boost_1_45_0/libs/spirit/classic/phoenix/doc/statements.html - nest-learning-thermostat/5.1.5/boost - Git at Google

 <html>
 <head>
 <!-- Generated by the Spirit (http://spirit.sf.net) QuickDoc -->
 <title>Statements</title>
 <link rel="stylesheet" href="theme/style.css" type="text/css">
 <link rel="prev" href="operators.html">
 <link rel="next" href="binders.html">
 </head>
 <body>
 <table width="100%" height="48" 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>Statements</b></font>
     </td>
     <td width="112"><a href="http://spirit.sf.net"><img src="theme/spirit.gif" align="right" border="0"></a></td>
   </tr>
 </table>
 <br>
 <table border="0">
   <tr>
     <td width="30"><a href="../index.html"><img src="theme/u_arr.gif" border="0"></a></td>
     <td width="30"><a href="operators.html"><img src="theme/l_arr.gif" border="0"></a></td>
     <td width="20"><a href="binders.html"><img src="theme/r_arr.gif" border="0"></a></td>
    </tr>
 </table>
 <a name="lazy_statements"></a><h2>Lazy statements</h2><p>
 The primitives and composite building blocks presented before are sufficiently powerful to construct quite elaborate structures and facilities. We have presented lazy-functions and lazy-operators. How about lazy-statements? First, an appetizer:</p>
 <p>
 Print all odd-numbered contents of an STL container using std::for_each (sample4.cpp):</p>
 <code><pre>
     <span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
         </span><span class=identifier>if_</span><span class=special>(</span><span class=identifier>arg1 </span><span class=special>% </span><span class=number>2 </span><span class=special>== </span><span class=number>1</span><span class=special>)
         [
             </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=literal>' '
         </span><span class=special>]
     );
 </span></pre></code>
 <p>
 Huh? Is that valid C++? Read on...</p>
 <p>
 Yes, it is valid C++. The sample code above is as close as you can get to the syntax of C++. This stylized C++ syntax differs from actual C++ code. First, the if has a trailing underscore. Second, the block uses square brackets  instead of the familiar curly braces {}.</p>
 <p>
 Here are more examples with annotations. The code almost speaks for itself.</p>
 <p>
 <b>1) block statement:</b></p>
 <code><pre>
     <span class=identifier>statement</span><span class=special>,
     </span><span class=identifier>statement</span><span class=special>,
     ....
     </span><span class=identifier>statement
 </span></pre></code>
 <p>
 Basically, these are comma separated statements. Take note that unlike the C/C++ semicolon, the comma is a separator put *in-between* statements. This is like Pascal's semicolon separator, rather than C/C++'s semicolon terminator. For example:</p>
 <code><pre>
     <span class=identifier>statement</span><span class=special>,
     </span><span class=identifier>statement</span><span class=special>,
     </span><span class=identifier>statement</span><span class=special>,     //  </span><span class=identifier>ERROR</span><span class=special>!
