boost_1_45_0/libs/wave/samples/preprocess_pragma_output/preprocess_pragma_output.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 /*=============================================================================
     Boost.Wave: A Standard compliant C++ preprocessor library
     Example demonstrating how to preprocess the token stream generated by a
     #pragma directive

     http://www.boost.org/

     Copyright (c) 2001-2010 Hartmut Kaiser. 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)
 =============================================================================*/

 #if !defined(BOOST_WAVE_SAMPLE_PREPROCESS_PRAGMA_OUTPUT_APR_03_2008_0813AM)
 #define BOOST_WAVE_SAMPLE_PREPROCESS_PRAGMA_OUTPUT_APR_03_2008_0813AM

 template <typename String, typename Iterator>
 inline String
 as_unescaped_string(Iterator it, Iterator const& end)
 {
     using namespace boost::wave;

     String result;
     for (/**/; it != end; ++it)
     {
         switch (token_id(*it)) {
         case T_STRINGLIT:
             {
                 string val (util::impl::unescape_lit((*it).get_value()).c_str());
                 val.erase(val.size()-1);
                 val.erase(0, 1);
                 result += val;
             }
             break;

         default:    // just skip everything else (hey it's a sample)
             break;
         }
     }
     return result;
 }

 // return the string representation of a token sequence
 template <typename String, typename Container>
 inline String
 as_unescaped_string(Container const &token_sequence)
 {
     return as_unescaped_string<String>(token_sequence.begin(),
         token_sequence.end());
 }

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  The preprocess_pragma_output_hooks policy class is used implement a special
 //  #pragma wave pp("some C++ code") directive allowing to insert preprocessed
 //  code into the output sequence generated by the tool.
 //
 //  This policy type is used as a template parameter to the boost::wave::context<>
 //  object.
 //
 ///////////////////////////////////////////////////////////////////////////////
 class preprocess_pragma_output_hooks
 :   public boost::wave::context_policies::default_preprocessing_hooks
 {
 public:
     preprocess_pragma_output_hooks() {}

     template <typename Context>
     struct reset_language_support
     {
         reset_language_support(Context& ctx)
           : ctx_(ctx), lang_(ctx.get_language())
         {
             ctx.set_language(boost::wave::enable_single_line(lang_), false);
         }
         ~reset_language_support()
         {
             ctx_.set_language(lang_, false);
         }

         Context& ctx_;
         boost::wave::language_support lang_;
     };

     ///////////////////////////////////////////////////////////////////////////
     //
     //  The function 'interpret_pragma' is called, whenever a #pragma command
     //  directive is found which isn't known to the core Wave library, where
     //  command is the value defined as the BOOST_WAVE_PRAGMA_KEYWORD constant
     //  which defaults to "wave".
     //
     //  The parameter 'ctx' is a reference to the context object used for
     //  instantiating the preprocessing iterators by the user.
     //
     //  The parameter 'pending' may be used to push tokens back into the input
     //  stream, which are to be used as the replacement text for the whole
     //  #pragma directive.
     //
     //  The parameter 'option' contains the name of the interpreted pragma.
     //
     //  The parameter 'values' holds the values of the parameter provided to
     //  the pragma operator.
     //
     //  The parameter 'act_token' contains the actual #pragma token, which may
     //  be used for error output.
     //
     //  If the return value is 'false', the whole #pragma directive is
     //  interpreted as unknown and a corresponding error message is issued. A
     //  return value of 'true' signs a successful interpretation of the given
     //  #pragma.
     //
     ///////////////////////////////////////////////////////////////////////////
     template <typename Context, typename Container>
     bool
     interpret_pragma(Context& ctx, Container &pending,
         typename Context::token_type const& option,
         Container const& values, typename Context::token_type const& act_token)
     {
         typedef typename Context::token_type token_type;
         typedef typename Context::iterator_type iterator_type;

         if (option.get_value() == "pp")  {
         // Concatenate the string(s) passed as the options to this pragma,
         // preprocess the result using the current context and insert the
         // generated token sequence in place of the pragma directive into the
         // output stream.

             try {
             //  We're explicitly using a std::string here since the type of the
             //  iterators passed to the ctx.begin() below must match the types
             //  of the iterator the original context instance has been created
             //  with.
                 std::string s (as_unescaped_string<std::string>(values));
                 reset_language_support<Context> lang(ctx);

                 using namespace boost::wave;

             // The expanded token sequence is stored in the 'pragma' container
             // to ensure consistency in the output in the case of an error
             // while preprocessing the pragma option strings.
                 Container pragma;
                 iterator_type end = ctx.end();
                 for (iterator_type it = ctx.begin(s.begin(), s.end());
                      it != end && token_id(*it) != T_EOF; ++it)
                 {
                     pragma.push_back(*it);
                     it++;
                 }

             // prepend the newly generated token sequence to the 'pending'
             // container
                 pending.splice(pending.begin(), pragma);
             }
             catch (boost::wave::preprocess_exception const& /*e*/) {
             // the library will report an 'ill_formed_pragma_option' for us
                 return false;
             }
             return true;
         }

