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|
/*
* tester.h
*
* Copyright (C) 2004 Zack Rusin <[email protected]>
* Copyright (C) 2005 Jeroen Wijnhout <[email protected]>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef TESTER_H
#define TESTER_H
/*! @mainpage KUnitTest - a UnitTest library for KDE
*
* @section contents Contents
* @li @ref background
* @li @ref usage
* @li @ref integration
* @li @ref module
* @li @ref advanced
* @li @ref scripts
*
* @section background Background
*
* KUnitTest is based on the "in reality no one wants to write tests and
* if it takes a lot of code no one will. So the less code to write the
* better" design principle.
*
* Copyright and credits:
* @li (C) 2004 Zack Rusin (original author)
* @li Brad Hards (import into CVS)
* @li (C) 2005 Jeroen Wijnhout (GUI, library, module)
*
* You are responsible for what you do with it though. It
* is licensed under a BSD license - read the top of each file.
*
* All the GUI related stuff is in tdesdk/kunittest, the core libraries are in tdelibs/kunittest.
* A simple example modules is in kdelisbs/kunittest/samplemodule.{h,cpp}, however more examples
* can be found in tdesdk/kunittest/example.
*
* There are roughly two ways to use the KUnitTest library. Either you create dynamically
* loadable modules and use the kunittestmodrunner or kunittestguimodrunner programs to run
* the tests, or you use the kunittest/kunittestgui library to create your own test runner
* application.
*
* The main parts of the KUnitTest library are:
* @li runner.{h,cpp} - it is the tester runner, holds all tests and runs
* them.
* @li runnergui.{h,cpp} - the GUI wrapper around the runner. The GUI neatly organizes the
* test results. With the kunittest helper script it can even add the debug output
* to the test results. For this you need to have the tdesdk module installed.
* @li tester.h - which holds the base of a pure test object (Tester).
* @li module.h - defines macros to create a dynamically loadable module.
*
* @section usage Example usage
*
* This section describes how to use the library to create your own tests and runner
* application.
*
* Now lets see how you would add a new test to KUnitTest. You do that by
* writting a Tester derived class which has an "allTests()" method:
*
* @code
* class SampleTest : public Tester
* {
* public:
* SampleTest();
*
* void allTests();
* };
* @endcode
*
* Now in the allTests() method we implement our tests, which might look
* like:
*
* @code
* void SampleTest::allTests()
* {
* CHECK( 3+3, 6 );
* CHECK( TQString( "hello%1" ).arg( " world not" ), TQString( "hello world" ) );
* }
* @endcode
*
* CHECK() is implemented using a template, so you get type safe
* comparison. All that is needed is that the argument types have an
* @c operator==() defined.
*
* Now that you did that the only other thing to do is to tell the
* framework to add this test case, by using the KUNITTEST_REGISTER_TESTER(x) macro. Just
* put the following line in the implementation file:
*
* @code KUNITTEST_REGISTER_TESTER( SampleTest ); @endcode
*
* Note the ;, it is necessary.
*
* KUnitTest will do the rest. It will tell you which tests failed, how, what was the expected
* result, what was the result it got, what was the code that failed and so on. For example for
* the code above it would output:
*
* @verbatim
SampleTest - 1 test passed, 1 test failed
Unexpected failure:
sampletest.cpp[38]: failed on "TQString( "hello%1" ).arg( " world not" )"
result = 'hello world not', expected = 'hello world'
@endverbatim
*
* If you use the RunnerGUI class then you will be presented with a scrollable list of the
* test results.
*
* @section integration Integration
*
* The KUnitTest library is easy to use. Let's say that you have the tests written in the
* sampletest.h and sampletest.cpp files. Then all you need is a main.cpp file and a Makefile.am.
