// // buffers_iterator.hpp // ~~~~~~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2012 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_BUFFERS_ITERATOR_HPP #define BOOST_ASIO_BUFFERS_ITERATOR_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include #include #include #include #include #include #include #include #include namespace boost { namespace asio { namespace detail { template struct buffers_iterator_types_helper; template <> struct buffers_iterator_types_helper { typedef const_buffer buffer_type; template struct byte_type { typedef typename boost::add_const::type type; }; }; template <> struct buffers_iterator_types_helper { typedef mutable_buffer buffer_type; template struct byte_type { typedef ByteType type; }; }; template struct buffers_iterator_types { enum { is_mutable = boost::is_convertible< typename BufferSequence::value_type, mutable_buffer>::value }; typedef buffers_iterator_types_helper helper; typedef typename helper::buffer_type buffer_type; typedef typename helper::template byte_type::type byte_type; }; } /// A random access iterator over the bytes in a buffer sequence. template class buffers_iterator { private: typedef typename detail::buffers_iterator_types< BufferSequence, ByteType>::buffer_type buffer_type; public: /// The type used for the distance between two iterators. typedef std::ptrdiff_t difference_type; /// The type of the value pointed to by the iterator. typedef ByteType value_type; #if defined(GENERATING_DOCUMENTATION) /// The type of the result of applying operator->() to the iterator. /** * If the buffer sequence stores buffer objects that are convertible to * mutable_buffer, this is a pointer to a non-const ByteType. Otherwise, a * pointer to a const ByteType. */ typedef const_or_non_const_ByteType* pointer; #else // defined(GENERATING_DOCUMENTATION) typedef typename detail::buffers_iterator_types< BufferSequence, ByteType>::byte_type* pointer; #endif // defined(GENERATING_DOCUMENTATION) #if defined(GENERATING_DOCUMENTATION) /// The type of the result of applying operator*() to the iterator. /** * If the buffer sequence stores buffer objects that are convertible to * mutable_buffer, this is a reference to a non-const ByteType. Otherwise, a * reference to a const ByteType. */ typedef const_or_non_const_ByteType& reference; #else // defined(GENERATING_DOCUMENTATION) typedef typename detail::buffers_iterator_types< BufferSequence, ByteType>::byte_type& reference; #endif // defined(GENERATING_DOCUMENTATION) /// The iterator category. typedef std::random_access_iterator_tag iterator_category; /// Default constructor. Creates an iterator in an undefined state. buffers_iterator() : current_buffer_(), current_buffer_position_(0), begin_(), current_(), end_(), position_(0) { } /// Construct an iterator representing the beginning of the buffers' data. static buffers_iterator begin(const BufferSequence& buffers) #if BOOST_WORKAROUND(__GNUC__, == 4) && BOOST_WORKAROUND(__GNUC_MINOR__, == 3) __attribute__ ((__noinline__)) #endif { buffers_iterator new_iter; new_iter.begin_ = buffers.begin(); new_iter.current_ = buffers.begin(); new_iter.end_ = buffers.end(); while (new_iter.current_ != new_iter.end_) { new_iter.current_buffer_ = *new_iter.current_; if (boost::asio::buffer_size(new_iter.current_buffer_) > 0) break; ++new_iter.current_; } return new_iter; } /// Construct an iterator representing the end of the buffers' data. static buffers_iterator end(const BufferSequence& buffers) #if BOOST_WORKAROUND(__GNUC__, == 4) && BOOST_WORKAROUND(__GNUC_MINOR__, == 3) __attribute__ ((__noinline__)) #endif { buffers_iterator new_iter; new_iter.begin_ = buffers.begin(); new_iter.current_ = buffers.begin(); new_iter.end_ = buffers.end(); while (new_iter.current_ != new_iter.end_) { buffer_type buffer = *new_iter.current_; new_iter.position_ += boost::asio::buffer_size(buffer); ++new_iter.current_; } return new_iter; } /// Dereference an iterator. reference operator*() const { return dereference(); } /// Dereference an iterator. pointer operator->() const { return &dereference(); } /// Access an individual element. reference operator[](std::ptrdiff_t difference) const { buffers_iterator tmp(*this); tmp.advance(difference); return *tmp; } /// Increment operator (prefix). buffers_iterator& operator++() { increment(); return *this; } /// Increment operator (postfix). buffers_iterator operator++(int) { buffers_iterator tmp(*this); ++*this; return tmp; } /// Decrement operator (prefix). buffers_iterator& operator--() { decrement(); return *this; } /// Decrement operator (postfix). buffers_iterator operator--(int) { buffers_iterator tmp(*this); --*this; return tmp; } /// Addition operator. buffers_iterator& operator+=(std::ptrdiff_t difference) { advance(difference); return *this; } /// Subtraction operator. buffers_iterator& operator-=(std::ptrdiff_t difference) { advance(-difference); return *this; } /// Addition operator. friend buffers_iterator operator+(const buffers_iterator& iter, std::ptrdiff_t difference) { buffers_iterator tmp(iter); tmp.advance(difference); return tmp; } /// Addition operator. friend buffers_iterator operator+(std::ptrdiff_t difference, const buffers_iterator& iter) { buffers_iterator tmp(iter); tmp.advance(difference); return tmp; } /// Subtraction operator. friend buffers_iterator operator-(const buffers_iterator& iter, std::ptrdiff_t difference) { buffers_iterator tmp(iter); tmp.advance(-difference); return tmp; } /// Subtraction operator. friend std::ptrdiff_t operator-(const buffers_iterator& a, const buffers_iterator& b) { return b.distance_to(a); } /// Test two iterators for equality. friend bool operator==(const buffers_iterator& a, const buffers_iterator& b) { return a.equal(b); } /// Test two iterators for inequality. friend bool operator!