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3<title>Directives</title>
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13    <td width="85%"> 
14      <font size="6" face="Verdana, Arial, Helvetica, sans-serif"><b>Directives</b></font>
15    </td>
16    <td width="112"><a href="http://spirit.sf.net"><img src="theme/spirit.gif" width="112" height="48" align="right" border="0"></a></td>
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27</table>
28<p>Parser directives have the form: <b>directive[expression]</b></p>
29<p>A directive modifies the behavior of its enclosed expression, essentially <em>decorating</em> 
30  it. The framework pre-defines a few directives. Clients of the framework are
31  free to define their own directives as needed. Information on how this is done
32  will be provided later. For now, we shall deal only with predefined directives.</p>
33<h2>lexeme_d</h2>
34<p>Turns off white space skipping. At the phrase level, the parser ignores white
35  spaces, possibly including comments. Use <tt>lexeme_d</tt> in situations where
36  we want to work at the character level instead of the phrase level. Parsers
37  can be made to work at the character level by enclosing the pertinent parts
38  inside the lexeme_d directive. For example, let us complete the example presented
39  in the <a href="introduction.html">Introduction</a>. There, we skipped the definition
40  of the <tt>integer</tt> rule. Here's how it is actually defined:</p>
41<pre><code><font color="#000000"><span class=identifier>    </span><span class=identifier>integer </span><span class=special>= </span><span class=identifier>lexeme_d</span><span class=special>[ </span><span class=special>!(</span><span class=identifier>ch_p</span><span class=special>(</span><span class=literal>'+'</span><span class=special>) </span><span class=special>| </span><span class=literal>'-'</span><span class=special>) </span><span class=special>&gt;&gt; </span><span class=special>+</span><span class=identifier>digit </span><span class=special>];</span></font></code></pre>
42<p>The <tt>lexeme_d</tt> directive instructs the parser to work on the character
43  level. Without it, the <tt>integer</tt> rule would have allowed erroneous embedded
44  white spaces in inputs such as <span class="quotes">&quot;1 2 345&quot;</span> 
45  which will be parsed as <span class="quotes">&quot;12345&quot;</span>.</p>
46<h2>as_lower_d</h2>
47<p>There are times when we want to inhibit case sensitivity. The <tt>as_lower_d</tt> 
48  directive converts all characters from the input to lower-case.</p>
49<table width="80%" border="0" align="center">
50  <tr> 
51    <td class="note_box"><img src="theme/alert.gif" width="16" height="16"><b> 
52      as_lower_d behavior</b> <br>
53      <br>
54      It is important to note that only the input is converted to lower case.
55      Parsers enclosed inside the <tt>as_lower_d</tt> expecting upper case characters
56      will fail to parse. Example: <tt>as_lower_d[<span class="quotes">'X'</span>]</tt> 
57      will never succeed because it expects an upper case <tt class="quotes">'X'</tt> 
58      that the <tt>as_lower_d</tt> directive will never supply.</td>
59  </tr>
60</table>
61<p>For example, in Pascal, keywords and identifiers are case insensitive. Pascal
62  ignores the case of letters in identifiers and keywords. Identifiers Id, ID
63  and id are indistinguishable in Pascal. Without the as_lower_d directive, it
64  would be awkward to define a rule that recognizes this. Here's a possibility:</p>
65<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>r </span><span class=special>= </span><span class=identifier>str_p</span><span class=special>(</span><span class=string>"id"</span><span class=special>) </span><span class=special>| </span><span class=string>"Id" </span><span class=special>| </span><span class=string>"iD" </span><span class=special>| </span><span class=string>"ID"</span><span class=special>;</span></font></code></pre>
66<p>Now, try doing that with the case insensitive Pascal keyword <span class="quotes">&quot;BEGIN&quot;</span>.
