<html> <head> <title>The Grammar</title> <meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1"> <link rel="stylesheet" href="theme/style.css" type="text/css"> </head> <body> <table width="100%" border="0" background="theme/bkd2.gif" cellspacing="2"> <tr> <td width="10"> </td> <td width="85%"> <font size="6" face="Verdana, Arial, Helvetica, sans-serif"><b>The Grammar</b></font> </td> <td width="112"><a href="http://spirit.sf.net"><img src="theme/spirit.gif" width="112" height="48" align="right" border="0"></a></td> </tr> </table> <br> <table border="0"> <tr> <td width="10"></td> <td width="30"><a href="../index.html"><img src="theme/u_arr.gif" border="0"></a></td> <td width="30"><a href="scanner.html"><img src="theme/l_arr.gif" border="0"></a></td> <td width="30"><a href="subrules.html"><img src="theme/r_arr.gif" border="0"></a></td> </tr> </table> <p>The <b>grammar</b> encapsulates a set of rules. The <tt>grammar</tt> class is a protocol base class. It is essentially an interface contract. The <tt>grammar</tt> is a template class that is parameterized by its derived class, <tt>DerivedT</tt>, and its context, <tt>ContextT</tt>. The template parameter ContextT defaults to <tt>parser_context</tt>, a predefined context. </p> <p>You need not be concerned at all with the ContextT template parameter unless you wish to tweak the low level behavior of the grammar. Detailed information on the ContextT template parameter is provided <a href="indepth_the_parser_context.html">elsewhere</a>. The <tt>grammar</tt> relies on the template parameter DerivedT, a grammar subclass to define the actual rules.</p> <p>Presented below is the public API. There may actually be more template parameters after <tt>ContextT</tt>. Everything after the <tt>ContextT</tt> parameter should not be of concern to the client and are strictly for internal use only.</p> <pre><code><font color="#000000"><span class=identifier> </span><span class=keyword>template</span><span class=special>< </span><span class=keyword>typename </span><span class=identifier>DerivedT</span><span class=special>, </span><span class=keyword>typename </span><span class=identifier>ContextT </span><span class=special>= </span><span class=identifier>parser_context</span><span class=special><</span><span class=special>> > </span><span class=keyword>struct </span><span class=identifier>grammar</span><span class=special>;</span></font></code></pre> <h2>Grammar definition</h2> <p>A concrete sub-class inheriting from <tt>grammar</tt> is expected to have a nested template class (or struct) named <tt>definition</tt>:</p> <blockquote> <p><img src="theme/bullet.gif" width="13" height="13"> It is a nested template class with a typename <tt>ScannerT</tt> parameter.<br> <img src="theme/bullet.gif" width="13" height="13"> Its constructor defines the grammar rules.<br> <img src="theme/bullet.gif" width="13" height="13"> Its constructor is passed in a reference to the actual grammar <tt>self</tt>.<br> <img src="theme/bullet.gif" width="13" height="13"> It has a member function named <tt>start</tt> that returns a reference to the start <tt>rule</tt>.</p> </blockquote> <h2>Grammar skeleton</h2> <pre><code><font color="#000000"><span class=special> </span><span class=keyword>struct </span><span class=identifier>my_grammar </span><span class=special>: </span><span class=keyword>public </span><span class=identifier>grammar</span><span class=special><</span><span class=identifier>my_grammar</span><span class=special>> </span><span class=special>{ </span><span class=keyword>template </span><span class=special><</span><span class=keyword>typename </span><span class=identifier>ScannerT</span><span class=special>> </span><span class=keyword>struct </span><span class=identifier>definition </span><span class=special>{ </span><span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>> </span><span class=identifier>r</span><span class=special>; </span><span class=identifier>definition</span><span class=special>(</span><span class=identifier>my_grammar </span><span class=keyword>const</span><span class=special>& </span><span class=identifier>self</span><span class=special>) </span><span class=special>{ </span><span class=identifier>r </span><span class=special>= </span><span class=comment>/*..define here..