/* -*-c++-*- * * OpenSceneGraph example, osgunittests. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef OSG_UNITTESTFRAMEWORK #define OSG_UNITTESTFRAMEWORK 1 #include #include #include #include #include #include #include #include #include /** \namespace osgUtx The osgUtx is a unit test framework. */ namespace osgUtx{ class TestVisitor; /** Test, an abstract base class, is the Composite pattern's \em component class for our graph of test cases, and defines the basic interface for all Test components. It is a referent, and may be pointed to by an osg::ref_ptr. */ class Test: public osg::Referenced { public: typedef TestVisitor Visitor; // Test is redundant Test( const std::string& sName ) : _name( sName ) {} const std::string& name() const { return _name; } virtual bool accept( Visitor& ) = 0; protected: virtual ~Test() {} std::string _name; }; /** TestContext wraps up information which is passed to tests as they are run, and may contain test-specific information or 'global' test objects, such as an output stream for verbose output during the running of tests. \todo Improve the output stream code by providing a filtering stream. */ class TestContext { public: TestContext(); bool shouldStop() { return false; } bool isVerbose() { return true; } enum TraceLevel{ Off, ///< All tracing turned off Results, ///< Output results only Full ///< Full test diagnostic output }; void setTraceLevel(TraceLevel tl); TraceLevel getTraceLevel() const; std::ostream& tout(TraceLevel tl=Full) const; private: TestContext(const TestContext&); TestContext operator=(const TestContext&); #ifndef DOXYGEN_SHOULD_SKIP_THIS class TraceStream{ public: TraceStream(std::ostream& o=osg::notify(osg::NOTICE), TraceLevel tl=Results); ~TraceStream(); void setTraceLevel(TraceLevel tl); TraceLevel getTraceLevel() const; std::ostream& stream(TraceLevel tl); private: TraceLevel _traceLevel; std::ostream* _outputStreamPtr; std::ofstream _nullStream; }; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ mutable TraceStream _tout; }; class TestSuite; class TestCase; /** Visits while maintaining the current hierarchical context. Also allows the traversal to be short-circuited at any point during the visitation. */ class TestVisitor { public: //..Should we enter this node and its children? virtual bool visitEnter( TestSuite* ) { return true; } //..Returns true to continue to next Leaf virtual bool visit( TestCase* ) = 0; //..Returns true to continue to next Composite virtual bool visitLeave( TestSuite* ) { return true; } protected: TestVisitor() {} TestVisitor( const TestVisitor& ) {} virtual ~TestVisitor() {} }; /** TestCase, supplies the interface for a Composite pattern's \em leaf class, though it is not a leaf in itself. */ class TestCase : public Test { public: typedef TestContext Context; // Test in TestContext? is redundant TestCase( const std::string& sName ) : Test( sName ) {} virtual bool accept( Visitor& v ) { return v.visit( this ); } virtual void run( const Context& ) = 0; // Subclass OSGUTX_EXPORT Responsibility protected: virtual ~TestCase() {} }; /** Base class catchable for the exceptions which may be thrown to indicate problems during the run of a TestCase. */ class TestX { public: TestX(const std::string& s):_what(s) {} virtual ~TestX() {} const std::string& what() const { return _what; } private: std::string _what; }; /** A TestFailureX indicates a failure in the tested component. */ class TestFailureX: public TestX { public: TestFailureX(const std::string& s):TestX(s) {} }; /** A TestErrorX indicates an error while testing a component, which prevents the test from being run. It does not indicate a problem with the component, but rather a problem during the run which prevents the component from being tested. */ class TestErrorX: public TestX { public: TestErrorX(const std::string& s):TestX(s) {} }; /** TestCase_ is a class template for a leaf TestCase, which allows TestFixture classes to be easily collected into the tree of tests, and have their public test methods called. It is worth noting that, for a given TestCase_, an instance of the test fixture class will be constructed prior to the test method being called, and destructed afterwards. This prevents 'leakage' of information from one test case to the next. */ template< typename FixtureT > class TestCase_ : public TestCase { typedef void (FixtureT::*TestMethodPtr)( const Context& ); public: // Constructor adds the TestMethod pointer TestCase_( const std::string& sName, TestMethodPtr pTestMethod ) : TestCase( sName ), _pTestMethod( pTestMethod ) { } // Create a TestFixture instance and invoke TestMethod? virtual void run( const Context& ctx ) { ( FixtureT().