Lib/test/test_structseq.py - platform/external/python/cpython3 - Gitiles

 import os
 import time
 import unittest
 from test import support


 class StructSeqTest(unittest.TestCase):

     def test_tuple(self):
         t = time.gmtime()
         self.assertIsInstance(t, tuple)
         astuple = tuple(t)
         self.assertEqual(len(t), len(astuple))
         self.assertEqual(t, astuple)

         # Check that slicing works the same way; at one point, slicing t[i:j] with
         # 0 < i < j could produce NULLs in the result.
         for i in range(-len(t), len(t)):
             self.assertEqual(t[i:], astuple[i:])
             for j in range(-len(t), len(t)):
                 self.assertEqual(t[i:j], astuple[i:j])

         for j in range(-len(t), len(t)):
             self.assertEqual(t[:j], astuple[:j])

         self.assertRaises(IndexError, t.__getitem__, -len(t)-1)
         self.assertRaises(IndexError, t.__getitem__, len(t))
         for i in range(-len(t), len(t)-1):
             self.assertEqual(t[i], astuple[i])

     def test_repr(self):
         t = time.gmtime()
         self.assertTrue(repr(t))
         t = time.gmtime(0)
         self.assertEqual(repr(t),
             "time.struct_time(tm_year=1970, tm_mon=1, tm_mday=1, tm_hour=0, "
             "tm_min=0, tm_sec=0, tm_wday=3, tm_yday=1, tm_isdst=0)")
         # os.stat() gives a complicated struct sequence.
         st = os.stat(__file__)
         rep = repr(st)
         self.assertTrue(rep.startswith(os.name + ".stat_result"))
         self.assertIn("st_mode=", rep)
         self.assertIn("st_ino=", rep)
         self.assertIn("st_dev=", rep)

     def test_concat(self):
         t1 = time.gmtime()
         t2 = t1 + tuple(t1)
         for i in range(len(t1)):
             self.assertEqual(t2[i], t2[i+len(t1)])

     def test_repeat(self):
         t1 = time.gmtime()
         t2 = 3 * t1
         for i in range(len(t1)):
             self.assertEqual(t2[i], t2[i+len(t1)])
             self.assertEqual(t2[i], t2[i+2*len(t1)])

     def test_contains(self):
         t1 = time.gmtime()
         for item in t1:
             self.assertIn(item, t1)
         self.assertNotIn(-42, t1)

     def test_hash(self):
         t1 = time.gmtime()
         self.assertEqual(hash(t1), hash(tuple(t1)))

     def test_cmp(self):
         t1 = time.gmtime()
         t2 = type(t1)(t1)
         self.assertEqual(t1, t2)
         self.assertTrue(not (t1 < t2))
         self.assertTrue(t1 <= t2)
         self.assertTrue(not (t1 > t2))
         self.assertTrue(t1 >= t2)
         self.assertTrue(not (t1 != t2))

     def test_fields(self):
         t = time.gmtime()
         self.assertEqual(len(t), t.n_fields)
         self.assertEqual(t.n_fields, t.n_sequence_fields+t.n_unnamed_fields)

     def test_constructor(self):
         t = time.struct_time

         self.assertRaises(TypeError, t)
         self.assertRaises(TypeError, t, None)
         self.assertRaises(TypeError, t, "123")
         self.assertRaises(TypeError, t, "123", dict={})
         self.assertRaises(TypeError, t, "123456789", dict=None)

         s = "123456789"
         self.assertEqual("".join(t(s)), s)

     def test_eviltuple(self):
         class Exc(Exception):
             pass

         # Devious code could crash structseqs' contructors
         class C:
             def __getitem__(self, i):
                 raise Exc
             def __len__(self):
                 return 9

         self.assertRaises(Exc, time.struct_time, C())

     def test_reduce(self):
         t = time.gmtime()
         x = t.__reduce__()

     def test_extended_getslice(self):
         # Test extended slicing by comparing with list slicing.
         t = time.gmtime()
         L = list(t)
         indices = (0, None, 1, 3, 19, 300, -1, -2, -31, -300)
         for start in indices:
             for stop in indices:
                 # Skip step 0 (invalid)
                 for step in indices[1:]:
                     self.assertEqual(list(t[start:stop:step]),
                                      L[start:stop:step])

 def test_main():
     support.run_unittest(StructSeqTest)

 if __name__ == "__main__":
     test_main()
	import os
	import time
	import unittest
	from test import support


	class StructSeqTest(unittest.TestCase):

	def test_tuple(self):
	t = time.gmtime()
	self.assertIsInstance(t, tuple)
	astuple = tuple(t)
	self.assertEqual(len(t), len(astuple))
	self.assertEqual(t, astuple)