*/</span><span class=special>; </span><span class=special>} </span><span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>> </span><span class=keyword>const</span><span class=special>& </span><span class=identifier>start</span><span class=special>() </span><span class=keyword>const </span><span class=special>{ </span><span class=keyword>return </span><span class=identifier>r</span><span class=special>; </span><span class=special>} </span><span class=special>}; </span><span class=special>};</span></font></code></pre> <p>Decoupling the scanner type from the rules that form a grammar allows the grammar to be used in different contexts possibly using different scanners. We do not care what scanner we are dealing with. The user-defined <tt>my_grammar</tt> can be used with <b>any</b> type of scanner. Unlike the rule, the grammar is not tied to a specific scanner type. See <a href="faq.html#scanner_business">"Scanner Business"</a> to see why this is important and to gain further understanding on this scanner-rule coupling problem.</p> <h2>Instantiating and using my_grammar</h2> <p>Our grammar above may be instantiated and put into action:</p> <pre><code><font color="#000000"><span class=special> </span><span class=identifier>my_grammar </span><span class=identifier>g</span><span class=special>; </span><span class=keyword>if </span><span class=special>(</span><span class=identifier>parse</span><span class=special>(</span><span class=identifier>first</span><span class=special>, </span><span class=identifier>last</span><span class=special>, </span><span class=identifier>g</span><span class=special>, </span><span class=identifier>space_p</span><span class=special>).</span><span class=identifier>full</span><span class=special>) </span><span class=identifier>cout </span><span class=special><< </span><span class=string>"parsing succeeded\n"</span><span class=special>; </span><span class=keyword>else </span><span class=identifier>cout </span><span class=special><< </span><span class=string>"parsing failed\n"</span><span class=special>;</span></font></code></pre> <p><tt>my_grammar</tt> <b>IS-A </b>parser and can be used anywhere a parser is expected, even referenced by another rule:</p> <pre><code><font color="#000000"><span class=special> </span><span class=identifier>rule</span><span class=special><> </span><span class=identifier>r </span><span class=special>= </span><span class=identifier>g </span><span class=special>>> </span><span class=identifier>str_p</span><span class=special>(</span><span class=string>"cool huh?"</span><span class=special>);</span></font></code></pre> <table width="80%" border="0" align="center"> <tr> <td class="note_box"><img src="theme/alert.gif" width="16" height="16"> <b>Referencing grammars<br> </b><br> Like the rule, the grammar is also held by reference when it is placed in the right hand side of an EBNF expression. It is the responsibility of the client to ensure that the referenced grammar stays in scope and does not get destructed while it is being referenced. </td> </tr> </table> <h2><a name="full_grammar"></a>Full Grammar Example</h2> <p>Recalling our original calculator example, here it is now rewritten using a grammar:</p> <pre><code><font color="#000000"><span class=special> </span><span class=keyword>struct </span><span class=identifier>calculator </span><span class=special>: </span><span class=keyword>public </span><span class=identifier>grammar</span><span class=special><</span><span class=identifier>calculator</span><span class=special>> </span><span class=special>{ </span><span class=keyword>template </span><span class=special><</span><span class=keyword>typename </span><span class=identifier>ScannerT</span><span class=special>> </span><span class=keyword>struct </span><span class=identifier>definition </span><span class=special>{ </span><span class=identifier>definition</span><span class=special>(</span><span class=identifier>calculator </span><span class=keyword>const</span><span class=special>& </span><span class=identifier>self</span><span class=special>) </span><span class=special>{ </span><span class=identifier>group </span><span class=special>= </span><span class=literal>'(' </span><span class=special>>> </span><span class=identifier>expression </span><span class=special>>> </span><span class=literal>')'</span><span class=special>; </span><span class=identifier>factor </span><span class=special>= </span><span class=identifier>integer </span><span class=special>| </span><span class=identifier>group</span><span class=special>; </span><span class=identifier>term </span><span class=special>= </span><span