respectively).
 
Although function pointers in C and C++ can be implemented as simple addresses, so that typically <code>sizeof(Fx)==sizeof(void *)</code>, member pointers in C++ are often implemented as "fat pointers", typically two or three times the size of a simple function pointer, in order to deal with [[virtual inheritance]]{{Citation needed|date=August 2011}}.
 
== In C++ ==
A C++ typical use of "pointers to functions" is for passing a function as an argument to another function, since these cannot be passed dereferenced:
 
<source lang="cpp">
// Pointer to functions
 
#include <iostream>
 
using namespace std;
 
int add(int first, int second)
{
    return first + second;
}
 
int subtract(int first, int second)
{
    return first - second;
}
 
int operation(int first, int second, int (*functocall)(int, int))
{
    return (*functocall)(first, second);
}
 
int main()
{
    int  a, b;
    int  (*plus)(int, int) = add;
    int (*minus)(int, int) = subtract;
 
    a = operation(7, 5, plus);
    b = operation(20, a, minus);
    cout << "a = " << a << " and b = " << b << endl;
    return 0;
}
</source>
 
==See also==
* [[Delegation (programming)]]
* [[Function object]]
* [[Higher-order function]]
* [[Procedural parameter]]
 
==References==
{{Reflist|2}}
 
==External links==
* [http://www.parashift.com/c++-faq-lite/pointers-to-members.html#faq-33.12 FAQ on Function Pointers], things to avoid with function pointers, some information on using [[function object]]s
* [http://www.newty.de/fpt/ Function Pointer Tutorials], a guide to C/C++ function pointers, [[callback (computer programming)|callbacks]], and [[function object]]s (functors)
* [http://www.codeproject.com/KB/cpp/FastDelegate.aspx Member Function Pointers and the Fastest Possible C++ Delegates], CodeProject article by Don Clugston
* [http://www.cplusplus.com/doc/tutorial/pointers.html Pointer Tutorials], C++ documentation and tutorials
* [http://www.codeproject.com/KB/security/Securefunctionpointer.aspx Secure Function Pointer and Callbacks in Windows Programming], CodeProject article by R. Selvam
* [http://publications.gbdirect.co.uk/c_book/chapter5/function_pointers.html The C Book], Function Pointers in C by "The C Book"
* [http://www.dbase.com/help/2_80/Language_Definition/IDH_LDEF_FUNCPOINTERS.htm Function Pointers in dBASE dBL], Function Pointer in dBASE dBL
 
[[Category:Data types]]
[[Category:Subroutines]]
 
[[de:Zeiger (Informatik)#Funktionszeiger (Methodenzeiger)]]

Latest revision as of 02:18, 8 December 2014

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