boost_1_45_0/libs/iostreams/example/dictionary_filter.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 // (C) Copyright 2008 CodeRage, LLC (turkanis at coderage dot com)
 // (C) Copyright 2003-2007 Jonathan Turkanis
 // 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.)

 // See http://www.boost.org/libs/iostreams for documentation.

 #ifndef BOOST_IOSTREAMS_DICTIONARY_FILTER_HPP_INCLUDED
 #define BOOST_IOSTREAMS_DICTIONARY_FILTER_HPP_INCLUDED

 #include <algorithm>         // swap.
 #include <cassert>
 #include <cstdio>            // EOF.
 #include <iostream>          // cin, cout.
 #include <cctype>
 #include <map>
 #include <boost/config.hpp>  // BOOST_NO_STDC_NAMESPACE.
 #include <boost/iostreams/concepts.hpp>
 #include <boost/iostreams/filter/stdio.hpp>
 #include <boost/iostreams/operations.hpp>

 #ifdef BOOST_NO_STDC_NAMESPACE
 namespace std {
     using ::isalpha;
     using ::isupper;
     using ::toupper;
     using ::tolower;
 }
 #endif

 namespace boost { namespace iostreams { namespace example {

 class dictionary {
 public:
     void add(std::string key, const std::string& value);
     void replace(std::string& key);
 private:
     typedef std::map<std::string, std::string> map_type;
     void tolower(std::string& str);
     map_type map_;
 };

 class dictionary_stdio_filter : public stdio_filter {
 public:
     dictionary_stdio_filter(dictionary& d) : dictionary_(d) { }
 private:
     void do_filter()
     {
         using namespace std;
         while (true) {
             int c = std::cin.get();
             if (c == EOF || !std::isalpha((unsigned char) c)) {
                 dictionary_.replace(current_word_);
                 cout.write( current_word_.data(),
                             static_cast<std::streamsize>(current_word_.size()) );
                 current_word_.erase();
                 if (c == EOF)
                     break;
                 cout.put(c);
             } else {
                 current_word_ += c;
             }
         }
     }
     dictionary&  dictionary_;
     std::string  current_word_;
 };

 class dictionary_input_filter : public input_filter {
 public:
     dictionary_input_filter(dictionary& d)
         : dictionary_(d), off_(std::string::npos), eof_(false)
         { }

     template<typename Source>
     int get(Source& src)
         {
             // Handle unfinished business.
             if (off_ != std::string::npos && off_ < current_word_.size())
                 return current_word_[off_++];
             if (off_ == current_word_.size()) {
                 current_word_.erase();
                 off_ = std::string::npos;
             }
             if (eof_)
                 return EOF;

             // Compute curent word.
             while (true) {
                 int c;
                 if ((c = iostreams::get(src)) == WOULD_BLOCK)
                     return WOULD_BLOCK;

                 if (c == EOF || !std::isalpha((unsigned char) c)) {
                     dictionary_.replace(current_word_);
                     off_ = 0;
                     if (c == EOF)
                         eof_ = true;
                     else
                         current_word_ += c;
                     break;
                 } else {
                     current_word_ += c;
                 }
             }

             return this->get(src); // Note: current_word_ is not empty.
         }

     template<typename Source>
     void close(Source&)
     {
         current_word_.erase();
         off_ = std::string::npos;
         eof_ = false;
     }
 private:
     dictionary&             dictionary_;
     std::string             current_word_;
     std::string::size_type  off_;
     bool                    eof_;
 };

 class dictionary_output_filter : public output_filter {
 public:
     typedef std::map<std::string, std::string> map_type;
     dictionary_output_filter(dictionary& d)
         : dictionary_(d), off_(std::string::npos)
         { }

     template<typename Sink>
     bool put(Sink& dest, int c)
     {
         if (off_ != std::string::npos && !write_current_word(dest))
             return false;
         if (!std::isalpha((unsigned char) c)) {
             dictionary_.replace(current_word_);
             off_ = 0;
         }

         current_word_ += c;
         return true;
     }

     template<typename Sink>
     void close(Sink& dest)
     {
         // Reset current_word_ and off_, saving old values.
         std::string             current_word;
         std::string::size_type  off = 0;
         current_word.swap(current_word_);
         std::swap(off, off_);