 </span></pre></code>
 <p>
 Is an error. The last statement should not have a comma. Block statements can be grouped using the parentheses. Again, the last statement in a group should not have a trailing comma.</p>
 <code><pre>
     <span class=identifier>statement</span><span class=special>,
     </span><span class=identifier>statement</span><span class=special>,
     (
         </span><span class=identifier>statement</span><span class=special>,
         </span><span class=identifier>statement
     </span><span class=special>),
     </span><span class=identifier>statement
 </span></pre></code>
 <p>
 Outside the square brackets, block statements should be grouped. For example:</p>
 <code><pre>
     <span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
         (
             </span><span class=identifier>do_this</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>),
             </span><span class=identifier>do_that</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>)
         )
     );
 </span></pre></code>
 <p>
 <b>2) if_ statement:</b></p>
 <p>
 We have seen the if_ statement. The syntax is:</p>
 <code><pre>
     <span class=identifier>if_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
     [
         </span><span class=identifier>sequenced_statements
     </span><span class=special>]
 </span></pre></code>
 <p>
 <b>3) if_ else_ statement:</b></p>
 <p>
 The syntax is</p>
 <code><pre>
     <span class=identifier>if_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
     [
         </span><span class=identifier>sequenced_statements
     </span><span class=special>]
     .</span><span class=identifier>else_
     </span><span class=special>[
         </span><span class=identifier>sequenced_statements
     </span><span class=special>]
 </span></pre></code>
 <p>
 Take note that else has a prefix dot and a trailing underscore: .else_</p>
 <p>
 Example: This code prints out all the elements and appends &quot; &gt; 5&quot;, &quot; == 5&quot; or &quot; &lt; 5&quot; depending on the element's actual value:</p>
 <code><pre>
     <span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
         </span><span class=identifier>if_</span><span class=special>(</span><span class=identifier>arg1 </span><span class=special>&gt; </span><span class=number>5</span><span class=special>)
         [
             </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=string>&quot; &gt; 5\n&quot;
         </span><span class=special>]
         .</span><span class=identifier>else_
         </span><span class=special>[
             </span><span class=identifier>if_</span><span class=special>(</span><span class=identifier>arg1 </span><span class=special>== </span><span class=number>5</span><span class=special>)
             [
                 </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=string>&quot; == 5\n&quot;
             </span><span class=special>]
             .</span><span class=identifier>else_
             </span><span class=special>[
                 </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=string>&quot; &lt; 5\n&quot;
             </span><span class=special>]
         ]
     );
 </span></pre></code>
 <p>
 Notice how the if_ else_ statement is nested.</p>
 <p>
 <b>4) while_ statement:</b></p>
 <p>
 The syntax is:</p>
 <code><pre>
     <span class=identifier>while_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
     [
         </span><span class=identifier>sequenced_statements
     </span><span class=special>]
 </span></pre></code>
 <p>
 Example: This code decrements each element until it reaches zero and prints out the number at each step. A newline terminates the printout of each value.</p>
 <code><pre>
     <span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
         (
             </span><span class=identifier>while_</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>--)
             [
                 </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=string>&quot;, &quot;
             </span><span class=special>],
             </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>val</span><span class=special>(</span><span class=string>&quot;\n&quot;</span><span class=special>)
         )
     );
 </span></pre></code>
 <p>
 <b>5) do_ while_ statement:</b></p>
 <p>
 The syntax is:</p>
 <code><pre>
     <span class=identifier>do_
     </span><span class=special>[
         </span><span class=identifier>sequenced_statements
     </span><span class=special>]
     .</span><span class=identifier>while_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
 </span></pre></code>
 <p>
 Again, take note that while has a prefix dot and a trailing underscore: .while_</p>
 <p>
 Example: This code is almost the same as the previous example above with a slight twist in logic.</p>
 <code><pre>
     <span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
         (
             </span><span class=identifier>do_
             </span><span class=special>[
                 </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=string>&quot;, &quot;
             </span><span class=special>]
             .</span><span class=identifier>while_</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>--),
             </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>val</span><span class=special>(</span><span class=string>&quot;\n&quot;</span><span class=special>)