*_pTestMethod )( ctx ); } protected: virtual ~TestCase_() {} TestMethodPtr _pTestMethod; }; /** A TestSuite is the \em composite component of the Composite pattern, and allows aggregation of Tests into hierarchies. */ class TestSuite : public Test { public: TestSuite( const std::string& name ); /** Adds a Test to the suite. */ void add( Test* pTest ); /** @returns The immediate child denoted by name, or 0 if not found. */ Test* findChild(const std::string& name); virtual bool accept( Test::Visitor& v ); protected: virtual ~TestSuite() {} typedef std::vector< osg::ref_ptr > Tests; Tests _tests; // Collection of Suites and/or Cases }; /** TestGraph is a singleton providing central access to the tree of tests; primarily, it provides access to the root suite. */ class TestGraph { public: static TestGraph& instance(); /** @return a pointer to the root TestSuite. */ TestSuite* root(); /** A utility function for accessing an arbitrary suite by pathname, relative to the suite 'tsuite' (defaults to root if null), and with the option of creating the \em TestSuite designated by \em path, if it does not already exist. This method may return 0 if the suite either cannot be found (and createIfNecssary is 0), or the first component of \em path is not the same as the name of the TestSuite \em tsuite. This was written to aid the auto-registration of tests at specific points in the test tree, where the tests' AutoRegistrationAgents may be distributed across several files, and cannot be guaranteed to run in a given order. E.g. You cannot register a test "root.osg.MyTest" unless you know that the the suite "root.osg" already exists. @param path The name of the TestSuite to return. @param tsuite The suite to 'start from'. Path is relative to this suite (defaults to root suite). @param createIfNecessary Optionally create the TestSuite(s) denoted by path if they do not exist. */ TestSuite* suite(const std::string& path, TestSuite* tsuite = 0,bool createIfNecessary = false); private: /** Does the same job as the version of suite listed above, but the path is passed in as components in a list, represented by the iterator parameters. */ TestSuite* suite( std::list::iterator it, std::list::iterator end, TestSuite* tsuite, bool createIfNecessary); TestGraph(); TestGraph(const TestGraph&); TestGraph& operator=(const TestGraph&); osg::ref_ptr root_; }; /** Maintains a string that when accessed in the "visit" member, returns the current qualified TestSuite path. */ class TestQualifier : public TestVisitor { enum { SEPCHAR = '.' }; public: // Entering a composite: Push its name on the Path virtual bool visitEnter( TestSuite* pSuite ); // Leaving a composite: Pop its name from the Path virtual bool visitLeave( TestSuite* pSuite ); // Provide read-only access to the current qualifier const std::string& currentPath() const; private: std::string _path; // Current qualifier }; /** QualifiedTestPrinter prints to standard output a list of fully qualified tests. */ class QualifiedTestPrinter : public TestQualifier { public: virtual bool visit( TestCase* pTest ); }; /** A TestRecord records the output of a given test case, i.e. its start/stop time, its result, and a textual description of any problems. \todo Consider adding accessor methods if necessary, to get the details stored in the TestRecord. */ class TestRecord { public: void start(); void stop(); void log(const TestFailureX& e); void log(const TestErrorX& e); void log(const std::exception& e); void log(const std::string& s); // Default copy construction and assignment are OK // FIXME: Add accessors? private: // Onlye a TestReport can create a TestRecord friend class TestReport; TestRecord(const