mirror of
https://github.com/jezhiggins/arabica
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345 lines
12 KiB
C++
345 lines
12 KiB
C++
#ifndef ARABICA_CONVERT_ADAPTOR_H
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#define ARABICA_CONVERT_ADAPTOR_H
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//////////////////////////////////////////////////////
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//
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// $Id$
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// Written by Jez Higgins <jez@jezuk.co.uk>
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// Copyright 1999-2003 Jez UK Ltd, http://www.jezuk.co.uk/
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//
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// convert_adaptor is a stream that wraps around another stream. This
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// may not seem like a big deal, but convert_adaptor applies codecvt
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// facets along the way. This allows you to apply encryption or
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// decryption (or any other transcoding) transparently. It can
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// also adapt wchar_t streams to char streams, or vice versa, allowing
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// you to write std::wstrings out as UTF-8 chars to a file, for instance.
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//////////////////////////////////////////////////////
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#include <locale>
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#include <istream>
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#include <ostream>
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#include <vector>
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#include <algorithm>
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#include <cstring>
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#include <SAX/ArabicaConfig.hpp>
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#include <Arabica/mbstate.hpp>
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namespace Arabica
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{
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namespace io
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{
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template<typename charT,
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typename traitsT = std::char_traits<charT>,
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typename externalCharT = charT,
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typename externalTraitsT = std::char_traits<externalCharT> >
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class convert_bufadaptor : public std::basic_streambuf<charT, traitsT>
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{
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public:
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typedef typename traitsT::int_type int_type;
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typedef std::basic_streambuf<externalCharT, externalTraitsT> externalStreambufT;
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typedef std::basic_streambuf<charT, traitsT> streambufT;
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explicit convert_bufadaptor(externalStreambufT& externalbuf) : externalbuf_(&externalbuf), inEof_(false) { }
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virtual ~convert_bufadaptor() { }
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void set_buffer(externalStreambufT& externalbuf) { externalbuf_ = &externalbuf; inEof_ = false; }
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protected:
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virtual int_type overflow(int_type c = traitsT::eof());
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virtual int sync();
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virtual int_type underflow();
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virtual int_type pbackfail(int_type c);
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private:
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typedef typename externalTraitsT::int_type external_int_type;
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typedef typename traitsT::state_type state_t;
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externalStreambufT* externalbuf_;
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std::vector<charT> outBuffer_;
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state_t outState_;
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std::vector<charT> inBuffer_;
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state_t inState_;
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bool inEof_;
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void growOutBuffer();
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bool flushOut();
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void growInBuffer();
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std::streamsize readIn();
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static const std::streamsize bufferSize_;
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static const std::streamsize pbSize_;
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}; // convert_bufadaptor
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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const std::streamsize convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::bufferSize_ = 1024;
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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const std::streamsize convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::pbSize_ = 4;
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// why 4? both Josuttis and Langer&Kreft use 4.
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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typename convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::int_type convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::overflow(int_type c)
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{
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if(traitsT::eq_int_type(traitsT::eof(), c))
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return traitsT::not_eof(c);
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growOutBuffer();
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sputc(traitsT::to_char_type(c));
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return traitsT::not_eof(c);
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} // overflow
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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int convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::sync()
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{
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return flushOut() ? 0 : -1;
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} // sync
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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typename convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::int_type convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::underflow()
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{
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if(streambufT::gptr() != 0 && streambufT::gptr() < streambufT::egptr())
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return (traitsT::to_int_type(*streambufT::gptr()));
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if(!readIn())
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return traitsT::eof();
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return traitsT::to_int_type(*streambufT::gptr());
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} // underflow
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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typename convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::int_type convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::pbackfail(int_type c)
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{
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if(streambufT::gptr() == streambufT::eback())
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return traitsT::eof();
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streambufT::gbump(-1);
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if(!traitsT::eq_int_type(c, traitsT::eof()))
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*(streambufT::gptr()) = traitsT::to_char_type(c);
