95 lines
9.7 KiB
HTML
95 lines
9.7 KiB
HTML
<!DOCTYPE html PUBLIC '-//W3C//DTD XHTML 1.0 Strict//EN'
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'http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd'>
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<html xmlns='http://www.w3.org/1999/xhtml' xml:lang='en' lang='en'>
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<head>
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<meta http-equiv='Content-Type' content='text/html; charset=utf-8'/>
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<title>frequently asked questions</title>
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<link href='reno.css' type='text/css' rel='stylesheet'/>
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</head>
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<div id="boost_logo">
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<a href="http://www.boost.org"><img style="border:0" src="../../../boost.png" alt="Boost" width="277" height="86"/></a>
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</div>
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<h1>Boost Exception</h1>
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</div>
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<!-- Copyright (c) 2006-2009 Emil Dotchevski and Reverge Studios, Inc. -->
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<!-- Distributed under the Boost Software License, Version 1.0. (See accompanying -->
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<!-- file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) -->
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<div class="RenoIncludeDIV"><div class="RenoAutoDIV"><h2>Frequently Asked Questions</h2>
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</div>
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<h3>What is the cost of calling boost::throw_exception?</h3>
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<p>The cost is that boost::<span class="RenoLink"><a href="exception.html">exception</a></span> is added as a base of the exception emitted by boost::<span class="RenoLink"><a href="throw_exception.html">throw_exception</a></span> (unless the passed type already derives from boost::<span class="RenoLink"><a href="exception.html">exception</a></span>.)</p>
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<p>Calling boost::<span class="RenoLink"><a href="throw_exception.html">throw_exception</a></span> does not cause dynamic memory allocations.</p>
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<h3>What is the cost of BOOST_THROW_EXCEPTION?</h3>
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<p>In addition to calling boost::<span class="RenoLink"><a href="throw_exception.html">throw_exception</a></span>, <span class="RenoLink"><a href="BOOST_THROW_EXCEPTION.html">BOOST_THROW_EXCEPTION</a></span> invokes __FILE__, __LINE__ and the <span class="RenoLink"><a href="configuration_macros.html">BOOST_THROW_EXCEPTION_CURRENT_FUNCTION</a></span> macros. The space required to store the information is already included in sizeof(boost::<span class="RenoLink"><a href="exception.html">exception</a></span>).</p>
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<p>Calling <span class="RenoLink"><a href="BOOST_THROW_EXCEPTION.html">BOOST_THROW_EXCEPTION</a></span> does not cause dynamic memory allocations.</p>
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<h3>Should I use boost::throw_exception or BOOST_THROW_EXCEPTION or just throw?</h3>
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<p>The benefit of calling boost::<span class="RenoLink"><a href="throw_exception.html">throw_exception</a></span> instead of using throw directly is that it ensures that the emitted exception derives from boost::<span class="RenoLink"><a href="exception.html">exception</a></span> and that it is compatible with boost::<span class="RenoLink"><a href="current_exception.html">current_exception</a></span>.</p>
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<p>The <span class="RenoLink"><a href="BOOST_THROW_EXCEPTION.html">BOOST_THROW_EXCEPTION</a></span> macro also results in a call to boost::<span class="RenoLink"><a href="throw_exception.html">throw_exception</a></span>, but in addition it records in the exception object the __FILE__ and __LINE__ of the throw, as well as the pretty name of the function that throws. This enables boost::<span class="RenoLink"><a href="diagnostic_information.html">diagnostic_information</a></span> to compose a more useful, if not user-friendly message.</p>
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<p>Typical use of boost::<span class="RenoLink"><a href="diagnostic_information.html">diagnostic_information</a></span> is:</p>
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<pre>catch(...)
