std::function
From cppreference.com
< cpp | utility | functional
Defined in header
<functional>
|
||
template< class >
class function; /* undefined */ |
(since C++11) | |
template< class R, class... Args >
class function<R(Args...)> |
(since C++11) | |
Class template std::function
is a general-purpose polymorphic function wrapper. Instances of std::function
can store, copy, and invoke any Callable
target -- functions, lambda expressions, bind expressions, or other function objects, as well as pointers to member functions and pointers to data members.
The stored callable object is called the target of std::function
. If a std::function
contains no target, it is called empty. Invoking the target of an empty std::function
results in std::bad_function_call exception being thrown.
std::function
satisfies the requirements of CopyConstructible
and CopyAssignable
.
Contents |
[edit] Member types
Type | Definition |
result_type
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R
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argument_type
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T if sizeof...(Args)==1 and T is the first and only type in Args...
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first_argument_type
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T1 if sizeof...(Args)==2 and T1 is the first of the two types in Args...
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second_argument_type
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T2 if sizeof...(Args)==2 and T2 is the second of the two types in Args...
|
[edit] Member functions
constructs a new std::function instance (public member function) |
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destroys a std::function instance (public member function) |
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assigns a new target (public member function) |
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swaps the contents (public member function) |
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(until C++17)
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assigns a new target (public member function) |
checks if a valid target is contained (public member function) |
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invokes the target (public member function) |
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Target access |
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obtains the typeid of the stored target (public member function) |
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obtains a pointer to the stored target (public member function) |
[edit] Non-member functions
(C++11)
|
specializes the std::swap algorithm (function template) |
compares an std::function with nullptr (function template) |
[edit] Helper classes
specializes the std::uses_allocator type trait (class template specialization) |
[edit] Example
Run this code
#include <functional> #include <iostream> struct Foo { Foo(int num) : num_(num) {} void print_add(int i) const { std::cout << num_+i << '\n'; } int num_; }; void print_num(int i) { std::cout << i << '\n'; } struct PrintNum { void operator()(int i) const { std::cout << i << '\n'; } }; int main() { // store a free function std::function<void(int)> f_display = print_num; f_display(-9); // store a lambda std::function<void()> f_display_42 = []() { print_num(42); }; f_display_42(); // store the result of a call to std::bind std::function<void()> f_display_31337 = std::bind(print_num, 31337); f_display_31337(); // store a call to a member function std::function<void(const Foo&, int)> f_add_display = &Foo::print_add; const Foo foo(314159); f_add_display(foo, 1); // store a call to a member function and object using std::placeholders::_1; std::function<void(int)> f_add_display2= std::bind( &Foo::print_add, foo, _1 ); f_add_display2(2); // store a call to a member function and object ptr std::function<void(int)> f_add_display3= std::bind( &Foo::print_add, &foo, _1 ); f_add_display3(3); // store a call to a function object std::function<void(int)> f_display_obj = PrintNum(); f_display_obj(18); }
Output:
-9 42 31337 314160 314161 314162 18
[edit] See also
(C++11)
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the exception thrown when invoking an empty std::function (class) |
(C++11)
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creates a function object out of a pointer to a member (function template) |