	# Check that slicing works the same way; at one point, slicing t[i:j] with
	# 0 < i < j could produce NULLs in the result.
	for i in range(-len(t), len(t)):
	self.assertEqual(t[i:], astuple[i:])
	for j in range(-len(t), len(t)):
	self.assertEqual(t[i:j], astuple[i:j])

	for j in range(-len(t), len(t)):
	self.assertEqual(t[:j], astuple[:j])

	self.assertRaises(IndexError, t.__getitem__, -len(t)-1)
	self.assertRaises(IndexError, t.__getitem__, len(t))
	for i in range(-len(t), len(t)-1):
	self.assertEqual(t[i], astuple[i])

	def test_repr(self):
	t = time.gmtime()
	self.assertTrue(repr(t))
	t = time.gmtime(0)
	self.assertEqual(repr(t),
	"time.struct_time(tm_year=1970, tm_mon=1, tm_mday=1, tm_hour=0, "
	"tm_min=0, tm_sec=0, tm_wday=3, tm_yday=1, tm_isdst=0)")
	# os.stat() gives a complicated struct sequence.
	st = os.stat(__file__)
	rep = repr(st)
	self.assertTrue(rep.startswith(os.name + ".stat_result"))
	self.assertIn("st_mode=", rep)
	self.assertIn("st_ino=", rep)
	self.assertIn("st_dev=", rep)

	def test_concat(self):
	t1 = time.gmtime()
	t2 = t1 + tuple(t1)
	for i in range(len(t1)):
	self.assertEqual(t2[i], t2[i+len(t1)])

	def test_repeat(self):
	t1 = time.gmtime()
	t2 = 3 * t1
	for i in range(len(t1)):
	self.assertEqual(t2[i], t2[i+len(t1)])
	self.assertEqual(t2[i], t2[i+2*len(t1)])

	def test_contains(self):
	t1 = time.gmtime()
	for item in t1:
	self.assertIn(item, t1)
	self.assertNotIn(-42, t1)

	def test_hash(self):
	t1 = time.gmtime()
	self.assertEqual(hash(t1), hash(tuple(t1)))

	def test_cmp(self):
	t1 = time.gmtime()
	t2 = type(t1)(t1)
	self.assertEqual(t1, t2)
	self.assertTrue(not (t1 < t2))
	self.assertTrue(t1 <= t2)
	self.assertTrue(not (t1 > t2))
	self.assertTrue(t1 >= t2)
	self.assertTrue(not (t1 != t2))

	def test_fields(self):
	t = time.gmtime()
	self.assertEqual(len(t), t.n_fields)
	self.assertEqual(t.n_fields, t.n_sequence_fields+t.n_unnamed_fields)

	def test_constructor(self):
	t = time.struct_time

	self.assertRaises(TypeError, t)
	self.assertRaises(TypeError, t, None)
	self.assertRaises(TypeError, t, "123")
	self.assertRaises(TypeError, t, "123", dict={})
	self.assertRaises(TypeError, t, "123456789", dict=None)

	s = "123456789"
	self.assertEqual("".join(t(s)), s)

	def test_eviltuple(self):
	class Exc(Exception):
	pass

	# Devious code could crash structseqs' contructors
	class C:
	def __getitem__(self, i):
	raise Exc
	def __len__(self):
	return 9

	self.assertRaises(Exc, time.struct_time, C())

	def test_reduce(self):
	t = time.gmtime()
	x = t.__reduce__()

	def test_extended_getslice(self):
	# Test extended slicing by comparing with list slicing.
	t = time.gmtime()
	L = list(t)
	indices = (0, None, 1, 3, 19, 300, -1, -2, -31, -300)
	for start in indices:
	for stop in indices:
	# Skip step 0 (invalid)
	for step in indices[1:]:
	self.assertEqual(list(t[start:stop:step]),
	L[start:stop:step])

	def test_main():
	support.run_unittest(StructSeqTest)

	if __name__ == "__main__":
	test_main()