463 lines
13 KiB
C++
463 lines
13 KiB
C++
/* Copyright 2016, Ableton AG, Berlin. All rights reserved.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* If you would like to incorporate Link into a proprietary software application,
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* please contact <link-devs@ableton.com>.
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*/
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#pragma once
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#include <ableton/platforms/asio/AsioWrapper.hpp>
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#if defined(LINK_PLATFORM_MACOSX)
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#include <ableton/platforms/darwin/Darwin.hpp>
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#elif defined(LINK_PLATFORM_LINUX)
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#include <ableton/platforms/linux/Linux.hpp>
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#elif defined(LINK_PLATFORM_WINDOWS)
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#include <ableton/platforms/windows/Windows.hpp>
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#elif defined(ESP_PLATFORM)
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#include <ableton/platforms/esp32/Esp32.hpp>
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#endif
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#include <chrono>
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#include <cstdint>
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#include <type_traits>
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#include <utility>
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#include <vector>
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#if defined(LINK_PLATFORM_WINDOWS)
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#include <ws2tcpip.h>
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#include <winsock2.h>
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#include <windows.h>
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#endif
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namespace ableton
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{
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namespace discovery
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{
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// Concept: NetworkByteStreamSerializable
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//
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// A type that can be encoded to a stream of bytes and decoded from a
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// stream of bytes in network byte order. The following type is for
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// documentation purposes only.
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struct NetworkByteStreamSerializable
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{
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friend std::uint32_t sizeInByteStream(const NetworkByteStreamSerializable&);
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// The byte stream pointed to by 'out' must have sufficient space to
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// hold this object, as defined by sizeInByteStream.
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template <typename It>
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friend It toNetworkByteStream(const NetworkByteStreamSerializable&, It out);
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};
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// Deserialization aspect of the concept. Outside of the demonstration
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// type above because clients must specify the type
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// explicitly. Default implementation just defers to a class static
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// method on T. For types that can't provide such a method, specialize
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// this template.
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template <typename T>
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struct Deserialize
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{
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// Throws std::runtime_exception if parsing the type from the given
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// byte range fails. Returns a pair of the correctly parsed value
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// and an iterator to the next byte to parse.
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template <typename It>
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static std::pair<T, It> fromNetworkByteStream(It begin, It end)
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{
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return T::fromNetworkByteStream(std::move(begin), std::move(end));
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}
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};
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// Default size implementation. Works for primitive types.
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template <typename T,
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typename std::enable_if<std::is_fundamental<T>::value>::type* = nullptr>
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std::uint32_t sizeInByteStream(T)
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{
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return sizeof(T);
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}
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namespace detail
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{
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// utilities for implementing concept for primitive types
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template <typename T, typename It>
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It copyToByteStream(T t, It out)
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{
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using namespace std;
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return copy_n(
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reinterpret_cast<typename iterator_traits<It>::pointer>(&t), sizeof(t), out);
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}
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template <typename T, typename It>
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std::pair<T, It> copyFromByteStream(It begin, const It end)
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{
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using namespace std;
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using ItDiff = typename iterator_traits<It>::difference_type;
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if (distance(begin, end) < static_cast<ItDiff>(sizeof(T)))
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{
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throw range_error("Parsing type from byte stream failed");
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}
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else
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{
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T t;
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const auto n = sizeof(t);
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copy_n(begin, n, reinterpret_cast<uint8_t*>(&t));
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return make_pair(t, begin + n);
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}
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}
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} // namespace detail
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// Model the concept for unsigned integral types
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// uint8_t
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template <typename It>
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It toNetworkByteStream(const uint8_t byte, It out)
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{
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return detail::copyToByteStream(byte, std::move(out));
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}
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template <>
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struct Deserialize<uint8_t>
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{
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template <typename It>
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static std::pair<uint8_t, It> fromNetworkByteStream(It begin, It end)
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{
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return detail::copyFromByteStream<uint8_t>(std::move(begin), std::move(end));
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}
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};
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// uint16_t
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template <typename It>
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It toNetworkByteStream(uint16_t s, It out)
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{
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return detail::copyToByteStream(htons(s), std::move(out));
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}
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template <>
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struct Deserialize<uint16_t>
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{
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template <typename It>
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static std::pair<uint16_t, It> fromNetworkByteStream(It begin, It end)
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{
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auto result = detail::copyFromByteStream<uint16_t>(std::move(begin), std::move(end));
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result.first = ntohs(result.first);
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return result;
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}
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};
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// uint32_t
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template <typename It>
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It toNetworkByteStream(uint32_t l, It out)
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{