         // Write remaining characters to dest.
         if (off == std::string::npos) {
             dictionary_.replace(current_word);
             off = 0;
         }
         if (!current_word.empty())
             iostreams::write(
                 dest,
                 current_word.data() + off,
                 static_cast<std::streamsize>(current_word.size() - off)
             );
     }
 private:
     template<typename Sink>
     bool write_current_word(Sink& dest)
     {
         using namespace std;
         std::streamsize amt =
             static_cast<std::streamsize>(current_word_.size() - off_);
         std::streamsize result =
             iostreams::write(dest, current_word_.data() + off_, amt);
         if (result == amt) {
             current_word_.erase();
             off_ = string::npos;
             return true;
         } else {
             off_ += result;
             return false;
         }
     }

     dictionary&             dictionary_;
     std::string             current_word_;
     std::string::size_type  off_;
 };

 //------------------Implementation of dictionary------------------------------//

 inline void dictionary::add(std::string key, const std::string& value)
 {
     tolower(key);
     map_[key] = value;
 }

 inline void dictionary::replace(std::string& key)
 {
     using namespace std;
     string copy(key);
     tolower(copy);
     map_type::iterator it = map_.find(key);
     if (it == map_.end())
         return;
     string& value = it->second;
     if (!value.empty() && !key.empty() && std::isupper((unsigned char) key[0]))
         value[0] = std::toupper((unsigned char) value[0]);
     key = value;
     return;
 }

 inline void dictionary::tolower(std::string& str)
 {
     for (std::string::size_type z = 0, len = str.size(); z < len; ++z)
         str[z] = std::tolower((unsigned char) str[z]);
 }

 } } }       // End namespaces example, iostreams, boost.

 #endif      // #ifndef BOOST_IOSTREAMS_DICTIONARY_FILTER_HPP_INCLUDED
	// (C) Copyright 2008 CodeRage, LLC (turkanis at coderage dot com)
	// (C) Copyright 2003-2007 Jonathan Turkanis
	// 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.)

	// See http://www.boost.org/libs/iostreams for documentation.

	#ifndef BOOST_IOSTREAMS_DICTIONARY_FILTER_HPP_INCLUDED
	#define BOOST_IOSTREAMS_DICTIONARY_FILTER_HPP_INCLUDED

	#include <algorithm> // swap.
	#include <cassert>
	#include <cstdio> // EOF.
	#include <iostream> // cin, cout.
	#include <cctype>
	#include <map>
	#include <boost/config.hpp> // BOOST_NO_STDC_NAMESPACE.
	#include <boost/iostreams/concepts.hpp>
	#include <boost/iostreams/filter/stdio.hpp>
	#include <boost/iostreams/operations.hpp>

	#ifdef BOOST_NO_STDC_NAMESPACE
	namespace std {
	using ::isalpha;
	using ::isupper;
	using ::toupper;
	using ::tolower;
	}
	#endif

	namespace boost { namespace iostreams { namespace example {

	class dictionary {
	public:
	void add(std::string key, const std::string& value);
	void replace(std::string& key);
	private:
	typedef std::map<std::string, std::string> map_type;
	void tolower(std::string& str);
	map_type map_;
	};

	class dictionary_stdio_filter : public stdio_filter {
	public:
	dictionary_stdio_filter(dictionary& d) : dictionary_(d) { }
	private:
	void do_filter()
	{
	using namespace std;
	while (true) {
	int c = std::cin.get();
	if (c == EOF \|\| !std::isalpha((unsigned char) c)) {
	dictionary_.replace(current_word_);
	cout.write( current_word_.data(),
	static_cast<std::streamsize>(current_word_.size()) );
	current_word_.erase();
	if (c == EOF)
	break;
	cout.put(c);
	} else {
	current_word_ += c;
	}
	}
	}
	dictionary& dictionary_;
	std::string current_word_;
	};

