from test.test_support import verbose import random from UserList import UserList nerrors = 0 def check(tag, expected, raw, compare=None): global nerrors if verbose: print " checking", tag orig = raw[:] # save input in case of error if compare: raw.sort(compare) else: raw.sort() if len(expected) != len(raw): print "error in", tag print "length mismatch;", len(expected), len(raw) print expected print orig print raw nerrors += 1 return for i, good in enumerate(expected): maybe = raw[i] if good is not maybe: print "error in", tag print "out of order at index", i, good, maybe print expected print orig print raw nerrors += 1 return # Try a variety of sizes at and around powers of 2, and at powers of 10. sizes = [0] for power in range(1, 10): n = 2 ** power sizes.extend(range(n-1, n+2)) sizes.extend([10, 100, 1000]) class Complains(object): maybe_complain = True def __init__(self, i): self.i = i def __lt__(self, other): if Complains.maybe_complain and random.random() < 0.001: if verbose: print " complaining at", self, other raise RuntimeError return self.i < other.i def __repr__(self): return "Complains(%d)" % self.i class Stable(object): def __init__(self, key, i): self.key = key self.index = i def __cmp__(self, other): return cmp(self.key, other.key) def __repr__(self): return "Stable(%d, %d)" % (self.key, self.index) for n in sizes: x = range(n) if verbose: print "Testing size", n s = x[:] check("identity", x, s) s = x[:] s.reverse() check("reversed", x, s) s = x[:] random.shuffle(s) check("random permutation", x, s) y = x[:] y.reverse() s = x[:] check("reversed via function", y, s, lambda a, b: cmp(b, a)) if verbose: print " Checking against an insane comparison function." print " If the implementation isn't careful, this may segfault." s = x[:] s.sort(lambda a, b: int(random.random() * 3) - 1) check("an insane function left some permutation", x, s) x = [Complains(i) for i in x] s = x[:] random.shuffle(s) Complains.maybe_complain = True it_complained = False try: s.sort() except RuntimeError: it_complained = True if it_complained: Complains.maybe_complain = False check("exception during sort left some permutation", x, s) s = [Stable(random.randrange(10), i) for i in xrange(n)] augmented = [(e, e.index) for e in s] augmented.sort() # forced stable because ties broken by index x = [e for e, i in augmented] # a stable sort of s check("stability", x, s) import unittest from test import test_support import sys #============================================================================== class TestBugs(unittest.TestCase): def test_bug453523(self): # bug 453523 -- list.sort() crasher. # If this fails, the most likely outcome is a core dump. # Mutations during a list sort should raise a ValueError. class C: def __lt__(self, other): if L and random.random() < 0.75: L.pop() else: L.append(3) return random.random() < 0.5 L = [C() for i in range(50)] self.assertRaises(ValueError, L.sort) def test_cmpNone(self): # Testing None as a comparison function. L = range(50) random.shuffle(L) L.sort(None) self.assertEqual(L, range(50)) #============================================================================== class TestDecorateSortUndecorate(unittest.TestCase): def test_decorated(self): data = 'The quick Brown fox Jumped over The lazy Dog'.split() copy = data[:] random.shuffle(data) data.sort(key=str.lower) copy.sort(cmp=lambda x,y: cmp(x.lower(), y.lower())) def test_baddecorator(self): data = 'The quick Brown fox Jumped over The lazy Dog'.split() self.assertRaises(TypeError, data.sort, None, lambda x,y: 0) def test_stability(self): data = [(random.randrange(100), i) for i in xrange(200)] copy = data[:] data.sort(key=lambda (x,y): x) # sort on the random first field copy.sort() # sort using both fields self.assertEqual(data, copy) # should get the same result def test_cmp_and_key_combination(self): # Verify that the wrapper has been removed def compare(x, y): self.assertEqual(type(x), str) self.assertEqual(type(x), str) return cmp(x, y) data = 