#include #include #include #include CPPUNIT_NS_BEGIN Test * Test::getChildTestAt( int index ) const { checkIsValidIndex( index ); return doGetChildTestAt( index ); } Test * Test::findTest( const std::string &testName ) const { TestPath path; Test *mutableThis = CPPUNIT_CONST_CAST( Test *, this ); mutableThis->findTestPath( testName, path ); if ( !path.isValid() ) throw std::invalid_argument( "No test named <" + testName + "> found in test <" + getName() + ">." ); return path.getChildTest(); } bool Test::findTestPath( const std::string &testName, TestPath &testPath ) const { Test *mutableThis = CPPUNIT_CONST_CAST( Test *, this ); if ( getName() == testName ) { testPath.add( mutableThis ); return true; } int childCount = getChildTestCount(); for ( int childIndex =0; childIndex < childCount; ++childIndex ) { if ( getChildTestAt( childIndex )->findTestPath( testName, testPath ) ) { testPath.insert( mutableThis, 0 ); return true; } } return false; } bool Test::findTestPath( const Test *test, TestPath &testPath ) const { Test *mutableThis = CPPUNIT_CONST_CAST( Test *, this ); if ( this == test ) { testPath.add( mutableThis ); return true; } int childCount = getChildTestCount(); for ( int childIndex =0; childIndex < childCount; ++childIndex ) { if ( getChildTestAt( childIndex )->findTestPath( test, testPath ) ) { testPath.insert( mutableThis, 0 ); return true; } } return false; } TestPath Test::resolveTestPath( const std::string &testPath ) const { Test *mutableThis = CPPUNIT_CONST_CAST( Test *, this ); return TestPath( mutableThis, testPath ); } void Test::checkIsValidIndex( int index ) const { if ( index < 0 || index >= getChildTestCount() ) throw std::out_of_range( "Test::checkValidIndex(): invalid index" ); } CPPUNIT_NS_END