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return traitsT::not_eof(c);
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} // pbackfail
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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void convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::growOutBuffer()
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{
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size_t oldsize = outBuffer_.capacity();
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size_t newsize = (oldsize ? oldsize*2 : bufferSize_);
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outBuffer_.resize(newsize);
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setp(&outBuffer_[0] + oldsize, &outBuffer_[0] + outBuffer_.capacity());
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} // growOutBuffer
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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void convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::growInBuffer()
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{
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size_t oldsize = inBuffer_.capacity();
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size_t newsize = (oldsize ? oldsize*2 : bufferSize_) + pbSize_;
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inBuffer_.resize(newsize);
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} // growInBuffer
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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bool convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::flushOut()
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{
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size_t length = streambufT::pptr() - &outBuffer_[0];
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if(!length)
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return true;
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bool ok(true);
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const std::codecvt<charT, externalCharT, state_t>& cvt =
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std::use_facet<std::codecvt<charT, externalCharT, std::mbstate_t> >(this->getloc());
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if(cvt.always_noconv())
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std::copy(&outBuffer_[0], &outBuffer_[0] + length, std::ostreambuf_iterator<externalCharT>(externalbuf_));
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else
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{
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// we must do code conversion
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length += cvt.max_length(); // add a little
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std::vector<externalCharT> to(length);
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const charT* from_next = &(outBuffer_[0]);
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std::codecvt_base::result r;
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do
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{
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externalCharT* to_next;
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r = cvt.out(outState_, from_next, streambufT::pptr(), from_next,
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&to[0], &to[0]+length, to_next);
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if(r == std::codecvt_base::noconv)
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{
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std::copy(&outBuffer_[0], &outBuffer_[0] + length, std::ostreambuf_iterator<externalCharT>(externalbuf_));
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break;
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}
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std::copy(&to[0], to_next, std::ostreambuf_iterator<externalCharT>(externalbuf_));
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}
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while(r == std::codecvt_base::partial);
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ok = ok ? (r != std::codecvt_base::error) : false;
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} // if(cvt.always_noconv())
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if(ok)
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setp(&outBuffer_[0], &outBuffer_[0] + outBuffer_.capacity());
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return ok;
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} // flushOut
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template<class charT, class traitsT, class externalCharT, class externalTraitsT>
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std::streamsize convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT>::readIn()
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{
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if(!inBuffer_.capacity())
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growInBuffer();
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size_t pbCount = std::min<size_t>(streambufT::gptr() - streambufT::eback(), pbSize_);
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memcpy(&(inBuffer_[0]) + (pbSize_-pbCount)*sizeof(charT),
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streambufT::gptr() - pbCount*sizeof(charT),
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pbCount*sizeof(charT));
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const std::codecvt<charT, externalCharT, state_t>& cvt =
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std::use_facet<std::codecvt<charT, externalCharT, std::mbstate_t> >(this->getloc());
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externalCharT from[1024];
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std::streamsize res = 0;
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if(!inEof_)
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{
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external_int_type ec = externalbuf_->sgetc();
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while((!externalTraitsT::eq_int_type(externalTraitsT::eof(), ec)) && (res != bufferSize_))
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{
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from[res++] = static_cast<externalCharT>(ec);
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ec = externalbuf_->snextc();
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}
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inEof_ = (externalTraitsT::eq_int_type(externalTraitsT::eof(), ec));
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} // if ...
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std::streamsize converted = 0;
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if(res > 0)
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{
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std::codecvt_base::result r;
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const externalCharT* from_next = from;
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do
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{
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// can't cache this as may reallocate buffer
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charT* const to = &(inBuffer_[0])+pbSize_;
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charT* const to_end = &(inBuffer_[0]) + inBuffer_.capacity() - pbSize_;
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charT* to_next;
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externalCharT* const from_end = from + res;
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r = cvt.in(inState_, from_next, from_end, from_next,
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to + converted, to_end, to_next);
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if(r == std::codecvt_base::noconv)
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{
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memcpy(&(inBuffer_[0])+pbSize_, from, res);
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converted = res;
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}
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else
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converted += static_cast<std::streamsize>(to_next - (to + converted));
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if(r == std::codecvt_base::partial)
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{
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// haven't done everything
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if(to_next == to_end)
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growInBuffer(); // need more room!
