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<title>Using the cpphoafparser Library [cpphoafparser Library for the Hanoi Omega-Automata Format (HOAF), version 0.99.2]</title>
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<div class="nav"><a class="nav" href="index.html">^ Overview</a></div>
<h1>
Using the <span class="blue1">cpp</span><span class="blue2">hoaf</span><span class="blue3">parser</span> Library<br/>
<span style="font-size:70%">The <span class="blue">cpphoafparser</span>
Library for the Hanoi Omega-Automata Format (HOAF), version 0.99.2</span>
</h1>
<p>The cpphoafparser library can be used to parse and process &omega;-automata
in the HOA format. We assume here that the reader is familiar with the basic concepts of
the <a href="http://adl.github.io/hoaf/">Hanoi Omega-Automata Format (HOAF)</a>.
</p>
<h2><a name="general">General Structure</a></h2>
<p>
The two main building blocks of the parser library are the <em>parser</em> and
classes implementing the <em>HOAConsumer</em> interface. A <em>HOAConsumer</em> has functions
corresponding to the various elements that can occur in a HOA automaton. While parsing, the parser
calls each of these functions to indicate that this particular element has just occurred.
</p>
<p>cpphoafparser is a <emph>header-only</emph> C++ library, i.e., it suffices to
add the <span class="classname">include</span> directory to the include path of your compiler
and include the corresponding header files. All cpphoafparser elements are contained in the
<span class="classname">cpphoafparser</span> namespace. It uses C++11 features, so ensure that your
compiler is configured to support this standard version.
</p>
<h3>A Basic Parser</h3>
<p>The most basic use of the cpphoafparser library is shown in the following code snippet
(<span class="classname">src/basic_parser_1.cc</span></span>):</p>
<div class="code">
<pre><span class="pre">#include "cpphoafparser/consumer/hoa_consumer_print.hh"
#include "cpphoafparser/parser/hoa_parser.hh"
</span><span class="keyword">
using namespace</span> cpphoafparser<span class="operator">;</span><span class="comment">
/** The most basic HOA parser: Read an automaton from input and print it to the output. */</span><span class="type">
int</span><span class="keyword"> main</span><span class="operator">(</span><span class="type">int</span> argc<span class="operator">,</span><span class="keyword"> const</span><span class="type"> char</span><span class="operator">*</span> argv<span class="operator">[]) {</span>
HOAConsumer<span class="operator">::</span>ptr consumer<span class="operator">(</span><span class="keyword">new</span> HOAConsumerPrint<span class="operator">(</span>std<span class="operator">::</span>cout<span class="operator">));</span><span class="flow">
try</span><span class="operator"> {</span>
HOAParser<span class="operator">::</span>parse<span class="operator">(</span>std<span class="operator">::</span>cin<span class="operator">,</span> consumer<span class="operator">);
}</span><span class="flow"> catch</span><span class="operator"> (</span>std<span class="operator">::</span>exception<span class="operator">&amp;</span> e<span class="operator">) {</span>
std<span class="operator">::</span>cerr<span class="operator"> &lt;&lt;</span> e<span class="operator">.</span>what<span class="operator">() &lt;&lt;</span> std<span class="operator">::</span>endl<span class="operator">;</span><span class="flow">
return</span><span class="int"> 1</span><span class="operator">;
}</span><span class="flow">
return</span><span class="int"> 0</span><span class="operator">;
}</span>
</pre>
</div>
<p>
Here, the parser reads from <span class="classname">std::cin</span>
and calls into a <span class="classname">HOAConsumerPrint</span>
object that just outputs the elements to <span class="classname">std::cout</span>.</p>
<h3>Chaining Multiple HOAConsumers: HOAIntermediate</h3>
<p>The <span class="classname">HOAIntermediate</span> class, which itself
implements the <span class="classname">HOAConsumer</span> interface, provides the basis for chaining multiple
<span class="classname">HOAConsumers</span>, one after another, each reading the output of the previous one.
