def test_constructor_full(self): eprint( ">> Continuum.__init__(self, min_value=None, max_value=None, min_included=None, max_included=None)" ) for i in range(self.__nb_unit_test): # Valid continuum #----------------- min = random.uniform(self.__min_value, self.__max_value) max = random.uniform(min, self.__max_value) min_included = random.choice([True, False]) max_included = random.choice([True, False]) c = Continuum(min, max, min_included, max_included) self.assertFalse(c.is_empty()) self.assertEqual(c.get_min_value(), min) self.assertEqual(c.get_max_value(), max) self.assertEqual(c.min_included(), min_included) self.assertEqual(c.max_included(), max_included) # Implicit emptyset #------------------- min = random.uniform(self.__min_value, self.__max_value) c = Continuum(min, min, False, False) self.assertTrue(c.is_empty()) self.assertEqual(c.get_min_value(), None) self.assertEqual(c.get_max_value(), None) self.assertEqual(c.min_included(), None) self.assertEqual(c.max_included(), None) # Invalid Continuum #-------------------- max = random.uniform(self.__min_value, min - 0.001) self.assertRaises(ValueError, Continuum, min, max, min_included, max_included) # Invalid number of arguments #------------------------------- self.assertRaises(ValueError, Continuum, min) self.assertRaises(ValueError, Continuum, min, max) self.assertRaises(ValueError, Continuum, min, max, min_included) self.assertRaises(ValueError, Continuum, min, max, min_included, max_included)
def test_to_string(self): eprint(">> Continuum.to_string(self)") for i in range(self.__nb_unit_test): c = Continuum() self.assertEqual(c.to_string(), u"\u2205") c = Continuum.random(self.__min_value, self.__max_value) if c.is_empty(): self.assertEqual(c.to_string(), u"\u2205") out = "" if c.min_included(): out += "[" else: out += "]" out += str(c.get_min_value()) + "," + str(c.get_max_value()) if c.max_included(): out += "]" else: out += "[" self.assertEqual(c.to_string(), out) self.assertEqual(c.__str__(), out) self.assertEqual(c.__repr__(), out)
def test_constructor_empty(self): eprint(">> Continuum.__init__(self)") for i in range(self.__nb_unit_test): c = Continuum() self.assertTrue(c.is_empty()) self.assertEqual(c.get_min_value(), None) self.assertEqual(c.get_max_value(), None) self.assertEqual(c.min_included(), None) self.assertEqual(c.max_included(), None)
def test_set_upper_bound(self): eprint(">> Continuum.set_upper_bound(self, value, included)") for i in range(self.__nb_unit_test): # Empty set c = Continuum() self.assertRaises(TypeError, c.set_upper_bound, "string", True) self.assertRaises(TypeError, c.set_upper_bound, "string", False) self.assertRaises(TypeError, c.set_upper_bound, 0.5, 10) value = random.uniform(self.__min_value, self.__max_value) # extend with exclusion gives empty set, mistake expected from user # or both min and max will be changed and constructor must be used self.assertRaises(ValueError, c.set_upper_bound, value, False) c.set_upper_bound(value, True) # Empty set to one value interval self.assertEqual(c, Continuum(value, value, True, True)) # Regular continuum # over min value c = Continuum.random(self.__min_value, self.__max_value) value = random.uniform(self.__min_value, c.get_min_value()) while value == c.get_min_value(): value = random.uniform(self.__min_value, c.get_min_value()) self.assertRaises(ValueError, c.set_upper_bound, value, True) self.assertRaises(ValueError, c.set_upper_bound, value, False) # on min value c = Continuum.random(self.__min_value, self.