class=identifier>factor </span><span class=special>>> </span><span class=special>*((</span><span class=literal>'*' </span><span class=special>>> </span><span class=identifier>factor</span><span class=special>) </span><span class=special>| </span><span class=special>(</span><span class=literal>'/' </span><span class=special>>> </span><span class=identifier>factor</span><span class=special>)); </span><span class=identifier>expression </span><span class=special>= </span><span class=identifier>term </span><span class=special>>> </span><span class=special>*((</span><span class=literal>'+' </span><span class=special>>> </span><span class=identifier>term</span><span class=special>) </span><span class=special>| </span><span class=special>(</span><span class=literal>'-' </span><span class=special>>> </span><span class=identifier>term</span><span class=special>)); </span><span class=special>} </span><span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>> </span><span class=identifier>expression</span><span class=special>, </span><span class=identifier>term</span><span class=special>, </span><span class=identifier>factor</span><span class=special>, </span><span class=identifier>group</span><span class=special>; </span><span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>> </span><span class=keyword>const</span><span class=special>& </span><span class=identifier>start</span><span class=special>() </span><span class=keyword>const </span><span class=special>{ </span><span class=keyword>return </span><span class=identifier>expression</span><span class=special>; </span><span class=special>} </span><span class=special>}; </span><span class=special>};</span></font></code></pre> <p><img src="theme/lens.gif" width="15" height="16"> A fully working example with <a href="semantic_actions.html">semantic actions</a> can be <a href="../example/fundamental/calc_plain.cpp">viewed here</a>. This is part of the Spirit distribution. </p> <table width="80%" border="0" align="center"> <tr> <td class="note_box"><img src="theme/lens.gif" width="15" height="16"> <b>self</b><br> <br> You might notice that the definition of the grammar has a constructor that accepts a const reference to the outer grammar. In the example above, notice that <tt>calculator::definition</tt> takes in a <tt>calculator const& self</tt>. While this is unused in the example above, in many cases, this is very useful. The self argument is the definition's window to the outside world. For example, the calculator class might have a reference to some state information that the definition can update while parsing proceeds through <a href="semantic_actions.html">semantic actions</a>. </td> </tr> </table> <h2>Grammar Capsules</h2> <p>As a grammar becomes complicated, it is a good idea to group parts into logical modules. For instance, when writing a language, it might be wise to put expressions and statements into separate grammar capsules. The grammar takes advantage of the encapsulation properties of C++ classes. The declarative nature of classes makes it a perfect fit for the definition of grammars. Since the grammar is nothing more than a class declaration, we can conveniently publish it in header files. The idea is that once written and fully tested, a grammar can be reused in many contexts. We now have the notion of grammar libraries.</p> <h2><a name="multithreading"></a>Reentrancy and multithreading</h2> <p>An instance of a grammar may be used in different places multiple times without any problem. The implementation is tuned to allow this at the expense of some overhead. However, we can save considerable cycles and bytes if we are certain that a grammar will only have a single instance. If this is desired, simply define <tt>BOOST_SPIRIT_SINGLE_GRAMMAR_INSTANCE</tt> before including any spirit header files.