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496 lines
18 KiB
C++
496 lines
18 KiB
C++
/*
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* Copyright 2017-present Facebook, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#pragma once
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#include <functional>
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#include <iterator>
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#include <memory>
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#include <tuple>
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#include <type_traits>
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#include <utility>
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#include <folly/Utility.h>
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#include <folly/lang/RValueReferenceWrapper.h>
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namespace folly {
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/**
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* Argument tuple for variadic emplace/constructor calls. Stores arguments by
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* (decayed) value. Restores original argument types with reference qualifiers
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* and adornments at unpack time to emulate perfect forwarding.
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*
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* Uses inheritance instead of a type alias to std::tuple so that emplace
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* iterators with implicit unpacking disabled can distinguish between
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* emplace_args and std::tuple parameters.
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*
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* @seealso folly::make_emplace_args
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* @seealso folly::get_emplace_arg
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*/
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template <typename... Args>
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struct emplace_args : public std::tuple<std::decay_t<Args>...> {
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using storage_type = std::tuple<std::decay_t<Args>...>;
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using storage_type::storage_type;
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};
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/**
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* Pack arguments in a tuple for assignment to a folly::emplace_iterator,
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* folly::front_emplace_iterator, or folly::back_emplace_iterator. The
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* iterator's operator= will unpack the tuple and pass the unpacked arguments
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* to the container's emplace function, which in turn forwards the arguments to
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* the (multi-argument) constructor of the target class.
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*
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* Argument tuples generated with folly::make_emplace_args will be unpacked
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* before being passed to the container's emplace function, even for iterators
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* where implicit_unpack is set to false (so they will not implicitly unpack
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* std::pair or std::tuple arguments to operator=).
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*
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* Arguments are copied (lvalues) or moved (rvalues). To avoid copies and moves,
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* wrap references using std::ref(), std::cref(), and folly::rref(). Beware of
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* dangling references, especially references to temporary objects created with
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* folly::rref().
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*
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* Note that an argument pack created with folly::make_emplace_args is different
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* from an argument pack created with std::make_pair or std::make_tuple.
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* Specifically, passing a std::pair&& or std::tuple&& to an emplace iterator's
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* operator= will pass rvalue references to all fields of that tuple to the
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* container's emplace function, while passing an emplace_args&& to operator=
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* will cast those field references to the exact argument types as passed to
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* folly::make_emplace_args previously. If all arguments have been wrapped by
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* std::reference_wrappers or folly::rvalue_reference_wrappers, the result will
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* be the same as if the container's emplace function had been called directly
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* (perfect forwarding), with no temporary copies of the arguments.
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*
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* @seealso folly::rref
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*
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* @example
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* class Widget { Widget(int, int); };
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* std::vector<Widget> makeWidgets(const std::vector<int>& in) {
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* std::vector<Widget> out;
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* std::transform(
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* in.begin(),
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* in.end(),
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* folly::back_emplacer(out),
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* [](int i) { return folly::make_emplace_args(i, i); });
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* return out;
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* }
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*/
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template <typename... Args>
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emplace_args<Args...> make_emplace_args(Args&&... args) noexcept(
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noexcept(emplace_args<Args...>(std::forward<Args>(args)...))) {
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return emplace_args<Args...>(std::forward<Args>(args)...);
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}
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namespace detail {
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template <typename Arg>
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decltype(auto) unwrap_emplace_arg(Arg&& arg) noexcept {
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return std::forward<Arg>(arg);
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}
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template <typename Arg>
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decltype(auto) unwrap_emplace_arg(std::reference_wrapper<Arg> arg) noexcept {
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return arg.get();
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}
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template <typename Arg>
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decltype(auto) unwrap_emplace_arg(
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folly::rvalue_reference_wrapper<Arg> arg) noexcept {
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return std::move(arg).get();
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}
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} // namespace detail
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/**
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* Getter function for unpacking a single emplace argument.
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*
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* Calling get_emplace_arg on an emplace_args rvalue reference results in
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* perfect forwarding of the original input types. A special case are
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* std::reference_wrapper and folly::rvalue_reference_wrapper objects within
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* folly::emplace_args. These are also unwrapped so that the bare reference is
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* returned.
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*
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* std::get is not a customization point in the standard library, so the
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* cleanest solution was to define our own getter function.