         // we don't know anything about this #pragma wave directive
         return false;
     }
 };


 #endif
	/*=============================================================================
	Boost.Wave: A Standard compliant C++ preprocessor library
	Example demonstrating how to preprocess the token stream generated by a
	#pragma directive

	http://www.boost.org/

	Copyright (c) 2001-2010 Hartmut Kaiser. 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)
	=============================================================================*/

	#if !defined(BOOST_WAVE_SAMPLE_PREPROCESS_PRAGMA_OUTPUT_APR_03_2008_0813AM)
	#define BOOST_WAVE_SAMPLE_PREPROCESS_PRAGMA_OUTPUT_APR_03_2008_0813AM

	template <typename String, typename Iterator>
	inline String
	as_unescaped_string(Iterator it, Iterator const& end)
	{
	using namespace boost::wave;

	String result;
	for (/**/; it != end; ++it)
	{
	switch (token_id(*it)) {
	case T_STRINGLIT:
	{
	string val (util::impl::unescape_lit((*it).get_value()).c_str());
	val.erase(val.size()-1);
	val.erase(0, 1);
	result += val;
	}
	break;

	default: // just skip everything else (hey it's a sample)
	break;
	}
	}
	return result;
	}

	// return the string representation of a token sequence
	template <typename String, typename Container>
	inline String
	as_unescaped_string(Container const &token_sequence)
	{
	return as_unescaped_string<String>(token_sequence.begin(),
	token_sequence.end());
	}

	///////////////////////////////////////////////////////////////////////////////
	//
	// The preprocess_pragma_output_hooks policy class is used implement a special
	// #pragma wave pp("some C++ code") directive allowing to insert preprocessed
	// code into the output sequence generated by the tool.
	//
	// This policy type is used as a template parameter to the boost::wave::context<>
	// object.
	//
	///////////////////////////////////////////////////////////////////////////////
	class preprocess_pragma_output_hooks
	: public boost::wave::context_policies::default_preprocessing_hooks
	{
	public:
	preprocess_pragma_output_hooks() {}

	template <typename Context>
	struct reset_language_support
	{
	reset_language_support(Context& ctx)
	: ctx_(ctx), lang_(ctx.get_language())
	{
	ctx.set_language(boost::wave::enable_single_line(lang_), false);
	}
	~reset_language_support()
	{
	ctx_.set_language(lang_, false);
	}

	Context& ctx_;
	boost::wave::language_support lang_;
	};

	///////////////////////////////////////////////////////////////////////////
	//
	// The function 'interpret_pragma' is called, whenever a #pragma command
	// directive is found which isn't known to the core Wave library, where
	// command is the value defined as the BOOST_WAVE_PRAGMA_KEYWORD constant
	// which defaults to "wave".
	//
	// The parameter 'ctx' is a reference to the context object used for
	// instantiating the preprocessing iterators by the user.
	//
	// The parameter 'pending' may be used to push tokens back into the input
	// stream, which are to be used as the replacement text for the whole
	// #pragma directive.
	//
	// The parameter 'option' contains the name of the interpreted pragma.
	//
	// The parameter 'values' holds the values of the parameter provided to
	// the pragma operator.
	//
	// The parameter 'act_token' contains the actual #pragma token, which may
	// be used for error output.
	//
	// If the return value is 'false', the whole #pragma directive is
	// interpreted as unknown and a corresponding error message is issued. A
	// return value of 'true' signs a successful interpretation of the given
	// #pragma.
	//
	///////////////////////////////////////////////////////////////////////////
	template <typename Context, typename Container>
	bool
	interpret_pragma(Context& ctx, Container &pending,
	typename Context::token_type const& option,
	Container const& values, typename Context::token_type const& act_token)
	{
	typedef typename Context::token_type token_type;
	typedef typename Context::iterator_type iterator_type;

	if (option.get_value() == "pp") {
	// Concatenate the string(s) passed as the options to this pragma,
	// preprocess the result using the current context and insert the
	// generated token sequence in place of the pragma directive into the
	// output stream.

	try {
	// We're explicitly using a std::string here since the type of the
	// iterators passed to the ctx.begin() below must match the types
	// of the iterator the original context instance has been created
	// with.
	std::string s (as_unescaped_string<std::string>(values));
	reset_language_support<Context> lang(ctx);

	using namespace boost::wave;

	// The expanded token sequence is stored in the 'pragma' container
	// to ensure consistency in the output in the case of an error
	// while preprocessing the pragma option strings.
	Container pragma;
	iterator_type end = ctx.end();
	for (iterator_type it = ctx.begin(s.begin(), s.end());
	it != end && token_id(*it) != T_EOF; ++it)
	{
	pragma.push_back(*it);
	it++;
	}

	// prepend the newly generated token sequence to the 'pending'
	// container
	pending.splice(pending.begin(), pragma);
	}
	catch (boost::wave::preprocess_exception const& /e/) {
	// the library will report an 'ill_formed_pragma_option' for us
	return false;
	}
	return true;
	}

	// we don't know anything about this #pragma wave directive
	return false;
	}
	};


	#endif