__max_value) c_old = c.copy() value = c.get_min_value() if not c.max_included() or not c.min_included(): c.set_upper_bound(value, False) self.assertEqual(c, Continuum()) # continuum reduced to empty set else: c.set_upper_bound(value, True) self.assertEqual(c.get_max_value(), value) self.assertEqual(c.max_included(), True) self.assertEqual(c.get_max_value(), c.get_min_value()) self.assertEqual(c.get_min_value(), c_old.get_min_value()) self.assertEqual(c.min_included(), c_old.min_included()) # other valid value c = Continuum.random(self.__min_value, self.__max_value) c_old = c.copy() value = random.uniform(c.get_min_value(), self.__max_value) while value == c.get_min_value(): value = random.uniform(c.get_min_value(), self.__max_value) c.set_upper_bound(value, True) self.assertEqual(c.get_max_value(), value) self.assertEqual(c.max_included(), True) c = Continuum.random(self.__min_value, self.__max_value) c_old = c.copy() value = random.uniform(c.get_min_value(), self.__max_value) while value == c.get_min_value(): value = random.uniform(c.get_min_value(), self.__max_value) c.set_upper_bound(value, False) self.assertEqual(c.get_max_value(), value) self.assertEqual(c.max_included(), False)
def test__eq__(self): eprint(">> Continuum.__eq__(self, continuum)") for i in range(self.__nb_unit_test): # emptyset c = Continuum() self.assertTrue(Continuum() == Continuum()) self.assertTrue(c == Continuum()) self.assertTrue(c == c) self.assertFalse(Continuum() != Continuum()) self.assertFalse(c != Continuum()) self.assertFalse(c != c) c = Continuum.random(self.__min_value, self.__max_value) self.assertTrue(c == c) self.assertFalse(c != c) self.assertEqual(c == Continuum(), c.is_empty()) c_ = Continuum.random(self.__min_value, self.__max_value) if c.is_empty() and c_.is_empty(): self.assertTrue(c == c_) self.assertTrue(c != c_) if c.is_empty() != c_.is_empty(): self.assertFalse(c == c_) self.assertTrue(c != c_) if c.get_min_value() != c_.get_min_value(): self.assertFalse(c == c_) self.assertTrue(c != c_) if c.get_max_value() != c_.get_max_value(): self.assertFalse(c == c_) self.assertTrue(c != c_) if c.min_included() != c_.min_included(): self.assertFalse(c == c_) self.assertTrue(c != c_) if c.max_included() != c_.max_included(): self.assertFalse(c == c_) self.assertTrue(c != c_) # exaustive modifications if not c.is_empty(): c_ = c.copy() value = random.uniform(1, 100) c_.set_lower_bound(c.get_min_value() - value, True) self.assertFalse(c == c_) self.assertTrue(c != c_) c_.set_lower_bound(c.get_min_value() - value, False) self.assertFalse(c == c_) self.assertTrue(c != c_) c_ = c.copy() c_.set_lower_bound(c.get_min_value(), not c.min_included()) self.assertFalse(c == c_) self.assertTrue(c != c_) c_ = c.copy() value = random.uniform(1, 100) c_.set_upper_bound(c.get_min_value() + value, True) self.assertFalse(c == c_) self.assertTrue(c != c_) c_.set_upper_bound(c.get_min_value() + value, False) self.assertFalse(c == c_) self.assertTrue(c != c_) c_ = c.copy() c_.set_upper_bound(c.get_max_value(), not c.max_included()) self.assertFalse(c == c_) self.assertTrue(c != c_) # different type self.assertFalse(c == "test") self.assertFalse(c == 0) self.assertFalse(c == True) self.assertFalse(c == [])
def test_includes(self): eprint(">> Continuum.includes(self, element)") for i in range(self.__nb_unit_test): # bad argument type c = Continuum.random(self.__min_value, self.__max_value) self.assertRaises(TypeError, c.includes, "test") # float argument #---------------- # empty set includes nothing c = Continuum() value = random.uniform(self.__min_value, self.__max_value) self.assertFalse(c.includes(value)) c = Continuum.random(self.__min_value, self.