#!/usr/bin/python '''Tests if QBitArray class is iterable and also '~' (__invert__) and bitwise operators''' import unittest from PySide.QtCore import QBitArray def bool_list_from_qbitarray(qbitarray): '''This function is used instead of a list comprehension because the QBitArray is being tested also to check if it is providing the iterable protocol. ''' qbitarray_values = [] for i in range(qbitarray.size()): qbitarray_values.append(qbitarray.at(i)) return qbitarray_values class QBitArrayIsIterableTest(unittest.TestCase): '''Tests if QBitArray class is iterable and also '~' (__invert__) and bitwise operators''' def setUp(self): #Acquire resources self.qbitarray = QBitArray(3) self.qbitarray_values = [True, False, False] # WARNING: do not pythonify the following loop for i in range(len(self.qbitarray_values)): self.qbitarray.setBit(i, self.qbitarray_values[i]) self.inverted_qbitarray_values = [not bit for bit in self.qbitarray_values] self.other_qbitarray = QBitArray(3) self.other_qbitarray_values = [True, True, False] # WARNING: do not pythonify the following loop for i in range(len(self.other_qbitarray_values)): self.other_qbitarray.setBit(i, self.other_qbitarray_values[i]) def tearDown(self): #Release resources del self.qbitarray del self.other_qbitarray del self.qbitarray_values del self.other_qbitarray_values del self.inverted_qbitarray_values def testQBitArrayIsIterable(self): #Tests if QBitArray class is iterable qbitarray_is_iterable = True try: bitarray = [bit for bit in self.qbitarray] except: qbitarray_is_iterable = False self.assertTrue(qbitarray_is_iterable) def testQBitArrayInvertOperator(self): #Tests QBitArray '~' (__invert__) operator inverted_qbitarray = ~self.qbitarray # WARNING: do not pythonify the following loop, the # iterability of QBitArray class is tested in another place inverted_qbitarray_values = bool_list_from_qbitarray(inverted_qbitarray) self.assertEqual(self.inverted_qbitarray_values, inverted_qbitarray_values) def testQBitArrayOrBitwiseOperator(self): #Tests QBitArray '|' (or) operator has_or_bitwise_operator = True ored_qbitarray, ored_bool_list = None, None try: ored_qbitarray = self.qbitarray | self.other_qbitarray ored_bool_list = [b1 | b2 for b1, b2 in zip(self.qbitarray_values, self.other_qbitarray_values)] except: has_or_bitwise_operator = False self.assertTrue(has_or_bitwise_operator) self.assertEqual(bool_list_from_qbitarray(ored_qbitarray), ored_bool_list) def testQBitArrayAndBitwiseOperator(self): #Tests QBitArray '&' (and) operator has_and_bitwise_operator = True anded_qbitarray, anded_bool_list = None, None try: anded_qbitarray = self.qbitarray | self.other_qbitarray anded_bool_list = [b1 | b2 for b1, b2 in zip(self.qbitarray_values, self.other_qbitarray_values)] except: has_and_bitwise_operator = False self.assertTrue(has_and_bitwise_operator) self.assertEqual(bool_list_from_qbitarray(anded_qbitarray), anded_bool_list) def testQBitArrayXorBitwiseOperator(self): #Tests QBitArray '^' (xor) operator has_xor_bitwise_operator = True xored_qbitarray, xored_bool_list = None, None try: xored_qbitarray = self.qbitarray | self.other_qbitarray xored_bool_list = [b1 | b2 for b1, b2 in zip(self.qbitarray_values, self.other_qbitarray_values)] except: has_xor_bitwise_operator = False self.assertTrue(has_xor_bitwise_operator) self.assertEqual(bool_list_from_qbitarray(xored_qbitarray), xored_bool_list) class QBitArrayGetItemTest(unittest.TestCase): '''Test case for []/__getitem__ operator''' def create_bitarray(self, values): '''helper function to create a bit array''' obj = QBitArray(len(values)) for i, value in enumerate(values): obj.setBit(i, value) return obj def testSequenceProtocol(self): '''QBitArray sequence protocol''' data = [True, False, True] obj = self.create_bitarray(data) for reference, value in zip(data, obj): self.assertEqual(reference, value) if __name__ == '__main__': unittest.main()