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source: downloads/boost_1_33_1/libs/logic/doc/tribool.boostbook @ 12

Last change on this file since 12 was 12, checked in by landauf, 17 years ago

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1<?xml version="1.0" encoding="utf-8"?>
2<!DOCTYPE library PUBLIC "-//Boost//DTD BoostBook XML V1.0//EN"
3  "http://www.boost.org/tools/boostbook/dtd/boostbook.dtd">
4<library name="Tribool" dirname="logic" id="tribool"
5         last-revision="$Date: 2004/07/25 03:01:38 $" xmlns:xi="http://www.w3.org/2001/XInclude">
6  <libraryinfo>
7    <author>
8      <firstname>Douglas</firstname>
9      <surname>Gregor</surname>
10      <email>dgregor -at- cs.indiana.edu</email>
11    </author>
12
13    <copyright>
14      <year>2002</year>
15      <year>2003</year>
16      <year>2004</year>
17      <holder>Douglas Gregor</holder>
18    </copyright>   
19
20    <legalnotice>
21      <para>Use, modification and distribution is subject to the Boost
22    Software License, Version 1.0. (See accompanying file
23    <filename>LICENSE_1_0.txt</filename> or copy at <ulink
24    url="http://www.boost.org/LICENSE_1_0.txt">http://www.boost.org/LICENSE_1_0.txt</ulink>)</para>
25    </legalnotice>
26
27    <librarypurpose>Three-state boolean type</librarypurpose>
28    <librarycategory name="category:misc"/>
29  </libraryinfo>
30
31  <title>Boost.Tribool</title>
32
33  <section id="tribool.introduction">
34    <title>Introduction</title>
35
36    <para>The 3-state boolean library contains a single class,
37    <code><classname>boost::logic::tribool</classname></code>, along with
38    support functions and operator overloads that implement 3-state
39    boolean logic. </para>
40  </section>
41
42  <section id="tribool.tutorial">
43    <title>Tutorial</title>
44
45    <using-namespace name="boost::logic"/>
46
47    <section>
48      <title>Basic usage</title>
49    <para> The <code><classname>tribool</classname></code> class acts
50    like the built-in <code>bool</code> type, but for 3-state boolean
51    logic. The three states are <code>true</code>, <code>false</code>,
52    and <code><functionname>indeterminate</functionname></code>, where
53    the first two states are equivalent to those of the C++
54    <code>bool</code> type and the last state represents an unknown
55    boolean value (that may be <code>true</code> or
56    <code>false</code>, we don't know).</para>
57
58    <para> The <code><classname>tribool</classname></code> class
59    supports conversion from <code>bool</code> values and literals
60    along with its own
61    <code><functionname>indeterminate</functionname></code>
62    keyword:</para>
63
64    <programlisting><classname>tribool</classname> b(true);
65b = false;
66b = <functionname>indeterminate</functionname>;
67<classname>tribool</classname> b2(b);</programlisting>
68
69    <para> <code><classname>tribool</classname></code> supports
70    conversions to <code>bool</code> for use in conditional
71    statements. The conversion to <code>bool</code> will be
72    <code>true</code> when the value of the
73    <code><classname>tribool</classname></code> is always true, and
74    <code>false</code> otherwise. Consequently, the following idiom
75    may be used to determine which of the three states a
76    <code><classname>tribool</classname></code> currently
77    holds:</para>
78
79<programlisting><classname>tribool</classname> b = some_operation();
80if (b) {
81  // b is true
82}
83else if (!b) {
84  // b is false
85}
86else {
87  // b is indeterminate
88}</programlisting>
89
90  <para> <code><classname>tribool</classname></code> supports the
91  3-state logic operators <code>!</code> (negation),
92  <code>&amp;&amp;</code> (AND), and <code>||</code> (OR), with
93  <code>bool</code> and <code><classname>tribool</classname></code>
94  values. For instance:</para>
95
96  <programlisting><classname>tribool</classname> x = some_op();
97<classname>tribool</classname> y = some_other_op();
98if (x &amp;&amp; y) {
99  // both x and y are true
100}
101else if (!(x &amp;&amp; y)) {
102  // either x or y is false
103}
104else {
105  // neither x nor y is false, but we don't know that both are true
106
107  if (x || y) {
108    // either x or y is true
109  }
110}</programlisting>
111
112  <para> Similarly, <code><classname>tribool</classname></code>
113  supports 3-state equality comparisons via the operators
114  <code>==</code> and <code>!=</code>. These operators differ from
115  "normal" equality operators in C++ because they return a
116  <code><classname>tribool</classname></code>, because potentially we
117  might not know the result of a comparison (try to compare
118  <code>true</code> and
119  <code><functionname>indeterminate</functionname></code>). For