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*/
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template <size_t I, typename... Args>
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decltype(auto) get_emplace_arg(emplace_args<Args...>&& args) noexcept {
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using Out = std::tuple<Args...>;
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return detail::unwrap_emplace_arg(
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std::forward<std::tuple_element_t<I, Out>>(std::get<I>(args)));
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}
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template <size_t I, typename... Args>
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decltype(auto) get_emplace_arg(emplace_args<Args...>& args) noexcept {
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return detail::unwrap_emplace_arg(std::get<I>(args));
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}
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template <size_t I, typename... Args>
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decltype(auto) get_emplace_arg(const emplace_args<Args...>& args) noexcept {
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return detail::unwrap_emplace_arg(std::get<I>(args));
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}
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template <size_t I, typename Args>
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decltype(auto) get_emplace_arg(Args&& args) noexcept {
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return std::get<I>(std::move(args));
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}
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template <size_t I, typename Args>
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decltype(auto) get_emplace_arg(Args& args) noexcept {
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return std::get<I>(args);
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}
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template <size_t I, typename Args>
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decltype(auto) get_emplace_arg(const Args& args) noexcept {
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return std::get<I>(args);
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}
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namespace detail {
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/**
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* Emplace implementation class for folly::emplace_iterator.
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*/
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template <typename Container>
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struct Emplace {
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Emplace(Container& c, typename Container::iterator i)
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: container(std::addressof(c)), iter(std::move(i)) {}
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template <typename... Args>
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void emplace(Args&&... args) {
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iter = container->emplace(iter, std::forward<Args>(args)...);
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++iter;
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}
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Container* container;
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typename Container::iterator iter;
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};
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/**
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* Emplace implementation class for folly::hint_emplace_iterator.
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*/
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template <typename Container>
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struct EmplaceHint {
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EmplaceHint(Container& c, typename Container::iterator i)
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: container(std::addressof(c)), iter(std::move(i)) {}
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template <typename... Args>
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void emplace(Args&&... args) {
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iter = container->emplace_hint(iter, std::forward<Args>(args)...);
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++iter;
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}
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Container* container;
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typename Container::iterator iter;
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};
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/**
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* Emplace implementation class for folly::front_emplace_iterator.
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*/
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template <typename Container>
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struct EmplaceFront {
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explicit EmplaceFront(Container& c) : container(std::addressof(c)) {}
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template <typename... Args>
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void emplace(Args&&... args) {
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container->emplace_front(std::forward<Args>(args)...);
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}
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Container* container;
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};
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/**
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* Emplace implementation class for folly::back_emplace_iterator.
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*/
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template <typename Container>
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struct EmplaceBack {
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explicit EmplaceBack(Container& c) : container(std::addressof(c)) {}
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template <typename... Args>
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void emplace(Args&&... args) {
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container->emplace_back(std::forward<Args>(args)...);
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}
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Container* container;
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};
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/**
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* Generic base class and implementation of all emplace iterator classes.
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*
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* Uses the curiously recurring template pattern (CRTP) to cast `this*` to
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* `Derived*`; i.e., to implement covariant return types in a generic manner.
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*/
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template <typename Derived, typename EmplaceImpl, bool implicit_unpack>
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class emplace_iterator_base;
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/**
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* Partial specialization of emplace_iterator_base with implicit unpacking
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* disabled.
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*/
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template <typename Derived, typename EmplaceImpl>
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class emplace_iterator_base<Derived, EmplaceImpl, false>
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: protected EmplaceImpl /* protected implementation inheritance */ {
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public:
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// Iterator traits.
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using iterator_category = std::output_iterator_tag;
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using value_type = void;
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using difference_type = void;
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using pointer = void;
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using reference = void;
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using container_type =
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std::remove_reference_t<decltype(*EmplaceImpl::container)>;
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using EmplaceImpl::EmplaceImpl;
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/**
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* Canonical output operator. Forwards single argument straight to container's
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* emplace function.
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*/
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template <typename T>
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Derived& operator=(T&& arg) {
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this->emplace(std::forward<T>(arg));
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return static_cast<Derived&>(*this);
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}
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/**
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* Special output operator for packed arguments. Unpacks args and performs
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* variadic call to container's emplace function.
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*/
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template <typename... Args>
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Derived& operator=(emplace_args<Args...>& args) {
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return unpackAndEmplace(args, index_sequence_for<Args...>{});
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}
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template <typename... Args>
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Derived& operator=(const emplace_args<Args...>& args) {
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return unpackAndEmplace(args, index_sequence_for<Args...>{});
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}
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template <typename... Args>
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Derived& operator=(emplace_args<Args...>&& args) {
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return unpackAndEmplace(std::move(args), index_sequence_for<Args...>{});
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}
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// No-ops.