std::string& name); enum Result{ Success,Failure,Error }; friend std::ostream& operator<<(std::ostream& o,const TestRecord& tr); static osg::Timer timer_; // To time tests std::string name_; osg::Timer_t start_; osg::Timer_t stop_; Result result_; std::string problem_; }; /** A TestReport represents the complete set of results (TestRecords) for a given test run. \todo Add support for printing the test report in various formats: e.g. text, XML, CSV */ class TestReport { public: TestRecord& createRecord(const std::string& s){ _records.push_back(TestRecord(s)); return _records.back(); } private: std::list _records; }; /** A TestRunner is a visitor which will run specified tests as it traverses the test graph. \todo Consider an accessor method to get at the TestReport if necessary. */ class TestRunner : public TestQualifier { public: TestRunner( TestContext& ctx ); /** Tests may be specified by partial names. E.g. specifiying "root" will run all tests below root, i.e. all tests. Specifiying "root.osg" will run all tests below \em root.osg. Specifying "root.osg.de" will run all tests (and suites) below \em root.osg with names beginning with the \em de. */ void specify( const std::string& sQualifiedName ); bool visitEnter( TestSuite* pSuite ); bool visit( TestCase* pTest ); bool visitLeave( TestSuite* pSuite ); protected: void perform( TestCase* pTest ); private: TestReport _db; // Results TestContext& _ctx; // The Global Testing Context std::vector _tests; // Specified Tests }; } /** Starts a TestSuite singleton function @see OSGUTX_ADD_TESTCASE, OSGUTX_END_TESTSUITE */ #define OSGUTX_BEGIN_TESTSUITE( tsuite ) \ osgUtx::TestSuite* tsuite##_TestSuite() \ { \ static osg::ref_ptr s_suite = 0; \ if ( s_suite == 0 ) { \ s_suite = new osgUtx::TestSuite( #tsuite ); /** Adds a test case to a suite object being created in a TestSuite singleton function. @see OSGUTX_BEGIN_TESTSUITE, OSGUTX_END_TESTSUITE */ #define OSGUTX_ADD_TESTCASE( tfixture, tmethod ) \ s_suite->add( new osgUtx::TestCase_( \ #tmethod, &tfixture::tmethod ) ); /** Ends a TestSuite singleton function @see OSGUTX_BEGIN_TESTSUITE, OSGUTX_ADD_TESTCASE */ #define OSGUTX_END_TESTSUITE \ } \ return s_suite.get(); \ } /** Define a TestSuite accessor */ #define OSGUTX_TESTSUITE( tsuite ) \ tsuite##_TestSuite() /** Adds a suite to a suite - allows composition of test suites. @see OSGUTX_BEGIN_TESTSUITE, OSGUTX_END_TESTSUITE */ #define OSGUTX_ADD_TESTSUITE( childSuite ) \ s_suite->add( childSuite##_TestSuite() ); /** Autoregister a testsuite with the root suite at startup */ #define OSGUTX_AUTOREGISTER_TESTSUITE( tsuite ) \ static osgUtx::TestSuiteAutoRegistrationAgent tsuite##_autoRegistrationObj__( tsuite##_TestSuite() ); /** Auto register a testsuite with at designated point in the suite graph at startup */ #define OSGUTX_AUTOREGISTER_TESTSUITE_AT( tsuite , path ) \ static osgUtx::TestSuiteAutoRegistrationAgent tsuite##_autoRegistrationObj__( tsuite##_TestSuite(), #path ); namespace osgUtx{ /** A helper struct to perform automatic registration at program startup; not for direct use, it should be used via the following macros. (It's a secret agent :-) @see OSGUTX_AUTOREGISTER_TESTSUITE, OSGUTX_AUTOREGISTER_TESTSUITE_AT */ struct TestSuiteAutoRegistrationAgent { TestSuiteAutoRegistrationAgent(TestSuite* tsuite, const char* path = 0) { if( ! path ) path = "root"; // Find the suite named in 'path', create it if necessary TestSuite *regSuite = osgUtx::TestGraph::instance().suite( path, 0, true ); if(!regSuite){ osg::notify(osg::WARN)<<"Warning, unable to register test suite named \""<name()<<"\" at " <add(tsuite); } }; } /** OSGUTX_TEST_F is a convenience macro, analogous to assert(), which will throw an osgUtx::TestFailureX if \em expr evaluates to false; this should be used to test for failure in a given test, as opposed to an actual error in the test owing to some other reason than the tested code being faulty. The exception will indicate the file and line number of the failed expression, along with expression itself. */ #define OSGUTX_TEST_F( expr ) \ if( !(expr) ){ \ std::stringstream ss; \ ss<< #expr <<" failure: "<<__FILE__<<", line "<<__LINE__<