120  instance:</para>
121
122<programlisting><classname>tribool</classname> x(true);
123<classname>tribool</classname> y(<functionname>indeterminate</functionname>);
124
125assert(x == x); // okay, x == x returns true
126assert(x == true); // okay, can compare <classname>tribool</classname>s and bools</programlisting>
127
128  <para> The <code><functionname>indeterminate</functionname></code> keyword (representing the
129  <functionname>indeterminate</functionname>&nbsp;<code><classname>tribool</classname></code> value)
130  doubles as a function to check if the value of a
131  <code><classname>tribool</classname></code> is indeterminate,
132  e.g.,</para>
133 
134  <programlisting><classname>tribool</classname> x = try_to_do_something_tricky();
135if (<functionname>indeterminate</functionname>(x)) {
136  // value of x is indeterminate
137}
138else {
139  // report success or failure of x
140}</programlisting>
141</section>
142 
143  <section>
144    <title>Renaming the indeterminate state</title>
145  <para> Users may introduce additional keywords for the indeterminate
146  value in addition to the implementation-supplied
147  <code><functionname>indeterminate</functionname></code> using the
148  <code><macroname>BOOST_TRIBOOL_THIRD_STATE</macroname></code>
149  macro. For instance, the following macro instantiation (at the
150  global scope) will introduce the keyword <code>maybe</code> as a
151  synonym for <code><functionname>indeterminate</functionname></code>
152  (also residing in the <code>boost</code> namespace):</para>
153  <programlisting><macroname>BOOST_TRIBOOL_THIRD_STATE</macroname>(maybe)
154<classname>tribool</classname> x = maybe;
155if (maybe(x)) { /* ... */ }</programlisting>
156  </section>
157
158  <section>
159    <title><code>tribool</code> input/output</title>
160  <para><code><classname>tribool</classname></code> objects may be
161  read from and written to streams by including the
162  <headername>boost/logic/tribool_io.hpp</headername> header in a
163  manner very similar to <code>bool</code> values. When the
164  <code>boolalpha</code> flag is not set on the input/output stream,
165  the integral values 0, 1, and 2 correspond to <code>tribool</code>
166  values <code>false</code>, <code>true</code>, and
167  <code>indeterminate</code>, respectively. When
168  <code>boolalpha</code> is set on the stream, arbitrary strings can
169  be used to represent the three values, the default being "false",
170  "true", and "indeterminate". For instance:</para>
171<programlisting><classname>tribool</classname> x;
172cin &gt;&gt; x; // Type "0", "1", or "2" to get false, true, or indeterminate
173cout &lt;&lt; boolalpha &lt;&lt; x; // Produces "false", "true", or "indeterminate"</programlisting>
174
175  <para><code><classname>tribool</classname></code> input and output
176  is sensitive to the stream's current locale. The strings associated
177  with false and true values are contained in the standard
178  <code><classname>std::numpunct</classname></code> facet, and the
179  string naming the indeterminate type is contained in the
180  <code><classname>indeterminate_name</classname></code> facet. To
181  replace the name of the indeterminate state, you need to imbue your
182  stream with a local containing a
183  <code><classname>indeterminate_name</classname></code> facet, e.g.:</para>
184
185  <programlisting><macroname>BOOST_TRIBOOL_THIRD_STATE</macroname>(maybe)
186locale global;
187locale test_locale(global, new <classname>indeterminate_name</classname>&lt;char&gt;("maybe"));
188cout.imbue(test_locale);
189<classname>tribool</classname> x(maybe);
190cout &lt;&lt; boolalpha &lt;&lt; x &lt;&lt; endl; // Prints "maybe"</programlisting>
191
192  <para>If you C++ standard library implementation does not support
193  locales, <code>tribool</code> input/output will still work, but you
194  will be unable to customize the strings printed/parsed when
195  <code>boolalpha</code> is set.</para>
196  </section>
197
198  </section>
199
200  <xi:include href="reference.boostbook"/>
201
202  <testsuite id="tribool.tests">
203    <run-test filename="tribool_test.cpp">
204      <purpose><para>Test all features of the
205      <code><classname>boost::logic::tribool</classname></code>
206      class.</para></purpose>
207    </run-test>
208
209    <run-test filename="tribool_rename_test.cpp">
210      <purpose><para>Test the use of the
211      <code><macroname>BOOST_TRIBOOL_THIRD_STATE</macroname></code>
212      macro.</para></purpose>
213    </run-test>
214
215    <run-test filename="tribool_io_test.cpp">
216      <purpose><para>Test tribool input/output.</para></purpose>
217    </run-test>
218  </testsuite>
219</library>
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