=(const buffers_iterator& a, const buffers_iterator& b) { return !a.equal(b); } /// Compare two iterators. friend bool operator<(const buffers_iterator& a, const buffers_iterator& b) { return a.distance_to(b) > 0; } /// Compare two iterators. friend bool operator<=(const buffers_iterator& a, const buffers_iterator& b) { return !(b < a); } /// Compare two iterators. friend bool operator>(const buffers_iterator& a, const buffers_iterator& b) { return b < a; } /// Compare two iterators. friend bool operator>=(const buffers_iterator& a, const buffers_iterator& b) { return !(a < b); } private: // Dereference the iterator. reference dereference() const { return buffer_cast(current_buffer_)[current_buffer_position_]; } // Compare two iterators for equality. bool equal(const buffers_iterator& other) const { return position_ == other.position_; } // Increment the iterator. void increment() { BOOST_ASSERT(current_ != end_ && "iterator out of bounds"); ++position_; // Check if the increment can be satisfied by the current buffer. ++current_buffer_position_; if (current_buffer_position_ != boost::asio::buffer_size(current_buffer_)) return; // Find the next non-empty buffer. ++current_; current_buffer_position_ = 0; while (current_ != end_) { current_buffer_ = *current_; if (boost::asio::buffer_size(current_buffer_) > 0) return; ++current_; } } // Decrement the iterator. void decrement() { BOOST_ASSERT(position_ > 0 && "iterator out of bounds"); --position_; // Check if the decrement can be satisfied by the current buffer. if (current_buffer_position_ != 0) { --current_buffer_position_; return; } // Find the previous non-empty buffer. typename BufferSequence::const_iterator iter = current_; while (iter != begin_) { --iter; buffer_type buffer = *iter; std::size_t buffer_size = boost::asio::buffer_size(buffer); if (buffer_size > 0) { current_ = iter; current_buffer_ = buffer; current_buffer_position_ = buffer_size - 1; return; } } } // Advance the iterator by the specified distance. void advance(std::ptrdiff_t n) { if (n > 0) { BOOST_ASSERT(current_ != end_ && "iterator out of bounds"); for (;;) { std::ptrdiff_t current_buffer_balance = boost::asio::buffer_size(current_buffer_) - current_buffer_position_; // Check if the advance can be satisfied by the current buffer. if (current_buffer_balance > n) { position_ += n; current_buffer_position_ += n; return; } // Update position. n -= current_buffer_balance; position_ += current_buffer_balance; // Move to next buffer. If it is empty then it will be skipped on the // next iteration of this loop. if (++current_ == end_) { BOOST_ASSERT(n == 0 && "iterator out of bounds"); current_buffer_ = buffer_type(); current_buffer_position_ = 0; return; } current_buffer_ = *current_; current_buffer_position_ = 0; } } else if (n < 0) { std::size_t abs_n = -n; BOOST_ASSERT(position_ >= abs_n && "iterator out of bounds"); for (;;) { // Check if the advance can be satisfied by the current buffer. if (current_buffer_position_ >= abs_n) { position_ -= abs_n; current_buffer_position_ -= abs_n; return; } // Update position. abs_n -= current_buffer_position_; position_ -= current_buffer_position_; // Check if we've reached the beginning of the buffers. if (current_ == begin_) { BOOST_ASSERT(abs_n == 0 && "iterator out of bounds"); current_buffer_position_ = 0; return; } // Find the previous non-empty buffer. typename BufferSequence::const_iterator iter = current_; while (iter != begin_) { --iter; buffer_type buffer = *iter; std::size_t buffer_size = boost::asio::buffer_size(buffer); if (buffer_size > 0) { current_ = iter; current_buffer_ = buffer; current_buffer_position_ = buffer_size; break; } } } } } // Determine the distance between two iterators. std::ptrdiff_t distance_to(const buffers_iterator& other) const { return other.position_ - position_; } buffer_type current_buffer_; std::size_t current_buffer_position_; typename BufferSequence::const_iterator begin_; typename BufferSequence::const_iterator current_; typename BufferSequence::const_iterator end_; std::size_t position_; }; /// Construct an iterator representing the beginning of the buffers' data. template inline buffers_iterator buffers_begin( const BufferSequence& buffers) { return buffers_iterator::begin(buffers); } /// Construct an iterator representing the end of the buffers' data. template inline buffers_iterator buffers_end( const BufferSequence& buffers) { return buffers_iterator::end(buffers); } } // namespace asio } // namespace boost #include #endif // BOOST_ASIO_BUFFERS_ITERATOR_HPP