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+{application,eunit}.
+{packages,[]}.
+{modules,[eunit,eunit_surefire]}.
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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
+<html>
+<head>
+<title>Module eunit</title>
+<link rel="stylesheet" type="text/css" href="stylesheet.css" title="EDoc">
+</head>
+<body bgcolor="white">
+<div class="navbar"><a name="#navbar_top"></a><table width="100%" border="0" cellspacing="0" cellpadding="2" summary="navigation bar"><tr><td><a href="overview-summary.html" target="overviewFrame">Overview</a></td><td><a href="http://www.erlang.org/"><img src="erlang.png" align="right" border="0" alt="erlang logo"></a></td></tr></table></div>
+<hr>
+
+<h1>Module eunit</h1>
+<ul class="index"><li><a href="#description">Description</a></li><li><a href="#index">Function Index</a></li><li><a href="#functions">Function Details</a></li></ul>This module is the main EUnit user interface.
+<p>Copyright � 2004-2009 Micka�l R�mond, Richard Carlsson</p>
+
+<p><b>Version:</b> 2.1.1, Apr 22 2009 22:37:19</p>
+<p><b>Authors:</b> Micka�l R�mond (<a href="mailto:[email protected]"><tt>[email protected]</tt></a>) [<em>web site:</em> <tt><a href="http://www.process-one.net/" target="_top">http://www.process-one.net/</a></tt>], Richard Carlsson (<a href="mailto:[email protected]"><tt>[email protected]</tt></a>) [<em>web site:</em> <tt><a href="http://user.it.uu.se/~richardc/" target="_top">http://user.it.uu.se/~richardc/</a></tt>].</p>
+
+<h2><a name="description">Description</a></h2>This module is the main EUnit user interface.
+<h2><a name="index">Function Index</a></h2>
+<table width="100%" border="1" cellspacing="0" cellpadding="2" summary="function index"><tr><td valign="top"><a href="#start-0">start/0</a></td><td>Starts the EUnit server.</td></tr>
+<tr><td valign="top"><a href="#stop-0">stop/0</a></td><td>Stops the EUnit server.</td></tr>
+<tr><td valign="top"><a href="#test-1">test/1</a></td><td>Equivalent to <a href="#test-2"><tt>test(Tests, [])</tt></a>.
+</td></tr>
+<tr><td valign="top"><a href="#test-2">test/2</a></td><td>Runs a set of tests.</td></tr>
+</table>
+
+<h2><a name="functions">Function Details</a></h2>
+
+<h3 class="function"><a name="start-0">start/0</a></h3>
+<div class="spec">
+<p><tt>start() -&gt; any()</tt></p>
+</div><p>Starts the EUnit server. Normally, you don't need to call this
+ function; it is started automatically.</p>
+
+<h3 class="function"><a name="stop-0">stop/0</a></h3>
+<div class="spec">
+<p><tt>stop() -&gt; any()</tt></p>
+</div><p>Stops the EUnit server. Normally, you don't need to call this
+ function.</p>
+
+<h3 class="function"><a name="test-1">test/1</a></h3>
+<div class="spec">
+<p><tt>test(Tests) -&gt; any()</tt></p>
+</div><p>Equivalent to <a href="#test-2"><tt>test(Tests, [])</tt></a>.</p>
+
+
+<h3 class="function"><a name="test-2">test/2</a></h3>
+<div class="spec">
+<p><tt>test(Tests::term(), Options::[term()]) -&gt; ok | {error, term()}</tt></p>
+</div><p><p>Runs a set of tests. The format of <code>Tests</code> is described in the
+ section <a href="overview-summary.html#EUnit_test_representation">EUnit test
+ representation</a> of the overview.</p>
+
+ Example: <pre> eunit:test(fred)</pre><p> runs all tests in the module <code>fred</code>
+ and also any tests in the module <code>fred_tests</code>, if that module exists.</p>
+
+ Options:
+ <dl>
+ <dt><code>verbose</code></dt>
+ <dd>Displays more details about the running tests.</dd>
+ </dl>
+
+ Options in the environment variable EUNIT are also included last in
+ the option list, i.e., have lower precedence than those in <code>Options</code>.</p>
+<p><b>See also:</b> <a href="#test-1">test/1</a>.</p>
+<hr>
+
+<div class="navbar"><a name="#navbar_bottom"></a><table width="100%" border="0" cellspacing="0" cellpadding="2" summary="navigation bar"><tr><td><a href="overview-summary.html" target="overviewFrame">Overview</a></td><td><a href="http://www.erlang.org/"><img src="erlang.png" align="right" border="0" alt="erlang logo"></a></td></tr></table></div>
+<p><i>Generated by EDoc, Apr 22 2009, 22:37:19.</i></p>
+</body>
+</html>
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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
+<html>
+<head>
+<title>Module eunit_surefire</title>
+<link rel="stylesheet" type="text/css" href="stylesheet.css" title="EDoc">
+</head>
+<body bgcolor="white">
+<div class="navbar"><a name="#navbar_top"></a><table width="100%" border="0" cellspacing="0" cellpadding="2" summary="navigation bar"><tr><td><a href="overview-summary.html" target="overviewFrame">Overview</a></td><td><a href="http://www.erlang.org/"><img src="erlang.png" align="right" border="0" alt="erlang logo"></a></td></tr></table></div>
+<hr>
+
+<h1>Module eunit_surefire</h1>
+<ul class="index"><li><a href="#description">Description</a></li><li><a href="#index">Function Index</a></li><li><a href="#functions">Function Details</a></li></ul>Surefire reports for EUnit (Format used by Maven and Atlassian
+Bamboo for example to integrate test results).
+<p>Copyright � 2009 Micka�l R�mond, Paul Guyot</p>
+
+<p><b>Behaviours:</b> <a href="eunit_listener.html"><tt>eunit_listener</tt></a>.</p>
+<p><b>Authors:</b> Micka�l R�mond (<a href="mailto:[email protected]"><tt>[email protected]</tt></a>).</p>
+<p><b>See also:</b> <a href="eunit.html">eunit</a>.</p>
+
+<h2><a name="description">Description</a></h2><p>Surefire reports for EUnit (Format used by Maven and Atlassian
+Bamboo for example to integrate test results). Based on initial code
+from Paul Guyot.</p>
+
+ Example: Generate XML result file in the current directory:
+ <pre> eunit:test([fib, eunit_examples],
+ [{report,{eunit_surefire,[{dir,"."}]}}]).</pre>
+<h2><a name="index">Function Index</a></h2>
+<table width="100%" border="1" cellspacing="0" cellpadding="2" summary="function index"><tr><td valign="top"><a href="#handle_begin-3">handle_begin/3</a></td><td></td></tr>
+<tr><td valign="top"><a href="#handle_cancel-3">handle_cancel/3</a></td><td></td></tr>
+<tr><td valign="top"><a href="#handle_end-3">handle_end/3</a></td><td></td></tr>
+<tr><td valign="top"><a href="#init-1">init/1</a></td><td></td></tr>
+<tr><td valign="top"><a href="#start-0">start/0</a></td><td></td></tr>
+<tr><td valign="top"><a href="#start-1">start/1</a></td><td></td></tr>
+<tr><td valign="top"><a href="#terminate-2">terminate/2</a></td><td></td></tr>
+</table>
+
+<h2><a name="functions">Function Details</a></h2>
+
+<h3 class="function"><a name="handle_begin-3">handle_begin/3</a></h3>
+<div class="spec">
+<p><tt>handle_begin(X1, Data, St) -&gt; any()</tt></p>
+</div>
+
+<h3 class="function"><a name="handle_cancel-3">handle_cancel/3</a></h3>
+<div class="spec">
+<p><tt>handle_cancel(X1, Data, St) -&gt; any()</tt></p>
+</div>
+
+<h3 class="function"><a name="handle_end-3">handle_end/3</a></h3>
+<div class="spec">
+<p><tt>handle_end(X1, Data, St) -&gt; any()</tt></p>
+</div>
+
+<h3 class="function"><a name="init-1">init/1</a></h3>
+<div class="spec">
+<p><tt>init(Options) -&gt; any()</tt></p>
+</div>
+
+<h3 class="function"><a name="start-0">start/0</a></h3>
+<div class="spec">
+<p><tt>start() -&gt; any()</tt></p>
+</div>
+
+<h3 class="function"><a name="start-1">start/1</a></h3>
+<div class="spec">
+<p><tt>start(Options) -&gt; any()</tt></p>
+</div>
+
+<h3 class="function"><a name="terminate-2">terminate/2</a></h3>
+<div class="spec">
+<p><tt>terminate(X1, St) -&gt; any()</tt></p>
+</div>
+<hr>
+
+<div class="navbar"><a name="#navbar_bottom"></a><table width="100%" border="0" cellspacing="0" cellpadding="2" summary="navigation bar"><tr><td><a href="overview-summary.html" target="overviewFrame">Overview</a></td><td><a href="http://www.erlang.org/"><img src="erlang.png" align="right" border="0" alt="erlang logo"></a></td></tr></table></div>
+<p><i>Generated by EDoc, Apr 22 2009, 22:37:19.</i></p>
+</body>
+</html>
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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
+<html>
+<head>
+<title>The eunit application</title>
+</head>
+<frameset cols="20%,80%">
+<frame src="modules-frame.html" name="modulesFrame" title="">
+
+<frame src="overview-summary.html" name="overviewFrame" title="">
+<noframes>
+<h2>This page uses frames</h2>
+<p>Your browser does not accept frames.
+<br>You should go to the <a href="overview-summary.html">non-frame version</a> instead.
+</p>
+</noframes>
+</frameset>
+</html> \ No newline at end of file
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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
+<html>
+<head>
+<title>The eunit application</title>
+<link rel="stylesheet" type="text/css" href="stylesheet.css" title="EDoc">
+</head>
+<body bgcolor="white">
+<h2 class="indextitle">Modules</h2>
+<table width="100%" border="0" summary="list of modules">
+<tr><td><a href="eunit.html" target="overviewFrame" class="module">eunit</a></td></tr>
+<tr><td><a href="eunit_surefire.html" target="overviewFrame" class="module">eunit_surefire</a></td></tr></table>
+</body>
+</html> \ No newline at end of file
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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
+<html>
+<head>
+<title>EUnit - a Lightweight Unit Testing Framework for Erlang
+</title>
+<link rel="stylesheet" type="text/css" href="stylesheet.css" title="EDoc">
+</head>
+<body bgcolor="white">
+<div class="navbar"><a name="#navbar_top"></a><table width="100%" border="0" cellspacing="0" cellpadding="2" summary="navigation bar"><tr><td><a href="overview-summary.html" target="overviewFrame">Overview</a></td><td><a href="http://www.erlang.org/"><img src="erlang.png" align="right" border="0" alt="erlang logo"></a></td></tr></table></div>
+<h1>EUnit - a Lightweight Unit Testing Framework for Erlang
+</h1>
+<p>Copyright � 2004-2007 Micka�l R�mond, Richard Carlsson</p>
+<p><b>Version:</b> 2.1.1, Apr 22 2009 22:37:19
+</p>
+<p><b>Authors:</b> Richard Carlsson (<a href="mailto:[email protected]"><tt>[email protected]</tt></a>) [<em>web site:</em> <tt><a href="http://user.it.uu.se/~richardc/" target="_top">http://user.it.uu.se/~richardc/</a></tt>], Micka�l R�mond (<a href="mailto:[email protected]"><tt>[email protected]</tt></a>) [<em>web site:</em> <tt><a href="http://www.process-one.net/" target="_top">http://www.process-one.net/</a></tt>].</p>
+<p>EUnit is a unit testing framework for Erlang. It is very powerful
+and flexible, is easy to use, and has small syntactical overhead.</p>
+
+<ul>
+<li><a href="#Unit_testing">Unit testing</a></li>
+<li><a href="#Terminology">Terminology</a></li>
+<li><a href="#Getting_started">Getting started</a></li>
+<li><a href="#EUnit_macros">EUnit macros</a></li>
+<li><a href="#EUnit_test_representation">EUnit test representation</a></li>
+</ul>
+
+<p>EUnit builds on ideas from the family of unit testing frameworks for
+Object Oriented languages that originated with JUnit by Beck and Gamma
+(and Beck's previous framework SUnit for Smalltalk). However, EUnit uses
+techniques more adapted to functional and concurrent programming, and is
+typically less verbose than its relatives.</p>
+
+<p>Although EUnit uses many preprocessor macros, they have been designed to
+be as nonintrusive as possible, and should not cause conflicts with
+existing code. Adding EUnit tests to a module should thus not normally
+require changing existing code. Furthermore, tests that only exercise
+the exported functions of a module can always be placed in a completely
+separate module, avoiding any conflicts entirely.</p>
+
+<h3><a name="Unit_testing">Unit testing</a></h3>
+
+<p>Unit Testing is testing of individual program "units" in relative
+isolation. There is no particular size requirement: a unit can be a
+function, a module, a process, or even a whole application, but the most
+typical testing units are individual functions or modules. In order to
+test a unit, you specify a set of individual tests, set up the smallest
+necessary environment for being able to run those tests (often, you
+don't need to do any setup at all), you run the tests and collect the
+results, and finally you do any necessary cleanup so that the test can
+be run again later. A Unit Testing Framework tries to help you in each
+stage of this process, so that it is easy to write tests, easy to run
+them, and easy to see which tests failed (so you can fix the bugs).</p>
+
+<h4><a name="Advantages_of_unit_testing">Advantages of unit testing</a></h4>
+
+<dl>
+ <dt>Reduces the risks of changing the program</dt>
+ <dd>Most programs will be modified during their lifetime: bugs will be
+ fixed, features will be added, optimizations may become necessary, or
+ the code will need to be refactored or cleaned up in other ways to
+ make it easier to work with. But every change to a working program is
+ a risk of introducing new bugs - or reintroducing bugs that had
+ previously been fixed. Having a set of unit tests that you can run
+ with very little effort makes it easy to know that the code still
+ works as it should (this use is called <em>regression testing</em>;
+ see <a href="#Terminology">Terminology</a>). This goes a long way to reduce the
+ resistance to changing and refactoring code.</dd>
+ <dt>Helps guide and speed up the development process</dt>
+ <dd>By focusing on getting the code to pass the tests, the programmer
+ can become more productive, not overspecify or get lost in premature
+ optimizations, and create code that is correct from the very beginning
+ (so-called <em>test-driven development</em>; see <a href="#Terminology">Terminology</a>).</dd>
+ <dt>Helps separate interface from implementation</dt>
+ <dd>When writing tests, the programmer may discover dependencies
+ (in order to get the tests to run) that ought not to be there, and
+ which need to be abstracted away to get a cleaner design. This helps
+ eliminate bad dependencies before they spread throughout the
+ code.</dd>
+ <dt>Makes component integration easier</dt>
+ <dd>By testing in a bottom-up fashion, beginning with the smallest
+ program units and creating a confidence in that they work as they
+ should, it becomes easier to test that a higher-level component,
+ consisting of several such units, also behaves according to
+ specification (known as <em>integration testing</em>; see <a href="#Terminology">Terminology</a>).</dd>
+ <dt>Is self-documenting</dt>
+ <dd>The tests can be read as documentation, typically showing both
+ examples of correct and incorrect usage, along with the expected
+ consequences.</dd>
+</dl>
+
+<h3><a name="Terminology">Terminology</a></h3>
+
+<dl>
+ <dt>Unit testing</dt>
+ <dd>Testing that a program unit behaves as it is supposed to do (in
+ itself), according to its specifications. Unit tests have an important
+ function as regression tests, when the program later is modified for
+ some reason, since they check that the program still behaves according
+ to specification.</dd>
+ <dt>Regression testing</dt>
+ <dd>Running a set of tests after making changes to a program, to check
+ that the program behaves as it did before the changes (except, of
+ course, for any intentional changes in behaviour). Unit tests are
+ important as regression tests, but regression testing can involve more
+ than just unit testing, and may also test behaviour that might not be
+ part of the normal specification (such as bug-for-bug-compatibility).