	class dictionary_input_filter : public input_filter {
	public:
	dictionary_input_filter(dictionary& d)
	: dictionary_(d), off_(std::string::npos), eof_(false)
	{ }

	template<typename Source>
	int get(Source& src)
	{
	// Handle unfinished business.
	if (off_ != std::string::npos && off_ < current_word_.size())
	return current_word_[off_++];
	if (off_ == current_word_.size()) {
	current_word_.erase();
	off_ = std::string::npos;
	}
	if (eof_)
	return EOF;

	// Compute curent word.
	while (true) {
	int c;
	if ((c = iostreams::get(src)) == WOULD_BLOCK)
	return WOULD_BLOCK;

	if (c == EOF \|\| !std::isalpha((unsigned char) c)) {
	dictionary_.replace(current_word_);
	off_ = 0;
	if (c == EOF)
	eof_ = true;
	else
	current_word_ += c;
	break;
	} else {
	current_word_ += c;
	}
	}

	return this->get(src); // Note: current_word_ is not empty.
	}

	template<typename Source>
	void close(Source&)
	{
	current_word_.erase();
	off_ = std::string::npos;
	eof_ = false;
	}
	private:
	dictionary& dictionary_;
	std::string current_word_;
	std::string::size_type off_;
	bool eof_;
	};

	class dictionary_output_filter : public output_filter {
	public:
	typedef std::map<std::string, std::string> map_type;
	dictionary_output_filter(dictionary& d)
	: dictionary_(d), off_(std::string::npos)
	{ }

	template<typename Sink>
	bool put(Sink& dest, int c)
	{
	if (off_ != std::string::npos && !write_current_word(dest))
	return false;
	if (!std::isalpha((unsigned char) c)) {
	dictionary_.replace(current_word_);
	off_ = 0;
	}

	current_word_ += c;
	return true;
	}

	template<typename Sink>
	void close(Sink& dest)
	{
	// Reset current_word_ and off_, saving old values.
	std::string current_word;
	std::string::size_type off = 0;
	current_word.swap(current_word_);
	std::swap(off, off_);

	// Write remaining characters to dest.
	if (off == std::string::npos) {
	dictionary_.replace(current_word);
	off = 0;
	}
	if (!current_word.empty())
	iostreams::write(
	dest,
	current_word.data() + off,
	static_cast<std::streamsize>(current_word.size() - off)
	);
	}
	private:
	template<typename Sink>
	bool write_current_word(Sink& dest)
	{
	using namespace std;
	std::streamsize amt =
	static_cast<std::streamsize>(current_word_.size() - off_);
	std::streamsize result =
	iostreams::write(dest, current_word_.data() + off_, amt);
	if (result == amt) {
	current_word_.erase();
	off_ = string::npos;
	return true;
	} else {
	off_ += result;
	return false;
	}
	}

	dictionary& dictionary_;
	std::string current_word_;
	std::string::size_type off_;
	};

	//------------------Implementation of dictionary------------------------------//

	inline void dictionary::add(std::string key, const std::string& value)
	{
	tolower(key);
	map_[key] = value;
	}

	inline void dictionary::replace(std::string& key)
	{
	using namespace std;
	string copy(key);
	tolower(copy);
	map_type::iterator it = map_.find(key);
	if (it == map_.end())
	return;
	string& value = it->second;
	if (!value.empty() && !key.empty() && std::isupper((unsigned char) key[0]))
	value[0] = std::toupper((unsigned char) value[0]);
	key = value;
	return;
	}

	inline void dictionary::tolower(std::string& str)
	{
	for (std::string::size_type z = 0, len = str.size(); z < len; ++z)
	str[z] = std::tolower((unsigned char) str[z]);
	}

	} } } // End namespaces example, iostreams, boost.

	#endif // #ifndef BOOST_IOSTREAMS_DICTIONARY_FILTER_HPP_INCLUDED