Boost C++ Libraries

...one of the most highly regarded and expertly designed C++ library projects in the world. Herb Sutter and Andrei Alexandrescu, C++ Coding Standards

This is the documentation for an old version of Boost. Click here to view this page for the latest version.
PrevUpHomeNext

Counted Stream 💡

This example shows the definition of a layered stream which keeps individual counts of the total number of bytes read from and written to the next layer. It meets the requirements for synchronous and asynchronous read and write streams:

// A layered stream which counts the bytes read and bytes written on the next layer
template <class NextLayer>
class counted_stream
{
    NextLayer next_layer_;              // Reads and writes are passed through to this
    std::size_t bytes_read_ = 0;        // Holds the total bytes read
    std::size_t bytes_written_ = 0;     // Holds the total bytes written

    // This is the "initiation" object passed to async_initiate to start the operation
    struct run_read_op
    {
        template<
            class ReadHandler,
            class MutableBufferSequence>
        void
        operator()(
            ReadHandler&& handler,
            counted_stream* stream,
            MutableBufferSequence const& buffers)
        {
            using handler_type = typename std::decay<ReadHandler>::type;

            // async_base handles all of the composed operation boilerplate for us
            using base = async_base<
                handler_type, beast::executor_type<NextLayer>>;

            // Our composed operation is implemented as a completion handler object
            struct op : base
            {
                counted_stream& stream_;

                op( counted_stream& stream,
                    handler_type&& handler,
                    MutableBufferSequence const& buffers)
                    : base(std::move(handler), stream.get_executor())
                    , stream_(stream)
                {
                    // Start the asynchronous operation
                    stream_.next_layer().async_read_some(buffers, std::move(*this));
                }

                void operator()(error_code ec, std::size_t bytes_transferred)
                {
                    // Count the bytes transferred towards the total
                    stream_.bytes_read_ += bytes_transferred;

                    this->complete_now(ec, bytes_transferred);
                }
            };

            op(*stream, std::forward<ReadHandler>(handler), buffers);
        }
    };

    // This is the "initiation" object passed to async_initiate to start the operation
    struct run_write_op
    {
        template<
            class WriteHandler,
            class ConstBufferSequence>
        void
        operator()(
            WriteHandler&& handler,
            counted_stream* stream,
            ConstBufferSequence const& buffers)
        {
            using handler_type = typename std::decay<WriteHandler>::type;

            // async_base handles all of the composed operation boilerplate for us
            using base = async_base<
                handler_type, beast::executor_type<NextLayer>>;

            // Our composed operation is implemented as a completion handler object
            struct op : base
            {
                counted_stream& stream_;

                op( counted_stream& stream,
                    handler_type&& handler,
                    ConstBufferSequence const& buffers)
                    : base(std::move(handler), stream.get_executor())
                    , stream_(stream)
                {
                    // Start the asynchronous operation
                    stream_.next_layer().async_write_some(buffers, std::move(*this));
                }

                void operator()(error_code ec, std::size_t bytes_transferred)
                {
                    // Count the bytes transferred towards the total
                    stream_.bytes_written_ += bytes_transferred;

                    this->complete_now(ec, bytes_transferred);
                }
            };

            op(*stream, std::forward<WriteHandler>(handler), buffers);
        }
    };

public:
    /// The type of executor used by this stream
    using executor_type = beast::executor_type<NextLayer>;

    /// Constructor
    template <class... Args>
    explicit
    counted_stream(Args&&... args)
        : next_layer_(std::forward<Args>(args)...)
    {
    }

    /// Returns an instance of the executor used to submit completion handlers
    executor_type get_executor() noexcept
    {
        return next_layer_.get_executor();
    }

    /// Returns a reference to the next layer
    NextLayer& next_layer() noexcept
    {
        return next_layer_;
    }

    /// Returns a reference to the next layer
    NextLayer const& next_layer() const noexcept
    {
        return next_layer_;
    }

    /// Returns the total number of bytes read since the stream was constructed
    std::size_t bytes_read() const noexcept
    {
        return bytes_read_;
    }

    /// Returns the total number of bytes written since the stream was constructed
    std::size_t bytes_written() const noexcept
    {
        return bytes_written_;
    }

    /// Read some data from the stream
    template <class MutableBufferSequence>
    std::size_t read_some(MutableBufferSequence const& buffers)
    {
        auto const bytes_transferred = next_layer_.read_some(buffers);
        bytes_read_ += bytes_transferred;
        return bytes_transferred;
    }

    /// Read some data from the stream
    template <class MutableBufferSequence>
    std::size_t read_some(MutableBufferSequence const& buffers, error_code& ec)
    {
        auto const bytes_transferred = next_layer_.read_some(buffers, ec);
        bytes_read_ += bytes_transferred;
        return bytes_transferred;
    }

    /// Write some data to the stream
    template <class ConstBufferSequence>
    std::size_t write_some(ConstBufferSequence const& buffers)
    {
        auto const bytes_transferred = next_layer_.write_some(buffers);
        bytes_written_ += bytes_transferred;
        return bytes_transferred;
    }

    /// Write some data to the stream
    template <class ConstBufferSequence>
    std::size_t write_some(ConstBufferSequence const& buffers, error_code& ec)
    {
        auto const bytes_transferred = next_layer_.write_some(buffers, ec);
        bytes_written_ += bytes_transferred;
        return bytes_transferred;
    }

    /// Read some data from the stream asynchronously
    template<
        class MutableBufferSequence,
        class ReadHandler =
            net::default_completion_token_t<executor_type>>
    BOOST_BEAST_ASYNC_RESULT2(ReadHandler)
    async_read_some(
        MutableBufferSequence const& buffers,
        ReadHandler&& handler =
            net::default_completion_token_t<executor_type>{})
    {
        return net::async_initiate<
            ReadHandler,
            void(error_code, std::size_t)>(
                run_read_op{},
                handler,
                this,
                buffers);
    }

    /// Write some data to the stream asynchronously
    template<
        class ConstBufferSequence,
        class WriteHandler =
            net::default_completion_token_t<executor_type>>
    BOOST_BEAST_ASYNC_RESULT2(WriteHandler)
    async_write_some(
        ConstBufferSequence const& buffers,
        WriteHandler&& handler =
            net::default_completion_token_t<
                executor_type>{})
    {
        return net::async_initiate<
            WriteHandler,
            void(error_code, std::size_t)>(
                run_write_op{},
                handler,
                this,
                buffers);
    }
};

PrevUpHomeNext