def test_two_chars_83(self): instr = 'AA\n' * 83 si = StringRepresentation(instr, 40, 40) self.assertEqual(si.get_representation()[1], 20) self.assertEqual(si.get_representation()[0], 20) self.assertEqual(len(si.get_representation()), 40)
def show_object(self, obj): self._obj = obj # String representation if hasattr(obj, "get_body"): str_repr_inst = StringRepresentation( obj.get_body(), self._parent.draw_area.width, self._parent.draw_area.height ) str_repr_dict = str_repr_inst.get_representation() self._parent.draw_area.set_string_representation(str_repr_dict) self.synchronize()
def show_object(self, obj): self._obj = obj # String representation if hasattr(obj, 'get_body'): str_repr_inst = StringRepresentation(obj.get_body(), self._parent.draw_area.width, self._parent.draw_area.height) str_repr_dict = str_repr_inst.get_representation() self._parent.draw_area.set_string_representation(str_repr_dict) self.synchronize()
def test_two_chars_157(self): instr = 'AB\n' * 157 si = StringRepresentation(instr, 41, 40) self.assertEqual(len(si.get_representation()), 41)
def test_two_chars_40(self): instr = 'AA\n' * 40 si = StringRepresentation(instr, 40, 40) self.assertEqual(si.get_representation()[1], 10) self.assertEqual(si.get_representation()[0], 10)
def test_one_char_40(self): instr = 'A\n' * 40 si = StringRepresentation(instr, 40, 40) self.assertEqual(si.get_representation()[1], 25) self.assertEqual(si.get_representation()[0], 25)