</p> <pre><font face="Courier New, Courier, mono"><code><span class="preprocessor"> #define</span></code></font><span class="preprocessor"><code><font face="Courier New, Courier, mono"> </font><tt>BOOST_SPIRIT_SINGLE_GRAMMAR_INSTANCE</tt></code></span></pre> <p> On the other hand, if a grammar is intended to be used in multithreaded code, we should then define <tt>BOOST_SPIRIT_THREADSAFE</tt> before including any spirit header files. In this case it will also be required to link against <a href="http://www.boost.org/libs/thread/doc/index.html">Boost.Threads</a></p> <pre><font face="Courier New, Courier, mono"><span class="preprocessor"> #define</span></font> <span class="preprocessor"><tt>BOOST_SPIRIT_THREADSAFE</tt></span></pre> <h2>Using more than one grammar start rule </h2> <p>Sometimes it is desirable to have more than one visible entry point to a grammar (apart from the start rule). To allow additional start points, Spirit provides a helper template <tt>grammar_def</tt>, which may be used as a base class for the <tt>definition</tt> subclass of your <tt>grammar</tt>. Here's an example:</p> <pre><code> <span class="comment">// this header has to be explicitly included</span> <span class="preprocessor">#include</span> <span class="string"><boost/spirit/utility/grammar_def.hpp></span> </span><span class=keyword>struct </span><span class=identifier>calculator2 </span><span class=special>: </span><span class=keyword>public </span><span class=identifier>grammar</span><span class=special><</span><span class=identifier>calculator2</span><span class=special>> { </span> <span class="keyword">enum</span> { expression = 0, term = 1, factor = 2, }; <span class=special> </span><span class=keyword>template </span><span class=special><</span><span class=keyword>typename </span><span class=identifier>ScannerT</span><span class=special>> </span><span class=keyword>struct </span><span class=identifier>definition </span><span class="special">:</span> <span class="keyword">public</span><span class=identifier> grammar_def</span><span class="special"><</span><span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>>,</span> same<span class="special">,</span> same<span class="special">></span> <span class=special>{</span> <span class=identifier>definition</span><span class=special>(</span><span class=identifier>calculator2 </span><span class=keyword>const</span><span class=special>& </span><span class=identifier>self</span><span class=special>) { </span><span class=identifier>group </span><span class=special>= </span><span class=literal>'(' </span><span class=special>>> </span><span class=identifier>expression </span><span class=special>>> </span><span class=literal>')'</span><span class=special>; </span><span class=identifier>factor </span><span class=special>= </span><span class=identifier>integer </span><span class=special>| </span><span class=identifier>group</span><span class=special>; </span><span class=identifier>term </span><span class=special>= </span><span class=identifier>factor </span><span class=special>>> *((</span><span class=literal>'*' </span><span class=special>>> </span><span class=identifier>factor</span><span class=special>) | (</span><span class=literal>'/' </span><span class=special>>> </span><span class=identifier>factor</span><span class=special>)); </span><span class=identifier>expression </span><span class=special>= </span><span class=identifier>term </span><span class=special>>> *((</span><span class=literal>'+' </span><span class=special>>> </span><span class=identifier>term</span><span class=special>) | (</span><span class=literal>'-' </span><span class=special>>> </span><span class=identifier>term</span><span class=special>));</span> <span class="keyword">this</span><span class="special">-></span>start_parsers<span class="special">(</span>expression<span class="special">,</span> term<span class="special">,</span> factor<span class="special">);</span> <span class="special">}</span> <span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>> </span><span class=identifier>expression</span><span class=special>, </span><span class=identifier>term</span><span class=special>, </span><span class=identifier>factor, group</span><span class=special>; </span><span class=special> }; };</span></font></code></pre> <p>The <tt>grammar_def</tt> template has to be instantiated with the types of all the rules you wish to make visible from outside the <tt>grammar</tt>:</p> <pre><code><span class=identifier> </span><span class=identifier>grammar_def</span><span class="special"><</span><span class=identifier>rule</span><span class=special><</span><span class=identifier>ScannerT</span><span class=special>>,</span> same<span class="special">,</span> same<span class="special">></span></code> </pre> <p>The shorthand notation <tt>same</tt> is used to indicate that the same type be used as specified by the previous template parameter (e.g. <code><tt>rule<ScannerT></tt></code>). Obviously, <tt>same</tt> may not be used as the first template parameter. </p> <table width="80%" border="0" align="center"> <tr> <td class="note_box"> <img src="theme/bulb.gif" width="13" height="18"> <strong>grammar_def start types</strong><br> <br> It may not be obvious, but it is interesting to note that aside from rule<>s, any parser type may be specified (e.g. chlit<>, strlit<>, int_parser<>, etc.).