* You can copy both from the example file provided with the library. A typical main.cpp file
* looks like this:
*
* @code
* #include <kaboutdata.h>
* #include <kapplication.h>
* #include <kcmdlineargs.h>
* #include <kcmdlineargs.h>
* #include <klocale.h>
* #include <kunittest/runnergui.h>
*
* static const char description[] = I18N_NOOP("SampleTests");
* static const char version[] = "0.1";
* static KCmdLineOptions options[] = { KCmdLineLastOption };
*
* int main( int argc, char** argv )
* {
* KAboutData about("SampleTests", I18N_NOOP("SampleTests"), version, description,
* KAboutData::License_BSD, "(C) 2005 You!", 0, 0, "mail@provider");
*
* KCmdLineArgs::init(argc, argv, &about);
* KCmdLineArgs::addCmdLineOptions( options );
* KApplication app;
*
* KUnitTest::RunnerGUI runner(0);
* runner.show();
* app.setMainWidget(&runner);
*
* return app.exec();
* }
* @endcode
*
* The Makefile.am file will look like:
*
* @code
* INCLUDES = -I$(top_srcdir)/src $(all_includes)
* METASOURCES = AUTO
* check_PROGRAMS = sampletests
* sampletests_SOURCES = main.cpp sampletest.cpp
* sampletests_LDFLAGS = $(KDE_RPATH) $(all_libraries)
* sampletests_LDADD = -lkunittest
* noinst_HEADERS = sampletest.h
*
* check:
* kunittest $(top_builddir)/src/sampletests SampleTests
* @endcode
*
* Most of this Makefile.am will be self-explanatory. After running
* "make check" the binary "sampletests" will be built. The reason for
* adding the extra make target "check" is that you probably do not want
* to rebuild the test suite everytime you run make.
*
* You can run the binary on its own, but you get more functionality if you use
* the kunittest helper script. The Makefile.am is set up in such
* a way that this helper script is automatically run after you do a
* "make check". This scripts take two arguments, the first is the path
* to the binary to run. The second the application name, in this case SampleTests.
* This name is important since it is used to let the script communicate with the application
* via DCOP. The helper scripts relies on the Perl DCOP bindings, so these need to be installed.
*
* @section module Creating test modules
*
* If you think that writing your own test runner if too much work then you can also
* use the kunittestermodrunner application or the kunitguimodrunner script to run
* the tests for you. You do have to put your tests in a dynamically loadable module though.
* Fortunately KUnitTest comes with a few macros to help you do this.
*
* First the good news, you don't have to change the header file sampletest.h. However, we
* will rename it to samplemodule.h, so we remember we are making a module. The
* implementation file should be rename to samplemodule.cpp. This file requires some
* modifications. First we need to include the module.h header:
*
* @code
* #include <kunittest/module.h>
* @endcode
*
* This header file is needed because it defines some macro you'll need. In fact this is
* how you use them:
*
* @code
* KUNITTEST_MODULE( kunittest_samplemodule, "Tests for sample module" );
* KUNITTEST_MODULE_REGISTER_TESTER( SimpleSampleTester );
* KUNITTEST_MODULE_REGISTER_TESTER( SomeSampleTester );
* @endcode
*
* The first macro, KUNITTEST_MODULE(), makes sure that the module can be loaded and that
* the test classes are created. The first argument "kunittest_samplemodule" is the library
* name, in this case the library we're creating a kunittest_samplemodule.la module. The
* second argument is name which will appear in the test runner for this test suite.
*
* The tester class are now added by the KUNITTEST_MODULE_REGISTER_TESTER() macro, not the
* KUNITTEST_REGISTER_TESTER(). The only difference between the two is that you have to
* pass the module class name to this macro.
*
* The Makefile.am is also a bit different, but not much:
*
* @code
* INCLUDES = -I$(top_srcdir)/include $(all_includes)
* METASOURCES = AUTO
* check_LTLIBRARIES = kunittest_samplemodule.la
* kunittest_samplemodule_la_SOURCES = samplemodule.cpp
* kunittest_samplemodule_la_LIBADD = $(LIB_KUNITTEST)
* kunittest_samplemodule_la_LDFLAGS = -module $(KDE_CHECK_PLUGIN) $(all_libraries)
* @endcode
*
* The $(KDE_CHECK_PLUGIN) macro is there to make sure a dynamically loadable
* module is created.
*
* After you have built the module you open a Konsole and cd into the build folder. Running
* the tests in the module is now as easy as:
*
* @code
* $ make check && kunittestmodrunner
* @endcode
*
* The kunittestmodrunner application loads all kunittest_*.la modules in the current
* directory. The exit code of this console application is the number of unexpected failures.
*
* If you want the GUI, you should use the kunittestmod script:
*
* @code
* $ make check && kunittestmod
* @endcode
*
* This script starts kunittestguimodrunner application and a helper script to take
* care of dealing with debug output.
