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 <p><b><a name="compiletime_config"></a>Library compile time configuration</b></p>
 <P dir="ltr">The C++ preprocessor iterator library may be configured at compile
   time by specifying different preprocessor constants to include different additional
   features. The possible preprocessor constants are described in the following
   table. </P>
 <table width="100%" border="0" align="center">
   <tr>
     <td colspan="2" class="table_title"><b>Summary of possible preprocessor constants
       for<br>
       library configuration</b></td>
   </tr>
   <tr>
     <td width="46%" class="table_cells"><code>BOOST_WAVE_SUPPORT_WARNING_DIRECTIVE</code></td>
     <td width="54%" class="table_cells"> <p>Support the <span class="preprocessor">#warning</span> directive</p></td>
   </tr>
   <tr>
     <td width="46%" class="table_cells"><code>BOOST_WAVE_SUPPORT_MS_EXTENSIONS</code></td>
     <td width="54%" class="table_cells"> <p>Support several MS specific language
         extensions (i.e. <tt>__int8</tt> et.al.)</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_PREPROCESS_ERROR_MESSAGE_BODY</code></td>
     <td class="table_cells"><p>Enable the preprocessing of the message bodies
         of <span class="preprocessor">#error</span> and <span class="preprocessor">#warning</span>
         directives.</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_EMIT_PRAGMA_DIRECTIVES</code></td>
     <td class="table_cells"><p>If defined, then the <span class="preprocessor">#pragma</span>
         directives are returned as a token sequence to the caller, if not defined,
         the whole <span class="preprocessor">#pragma</span> directive is skipped. </p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_PREPROCESS_PRAGMA_BODY</code></td>
     <td class="table_cells"><p>Enable the preprocessing of the bodies of all <span class="preprocessor">
         #pragma</span> directives.<br>
         Note though, that the body of an <tt>operator&nbsp;_Pragma()</tt> is always preprocessed as this is required by the C99 Standard <a href="references.html#iso_c">[2]</a>.
       </p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_ENABLE_COMMANDLINE_MACROS</code></td>
     <td class="table_cells"><p>Enable the functionality required to define macros
         with the command line syntax (-DMACRO(x)=definition)</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_STRINGTYPE</code></td>
     <td class="table_cells"><p>The tokens generated by the <tt>Wave</tt> library
         contain the token data and the file position, where this token was found
         in the input stream. <br>
         This constant may be used to redefine the data type, which is used to
         hold the token data and the corresponding file name. If this isn't defined
         it defaults to std::string. (The here defined data type should be compatible
         to the std::string type)</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_SUPPORT_VARIADICS_PLACEMARKERS</code></td>
     <td class="table_cells"><p>If defined, then the preprocessor library supports
         variadics and placemarkers. Note, to support C99 mode, this constant must
         be defined too.</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_MAX_INCLUDE_LEVEL_DEPTH</code></td>
     <td class="table_cells"><p>If defined, it will determine the initial maximal
         possible include file nesting depth supported. It defaults to 1024.</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_SUPPORT_PRAGMA_ONCE</code></td>
     <td class="table_cells"><p>If defined, then the <code>#pragma once</code> directive is supported by <tt>Wave</tt>. This specifies that the file, in which the pragma resides, will be included
       (opened) only once by the compiler in a build. </p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_SUPPORT_PRAGMA_MESSAGE</code></td>
     <td class="table_cells"><p>If defined, then the <code class="preprocessor">#pragma message(&quot;&quot;)</code> directive is supported by <tt>Wave</tt>. This pragma simply generates a remark cotaining the message text. The body of the #pragma message is preprocessed whenever the <code><code>BOOST_</code>WAVE_PREPROCESS_PRAGMA_BODY</code> constant is defined as well . </p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_SUPPORT_INCLUDE_NEXT</code></td>
     <td class="table_cells"><p>If defined, then the <code>#include_next</code> directive is supported by <tt>Wave</tt>. This is syntactically equivalent to the <code class="preprocessor">#include</code> directives, but may be used to inherit a header file (i.e. to include a file, which is named as the current file containing the <code>#include_next</code>).</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_USE_STRICT_LEXER</code></td>
     <td class="table_cells"><p>If this is defined to something != 0, then the C/C++ lexers recognize the
       strict C99/C++ basic source character set. If it is not defined or defined
     to zero, the lexers recognize the <span class="string">'$'</span> character as part of identifiers.</p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_PRAGMA_KEYWORD</code></td>