67  The <tt>as_lower_d</tt> directive makes this simple:</p>
68<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>r </span><span class=special>= </span><span class=identifier>as_lower_d</span><span class=special>[</span><span class=string>"begin"</span><span class=special>];</span></font></code></pre>
69<table width="80%" border="0" align="center">
70  <tr> 
71    <td class="note_box"><div align="justify"><img src="theme/note.gif" width="16" height="16"> 
72        <b>Primitive arguments</b> <br>
73        <br>
74        The astute reader will notice that we did not explicitly wrap <span class="quotes">&quot;begin&quot;</span> 
75        inside an <tt>str_p</tt>. Whenever appropriate, directives should be able
76        to allow primitive types such as <tt>char</tt>, <tt>int</tt>, <tt>wchar_t</tt>,
77        <tt>char const<span class="operators">*</span></tt>, <tt>wchar_t const<span class="operators">*</span></tt> 
78        and so on. Examples: <tt><br>
79        <br>
80        </tt><code><span class=identifier>as_lower_d</span><tt><span class=special>[</span><span class=string>"hello"</span><span class=special>]
81        </span><span class=comment>// same as as_lower_d[str_p("hello")]</span></tt><code></code><span class=identifier><br>
82        as_lower_d</span><span class=special>[</span><span class=literal>'x'</span><span class=special>]
83        </span><span class=comment>// same as as_lower_d[ch_p('x')]</span></code></div></td>
84  </tr>
85</table>
86<h3>no_actions_d</h3>
87<p>There are cases where you want <a href="semantic_actions.html">semantic actions</a> 
88  not to be triggered. By enclosing a parser in the <tt>no_actions_d</tt> directive,
89  all semantic actions directly or indirectly attached to the parser will not
90  fire. </p>
91<pre><code><font color="#000000"><span class=special>    </span>no_actions_d<span class=special>[</span><span class=identifier>expression</span><span class=special>]</span></font></code><code><font color="#000000"><span class=special></span></font></code></pre>
92<h3>Tweaking the Scanner Type</h3>
93<p><img src="theme/note.gif" width="16" height="16"> How does <tt>lexeme_d, as_lower_d</tt> 
94  and <font color="#000000"><tt>no_actions_d</tt></font> work? These directives
95  do their magic by tweaking the scanner policies. Well, you don't need to know
96  what that means for now. Scanner policies are discussed <a href="indepth_the_scanner.html">later</a>.
97  However, it is important to note that when the scanner policy is tweaked, the
98  result is a different scanner. Why is this important to note? The <a href="rule.html">rule</a> 
99  is tied to a particular scanner (one or more scanners, to be precise). If you
100  wrap a rule inside a <tt>lexeme_d, as_lower_d</tt> or <font color="#000000"><tt>no_actions_d,</tt>the
101  compiler will complain about <a href="faq.html#scanner_business">scanner mismatch</a> 
102  unless you associate the required scanner with the rule. </font></p>
103<p><tt>lexeme_scanner</tt>, <tt>as_lower_scanner</tt> and <tt>no_actions_scanner</tt> 
104  are your friends if the need to wrap a rule inside these directives arise. Learn
105  bout these beasts in the next chapter on <a href="scanner.html#lexeme_scanner">The
106  Scanner and Parsing</a>.</p>
107<h2>longest_d</h2>
108<p>Alternatives in the Spirit parser compiler are short-circuited (see <a href="operators.html">Operators</a>).
109  Sometimes, this is not what is desired. The <tt>longest_d</tt> directive instructs
110  the parser not to short-circuit alternatives enclosed inside this directive,
111  but instead makes the parser try all possible alternatives and choose the one
112  matching the longest portion of the input stream.</p>
113<p>Consider the parsing of integers and real numbers:</p>
114<pre><code><font color="#000000"><span class=comment>    </span><span class=identifier>number </span><span class=special>= </span><span class=identifier>real </span><span class=special>| </span><span class=identifier>integer</span><span class=special>;</span></font></code></pre>
115<p>A number can be a real or an integer. This grammar is ambiguous. An input <span class="quotes">&quot;1234&quot;</span> 
116  should potentially match both real and integer. Recall though that alternatives
117  are short-circuited . Thus, for inputs such as above, the real alternative always
118  wins. However, if we swap the alternatives:</p>
119<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>number </span><span class=special>= </span><span class=identifier>integer </span><span class=special>| </span><span class=identifier>real</span><span class=special>;</span></font></code></pre>
120<p>we still have a problem. Now, an input <span class="quotes">&quot;123.456&quot;</span> 
121  will be partially matched by integer until the decimal point. This is not what
122  we want. The solution here is either to fix the ambiguity by factoring out the
123  common prefixes of real and integer or, if that is not possible nor desired,
124  use the <tt>longest_d</tt> directive:</p>
125<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>number </span><span class=special>= </span><span class=identifier>longest_d</span><span class=special>[ </span><span class=identifier>integer </span><span class=special>| </span><span class=identifier>real </span><span class=special>];</span></font></code></pre>
126<h2>shortest_d</h2>
127<p>Opposite of the <tt>longest_d</tt> directive.</p>
128<table width="80%" border="0" align="center">
129  <tr> 
130    <td class="note_box"><img src="theme/note.gif" width="16" height="16"> <b>Multiple
131      alternatives</b> <br>
132      <br>
133      The <tt>longest_d</tt> and <tt>shortest_d</tt> directives can accept two
134      or more alternatives. Examples:<br>
135      <br>
136      <font color="#000000"><span class=identifier><code>longest</code></span><code><span class=special>[
137      </span><span class=identifier>a </span><span class=special>| </span><span class=identifier>b
138      </span><span class=special>| </span><span class=identifier>c </span><span class=special>];
139      </span><span class=identifier><br>
140      shortest</span><span class=special>[ </span><span class=identifier>a </span><span class=special>|
141      </span><span class=identifier>b </span><span class=special>| </span><span class=identifier>c
142      </span><span class=special>| </span><span class=identifier>d </span><span class=special>];</span></code></font></td>
143  </tr>
144</table>
145<h2>limit_d</h2>
146<p>Ensures that the result of a parser is constrained to a given min..max range
147  (inclusive). If not, then the parser fails and returns a no-match.</p>
148<p><b>Usage:</b></p>
149<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>limit_d</span><span class=special>(</span><span class=identifier>min</span><span class=special>, </span><span class=identifier>max</span><span class=special>)[</span><span class=identifier>expression</span><span class=special>]</span></font></code></pre>
150<p>This directive is particularly useful in conjunction with parsers that parse
151  specific scalar ranges (for example, <a href="numerics.html">numeric parsers</a>).