</td> </tr> </table> <p>Using the grammar_def class, there is no need to provide a <tt>start()</tt>member function anymore. Instead, you'll have to insert a call to the <tt>this->start_parsers()</tt> (which is a member function of the <tt>grammar_def</tt> template) to define the start symbols for your <tt>grammar</tt>. <img src="theme/note.gif" width="16" height="16"> Note that the number and the sequence of the rules used as the parameters to the <tt>start_parsers()</tt> function should match the types specified in the <tt>grammar_def</tt> template:</p> <pre><code> <span class="keyword">this</span><span class="special">-></span>start_parsers<span class="special">(</span>expression<span class="special">,</span> term<span class="special">,</span> factor<span class="special">);</span></code></pre> <p> The grammar entry point may be specified using the following syntax:</p> <pre><code><font color="#000000"><span class=identifier> g</span><span class="special">.</span><span class=identifier>use_parser</span><span class="special"><</span><span class=identifier>N</span><span class=special>>() </span><span class="comment">// Where g is your grammar and N is the Nth entry.</span></font></code></pre> <p>This sample shows how to use the <tt>term</tt> rule from the <tt>calculator2</tt> grammar above:</p> <pre><code><font color="#000000"><span class=identifier> calculator2 g</span><span class=special>; </span><span class=keyword>if </span><span class=special>(</span><span class=identifier>parse</span><span class=special>(</span><span class=identifier> first</span><span class=special>, </span><span class=identifier>last</span><span class=special>, </span><span class=identifier>g</span><span class="special">.</span><span class=identifier>use_parser</span><span class="special"><</span><span class=identifier>calculator2::term</span><span class=special>>(),</span><span class=identifier> space_p</span><span class=special> ).</span><span class=identifier>full</span><span class=special>) { </span><span class=identifier>cout </span><span class=special><< </span><span class=string>"parsing succeeded\n"</span><span class=special>; } </span><span class=keyword>else</span> <span class="special">{</span> <span class=identifier>cout </span><span class=special><< </span><span class=string>"parsing failed\n"</span><span class=special>; }</span></font></code></pre> <p>The template parameter for the <tt>use_parser<></tt> template type should be the zero based index into the list of rules specified in the <tt>start_parsers()</tt> function call. </p> <table width="80%" border="0" align="center"> <tr> <td class="note_box"><img src="theme/note.gif" width="16" height="16"> <tt><strong>use_parser<0></strong></tt><br> <br> Note, that using <span class="literal">0</span> (zero) as the template parameter to <tt>use_parser</tt> is equivalent to using the start rule, exported by conventional means through the <tt>start()</tt> function, as shown in the first <tt><a href="grammar.html#full_grammar">calculator</a></tt> sample above. So this notation may be used even for grammars exporting one rule through its <tt>start()</tt> function only. On the other hand, calling a <tt>grammar</tt> without the <tt>use_parser</tt> notation will execute the rule specified as the first parameter to the <tt>start_parsers()</tt> function. </td> </tr> </table> <p>The maximum number of usable start rules is limited by the preprocessor constant:</p> <pre> <span class="identifier">BOOST_SPIRIT_GRAMMAR_STARTRULE_TYPE_LIMIT</span> <span class="comment">// defaults to 3</span></pre> <table border="0"> <tr> <td width="10"></td> <td width="30"><a href="../index.html"><img src="theme/u_arr.gif" border="0"></a></td> <td width="30"><a href="scanner.html"><img src="theme/l_arr.gif" border="0"></a></td> <td width="30"><a href="subrules.html"><img src="theme/r_arr.gif" border="0"></a></td> </tr> </table> <br> <hr size="1"> <p class="copyright">Copyright © 1998-2003 Joel de Guzman<br> Copyright © 2003-2004 Hartmut Kaiser <br> <br> <font size="2">Use, modification and distribution is 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) </font> </p> <p> </p> </body> </html>