     <td class="table_cells"><p>If this is defined to a string literal it will be used as the pragma keyword recogniyed by the library as specific Wave pragma's. This constant defaults to <span class="literal">&quot;wave&quot;</span>, i.e. the library recognizes all      <span class="preprocessor">#pragma wave option [(argument)]</span>  directives and dispatches the handling to the interpret_pragma() preprocessing hook function (see: <a href="class_reference_ctxpolicy.html">Preprocessing Hooks</a>). The arguments part of the  pragma is optional.<br>
       </p>    </td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_USE_DEPRECIATED_PREPROCESSING_HOOKS</code></td>
     <td class="table_cells"><p>If defined to something not equal to zero (<span class="literal">'0'</span>) Wave will be compiled to use the depreciated preprocessing hooks. The interface of the preprocessing hooks has been changed after the Boost V1.34.x releases. This constant allows to compile applications using the older interface. </p></td>
   </tr>
   <tr>
     <td class="table_cells"><code>BOOST_WAVE_SUPPORT_LONGLONG_INTEGER_LITERALS</code></td>
     <td class="table_cells"><p>The C++ standard requires the preprocessor to use one of the following
       types for integer literals: <code>long</code> or <code>unsigned long</code> depending on a optional
       suffix (<span class="literal">'u'</span>, <span class="literal">'l'</span>, <span class="literal">'ul'</span>, or <span class="literal">'lu'</span>). Sometimes it is required to preprocess integer literals larger than that
         (i.e. <code>long long</code> or <code>unsigned long long</code>). Defining this pp constant enables the recognition of long long integers
 even if these do not have the <span class="literal">'ll'</span> suffix.</p>
       <p>This preprocessor constant is effective only, if your target platform supports
         long long integers (<code>BOOST_HAS_LONG_LONG</code> is defined). Please note, that this setting doesn't relate to the Wave support option
         <code>support_option_long_long</code>, which enables the recognition of <span class="literal">'ll'</span> suffixes
         only.
     </p>
       </td>
   </tr>
     <tr>
         <td class="table_cells">
             <code>BOOST_WAVE_SUPPORT_THREADING</code></td>
         <td class="table_cells">
             <p>This preprocessor constant allows to configer whether the Wave library will be built
                 with threading support enabled or not. This value (if defined) should be set to
                 zero ('0') if threading needs to be disabled and to a numerical value not equal
                 to zero, if threading should be enabled explicitely.
             </p>
             <p>
                 If this constant is not defined, the Wave library will be built using the threading
                 as picked up from the Boost build environment (see <code>BOOST_HAS_THREADS</code> in the Boost
                     configuration dosumentation).</p>
         </td>
     </tr>
 </table>
 <P dir="ltr"><b><a name="using_custom_lexer"></a>Using a different token type or lexer type in conjunction with Wave </b></P>
 <P dir="ltr">It is possible to use the <tt>Wave</tt> library while using your own token and/or lexer types. This may be achieved by providing your lexer type as the second template parameter while instantiating the <tt>boost::wave::context&lt;&gt;</tt> object. The token type used by the library is derived from the <tt>token_type</tt> typedef to be provided by the lexer type. If you want to provide your own token type only, you may use the <tt>boost::wave::lex_iterator&lt;&gt;</tt> type contained with the library. This type needs to be parametrized with the token type to use. </P>
 <P dir="ltr">The <tt>Wave</tt> library contains several samples illustrating these possibilities. The <tt>cpp_tokens</tt> sample shows the usage of a custom lexer and a custom token types. The lexer type used is functionally fully compatible to the <tt>re2c</tt> <a href="references.html#re2c">[3]</a> based lexer used by default. It is implemented based on the <tt>SLex</tt> <a href="references.html#slex">[5]</a> lexer example written by Dan Nuffer. The token type used therein is functionally equivalent to the default token type except for an additional <tt>operator&lt;&lt;</tt> used for dumping the information carried by the token.</P>
 <P dir="ltr"><b><a name="compilation_models"></a>Separation and inclusion compilation
   models</b></P>
 <P dir="ltr">The <tt>Wave</tt> C++ preprocessor iterator library is build almost
   completely as a header only library (except for the re2c based lexer). If you're
   trying to include all required files at once you will mention, that the resulting
   compilation times are very large (up to an hour - depending on your system configuration).
   This straightforward method we'll call the inclusion compilation model. If you
   do not pay attention to compilation times, that's the way to go, no special
   handling is needed.</P>
 <P dir="ltr">If you're interested in decreasing compilation times, the following
   method is to be used. This we will call it the separation compilation model.