+ </dd>
+ <dt>Integration testing</dt>
+ <dd>Testing that a number of individually developed program units
+ (assumed to already have been separately unit tested) work together as
+ expected. Depending on the system being developed, integration testing
+ may be as simple as "just another level of unit testing", but might
+ also involve other kinds of tests (compare <em>system testing</em>).
+</dd>
+ <dt>System testing</dt>
+ <dd>Testing that a complete system behaves according to its
+ specification. Specifically, system testing should not require knowing
+ any details about the implementation. It typically involves testing
+ many different aspects of the system behaviour apart from the basic
+ functionality, such as performance, usability, and reliability.</dd>
+ <dt>Test-driven development</dt>
+ <dd>A program development technique where you continuously write tests
+ <em>before</em> you implement the code that is supposed to pass those
+ tests. This can help you focus on solving the right problems, and not
+ make a more complicated implementation than necessary, by letting the
+ unit tests determine when a program is "done": if it fulfils its
+ specifications, there is no need to keep adding functionality.</dd>
+ <dt>Mock object</dt>
+ <dd>Sometimes, testing some unit <code>A</code> (e.g., a function) requires that
+ it collaborates somehow with some other unit <code>B</code> (perhaps being passed
+ as an argument, or by reference) - but <code>B</code> has not been implemented
+ yet. A "mock object" - an object which, for the purposes of testing
+ <code>A</code>, looks and behaves like a real <code>B</code> - might then be used instead.
+ (This is of course only useful if it would be significantly more work
+ to implement a real <code>B</code> than to create a mock object.)</dd>
+ <dt>Test case</dt>
+ <dd>A single, well-defined test, that somehow can be uniquely
+ identified. When executed, the test case either <em>passes</em> or
+ <em>fails</em>; the test report should identify exactly which test
+ cases failed.</dd>
+ <dt>Test suite</dt>
+ <dd>A collection of test cases, generally with a specific, common
+ target for testing, such as a single function, module, or subsystem. A
+ test suite may also be recursively composed by smaller test
+ suites.</dd>
+</dl>
+
+<h3><a name="Getting_started">Getting started</a></h3>
+<ul>
+ <li><a href="#Including_the_EUnit_header_file">Including the EUnit header file</a></li>
+ <li><a href="#Writing_simple_test_functions">Writing simple test functions</a></li>
+ <li><a href="#Running_EUnit">Running EUnit</a></li>
+ <li><a href="#Writing_test_generating_functions">Writing test generating functions</a></li>
+ <li><a href="#An_example">An example</a></li>
+ <li><a href="#Disabling_testing">Disabling testing</a></li>
+ <li><a href="#Avoiding_compile-time_dependency_on_EUnit">Avoiding compile-time dependency on EUnit</a></li>
+</ul>
+
+<h4><a name="Including_the_EUnit_header_file">Including the EUnit header file</a></h4>
+
+The simplest way to use EUnit in an Erlang module is to add the
+following line at the beginning of the module (after the <code>-module</code>
+declaration, but before any function definitions):
+<pre> -include_lib("eunit/include/eunit.hrl").</pre>
+
+This will have the following effect:
+<ul>
+ <li>Creates an exported function <code>test()</code> (unless testing is turned
+ off, and the module does not already contain a test() function), that
+ can be used to run all the unit tests defined in the module</li>
+ <li>Causes all functions whose names match <code>..._test()</code> or <code>..._test_()</code>
+ to be automatically exported from the module (unless testing is
+ turned off, or the <code>EUNIT_NOAUTO</code> macro is defined)</li>
+ <li>Makes all the preprocessor macros of EUnit available, to help
+ writing tests</li>
+</ul>
+
+<strong>Note:</strong> For <code>-include_lib(...)</code> to work, the Erlang
+module search path <em>must</em> contain a directory whose name ends in
+<code>eunit/ebin</code> (pointing to the <code>ebin</code> subdirectory of the EUnit
+installation directory). If EUnit is installed as <code>lib/eunit</code> under your
+Erlang/OTP system directory, its <code>ebin</code> subdirectory will be
+automatically added to the search path when Erlang starts. Otherwise,
+you need to add the directory explicitly, by passing a <code>-pa</code> flag to the
+<code>erl</code> or <code>erlc</code> command. For example, a Makefile could contain the
+following action for compiling <code>.erl</code> files:
+<pre> erlc -pa "path/to/eunit/ebin" $(ERL_COMPILE_FLAGS) -o$(EBIN) $&lt;</pre>
+or if you want Eunit to always be available when you run Erlang
+interactively, you can add a line like the following to your
+<code>$HOME/.erlang</code> file:
+<pre> code:add_path("/path/to/eunit/ebin").</pre>
+
+<h4><a name="Writing_simple_test_functions">Writing simple test functions</a></h4>
+
+<p>The EUnit framework makes it extremely easy to write unit tests in
+Erlang. There are a few different ways of writing them, though, so we
+start with the simplest:</p>
+
+<p>A function with a name ending in <code>..._test()</code> is recognized by EUnit as
+a simple test function - it takes no arguments, and its execution either
+succeeds (returning some arbitrary value that EUnit will throw away), or
+fails by throwing an exception of some kind (or by not terminating, in
+which case it will be aborted after a while).</p>
+
+An example of a simple test function could be the following:
+<pre> reverse_test() -&gt; lists:reverse([1,2,3]).</pre><p>
+This just tests that the function <code>lists:reverse(List)</code> does not crash
+when <code>List</code> is <code>[1,2,3]</code>. It is not a great test, but many people write
+simple functions like this one to test the basic functionality of their
+code, and those tests can be used directly by EUnit, without changes,
+as long as their function names match.</p>
+
+<h5><a name="Use_exceptions_to_signal_failure">Use exceptions to signal failure</a></h5>
+
+To write more interesting tests, we need to make them crash (throw an
+exception) when they don't get the result they expect. A simple way of
+doing this is to use pattern matching with <code>=</code>, as in the following
+examples:
+<pre> reverse_nil_test() -&gt; [] = lists:reverse([]).
+ reverse_one_test() -&gt; [1] = lists:reverse([1]).
+ reverse_two_test() -&gt; [2,1] = lists:reverse([1,2]).</pre><p>
+If there was some bug in <code>lists:reverse/1</code> that made it return something
+other than <code>[2,1]</code> when it got <code>[1,2]</code> as input, then the last test
+above would throw a <code>badmatch</code> error. The first two (we assume they do
+not get a <code>badmatch</code>) would simply return <code>[]</code> and <code>[1]</code>, respectively,
+so both succeed. (Note that EUnit is not psychic: if you write a test
+that returns a value, even if it is the wrong value, EUnit will consider
+it a success. You must make sure that the test is written so that it
+causes a crash if the result is not what it should be.)</p>
+
+<h5><a name="Using_assert_macros">Using assert macros</a></h5>
+
+If you want to use Boolean operators for your tests, the <code>assert</code>
+macro comes in handy (see <a href="#EUnit_macros">EUnit macros</a> for details):
+<pre> length_test() -&gt; ?assert(length([1,2,3]) =:= 3).</pre><p>
+The <code>?assert(Expression)</code> macro will evaluate <code>Expression</code>, and if that
+does not evaluate to <code>true</code>, it will throw an exception; otherwise it
+just returns <code>ok</code>. In the above example, the test will thus fail if the
+call to <code>length</code> does not return 3.</p>
+
+<h4><a name="Running_EUnit">Running EUnit</a></h4>
+
+<p>If you have added the declaration
+<code>-include_lib("eunit/include/eunit.hrl")</code> to your module, as described
+above, you only need to compile the module, and run the automatically
+exported function <code>test()</code>. For example, if your module was named <code>m</code>,
+then calling <code>m:test()</code> will run EUnit on all the tests defined in the
+module. You do not need to write <code>-export</code> declarations for the test
+functions. This is all done by magic.</p>
+
+<p>You can also use the function <a href="eunit.html#test-1"><code>eunit:test/1</code></a> to run arbitrary
+tests, for example to try out some more advanced test descriptors (see
+<a href="#EUnit_test_representation">EUnit test representation</a>). For example, running
+<code>eunit:test(m)</code> does the same thing as the auto-generated function
+<code>m:test()</code>, while <code>eunit:test({inparallel, m})</code> runs the same test
+cases but executes them all in parallel.</p>
+
+<h5><a name="Putting_tests_in_separate_modules">Putting tests in separate modules</a></h5>
+
+<p>If you want to separate your test code from your normal code (at least
+for testing the exported functions), you can simply write the test
+functions in a module named <code>m_tests</code> (note: not <code>m_test</code>), if your
+module is named <code>m</code>. Then, whenever you ask EUnit to test the module
+<code>m</code>, it will also look for the module <code>m_tests</code> and run those tests as
+well. See <code>ModuleName</code> in the section <a href="#Primitives">Primitives</a> for details.</p>
+
+<h5><a name="EUnit_captures_standard_output">EUnit captures standard output</a></h5>
+
+<p>If your test code writes to the standard output, you may be surprised to
+see that the text does not appear on the console when the tests are
+running. This is because EUnit captures all standard output from test
+functions (this also includes setup and cleanup functions, but not
+generator functions), so that it can be included in the test report if
+errors occur. To bypass EUnit and print text directly to the console
+while testing, you can write to the <code>user</code> output stream, as in
+<code>io:format(user, "~w", [Term])</code>. The recommended way of doing this is to
+use the EUnit <a href="#Debugging_macros">Debugging macros</a>, which make it much simpler.</p>
+
+<h4><a name="Writing_test_generating_functions">Writing test generating functions</a></h4>
+
+<p>A drawback of simple test functions is that you must write a separate
+function (with a separate name) for each test case. A more compact way
+of writing tests (and much more flexible, as we shall see), is to write
+functions that <em>return</em> tests, instead of <em>being</em> tests.</p>
+
+<p>A function with a name ending in <code>..._test_()</code> (note the final
+underscore) is recognized by EUnit as a <em>test generator</em>
+function. Test generators return a <em>representation</em> of a <em>set
+of tests</em> to be executed by EUnit.</p>
+
+<h5><a name="Representing_a_test_as_data">Representing a test as data</a></h5>
+
+The most basic representation of a test is a single fun-expression that
+takes no arguments. For example, the following test generator:
+<pre> basic_test_() -&gt;
+ fun () -&gt; ?assert(1 + 1 =:= 2) end.</pre>
+will have the same effect as the following simple test:
+<pre> simple_test() -&gt;
+ ?assert(1 + 1 =:= 2).</pre><p>
+(in fact, EUnit will handle all simple tests just like it handles
+fun-expressions: it will put them in a list, and run them one by one).</p>
+
+<h5><a name="Using_macros_to_write_tests">Using macros to write tests</a></h5>
+
+To make tests more compact and readable, as well as automatically add
+information about the line number in the source code where a test
+occurred (and reduce the number of characters you have to type), you can
+use the <code>_test</code> macro (note the initial underscore character), like
+this:
+<pre> basic_test_() -&gt;
+ ?_test(?assert(1 + 1 =:= 2)).</pre><p>
+The <code>_test</code> macro takes any expression (the "body") as argument, and
+places it within a fun-expression (along with some extra information).
+The body can be any kind of test expression, just like the body of a
+simple test function.</p>
+
+<h5><a name="Underscore-prefixed_macros_create_test_objects">Underscore-prefixed macros create test objects</a></h5>
+
+But this example can be made even shorter! Most test macros, such as the
+family of <code>assert</code> macros, have a corresponding form with an initial
+underscore character, which automatically adds a <code>?_test(...)</code> wrapper.
+The above example can then simply be written:
+<pre> basic_test_() -&gt;
+ ?_assert(1 + 1 =:= 2).</pre><p>
+which has exactly the same meaning (note the <code>_assert</code> instead of
+<code>assert</code>). You can think of the initial underscore as signalling
+<em>test object</em>.</p>
+
+<h4><a name="An_example">An example</a></h4>
+
+Sometimes, an example says more than a thousand words. The following
+small Erlang module shows how EUnit can be used in practice.
+<pre> -module(fib).
+ -export([fib/1]).
+ -include_lib("eunit/include/eunit.hrl").
+
+ fib(0) -&gt; 1;
+ fib(1) -&gt; 1;
+ fib(N) when N &gt; 1 -&gt; fib(N-1) + fib(N-2).
+
+ fib_test_() -&gt;
+ [?_assert(fib(0) =:= 1),
+ ?_assert(fib(1) =:= 1),
+ ?_assert(fib(2) =:= 2),
+ ?_assert(fib(3) =:= 3),
+ ?_assert(fib(4) =:= 5),
+ ?_assert(fib(5) =:= 8),
+ ?_assertException(error, function_clause, fib(-1)),
+ ?_assert(fib(31) =:= 2178309)
+ ].</pre>
+
+<p>(Author's note: When I first wrote this example, I happened to write a
+<code>*</code> instead of <code>+</code> in the <code>fib</code> function. Of course, this showed up
+immediately when I ran the tests.)</p>
+
+<p>See <a href="#EUnit_test_representation">EUnit test representation</a> for a full list of all the ways
+you can specify test sets in EUnit.</p>
+
+<h4><a name="Disabling_testing">Disabling testing</a></h4>
+
+Testing can be turned off by defining the <code>NOTEST</code> macro when compiling,
+for example as an option to <code>erlc</code>, as in:
+<pre> erlc -DNOTEST my_module.erl</pre>
+or by adding a macro definition to the code, <em>before the EUnit header
+file is included</em>:
+<pre> -define(NOTEST, 1).</pre><p>
+(the value is not important, but should typically be 1 or <code>true</code>).
+Note that unless the <code>EUNIT_NOAUTO</code> macro is defined, disabling testing
+will also automatically strip all test functions from the code, except
+for any that are explicitly declared as exported.</p>
+
+For instance, to use EUnit in your application, but with testing turned
+off by default, put the following lines in a header file:
+<pre> -define(NOTEST, true).
+ -include_lib("eunit/include/eunit.hrl").</pre>
+and then make sure that every module of your application includes that
+header file. This means that you have a only a single place to modify in
+order to change the default setting for testing. To override the <code>NOTEST</code>
+setting without modifying the code, you can define <code>TEST</code> in a compiler
+option, like this:
+<pre> erlc -DTEST my_module.erl</pre>
+
+<p>See <a href="#Compilation_control_macros">Compilation control macros</a> for details about these
+macros.</p>
+
+<h4><a name="Avoiding_compile-time_dependency_on_EUnit">Avoiding compile-time dependency on EUnit</a></h4>
+
+If you are distributing the source code for your application for other
+people to compile and run, you probably want to ensure that the code
+compiles even if EUnit is not available. Like the example in the
+previous section, you can put the following lines in a common header
+file:
+<pre> -ifdef(TEST).
+ -include_lib("eunit/include/eunit.hrl").
+ -endif.</pre><p>
+and, of course, also make sure that you place all test code that uses
+EUnit macros within <code>-ifdef(TEST)</code> or <code>-ifdef(EUNIT)</code> sections.</p>
+
+
+<h3><a name="EUnit_macros">EUnit macros</a></h3>
+
+<p>Although all the functionality of EUnit is avaliable even without the
+use of preprocessor macros, the EUnit header file defines a number of
+such macros in order to make it as easy as possible to write unit tests
+as compactly as possible and without getting too many details in the
+way.</p>
+
+<p>Except where explicitly stated, using EUnit macros will never introduce
+run-time dependencies on the EUnit library code, regardless of whether
+your code is compiled with testing enabled or disabled.</p>
+
+<ul>
+<li><a href="#Basic_macros">Basic macros</a></li>
+<li><a href="#Compilation_control_macros">Compilation control macros</a></li>
+<li><a href="#Utility_macros">Utility macros</a></li>
+<li><a href="#Assert_macros">Assert macros</a></li>
+<li><a href="#Macros_for_running_external_commands">Macros for running external commands</a></li>
+<li><a href="#Debugging_macros">Debugging macros</a></li>
+</ul>
+
+<h4><a name="Basic_macros">Basic macros</a></h4>
+
+<dl>
+<dt><code>_test(Expr)</code></dt>
+<dd>Turns <code>Expr</code> into a "test object", by wrapping it in a
+fun-expression and a source line number. Technically, this is the same
+as <code>{?LINE, fun () -&gt; (Expr) end}</code>.
