boost/regex/v5/regex_raw_buffer.hpp
/* * * Copyright (c) 1998-2002 * John Maddock * * Use, modification and distribution are subject to 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) * */ /* * LOCATION: see http://www.boost.org for most recent version. * FILE regex_raw_buffer.hpp * VERSION see <boost/version.hpp> * DESCRIPTION: Raw character buffer for regex code. * Note this is an internal header file included * by regex.hpp, do not include on its own. */ #ifndef BOOST_REGEX_RAW_BUFFER_HPP #define BOOST_REGEX_RAW_BUFFER_HPP #ifndef BOOST_REGEX_CONFIG_HPP #include <boost/regex/config.hpp> #endif #include <algorithm> #include <cstddef> namespace boost{ namespace BOOST_REGEX_DETAIL_NS{ struct empty_padding{}; union padding { void* p; unsigned int i; }; template <int N> struct padding3 { enum{ padding_size = 8, padding_mask = 7 }; }; template<> struct padding3<2> { enum{ padding_size = 2, padding_mask = 1 }; }; template<> struct padding3<4> { enum{ padding_size = 4, padding_mask = 3 }; }; template<> struct padding3<8> { enum{ padding_size = 8, padding_mask = 7 }; }; template<> struct padding3<16> { enum{ padding_size = 16, padding_mask = 15 }; }; enum{ padding_size = padding3<sizeof(padding)>::padding_size, padding_mask = padding3<sizeof(padding)>::padding_mask }; // // class raw_storage // basically this is a simplified vector<unsigned char> // this is used by basic_regex for expression storage // class raw_storage { public: typedef std::size_t size_type; typedef unsigned char* pointer; private: pointer last, start, end; public: raw_storage(); raw_storage(size_type n); ~raw_storage() { ::operator delete(start); } void resize(size_type n) { size_type newsize = start ? last - start : 1024; while (newsize < n) newsize *= 2; size_type datasize = end - start; // extend newsize to WORD/DWORD boundary: newsize = (newsize + padding_mask) & ~(padding_mask); // allocate and copy data: pointer ptr = static_cast<pointer>(::operator new(newsize)); BOOST_REGEX_NOEH_ASSERT(ptr) if (start) std::memcpy(ptr, start, datasize); // get rid of old buffer: ::operator delete(start); // and set up pointers: start = ptr; end = ptr + datasize; last = ptr + newsize; } void* extend(size_type n) { if(size_type(last - end) < n) resize(n + (end - start)); pointer result = end; end += n; return result; } void* insert(size_type pos, size_type n) { BOOST_REGEX_ASSERT(pos <= size_type(end - start)); if (size_type(last - end) < n) resize(n + (end - start)); void* result = start + pos; std::memmove(start + pos + n, start + pos, (end - start) - pos); end += n; return result; } size_type size() { return size_type(end - start); } size_type capacity() { return size_type(last - start); } void* data()const { return start; } size_type index(void* ptr) { return size_type(static_cast<pointer>(ptr) - static_cast<pointer>(data())); } void clear() { end = start; } void align() { // move end up to a boundary: end = start + (((end - start) + padding_mask) & ~padding_mask); } void swap(raw_storage& that) { std::swap(start, that.start); std::swap(end, that.end); std::swap(last, that.last); } }; inline raw_storage::raw_storage() { last = start = end = 0; } inline raw_storage::raw_storage(size_type n) { start = end = static_cast<pointer>(::operator new(n)); BOOST_REGEX_NOEH_ASSERT(start) last = start + n; } } // namespace BOOST_REGEX_DETAIL_NS } // namespace boost #endif