libstdc++
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Modules | |
Adaptors for pointers to functions | |
Adaptors for pointers to members | |
Arithmetic Classes | |
Binder Classes | |
Boolean Operations Classes | |
Comparison Classes | |
Hashes | |
Negators | |
Classes | |
struct | std::binary_function< _Arg1, _Arg2, _Result > |
class | std::function< _Res(_ArgTypes...)> |
class | std::reference_wrapper< _Tp > |
struct | std::unary_function< _Arg, _Result > |
Functions | |
template<typename _Tp , typename _Class > | |
_Mem_fn< _Tp _Class::* > | std::mem_fn (_Tp _Class::*__pm) noexcept |
Function objects, or functors, are objects with an operator()
defined and accessible. They can be passed as arguments to algorithm templates and used in place of a function pointer. Not only is the resulting expressiveness of the library increased, but the generated code can be more efficient than what you might write by hand. When we refer to functors, then, generally we include function pointers in the description as well.
Often, functors are only created as temporaries passed to algorithm calls, rather than being created as named variables.
Two examples taken from the standard itself follow. To perform a by-element addition of two vectors a
and b
containing double
, and put the result in a
, use
To negate every element in a
, use
The addition and negation functions will be inlined directly.
The standard functors are derived from structs named unary_function
and binary_function
. These two classes contain nothing but typedefs, to aid in generic (template) programming. If you write your own functors, you might consider doing the same.
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inlinenoexcept |
Returns a function object that forwards to the member pointer pm.
Definition at line 160 of file functional.