boost/asio/detail/consuming_buffers.hpp
// // detail/consuming_buffers.hpp // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2024 Christopher M. Kohlhoff (chris at kohlhoff 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) // #ifndef BOOST_ASIO_DETAIL_CONSUMING_BUFFERS_HPP #define BOOST_ASIO_DETAIL_CONSUMING_BUFFERS_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include <boost/asio/detail/config.hpp> #include <cstddef> #include <boost/asio/buffer.hpp> #include <boost/asio/detail/buffer_sequence_adapter.hpp> #include <boost/asio/detail/limits.hpp> #include <boost/asio/registered_buffer.hpp> #include <boost/asio/detail/push_options.hpp> namespace boost { namespace asio { namespace detail { // Helper template to determine the maximum number of prepared buffers. template <typename Buffers> struct prepared_buffers_max { enum { value = buffer_sequence_adapter_base::max_buffers }; }; template <typename Elem, std::size_t N> struct prepared_buffers_max<boost::array<Elem, N>> { enum { value = N }; }; template <typename Elem, std::size_t N> struct prepared_buffers_max<std::array<Elem, N>> { enum { value = N }; }; // A buffer sequence used to represent a subsequence of the buffers. template <typename Buffer, std::size_t MaxBuffers> struct prepared_buffers { typedef Buffer value_type; typedef const Buffer* const_iterator; enum { max_buffers = MaxBuffers < 16 ? MaxBuffers : 16 }; prepared_buffers() : count(0) {} const_iterator begin() const { return elems; } const_iterator end() const { return elems + count; } Buffer elems[max_buffers]; std::size_t count; }; // A proxy for a sub-range in a list of buffers. template <typename Buffer, typename Buffers, typename Buffer_Iterator> class consuming_buffers { public: typedef prepared_buffers<Buffer, prepared_buffers_max<Buffers>::value> prepared_buffers_type; // Construct to represent the entire list of buffers. explicit consuming_buffers(const Buffers& buffers) : buffers_(buffers), total_consumed_(0), next_elem_(0), next_elem_offset_(0) { using boost::asio::buffer_size; total_size_ = buffer_size(buffers); } // Determine if we are at the end of the buffers. bool empty() const { return total_consumed_ >= total_size_; } // Get the buffer for a single transfer, with a size. prepared_buffers_type prepare(std::size_t max_size) { prepared_buffers_type result; Buffer_Iterator next = boost::asio::buffer_sequence_begin(buffers_); Buffer_Iterator end = boost::asio::buffer_sequence_end(buffers_); std::advance(next, next_elem_); std::size_t elem_offset = next_elem_offset_; while (next != end && max_size > 0 && (result.count) < result.max_buffers) { Buffer next_buf = Buffer(*next) + elem_offset; result.elems[result.count] = boost::asio::buffer(next_buf, max_size); max_size -= result.elems[result.count].size(); elem_offset = 0; if (result.elems[result.count].size() > 0) ++result.count; ++next; } return result; } // Consume the specified number of bytes from the buffers. void consume(std::size_t size) { total_consumed_ += size; Buffer_Iterator next = boost::asio::buffer_sequence_begin(buffers_); Buffer_Iterator end = boost::asio::buffer_sequence_end(buffers_); std::advance(next, next_elem_); while (next != end && size > 0) { Buffer next_buf = Buffer(*next) + next_elem_offset_; if (size < next_buf.size()) { next_elem_offset_ += size; size = 0; } else { size -= next_buf.size(); next_elem_offset_ = 0; ++next_elem_; ++next; } } } // Get the total number of bytes consumed from the buffers. std::size_t total_consumed() const { return total_consumed_; } private: Buffers buffers_; std::size_t total_size_; std::size_t total_consumed_; std::size_t next_elem_; std::size_t next_elem_offset_; }; // Base class of all consuming_buffers specialisations for single buffers. template <typename Buffer> class consuming_single_buffer { public: // Construct to represent the entire list of buffers. template <typename Buffer1> explicit consuming_single_buffer(const Buffer1& buffer) : buffer_(buffer), total_consumed_(0) { } // Determine if we are at the end of the buffers. bool empty() const { return total_consumed_ >= buffer_.size(); } // Get the buffer for a single transfer, with a size. Buffer prepare(std::size_t max_size) { return boost::asio::buffer(buffer_ + total_consumed_, max_size); } // Consume the specified number of bytes from the buffers. void consume(std::size_t size) { total_consumed_ += size; } // Get the total number of bytes consumed from the buffers. std::size_t total_consumed() const { return total_consumed_; } private: Buffer buffer_; std::size_t total_consumed_; }; template <> class consuming_buffers<mutable_buffer, mutable_buffer, const mutable_buffer*> : public consuming_single_buffer<BOOST_ASIO_MUTABLE_BUFFER> { public: explicit consuming_buffers(const mutable_buffer& buffer) : consuming_single_buffer<BOOST_ASIO_MUTABLE_BUFFER>(buffer) { } }; template <> class consuming_buffers<const_buffer, mutable_buffer, const mutable_buffer*> : public consuming_single_buffer<BOOST_ASIO_CONST_BUFFER> { public: explicit consuming_buffers(const mutable_buffer& buffer) : consuming_single_buffer<BOOST_ASIO_CONST_BUFFER>(buffer) { } }; template <> class consuming_buffers<const_buffer, const_buffer, const const_buffer*> : public