= Sub: =
[[함수합성,function_composition]] - [[함수,function]]
{
https://ko.wikipedia.org/wiki/함수의_합성
}
[[펑션합성,function_composition]] - [[펑션,function]] .... 둘중에 뭘로? 뒤의 것을 하지 말까?
{
[[WpEn:Function_composition_(computer_science)]]
 = https://en.wikipedia.org/wiki/Function_composition_%28computer_science%29
}
(두 함수를 가지고 하는 행동)
----
[[합성함수,composite_function]]
(위 행동의 결과 함수)
----
[[object_composition]] - curr at [[객체,object]]
----
[[composition_over_inheritance]] = [[composite_reuse_principle]]
{
//we
"'''Composition over inheritance''' (or '''composite reuse principle)''' in OOP is the principle that
[[클래스,class]]es should favor polymorphic behavior([[다형성,polymorphism]]) and [[code_reuse]] by their
 composition,,(link to [[object_composition]]),, (by containing instances of other classes that implement the desired functionality) over
 inheritance,,([[상속,inheritance]]),, from a base or parent class."

----
WpEn:Composition_over_inheritance = https://en.wikipedia.org/wiki/Composition_over_inheritance
}
= MKLINK =

Compare
[[concatenation]]
[[중첩,superposition]]
[[composite]](prefix) // 비슷한 단어
{

''(적어도 data_type([[타입,type]], type_theory)에서)''
composite_ 은 (단순한 elements가 모여서, composition이 이미 되어서 construct된?) 복합적인(complex), 구조적인([[구조,structure]]), 모인(aggregate), ... 대략 그쪽 뜻임.
 Syn: compound_ , aggregate_ , structure_
 Opp: primitive_ , scalar_
}

----
https://mathworld.wolfram.com/Composition.html
 function_composition AND
 combinatorial_composition combinatorial composition