/*
- * Copyright 2012 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.
// @author: Andrei Alexandrescu
-#ifndef FOLLY_BASE_TRAITS_H_
-#define FOLLY_BASE_TRAITS_H_
+#pragma once
-#include <boost/type_traits.hpp>
-#include <boost/mpl/and.hpp>
-#include <boost/mpl/not.hpp>
#include <memory>
+#include <limits>
+#include <type_traits>
+#include <functional>
+
+#include <folly/Portability.h>
+
+// libc++ doesn't provide this header, nor does msvc
+#ifdef FOLLY_HAVE_BITS_CXXCONFIG_H
+// This file appears in two locations: inside fbcode and in the
+// libstdc++ source code (when embedding fbstring as std::string).
+// To aid in this schizophrenic use, two macros are defined in
+// c++config.h:
+// _LIBSTDCXX_FBSTRING - Set inside libstdc++. This is useful to
+// gate use inside fbcode v. libstdc++
#include <bits/c++config.h>
+#endif
+
+#include <boost/type_traits.hpp>
+#include <boost/mpl/has_xxx.hpp>
namespace folly {
* }
*
* void move2(T * from, T * to) {
- * memcpy(from, to, sizeof(T));
+ * memcpy(to, from, sizeof(T));
* }
*
* Most C++ types are relocatable; the ones that aren't would include
* types. You may want to add your own specializations. Do so in
* namespace folly and make sure you keep the specialization of
* IsRelocatable<SomeStruct> in the same header as SomeStruct.
+ *
+ * You may also declare a type to be relocatable by including
+ * `typedef std::true_type IsRelocatable;`
+ * in the class header.
+ *
+ * It may be unset in a base class by overriding the typedef to false_type.
+ */
+/*
+ * IsTriviallyCopyable describes the value semantics property. C++11 contains
+ * the type trait is_trivially_copyable; however, it is not yet implemented
+ * in gcc (as of 4.7.1), and the user may wish to specify otherwise.
+ */
+/*
+ * IsZeroInitializable describes the property that default construction is the
+ * same as memset(dst, 0, sizeof(T)).
*/
-template <class T> struct IsRelocatable : boost::mpl::not_<boost::is_class<T> >
-{};
+
+namespace traits_detail {
+
+#define FOLLY_HAS_TRUE_XXX(name) \
+ BOOST_MPL_HAS_XXX_TRAIT_DEF(name) \
+ template <class T> \
+ struct name##_is_true : std::is_same<typename T::name, std::true_type> {}; \
+ template <class T> \
+ struct has_true_##name : std::conditional< \
+ has_##name<T>::value, \
+ name##_is_true<T>, \
+ std::false_type>::type {};
+
+FOLLY_HAS_TRUE_XXX(IsRelocatable)
+FOLLY_HAS_TRUE_XXX(IsZeroInitializable)
+FOLLY_HAS_TRUE_XXX(IsTriviallyCopyable)
+
+#undef FOLLY_HAS_TRUE_XXX
+
+// Older versions of libstdc++ do not provide std::is_trivially_copyable
+#if defined(__clang__) && !defined(_LIBCPP_VERSION)
+template <class T>
+struct is_trivially_copyable
+ : std::integral_constant<bool, __is_trivially_copyable(T)> {};
+#elif defined(__GNUC__) && !defined(__clang__) && __GNUC__ < 5
+template <class T>
+struct is_trivially_copyable : std::is_trivial<T> {};
+#else
+template <class T>
+using is_trivially_copyable = std::is_trivially_copyable<T>;
+#endif
+}
+
+struct Ignore {
+ template <class T>
+ /* implicit */ Ignore(const T&) {}
+ template <class T>
+ const Ignore& operator=(T const&) const { return *this; }
+};
+
+template <class...>
+using Ignored = Ignore;
+
+namespace traits_detail_IsEqualityComparable {
+Ignore operator==(Ignore, Ignore);
+
+template <class T, class U = T>
+struct IsEqualityComparable
+ : std::is_convertible<
+ decltype(std::declval<T>() == std::declval<U>()),
+ bool
+ > {};
+}
+
+/* using override */ using traits_detail_IsEqualityComparable::
+ IsEqualityComparable;
+
+namespace traits_detail_IsLessThanComparable {
+Ignore operator<(Ignore, Ignore);
+
+template <class T, class U = T>
+struct IsLessThanComparable
+ : std::is_convertible<
+ decltype(std::declval<T>() < std::declval<U>()),
+ bool
+ > {};
+}
+
+/* using override */ using traits_detail_IsLessThanComparable::
+ IsLessThanComparable;
+
+namespace traits_detail_IsNothrowSwappable {
+#if defined(_MSC_VER) || defined(__cpp_lib_is_swappable)
+// MSVC already implements the C++17 P0185R1 proposal which
+// adds std::is_nothrow_swappable, so use it instead.