'The quick Brown fox Jumped over The lazy Dog'.split() data.sort(cmp=compare, key=str.lower) def test_badcmp_with_key(self): # Verify that the wrapper has been removed data = 'The quick Brown fox Jumped over The lazy Dog'.split() self.assertRaises(TypeError, data.sort, "bad", str.lower) def test_key_with_exception(self): # Verify that the wrapper has been removed data = range(-2,2) dup = data[:] self.assertRaises(ZeroDivisionError, data.sort, None, lambda x: 1/x) self.assertEqual(data, dup) def test_key_with_mutation(self): data = range(10) def k(x): del data[:] data[:] = range(20) return x self.assertRaises(ValueError, data.sort, key=k) def test_key_with_mutating_del(self): data = range(10) class SortKiller(object): def __init__(self, x): pass def __del__(self): del data[:] data[:] = range(20) self.assertRaises(ValueError, data.sort, key=SortKiller) def test_key_with_mutating_del_and_exception(self): data = range(10) ## dup = data[:] class SortKiller(object): def __init__(self, x): if x > 2: raise RuntimeError def __del__(self): del data[:] data[:] = range(20) self.assertRaises(RuntimeError, data.sort, key=SortKiller) ## major honking subtlety: we *can't* do: ## ## self.assertEqual(data, dup) ## ## because there is a reference to a SortKiller in the ## traceback and by the time it dies we're outside the call to ## .sort() and so the list protection gimmicks are out of ## date (this cost some brain cells to figure out...). def test_reverse(self): data = range(100) random.shuffle(data) data.sort(reverse=True) self.assertEqual(data, range(99,-1,-1)) self.assertRaises(TypeError, data.sort, "wrong type") def test_reverse_stability(self): data = [(random.randrange(100), i) for i in xrange(200)] copy1 = data[:] copy2 = data[:] data.sort(cmp=lambda x,y: cmp(x[0],y[0]), reverse=True) copy1.sort(cmp=lambda x,y: cmp(y[0],x[0])) self.assertEqual(data, copy1) copy2.sort(key=lambda x: x[0], reverse=True) self.assertEqual(data, copy2) class TestSorted(unittest.TestCase): def test_basic(self): data = range(100) copy = data[:] random.shuffle(copy) self.assertEqual(data, list.sorted(copy)) self.assertNotEqual(data, copy) data.reverse() random.shuffle(copy) self.assertEqual(data, list.sorted(copy, cmp=lambda x, y: cmp(y,x))) self.assertNotEqual(data, copy) random.shuffle(copy) self.assertEqual(data, list.sorted(copy, key=lambda x: -x)) self.assertNotEqual(data, copy) random.shuffle(copy) self.assertEqual(data, list.sorted(copy, reverse=1)) self.assertNotEqual(data, copy) def test_inputtypes(self): s = 'abracadabra' for T in [unicode, list, tuple]: self.assertEqual(list.sorted(s), list.sorted(T(s))) s = ''.join(dict.fromkeys(s).keys()) # unique letters only for T in [unicode, set, frozenset, list, tuple, dict.fromkeys]: self.assertEqual(list.sorted(s), list.sorted(T(s))) def test_baddecorator(self): data = 'The quick Brown fox Jumped over The lazy Dog'.split() self.assertRaises(TypeError, list.sorted, data, None, lambda x,y: 0) def classmethods(self): s = "hello world" a = list.sorted(s) b = UserList.sorted(s) c = [].sorted(s) d = UserList().sorted(s) class Mylist(list): def __new__(cls): return UserList() e = MyList.sorted(s) f = MyList().sorted(s) class Myuserlist(UserList): def __new__(cls): return [] g = MyList.sorted(s) h = MyList().sorted(s) self.assert_(a == b == c == d == e == f == g == h) self.assert_(b.__class__ == d.__class__ == UserList) self.assert_(e.__class__ == f.__class__ == MyList) self.assert_(g.__class__ == h.__class__ == Myuserlist) #============================================================================== def test_main(verbose=None): test_classes = ( TestDecorateSortUndecorate, TestSorted, TestBugs, ) test_support.run_unittest(*test_classes) # verify reference counting if verbose and hasattr(sys, "gettotalrefcount"): import gc counts = [None] * 5 for i in xrange(len(counts)): test_support.run_unittest(*test_classes) gc.collect() counts[i] = sys.gettotalrefcount() print counts if __name__ == "__main__": test_main(verbose=True)