</p>
<p>
Consider the following example
(<span class="classname">src/basic_parser_2.cc</span></span>):</p>
<div class="code">
<pre><span class="pre">#include "cpphoafparser/consumer/hoa_intermediate.hh"
#include "cpphoafparser/consumer/hoa_consumer_null.hh"
#include "cpphoafparser/parser/hoa_parser.hh"
</span><span class="keyword">
using namespace</span> cpphoafparser<span class="operator">;</span><span class="comment">
/* An HOAIntermediate that counts invocations of addState */</span><span class="keyword">
class</span> CountStates<span class="operator"> :</span><span class="keyword"> public</span> HOAIntermediate<span class="operator"> {</span><span class="keyword">
public</span><span class="operator">:</span><span class="keyword">
typedef</span> std<span class="operator">::</span>shared_ptr<span class="operator">&lt;</span>CountStates<span class="operator">&gt;</span> ptr<span class="operator">;</span><span class="type">
unsigned int</span> count<span class="operator"> =</span><span class="int"> 0</span><span class="operator">;</span>
CountStates<span class="operator">(</span>HOAConsumer<span class="operator">::</span>ptr next<span class="operator">) :</span> HOAIntermediate<span class="operator">(</span>next<span class="operator">) {
}</span><span class="keyword">
virtual</span><span class="type"> void</span> addState<span class="operator">(</span><span class="type">unsigned int</span> id<span class="operator">,</span>
std<span class="operator">::</span>shared_ptr<span class="operator">&lt;</span>std<span class="operator">::</span>string<span class="operator">&gt;</span> info<span class="operator">,</span>
label_expr<span class="operator">::</span>ptr labelExpr<span class="operator">,</span>
std<span class="operator">::</span>shared_ptr<span class="operator">&lt;</span>int_list<span class="operator">&gt;</span> accSignature<span class="operator">)</span> override<span class="operator"> {</span>
count<span class="operator">++;</span>
next<span class="operator">-&gt;</span>addState<span class="operator">(</span>id<span class="operator">,</span> info<span class="operator">,</span> labelExpr<span class="operator">,</span> accSignature<span class="operator">);
}
};</span><span class="comment">
/** Demonstrating the use of HOAIntermediates */</span><span class="type">
int</span><span class="keyword"> main</span><span class="operator">(</span><span class="type">int</span> argc<span class="operator">,</span><span class="keyword"> const</span><span class="type"> char</span><span class="operator">*</span> argv<span class="operator">[]) {</span>
HOAConsumer<span class="operator">::</span>ptr hoaNull<span class="operator">(</span><span class="keyword">new</span> HOAConsumerNull<span class="operator">());</span>
CountStates<span class="operator">::</span>ptr counter<span class="operator">(</span><span class="keyword">new</span> CountStates<span class="operator">(</span>hoaNull<span class="operator">));</span><span class="flow">
try</span><span class="operator"> {</span>
HOAParser<span class="operator">::</span>parse<span class="operator">(</span>std<span class="operator">::</span>cin<span class="operator">,</span> counter<span class="operator">);</span>
std<span class="operator">::</span>cout<span class="operator"> &lt;&lt;</span><span class="string"> "Number of state definitions = "</span><span class="operator"> &lt;&lt;</span> counter<span class="operator">-&gt;</span>count<span class="operator"> &lt;&lt;</span> std<span class="operator">::</span>endl<span class="operator">;
}</span><span class="flow"> catch</span><span class="operator"> (</span>std<span class="operator">::</span>exception<span class="operator">&amp;</span> e<span class="operator">) {</span>
std<span class="operator">::</span>cerr<span class="operator"> &lt;&lt;</span> e<span class="operator">.</span>what<span class="operator">() &lt;&lt;</span> std<span class="operator">::</span>endl<span class="operator">;</span><span class="flow">
return</span><span class="int"> 1</span><span class="operator">;
}</span><span class="flow">
return</span><span class="int"> 0</span><span class="operator">;
}</span>
</pre>
</div>
<p>We derive <span class="classname">CountStates</span> from <span class="classname">HOAIntermediate</span>.
Its constructor takes the next <span class="classname">HOAConsumer</span> in the chain, which can
again be a <span class="classname">HOAIntermediate</span>. Here, we are passing a
<span class="classname">HOAConsumerNull</span> object, which does nothing when called, acting as a "no-operation"
end of the consumer chain. Inside the <span class="classname">CountStates</span>, we override the
<span class="classname">addState</span> method, which is called for each <em>State:</em>
definition in the automaton.
We count the number of definitions and pass along the arguments to the next consumer.
In the end, we just output the count of the definitions.
</p>
<h2>The HOAConsumer API</h2>
<p>
A good starting point for learning about the HOAConsumer API is the
<a
href="http://automata.tools/hoa/cpphoafparser/docs/api-html/classcpphoafparser_1_1_h_o_a_consumer.html">documentation of the HOAConsumer interface</a>
as well as the rest of the <a href="http://automata.tools/hoa/cpphoafparser/docs/api-html/index.html">API documentation</a>.
<p>Another good introduction is the source code of the <span class="classname">HOAConsumerPrint</span> class,
as it translates back from the method calls in the <span class="classname">HOAConsumer</span> interface to the
textual representation of the HOA format.
</p>
<p>Some further tidbits that might be useful:</p>
<ul>
<li>The boolean expressions for the explicit transition labels and the acceptance condition
are represented by
<a href="http://automata.tools/hoa/cpphoafparser/docs/api-html/classcpphoafparser_1_1_boolean_expression.html"><span class="classname">BooleanExpression</span></a>,
with appropriate <span class="classname">Atoms</span> for the leaf nodes in the abstract syntax tree.
The <span class="classname">BooleanExpressions</span> are designed to
be <em>immutable</em>. Therefore, subtrees can be safely shared between expressions.
</li>
<li>
If you encounter an error inside one of the <span class="classname">HOAConsumer</span> method calls, throw an
<a href="http://automata.tools/hoa/cpphoafparser/docs/api-html/classcpphoafparser_1_1_h_o_a_consumer_exception.html">HOAConsumerException</a>.
</li>
<li>Memory managment is generally handled via <span class="classname">shared_ptr</span> pointers.</li>
<li>
To trace the method calls into a <span class="classname">HOAConsumer</span> or <span class="classname">HOAIntermediate</span>,
wrap it into a <a href="http://automata.tools//hoa/cpphoafparser/docs/api-html/classcpphoafparser_1_1_h_o_a_intermediate_trace.html"><span class="classname">HOAIntermediateTrace</span></a>
object. This will print all the function invocations to the standard output, including the parameters.
</li>
</ul>
<hr>
<p>If you have further questions, find bugs or want to tell
us about your use of the cpphoafparser library, please feel free to contact us!</p>
<p>(c) 2015-2016
Joachim Klein &lt;klein&#064;tcs.inf.tu-dresden.de&gt;,
David M&uuml;ller &lt;david.mueller&#064;tcs.inf.tu-dresden.de&gt;
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