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return detail::copyToByteStream(htonl(l), std::move(out));
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}
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template <>
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struct Deserialize<uint32_t>
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{
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template <typename It>
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static std::pair<uint32_t, It> fromNetworkByteStream(It begin, It end)
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{
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auto result = detail::copyFromByteStream<uint32_t>(std::move(begin), std::move(end));
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result.first = ntohl(result.first);
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return result;
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}
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};
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// int32_t in terms of uint32_t
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template <typename It>
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It toNetworkByteStream(int32_t l, It out)
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{
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return toNetworkByteStream(reinterpret_cast<const uint32_t&>(l), std::move(out));
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}
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template <>
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struct Deserialize<int32_t>
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{
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template <typename It>
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static std::pair<int32_t, It> fromNetworkByteStream(It begin, It end)
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{
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auto result =
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Deserialize<uint32_t>::fromNetworkByteStream(std::move(begin), std::move(end));
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return std::make_pair(reinterpret_cast<const int32_t&>(result.first), result.second);
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}
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};
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// uint64_t
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template <typename It>
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It toNetworkByteStream(uint64_t ll, It out)
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{
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return detail::copyToByteStream(htonll(ll), std::move(out));
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}
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template <>
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struct Deserialize<uint64_t>
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{
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template <typename It>
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static std::pair<uint64_t, It> fromNetworkByteStream(It begin, It end)
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{
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auto result = detail::copyFromByteStream<uint64_t>(std::move(begin), std::move(end));
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result.first = ntohll(result.first);
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return result;
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}
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};
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// int64_t in terms of uint64_t
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template <typename It>
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It toNetworkByteStream(int64_t ll, It out)
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{
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return toNetworkByteStream(reinterpret_cast<const uint64_t&>(ll), std::move(out));
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}
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template <>
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struct Deserialize<int64_t>
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{
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template <typename It>
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static std::pair<int64_t, It> fromNetworkByteStream(It begin, It end)
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{
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auto result =
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Deserialize<uint64_t>::fromNetworkByteStream(std::move(begin), std::move(end));
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return std::make_pair(reinterpret_cast<const int64_t&>(result.first), result.second);
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}
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};
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// bool
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inline std::uint32_t sizeInByteStream(bool)
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{
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return sizeof(uint8_t);
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}
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template <typename It>
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It toNetworkByteStream(bool bl, It out)
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{
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return toNetworkByteStream(static_cast<uint8_t>(bl), std::move(out));
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}
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template <>
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struct Deserialize<bool>
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{
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template <typename It>
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static std::pair<bool, It> fromNetworkByteStream(It begin, It end)
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{
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auto result =
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Deserialize<uint8_t>::fromNetworkByteStream(std::move(begin), std::move(end));
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return std::make_pair(result.first != 0, result.second);
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}
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};
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// std::chrono::microseconds
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inline std::uint32_t sizeInByteStream(const std::chrono::microseconds micros)
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{
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return sizeInByteStream(micros.count());
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}
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template <typename It>
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It toNetworkByteStream(const std::chrono::microseconds micros, It out)
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{
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static_assert(sizeof(int64_t) == sizeof(std::chrono::microseconds::rep),
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"The size of microseconds::rep must matche the size of int64_t.");
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return toNetworkByteStream(static_cast<int64_t>(micros.count()), std::move(out));
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}
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template <>
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struct Deserialize<std::chrono::microseconds>
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{
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template <typename It>
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static std::pair<std::chrono::microseconds, It> fromNetworkByteStream(It begin, It end)
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{
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using namespace std;
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auto result =
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Deserialize<int64_t>::fromNetworkByteStream(std::move(begin), std::move(end));
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return make_pair(chrono::microseconds{result.first}, result.second);
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}
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};
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namespace detail
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{
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// Generic serialize/deserialize utilities for containers
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template <typename Container>
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std::uint32_t containerSizeInByteStream(const Container& container)
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{
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std::uint32_t totalSize = 0;
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for (const auto& val : container)
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{
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totalSize += sizeInByteStream(val);
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}
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return totalSize;
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}
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template <typename Container, typename It>
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It containerToNetworkByteStream(const Container& container, It out)
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{
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for (const auto& val : container)
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{
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out = toNetworkByteStream(val, out);
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}
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return out;
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}
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template <typename T, typename BytesIt, typename InsertIt>
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BytesIt deserializeContainer(BytesIt bytesBegin,
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const BytesIt bytesEnd,