+template <typename T>
+using IsNothrowSwappable = std::is_nothrow_swappable<T>;
+#else
+/* using override */ using std::swap;
+
+template <class T>
+struct IsNothrowSwappable
+ : std::integral_constant<bool,
+ std::is_nothrow_move_constructible<T>::value &&
+ noexcept(swap(std::declval<T&>(), std::declval<T&>()))
+ > {};
+#endif
+}
+
+/* using override */ using traits_detail_IsNothrowSwappable::IsNothrowSwappable;
+
+template <class T> struct IsTriviallyCopyable
+ : std::conditional<
+ traits_detail::has_IsTriviallyCopyable<T>::value,
+ traits_detail::has_true_IsTriviallyCopyable<T>,
+ traits_detail::is_trivially_copyable<T>
+ >::type {};
+
+template <class T> struct IsRelocatable
+ : std::conditional<
+ traits_detail::has_IsRelocatable<T>::value,
+ traits_detail::has_true_IsRelocatable<T>,
+ // TODO add this line (and some tests for it) when we upgrade to gcc 4.7
+ //std::is_trivially_move_constructible<T>::value ||
+ IsTriviallyCopyable<T>
+ >::type {};
+
+template <class T> struct IsZeroInitializable
+ : std::conditional<
+ traits_detail::has_IsZeroInitializable<T>::value,
+ traits_detail::has_true_IsZeroInitializable<T>,
+ std::integral_constant<bool, !std::is_class<T>::value>
+ >::type {};
+
+template <typename...>
+struct Conjunction : std::true_type {};
+template <typename T>
+struct Conjunction<T> : T {};
+template <typename T, typename... TList>
+struct Conjunction<T, TList...>
+ : std::conditional<T::value, Conjunction<TList...>, T>::type {};
+
+template <typename...>
+struct Disjunction : std::false_type {};
+template <typename T>
+struct Disjunction<T> : T {};
+template <typename T, typename... TList>
+struct Disjunction<T, TList...>
+ : std::conditional<T::value, T, Disjunction<TList...>>::type {};
+
+template <typename T>
+struct Negation : std::integral_constant<bool, !T::value> {};
+
+template <bool... Bs>
+struct Bools {
+ using valid_type = bool;
+ static constexpr std::size_t size() {
+ return sizeof...(Bs);
+ }
+};
+
+// Lighter-weight than Conjunction, but evaluates all sub-conditions eagerly.
+template <class... Ts>
+using StrictConjunction =
+ std::is_same<Bools<Ts::value..., true>, Bools<true, Ts::value...>>;
} // namespace folly
* When using it with a template type, use it like this:
*
* // Make sure you're at namespace ::folly scope
- * template<class T, class T2>
+ * template<class T1, class T2>
* FOLLY_ASSUME_RELOCATABLE(MyType<T1, T2>)
*/
#define FOLLY_ASSUME_RELOCATABLE(...) \
- struct IsRelocatable< __VA_ARGS__ > : ::boost::true_type {};
+ struct IsRelocatable< __VA_ARGS__ > : std::true_type {};
/**
* Use this macro ONLY inside namespace boost. When using it with a
* When using it with a template type, use it like this:
*
* // Make sure you're at namespace ::boost scope
- * template<class T, class T2>
+ * template<class T1, class T2>
* FOLLY_ASSUME_HAS_NOTHROW_CONSTRUCTOR(MyType<T1, T2>)
*/
#define FOLLY_ASSUME_HAS_NOTHROW_CONSTRUCTOR(...) \
* although that is not guaranteed by the standard.