         )
     );
 </span></pre></code>
 <p>
 <b>6) for_ statement:</b></p>
 <p>
 The syntax is:</p>
 <code><pre>
     <span class=identifier>for_</span><span class=special>(</span><span class=identifier>init_statement</span><span class=special>, </span><span class=identifier>conditional_expression</span><span class=special>, </span><span class=identifier>step_statement</span><span class=special>)
     [
         </span><span class=identifier>sequenced_statements
     </span><span class=special>]
 </span></pre></code>
 <p>
 It is again almost similar to C++ for statement. Take note that the init_statement, conditional_expression and step_statement are separated by the comma instead of the semi- colon and each must be present (i.e. for_(,,) is invalid).</p>
 <p>
 Example: This code prints each element N times where N is the element's value. A newline terminates the printout of each value.</p>
 <code><pre>
     <span class=keyword>int </span><span class=identifier>iii</span><span class=special>;
     </span><span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
         (
             </span><span class=identifier>for_</span><span class=special>(</span><span class=identifier>var</span><span class=special>(</span><span class=identifier>iii</span><span class=special>) = </span><span class=number>0</span><span class=special>, </span><span class=identifier>var</span><span class=special>(</span><span class=identifier>iii</span><span class=special>) &lt; </span><span class=identifier>arg1</span><span class=special>, ++</span><span class=identifier>var</span><span class=special>(</span><span class=identifier>iii</span><span class=special>))
             [
                 </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>arg1 </span><span class=special>&lt;&lt; </span><span class=string>&quot;, &quot;
             </span><span class=special>],
             </span><span class=identifier>cout </span><span class=special>&lt;&lt; </span><span class=identifier>val</span><span class=special>(</span><span class=string>&quot;\n&quot;</span><span class=special>)
         )
     );
 </span></pre></code>
 <p>
 As before, all these are lazily evaluated. The result of such statements are in fact composites that are passed on to STL's for_each function. In the viewpoint of for_each, what was passed is just a functor, no more, no less.</p>
 <table width="80%" border="0" align="center">
   <tr>
     <td class="note_box">
 <img src="theme/note.gif"></img> Unlike lazy functions and lazy operators, lazy statements always return void.    </td>
   </tr>
 </table>
 <table border="0">
   <tr>
     <td width="30"><a href="../index.html"><img src="theme/u_arr.gif" border="0"></a></td>
     <td width="30"><a href="operators.html"><img src="theme/l_arr.gif" border="0"></a></td>
     <td width="20"><a href="binders.html"><img src="theme/r_arr.gif" border="0"></a></td>
    </tr>
 </table>
 <br>
 <hr size="1">
 <p class="copyright">Copyright &copy; 2001-2002 Joel de Guzman<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>
 </body>
 </html>
	<html>
	<head>
	<!-- Generated by the Spirit (http://spirit.sf.net) QuickDoc -->
	<title>Statements</title>
	<link rel="stylesheet" href="theme/style.css" type="text/css">
	<link rel="prev" href="operators.html">
	<link rel="next" href="binders.html">
	</head>
	<body>
	<table width="100%" height="48" 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>Statements</b></font>
	</td>
	<td width="112"><a href="http://spirit.sf.net"><img src="theme/spirit.gif" align="right" border="0"></a></td>
	</tr>
	</table>
	<br>
	<table border="0">
	<tr>
	<td width="30"><a href="../index.html"><img src="theme/u_arr.gif" border="0"></a></td>
	<td width="30"><a href="operators.html"><img src="theme/l_arr.gif" border="0"></a></td>
	<td width="20"><a href="binders.html"><img src="theme/r_arr.gif" border="0"></a></td>
	</tr>
	</table>
	<a name="lazy_statements"></a><h2>Lazy statements</h2><p>
	The primitives and composite building blocks presented before are sufficiently powerful to construct quite elaborate structures and facilities. We have presented lazy-functions and lazy-operators. How about lazy-statements? First, an appetizer:</p>
	<p>
	Print all odd-numbered contents of an STL container using std::for_each (sample4.cpp):</p>
	<code><pre>
	<span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
	</span><span class=identifier>if_</span><span class=special>(</span><span class=identifier>arg1 </span><span class=special>% </span><span class=number>2 </span><span class=special>== </span><span class=number>1</span><span class=special>)
	[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=literal>' '
	</span><span class=special>]
	);
	</span></pre></code>
	<p>
	Huh? Is that valid C++? Read on...</p>
	<p>
	Yes, it is valid C++. The sample code above is as close as you can get to the syntax of C++. This stylized C++ syntax differs from actual C++ code. First, the if has a trailing underscore. Second, the block uses square brackets instead of the familiar curly braces {}.</p>
	<p>
	Here are more examples with annotations. The code almost speaks for itself.</p>
	<p>
	<b>1) block statement:</b></p>
	<code><pre>
	<span class=identifier>statement</span><span class=special>,
	</span><span class=identifier>statement</span><span class=special>,
	....