*
* @section advanced Advanced usage
*
* Normally you just want to use CHECK(). If you are developing some more
* tests, and they are run (or not) based on some external dependency,
* you may need to skip some tests. In this case, rather than doing
* nothing (or worse, writing a test step that aborts the test run), you
* might want to use SKIP() to record that. Note that this is just a
* logging / reporting tool, so you just pass in a string:
*
* @code
* SKIP( "Test skipped because of lack of foo support." );
* @endcode
*
* Similarly, you may have a test step that you know will fail, but you
* don't want to delete the test step (because it is showing a bug), but
* equally you can't fix it right now (eg it would break binary
* compatibility, or would violate a string freeze). In that case, it
* might help to use XFAIL(), for "expected failure". The test will still
* be run, and recorded as a failure (assuming it does fail), but will
* also be recorded separately. Usage might be as follows:
*
* @code
* XFAIL( 2+1, 4 );
* @endcode
*
* You can mix CHECK(), SKIP() and XFAIL() within a single Tester derived
* class.
*
*
* @section exceptions Exceptions
*
* KUnitTest comes with simple support for testing whether an exception, such as a function call,
* throws an exception or not. Simply, for the usual macros there corresponding ones for
* exception testing: CHECK_EXCEPTION(), XFAIL_EXCEPTION(), and SKIP_EXCEPTION(). They all take two
* arguments: the expression that will catch the exception, and the expression that is supposed
* to throw the exception.
*
* For example:
*
* @code
* CHECK_EXCEPTION(EvilToothFairyException *, myFunction("I forgot to brush my teeth!"));
* @endcode
*
* @note The exception is not de-allocated in anyway.
*
* The macros does not allow introspection of the exceptions, such as testing a supplied
* identifier code on the exception object or similar; this requires manual coding, such
* as custom macros.
*
* @section scripts Scripts
*
* The library comes with several helper scripts:
*
* @li kunittest [app] [dcopobject] : Runs the application app and redirects all debug output to the dcopobject.
* @li kunittestmod --folder [folder] --query [query] : Loads and runs all modules in the folder matching the query. Use a GUI.
* @li kunittest_debughelper [dcopobject] : A PERL script that is able to redirect debug output to a RunnerGUI instance.
*
* These scripts are part of the tdesdk/kunittest module.
*/
/*!
* @file tester.h
* Defines macros for unit testing as well as some test classes.
*/
#include <iostream>
using namespace std;
#include <tqobject.h>
#include <tqstringlist.h>
#include <tqasciidict.h>
#include <tdelibs_export.h>
/*! @def CHECK(x,y)
* Use this macro to perform an equality check. For example
*
* @code CHECK( numberOfErrors(), 0 ); @endcode
*/
#define CHECK( x, y ) check( __FILE__, __LINE__, #x, x, y, false )
/// for source-compat with qttestlib: use COMPARE(x,y) if you plan to port to qttestlib later.
#define COMPARE CHECK
/// for source-compat with qttestlib: use VERIFY(x) if you plan to port to qttestlib later.
#define VERIFY( x ) CHECK( x, true )
/*! @def XFAIL(x,y)
* Use this macro to perform a check you expect to fail. For example
*
* @code XFAIL( numberOfErrors(), 1 ); @endcode
*
* If the test fails, it will be counted as such, however it will
* also be registered separately.
*/
#define XFAIL( x, y ) check( __FILE__, __LINE__, #x, x, y, true )
/*! @def SKIP(x)
* Use this macro to indicate that a test is skipped.
*
* @code SKIP("Test skipped because of lack of foo support."); @endcode
*/
#define SKIP( x ) skip( __FILE__, __LINE__, TQString::fromLatin1(#x))
/*!
* A macro testing that @p expression throws an exception that is catched
* with @p exceptionCatch. Use it to test that an expression, such as a function call,
* throws a certain exception.
*
* @note this macro assumes it's used in a function which is a sub-class of the Tester class.
*/
#define CHECK_EXCEPTION(exceptionCatch, expression) \
try \
{ \
expression; \
} \
catch(exceptionCatch) \
{ \
setExceptionRaised(true); \
} \
if(exceptionRaised()) \
{ \
success(TQString(__FILE__) + "[" + TQString::number(__LINE__) + "]: passed " + #expression); \
} \
else \
{ \
failure(TQString(__FILE__) + "[" + TQString::number(__LINE__) + TQString("]: failed to throw " \
"an exception on: ") + #expression); \
} \
setExceptionRaised(false);
/*!
* This macro is similar to XFAIL, but is for exceptions instead. Flags @p expression
* as being expected to fail to throw an exception that @p exceptionCatch is supposed to catch.