*/
-namespace std {
+FOLLY_NAMESPACE_STD_BEGIN
template <class T, class U>
- class pair;
+ struct pair;
#ifndef _GLIBCXX_USE_FB
+FOLLY_GLIBCXX_NAMESPACE_CXX11_BEGIN
template <class T, class R, class A>
class basic_string;
+FOLLY_GLIBCXX_NAMESPACE_CXX11_END
#else
template <class T, class R, class A, class S>
class basic_string;
class vector;
template <class T, class A>
class deque;
+FOLLY_GLIBCXX_NAMESPACE_CXX11_BEGIN
template <class T, class A>
class list;
+FOLLY_GLIBCXX_NAMESPACE_CXX11_END
template <class T, class C, class A>
class set;
template <class K, class V, class C, class A>
template <class T>
class shared_ptr;
-}
+FOLLY_NAMESPACE_STD_END
namespace boost {
template <class T, class U>
struct has_nothrow_constructor< std::pair<T, U> >
- : ::boost::mpl::and_< has_nothrow_constructor<T>,
- has_nothrow_constructor<U> > {};
+ : std::integral_constant<bool,
+ has_nothrow_constructor<T>::value &&
+ has_nothrow_constructor<U>::value> {};
} // namespace boost
// STL commonly-used types
template <class T, class U>
-struct IsRelocatable< std::pair<T, U> >
- : ::boost::mpl::and_< IsRelocatable<T>, IsRelocatable<U> > {};
+struct IsRelocatable< std::pair<T, U> >
+ : std::integral_constant<bool,
+ IsRelocatable<T>::value &&
+ IsRelocatable<U>::value> {};
// Is T one of T1, T2, ..., Tn?
template <class T, class... Ts>
enum { value = std::is_same<T, T1>::value || IsOneOf<T, Ts...>::value };
};
+/*
+ * Complementary type traits for integral comparisons.
+ *
+ * For instance, `if(x < 0)` yields an error in clang for unsigned types
+ * when -Werror is used due to -Wtautological-compare
+ *
+ *
+ * @author: Marcelo Juchem <marcelo@fb.com>
+ */
+
+namespace detail {
+
+template <typename T, bool>
+struct is_negative_impl {
+ constexpr static bool check(T x) { return x < 0; }
+};
+
+template <typename T>
+struct is_negative_impl<T, false> {
+ constexpr static bool check(T) { return false; }
+};
+
+// folly::to integral specializations can end up generating code
+// inside what are really static ifs (not executed because of the templated
+// types) that violate -Wsign-compare and/or -Wbool-compare so suppress them
+// in order to not prevent all calling code from using it.
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wsign-compare"
+#if __GNUC_PREREQ(5, 0)
+#pragma GCC diagnostic ignored "-Wbool-compare"
+#endif
+
+template <typename RHS, RHS rhs, typename LHS>
+bool less_than_impl(LHS const lhs) {
+ return
+ rhs > std::numeric_limits<LHS>::max() ? true :
+ rhs <= std::numeric_limits<LHS>::min() ? false :
+ lhs < rhs;
+}
+
+template <typename RHS, RHS rhs, typename LHS>
+bool greater_than_impl(LHS const lhs) {
+ return
+ rhs > std::numeric_limits<LHS>::max() ? false :
+ rhs < std::numeric_limits<LHS>::min() ? true :
+ lhs > rhs;
+}
+
+#pragma GCC diagnostic pop
+
+} // namespace detail {
+
+// same as `x < 0`
+template <typename T>
+constexpr bool is_negative(T x) {
+ return folly::detail::is_negative_impl<T, std::is_signed<T>::value>::check(x);
+}
+
+// same as `x <= 0`
+template <typename T>
+constexpr bool is_non_positive(T x) { return !x || folly::is_negative(x); }
+
+// same as `x > 0`
+template <typename T>
+constexpr bool is_positive(T x) { return !is_non_positive(x); }
+
+// same as `x >= 0`
+template <typename T>
+constexpr bool is_non_negative(T x) {
+ return !x || is_positive(x);
+}
+
+template <typename RHS, RHS rhs, typename LHS>
+bool less_than(LHS const lhs) {
+ return detail::less_than_impl<
+ RHS, rhs, typename std::remove_reference<LHS>::type
+ >(lhs);
+}
+
+template <typename RHS, RHS rhs, typename LHS>
+bool greater_than(LHS const lhs) {
+ return detail::greater_than_impl<
+ RHS, rhs, typename std::remove_reference<LHS>::type
+ >(lhs);
+}
+
+namespace traits_detail {
+struct InPlaceTag {};
+template <class>
+struct InPlaceTypeTag {};
+template <std::size_t>
+struct InPlaceIndexTag {};
+}
+
+/**
+ * Like std::piecewise_construct, a tag type & instance used for in-place
+ * construction of non-movable contained types, e.g. by Synchronized.