   The trick is to separate the different objects such, that they are compilable
   separately. The function, which instantiates the templated object in question
   is factored out such, that its definition is visible to only one translation
   unit. To simplify this further this creation function is packaged into a small
   generator template structure.</P>
 <P dir="ltr">There are two levels of separation implemented: the separation of
   the compilation of the C++ lexer and the separation of the compilation of the
   different Spirit grammars used. To use these separations you will have to define
   two preprocessor constants while compiling the whole application and you will
   have to explicitely instantiate some helper templates. The following tables
   shows these constants in detail.</P>
 <table width="90%" border="0" align="center">
   <tr>
     <td colspan="2" class="table_title"><b>Summary of possible compilation constants
       required <br>
       to enable the separation compilation model</b></td>
   </tr>
   <tr class="table_title">
     <td width="25%"><b>Separate</b></td>
     <td width="75%"><p><code><font face="Verdana, Arial, Helvetica, sans-serif">Preprocessor
         constant</font></code></p></td>
   </tr>
   <tr>
     <td width="25%" class="table_cells"><code>C++ lexer</code></td>
     <td width="75%" class="table_cells"> <p><code><code>BOOST_</code>WAVE_SEPARATE_LEXER_INSTANTIATION</code></p></td>
   </tr>
   <tr>
     <td width="25%" class="table_cells"><code>Spirit grammars</code></td>
     <td width="75%" class="table_cells"> <p><code><code>BOOST_</code>WAVE_SEPARATE_GRAMMAR_INSTANTIATION</code></p></td>
   </tr>
 </table>
 <P dir="ltr">The following table shows the explicit template instantiations required,
   if you want to use the separation compilation model. The <tt>TokenT</tt> placeholder
   type has to be replaced with your token type to use and the <code><tt>LexIteratorT</tt></code> placeholder type has to be replaced with your lex iterator type you've used while instantiation of the <tt>boost::wave::context&lt;&gt;</tt> object. You will achieve the best
   results, if you place these into separate compilation units each. The <tt>IteratorT</tt>
   placeholder should be replaced by the iterator type, which was used to instantiate
   the <tt>boost::wave::context&lt;&gt;</tt> object.</P>
 <table width="90%" border="0" align="center">
   <tr>
     <td colspan="2" class="table_title"><b>Summary of required explicit template
       instantiations <br>
       required when using the separation compilation model</b></td>
   </tr>
   <tr class="table_title">
     <td width="25%"><b>Separate</b></td>
     <td width="75%"><p><code><font face="Verdana, Arial, Helvetica, sans-serif">Templates
         to explicitly instantiate</font></code></p></td>
   </tr>
   <tr>
     <td width="25%" class="table_cells"><code>C++ lexer</code></td>
     <td width="75%" class="table_cells"> <code><span class="keyword">template</span>
       cpplexer::re2clex::new_lexer_gen&lt;<tt>IteratorT</tt>&gt;;</code></td>
   </tr>
   <tr>
     <td width="25%" class="table_cells"><code>Spirit grammars</code></td>
     <td width="75%" class="table_cells"> <p><code><span class="keyword">template</span> wave::grammars::expression_grammar_gen&lt<tt>TokenT</tt>&gt;;<br>
         <span class="keyword"> template</span> wave::grammars::intlit_grammar_gen&lt;<tt>TokenT</tt>&gt;;<br>
         <span class="keyword"> template</span> wave::grammars::chlit_grammar_gen&lt;<tt>TokenT</tt>&gt;;<br>
         <span class="keyword"> template</span> wave::grammars::cpp_grammar_gen&lt;<tt>LexIteratorT</tt>&gt;;<br>
         <span class="keyword"> template</span> wave::grammars::predefined_macros_grammar_gen&lt;<tt>LexIteratorT</tt>&gt;;<br>
     <span class="keyword"> template</span> wave::grammars::defined_grammar_gen&lt;<tt>LexIteratorT</tt>&gt;;</code></p></td>
   </tr>
 </table>
 <p>To see an example of this you can look at the <tt>Wave</tt> driver program
   included as an acompanion sample to the C++ preprocessor iterator library. The
   corresponding files are named obviously <span class="string">&quot;instantiate_...something.cpp&quot;</span>,
   where the <span class="string">'...somthing'</span> is a hint, which grammars
   are explicitely instantiated inside. By using the separation model the compilation
   times required to build the <tt>Wave</tt> example are dropped by up to 90%.</p>
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 <p class="copyright">Copyright &copy; 2003-2010 Hartmut Kaiser<br>
   <br>
 <font size="2">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) </font> </p>
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	<p><b><a name="compiletime_config"></a>Library compile time configuration</b></p>