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else
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{
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int shortfall = (from + res) - from_next;
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memcpy(from, from_next, shortfall);
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res = externalbuf_->sgetn(from + shortfall, static_cast<std::streamsize>(bufferSize_ - shortfall));
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from_next = &from[0];
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if(res == 0) // oh dear
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break; // let's bail!
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res += shortfall;
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}
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} // if(r == std::codecvt_base::partial)
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}
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while(r == std::codecvt_base::partial);
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if(r == std::codecvt_base::error)
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{
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// couldn't convert - let's bail
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return 0;
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} // if(r == std::codecvt_base::error)
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}
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setg(&(inBuffer_[0]) + (pbSize_-pbCount), &(inBuffer_[0])+pbSize_, &(inBuffer_[0])+pbSize_+converted);
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return static_cast<int_type>(res);
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} // readIn
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////////////////////////////////////////////////////
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// iconvert_adaptor
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template<typename charT, typename traitsT, typename externalCharT, typename externalTraitsT>
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class convert_adaptor_buffer
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{
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protected:
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typedef std::basic_streambuf<externalCharT, externalTraitsT> externalStreambufT;
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explicit convert_adaptor_buffer(externalStreambufT& externalbuf) : bufadaptor_(externalbuf) { }
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convert_bufadaptor<charT, traitsT, externalCharT, externalTraitsT> bufadaptor_;
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}; // convert_adaptor_buffer
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template<typename charT,
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typename traitsT = std::char_traits<charT>,
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typename fromCharT = charT,
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typename fromTraitsT = std::char_traits<fromCharT> >
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class iconvert_adaptor : private convert_adaptor_buffer<charT, traitsT, fromCharT, fromTraitsT>,
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public std::basic_istream<charT, traitsT>
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{
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typedef std::basic_istream<charT, traitsT> baseStreamT;
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typedef std::basic_istream<fromCharT, fromTraitsT> fromStreamT;
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typedef convert_adaptor_buffer<charT, traitsT, fromCharT, fromTraitsT> baseBufT;
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protected:
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using baseBufT::bufadaptor_;
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public:
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explicit iconvert_adaptor(fromStreamT& fromstream) :
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baseBufT(*(fromstream.rdbuf())),
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baseStreamT(&bufadaptor_)
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{
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} // iconvert_adaptor
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virtual ~iconvert_adaptor() { }
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baseBufT* rdbuf() const
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{
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return const_cast<baseBufT*>(&bufadaptor_);
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} // rdbuf
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void set_stream(fromStreamT& fromStream) { bufadaptor_.set_buffer(*fromStream.rdbuf()); }
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}; // class iconvert_adaptor
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////////////////////////////////////////////////////////
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// oconvert_adaptor
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template<typename charT,
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typename traitsT = std::char_traits<charT>,
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typename toCharT = charT,
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typename toTraitsT = std::char_traits<toCharT> >
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class oconvert_adaptor : private convert_adaptor_buffer<charT, traitsT, toCharT, toTraitsT>,
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public std::basic_ostream<charT, traitsT>
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{
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typedef std::basic_ostream<charT, traitsT> baseStreamT;
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typedef std::basic_ostream<toCharT, toTraitsT> toStreamT;
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typedef convert_adaptor_buffer<charT, traitsT, toCharT, toTraitsT> baseBufT;
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protected:
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using baseBufT::bufadaptor_;
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public:
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explicit oconvert_adaptor(toStreamT &toStream) :
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baseBufT(*(toStream.rdbuf())),
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baseStreamT(&bufadaptor_)
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{
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} // oconvert_adaptor
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virtual ~oconvert_adaptor()
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{
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baseStreamT::flush();
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} // ~oconvert_adaptor
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convert_bufadaptor<charT, traitsT>* rdbuf() const
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{
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return const_cast<convert_bufadaptor<charT, traitsT, toCharT, toTraitsT>*>(&bufadaptor_);
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} // rdbuf
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void set_stream(toStreamT& toStream) { bufadaptor_.set_buffer(*toStream.rdbuf()); }
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}; // class oconvert_adaptor
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} // namespace io
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} // namespace Arabica
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#endif
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