+ * Follows the naming and design of std::in_place suggested in
+ * http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2016/p0032r2.pdf
+ */
+using in_place_t = traits_detail::InPlaceTag (&)(traits_detail::InPlaceTag);
+
+template <class T>
+using in_place_type_t =
+ traits_detail::InPlaceTypeTag<T> (&)(traits_detail::InPlaceTypeTag<T>);
+
+template <std::size_t I>
+using in_place_index_t =
+ traits_detail::InPlaceIndexTag<I> (&)(traits_detail::InPlaceIndexTag<I>);
+
+inline traits_detail::InPlaceTag in_place(traits_detail::InPlaceTag = {}) {
+ return {};
+}
+
+template <class T>
+inline traits_detail::InPlaceTypeTag<T> in_place(
+ traits_detail::InPlaceTypeTag<T> = {}) {
+ return {};
+}
+
+template <std::size_t I>
+inline traits_detail::InPlaceIndexTag<I> in_place(
+ traits_detail::InPlaceIndexTag<I> = {}) {
+ return {};
+}
+
+// For backwards compatibility:
+using construct_in_place_t = in_place_t;
+
+inline traits_detail::InPlaceTag construct_in_place(
+ traits_detail::InPlaceTag = {}) {
+ return {};
+}
+
+/**
+ * Initializer lists are a powerful compile time syntax introduced in C++11
+ * but due to their often conflicting syntax they are not used by APIs for
+ * construction.
+ *
+ * Further standard conforming compilers *strongly* favor an
+ * std::initalizer_list overload for construction if one exists. The
+ * following is a simple tag used to disambiguate construction with
+ * initializer lists and regular uniform initialization.
+ *
+ * For example consider the following case
+ *
+ * class Something {
+ * public:
+ * explicit Something(int);
+ * Something(std::intiializer_list<int>);
+ *
+ * operator int();
+ * };
+ *
+ * ...
+ * Something something{1}; // SURPRISE!!
+ *
+ * The last call to instantiate the Something object will go to the
+ * initializer_list overload. Which may be surprising to users.
+ *
+ * If however this tag was used to disambiguate such construction it would be
+ * easy for users to see which construction overload their code was referring
+ * to. For example
+ *
+ * class Something {
+ * public:
+ * explicit Something(int);
+ * Something(folly::initlist_construct_t, std::initializer_list<int>);
+ *
+ * operator int();
+ * };
+ *
+ * ...
+ * Something something_one{1}; // not the initializer_list overload
+ * Something something_two{folly::initlist_construct, {1}}; // correct
+ */
+struct initlist_construct_t {};
+constexpr initlist_construct_t initlist_construct{};
+
} // namespace folly
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_3(std::basic_string);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::vector);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::list);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::deque);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_4(std::map);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_3(std::set);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::unique_ptr);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(std::shared_ptr);
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(std::function);
+// gcc-5.0 changed string's implementation in libgcc to be non-relocatable
+#if __GNUC__ < 5
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_3(std::basic_string)
+#endif
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::vector)
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::list)
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::deque)
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_2(std::unique_ptr)
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(std::shared_ptr)
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(std::function)
// Boost
-FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(boost::shared_ptr);
+FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(boost::shared_ptr)
+
+#define FOLLY_CREATE_HAS_MEMBER_TYPE_TRAITS(classname, type_name) \
+ template <typename T> \
+ struct classname { \
+ template <typename C> \
+ constexpr static bool test(typename C::type_name*) { return true; } \
+ template <typename> \
+ constexpr static bool test(...) { return false; } \
+ constexpr static bool value = test<T>(nullptr); \
+ }
+
+#define FOLLY_CREATE_HAS_MEMBER_FN_TRAITS_IMPL(classname, func_name, cv_qual) \
+ template <typename TTheClass_, typename RTheReturn_, typename... TTheArgs_> \
+ class classname<TTheClass_, RTheReturn_(TTheArgs_...) cv_qual> { \
+ template < \
+ typename UTheClass_, RTheReturn_ (UTheClass_::*)(TTheArgs_...) cv_qual \
+ > struct sfinae {}; \
+ template <typename UTheClass_> \
+ constexpr static bool test(sfinae<UTheClass_, &UTheClass_::func_name>*) \
+ { return true; } \
+ template <typename> \
+ constexpr static bool test(...) { return false; } \
+ public: \
+ constexpr static bool value = test<TTheClass_>(nullptr); \
+ }
+
+/*
+ * The FOLLY_CREATE_HAS_MEMBER_FN_TRAITS is used to create traits
+ * classes that check for the existence of a member function with
+ * a given name and signature. It currently does not support
+ * checking for inherited members.