	<P dir="ltr">The C++ preprocessor iterator library may be configured at compile
	time by specifying different preprocessor constants to include different additional
	features. The possible preprocessor constants are described in the following
	table. </P>
	<table width="100%" border="0" align="center">
	<tr>
	<td colspan="2" class="table_title"><b>Summary of possible preprocessor constants
	for<br>
	library configuration</b></td>
	</tr>
	<tr>
	<td width="46%" class="table_cells"><code>BOOST_WAVE_SUPPORT_WARNING_DIRECTIVE</code></td>
	<td width="54%" class="table_cells"> <p>Support the <span class="preprocessor">#warning</span> directive</p></td>
	</tr>
	<tr>
	<td width="46%" class="table_cells"><code>BOOST_WAVE_SUPPORT_MS_EXTENSIONS</code></td>
	<td width="54%" class="table_cells"> <p>Support several MS specific language
	extensions (i.e. <tt>__int8</tt> et.al.)</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_PREPROCESS_ERROR_MESSAGE_BODY</code></td>
	<td class="table_cells"><p>Enable the preprocessing of the message bodies
	of <span class="preprocessor">#error</span> and <span class="preprocessor">#warning</span>
	directives.</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_EMIT_PRAGMA_DIRECTIVES</code></td>
	<td class="table_cells"><p>If defined, then the <span class="preprocessor">#pragma</span>
	directives are returned as a token sequence to the caller, if not defined,
	the whole <span class="preprocessor">#pragma</span> directive is skipped. </p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_PREPROCESS_PRAGMA_BODY</code></td>
	<td class="table_cells"><p>Enable the preprocessing of the bodies of all <span class="preprocessor">
	#pragma</span> directives.<br>
	Note though, that the body of an <tt>operator _Pragma()</tt> is always preprocessed as this is required by the C99 Standard <a href="references.html#iso_c">[2]</a>.
	</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_ENABLE_COMMANDLINE_MACROS</code></td>
	<td class="table_cells"><p>Enable the functionality required to define macros
	with the command line syntax (-DMACRO(x)=definition)</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_STRINGTYPE</code></td>
	<td class="table_cells"><p>The tokens generated by the <tt>Wave</tt> library
	contain the token data and the file position, where this token was found
	in the input stream. <br>
	This constant may be used to redefine the data type, which is used to
	hold the token data and the corresponding file name. If this isn't defined
	it defaults to std::string. (The here defined data type should be compatible
	to the std::string type)</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_SUPPORT_VARIADICS_PLACEMARKERS</code></td>
	<td class="table_cells"><p>If defined, then the preprocessor library supports
	variadics and placemarkers. Note, to support C99 mode, this constant must
	be defined too.</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_MAX_INCLUDE_LEVEL_DEPTH</code></td>
	<td class="table_cells"><p>If defined, it will determine the initial maximal
	possible include file nesting depth supported. It defaults to 1024.</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_SUPPORT_PRAGMA_ONCE</code></td>
	<td class="table_cells"><p>If defined, then the <code>#pragma once</code> directive is supported by <tt>Wave</tt>. This specifies that the file, in which the pragma resides, will be included
	(opened) only once by the compiler in a build. </p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_SUPPORT_PRAGMA_MESSAGE</code></td>
	<td class="table_cells"><p>If defined, then the <code class="preprocessor">#pragma message("")</code> directive is supported by <tt>Wave</tt>. This pragma simply generates a remark cotaining the message text. The body of the #pragma message is preprocessed whenever the <code><code>BOOST_</code>WAVE_PREPROCESS_PRAGMA_BODY</code> constant is defined as well . </p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_SUPPORT_INCLUDE_NEXT</code></td>
	<td class="table_cells"><p>If defined, then the <code>#include_next</code> directive is supported by <tt>Wave</tt>. This is syntactically equivalent to the <code class="preprocessor">#include</code> directives, but may be used to inherit a header file (i.e. to include a file, which is named as the current file containing the <code>#include_next</code>).</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_USE_STRICT_LEXER</code></td>
	<td class="table_cells"><p>If this is defined to something != 0, then the C/C++ lexers recognize the
	strict C99/C++ basic source character set. If it is not defined or defined
	to zero, the lexers recognize the <span class="string">'$'</span> character as part of identifiers.</p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_PRAGMA_KEYWORD</code></td>