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Derived& operator*() {
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return static_cast<Derived&>(*this);
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}
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Derived& operator++() {
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return static_cast<Derived&>(*this);
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}
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Derived& operator++(int) {
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return static_cast<Derived&>(*this);
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}
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// We need all of these explicit defaults because the custom operator=
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// overloads disable implicit generation of these functions.
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emplace_iterator_base(const emplace_iterator_base&) = default;
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emplace_iterator_base(emplace_iterator_base&&) noexcept = default;
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emplace_iterator_base& operator=(emplace_iterator_base&) = default;
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emplace_iterator_base& operator=(const emplace_iterator_base&) = default;
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emplace_iterator_base& operator=(emplace_iterator_base&&) noexcept = default;
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protected:
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template <typename Args, std::size_t... I>
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Derived& unpackAndEmplace(Args& args, index_sequence<I...>) {
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this->emplace(get_emplace_arg<I>(args)...);
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return static_cast<Derived&>(*this);
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}
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template <typename Args, std::size_t... I>
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Derived& unpackAndEmplace(const Args& args, index_sequence<I...>) {
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this->emplace(get_emplace_arg<I>(args)...);
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return static_cast<Derived&>(*this);
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}
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template <typename Args, std::size_t... I>
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Derived& unpackAndEmplace(Args&& args, index_sequence<I...>) {
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this->emplace(get_emplace_arg<I>(std::move(args))...);
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return static_cast<Derived&>(*this);
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}
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};
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/**
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* Partial specialization of emplace_iterator_base with implicit unpacking
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* enabled.
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*
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* Uses inheritance rather than SFINAE. operator= requires a single argument,
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* which makes it very tricky to use std::enable_if or similar.
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*/
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template <typename Derived, typename EmplaceImpl>
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class emplace_iterator_base<Derived, EmplaceImpl, true>
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: public emplace_iterator_base<Derived, EmplaceImpl, false> {
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private:
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using Base = emplace_iterator_base<Derived, EmplaceImpl, false>;
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public:
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using Base::Base;
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using Base::operator=;
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/**
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* Special output operator for arguments packed into a std::pair. Unpacks
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* the pair and performs variadic call to container's emplace function.
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*/
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template <typename... Args>
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Derived& operator=(std::pair<Args...>& args) {
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return this->unpackAndEmplace(args, index_sequence_for<Args...>{});
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}
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template <typename... Args>
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Derived& operator=(const std::pair<Args...>& args) {
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return this->unpackAndEmplace(args, index_sequence_for<Args...>{});
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}
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template <typename... Args>
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Derived& operator=(std::pair<Args...>&& args) {
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return this->unpackAndEmplace(
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std::move(args), index_sequence_for<Args...>{});
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}
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/**
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* Special output operator for arguments packed into a std::tuple. Unpacks
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* the tuple and performs variadic call to container's emplace function.
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*/
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template <typename... Args>
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Derived& operator=(std::tuple<Args...>& args) {
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return this->unpackAndEmplace(args, index_sequence_for<Args...>{});
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}
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template <typename... Args>
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Derived& operator=(const std::tuple<Args...>& args) {
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return this->unpackAndEmplace(args, index_sequence_for<Args...>{});
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}
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template <typename... Args>
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Derived& operator=(std::tuple<Args...>&& args) {
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return this->unpackAndEmplace(
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std::move(args), index_sequence_for<Args...>{});
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}
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// We need all of these explicit defaults because the custom operator=
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// overloads disable implicit generation of these functions.
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emplace_iterator_base(const emplace_iterator_base&) = default;
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emplace_iterator_base(emplace_iterator_base&&) noexcept = default;
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emplace_iterator_base& operator=(emplace_iterator_base&) = default;
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emplace_iterator_base& operator=(const emplace_iterator_base&) = default;
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emplace_iterator_base& operator=(emplace_iterator_base&&) noexcept = default;
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};
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/**
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* Concrete instantiation of emplace_iterator_base. All emplace iterator
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* classes; folly::emplace_iterator, folly::hint_emplace_iterator,
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* folly::front_emplace_iterator, and folly::back_emplace_iterator; are just
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* type aliases of this class.
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*
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* It is not possible to alias emplace_iterator_base directly, because type
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* aliases cannot be used for CRTP.
