boost/beast/core/impl/static_buffer.ipp
// // Copyright (c) 2016-2017 Vinnie Falco (vinnie dot falco at gmail dot com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // Official repository: https://github.com/boostorg/beast // #ifndef BOOST_BEAST_IMPL_STATIC_BUFFER_IPP #define BOOST_BEAST_IMPL_STATIC_BUFFER_IPP #include <boost/beast/core/detail/type_traits.hpp> #include <boost/asio/buffer.hpp> #include <boost/throw_exception.hpp> #include <algorithm> #include <cstring> #include <iterator> #include <stdexcept> namespace boost { namespace beast { inline static_buffer_base:: static_buffer_base(void* p, std::size_t size) : begin_(reinterpret_cast<char*>(p)) , capacity_(size) { } inline auto static_buffer_base:: data() const -> const_buffers_type { using boost::asio::const_buffer; const_buffers_type result; if(in_off_ + in_size_ <= capacity_) { result[0] = const_buffer{begin_ + in_off_, in_size_}; result[1] = const_buffer{begin_, 0}; } else { result[0] = const_buffer{begin_ + in_off_, capacity_ - in_off_}; result[1] = const_buffer{begin_, in_size_ - (capacity_ - in_off_)}; } return result; } inline auto static_buffer_base:: mutable_data() -> mutable_buffers_type { using boost::asio::mutable_buffer; mutable_buffers_type result; if(in_off_ + in_size_ <= capacity_) { result[0] = mutable_buffer{begin_ + in_off_, in_size_}; result[1] = mutable_buffer{begin_, 0}; } else { result[0] = mutable_buffer{begin_ + in_off_, capacity_ - in_off_}; result[1] = mutable_buffer{begin_, in_size_ - (capacity_ - in_off_)}; } return result; } inline auto static_buffer_base:: prepare(std::size_t size) -> mutable_buffers_type { using boost::asio::mutable_buffer; if(size > capacity_ - in_size_) BOOST_THROW_EXCEPTION(std::length_error{ "buffer overflow"}); out_size_ = size; auto const out_off = (in_off_ + in_size_) % capacity_; mutable_buffers_type result; if(out_off + out_size_ <= capacity_ ) { result[0] = mutable_buffer{begin_ + out_off, out_size_}; result[1] = mutable_buffer{begin_, 0}; } else { result[0] = mutable_buffer{begin_ + out_off, capacity_ - out_off}; result[1] = mutable_buffer{begin_, out_size_ - (capacity_ - out_off)}; } return result; } inline void static_buffer_base:: commit(std::size_t size) { in_size_ += (std::min)(size, out_size_); out_size_ = 0; } inline void static_buffer_base:: consume(std::size_t size) { if(size < in_size_) { in_off_ = (in_off_ + size) % capacity_; in_size_ -= size; } else { // rewind the offset, so the next call to prepare // can have a longer continguous segment. this helps // algorithms optimized for larger buffesr. in_off_ = 0; in_size_ = 0; } } inline void static_buffer_base:: reset(void* p, std::size_t size) { begin_ = reinterpret_cast<char*>(p); capacity_ = size; in_off_ = 0; in_size_ = 0; out_size_ = 0; } //------------------------------------------------------------------------------ template<std::size_t N> static_buffer<N>:: static_buffer(static_buffer const& other) : static_buffer_base(buf_, N) { using boost::asio::buffer_copy; this->commit(buffer_copy( this->prepare(other.size()), other.data())); } template<std::size_t N> auto static_buffer<N>:: operator=(static_buffer const& other) -> static_buffer<N>& { using boost::asio::buffer_copy; this->consume(this->size()); this->commit(buffer_copy( this->prepare(other.size()), other.data())); return *this; } } // beast } // boost #endif