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{
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std::cerr <<
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"Unexpected exception, diagnostic information follows:\n" <<
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<span class="RenoLink"><a href="current_exception_diagnostic_information.html">current_exception_diagnostic_information</a></span>();
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}</pre>
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<p>This is a possible message it may display -- the information in the first line is only available if <span class="RenoLink"><a href="BOOST_THROW_EXCEPTION.html">BOOST_THROW_EXCEPTION</a></span> was used to throw:</p>
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<pre>example_io.cpp(70): Throw in function class boost::shared_ptr<struct _iobuf> __cdecl my_fopen(const char *,const char *)
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Dynamic exception type: class boost::exception_detail::clone_impl<class fopen_error>
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std::exception::what: example_io error
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[struct boost::<span class="RenoLink"><a href="errinfo_api_function.html">errinfo_api_function</a></span>_ *] = fopen
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[struct boost::<span class="RenoLink"><a href="errinfo_errno.html">errinfo_errno</a></span>_ *] = 2, "No such file or directory"
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[struct boost::<span class="RenoLink"><a href="errinfo_file_name.html">errinfo_file_name</a></span>_ *] = tmp1.txt
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[struct boost::<span class="RenoLink"><a href="errinfo_file_open_mode.html">errinfo_file_open_mode</a></span>_ *] = rb</pre>
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<p>In some development environments, the first line in that message can be clicked to show the location of the throw in the debugger, so it's easy to set a break point and run again to see the unexpected throw in the context of its call stack.</p>
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<h3>Why doesn't boost::exception derive from std::exception?</h3>
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<p>Despite that <span class="RenoLink"><a href="using_virtual_inheritance_in_exception_types.html">virtual inheritance should be used in deriving from base exception types</a></span>, quite often exception types (including the ones defined in the standard library) don't derive from std::exception virtually.</p>
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<p>If boost::<span class="RenoLink"><a href="exception.html">exception</a></span> derives from std::exception, using the <span class="RenoLink"><a href="enable_error_info.html">enable_error_info</a></span> function with such user-defined types would introduce dangerous ambiguity which would break all catch(std::exception &) statements.</p>
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<p>Of course, boost::<span class="RenoLink"><a href="exception.html">exception</a></span> should not be used to replace std::exception as a base type in exception type hierarchies. Instead, it should be included as a virtual base, in addition to std::exception (which should probably also be derived virtually.)</p>
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<h3>Why is boost::exception abstract?</h3>
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<p>To prevent exception-neutral contexts from erroneously erasing the type of the original exception when adding <span class="RenoLink"><a href="error_info.html">error_info</a></span> to an active exception object:</p>
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<pre>catch( boost::<span class="RenoLink"><a href="exception.html">exception</a></span> & e )
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{
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e <span class="RenoLink"><a href="exception_operator_shl.html"><<</a></span> foo_info(foo);
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throw e; //Compile error: boost::<span class="RenoLink"><a href="exception.html">exception</a></span> is abstract
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}</pre>
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<p>The correct code is:</p>
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<pre>catch( boost::<span class="RenoLink"><a href="exception.html">exception</a></span> & e )
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{
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e <span class="RenoLink"><a href="exception_operator_shl.html"><<</a></span> foo_info(foo);
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throw; //Okay, re-throwing the original exception object.
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}</pre>
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<h3>Why use operator<< overload for adding info to exceptions?</h3>
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<p>Before throwing an object of type that derives from boost::<span class="RenoLink"><a href="exception.html">exception</a></span>, it is often desirable to add one or more <span class="RenoLink"><a href="error_info.html">error_info</a></span> objects in it. The syntactic sugar provided by <span class="RenoLink"><a href="exception_operator_shl.html">operator<<</a></span> allows this to be done directly in a throw expression:</p>
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<pre>throw error() <span class="RenoLink"><a href="exception_operator_shl.html"><<</a></span> foo_info(foo) <span class="RenoLink"><a href="exception_operator_shl.html"><<</a></span> bar_info(bar);</pre>
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<h3>Why is operator<< allowed to throw?</h3>
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<p>This question is referring to the following issue. Consider this throw statement example:</p>
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<pre>throw file_open_error() <span class="RenoLink"><a href="exception_operator_shl.html"><<</a></span> file_name(fn);</pre>
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<p>The intention here is to throw a file_open_error, however if <span class="RenoLink"><a href="exception_operator_shl.html">operator<<</a></span> fails to copy the std::string contained in the file_name <span class="RenoLink"><a href="error_info.html">error_info</a></span> wrapper, a std::bad_alloc could propagate instead. This behavior seems undesirable to some programmers.</p>
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<p>Bjarne Stroustrup, The C++ Programming Language, 3rd Edition, page 371:</p>
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<blockquote><p><i>"Throwing an exception requires an object to throw. A C++ implementation is required to have enough spare memory to be able to throw bad_alloc in case of memory exhaustion. However, it is possible that throwing some other exception will cause memory exhaustion."</i></p></blockquote>
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<p>Therefore, the language itself does not guarantee that an attempt to throw an exception is guaranteed to throw an object of the specified type; propagating a std::bad_alloc seems to be a possibility even outside of the scope of Boost Exception.</p>
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</div><div class="RenoAutoDIV"><div class="RenoHR"><hr/></div>
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See also: <span class="RenoPageList"><a href="boost-exception.html">Boost Exception</a> | <a href="motivation.html">Motivation</a></span>
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</div>
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<!-- Copyright (c) 2006-2009 Emil Dotchevski and Reverge Studios, Inc. -->
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<!-- Distributed under the Boost Software License, Version 1.0. (See accompanying -->
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<small>Copyright (c) 2006-2009 by Emil Dotchevski and Reverge Studios, Inc.<br/>
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Distributed under the <a href="http://www.boost.org/LICENSE_1_0.txt">Boost Software License, Version 1.0</a>.</small>
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