+ *
+ * Such classes receive two template parameters: the class to be checked
+ * and the signature of the member function. A static boolean field
+ * named `value` (which is also constexpr) tells whether such member
+ * function exists.
+ *
+ * Each traits class created is bound only to the member name, not to
+ * its signature nor to the type of the class containing it.
+ *
+ * Say you need to know if a given class has a member function named
+ * `test` with the following signature:
+ *
+ * int test() const;
+ *
+ * You'd need this macro to create a traits class to check for a member
+ * named `test`, and then use this traits class to check for the signature:
+ *
+ * namespace {
+ *
+ * FOLLY_CREATE_HAS_MEMBER_FN_TRAITS(has_test_traits, test);
+ *
+ * } // unnamed-namespace
+ *
+ * void some_func() {
+ * cout << "Does class Foo have a member int test() const? "
+ * << boolalpha << has_test_traits<Foo, int() const>::value;
+ * }
+ *
+ * You can use the same traits class to test for a completely different
+ * signature, on a completely different class, as long as the member name
+ * is the same:
+ *
+ * void some_func() {
+ * cout << "Does class Foo have a member int test()? "
+ * << boolalpha << has_test_traits<Foo, int()>::value;
+ * cout << "Does class Foo have a member int test() const? "
+ * << boolalpha << has_test_traits<Foo, int() const>::value;
+ * cout << "Does class Bar have a member double test(const string&, long)? "
+ * << boolalpha << has_test_traits<Bar, double(const string&, long)>::value;
+ * }
+ *
+ * @author: Marcelo Juchem <marcelo@fb.com>
+ */
+#define FOLLY_CREATE_HAS_MEMBER_FN_TRAITS(classname, func_name) \
+ template <typename, typename> class classname; \
+ FOLLY_CREATE_HAS_MEMBER_FN_TRAITS_IMPL(classname, func_name, ); \
+ FOLLY_CREATE_HAS_MEMBER_FN_TRAITS_IMPL(classname, func_name, const); \
+ FOLLY_CREATE_HAS_MEMBER_FN_TRAITS_IMPL( \
+ classname, func_name, /* nolint */ volatile); \
+ FOLLY_CREATE_HAS_MEMBER_FN_TRAITS_IMPL( \
+ classname, func_name, /* nolint */ volatile const)
-#endif //FOLLY_BASE_TRAITS_H_
+/* Some combinations of compilers and C++ libraries make __int128 and
+ * unsigned __int128 available but do not correctly define their standard type
+ * traits.
+ *
+ * If FOLLY_SUPPLY_MISSING_INT128_TRAITS is defined, we define these traits
+ * here.
+ *
+ * @author: Phil Willoughby <philwill@fb.com>
+ */
+#if FOLLY_SUPPLY_MISSING_INT128_TRAITS
+FOLLY_NAMESPACE_STD_BEGIN
+template <>
+struct is_arithmetic<__int128> : ::std::true_type {};
+template <>
+struct is_arithmetic<unsigned __int128> : ::std::true_type {};
+template <>
+struct is_integral<__int128> : ::std::true_type {};
+template <>
+struct is_integral<unsigned __int128> : ::std::true_type {};
+template <>
+struct make_unsigned<__int128> {
+ typedef unsigned __int128 type;
+};
+template <>
+struct make_signed<__int128> {
+ typedef __int128 type;
+};
+template <>
+struct make_unsigned<unsigned __int128> {
+ typedef unsigned __int128 type;
+};
+template <>
+struct make_signed<unsigned __int128> {
+ typedef __int128 type;
+};
+template <>
+struct is_signed<__int128> : ::std::true_type {};
+template <>
+struct is_unsigned<unsigned __int128> : ::std::true_type {};
+FOLLY_NAMESPACE_STD_END
+#endif // FOLLY_SUPPLY_MISSING_INT128_TRAITS
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