+</dd>
+</dl>
+
+<h4><a name="Compilation_control_macros">Compilation control macros</a></h4>
+
+<dl>
+<dt><code>EUNIT</code></dt>
+<dd>This macro is always defined to <code>true</code> whenever EUnit is enabled at
+compile time. This is typically used to place testing code within
+conditional compilation, as in:
+<pre> -ifdef(EUNIT).
+ % test code here
+ ...
+ -endif.</pre>
+e.g., to ensure that the code can be compiled without including the
+EUnit header file, when testing is disabled. See also the macros <code>TEST</code>
+and <code>NOTEST</code>.
+</dd>
+
+<dt><code>EUNIT_NOAUTO</code></dt>
+<dd>If this macro is defined, the automatic exporting or stripping of
+test functions will be disabled.
+</dd>
+
+<dt><code>TEST</code></dt>
+<dd><p>This macro is always defined (to <code>true</code>, unless previously defined
+by the user to have another value) whenever EUnit is enabled at compile
+time. This can be used to place testing code within conditional
+compilation; see also the macros <code>NOTEST</code> and <code>EUNIT</code>.</p>
+
+<p>For testing code that is strictly dependent on EUnit, it may be
+preferable to use the <code>EUNIT</code> macro for this purpose, while for code
+that uses more generic testing conventions, using the <code>TEST</code> macro may
+be preferred.</p>
+
+The <code>TEST</code> macro can also be used to override the <code>NOTEST</code> macro. If
+<code>TEST</code> is defined <em>before</em> the EUnit header file is
+included (even if <code>NOTEST</code> is also defined), then the code will be
+compiled with EUnit enabled.
+</dd>
+
+<dt><code>NOTEST</code></dt>
+<dd><p>This macro is always defined (to <code>true</code>, unless previously defined
+by the user to have another value) whenever EUnit is <em>disabled</em>
+at compile time. (Compare the <code>TEST</code> macro.)</p>
+
+This macro can also be used for conditional compilation, but is more
+typically used to disable testing: If <code>NOTEST</code> is defined
+<em>before</em> the EUnit header file is included, and <code>TEST</code>
+is <em>not</em> defined, then the code will be compiled with EUnit
+disabled. See also <a href="#Disabling_testing">Disabling testing</a>.
+</dd>
+
+<dt><code>NOASSERT</code></dt>
+<dd>If this macro is defined, the assert macros will have no effect,
+when testing is also disabled. See <a href="#Assert_macros">Assert macros</a>. When
+testing is enabled, the assert macros are always enabled automatically
+and cannot be disabled.
+</dd>
+
+<dt><code>ASSERT</code></dt>
+<dd>If this macro is defined, it overrides the NOASSERT macro, forcing
+the assert macros to always be enabled regardless of other settings.
+</dd>
+
+<dt><code>NODEBUG</code></dt>
+<dd>If this macro is defined, the debugging macros will have no effect.
+See <a href="#Debugging_macros">Debugging macros</a>. <code>NODEBUG</code> also implies <code>NOASSERT</code>,
+unless testing is enabled.
+</dd>
+
+<dt><code>DEBUG</code></dt>
+<dd>If this macro is defined, it overrides the NODEBUG macro, forcing
+the debugging macros to be enabled.
+</dd>
+</dl>
+
+<h4><a name="Utility_macros">Utility macros</a></h4>
+
+<p>The following macros can make tests more compact and readable:</p>
+
+<dl>
+<dt><code>LET(Var,Arg,Expr)</code></dt>
+<dd>Creates a local binding <code>Var = Arg</code> in <code>Expr</code>. (This is the same as
+<code>(fun(Var)-&gt;(Expr)end)(Arg)</code>.) Note that the binding is not exported
+outside of <code>Expr</code>, and that within <code>Expr</code>, this binding of <code>Var</code> will
+shadow any binding of <code>Var</code> in the surrounding scope.
+</dd>
+<dt><code>IF(Cond,TrueCase,FalseCase)</code></dt>
+<dd>Evaluates <code>TrueCase</code> if <code>Cond</code> evaluates to <code>true</code>, or otherwise
+evaluates <code>FalseCase</code> if <code>Cond</code> evaluates to <code>false</code>. (This is the same
+as <code>(case (Cond) of true-&gt;(TrueCase); false-&gt;(FalseCase) end)</code>.) Note
+that it is an error if <code>Cond</code> does not yield a boolean value.
+</dd>
+</dl>
+
+<h4><a name="Assert_macros">Assert macros</a></h4>
+
+<p>(Note that these macros also have corresponding forms which start with
+an "<code>_</code>" (underscore) character, as in <code>?_assert(BoolExpr)</code>, that create
+a "test object" instead of performing the test immediately. This is
+equivalent to writing <code>?_test(assert(BoolExpr))</code>, etc.)</p>
+
+<p>If the macro <code>NOASSERT</code> is defined before the EUnit header file is
+included, these macros have no effect when testing is also disabled; see
+<a href="#Compilation_control_macros">Compilation control macros</a> for details.</p>
+
+<dl>
+<dt><code>assert(BoolExpr)</code></dt>
+<dd><p>Evaluates the expression <code>BoolExpr</code>, if testing is enabled. Unless
+the result is <code>true</code>, an informative exception will be generated. If
+there is no exception, the result of the macro expression is the atom
+<code>ok</code>, and the value of <code>BoolExpr</code> is discarded. If testing is disabled,
+the macro will not generate any code except the atom <code>ok</code>, and
+<code>BoolExpr</code> will not be evaluated.</p>
+
+Typical usage:
+<pre> ?assert(f(X, Y) =:= [])</pre>
+
+The <code>assert</code> macro can be used anywhere in a program, not just in unit
+tests, to check pre/postconditions and invariants. For example:
+<pre> some_recursive_function(X, Y, Z) -&gt;
+ ?assert(X + Y &gt; Z),
+ ...</pre>
+</dd>
+<dt><code>assertNot(BoolExpr)</code></dt>
+<dd>Equivalent to <code>assert(not (BoolExpr))</code>.
+</dd>
+<dt><code>assertMatch(GuardedPattern, Expr)</code></dt>
+<dd><p>Evaluates <code>Expr</code> and matches the result against <code>GuardedPattern</code>, if
+testing is enabled. If the match fails, an informative exception will be
+generated; see the <code>assert</code> macro for further details. <code>GuardedPattern</code>
+can be anything that you can write on the left hand side of the <code>-&gt;</code>
+symbol in a case-clause, except that it cannot contain comma-separated
+guard tests.</p>
+
+<p>The main reason for using <code>assertMatch</code> also for simple matches, instead
+of matching with <code>=</code>, is that it produces more detailed error messages.</p>
+
+Examples:
+<pre> ?assertMatch({found, {fred, _}}, lookup(bloggs, Table))</pre>
+<pre> ?assertMatch([X|_] when X &gt; 0, binary_to_list(B))</pre>
+</dd>
+<dt><code>assertEqual(Expect, Expr)</code></dt>
+<dd><p>Evaluates the expressions <code>Expect</code> and <code>Expr</code> and compares the
+results for equality, if testing is enabled. If the values are not
+equal, an informative exception will be generated; see the <code>assert</code>
+macro for further details.</p>
+
+<p><code>assertEqual</code> is more suitable than than <code>assertMatch</code> when the
+left-hand side is a computed value rather than a simple pattern, and
+gives more details than <code>?assert(Expect =:= Expr)</code>.</p>
+
+Examples:
+<pre> ?assertEqual("b" ++ "a", lists:reverse("ab"))</pre>
+<pre> ?assertEqual(foo(X), bar(Y))</pre>
+</dd>
+<dt><code>assertException(ClassPattern, TermPattern, Expr)</code></dt>
+<dt><code>assertError(TermPattern, Expr)</code></dt>
+<dt><code>assertExit(TermPattern, Expr)</code></dt>
+<dt><code>assertThrow(TermPattern, Expr)</code></dt>
+<dd><p>Evaluates <code>Expr</code>, catching any exception and testing that it matches
+the expected <code>ClassPattern:TermPattern</code>. If the match fails, or if no
+exception is thrown by <code>Expr</code>, an informative exception will be
+generated; see the <code>assert</code> macro for further details. The
+<code>assertError</code>, <code>assertExit</code>, and <code>assertThrow</code> macros, are equivalent to
+using <code>assertException</code> with a <code>ClassPattern</code> of <code>error</code>, <code>exit</code>, or
+<code>throw</code>, respectively.</p>
+
+Examples:
+<pre> ?assertError(badarith, X/0)</pre>
+<pre> ?assertExit(normal, exit(normal))</pre>
+<pre> ?assertException(throw, {not_found,_}, throw({not_found,42}))</pre>
+</dd>
+</dl>
+
+<h4><a name="Macros_for_running_external_commands">Macros for running external commands</a></h4>
+
+<p>Keep in mind that external commands are highly dependent on the
+operating system. You can use the standard library function <code>os:type()</code>
+in test generator functions, to produce different sets of tests
+depending on the current operating system.</p>
+
+<p>Note: these macros introduce a run-time dependency on the EUnit library
+code, if compiled with testing enabled.</p>
+
+<dl>
+<dt><code>assertCmd(CommandString)</code></dt>
+<dd><p>Runs <code>CommandString</code> as an external command, if testing is enabled.
+Unless the returned status value is 0, an informative exception will be
+generated. If there is no exception, the result of the macro expression
+is the atom <code>ok</code>. If testing is disabled, the macro will not generate
+any code except the atom <code>ok</code>, and the command will not be executed.</p>
+
+Typical usage:
+<pre> ?assertCmd("mkdir foo")</pre>
+</dd>
+<dt><code>assertCmdStatus(N, CommandString)</code></dt>
+<dd>Like the <code>assertCmd(CommandString)</code> macro, but generates an
+exception unless the returned status value is <code>N</code>.
+</dd>
+<dt><code>assertCmdOutput(Text, CommandString)</code></dt>
+<dd>Runs <code>CommandString</code> as an external command, if testing is enabled.
+Unless the output produced by the command exactly matches the specified
+string <code>Text</code>, an informative exception will be generated. (Note that
+the output is normalized to use a single LF character as line break on
+all platforms.) If there is no exception, the result of the macro
+expression is the atom <code>ok</code>. If testing is disabled, the macro will not
+generate any code except the atom <code>ok</code>, and the command will not be
+executed.
+</dd>
+<dt><code>cmd(CommandString)</code></dt>
+<dd><p>Runs <code>CommandString</code> as an external command. Unless the returned
+status value is 0 (indicating success), an informative exception will be
+generated; otherwise, the result of the macro expression is the output
+produced by the command, as a flat string. The output is normalized to
+use a single LF character as line break on all platforms.</p>
+
+<p>This macro is useful in the setup and cleanup sections of fixtures,
+e.g., for creating and deleting files or perform similar operating
+system specific tasks, to make sure that the test system is informed of
+any failures.</p>
+
+A Unix-specific example:
+<pre> {setup,
+ fun () -&gt; ?cmd("mktemp") end,
+ fun (FileName) -&gt; ?cmd("rm " ++ FileName) end,
+ ...}</pre>
+</dd>
+</dl>
+
+<h4><a name="Debugging_macros">Debugging macros</a></h4>
+
+<p>To help with debugging, EUnit defines several useful macros for printing
+messages directly to the console (rather than to the standard output).
+Furthermore, these macros all use the same basic format, which includes
+the file and line number where they occur, making it possible in some
+development environments (e.g., when running Erlang in an Emacs buffer)
+to simply click on the message and jump directly to the corresponding
+line in the code.</p>
+
+<p>If the macro <code>NODEBUG</code> is defined before the EUnit header file is
+included, these macros have no effect; see
+<a href="#Compilation_control_macros">Compilation control macros</a> for details.</p>
+
+<dl>
+<dt><code>debugHere</code></dt>
+<dd>Just prints a marker showing the current file and line number. Note
+that this is an argument-less macro. The result is always <code>ok</code>.</dd>
+<dt><code>debugMsg(Text)</code></dt>
+<dd>Outputs the message <code>Text</code> (which can be a plain string, an IO-list,
+or just an atom). The result is always <code>ok</code>.</dd>
+<dt><code>debugFmt(FmtString, Args)</code></dt>
+<dd>This formats the text like <code>io:format(FmtString, Args)</code> and outputs
+it like <code>debugMsg</code>. The result is always <code>ok</code>.</dd>
+<dt><code>debugVal(Expr)</code></dt>
+<dd>Prints both the source code for <code>Expr</code> and its current value. E.g.,
+<code>?debugVal(f(X))</code> might be displayed as "<code>f(X) = 42</code>". (Large terms are
+shown truncated.) The result is always the value of <code>Expr</code>, so this
+macro can be wrapped around any expression to display its value when
+the code is compiled with debugging enabled.</dd>
+<dt><code>debugTime(Text,Expr)</code></dt>
+<dd>Prints <code>Text</code> and the wall clock time for evaluation of <code>Expr</code>. The
+result is always the value of <code>Expr</code>, so this macro can be wrapped
+around any expression to show its run time when the code is compiled
+with debugging enabled. For example, <code>List1 = ?debugTime("sorting",
+lists:sort(List))</code> might show as "<code>sorting: 0.015 s</code>".</dd>
+
+</dl>
+
+
+<h3><a name="EUnit_test_representation">EUnit test representation</a></h3>
+
+<p>The way EUnit represents tests and test sets as data is flexible,
+powerful, and concise. This section describes the representation in
+detail.</p>
+
+<ul>
+<li><a href="#Simple_test_objects">Simple test objects</a></li>
+<li><a href="#Test_sets_and_deep_lists">Test sets and deep lists</a></li>
+<li><a href="#Titles">Titles</a></li>
+<li><a href="#Primitives">Primitives</a></li>
+<li><a href="#Control">Control</a></li>
+<li><a href="#Fixtures">Fixtures</a></li>
+<li><a href="#Lazy_generators">Lazy generators</a></li>
+</ul>
+
+<h4><a name="Simple_test_objects">Simple test objects</a></h4>
+
+A <em>simple test object</em> is one of the following:
+<ul>
+ <li>A nullary functional value (i.e., a fun that takes zero
+ arguments). Examples:
+<pre> fun () -&gt; ... end</pre>
+<pre> fun some_function/0</pre>
+<pre> fun some_module:some_function/0</pre>
+ </li>
+ <li>A pair of atoms <code>{ModuleName, FunctionName}</code>, referring to the
+ function <code>ModuleName:FunctionName/0</code></li>
+ <li>A pair <code>{LineNumber, SimpleTest}</code>, where <code>LineNumber</code> is a
+ nonnegative integer and <code>SimpleTest</code> is another simple test
+ object. <code>LineNumber</code> should indicate the source line of the test.