	</span><span class=identifier>statement
	</span></pre></code>
	<p>
	Basically, these are comma separated statements. Take note that unlike the C/C++ semicolon, the comma is a separator put in-between statements. This is like Pascal's semicolon separator, rather than C/C++'s semicolon terminator. For example:</p>
	<code><pre>
	<span class=identifier>statement</span><span class=special>,
	</span><span class=identifier>statement</span><span class=special>,
	</span><span class=identifier>statement</span><span class=special>, // </span><span class=identifier>ERROR</span><span class=special>!
	</span></pre></code>
	<p>
	Is an error. The last statement should not have a comma. Block statements can be grouped using the parentheses. Again, the last statement in a group should not have a trailing comma.</p>
	<code><pre>
	<span class=identifier>statement</span><span class=special>,
	</span><span class=identifier>statement</span><span class=special>,
	(
	</span><span class=identifier>statement</span><span class=special>,
	</span><span class=identifier>statement
	</span><span class=special>),
	</span><span class=identifier>statement
	</span></pre></code>
	<p>
	Outside the square brackets, block statements should be grouped. For example:</p>
	<code><pre>
	<span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
	(
	</span><span class=identifier>do_this</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>),
	</span><span class=identifier>do_that</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>)
	)
	);
	</span></pre></code>
	<p>
	<b>2) if_ statement:</b></p>
	<p>
	We have seen the if_ statement. The syntax is:</p>
	<code><pre>
	<span class=identifier>if_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
	[
	</span><span class=identifier>sequenced_statements
	</span><span class=special>]
	</span></pre></code>
	<p>
	<b>3) if_ else_ statement:</b></p>
	<p>
	The syntax is</p>
	<code><pre>
	<span class=identifier>if_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
	[
	</span><span class=identifier>sequenced_statements
	</span><span class=special>]
	.</span><span class=identifier>else_
	</span><span class=special>[
	</span><span class=identifier>sequenced_statements
	</span><span class=special>]
	</span></pre></code>
	<p>
	Take note that else has a prefix dot and a trailing underscore: .else_</p>
	<p>
	Example: This code prints out all the elements and appends " > 5", " == 5" or " < 5" depending on the element's actual value:</p>
	<code><pre>
	<span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
	</span><span class=identifier>if_</span><span class=special>(</span><span class=identifier>arg1 </span><span class=special>> </span><span class=number>5</span><span class=special>)
	[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=string>" > 5\n"
	</span><span class=special>]
	.</span><span class=identifier>else_
	</span><span class=special>[
	</span><span class=identifier>if_</span><span class=special>(</span><span class=identifier>arg1 </span><span class=special>== </span><span class=number>5</span><span class=special>)
	[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=string>" == 5\n"
	</span><span class=special>]
	.</span><span class=identifier>else_
	</span><span class=special>[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=string>" < 5\n"
	</span><span class=special>]
	]
	);
	</span></pre></code>
	<p>
	Notice how the if_ else_ statement is nested.</p>
	<p>
	<b>4) while_ statement:</b></p>
	<p>
	The syntax is:</p>
	<code><pre>
	<span class=identifier>while_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
	[
	</span><span class=identifier>sequenced_statements
	</span><span class=special>]
	</span></pre></code>
	<p>
	Example: This code decrements each element until it reaches zero and prints out the number at each step. A newline terminates the printout of each value.</p>
	<code><pre>
	<span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
	(
	</span><span class=identifier>while_</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>--)
	[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=string>", "
	</span><span class=special>],
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>val</span><span class=special>(</span><span class=string>"\n"</span><span class=special>)
