Hashiryo's Library
This documentation is automatically generated by competitive-verifier/competitive-verifier
関数型や関数オブジェクトに関するテンプレート (src/Internal/function_traits.hpp)
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- Last update: 2023-10-29 17:46:55+09:00
- Include:
#include "src/Internal/function_traits.hpp"
| 名前 | 概要 |
|---|---|
result_type_t<F> |
F のインスタンスの 関数としての 戻り値の型 ( F が関数型 でも 関数オブジェクトクラス でもないなら void ) |
argument_type_t<F> |
F のインスタンスの 関数としての 引数の型 ( tuple でラッピング, F が関数型 でも 関数オブジェクトクラス でもないなら void ) |
Required by
- 離散対数 (src/Math/DiscreteLogarithm.hpp)
- フィボナッチ探索 (src/Optimization/fibonacci_search.hpp)
- 黄金分割探索 (src/Optimization/golden_search.hpp)
- Li-Chao-Tree (src/Optimization/LiChaoTree.hpp)
- 簡易版LARSCH (src/Optimization/simplified_larsch_dp.hpp)
Verified with
- test/aoj/0323.test.cpp
- test/aoj/2603.AlienDP.test.cpp
- test/aoj/2603.LiCT.test.cpp
- test/aoj/2725.LiCT.test.cpp
- test/aoj/2972.test.cpp
- test/aoj/3044.test.cpp
- test/aoj/3086.LARSCH.test.cpp
- test/aoj/3086.LiCT.test.cpp
test/atcoder/abc204_e.test.cpp- test/atcoder/abc218_h.test.cpp
- test/atcoder/abc222_g.test.cpp
- test/atcoder/abc270_g.test.cpp
- test/atcoder/abc279_d.test.cpp
- test/atcoder/abc305_ex.test.cpp
- test/loj/2419.conj.test.cpp
- test/loj/2419.test.cpp
- test/sample_test/cf_contest802_n.test.cpp
- test/yosupo/discrete_logarithm_mod.test.cpp
- test/yosupo/line_add_get_min.LiCT.test.cpp
- test/yosupo/min_plus_convolution_convex_arbitrary.LiCT.test.cpp
- test/yosupo/segment_add_get_min.test.cpp
- test/yukicoder/1297.LiCT.test.cpp
- test/yukicoder/1339.test.cpp
- test/yukicoder/180.test.cpp
- test/yukicoder/1867.test.cpp
- test/yukicoder/2276.test.cpp
- test/yukicoder/2309.test.cpp
- test/yukicoder/2332.RH.test.cpp
- test/yukicoder/2332.zalgo.test.cpp
- test/yukicoder/2458.LiCT.test.cpp
- test/yukicoder/261.test.cpp
- test/yukicoder/409.LARSCH.test.cpp
- test/yukicoder/409.LiCT.test.cpp
- test/yukicoder/703.LARSCH.test.cpp
- test/yukicoder/703.LiCT.test.cpp
- test/yukicoder/704.LARSCH.test.cpp
- test/yukicoder/704.LiCT.test.cpp
- test/yukicoder/705.LARSCH.test.cpp
- test/yukicoder/705.LiCT.test.cpp
- test/yukicoder/913.LiCT.test.cpp
- test/yukicoder/950.test.cpp
- test/yukicoder/952.LiCT.test.cpp
Code
#pragma once
#include <type_traits>
// clang-format off
namespace function_template_internal{
template<class C>struct is_function_object{
template<class U,int dummy=(&U::operator(),0)> static std::true_type check(U *);
static std::false_type check(...);
static C *m;
static constexpr bool value= decltype(check(m))::value;
};
template<class F,bool,bool>struct function_type_impl{using type= void;};
template<class F>struct function_type_impl<F,true,false>{using type= F *;};
template<class F>struct function_type_impl<F,false,true>{using type= decltype(&F::operator());};
template<class F> using function_type_t= typename function_type_impl<F,std::is_function_v<F>,is_function_object<F>::value>::type;
template<class... Args>struct result_type_impl{using type= void;};
template<class R,class... Args>struct result_type_impl<R(*)(Args...)>{using type= R;};
template<class C,class R,class... Args>struct result_type_impl<R(C::*)(Args...)>{using type= R;};
template<class C,class R,class... Args>struct result_type_impl<R(C::*)(Args...)const>{using type= R;};
template<class F> using result_type_t= typename result_type_impl<function_type_t<F>>::type;
template<class... Args>struct argument_type_impl{using type= void;};
template<class R,class... Args>struct argument_type_impl<R(*)(Args...)>{using type= std::tuple<Args...>;};
template<class C,class R,class... Args>struct argument_type_impl<R(C::*)(Args...)>{using type= std::tuple<Args...>;};
template<class C,class R,class... Args>struct argument_type_impl<R(C::*)(Args...)const>{using type= std::tuple<Args...>;};
template<class F> using argument_type_t= typename argument_type_impl<function_type_t<F>>::type;
}
using function_template_internal::result_type_t,function_template_internal::argument_type_t;
// clang-format on#line 2 "src/Internal/function_traits.hpp"
#include <type_traits>
// clang-format off
namespace function_template_internal{
template<class C>struct is_function_object{
template<class U,int dummy=(&U::operator(),0)> static std::true_type check(U *);
static std::false_type check(...);
static C *m;
static constexpr bool value= decltype(check(m))::value;
};
template<class F,bool,bool>struct function_type_impl{using type= void;};
template<class F>struct function_type_impl<F,true,false>{using type= F *;};
template<class F>struct function_type_impl<F,false,true>{using type= decltype(&F::operator());};
template<class F> using function_type_t= typename function_type_impl<F,std::is_function_v<F>,is_function_object<F>::value>::type;
template<class... Args>struct result_type_impl{using type= void;};
template<class R,class... Args>struct result_type_impl<R(*)(Args...)>{using type= R;};
template<class C,class R,class... Args>struct result_type_impl<R(C::*)(Args...)>{using type= R;};
template<class C,class R,class... Args>struct result_type_impl<R(C::*)(Args...)const>{using type= R;};
template<class F> using result_type_t= typename result_type_impl<function_type_t<F>>::type;
template<class... Args>struct argument_type_impl{using type= void;};
template<class R,class... Args>struct argument_type_impl<R(*)(Args...)>{using type= std::tuple<Args...>;};
template<class C,class R,class... Args>struct argument_type_impl<R(C::*)(Args...)>{using type= std::tuple<Args...>;};
template<class C,class R,class... Args>struct argument_type_impl<R(C::*)(Args...)const>{using type= std::tuple<Args...>;};
template<class F> using argument_type_t= typename argument_type_impl<function_type_t<F>>::type;
}
using function_template_internal::result_type_t,function_template_internal::argument_type_t;
// clang-format on