	<td class="table_cells"><p>If this is defined to a string literal it will be used as the pragma keyword recogniyed by the library as specific Wave pragma's. This constant defaults to <span class="literal">"wave"</span>, i.e. the library recognizes all <span class="preprocessor">#pragma wave option [(argument)]</span> directives and dispatches the handling to the interpret_pragma() preprocessing hook function (see: <a href="class_reference_ctxpolicy.html">Preprocessing Hooks</a>). The arguments part of the pragma is optional.<br>
	</p> </td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_USE_DEPRECIATED_PREPROCESSING_HOOKS</code></td>
	<td class="table_cells"><p>If defined to something not equal to zero (<span class="literal">'0'</span>) Wave will be compiled to use the depreciated preprocessing hooks. The interface of the preprocessing hooks has been changed after the Boost V1.34.x releases. This constant allows to compile applications using the older interface. </p></td>
	</tr>
	<tr>
	<td class="table_cells"><code>BOOST_WAVE_SUPPORT_LONGLONG_INTEGER_LITERALS</code></td>
	<td class="table_cells"><p>The C++ standard requires the preprocessor to use one of the following
	types for integer literals: <code>long</code> or <code>unsigned long</code> depending on a optional
	suffix (<span class="literal">'u'</span>, <span class="literal">'l'</span>, <span class="literal">'ul'</span>, or <span class="literal">'lu'</span>). Sometimes it is required to preprocess integer literals larger than that
	(i.e. <code>long long</code> or <code>unsigned long long</code>). Defining this pp constant enables the recognition of long long integers
	even if these do not have the <span class="literal">'ll'</span> suffix.</p>
	<p>This preprocessor constant is effective only, if your target platform supports
	long long integers (<code>BOOST_HAS_LONG_LONG</code> is defined). Please note, that this setting doesn't relate to the Wave support option
	<code>support_option_long_long</code>, which enables the recognition of <span class="literal">'ll'</span> suffixes
	only.
	</p>
	</td>
	</tr>
	<tr>
	<td class="table_cells">
	<code>BOOST_WAVE_SUPPORT_THREADING</code></td>
	<td class="table_cells">
	<p>This preprocessor constant allows to configer whether the Wave library will be built
	with threading support enabled or not. This value (if defined) should be set to
	zero ('0') if threading needs to be disabled and to a numerical value not equal
	to zero, if threading should be enabled explicitely.
	</p>
	<p>
	If this constant is not defined, the Wave library will be built using the threading
	as picked up from the Boost build environment (see <code>BOOST_HAS_THREADS</code> in the Boost
	configuration dosumentation).</p>
	</td>
	</tr>
	</table>
	<P dir="ltr"><b><a name="using_custom_lexer"></a>Using a different token type or lexer type in conjunction with Wave </b></P>
	<P dir="ltr">It is possible to use the <tt>Wave</tt> library while using your own token and/or lexer types. This may be achieved by providing your lexer type as the second template parameter while instantiating the <tt>boost::wave::context<></tt> object. The token type used by the library is derived from the <tt>token_type</tt> typedef to be provided by the lexer type. If you want to provide your own token type only, you may use the <tt>boost::wave::lex_iterator<></tt> type contained with the library. This type needs to be parametrized with the token type to use. </P>
	<P dir="ltr">The <tt>Wave</tt> library contains several samples illustrating these possibilities. The <tt>cpp_tokens</tt> sample shows the usage of a custom lexer and a custom token types. The lexer type used is functionally fully compatible to the <tt>re2c</tt> <a href="references.html#re2c">[3]</a> based lexer used by default. It is implemented based on the <tt>SLex</tt> <a href="references.html#slex">[5]</a> lexer example written by Dan Nuffer. The token type used therein is functionally equivalent to the default token type except for an additional <tt>operator<<</tt> used for dumping the information carried by the token.</P>
	<P dir="ltr"><b><a name="compilation_models"></a>Separation and inclusion compilation
	models</b></P>
	<P dir="ltr">The <tt>Wave</tt> C++ preprocessor iterator library is build almost
	completely as a header only library (except for the re2c based lexer). If you're
	trying to include all required files at once you will mention, that the resulting
	compilation times are very large (up to an hour - depending on your system configuration).
	This straightforward method we'll call the inclusion compilation model. If you
	do not pay attention to compilation times, that's the way to go, no special
	handling is needed.</P>
	<P dir="ltr">If you're interested in decreasing compilation times, the following
	method is to be used. This we will call it the separation compilation model.