*/
#define XFAIL_EXCEPTION(exceptionCatch, expression) \
try \
{ \
expression; \
} \
catch(exceptionCatch) \
{ \
setExceptionRaised(true); \
} \
if(exceptionRaised()) \
{ \
unexpectedSuccess(TQString(__FILE__) + "[" + TQString::number(__LINE__) + "]: unexpectedly threw an exception and passed: " + #expression); \
}\
else \
{ \
expectedFailure(TQString(__FILE__) + "[" + TQString::number(__LINE__) + TQString("]: failed to throw an exception on: ") + #expression); \
} \
setExceptionRaised(false);
/*!
* This macro is similar to SKIP, but is for exceptions instead. Skip testing @p expression
* and the @p exceptionCatch which is supposed to catch the exception, and register the test
* as being skipped.
*/
#define SKIP_EXCEPTION(exceptionCatch, expression) \
skip( __FILE__, __LINE__, TQString("Exception catch: ")\
.arg(TQString(#exceptionCatch)).arg(TQString(" Test expression: ")).arg(TQString(#expression)))
/**
* Namespace for Unit testing classes
*/
namespace KUnitTest
{
/*! A simple class that encapsulates a test result. A Tester class usually
* has a single TestResults instance associated with it, however the SlotTester
* class can have more TestResults instances (one for each test slot in fact).
*/
class KUNITTEST_EXPORT TestResults
{
friend class Tester;
public:
TestResults() : m_tests( 0 ) {}
virtual ~TestResults() {}
/*! Clears the test results and debug info. Normally you do not need to call this.
*/
virtual void clear()
{
m_errorList.clear();
m_xfailList.clear();
m_xpassList.clear();
m_skipList.clear();
m_successList.clear();
m_debug = "";
m_tests = 0;
}
/*! Add some debug info that can be view later. Normally you do not need to call this.
* @param debug The debug info.
*/
virtual void addDebugInfo(const TQString &debug)
{
m_debug += debug;
}
/*! @returns The debug info that was added to this Tester object.
*/
TQString debugInfo() const { return m_debug; }
/*! @returns The number of finished tests. */
int testsFinished() const { return m_tests; }
/*! @returns The number of failed tests. */
int errors() const { return m_errorList.count(); }
/*! @returns The number of expected failures. */
int xfails() const { return m_xfailList.count(); }
/*! @returns The number of unexpected successes. */
int xpasses() const { return m_xpassList.count(); }
/*! @returns The number of skipped tests. */
int skipped() const { return m_skipList.count(); }
/*! @returns The number of passed tests. */
int passed() const { return m_successList.count(); }
/*! @returns Details about the failed tests. */
TQStringList errorList() const { return m_errorList; }
/*! @returns Details about tests that failed expectedly. */
TQStringList xfailList() const { return m_xfailList; }
/*! @returns Details about tests that succeeded unexpectedly. */
TQStringList xpassList() const { return m_xpassList; }
/*! @returns Details about which tests were skipped. */
TQStringList skipList() const { return m_skipList; }
/*! @returns Details about the succeeded tests. */
TQStringList successList() const { return m_successList; }
private:
TQStringList m_errorList;
TQStringList m_xfailList;
TQStringList m_xpassList;
TQStringList m_skipList;
TQStringList m_successList;
TQString m_debug;
int m_tests;
};
typedef TQAsciiDict<TestResults> TestResultsListType;
/*! A type that can be used to iterate through the registry. */
typedef TQAsciiDictIterator<TestResults> TestResultsListIteratorType;
/*! The abstract Tester class forms the base class for all test cases. Users must
* implement the void Tester::allTests() method. This method contains the actual test.
*
* Use the CHECK(x,y), XFAIL(x,y) and SKIP(x) macros in the allTests() method
* to perform the tests.
*
* @see CHECK, XFAIL, SKIP
*/
class KUNITTEST_EXPORT Tester : public TQObject
{
public:
Tester(const char *name = 0L)
: TQObject(0L, name), m_results(new TestResults()), m_exceptionState(false)
{}
virtual ~Tester() { delete m_results; }
public:
/*! Implement this method with the tests and checks you want to perform.
*/
virtual void allTests() = 0;
public:
/*! @return The TestResults instance.
*/
virtual TestResults *results() { return m_results; }
protected:
/*! This is called when the SKIP(x) macro is used.
* @param file A C-string containing the name of the file where the skipped tests resides. Typically the __FILE__ macro is used to retrieve the filename.
* @param line The linenumber in the file @p file. Use the __LINE__ macro for this.
* @param msg The message that identifies the skipped test.