consuming_single_buffer<BOOST_ASIO_CONST_BUFFER> { public: explicit consuming_buffers(const const_buffer& buffer) : consuming_single_buffer<BOOST_ASIO_CONST_BUFFER>(buffer) { } }; #if !defined(BOOST_ASIO_NO_DEPRECATED) template <> class consuming_buffers<mutable_buffer, mutable_buffers_1, const mutable_buffer*> : public consuming_single_buffer<BOOST_ASIO_MUTABLE_BUFFER> { public: explicit consuming_buffers(const mutable_buffers_1& buffer) : consuming_single_buffer<BOOST_ASIO_MUTABLE_BUFFER>(buffer) { } }; template <> class consuming_buffers<const_buffer, mutable_buffers_1, const mutable_buffer*> : public consuming_single_buffer<BOOST_ASIO_CONST_BUFFER> { public: explicit consuming_buffers(const mutable_buffers_1& buffer) : consuming_single_buffer<BOOST_ASIO_CONST_BUFFER>(buffer) { } }; template <> class consuming_buffers<const_buffer, const_buffers_1, const const_buffer*> : public consuming_single_buffer<BOOST_ASIO_CONST_BUFFER> { public: explicit consuming_buffers(const const_buffers_1& buffer) : consuming_single_buffer<BOOST_ASIO_CONST_BUFFER>(buffer) { } }; #endif // !defined(BOOST_ASIO_NO_DEPRECATED) template <> class consuming_buffers<mutable_buffer, mutable_registered_buffer, const mutable_buffer*> : public consuming_single_buffer<mutable_registered_buffer> { public: explicit consuming_buffers(const mutable_registered_buffer& buffer) : consuming_single_buffer<mutable_registered_buffer>(buffer) { } }; template <> class consuming_buffers<const_buffer, mutable_registered_buffer, const mutable_buffer*> : public consuming_single_buffer<mutable_registered_buffer> { public: explicit consuming_buffers(const mutable_registered_buffer& buffer) : consuming_single_buffer<mutable_registered_buffer>(buffer) { } }; template <> class consuming_buffers<const_buffer, const_registered_buffer, const const_buffer*> : public consuming_single_buffer<const_registered_buffer> { public: explicit consuming_buffers(const const_registered_buffer& buffer) : consuming_single_buffer<const_registered_buffer>(buffer) { } }; template <typename Buffer, typename Elem> class consuming_buffers<Buffer, boost::array<Elem, 2>, typename boost::array<Elem, 2>::const_iterator> { public: // Construct to represent the entire list of buffers. explicit consuming_buffers(const boost::array<Elem, 2>& buffers) : buffers_(buffers), total_consumed_(0) { } // Determine if we are at the end of the buffers. bool empty() const { return total_consumed_ >= Buffer(buffers_[0]).size() + Buffer(buffers_[1]).size(); } // Get the buffer for a single transfer, with a size. boost::array<Buffer, 2> prepare(std::size_t max_size) { boost::array<Buffer, 2> result = {{ Buffer(buffers_[0]), Buffer(buffers_[1]) }}; std::size_t buffer0_size = result[0].size(); result[0] = boost::asio::buffer(result[0] + total_consumed_, max_size); result[1] = boost::asio::buffer( result[1] + (total_consumed_ < buffer0_size ? 0 : total_consumed_ - buffer0_size), max_size - result[0].size()); return result; } // Consume the specified number of bytes from the buffers. void consume(std::size_t size) { total_consumed_ += size; } // Get the total number of bytes consumed from the buffers. std::size_t total_consumed() const { return total_consumed_; } private: boost::array<Elem, 2> buffers_; std::size_t total_consumed_; }; template <typename Buffer, typename Elem> class consuming_buffers<Buffer, std::array<Elem, 2>, typename std::array<Elem, 2>::const_iterator> { public: // Construct to represent the entire list of buffers. explicit consuming_buffers(const std::array<Elem, 2>& buffers) : buffers_(buffers), total_consumed_(0) { } // Determine if we are at the end of the buffers. bool empty() const { return total_consumed_ >= Buffer(buffers_[0]).size() + Buffer(buffers_[1]).size(); } // Get the buffer for a single transfer, with a size. std::array<Buffer, 2> prepare(std::size_t max_size) { std::array<Buffer, 2> result = {{ Buffer(buffers_[0]), Buffer(buffers_[1]) }}; std::size_t buffer0_size = result[0].size(); result[0] = boost::asio::buffer(result[0] + total_consumed_, max_size); result[1] = boost::asio::buffer( result[1] + (total_consumed_ < buffer0_size ? 0 : total_consumed_ - buffer0_size), max_size - result[0].size()); return result; } // Consume the specified number of bytes from the buffers. void consume(std::size_t size) { total_consumed_ += size; } // Get the total number of bytes consumed from the buffers. std::size_t total_consumed() const { return total_consumed_; } private: std::array<Elem, 2> buffers_; std::size_t total_consumed_; }; // Specialisation for null_buffers to ensure that the null_buffers type is // always passed through to the underlying read or write operation. template <typename Buffer> class consuming_buffers<Buffer, null_buffers, const mutable_buffer*> : public boost::asio::null_buffers { public: consuming_buffers(const null_buffers&) { // No-op. } bool empty() { return false; } null_buffers prepare(std::size_t) { return null_buffers(); } void consume(std::size_t) { // No-op. } std::size_t total_consumed() const { return 0; } }; } // namespace detail } // namespace asio } // namespace boost #include <boost/asio/detail/pop_options.hpp> #endif // BOOST_ASIO_DETAIL_CONSUMING_BUFFERS_HPP