__max_value) # Before min value = c.get_min_value() while value == c.get_min_value(): value = random.uniform(c.get_min_value() - 100.0, c.get_min_value()) self.assertFalse(c.includes(value)) # on min bound self.assertEqual(c.includes(c.get_min_value()), c.min_included()) # Inside value = c.get_min_value() while value == c.get_min_value() or value == c.get_max_value(): value = random.uniform(c.get_min_value(), c.get_max_value()) self.assertTrue(c.includes(value)) # on max bound self.assertEqual(c.includes(c.get_max_value()), c.max_included()) # after max bound value = c.get_max_value() while value == c.get_max_value(): value = random.uniform(c.get_max_value(), c.get_max_value() + 100.0) self.assertFalse(c.includes(value)) # int argument #-------------- # empty set includes nothing c = Continuum() value = random.randint(int(self.__min_value), int(self.__max_value)) self.assertFalse(c.includes(value)) c = Continuum.random(self.__min_value, self.__max_value) while int(c.get_max_value()) - int(c.get_min_value()) <= 1: min = random.uniform(self.__min_value, self.__max_value) max = random.uniform(min, self.__max_value) c = Continuum.random(min, max) #eprint(c.to_string()) # Before min value = random.randint(int(c.get_min_value() - 100), int(c.get_min_value()) - 1) self.assertFalse(c.includes(value)) # on min bound self.assertEqual(c.includes(c.get_min_value()), c.min_included()) # Inside value = random.randint( int(c.get_min_value()) + 1, int(c.get_max_value()) - 1) #eprint(value) self.assertTrue(c.includes(value)) # on max bound self.assertEqual(c.includes(c.get_max_value()), c.max_included()) # after max bound value = random.randint( int(c.get_max_value()) + 1, int(c.get_max_value() + 100)) self.assertFalse(c.includes(value)) # continuum argument #-------------------- # 0) c is empty set c = Continuum() c_ = Continuum() self.assertTrue(c.includes(c_)) # empty set VS empty set c_ = Continuum.random(self.__min_value, self.__max_value) while c_.is_empty(): c_ = Continuum.random(self.__min_value, self.__max_value) self.assertFalse(c.includes(c_)) # empty set VS non empty # 1) c is non empty c = Continuum.random(self.__min_value, self.__max_value) self.assertTrue(c.includes(Continuum())) # non empty VS empty set self.assertTrue(c.includes(c)) # includes itself # 1.1) Lower bound over c_ = Continuum.random(c.get_min_value(), self.__max_value) while c_.is_empty(): c_ = Continuum.random(c.get_min_value(), self.__max_value) value = c.get_min_value() while value == c.get_min_value(): value = random.uniform(c.get_min_value() - 100, c.get_min_value()) c_.set_lower_bound(value, random.choice([True, False])) self.assertFalse(c.includes(c_)) # 1.2) on min bound c_ = Continuum.random(c.get_min_value(), self.__max_value) while c_.is_empty(): c_ = Continuum.random(c.get_min_value(), self.__max_value) c_.set_lower_bound(c.get_min_value(), random.choice([True, False])) if not c.min_included() and c_.min_included(): # one value over self.assertFalse(c.includes(c_)) # 1.3) upper bound over c_ = Continuum.random(self.__min_value, c.get_max_value()) while c_.is_empty(): c_ = Continuum.random(self.__min_value, c.get_max_value()) value = c.get_max_value() while value == c.get_max_value(): value = random.uniform(c.get_max_value(), c.get_max_value() + 100) c_.set_upper_bound(value, random.choice([True, False])) self.assertFalse(c.includes(c_)) # 1.4) on upper bound c_ = Continuum.random(self.__min_value, c.get_max_value()) while c_.is_empty(): c_ = Continuum.random(self.__min_value, c.get_max_value()) c_.set_upper_bound(c.get_max_value(), random.choice([True, False])) if not c.max_included() and c_.max_included(): # one value over self.assertFalse(c.includes(c_)) # 1.5) inside min = c.get_min_value() while min == c.get_min_value(): min = random.uniform(c.get_min_value(), c.get_max_value()) max = c.get_max_value() while max == c.get_max_value(): max = random.uniform(min, c.get_max_value()) c_ = Continuum(min, max, random.choice([True, False]), random.choice([True, False])) self.assertTrue(c.includes(c_)) self.assertFalse(c_.includes(c))