+ Pairs like this are usually only created via <code>?_test(...)</code> macros;
+ see <a href="#Basic_macros">Basic macros</a>.</li>
+</ul><p>
+In brief, a simple test object consists of a single function that takes
+no arguments (possibly annotated with some additional metadata, i.e., a
+line number). Evaluation of the function either <em>succeeds</em>, by
+returning some value (which is ignored), or <em>fails</em>, by throwing
+an exception.</p>
+
+<h4><a name="Test_sets_and_deep_lists">Test sets and deep lists</a></h4>
+
+<p>A test set can be easily created by placing a sequence of test objects
+in a list. If <code>T_1</code>, ..., <code>T_N</code> are individual test objects, then <code>[T_1,
+..., T_N]</code> is a test set consisting of those objects (in that order).</p>
+
+<p>Test sets can be joined in the same way: if <code>S_1</code>, ..., <code>S_K</code> are test
+sets, then <code>[S_1, ..., S_K]</code> is also a test set, where the tests of
+<code>S_i</code> are ordered before those of <code>S_(i+1)</code>, for each subset <code>S_i</code>.</p>
+
+<p>Thus, the main representation of test sets is <em>deep lists</em>, and
+a simple test object can be viewed as a test set containing only a
+single test; there is no difference between <code>T</code> and <code>[T]</code>.</p>
+
+<p>A module can also be used to represent a test set; see <code>ModuleName</code>
+under <a href="#Primitives">Primitives</a> below.</p>
+
+<h4><a name="Titles">Titles</a></h4>
+
+<p>Any test or test set <code>T</code> can be annotated with a title, by wrapping it
+in a pair <code>{Title, T}</code>, where <code>Title</code> is a string. For convenience, any
+test which is normally represented using a tuple can simply be given a
+title string as the first element, i.e., writing <code>{"The Title", ...}</code>
+instead of adding an extra tuple wrapper as in <code>{"The Title", {...}}</code>.</p>
+
+
+<h4><a name="Primitives">Primitives</a></h4>
+
+The following are primitives, which do not contain other test sets as
+arguments:
+<dl>
+<dt><code>ModuleName::atom()</code>
+</dt>
+<dd>A single atom represents a module name, and is equivalent to
+<code>{module, ModuleName}</code>. This is often used as in the call
+<code>eunit:test(some_module)</code>.
+</dd>
+<dt><code>{module, ModuleName::atom()}</code>
+</dt>
+<dd><p>This composes a test set from the exported test functions of the
+named module, i.e., those functions with arity zero whose names end
+with <code>_test</code> or <code>_test_</code>. Basically, the <code>..._test()</code> functions become
+simple tests, while the <code>..._test_()</code> functions become generators.</p>
+
+In addition, EUnit will also look for another module whose name is
+<code>ModuleName</code> plus the suffix <code>_tests</code>, and if it exists, all the tests
+from that module will also be added. (If <code>ModuleName</code> already contains
+the suffix <code>_tests</code>, this is not done.) E.g., the specification
+<code>{module, mymodule}</code> will run all tests in the modules <code>mymodule</code> and
+<code>mymodule_tests</code>. Typically, the <code>_tests</code> module should only contain
+test cases that use the public interface of the main module (and no
+other code).
+</dd>
+<dt><code>{application, AppName::atom(), Info::list()}</code>
+</dt>
+<dd>This is a normal Erlang/OTP application descriptor, as found in an
+ <code>.app</code> file. The resulting test set consists of the modules listed in
+ the <code>modules</code> entry in <code>Info</code>.
+</dd>
+<dt><code>{application, AppName::atom()}</code>
+</dt>
+<dd>This creates a test set from all the modules belonging to the
+specified application, by consulting the application's <code>.app</code> file
+(see <code>{file, FileName}</code>), or if no such file exists, by testing all
+object files in the application's <tt>ebin</tt>-directory (see <code>{dir,
+Path}</code>); if that does not exist, the <code>code:lib_dir(AppName)</code> directory
+is used.
+</dd>
+<dt><code>Path::string()</code>
+</dt>
+<dd>A single string represents the path of a file or directory, and is
+equivalent to <code>{file, Path}</code>, or <code>{dir, Path}</code>, respectively, depending
+on what <code>Path</code> refers to in the file system.
+</dd>
+<dt><code>{file, FileName::string()}</code>
+</dt>
+<dd><p>If <code>FileName</code> has a suffix that indicates an object file (<code>.beam</code>),
+EUnit will try to reload the module from the specified file and test it.
+Otherwise, the file is assumed to be a text file containing test
+specifications, which will be read using the standard library function
+<code>file:path_consult/2</code>.</p>
+
+Unless the file name is absolute, the file is first searched for
+relative to the current directory, and then using the normal search path
+(<code>code:get_path()</code>). This means that the names of typical "app" files
+can be used directly, without a path, e.g., <code>"mnesia.app"</code>.
+</dd>
+<dt><code>{dir, Path::string()}</code>
+</dt>
+<dd>This tests all object files in the specified directory, as if they
+had been individually specified using <code>{file, FileName}</code>.
+</dd>
+<dt><code>{generator, GenFun::(() -&gt; Tests)}</code>
+</dt>
+<dd>The generator function <code>GenFun</code> is called to produce a test
+set.
+</dd>
+<dt><code>{generator, ModuleName::atom(), FunctionName::atom()}</code>
+</dt>
+<dd>The function <code>ModuleName:FunctionName()</code> is called to produce a test
+set.
+</dd>
+<dt><code>{with, X::any(), [AbstractTestFun::((any()) -&gt; any())]}</code>
+</dt>
+<dd>Distributes the value <code>X</code> over the unary functions in the list,
+turning them into nullary test functions. An <code>AbstractTestFun</code> is like
+an ordinary test fun, but takes one argument instead of zero - it's
+basically missing some information before it can be a proper test. In
+practice, <code>{with, X, [F_1, ..., F_N]}</code> is equivalent to <code>[fun () -&gt;
+F_1(X) end, ..., fun () -&gt; F_N(X) end]</code>. This is particularly useful if
+your abstract test functions are already implemented as proper
+functions: <code>{with, FD, [fun filetest_a/1, fun filetest_b/1, fun
+filetest_c/1]}</code> is equivalent to <code>[fun () -&gt; filetest_a(FD) end, fun ()
+-&gt; filetest_b(FD) end, fun () -&gt; filetest_c(FD) end]</code>, but much more
+compact. See also <a href="#Fixtures">Fixtures</a>, below.
+</dd>
+</dl>
+
+<h4><a name="Control">Control</a></h4>
+
+The following representations control how and where tests are executed:
+<dl>
+<dt><code>{spawn, Tests}</code></dt>
+<dd>Runs the specified tests in a separate subprocess, while the current
+test process waits for it to finish. This is useful for tests that need
+a fresh, isolated process state. (Note that EUnit always starts at least
+one such a subprocess automatically; tests are never executed by the
+caller's own process.)</dd>
+<dt><code>{spawn, Node::atom(), Tests}</code></dt>
+<dd>Like <code>{spawn, Tests}</code>, but runs the specified tests on the given
+Erlang node.</dd>
+<dt><code>{timeout, Time::number(), Tests}</code></dt>
+<dd>Runs the specified tests under the given timeout. Time is in
+seconds; e.g., 60 means one minute and 0.1 means 1/10th of a second. If
+the timeout is exceeded, the unfinished tests will be forced to
+terminate. Note that if a timeout is set around a fixture, it includes
+the time for setup and cleanup, and if the timeout is triggered, the
+entire fixture is abruptly terminated (without running the
+cleanup).</dd>
+<dt><code>{inorder, Tests}</code></dt>
+<dd>Runs the specified tests in strict order. Also see <code>{inparallel,
+Tests}</code>. By default, tests are neither marked as <code>inorder</code> or
+<code>inparallel</code>, but may be executed as the test framework chooses.</dd>
+<dt><code>{inparallel, Tests}</code></dt>
+<dd>Runs the specified tests in parallel (if possible). Also see
+<code>{inorder, Tests}</code>.</dd>
+<dt><code>{inparallel, N::integer(), Tests}</code></dt>
+<dd>Like <code>{inparallel, Tests}</code>, but running no more than <code>N</code> subtests
+simultaneously.</dd>
+</dl>
+
+<h4><a name="Fixtures">Fixtures</a></h4>
+
+<p>A "fixture" is some state that is necessary for a particular set of
+tests to run. EUnit's support for fixtures makes it easy to set up such
+state locally for a test set, and automatically tear it down again when
+the test set is finished, regardless of the outcome (success, failures,
+timeouts, etc.).</p>
+
+<p>To make the descriptions simpler, we first list some definitions:
+<center>
+<table border="0" cellspacing="4">
+<tr>
+<td><code>Setup</code></td><td><code>() -&gt; (R::any())</code></td>
+</tr>
+<tr>
+<td><code>SetupX</code></td><td><code>(X::any()) -&gt; (R::any())</code></td>
+</tr>
+<tr>
+<td><code>Cleanup</code></td><td><code>(R::any()) -&gt; any()</code></td>
+</tr>
+<tr>
+<td><code>CleanupX</code></td><td><code>(X::any(), R::any()) -&gt; any()</code></td>
+</tr>
+<tr>
+<td><code>Instantiator</code></td><td><code>((R::any()) -&gt; Tests) | {with, [AbstractTestFun::((any()) -&gt; any())]}</code></td>
+</tr>
+<tr>
+<td><code>Where</code></td><td><code>local | spawn | {spawn, Node::atom()}</code></td>
+</tr>
+</table>
+</center>
+(these are explained in more detail further below.)</p>
+
+The following representations specify fixture handling for test sets:
+<dl>
+<dt><code>{setup, Setup, Tests | Instantiator}</code></dt>
+<dt><code>{setup, Setup, Cleanup, Tests | Instantiator}</code></dt>
+<dt><code>{setup, Where, Setup, Tests | Instantiator}</code></dt>
+<dt><code>{setup, Where, Setup, Cleanup, Tests | Instantiator}</code></dt>
+<dd><code>setup</code> sets up a single fixture for running all of the specified
+tests, with optional teardown afterwards. The arguments are described in
+detail below.
+</dd>
+<dt><code>{node, Node::atom(), Tests | Instantiator}</code></dt>
+<dt><code>{node, Node::atom(), Args::string(), Tests | Instantiator}</code></dt>
+<dd><code>node</code> is like <code>setup</code>, but with a built-in behaviour: it starts a
+slave node for the duration of the tests. The atom <code>Node</code> should have
+the format <code>[email protected]</code>, and <code>Args</code> are the optional
+arguments to the new node; see <code>slave:start_link/3</code> for details.
+</dd>
+<dt><code>{foreach, Where, Setup, Cleanup, [Tests | Instantiator]}</code></dt>
+<dt><code>{foreach, Setup, Cleanup, [Tests | Instantiator]}</code></dt>
+<dt><code>{foreach, Where, Setup, [Tests | Instantiator]}</code></dt>
+<dt><code>{foreach, Setup, [Tests | Instantiator]}</code></dt>
+<dd><code>foreach</code> is used to set up a fixture and optionally tear it down
+afterwards, repeated for each single one of the specified test sets.
+</dd>
+<dt><code>{foreachx, Where, SetupX, CleanupX,
+ Pairs::[{X::any(), ((X::any(), R::any()) -&gt; Tests)}]}</code></dt>
+<dt><code>{foreachx, SetupX, CleanupX, Pairs}</code></dt>
+<dt><code>{foreachx, Where, SetupX, Pairs}</code></dt>
+<dt><code>{foreachx, SetupX, Pairs}</code></dt>
+<dd><code>foreachx</code> is like <code>foreach</code>, but uses a list of pairs, each
+containing an extra argument <code>X</code> and an extended instantiator function.
+</dd>
+</dl>
+
+<p>A <code>Setup</code> function is executed just before any of the specified tests
+are run, and a <code>Cleanup</code> function is executed when no more of the
+specified tests will be run, regardless of the reason. A <code>Setup</code>
+function takes no argument, and returns some value which will be passed
+as it is to the <code>Cleanup</code> function. A <code>Cleanup</code> function should do
+whatever necessary and return some arbitrary value, such as the atom
+<code>ok</code>. (<code>SetupX</code> and <code>CleanupX</code> functions are similar, but receive one
+additional argument: some value <code>X</code>, which depends on the context.) When
+no <code>Cleanup</code> function is specified, a dummy function is used which has
+no effect.</p>
+
+<p>An <code>Instantiator</code> function receives the same value as the <code>Cleanup</code>
+function, i.e., the value returned by the <code>Setup</code> function. It should
+then behave much like a generator (see <a href="#Primitives">Primitives</a>), and
+return a test set whose tests have been <em>instantiated</em> with the
+given value. A special case is the syntax <code>{with, [AbstractTestFun]}</code>
+which represents an instantiator function that distributes the value
+over a list of unary functions; see <a href="#Primitives">Primitives</a>: <code>{with, X,
+[...]}</code> for more details.</p>
+
+A <code>Where</code> term controls how the specified tests are executed. The
+default is <code>spawn</code>, which means that the current process handles the
+setup and teardown, while the tests are executed in a subprocess.
+<code>{spawn, Node}</code> is like <code>spawn</code>, but runs the subprocess on the
+specified node. <code>local</code> means that the current process will handle both
+setup/teardown and running the tests - the drawback is that if a test
+times out so that the process is killed, the <em>cleanup will not be
+performed</em>; hence, avoid this for persistent fixtures such as file
+operations. In general, 'local' should only be used when:
+<ul>
+ <li>the setup/teardown needs to be executed by the process that will
+ run the tests;</li>
+ <li>no further teardown needs to be done if the process is killed
+ (i.e., no state outside the process was affected by the setup)</li>
+</ul>
+
+<h4><a name="Lazy_generators">Lazy generators</a></h4>
+
+<p>Sometimes, it can be convenient not to produce the whole set of test
+descriptions before the testing begins; for example, if you want to
+generate a huge amount of tests that would take up too much space to
+keep in memory all at once.</p>
+
+<p>It is fairly easy to write a generator which, each time it is called,
+either produces an empty list if it is done, or otherwise produces a
+list containing a single test case plus a new generator which will
+produce the rest of the tests. This demonstrates the basic pattern:</p>
+
+<pre> lazy_test_() -&gt;
+ lazy_gen(10000).
+
+ lazy_gen(N) -&gt;
+ {generator,
+ fun () -&gt;
+ if N &gt; 0 -&gt;
+ [?_test(...)
+ | lazy_gen(N-1)];
+ true -&gt;
+ []
+ end
+ end}.</pre>
+
+<p>When EUnit traverses the test representation in order to run the tests,
+the new generator will not be called to produce the next test until the
+previous test has been executed.</p>
+
+Note that it is easiest to write this kind of recursive generator using
+a help function, like the <code>lazy_gen/1</code> function above. It can also be
+written using a recursive fun, if you prefer to not clutter your
+function namespace and are comfortable with writing that kind of code.
+
+<hr>
+<div class="navbar"><a name="#navbar_bottom"></a><table width="100%" border="0" cellspacing="0" cellpadding="2" summary="navigation bar"><tr><td><a href="overview-summary.html" target="overviewFrame">Overview</a></td><td><a href="http://www.erlang.org/"><img src="erlang.png" align="right" border="0" alt="erlang logo"></a></td></tr></table></div>
+<p><i>Generated by EDoc, Apr 22 2009, 22:37:19.</i></p>
+</body>
+</html>
diff --git a/lib/eunit/doc/overview.edoc b/lib/eunit/doc/overview.edoc
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+
+ -*- html -*-
+
+ EUnit overview page
+
+@title EUnit - a Lightweight Unit Testing Framework for Erlang
+
+@author Richard Carlsson <[email protected]>
+ [http://user.it.uu.se/~richardc/]
+@author Micka�l R�mond <[email protected]>
+ [http://www.process-one.net/]
+@copyright 2004-2007 Micka�l R�mond, Richard Carlsson
+@version {@version}, {@date} {@time}
+
+@doc EUnit is a unit testing framework for Erlang. It is very powerful
+and flexible, is easy to use, and has small syntactical overhead.
+
+<ul>
+<li>{@section Unit testing}</li>
+<li>{@section Terminology}</li>
+<li>{@section Getting started}</li>
+<li>{@section EUnit macros}</li>
+<li>{@section EUnit test representation}</li>
+</ul>
+
+EUnit builds on ideas from the family of unit testing frameworks for
+Object Oriented languages that originated with JUnit by Beck and Gamma
+(and Beck's previous framework SUnit for Smalltalk). However, EUnit uses
+techniques more adapted to functional and concurrent programming, and is
+typically less verbose than its relatives.
+
+Although EUnit uses many preprocessor macros, they have been designed to
+be as nonintrusive as possible, and should not cause conflicts with
+existing code. Adding EUnit tests to a module should thus not normally
+require changing existing code. Furthermore, tests that only exercise
+the exported functions of a module can always be placed in a completely
+separate module, avoiding any conflicts entirely.