	)
	);
	</span></pre></code>
	<p>
	<b>5) do_ while_ statement:</b></p>
	<p>
	The syntax is:</p>
	<code><pre>
	<span class=identifier>do_
	</span><span class=special>[
	</span><span class=identifier>sequenced_statements
	</span><span class=special>]
	.</span><span class=identifier>while_</span><span class=special>(</span><span class=identifier>conditional_expression</span><span class=special>)
	</span></pre></code>
	<p>
	Again, take note that while has a prefix dot and a trailing underscore: .while_</p>
	<p>
	Example: This code is almost the same as the previous example above with a slight twist in logic.</p>
	<code><pre>
	<span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
	(
	</span><span class=identifier>do_
	</span><span class=special>[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=string>", "
	</span><span class=special>]
	.</span><span class=identifier>while_</span><span class=special>(</span><span class=identifier>arg1</span><span class=special>--),
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>val</span><span class=special>(</span><span class=string>"\n"</span><span class=special>)
	)
	);
	</span></pre></code>
	<p>
	<b>6) for_ statement:</b></p>
	<p>
	The syntax is:</p>
	<code><pre>
	<span class=identifier>for_</span><span class=special>(</span><span class=identifier>init_statement</span><span class=special>, </span><span class=identifier>conditional_expression</span><span class=special>, </span><span class=identifier>step_statement</span><span class=special>)
	[
	</span><span class=identifier>sequenced_statements
	</span><span class=special>]
	</span></pre></code>
	<p>
	It is again almost similar to C++ for statement. Take note that the init_statement, conditional_expression and step_statement are separated by the comma instead of the semi- colon and each must be present (i.e. for_(,,) is invalid).</p>
	<p>
	Example: This code prints each element N times where N is the element's value. A newline terminates the printout of each value.</p>
	<code><pre>
	<span class=keyword>int </span><span class=identifier>iii</span><span class=special>;
	</span><span class=identifier>for_each</span><span class=special>(</span><span class=identifier>c</span><span class=special>.</span><span class=identifier>begin</span><span class=special>(), </span><span class=identifier>c</span><span class=special>.</span><span class=identifier>end</span><span class=special>(),
	(
	</span><span class=identifier>for_</span><span class=special>(</span><span class=identifier>var</span><span class=special>(</span><span class=identifier>iii</span><span class=special>) = </span><span class=number>0</span><span class=special>, </span><span class=identifier>var</span><span class=special>(</span><span class=identifier>iii</span><span class=special>) < </span><span class=identifier>arg1</span><span class=special>, ++</span><span class=identifier>var</span><span class=special>(</span><span class=identifier>iii</span><span class=special>))
	[
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>arg1 </span><span class=special><< </span><span class=string>", "
	</span><span class=special>],
	</span><span class=identifier>cout </span><span class=special><< </span><span class=identifier>val</span><span class=special>(</span><span class=string>"\n"</span><span class=special>)
	)
	);
	</span></pre></code>
	<p>
	As before, all these are lazily evaluated. The result of such statements are in fact composites that are passed on to STL's for_each function. In the viewpoint of for_each, what was passed is just a functor, no more, no less.</p>
	<table width="80%" border="0" align="center">
	<tr>
	<td class="note_box">
	<img src="theme/note.gif"></img> Unlike lazy functions and lazy operators, lazy statements always return void. </td>
	</tr>
	</table>
	<table border="0">
	<tr>
	<td width="30"><a href="../index.html"><img src="theme/u_arr.gif" border="0"></a></td>
	<td width="30"><a href="operators.html"><img src="theme/l_arr.gif" border="0"></a></td>
	<td width="20"><a href="binders.html"><img src="theme/r_arr.gif" border="0"></a></td>
	</tr>
	</table>
	<br>
	<hr size="1">
	<p class="copyright">Copyright © 2001-2002 Joel de Guzman<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>
	</body>
	</html>