152  Here's a practical example. Although the numeric parsers can be configured to
153  accept only a limited number of digits (say, 0..2), there is no way to limit
154  the result to a range (say -1.0..1.0). This design is deliberate. Doing so would
155  have undermined Spirit's design rule that <i><span class="quotes">&quot;the
156  client should not pay for features that she does not use&quot;</span></i>. We
157  would have stored the min, max values in the numeric parser itself, used or
158  unused. Well, we could get by by using static constants configured by a non-type
159  template parameter, but that is not acceptable because that way, we can only
160  accommodate integers. What about real numbers or user defined numbers such as
161  big-ints?</p>
162<p><b>Example</b>, parse time of the form <b>HH:MM:SS</b>:</p>
163<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>uint_parser</span><span class=special>&lt;</span><span class=keyword>int</span><span class=special>, </span><span class=number>10</span><span class=special>, </span><span class=number>2</span><span class=special>, </span><span class=number>2</span><span class=special>&gt; </span><span class=identifier>uint2_p</span><span class=special>;
164
165    </span><span class=identifier>r </span><span class=special>= </span><span class=identifier>lexeme_d
166        </span><span class=special>[
167                </span><span class=identifier>limit_d</span><span class=special>(</span><span class=number>0u</span><span class=special>, </span><span class=number>23u</span><span class=special>)[</span><span class=identifier>uint2_p</span><span class=special>] </span><span class=special>&gt;&gt; </span><span class=literal>':'    </span><span class=comment>//  Hours 00..23
168            </span><span class=special>&gt;&gt;  </span><span class=identifier>limit_d</span><span class=special>(</span><span class=number>0u</span><span class=special>, </span><span class=number>59u</span><span class=special>)[</span><span class=identifier>uint2_p</span><span class=special>] </span><span class=special>&gt;&gt; </span><span class=literal>':'    </span><span class=comment>//  Minutes 00..59
169            </span><span class=special>&gt;&gt;  </span><span class=identifier>limit_d</span><span class=special>(</span><span class=number>0u</span><span class=special>, </span><span class=number>59u</span><span class=special>)[</span><span class=identifier>uint2_p</span><span class=special>]           </span><span class=comment>//  Seconds 00..59
170        </span><span class=special>];</span></font></code>
171</pre>
172<h2>min_limit_d</h2>
173<p>Sometimes, it is useful to unconstrain just the maximum limit. This will allow
174  for an interval that's unbounded in one direction. The directive min_limit_d
175  ensures that the result of a parser is not less than minimun. If not, then the
176  parser fails and returns a no-match.</p>
177<p><b>Usage:</b></p>
178<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>min_limit_d</span><span class=special>(</span><span class=identifier>min</span><span class=special>)[</span><span class=identifier>expression</span><span class=special>]</span></font></code></pre>
179<p><b>Example</b>, ensure that a date is not less than 1900</p>
180<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>min_limit_d</span><span class=special>(</span><span class=number>1900u</span><span class=special>)[</span><span class=identifier>uint_p</span><span class=special>]</span></font></code></pre>
181<h2>max_limit_d</h2>
182<p>Opposite of <tt>min_limit_d</tt>. Take note that <tt>limit_d[p]</tt> is equivalent
183  to:</p>
184<pre><code><font color="#000000"><span class=special>    </span><span class=identifier>min_limit_d</span><span class=special>(</span><span class=identifier>min</span><span class=special>)[</span><span class=identifier>max_limit_d</span><span class=special>(</span><span class=identifier>max</span><span class=special>)[</span><span class=identifier>p</span><span class=special>]]</span></font></code><code><font color="#000000"><span class=special></span></font></code></pre>
185<table border="0">
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187    <td width="10"></td>
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191  </tr>
192</table>
193<br>
194<hr size="1">
195<p class="copyright">Copyright &copy; 1998-2003 Joel de Guzman<br>
196  <br>
197<font size="2">Use, modification and distribution is subject to the Boost Software
198    License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
199    http://www.boost.org/LICENSE_1_0.txt) </font> </p>
200<p>&nbsp;</p>
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