+
+== Unit testing ==
+
+Unit Testing is testing of individual program "units" in relative
+isolation. There is no particular size requirement: a unit can be a
+function, a module, a process, or even a whole application, but the most
+typical testing units are individual functions or modules. In order to
+test a unit, you specify a set of individual tests, set up the smallest
+necessary environment for being able to run those tests (often, you
+don't need to do any setup at all), you run the tests and collect the
+results, and finally you do any necessary cleanup so that the test can
+be run again later. A Unit Testing Framework tries to help you in each
+stage of this process, so that it is easy to write tests, easy to run
+them, and easy to see which tests failed (so you can fix the bugs).
+
+=== Advantages of unit testing ===
+
+<dl>
+ <dt>Reduces the risks of changing the program</dt>
+ <dd>Most programs will be modified during their lifetime: bugs will be
+ fixed, features will be added, optimizations may become necessary, or
+ the code will need to be refactored or cleaned up in other ways to
+ make it easier to work with. But every change to a working program is
+ a risk of introducing new bugs - or reintroducing bugs that had
+ previously been fixed. Having a set of unit tests that you can run
+ with very little effort makes it easy to know that the code still
+ works as it should (this use is called <em>regression testing</em>;
+ see {@section Terminology}). This goes a long way to reduce the
+ resistance to changing and refactoring code.</dd>
+ <dt>Helps guide and speed up the development process</dt>
+ <dd>By focusing on getting the code to pass the tests, the programmer
+ can become more productive, not overspecify or get lost in premature
+ optimizations, and create code that is correct from the very beginning
+ (so-called <em>test-driven development</em>; see {@section
+ Terminology}).</dd>
+ <dt>Helps separate interface from implementation</dt>
+ <dd>When writing tests, the programmer may discover dependencies
+ (in order to get the tests to run) that ought not to be there, and
+ which need to be abstracted away to get a cleaner design. This helps
+ eliminate bad dependencies before they spread throughout the
+ code.</dd>
+ <dt>Makes component integration easier</dt>
+ <dd>By testing in a bottom-up fashion, beginning with the smallest
+ program units and creating a confidence in that they work as they
+ should, it becomes easier to test that a higher-level component,
+ consisting of several such units, also behaves according to
+ specification (known as <em>integration testing</em>; see {@section
+ Terminology}).</dd>
+ <dt>Is self-documenting</dt>
+ <dd>The tests can be read as documentation, typically showing both
+ examples of correct and incorrect usage, along with the expected
+ consequences.</dd>
+</dl>
+
+== Terminology ==
+
+<dl>
+ <dt>Unit testing</dt>
+ <dd>Testing that a program unit behaves as it is supposed to do (in
+ itself), according to its specifications. Unit tests have an important
+ function as regression tests, when the program later is modified for
+ some reason, since they check that the program still behaves according
+ to specification.</dd>
+ <dt>Regression testing</dt>
+ <dd>Running a set of tests after making changes to a program, to check
+ that the program behaves as it did before the changes (except, of
+ course, for any intentional changes in behaviour). Unit tests are
+ important as regression tests, but regression testing can involve more
+ than just unit testing, and may also test behaviour that might not be
+ part of the normal specification (such as bug-for-bug-compatibility).
+ </dd>
+ <dt>Integration testing</dt>
+ <dd>Testing that a number of individually developed program units
+ (assumed to already have been separately unit tested) work together as
+ expected. Depending on the system being developed, integration testing
+ may be as simple as "just another level of unit testing", but might
+ also involve other kinds of tests (compare <em>system testing</em>).
+</dd>
+ <dt>System testing</dt>
+ <dd>Testing that a complete system behaves according to its
+ specification. Specifically, system testing should not require knowing
+ any details about the implementation. It typically involves testing
+ many different aspects of the system behaviour apart from the basic
+ functionality, such as performance, usability, and reliability.</dd>
+ <dt>Test-driven development</dt>
+ <dd>A program development technique where you continuously write tests
+ <em>before</em> you implement the code that is supposed to pass those
+ tests. This can help you focus on solving the right problems, and not
+ make a more complicated implementation than necessary, by letting the
+ unit tests determine when a program is "done": if it fulfils its
+ specifications, there is no need to keep adding functionality.</dd>
+ <dt>Mock object</dt>
+ <dd>Sometimes, testing some unit `A' (e.g., a function) requires that
+ it collaborates somehow with some other unit `B' (perhaps being passed
+ as an argument, or by reference) - but `B' has not been implemented
+ yet. A "mock object" - an object which, for the purposes of testing
+ `A', looks and behaves like a real `B' - might then be used instead.
+ (This is of course only useful if it would be significantly more work
+ to implement a real `B' than to create a mock object.)</dd>
+ <dt>Test case</dt>
+ <dd>A single, well-defined test, that somehow can be uniquely
+ identified. When executed, the test case either <em>passes</em> or
+ <em>fails</em>; the test report should identify exactly which test
+ cases failed.</dd>
+ <dt>Test suite</dt>
+ <dd>A collection of test cases, generally with a specific, common
+ target for testing, such as a single function, module, or subsystem. A
+ test suite may also be recursively composed by smaller test
+ suites.</dd>
+</dl>
+
+== Getting started ==
+<ul>
+ <li>{@section Including the EUnit header file}</li>
+ <li>{@section Writing simple test functions}</li>
+ <li>{@section Running EUnit}</li>
+ <li>{@section Writing test generating functions}</li>
+ <li>{@section An example}</li>
+ <li>{@section Disabling testing}</li>
+ <li>{@section Avoiding compile-time dependency on EUnit}</li>
+</ul>
+
+=== Including the EUnit header file ===
+
+The simplest way to use EUnit in an Erlang module is to add the
+following line at the beginning of the module (after the `-module'
+declaration, but before any function definitions):
+```-include_lib("eunit/include/eunit.hrl").'''
+
+This will have the following effect:
+<ul>
+ <li>Creates an exported function `test()' (unless testing is turned
+ off, and the module does not already contain a test() function), that
+ can be used to run all the unit tests defined in the module</li>
+ <li>Causes all functions whose names match `..._test()' or `..._test_()'
+ to be automatically exported from the module (unless testing is
+ turned off, or the `EUNIT_NOAUTO' macro is defined)</li>
+ <li>Makes all the preprocessor macros of EUnit available, to help
+ writing tests</li>
+</ul>
+
+<strong>Note:</strong> For `-include_lib(...)' to work, the Erlang
+module search path <em>must</em> contain a directory whose name ends in
+`eunit/ebin' (pointing to the `ebin' subdirectory of the EUnit
+installation directory). If EUnit is installed as `lib/eunit' under your
+Erlang/OTP system directory, its `ebin' subdirectory will be
+automatically added to the search path when Erlang starts. Otherwise,
+you need to add the directory explicitly, by passing a `-pa' flag to the
+`erl' or `erlc' command. For example, a Makefile could contain the
+following action for compiling `.erl' files:
+```erlc -pa "path/to/eunit/ebin" $(ERL_COMPILE_FLAGS) -o$(EBIN) $<'''
+or if you want Eunit to always be available when you run Erlang
+interactively, you can add a line like the following to your
+`$HOME/.erlang' file:
+```code:add_path("/path/to/eunit/ebin").'''
+
+=== Writing simple test functions ===
+
+The EUnit framework makes it extremely easy to write unit tests in
+Erlang. There are a few different ways of writing them, though, so we
+start with the simplest:
+
+A function with a name ending in `..._test()' is recognized by EUnit as
+a simple test function - it takes no arguments, and its execution either
+succeeds (returning some arbitrary value that EUnit will throw away), or
+fails by throwing an exception of some kind (or by not terminating, in
+which case it will be aborted after a while).
+
+An example of a simple test function could be the following:
+```reverse_test() -> lists:reverse([1,2,3]).'''
+This just tests that the function `lists:reverse(List)' does not crash
+when `List' is `[1,2,3]'. It is not a great test, but many people write
+simple functions like this one to test the basic functionality of their
+code, and those tests can be used directly by EUnit, without changes,
+as long as their function names match.
+
+==== Use exceptions to signal failure ====
+
+To write more interesting tests, we need to make them crash (throw an
+exception) when they don't get the result they expect. A simple way of
+doing this is to use pattern matching with `=', as in the following
+examples:
+```reverse_nil_test() -> [] = lists:reverse([]).
+ reverse_one_test() -> [1] = lists:reverse([1]).
+ reverse_two_test() -> [2,1] = lists:reverse([1,2]).
+'''
+If there was some bug in `lists:reverse/1' that made it return something
+other than `[2,1]' when it got `[1,2]' as input, then the last test
+above would throw a `badmatch' error. The first two (we assume they do
+not get a `badmatch') would simply return `[]' and `[1]', respectively,
+so both succeed. (Note that EUnit is not psychic: if you write a test
+that returns a value, even if it is the wrong value, EUnit will consider
+it a success. You must make sure that the test is written so that it
+causes a crash if the result is not what it should be.)
+
+==== Using assert macros ====
+
+If you want to use Boolean operators for your tests, the `assert'
+macro comes in handy (see {@section EUnit macros} for details):
+```length_test() -> ?assert(length([1,2,3]) =:= 3).'''
+The `?assert(Expression)' macro will evaluate `Expression', and if that
+does not evaluate to `true', it will throw an exception; otherwise it
+just returns `ok'. In the above example, the test will thus fail if the
+call to `length' does not return 3.
+
+=== Running EUnit ===
+
+If you have added the declaration
+`-include_lib("eunit/include/eunit.hrl")' to your module, as described
+above, you only need to compile the module, and run the automatically
+exported function `test()'. For example, if your module was named `m',
+then calling `m:test()' will run EUnit on all the tests defined in the
+module. You do not need to write `-export' declarations for the test
+functions. This is all done by magic.
+
+You can also use the function {@link eunit:test/1} to run arbitrary
+tests, for example to try out some more advanced test descriptors (see
+{@section EUnit test representation}). For example, running
+``eunit:test(m)'' does the same thing as the auto-generated function
+``m:test()'', while ``eunit:test({inparallel, m})'' runs the same test
+cases but executes them all in parallel.
+
+==== Putting tests in separate modules ====
+
+If you want to separate your test code from your normal code (at least
+for testing the exported functions), you can simply write the test
+functions in a module named `m_tests' (note: not `m_test'), if your
+module is named `m'. Then, whenever you ask EUnit to test the module
+`m', it will also look for the module `m_tests' and run those tests as
+well. See `ModuleName' in the section {@section Primitives} for details.
+
+==== EUnit captures standard output ====
+
+If your test code writes to the standard output, you may be surprised to
+see that the text does not appear on the console when the tests are
+running. This is because EUnit captures all standard output from test
+functions (this also includes setup and cleanup functions, but not
+generator functions), so that it can be included in the test report if
+errors occur. To bypass EUnit and print text directly to the console
+while testing, you can write to the `user' output stream, as in
+`io:format(user, "~w", [Term])'. The recommended way of doing this is to
+use the EUnit {@section Debugging macros}, which make it much simpler.
+
+=== Writing test generating functions ===
+
+A drawback of simple test functions is that you must write a separate
+function (with a separate name) for each test case. A more compact way
+of writing tests (and much more flexible, as we shall see), is to write
+functions that <em>return</em> tests, instead of <em>being</em> tests.
+
+A function with a name ending in `..._test_()' (note the final
+underscore) is recognized by EUnit as a <em>test generator</em>
+function. Test generators return a <em>representation</em> of a <em>set
+of tests</em> to be executed by EUnit.
+
+==== Representing a test as data ====
+
+The most basic representation of a test is a single fun-expression that
+takes no arguments. For example, the following test generator:
+```basic_test_() ->
+ fun () -> ?assert(1 + 1 =:= 2) end.'''
+will have the same effect as the following simple test:
+```simple_test() ->
+ ?assert(1 + 1 =:= 2).'''
+(in fact, EUnit will handle all simple tests just like it handles
+fun-expressions: it will put them in a list, and run them one by one).
+
+==== Using macros to write tests ====
+
+To make tests more compact and readable, as well as automatically add
+information about the line number in the source code where a test
+occurred (and reduce the number of characters you have to type), you can
+use the `_test' macro (note the initial underscore character), like
+this:
+```basic_test_() ->
+ ?_test(?assert(1 + 1 =:= 2)).'''
+The `_test' macro takes any expression (the "body") as argument, and
+places it within a fun-expression (along with some extra information).
+The body can be any kind of test expression, just like the body of a
+simple test function.
+
+==== Underscore-prefixed macros create test objects ====
+
+But this example can be made even shorter! Most test macros, such as the
+family of `assert' macros, have a corresponding form with an initial
+underscore character, which automatically adds a `?_test(...)' wrapper.
+The above example can then simply be written:
+```basic_test_() ->
+ ?_assert(1 + 1 =:= 2).'''
+which has exactly the same meaning (note the `_assert' instead of
+`assert'). You can think of the initial underscore as signalling
+<em>test object</em>.
+
+=== An example ===
+
+Sometimes, an example says more than a thousand words. The following
+small Erlang module shows how EUnit can be used in practice.
+```-module(fib).
+ -export([fib/1]).
+ -include_lib("eunit/include/eunit.hrl").
+
+ fib(0) -> 1;
+ fib(1) -> 1;
+ fib(N) when N > 1 -> fib(N-1) + fib(N-2).
+
+ fib_test_() ->
+ [?_assert(fib(0) =:= 1),
+ ?_assert(fib(1) =:= 1),
+ ?_assert(fib(2) =:= 2),
+ ?_assert(fib(3) =:= 3),
+ ?_assert(fib(4) =:= 5),
+ ?_assert(fib(5) =:= 8),
+ ?_assertException(error, function_clause, fib(-1)),
+ ?_assert(fib(31) =:= 2178309)
+ ].'''
+
+(Author's note: When I first wrote this example, I happened to write a
+`*' instead of `+' in the `fib' function. Of course, this showed up
+immediately when I ran the tests.)
+
+See {@section EUnit test representation} for a full list of all the ways
+you can specify test sets in EUnit.
+
+=== Disabling testing ===
+
+Testing can be turned off by defining the `NOTEST' macro when compiling,
+for example as an option to `erlc', as in:
+```erlc -DNOTEST my_module.erl'''
+or by adding a macro definition to the code, <em>before the EUnit header
+file is included</em>:
+```-define(NOTEST, 1).'''
+(the value is not important, but should typically be 1 or `true').
+Note that unless the `EUNIT_NOAUTO' macro is defined, disabling testing
+will also automatically strip all test functions from the code, except
+for any that are explicitly declared as exported.
+
+For instance, to use EUnit in your application, but with testing turned
+off by default, put the following lines in a header file:
+```-define(NOTEST, true).
+ -include_lib("eunit/include/eunit.hrl").'''
+and then make sure that every module of your application includes that
+header file. This means that you have a only a single place to modify in
+order to change the default setting for testing. To override the `NOTEST'
+setting without modifying the code, you can define `TEST' in a compiler
+option, like this:
+```erlc -DTEST my_module.erl'''
+
+See {@section Compilation control macros} for details about these
+macros.
+
+=== Avoiding compile-time dependency on EUnit ===
+
+If you are distributing the source code for your application for other
+people to compile and run, you probably want to ensure that the code
+compiles even if EUnit is not available. Like the example in the
+previous section, you can put the following lines in a common header
+file:
+```-ifdef(TEST).
+ -include_lib("eunit/include/eunit.hrl").
+ -endif.'''
+and, of course, also make sure that you place all test code that uses
+EUnit macros within `-ifdef(TEST)' or `-ifdef(EUNIT)' sections.
+
+
+== EUnit macros ==
+
+Although all the functionality of EUnit is available even without the
+use of preprocessor macros, the EUnit header file defines a number of
+such macros in order to make it as easy as possible to write unit tests
+as compactly as possible and without getting too many details in the
+way.
+
+Except where explicitly stated, using EUnit macros will never introduce
+run-time dependencies on the EUnit library code, regardless of whether
+your code is compiled with testing enabled or disabled.
