/*
- * Copyright 2015 Facebook, Inc.
+ * Copyright 2016 Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* ASSERT(x == 24);
*/
-#ifndef FOLLY_APPLYTUPLE_H_
-#define FOLLY_APPLYTUPLE_H_
+#pragma once
-#include <tuple>
#include <functional>
-#include <type_traits>
+#include <utility>
namespace folly {
//////////////////////////////////////////////////////////////////////
namespace detail {
+namespace apply_tuple {
+
+template <std::size_t...>
+struct IndexSequence {};
+
+template <std::size_t N, std::size_t... Is>
+struct MakeIndexSequence : MakeIndexSequence<N - 1, N - 1, Is...> {};
+
+template <std::size_t... Is>
+struct MakeIndexSequence<0, Is...> : IndexSequence<Is...> {};
+
+template <class Tuple>
+using MakeIndexSequenceFromTuple =
+ MakeIndexSequence<std::tuple_size<typename std::decay<Tuple>::type>::value>;
// This is to allow using this with pointers to member functions,
// where the first argument in the tuple will be the this pointer.
-template<class F> F& makeCallable(F& f) { return f; }
-template<class R, class C, class ...A>
-auto makeCallable(R (C::*d)(A...)) -> decltype(std::mem_fn(d)) {
+template <class F>
+inline constexpr F&& makeCallable(F&& f) {
+ return std::forward<F>(f);
+}
+template <class M, class C>
+inline constexpr auto makeCallable(M(C::*d)) -> decltype(std::mem_fn(d)) {
return std::mem_fn(d);
}
-template<class Tuple>
-struct DerefSize
- : std::tuple_size<typename std::remove_reference<Tuple>::type>
-{};
-
-template<class Tuple, class ...Unpacked> struct ExprDoUnpack {
- enum {
- value = sizeof...(Unpacked) < DerefSize<Tuple>::value
- };
-};
-
-template<class Tuple, class ...Unpacked> struct ExprIsUnpacked {
- enum {
- value = sizeof...(Unpacked) == DerefSize<Tuple>::value
- };
-};
-
-// CallTuple recursively unpacks tuple arguments so we can forward
-// them into the function.
-template<class Ret>
-struct CallTuple {
- template<class F, class Tuple, class ...Unpacked>
- static typename std::enable_if<ExprDoUnpack<Tuple, Unpacked...>::value,
- Ret
- >::type call(const F& f, Tuple&& t, Unpacked&&... unp) {
- typedef typename std::tuple_element<
- sizeof...(Unpacked),
- typename std::remove_reference<Tuple>::type
- >::type ElementType;
- return CallTuple<Ret>::call(f, std::forward<Tuple>(t),
- std::forward<Unpacked>(unp)...,
- std::forward<ElementType>(std::get<sizeof...(Unpacked)>(t))
- );
- }
-
- template <class F, class Tuple, class... Unpacked>
- static typename std::enable_if<ExprIsUnpacked<Tuple, Unpacked...>::value,
- Ret>::type
- call(const F& f, Tuple&& /* t */, Unpacked&&... unp) {
- return makeCallable(f)(std::forward<Unpacked>(unp)...);
- }
-};
-
-// The point of this meta function is to extract the contents of the
-// tuple as a parameter pack so we can pass it into std::result_of<>.
-template<class F, class Args> struct ReturnValue;
-template<class F, class ...Args>
-struct ReturnValue<F,std::tuple<Args...>> {
- typedef typename std::result_of<F (Args...)>::type type;
-};
-
+template <class F, class Tuple, std::size_t... Indexes>
+inline constexpr auto call(F&& f, Tuple&& t, IndexSequence<Indexes...>)
+ -> decltype(
+ std::forward<F>(f)(std::get<Indexes>(std::forward<Tuple>(t))...)) {
+ return std::forward<F>(f)(std::get<Indexes>(std::forward<Tuple>(t))...);
}
+} // namespace apply_tuple
+} // namespace detail
+
//////////////////////////////////////////////////////////////////////
-template<class Callable, class Tuple>
-typename detail::ReturnValue<
- typename std::decay<Callable>::type,
- typename std::decay<Tuple>::type
->::type
-applyTuple(const Callable& c, Tuple&& t) {
- typedef typename detail::ReturnValue<
- typename std::decay<Callable>::type,
- typename std::decay<Tuple>::type
- >::type RetT;
- return detail::CallTuple<RetT>::call(c, std::forward<Tuple>(t));
+template <class F, class Tuple>
+inline constexpr auto applyTuple(F&& f, Tuple&& t)
+ -> decltype(detail::apply_tuple::call(
+ detail::apply_tuple::makeCallable(std::forward<F>(f)),
+ std::forward<Tuple>(t),
+ detail::apply_tuple::MakeIndexSequenceFromTuple<Tuple>{})) {
+ return detail::apply_tuple::call(
+ detail::apply_tuple::makeCallable(std::forward<F>(f)),
+ std::forward<Tuple>(t),
+ detail::apply_tuple::MakeIndexSequenceFromTuple<Tuple>{});
}
//////////////////////////////////////////////////////////////////////
-
}
-
-#endif