class TestBackscatteredElectronRadialDetectorXMLHandler(unittest.TestCase):
def setUp(self):
unittest.TestCase.setUp(self)
self.h = BackscatteredElectronRadialDetectorXMLHandler()
self.obj = BackscatteredElectronRadialDetector(10)
etree.register_namespace("mc", "http://pymontecarlo.sf.net")
source = BytesIO(
b'<mc:backscatteredElectronRadialDetector xmlns:mc="http://pymontecarlo.sf.net"><channels>10</channels></mc:backscatteredElectronRadialDetector>'
)
self.element = etree.parse(source).getroot()
def tearDown(self):
unittest.TestCase.tearDown(self)
def testcan_parse(self):
self.assertTrue(self.h.can_parse(self.element))
def testparse(self):
obj = self.h.parse(self.element)
self.assertEqual(10, obj.channels)
def testcan_convert(self):
self.assertTrue(self.h.can_convert(self.obj))
def testconvert(self):
element = self.h.convert(self.obj)
subelement = element.find("channels")
self.assertEqual(10, int(subelement.text))
def setUp(self):
unittest.TestCase.setUp(self)
self.h = BackscatteredElectronRadialDetectorXMLHandler()
self.obj = BackscatteredElectronRadialDetector(10)
etree.register_namespace("mc", "http://pymontecarlo.sf.net")
source = BytesIO(
b'<mc:backscatteredElectronRadialDetector xmlns:mc="http://pymontecarlo.sf.net"><channels>10</channels></mc:backscatteredElectronRadialDetector>'
)
self.element = etree.parse(source).getroot()