+
+<ul>
+<li>{@section Basic macros}</li>
+<li>{@section Compilation control macros}</li>
+<li>{@section Utility macros}</li>
+<li>{@section Assert macros}</li>
+<li>{@section Macros for running external commands}</li>
+<li>{@section Debugging macros}</li>
+</ul>
+
+=== Basic macros ===
+
+<dl>
+<dt>`_test(Expr)'</dt>
+<dd>Turns `Expr' into a "test object", by wrapping it in a
+fun-expression and a source line number. Technically, this is the same
+as `{?LINE, fun () -> (Expr) end}'.
+</dd>
+</dl>
+
+=== Compilation control macros ===
+
+<dl>
+<dt>`EUNIT'</dt>
+<dd>This macro is always defined to `true' whenever EUnit is enabled at
+compile time. This is typically used to place testing code within
+conditional compilation, as in:
+```-ifdef(EUNIT).
+ % test code here
+ ...
+ -endif.'''
+e.g., to ensure that the code can be compiled without including the
+EUnit header file, when testing is disabled. See also the macros `TEST'
+and `NOTEST'.
+</dd>
+
+<dt>`EUNIT_NOAUTO'</dt>
+<dd>If this macro is defined, the automatic exporting or stripping of
+test functions will be disabled.
+</dd>
+
+<dt>`TEST'</dt>
+<dd>This macro is always defined (to `true', unless previously defined
+by the user to have another value) whenever EUnit is enabled at compile
+time. This can be used to place testing code within conditional
+compilation; see also the macros `NOTEST' and `EUNIT'.
+
+For testing code that is strictly dependent on EUnit, it may be
+preferable to use the `EUNIT' macro for this purpose, while for code
+that uses more generic testing conventions, using the `TEST' macro may
+be preferred.
+
+The `TEST' macro can also be used to override the `NOTEST' macro. If
+`TEST' is defined <em>before</em> the EUnit header file is
+included (even if `NOTEST' is also defined), then the code will be
+compiled with EUnit enabled.
+</dd>
+
+<dt>`NOTEST'</dt>
+<dd>This macro is always defined (to `true', unless previously defined
+by the user to have another value) whenever EUnit is <em>disabled</em>
+at compile time. (Compare the `TEST' macro.)
+
+This macro can also be used for conditional compilation, but is more
+typically used to disable testing: If `NOTEST' is defined
+<em>before</em> the EUnit header file is included, and `TEST'
+is <em>not</em> defined, then the code will be compiled with EUnit
+disabled. See also {@section Disabling testing}.
+</dd>
+
+<dt>`NOASSERT'</dt>
+<dd>If this macro is defined, the assert macros will have no effect,
+when testing is also disabled. See {@section Assert macros}. When
+testing is enabled, the assert macros are always enabled automatically
+and cannot be disabled.
+</dd>
+
+<dt>`ASSERT'</dt>
+<dd>If this macro is defined, it overrides the NOASSERT macro, forcing
+the assert macros to always be enabled regardless of other settings.
+</dd>
+
+<dt>`NODEBUG'</dt>
+<dd>If this macro is defined, the debugging macros will have no effect.
+See {@section Debugging macros}. `NODEBUG' also implies `NOASSERT',
+unless testing is enabled.
+</dd>
+
+<dt>`DEBUG'</dt>
+<dd>If this macro is defined, it overrides the NODEBUG macro, forcing
+the debugging macros to be enabled.
+</dd>
+</dl>
+
+=== Utility macros ===
+
+The following macros can make tests more compact and readable:
+
+<dl>
+<dt>`LET(Var,Arg,Expr)'</dt>
+<dd>Creates a local binding `Var = Arg' in `Expr'. (This is the same as
+`(fun(Var)->(Expr)end)(Arg)'.) Note that the binding is not exported
+outside of `Expr', and that within `Expr', this binding of `Var' will
+shadow any binding of `Var' in the surrounding scope.
+</dd>
+<dt>`IF(Cond,TrueCase,FalseCase)'</dt>
+<dd>Evaluates `TrueCase' if `Cond' evaluates to `true', or otherwise
+evaluates `FalseCase' if `Cond' evaluates to `false'. (This is the same
+as `(case (Cond) of true->(TrueCase); false->(FalseCase) end)'.) Note
+that it is an error if `Cond' does not yield a boolean value.
+</dd>
+</dl>
+
+=== Assert macros ===
+
+(Note that these macros also have corresponding forms which start with
+an "`_'" (underscore) character, as in `?_assert(BoolExpr)', that create
+a "test object" instead of performing the test immediately. This is
+equivalent to writing `?_test(assert(BoolExpr))', etc.)
+
+If the macro `NOASSERT' is defined before the EUnit header file is
+included, these macros have no effect when testing is also disabled; see
+{@section Compilation control macros} for details.
+
+<dl>
+<dt>`assert(BoolExpr)'</dt>
+<dd>Evaluates the expression `BoolExpr', if testing is enabled. Unless
+the result is `true', an informative exception will be generated. If
+there is no exception, the result of the macro expression is the atom
+`ok', and the value of `BoolExpr' is discarded. If testing is disabled,
+the macro will not generate any code except the atom `ok', and
+`BoolExpr' will not be evaluated.
+
+Typical usage:
+```?assert(f(X, Y) =:= [])'''
+
+The `assert' macro can be used anywhere in a program, not just in unit
+tests, to check pre/postconditions and invariants. For example:
+```some_recursive_function(X, Y, Z) ->
+ ?assert(X + Y > Z),
+ ...'''
+</dd>
+<dt>`assertNot(BoolExpr)'</dt>
+<dd>Equivalent to `assert(not (BoolExpr))'.
+</dd>
+<dt>`assertMatch(GuardedPattern, Expr)'</dt>
+<dd>Evaluates `Expr' and matches the result against `GuardedPattern', if
+testing is enabled. If the match fails, an informative exception will be
+generated; see the `assert' macro for further details. `GuardedPattern'
+can be anything that you can write on the left hand side of the `->'
+symbol in a case-clause, except that it cannot contain comma-separated
+guard tests.
+
+The main reason for using `assertMatch' also for simple matches, instead
+of matching with `=', is that it produces more detailed error messages.
+
+Examples:
+```?assertMatch({found, {fred, _}}, lookup(bloggs, Table))'''
+```?assertMatch([X|_] when X > 0, binary_to_list(B))'''
+</dd>
+<dt>`assertEqual(Expect, Expr)'</dt>
+<dd>Evaluates the expressions `Expect' and `Expr' and compares the
+results for equality, if testing is enabled. If the values are not
+equal, an informative exception will be generated; see the `assert'
+macro for further details.
+
+`assertEqual' is more suitable than than `assertMatch' when the
+left-hand side is a computed value rather than a simple pattern, and
+gives more details than `?assert(Expect =:= Expr)'.
+
+Examples:
+```?assertEqual("b" ++ "a", lists:reverse("ab"))'''
+```?assertEqual(foo(X), bar(Y))'''
+</dd>
+<dt>`assertException(ClassPattern, TermPattern, Expr)'</dt>
+<dt>`assertError(TermPattern, Expr)'</dt>
+<dt>`assertExit(TermPattern, Expr)'</dt>
+<dt>`assertThrow(TermPattern, Expr)'</dt>
+<dd>Evaluates `Expr', catching any exception and testing that it matches
+the expected `ClassPattern:TermPattern'. If the match fails, or if no
+exception is thrown by `Expr', an informative exception will be
+generated; see the `assert' macro for further details. The
+`assertError', `assertExit', and `assertThrow' macros, are equivalent to
+using `assertException' with a `ClassPattern' of `error', `exit', or
+`throw', respectively.
+
+Examples:
+```?assertError(badarith, X/0)'''
+```?assertExit(normal, exit(normal))'''
+```?assertException(throw, {not_found,_}, throw({not_found,42}))'''
+</dd>
+</dl>
+
+=== Macros for running external commands ===
+
+Keep in mind that external commands are highly dependent on the
+operating system. You can use the standard library function `os:type()'
+in test generator functions, to produce different sets of tests
+depending on the current operating system.
+
+Note: these macros introduce a run-time dependency on the EUnit library
+code, if compiled with testing enabled.
+
+<dl>
+<dt>`assertCmd(CommandString)'</dt>
+<dd>Runs `CommandString' as an external command, if testing is enabled.
+Unless the returned status value is 0, an informative exception will be
+generated. If there is no exception, the result of the macro expression
+is the atom `ok'. If testing is disabled, the macro will not generate
+any code except the atom `ok', and the command will not be executed.
+
+Typical usage:
+```?assertCmd("mkdir foo")'''
+</dd>
+<dt>`assertCmdStatus(N, CommandString)'</dt>
+<dd>Like the `assertCmd(CommandString)' macro, but generates an
+exception unless the returned status value is `N'.
+</dd>
+<dt>`assertCmdOutput(Text, CommandString)'</dt>
+<dd>Runs `CommandString' as an external command, if testing is enabled.
+Unless the output produced by the command exactly matches the specified
+string `Text', an informative exception will be generated. (Note that
+the output is normalized to use a single LF character as line break on
+all platforms.) If there is no exception, the result of the macro
+expression is the atom `ok'. If testing is disabled, the macro will not
+generate any code except the atom `ok', and the command will not be
+executed.
+</dd>
+<dt>`cmd(CommandString)'</dt>
+<dd>Runs `CommandString' as an external command. Unless the returned
+status value is 0 (indicating success), an informative exception will be
+generated; otherwise, the result of the macro expression is the output
+produced by the command, as a flat string. The output is normalized to
+use a single LF character as line break on all platforms.
+
+This macro is useful in the setup and cleanup sections of fixtures,
+e.g., for creating and deleting files or perform similar operating
+system specific tasks, to make sure that the test system is informed of
+any failures.
+
+A Unix-specific example:
+```{setup,
+ fun () -> ?cmd("mktemp") end,
+ fun (FileName) -> ?cmd("rm " ++ FileName) end,
+ ...}'''
+</dd>
+</dl>
+
+=== Debugging macros ===
+
+To help with debugging, EUnit defines several useful macros for printing
+messages directly to the console (rather than to the standard output).
+Furthermore, these macros all use the same basic format, which includes
+the file and line number where they occur, making it possible in some
+development environments (e.g., when running Erlang in an Emacs buffer)
+to simply click on the message and jump directly to the corresponding
+line in the code.
+
+If the macro `NODEBUG' is defined before the EUnit header file is
+included, these macros have no effect; see
+{@section Compilation control macros} for details.
+
+<dl>
+<dt>`debugHere'</dt>
+<dd>Just prints a marker showing the current file and line number. Note
+that this is an argument-less macro. The result is always `ok'.</dd>
+<dt>`debugMsg(Text)'</dt>
+<dd>Outputs the message `Text' (which can be a plain string, an IO-list,
+or just an atom). The result is always `ok'.</dd>
+<dt>`debugFmt(FmtString, Args)'</dt>
+<dd>This formats the text like `io:format(FmtString, Args)' and outputs
+it like `debugMsg'. The result is always `ok'.</dd>
+<dt>`debugVal(Expr)'</dt>
+<dd>Prints both the source code for `Expr' and its current value. E.g.,
+`?debugVal(f(X))' might be displayed as "`f(X) = 42'". (Large terms are
+shown truncated.) The result is always the value of `Expr', so this
+macro can be wrapped around any expression to display its value when
+the code is compiled with debugging enabled.</dd>
+<dt>`debugTime(Text,Expr)'</dt>
+<dd>Prints `Text' and the wall clock time for evaluation of `Expr'. The
+result is always the value of `Expr', so this macro can be wrapped
+around any expression to show its run time when the code is compiled
+with debugging enabled. For example, `List1 = ?debugTime("sorting",
+lists:sort(List))' might show as "`sorting: 0.015 s'".</dd>
+
+</dl>
+
+
+== EUnit test representation ==
+
+The way EUnit represents tests and test sets as data is flexible,
+powerful, and concise. This section describes the representation in
+detail.
+
+<ul>
+<li>{@section Simple test objects}</li>
+<li>{@section Test sets and deep lists}</li>
+<li>{@section Titles}</li>
+<li>{@section Primitives}</li>
+<li>{@section Control}</li>
+<li>{@section Fixtures}</li>
+<li>{@section Lazy generators}</li>
+</ul>
+
+=== Simple test objects ===
+
+A <em>simple test object</em> is one of the following:
+<ul>
+ <li>A nullary functional value (i.e., a fun that takes zero
+ arguments). Examples:
+```fun () -> ... end'''
+```fun some_function/0'''
+```fun some_module:some_function/0'''
+ </li>
+ <li>A pair of atoms `{ModuleName, FunctionName}', referring to the
+ function `ModuleName:FunctionName/0'</li>
+ <li>A pair `{LineNumber, SimpleTest}', where `LineNumber' is a
+ nonnegative integer and `SimpleTest' is another simple test
+ object. `LineNumber' should indicate the source line of the test.
+ Pairs like this are usually only created via `?_test(...)' macros;
+ see {@section Basic macros}.</li>
+</ul>
+In brief, a simple test object consists of a single function that takes
+no arguments (possibly annotated with some additional metadata, i.e., a
+line number). Evaluation of the function either <em>succeeds</em>, by
+returning some value (which is ignored), or <em>fails</em>, by throwing
+an exception.
+
+=== Test sets and deep lists ===
+
+A test set can be easily created by placing a sequence of test objects
+in a list. If `T_1', ..., `T_N' are individual test objects, then `[T_1,
+..., T_N]' is a test set consisting of those objects (in that order).
+
+Test sets can be joined in the same way: if `S_1', ..., `S_K' are test
+sets, then `[S_1, ..., S_K]' is also a test set, where the tests of
+`S_i' are ordered before those of `S_(i+1)', for each subset `S_i'.
+
+Thus, the main representation of test sets is <em>deep lists</em>, and
+a simple test object can be viewed as a test set containing only a
+single test; there is no difference between `T' and `[T]'.
+
+A module can also be used to represent a test set; see `ModuleName'
+under {@section Primitives} below.
+
+=== Titles ===
+
+Any test or test set `T' can be annotated with a title, by wrapping it
+in a pair `{Title, T}', where `Title' is a string. For convenience, any
+test which is normally represented using a tuple can simply be given a
+title string as the first element, i.e., writing `{"The Title", ...}'
+instead of adding an extra tuple wrapper as in `{"The Title", {...}}'.
+
+
+=== Primitives ===
+
+The following are primitives, which do not contain other test sets as
+arguments:
+<dl>
+<dt>`ModuleName::atom()'
+</dt>
+<dd>A single atom represents a module name, and is equivalent to
+`{module, ModuleName}'. This is often used as in the call
+`eunit:test(some_module)'.
+</dd>
+<dt>`{module, ModuleName::atom()}'
+</dt>
+<dd>This composes a test set from the exported test functions of the
+named module, i.e., those functions with arity zero whose names end
+with `_test' or `_test_'. Basically, the `..._test()' functions become
+simple tests, while the `..._test_()' functions become generators.
+
+In addition, EUnit will also look for another module whose name is
+`ModuleName' plus the suffix `_tests', and if it exists, all the tests
+from that module will also be added. (If `ModuleName' already contains
+the suffix `_tests', this is not done.) E.g., the specification
+`{module, mymodule}' will run all tests in the modules `mymodule' and
+`mymodule_tests'. Typically, the `_tests' module should only contain
+test cases that use the public interface of the main module (and no
+other code).
+</dd>
+<dt>`{application, AppName::atom(), Info::list()}'
+</dt>
+<dd>This is a normal Erlang/OTP application descriptor, as found in an
+ `.app' file. The resulting test set consists of the modules listed in
+ the `modules' entry in `Info'.
+</dd>
+<dt>`{application, AppName::atom()}'
+</dt>
+<dd>This creates a test set from all the modules belonging to the
+specified application, by consulting the application's `.app' file
+(see `{file, FileName}'), or if no such file exists, by testing all
+object files in the application's <tt>ebin</tt>-directory (see `{dir,
+Path}'); if that does not exist, the `code:lib_dir(AppName)' directory
+is used.