*/
void skip( const char *file, int line, TQString msg )
{
TQString skipEntry;
TQTextStream ts( &skipEntry, IO_WriteOnly );
ts << file << "["<< line <<"]: " << msg;
skipTest( skipEntry );
}
/*! This is called when the CHECK or XFAIL macro is used.
* @param file A C-string containing the name of the file where the skipped tests resides. Typically the __FILE__ macro is used to retrieve the filename.
* @param line The linenumber in the file @p file. Use the __LINE__ macro for this.
* @param str The message that identifies the skipped test.
* @param result The result of the test.
* @param expectedResult The expected result.
* @param expectedFail Indicates whether or not a failure is expected.
*/
template<typename T>
void check( const char *file, int line, const char *str,
const T &result, const T &expectedResult,
bool expectedFail )
{
cout << "check: " << file << "["<< line <<"]" << endl;
if ( result != expectedResult )
{
TQString error;
TQTextStream ts( &error, IO_WriteOnly );
ts << file << "["<< line <<"]: failed on \"" << str
<<"\" result = '" << result << "' expected = '" << expectedResult << "'";
if ( expectedFail )
expectedFailure( error );
else
failure( error );
}
else
{
// then the test passed, but we want to record it if
// we were expecting a failure
if (expectedFail)
{
TQString err;
TQTextStream ts( &err, IO_WriteOnly );
ts << file << "["<< line <<"]: "
<<" unexpectedly passed on \""
<< str <<"\"";
unexpectedSuccess( err );
}
else
{
TQString succ;
TQTextStream ts( &succ, IO_WriteOnly );
ts << file << "["<< line <<"]: "
<<" passed \""
<< str <<"\"";
success( succ );
}
}
++m_results->m_tests;
}
/*!
* This function can be used to flag succeeding tests, when
* doing customized tests while not using the check function.
*
* @param message the message describing what failed. Should be informative,
* such as mentioning the expression that failed and where, the file and file number.
*/
void success(const TQString &message) { m_results->m_successList.append(message); }
/*!
* This function can be used to flag failing tests, when
* doing customized tests while not using the check function.
*
* @param message the message describing what failed. Should be informative,
* such as mentioning the expression that failed and where, the file name and file number.
*/
void failure(const TQString &message) { m_results->m_errorList.append(message); }
/*!
* This function can be used to flag expected failures, when
* doing customized tests while not using the check function.
*
* @param message the message describing what failed. Should be informative,
* such as mentioning the expression that failed and where, the file name and file number.
*/
void expectedFailure(const TQString &message) { m_results->m_xfailList.append(message); }
/*!
* This function can be used to flag unexpected successes, when
* doing customized tests while not using the check function.
*
* @param message the message describing what failed. Should be informative,
* such as mentioning the expression that failed and where, the file name and file number.
*/
void unexpectedSuccess(const TQString &message) { m_results->m_xpassList.append(message); }
/*!
* This function can be used to flag a test as skipped, when
* doing customized tests while not using the check function.
*
* @param message the message describing what failed. Should be informative,
* such as mentioning the expression that failed and where, the file name and file number.
*/
void skipTest(const TQString &message) { m_results->m_skipList.append(message); }
/*!
* exceptionRaised and exceptionState are book-keeping functions for testing for
* exceptions. setExceptionRaised sets an internal boolean to true.
*
* @see exceptionRaised
* @param state the new
*/
void setExceptionRaised(bool state) { m_exceptionState = state; }
/*!
* Returns what the currently tested exception state.
*
* @see setExceptionRaised
*/
bool exceptionRaised() const
{
return m_exceptionState;
}
protected:
TestResults *m_results;
private:
bool m_exceptionState;
};
/*! The SlotTester class is a special Tester class, one that will
* execute all slots that start with the string "test". The method
* void allTests() is implemented and should not be overriden.
*/
class KUNITTEST_EXPORT SlotTester : public Tester
{
Q_OBJECT
public:
SlotTester(const char *name = 0L);
void allTests();
TestResults *results(const char *sl);
TestResultsListType &resultsList() { return m_resultsList; }
signals:
void invoke();
private:
void invokeMember(const TQString &str);
TestResultsListType m_resultsList;
TestResults *m_total;
};
}
KUNITTEST_EXPORT TQTextStream& operator<<( TQTextStream& str, const TQRect& r );
KUNITTEST_EXPORT TQTextStream& operator<<( TQTextStream& str, const TQPoint& r );
KUNITTEST_EXPORT TQTextStream& operator<<( TQTextStream& str, const TQSize& r );
#endif
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