	The trick is to separate the different objects such, that they are compilable
	separately. The function, which instantiates the templated object in question
	is factored out such, that its definition is visible to only one translation
	unit. To simplify this further this creation function is packaged into a small
	generator template structure.</P>
	<P dir="ltr">There are two levels of separation implemented: the separation of
	the compilation of the C++ lexer and the separation of the compilation of the
	different Spirit grammars used. To use these separations you will have to define
	two preprocessor constants while compiling the whole application and you will
	have to explicitely instantiate some helper templates. The following tables
	shows these constants in detail.</P>
	<table width="90%" border="0" align="center">
	<tr>
	<td colspan="2" class="table_title"><b>Summary of possible compilation constants
	required <br>
	to enable the separation compilation model</b></td>
	</tr>
	<tr class="table_title">
	<td width="25%"><b>Separate</b></td>
	<td width="75%"><p><code><font face="Verdana, Arial, Helvetica, sans-serif">Preprocessor
	constant</font></code></p></td>
	</tr>
	<tr>
	<td width="25%" class="table_cells"><code>C++ lexer</code></td>
	<td width="75%" class="table_cells"> <p><code><code>BOOST_</code>WAVE_SEPARATE_LEXER_INSTANTIATION</code></p></td>
	</tr>
	<tr>
	<td width="25%" class="table_cells"><code>Spirit grammars</code></td>
	<td width="75%" class="table_cells"> <p><code><code>BOOST_</code>WAVE_SEPARATE_GRAMMAR_INSTANTIATION</code></p></td>
	</tr>
	</table>
	<P dir="ltr">The following table shows the explicit template instantiations required,
	if you want to use the separation compilation model. The <tt>TokenT</tt> placeholder
	type has to be replaced with your token type to use and the <code><tt>LexIteratorT</tt></code> placeholder type has to be replaced with your lex iterator type you've used while instantiation of the <tt>boost::wave::context<></tt> object. You will achieve the best
	results, if you place these into separate compilation units each. The <tt>IteratorT</tt>
	placeholder should be replaced by the iterator type, which was used to instantiate
	the <tt>boost::wave::context<></tt> object.</P>
	<table width="90%" border="0" align="center">
	<tr>
	<td colspan="2" class="table_title"><b>Summary of required explicit template
	instantiations <br>
	required when using the separation compilation model</b></td>
	</tr>
	<tr class="table_title">
	<td width="25%"><b>Separate</b></td>
	<td width="75%"><p><code><font face="Verdana, Arial, Helvetica, sans-serif">Templates
	to explicitly instantiate</font></code></p></td>
	</tr>
	<tr>
	<td width="25%" class="table_cells"><code>C++ lexer</code></td>
	<td width="75%" class="table_cells"> <code><span class="keyword">template</span>
	cpplexer::re2clex::new_lexer_gen<<tt>IteratorT</tt>>;</code></td>
	</tr>
	<tr>
	<td width="25%" class="table_cells"><code>Spirit grammars</code></td>
	<td width="75%" class="table_cells"> <p><code><span class="keyword">template</span> wave::grammars::expression_grammar_gen&lt<tt>TokenT</tt>>;<br>
	<span class="keyword"> template</span> wave::grammars::intlit_grammar_gen<<tt>TokenT</tt>>;<br>
	<span class="keyword"> template</span> wave::grammars::chlit_grammar_gen<<tt>TokenT</tt>>;<br>
	<span class="keyword"> template</span> wave::grammars::cpp_grammar_gen<<tt>LexIteratorT</tt>>;<br>
	<span class="keyword"> template</span> wave::grammars::predefined_macros_grammar_gen<<tt>LexIteratorT</tt>>;<br>
	<span class="keyword"> template</span> wave::grammars::defined_grammar_gen<<tt>LexIteratorT</tt>>;</code></p></td>
	</tr>
	</table>
	<p>To see an example of this you can look at the <tt>Wave</tt> driver program
	included as an acompanion sample to the C++ preprocessor iterator library. The
	corresponding files are named obviously <span class="string">"instantiate_...something.cpp"</span>,
	where the <span class="string">'...somthing'</span> is a hint, which grammars
	are explicitely instantiated inside. By using the separation model the compilation
	times required to build the <tt>Wave</tt> example are dropped by up to 90%.</p>
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	<p class="copyright">Copyright © 2003-2010 Hartmut Kaiser<br>
	<br>
	<font size="2">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) </font> </p>
	<span class="updated"></span>
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