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InsertIt contBegin,
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const std::uint32_t maxElements)
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{
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using namespace std;
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std::uint32_t numElements = 0;
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while (bytesBegin < bytesEnd && numElements < maxElements)
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{
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T newVal;
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tie(newVal, bytesBegin) = Deserialize<T>::fromNetworkByteStream(bytesBegin, bytesEnd);
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*contBegin++ = newVal;
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++numElements;
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}
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return bytesBegin;
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}
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} // namespace detail
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// Need specific overloads for each container type, but use above
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// utilities for common implementation
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// array
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template <typename T, std::size_t Size>
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std::uint32_t sizeInByteStream(const std::array<T, Size>& arr)
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{
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return detail::containerSizeInByteStream(arr);
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}
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template <typename T, std::size_t Size, typename It>
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It toNetworkByteStream(const std::array<T, Size>& arr, It out)
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{
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return detail::containerToNetworkByteStream(arr, std::move(out));
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}
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template <typename T, std::size_t Size>
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struct Deserialize<std::array<T, Size>>
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{
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template <typename It>
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static std::pair<std::array<T, Size>, It> fromNetworkByteStream(It begin, It end)
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{
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using namespace std;
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array<T, Size> result{};
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auto resultIt = detail::deserializeContainer<T>(
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std::move(begin), std::move(end), std::move(result.begin()), Size);
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return make_pair(std::move(result), std::move(resultIt));
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}
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};
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// vector
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template <typename T, typename Alloc>
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std::uint32_t sizeInByteStream(const std::vector<T, Alloc>& vec)
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{
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return sizeof(uint32_t) + detail::containerSizeInByteStream(vec);
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}
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template <typename T, typename Alloc, typename It>
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It toNetworkByteStream(const std::vector<T, Alloc>& vec, It out)
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{
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out = toNetworkByteStream(static_cast<uint32_t>(vec.size()), out);
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return detail::containerToNetworkByteStream(vec, std::move(out));
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}
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template <typename T, typename Alloc>
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struct Deserialize<std::vector<T, Alloc>>
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{
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template <typename It>
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static std::pair<std::vector<T, Alloc>, It> fromNetworkByteStream(
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It bytesBegin, It bytesEnd)
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{
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using namespace std;
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auto result_size =
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Deserialize<uint32_t>::fromNetworkByteStream(std::move(bytesBegin), bytesEnd);
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vector<T, Alloc> result;
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auto resultIt = detail::deserializeContainer<T>(std::move(result_size.second),
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std::move(bytesEnd), back_inserter(result), result_size.first);
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return make_pair(std::move(result), std::move(resultIt));
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}
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};
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// 2-tuple
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template <typename X, typename Y>
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std::uint32_t sizeInByteStream(const std::tuple<X, Y>& tup)
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{
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return sizeInByteStream(std::get<0>(tup)) + sizeInByteStream(std::get<1>(tup));
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}
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template <typename X, typename Y, typename It>
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It toNetworkByteStream(const std::tuple<X, Y>& tup, It out)
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{
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return toNetworkByteStream(
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std::get<1>(tup), toNetworkByteStream(std::get<0>(tup), std::move(out)));
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}
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template <typename X, typename Y>
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struct Deserialize<std::tuple<X, Y>>
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{
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template <typename It>
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static std::pair<std::tuple<X, Y>, It> fromNetworkByteStream(It begin, It end)
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{
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using namespace std;
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auto xres = Deserialize<X>::fromNetworkByteStream(begin, end);
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auto yres = Deserialize<Y>::fromNetworkByteStream(xres.second, end);
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return make_pair(
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make_tuple(std::move(xres.first), std::move(yres.first)), std::move(yres.second));
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}
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};
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// 3-tuple
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template <typename X, typename Y, typename Z>
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std::uint32_t sizeInByteStream(const std::tuple<X, Y, Z>& tup)
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{
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return sizeInByteStream(std::get<0>(tup)) + sizeInByteStream(std::get<1>(tup))
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+ sizeInByteStream(std::get<2>(tup));
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}
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template <typename X, typename Y, typename Z, typename It>
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It toNetworkByteStream(const std::tuple<X, Y, Z>& tup, It out)
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{
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return toNetworkByteStream(
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std::get<2>(tup), toNetworkByteStream(std::get<1>(tup),
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toNetworkByteStream(std::get<0>(tup), std::move(out))));
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}
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template <typename X, typename Y, typename Z>
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struct Deserialize<std::tuple<X, Y, Z>>
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{
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template <typename It>
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static std::pair<std::tuple<X, Y, Z>, It> fromNetworkByteStream(It begin, It end)
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{
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using namespace std;
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auto xres = Deserialize<X>::fromNetworkByteStream(begin, end);
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auto yres = Deserialize<Y>::fromNetworkByteStream(xres.second, end);
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auto zres = Deserialize<Z>::fromNetworkByteStream(yres.second, end);
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return make_pair(
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make_tuple(std::move(xres.first), std::move(yres.first), std::move(zres.first)),
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std::move(zres.second));
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}
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};
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} // namespace discovery
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} // namespace ableton
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