+</dd>
+<dt>`Path::string()'
+</dt>
+<dd>A single string represents the path of a file or directory, and is
+equivalent to `{file, Path}', or `{dir, Path}', respectively, depending
+on what `Path' refers to in the file system.
+</dd>
+<dt>`{file, FileName::string()}'
+</dt>
+<dd>If `FileName' has a suffix that indicates an object file (`.beam'),
+EUnit will try to reload the module from the specified file and test it.
+Otherwise, the file is assumed to be a text file containing test
+specifications, which will be read using the standard library function
+`file:path_consult/2'.
+
+Unless the file name is absolute, the file is first searched for
+relative to the current directory, and then using the normal search path
+(`code:get_path()'). This means that the names of typical "app" files
+can be used directly, without a path, e.g., `"mnesia.app"'.
+</dd>
+<dt>`{dir, Path::string()}'
+</dt>
+<dd>This tests all object files in the specified directory, as if they
+had been individually specified using `{file, FileName}'.
+</dd>
+<dt>`{generator, GenFun::(() -> Tests)}'
+</dt>
+<dd>The generator function `GenFun' is called to produce a test
+set.
+</dd>
+<dt>`{generator, ModuleName::atom(), FunctionName::atom()}'
+</dt>
+<dd>The function `ModuleName:FunctionName()' is called to produce a test
+set.
+</dd>
+<dt>`{with, X::any(), [AbstractTestFun::((any()) -> any())]}'
+</dt>
+<dd>Distributes the value `X' over the unary functions in the list,
+turning them into nullary test functions. An `AbstractTestFun' is like
+an ordinary test fun, but takes one argument instead of zero - it's
+basically missing some information before it can be a proper test. In
+practice, `{with, X, [F_1, ..., F_N]}' is equivalent to `[fun () ->
+F_1(X) end, ..., fun () -> F_N(X) end]'. This is particularly useful if
+your abstract test functions are already implemented as proper
+functions: `{with, FD, [fun filetest_a/1, fun filetest_b/1, fun
+filetest_c/1]}' is equivalent to `[fun () -> filetest_a(FD) end, fun ()
+-> filetest_b(FD) end, fun () -> filetest_c(FD) end]', but much more
+compact. See also {@section Fixtures}, below.
+</dd>
+</dl>
+
+=== Control ===
+
+The following representations control how and where tests are executed:
+<dl>
+<dt>`{spawn, Tests}'</dt>
+<dd>Runs the specified tests in a separate subprocess, while the current
+test process waits for it to finish. This is useful for tests that need
+a fresh, isolated process state. (Note that EUnit always starts at least
+one such a subprocess automatically; tests are never executed by the
+caller's own process.)</dd>
+<dt>`{spawn, Node::atom(), Tests}'</dt>
+<dd>Like `{spawn, Tests}', but runs the specified tests on the given
+Erlang node.</dd>
+<dt>`{timeout, Time::number(), Tests}'</dt>
+<dd>Runs the specified tests under the given timeout. Time is in
+seconds; e.g., 60 means one minute and 0.1 means 1/10th of a second. If
+the timeout is exceeded, the unfinished tests will be forced to
+terminate. Note that if a timeout is set around a fixture, it includes
+the time for setup and cleanup, and if the timeout is triggered, the
+entire fixture is abruptly terminated (without running the
+cleanup).</dd>
+<dt>`{inorder, Tests}'</dt>
+<dd>Runs the specified tests in strict order. Also see `{inparallel,
+Tests}'. By default, tests are neither marked as `inorder' or
+`inparallel', but may be executed as the test framework chooses.</dd>
+<dt>`{inparallel, Tests}'</dt>
+<dd>Runs the specified tests in parallel (if possible). Also see
+`{inorder, Tests}'.</dd>
+<dt>`{inparallel, N::integer(), Tests}'</dt>
+<dd>Like `{inparallel, Tests}', but running no more than `N' subtests
+simultaneously.</dd>
+</dl>
+
+=== Fixtures ===
+
+A "fixture" is some state that is necessary for a particular set of
+tests to run. EUnit's support for fixtures makes it easy to set up such
+state locally for a test set, and automatically tear it down again when
+the test set is finished, regardless of the outcome (success, failures,
+timeouts, etc.).
+
+To make the descriptions simpler, we first list some definitions:
+<center>
+<table border="0" cellspacing="4">
+<tr>
+<td>`Setup'</td><td>`() -> (R::any())'</td>
+</tr>
+<tr>
+<td>`SetupX'</td><td>`(X::any()) -> (R::any())'</td>
+</tr>
+<tr>
+<td>`Cleanup'</td><td>`(R::any()) -> any()'</td>
+</tr>
+<tr>
+<td>`CleanupX'</td><td>`(X::any(), R::any()) -> any()'</td>
+</tr>
+<tr>
+<td>`Instantiator'</td><td>`((R::any()) -> Tests) | {with, [AbstractTestFun::((any()) -> any())]}'</td>
+</tr>
+<tr>
+<td>`Where'</td><td>`local | spawn | {spawn, Node::atom()}'</td>
+</tr>
+</table>
+</center>
+(these are explained in more detail further below.)
+
+The following representations specify fixture handling for test sets:
+<dl>
+<dt>`{setup, Setup, Tests | Instantiator}'</dt>
+<dt>`{setup, Setup, Cleanup, Tests | Instantiator}'</dt>
+<dt>`{setup, Where, Setup, Tests | Instantiator}'</dt>
+<dt>`{setup, Where, Setup, Cleanup, Tests | Instantiator}'</dt>
+<dd>`setup' sets up a single fixture for running all of the specified
+tests, with optional teardown afterwards. The arguments are described in
+detail below.
+</dd>
+<dt>`{node, Node::atom(), Tests | Instantiator}'</dt>
+<dt>`{node, Node::atom(), Args::string(), Tests | Instantiator}'</dt>
+<dd>`node' is like `setup', but with a built-in behaviour: it starts a
+slave node for the duration of the tests. The atom `Node' should have
+the format `[email protected]', and `Args' are the optional
+arguments to the new node; see `slave:start_link/3' for details.
+</dd>
+<dt>`{foreach, Where, Setup, Cleanup, [Tests | Instantiator]}'</dt>
+<dt>`{foreach, Setup, Cleanup, [Tests | Instantiator]}'</dt>
+<dt>`{foreach, Where, Setup, [Tests | Instantiator]}'</dt>
+<dt>`{foreach, Setup, [Tests | Instantiator]}'</dt>
+<dd>`foreach' is used to set up a fixture and optionally tear it down
+afterwards, repeated for each single one of the specified test sets.
+</dd>
+<dt>`{foreachx, Where, SetupX, CleanupX,
+ Pairs::[{X::any(), ((X::any(), R::any()) -> Tests)}]}'</dt>
+<dt>`{foreachx, SetupX, CleanupX, Pairs}'</dt>
+<dt>`{foreachx, Where, SetupX, Pairs}'</dt>
+<dt>`{foreachx, SetupX, Pairs}'</dt>
+<dd>`foreachx' is like `foreach', but uses a list of pairs, each
+containing an extra argument `X' and an extended instantiator function.
+</dd>
+</dl>
+
+A `Setup' function is executed just before any of the specified tests
+are run, and a `Cleanup' function is executed when no more of the
+specified tests will be run, regardless of the reason. A `Setup'
+function takes no argument, and returns some value which will be passed
+as it is to the `Cleanup' function. A `Cleanup' function should do
+whatever necessary and return some arbitrary value, such as the atom
+`ok'. (`SetupX' and `CleanupX' functions are similar, but receive one
+additional argument: some value `X', which depends on the context.) When
+no `Cleanup' function is specified, a dummy function is used which has
+no effect.
+
+An `Instantiator' function receives the same value as the `Cleanup'
+function, i.e., the value returned by the `Setup' function. It should
+then behave much like a generator (see {@section Primitives}), and
+return a test set whose tests have been <em>instantiated</em> with the
+given value. A special case is the syntax `{with, [AbstractTestFun]}'
+which represents an instantiator function that distributes the value
+over a list of unary functions; see {@section Primitives}: `{with, X,
+[...]}' for more details.
+
+A `Where' term controls how the specified tests are executed. The
+default is `spawn', which means that the current process handles the
+setup and teardown, while the tests are executed in a subprocess.
+`{spawn, Node}' is like `spawn', but runs the subprocess on the
+specified node. `local' means that the current process will handle both
+setup/teardown and running the tests - the drawback is that if a test
+times out so that the process is killed, the <em>cleanup will not be
+performed</em>; hence, avoid this for persistent fixtures such as file
+operations. In general, 'local' should only be used when:
+<ul>
+ <li>the setup/teardown needs to be executed by the process that will
+ run the tests;</li>
+ <li>no further teardown needs to be done if the process is killed
+ (i.e., no state outside the process was affected by the setup)</li>
+</ul>
+
+=== Lazy generators ===
+
+Sometimes, it can be convenient not to produce the whole set of test
+descriptions before the testing begins; for example, if you want to
+generate a huge amount of tests that would take up too much space to
+keep in memory all at once.
+
+It is fairly easy to write a generator which, each time it is called,
+either produces an empty list if it is done, or otherwise produces a
+list containing a single test case plus a new generator which will
+produce the rest of the tests. This demonstrates the basic pattern:
+
+```lazy_test_() ->
+ lazy_gen(10000).
+
+ lazy_gen(N) ->
+ {generator,
+ fun () ->
+ if N > 0 ->
+ [?_test(...)
+ | lazy_gen(N-1)];
+ true ->
+ []
+ end
+ end}.'''
+
+When EUnit traverses the test representation in order to run the tests,
+the new generator will not be called to produce the next test until the
+previous test has been executed.
+
+Note that it is easiest to write this kind of recursive generator using
+a help function, like the `lazy_gen/1' function above. It can also be
+written using a recursive fun, if you prefer to not clutter your
+function namespace and are comfortable with writing that kind of code.
diff --git a/lib/eunit/doc/packages-frame.html b/lib/eunit/doc/packages-frame.html
new file mode 100644
index 0000000000..52b45534f5
--- /dev/null
+++ b/lib/eunit/doc/packages-frame.html
@@ -0,0 +1,11 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
+<html>
+<head>
+<title>The eunit application</title>
+<link rel="stylesheet" type="text/css" href="stylesheet.css" title="EDoc">
+</head>
+<body bgcolor="white">
+<h2 class="indextitle">Packages</h2>
+<table width="100%" border="0" summary="list of packages"></table>
+</body>
+</html> \ No newline at end of file
diff --git a/lib/eunit/doc/pdf/.gitignore b/lib/eunit/doc/pdf/.gitignore
new file mode 100644
index 0000000000..e69de29bb2
--- /dev/null
+++ b/lib/eunit/doc/pdf/.gitignore
diff --git a/lib/eunit/doc/src/Makefile b/lib/eunit/doc/src/Makefile
new file mode 100644
index 0000000000..faf2f9a847
--- /dev/null
+++ b/lib/eunit/doc/src/Makefile
@@ -0,0 +1,174 @@
+#<copyright>
+# <year>2004-2007</year>
+# <holder>Ericsson AB, All Rights Reserved</holder>
+#</copyright>
+#<legalnotice>
+# The contents of this file are subject to the Erlang Public License,
+# Version 1.1, (the "License"); you may not use this file except in
+# compliance with the License. You should have received a copy of the
+# Erlang Public License along with this software. If not, it can be
+# retrieved online at http://www.erlang.org/.
+#
+# Software distributed under the License is distributed on an "AS IS"
+# basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+# the License for the specific language governing rights and limitations
+# under the License.
+#
+# The Initial Developer of the Original Code is Ericsson AB.
+#</legalnotice>
+#
+include $(ERL_TOP)/make/target.mk
+include $(ERL_TOP)/make/$(TARGET)/otp.mk
+
+# ----------------------------------------------------
+# Application version
+# ----------------------------------------------------
+include ../../vsn.mk
+VSN=$(EUNIT_VSN)
+APPLICATION=eunit
+
+# ----------------------------------------------------
+# Release directory specification
+# ----------------------------------------------------
+RELSYSDIR = $(RELEASE_PATH)/lib/$(APPLICATION)-$(VSN)
+
+# ----------------------------------------------------
+# Help application directory specification
+# ----------------------------------------------------
+
+EDOC_DIR = $(ERL_TOP)/lib/edoc
+SYNTAX_TOOLS_DIR = $(ERL_TOP)/lib/syntax_tools
+
+# ----------------------------------------------------
+# Target Specs
+# ----------------------------------------------------
+EUNIT_DIR = $(ERL_TOP)/lib/eunit/src
+EUNIT_INC_DIR = $(ERL_TOP)/lib/eunit/include
+
+EUNIT_MODULES = \
+ eunit eunit_surefire
+
+XML_APPLICATION_FILES = ref_man.xml
+
+XML_REF3_FILES = $(EUNIT_MODULES:=.xml)
+
+XML_PART_FILES = \
+ part.xml \
+ part_notes.xml
+
+XML_CHAPTER_FILES = \
+ chapter.xml
+
+XML_NOTES_FILES = \
+ notes.xml
+
+HTML_EXAMPLE_FILES =
+
+HTML_STYLESHEET_FILES = \
+ ../stylesheet.css
+
+BOOK_FILES = book.xml
+
+XML_FILES = \
+ $(BOOK_FILES) $(XML_CHAPTER_FILES) $(XML_NOTES_FILES) \
+ $(XML_PART_FILES) $(XML_REF3_FILES) $(XML_APPLICATION_FILES)
+
+
+# ----------------------------------------------------
+INFO_FILE = ../../info
+
+HTML_FILES = $(XML_APPLICATION_FILES:%.xml=$(HTMLDIR)/%.html) \
+ $(XML_PART_FILES:%.xml=$(HTMLDIR)/%.html)
+
+
+EXTRA_FILES = \
+ $(DEFAULT_HTML_FILES) \
+ $(DEFAULT_GIF_FILES) \
+ $(XML_REF3_FILES:%.xml=$(HTMLDIR)/%.html) \
+ $(XML_REF6_FILES:%.xml=$(HTMLDIR)/%.html) \
+ $(XML_CHAPTER_FILES:%.xml=$(HTMLDIR)/%.html)\
+ $(XML_NOTES_FILES:%.xml=$(HTMLDIR)/%.html)
+
+MAN3_FILES = $(XML_REF3_FILES:%.xml=$(MAN3DIR)/%.3)
+MAN6_FILES = $(XML_REF6_FILES:%_app.xml=$(MAN6DIR)/%.6)
+
+HTML_REF_MAN_FILE = $(HTMLDIR)/index.html
+
+TOP_PDF_FILE = $(PDFDIR)/$(APPLICATION)-$(VSN).pdf
+
+
+# ----------------------------------------------------
+# FLAGS
+# ----------------------------------------------------
+XML_FLAGS +=
+DVIPS_FLAGS +=
+
+# ----------------------------------------------------
+# Targets
+# ----------------------------------------------------
+$(HTMLDIR)/%.gif: %.gif
+ $(INSTALL_DATA) $< $@
+
+docs: pdf html man
+
+$(TOP_PDF_FILE): $(XML_FILES)
+
+pdf: $(TOP_PDF_FILE)
+
+html: gifs $(HTML_REF_MAN_FILE)
+
+
+man: $(MAN3_FILES)
+
+gifs: $(GIF_FILES:%=$(HTMLDIR)/%)
+
+$(XML_REF3_FILES):
+ docb_gen -def vsn $(EUNIT_VSN) -includes $(EUNIT_INC_DIR) $(EUNIT_DIR)/$(@:%.xml=%.erl)
+
+$(XML_CHAPTER_FILES):
+ docb_gen -chapter -def vsn $(EUNIT_VSN) ../overview.edoc
+
+
+info:
+ @echo "XML_PART_FILES: $(XML_PART_FILES)"
+ @echo "XML_APPLICATION_FILES: $(XML_APPLICATION_FILES)"
+ @echo "EUNIT_XML_FILES: $(EUNIT_XML_FILES)"
+ @echo "EUNIT_MODULES: $(EUNIT_MODULES)"
+ @echo "HTML_FILES: $(HTML_FILES)"
+ @echo "HTMLDIR: $(HTMLDIR)"
+ @echo "DEFAULT_GIF_FILES: $(DEFAULT_GIF_FILES)"
+ @echo "DEFAULT_HTML_FILES: $(DEFAULT_HTML_FILES)"
+ @echo "EXTRA_FILES: $(EXTRA_FILES)"
+
+xml: $(XML_REF3_FILES) $(XML_CHAPTER_FILES)
+
+debug opt:
+
+clean clean_docs:
+ rm -rf $(HTMLDIR)/*
+ rm -f $(MAN3DIR)/*
+ rm -f $(XML_CHAPTER_FILES) *.html
+ rm -f $(TOP_PDF_FILE) $(TOP_PDF_FILE:%.pdf=%.fo)
+ rm -f errs core *~
+
+
+# ----------------------------------------------------
+# Release Target
+# ----------------------------------------------------
+include $(ERL_TOP)/make/otp_release_targets.mk
+
+release_docs_spec: docs
+ $(INSTALL_DIR) $(RELSYSDIR)/doc/pdf
+ $(INSTALL_DATA) $(TOP_PDF_FILE) $(RELSYSDIR)/doc/pdf
+ $(INSTALL_DIR) $(RELSYSDIR)/doc/html
+ $(INSTALL_DATA) $(HTMLDIR)/* \
+ $(RELSYSDIR)/doc/html
+ $(INSTALL_DATA) $(INFO_FILE) $(RELSYSDIR)
+ $(INSTALL_DIR) $(RELEASE_PATH)/man/man3
+ $(INSTALL_DATA) $(MAN3DIR)/* $(RELEASE_PATH)/man/man3
+
+
+release_spec:
+
+
+
diff --git a/lib/eunit/doc/src/book.xml b/lib/eunit/doc/src/book.xml
new file mode 100644
index 0000000000..4444b1dd7a
--- /dev/null
+++ b/lib/eunit/doc/src/book.xml
@@ -0,0 +1,51 @@
+<?xml version="1.0" encoding="latin1" ?>
+<!DOCTYPE book SYSTEM "book.dtd">
+
+<book xmlns:xi="http://www.w3.org/2001/XInclude">
+ <header titlestyle="normal">
+ <copyright>
+ <year>2008</year>
+ <year>2008</year>
+ <holder>Ericsson AB, All Rights Reserved</holder>
+ </copyright>
+ <legalnotice>
+ The contents of this file are subject to the Erlang Public License,
+ Version 1.1, (the "License"); you may not use this file except in
+ compliance with the License. You should have received a copy of the
+ Erlang Public License along with this software. If not, it can be
+ retrieved online at http://www.erlang.org/.