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*/
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template <
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template <typename> class EmplaceImplT,
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typename Container,
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bool implicit_unpack>
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class emplace_iterator_impl
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: public emplace_iterator_base<
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emplace_iterator_impl<EmplaceImplT, Container, implicit_unpack>,
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EmplaceImplT<Container>,
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implicit_unpack> {
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private:
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using Base = emplace_iterator_base<
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emplace_iterator_impl,
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EmplaceImplT<Container>,
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implicit_unpack>;
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public:
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using Base::Base;
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using Base::operator=;
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// We need all of these explicit defaults because the custom operator=
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// overloads disable implicit generation of these functions.
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emplace_iterator_impl(const emplace_iterator_impl&) = default;
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emplace_iterator_impl(emplace_iterator_impl&&) noexcept = default;
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emplace_iterator_impl& operator=(emplace_iterator_impl&) = default;
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emplace_iterator_impl& operator=(const emplace_iterator_impl&) = default;
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emplace_iterator_impl& operator=(emplace_iterator_impl&&) noexcept = default;
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};
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} // namespace detail
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/**
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* Behaves just like std::insert_iterator except that it calls emplace()
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* instead of insert(). Uses perfect forwarding.
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*/
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template <typename Container, bool implicit_unpack = true>
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using emplace_iterator =
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detail::emplace_iterator_impl<detail::Emplace, Container, implicit_unpack>;
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/**
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* Behaves just like std::insert_iterator except that it calls emplace_hint()
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* instead of insert(). Uses perfect forwarding.
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*/
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template <typename Container, bool implicit_unpack = true>
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using hint_emplace_iterator = detail::
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emplace_iterator_impl<detail::EmplaceHint, Container, implicit_unpack>;
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/**
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* Behaves just like std::front_insert_iterator except that it calls
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* emplace_front() instead of insert(). Uses perfect forwarding.
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*/
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template <typename Container, bool implicit_unpack = true>
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using front_emplace_iterator = detail::
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emplace_iterator_impl<detail::EmplaceFront, Container, implicit_unpack>;
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/**
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* Behaves just like std::back_insert_iterator except that it calls
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* emplace_back() instead of insert(). Uses perfect forwarding.
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*/
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template <typename Container, bool implicit_unpack = true>
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using back_emplace_iterator = detail::
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emplace_iterator_impl<detail::EmplaceBack, Container, implicit_unpack>;
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/**
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* Convenience function to construct a folly::emplace_iterator, analogous to
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* std::inserter().
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*
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* Setting implicit_unpack to false will disable implicit unpacking of
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* single std::pair and std::tuple arguments to the iterator's operator=. That
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* may be desirable in case of constructors that expect a std::pair or
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* std::tuple argument.
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*/
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template <bool implicit_unpack = true, typename Container>
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emplace_iterator<Container, implicit_unpack> emplacer(
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Container& c,
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typename Container::iterator i) {
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return emplace_iterator<Container, implicit_unpack>(c, std::move(i));
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}
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/**
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* Convenience function to construct a folly::hint_emplace_iterator, analogous
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* to std::inserter().
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*
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* Setting implicit_unpack to false will disable implicit unpacking of
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* single std::pair and std::tuple arguments to the iterator's operator=. That
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* may be desirable in case of constructors that expect a std::pair or
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* std::tuple argument.
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*/
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template <bool implicit_unpack = true, typename Container>
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hint_emplace_iterator<Container, implicit_unpack> hint_emplacer(
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Container& c,
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typename Container::iterator i) {
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return hint_emplace_iterator<Container, implicit_unpack>(c, std::move(i));
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}
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/**
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* Convenience function to construct a folly::front_emplace_iterator, analogous
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* to std::front_inserter().
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*
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* Setting implicit_unpack to false will disable implicit unpacking of
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* single std::pair and std::tuple arguments to the iterator's operator=. That
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* may be desirable in case of constructors that expect a std::pair or
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* std::tuple argument.
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*/
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template <bool implicit_unpack = true, typename Container>
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front_emplace_iterator<Container, implicit_unpack> front_emplacer(
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Container& c) {
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return front_emplace_iterator<Container, implicit_unpack>(c);
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}
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|
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/**
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* Convenience function to construct a folly::back_emplace_iterator, analogous
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* to std::back_inserter().
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|
*
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|
* Setting implicit_unpack to false will disable implicit unpacking of
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|
* single std::pair and std::tuple arguments to the iterator's operator=. That
|
|
* may be desirable in case of constructors that expect a std::pair or
|
|
* std::tuple argument.
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|
*/
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|
template <bool implicit_unpack = true, typename Container>
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back_emplace_iterator<Container, implicit_unpack> back_emplacer(Container& c) {
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|
return back_emplace_iterator<Container, implicit_unpack>(c);
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|
}
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} // namespace folly
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