+
+ Software distributed under the License is distributed on an "AS IS"
+ basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+ the License for the specific language governing rights and limitations
+ under the License.
+
+ The Initial Developer of the Original Code is Ericsson AB.
+ </legalnotice>
+
+ <title>EUnit</title>
+ <prepared>Richard Carlsson, Micka�l R�mond</prepared>
+ <docno></docno>
+ <date>2008-10-29</date>
+ <rev>2.0</rev>
+ <file>book.xml</file>
+ </header>
+ <insidecover>
+ </insidecover>
+ <pagetext>EUnit Application</pagetext>
+ <preamble>
+ <contents level="2"></contents>
+ </preamble>
+ <parts lift="no">
+ <xi:include href="part.xml"/>
+ </parts>
+ <applications>
+ <xi:include href="ref_man.xml"/>
+ </applications>
+ <releasenotes>
+ <xi:include href="notes.xml"/>
+ </releasenotes>
+ <listofterms></listofterms>
+ <index></index>
+</book>
+
diff --git a/lib/eunit/doc/src/fascicules.xml b/lib/eunit/doc/src/fascicules.xml
new file mode 100644
index 0000000000..bbe1e6c5cc
--- /dev/null
+++ b/lib/eunit/doc/src/fascicules.xml
@@ -0,0 +1,18 @@
+<?xml version="1.0" encoding="latin1" ?>
+<!DOCTYPE fascicules SYSTEM "fascicules.dtd">
+
+<fascicules>
+ <fascicule file="part" href="part_frame.html" entry="no">
+ User's Guide
+ </fascicule>
+ <fascicule file="ref_man" href="ref_man_frame.html" entry="yes">
+ Reference Manual
+ </fascicule>
+ <fascicule file="part_notes" href="part_notes_frame.html" entry="no">
+ Release Notes
+ </fascicule>
+ <fascicule file="" href="../../../../doc/print.html" entry="no">
+ Off-Print
+ </fascicule>
+</fascicules>
+
diff --git a/lib/eunit/doc/src/make.dep b/lib/eunit/doc/src/make.dep
new file mode 100644
index 0000000000..d68f888403
--- /dev/null
+++ b/lib/eunit/doc/src/make.dep
@@ -0,0 +1,19 @@
+# ----------------------------------------------------
+# >>>> Do not edit this file <<<<
+# This file was automaticly generated by
+# /home/otp/bin/docdepend
+# ----------------------------------------------------
+
+
+# ----------------------------------------------------
+# TeX files that the DVI file depend on
+# ----------------------------------------------------
+
+book.dvi: book.tex chapter.tex eunit.tex part.tex ref_man.tex
+
+# ----------------------------------------------------
+# Source inlined when transforming from source to LaTeX
+# ----------------------------------------------------
+
+book.tex: ref_man.xml
+
diff --git a/lib/eunit/doc/src/notes.xml b/lib/eunit/doc/src/notes.xml
new file mode 100644
index 0000000000..ac86448fab
--- /dev/null
+++ b/lib/eunit/doc/src/notes.xml
@@ -0,0 +1,153 @@
+<?xml version="1.0" encoding="latin1" ?>
+<!DOCTYPE chapter SYSTEM "chapter.dtd">
+
+<chapter>
+ <header>
+ <copyright>
+ <year>2008</year>
+ <year>2008</year>
+ <holder>Ericsson AB, All Rights Reserved</holder>
+ </copyright>
+ <legalnotice>
+ The contents of this file are subject to the Erlang Public License,
+ Version 1.1, (the "License"); you may not use this file except in
+ compliance with the License. You should have received a copy of the
+ Erlang Public License along with this software. If not, it can be
+ retrieved online at http://www.erlang.org/.
+
+ Software distributed under the License is distributed on an "AS IS"
+ basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+ the License for the specific language governing rights and limitations
+ under the License.
+
+ The Initial Developer of the Original Code is Ericsson AB.
+ </legalnotice>
+
+ <title>EUnit Release Notes</title>
+ <prepared>otp_appnotes</prepared>
+ <docno>nil</docno>
+ <date>nil</date>
+ <rev>nil</rev>
+ <file>notes.xml</file>
+ </header>
+ <p>This document describes the changes made to the EUnit application.</p>
+
+<section><title>Eunit 2.1.4</title>
+
+ <section><title>Improvements and New Features</title>
+ <list>
+ <item>
+ <p>
+ The documentation is now built with open source tools
+ (xsltproc and fop) that exists on most platforms. One
+ visible change is that the frames are removed.</p>
+ <p>
+ Own Id: OTP-8201</p>
+ </item>
+ </list>
+ </section>
+
+</section>
+
+<section><title>Eunit 2.1.3</title>
+
+ <section><title>Improvements and New Features</title>
+ <list>
+ <item>
+ <p>
+ Miscellaneous updates.</p>
+ <p>
+ Own Id: OTP-8190</p>
+ </item>
+ </list>
+ </section>
+
+</section>
+
+<section><title>Eunit 2.1.2</title>
+
+ <section><title>Improvements and New Features</title>
+ <list>
+ <item>
+ <p>
+ Miscellanous updates.</p>
+ <p>
+ Own Id: OTP-8038</p>
+ </item>
+ </list>
+ </section>
+
+</section>
+
+<section><title>Eunit 2.1.1</title>
+
+ <section><title>Fixed Bugs and Malfunctions</title>
+ <list>
+ <item>
+ <p>
+ eunit was broken in R13B.</p>
+ <p>
+ Own Id: OTP-8018</p>
+ </item>
+ </list>
+ </section>
+
+</section>
+
+<section><title>Eunit 2.1</title>
+
+ <section><title>Improvements and New Features</title>
+ <list>
+ <item>
+ <p>Mostly internal changes, in particular to the event
+ protocol; fixes problems with timeouts that could cause
+ eunit to hang, and makes it much easier to write new
+ reporting back-ends.</p>
+ <p>New "surefire" report backend for Maven and
+ Bamboo.</p>
+ <p>The test representation is no longer traversed twice
+ (the first pass was for enumeration only). This
+ eliminates some strange restrictions on how generators
+ can be written, but it also means that reports cannot be
+ quite as complete as before in the event of skipped
+ tests.</p>
+ <p>
+ Own Id: OTP-7964</p>
+ </item>
+ </list>
+ </section>
+
+</section>
+ <section>
+ <title>EUnit 2.0.1</title>
+
+ <section>
+ <title>Improvements and New Features</title>
+ <list type="bulleted">
+ <item>
+ <p>
+ Corrected the documentation build.
+ </p>
+ </item>
+ </list>
+ </section>
+ </section>
+
+
+ <section>
+ <title>EUnit 2.0</title>
+
+ <section>
+ <title>Improvements and New Features</title>
+ <list type="bulleted">
+ <item>
+ <p>
+ This is the first version of EUnit (for unit testing of Erlang modules) by Richard Carlsson
+ released in OTP.
+ </p>
+ </item>
+ </list>
+ </section>
+ </section>
+</chapter>
+
diff --git a/lib/eunit/doc/src/part.xml b/lib/eunit/doc/src/part.xml
new file mode 100644
index 0000000000..e31a8d1b78
--- /dev/null
+++ b/lib/eunit/doc/src/part.xml
@@ -0,0 +1,38 @@
+<?xml version="1.0" encoding="latin1" ?>
+<!DOCTYPE part SYSTEM "part.dtd">
+
+<part xmlns:xi="http://www.w3.org/2001/XInclude">
+ <header>
+ <copyright>
+ <year>2008</year>
+ <year>2008</year>
+ <holder>Ericsson AB, All Rights Reserved</holder>
+ </copyright>
+ <legalnotice>
+ The contents of this file are subject to the Erlang Public License,
+ Version 1.1, (the "License"); you may not use this file except in
+ compliance with the License. You should have received a copy of the
+ Erlang Public License along with this software. If not, it can be
+ retrieved online at http://www.erlang.org/.
+
+ Software distributed under the License is distributed on an "AS IS"
+ basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+ the License for the specific language governing rights and limitations
+ under the License.
+
+ The Initial Developer of the Original Code is Ericsson AB.
+ </legalnotice>
+
+ <title>EUnit User's Guide</title>
+ <prepared></prepared>
+ <docno></docno>
+ <date></date>
+ <rev></rev>
+ </header>
+ <description>
+ <p>The <em>EUnit</em> application
+ contains modules with support for unit testing.</p>
+ </description>
+ <xi:include href="chapter.xml"/>
+</part>
+
diff --git a/lib/eunit/doc/src/part_notes.xml b/lib/eunit/doc/src/part_notes.xml
new file mode 100644
index 0000000000..28644f961b
--- /dev/null
+++ b/lib/eunit/doc/src/part_notes.xml
@@ -0,0 +1,39 @@
+<?xml version="1.0" encoding="latin1" ?>
+<!DOCTYPE part SYSTEM "part.dtd">
+
+<part xmlns:xi="http://www.w3.org/2001/XInclude">
+ <header>
+ <copyright>
+ <year>2008</year>
+ <year>2008</year>
+ <holder>Ericsson AB, All Rights Reserved</holder>
+ </copyright>
+ <legalnotice>
+ The contents of this file are subject to the Erlang Public License,
+ Version 1.1, (the "License"); you may not use this file except in
+ compliance with the License. You should have received a copy of the
+ Erlang Public License along with this software. If not, it can be
+ retrieved online at http://www.erlang.org/.
+
+ Software distributed under the License is distributed on an "AS IS"
+ basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+ the License for the specific language governing rights and limitations
+ under the License.
+
+ The Initial Developer of the Original Code is Ericsson AB.
+ </legalnotice>
+
+ <title>EUnit Release Notes</title>
+ <prepared></prepared>
+ <docno></docno>
+ <date>2008-10-29</date>
+ <rev></rev>
+
+ </header>
+ <description>
+ <p>The <em>EUnit</em> application
+ contains modules with support for unit testing</p>
+ </description>
+ <xi:include href="notes.xml"/>
+</part>
+
diff --git a/lib/eunit/doc/src/ref_man.xml b/lib/eunit/doc/src/ref_man.xml
new file mode 100644
index 0000000000..02feef5e97
--- /dev/null
+++ b/lib/eunit/doc/src/ref_man.xml
@@ -0,0 +1,40 @@
+<?xml version="1.0" encoding="latin1" ?>
+<!DOCTYPE application SYSTEM "application.dtd">
+
+<application xmlns:xi="http://www.w3.org/2001/XInclude">
+ <header>
+ <copyright>
+ <year>2008</year>
+ <year>2008</year>
+ <holder>Ericsson AB, All Rights Reserved</holder>
+ </copyright>
+ <legalnotice>
+ The contents of this file are subject to the Erlang Public License,
+ Version 1.1, (the "License"); you may not use this file except in
+ compliance with the License. You should have received a copy of the
+ Erlang Public License along with this software. If not, it can be
+ retrieved online at http://www.erlang.org/.
+
+ Software distributed under the License is distributed on an "AS IS"
+ basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+ the License for the specific language governing rights and limitations
+ under the License.
+
+ The Initial Developer of the Original Code is Ericsson AB.
+ </legalnotice>
+
+ <title>EUnit Reference Manual</title>
+ <prepared></prepared>
+ <docno></docno>
+ <date>2008-10-29</date>
+ <rev>2.0</rev>
+ <file>ref_man.xml</file>
+ </header>
+ <description>
+ <p>The <em>EUnit</em> application
+ contains modules with support for unit testing.</p>
+ </description>
+ <xi:include href="eunit.xml"/>
+ <xi:include href="eunit_surefire.xml"/>
+ </application>
+
diff --git a/lib/eunit/doc/stylesheet.css b/lib/eunit/doc/stylesheet.css
new file mode 100644
index 0000000000..e426a90483
--- /dev/null
+++ b/lib/eunit/doc/stylesheet.css
@@ -0,0 +1,55 @@
+/* standard EDoc style sheet */
+body {
+ font-family: Verdana, Arial, Helvetica, sans-serif;
+ margin-left: .25in;
+ margin-right: .2in;
+ margin-top: 0.2in;
+ margin-bottom: 0.2in;
+ color: #000000;
+ background-color: #ffffff;
+}
+h1,h2 {
+ margin-left: -0.2in;
+}
+div.navbar {
+ background-color: #add8e6;
+ padding: 0.2em;
+}
+h2.indextitle {
+ padding: 0.4em;
+ background-color: #add8e6;
+}
+h3.function,h3.typedecl {
+ background-color: #add8e6;
+ padding-left: 1em;
+}
+div.spec {
+ margin-left: 2em;
+ background-color: #eeeeee;
+}
+a.module,a.package {
+ text-decoration:none
+}
+a.module:hover,a.package:hover {
+ background-color: #eeeeee;
+}
+ul.definitions {
+ list-style-type: none;
+}
+ul.index {
+ list-style-type: none;
+ background-color: #eeeeee;
+}
+
+/*
+ * Minor style tweaks
+ */
+ul {
+ list-style-type: square;
+}
+table {
+ border-collapse: collapse;
+}
+td {
+ padding: 3
+}