import sys import os import unittest from array import array from weakref import proxy import io import _pyio as pyio from test.support.os_helper import TESTFN from test.support import os_helper from test.support import warnings_helper from collections import UserList class AutoFileTests: # file tests for which a test file is automatically set up def setUp(self): self.f = self.open(TESTFN, 'wb') def tearDown(self): if self.f: self.f.close() os_helper.unlink(TESTFN) def testWeakRefs(self): # verify weak references p = proxy(self.f) p.write(b'teststring') self.assertEqual(self.f.tell(), p.tell()) self.f.close() self.f = None self.assertRaises(ReferenceError, getattr, p, 'tell') def testAttributes(self): # verify expected attributes exist f = self.f f.name # merely shouldn't blow up f.mode # ditto f.closed # ditto def testReadinto(self): # verify readinto self.f.write(b'12') self.f.close() a = array('b', b'x'*10) self.f = self.open(TESTFN, 'rb') n = self.f.readinto(a) self.assertEqual(b'12', a.tobytes()[:n]) def testReadinto_text(self): # verify readinto refuses text files a = array('b', b'x'*10) self.f.close() self.f = self.open(TESTFN, encoding="utf-8") if hasattr(self.f, "readinto"): self.assertRaises(TypeError, self.f.readinto, a) def testWritelinesUserList(self): # verify writelines with instance sequence l = UserList([b'1', b'2']) self.f.writelines(l) self.f.close() self.f = self.open(TESTFN, 'rb') buf = self.f.read() self.assertEqual(buf, b'12') def testWritelinesIntegers(self): # verify writelines with integers self.assertRaises(TypeError, self.f.writelines, [1, 2, 3]) def testWritelinesIntegersUserList(self): # verify writelines with integers in UserList l = UserList([1,2,3]) self.assertRaises(TypeError, self.f.writelines, l) def testWritelinesNonString(self): # verify writelines with non-string object class NonString: pass self.assertRaises(TypeError, self.f.writelines, [NonString(), NonString()]) def testErrors(self): f = self.f self.assertEqual(f.name, TESTFN) self.assertFalse(f.isatty()) self.assertFalse(f.closed) if hasattr(f, "readinto"): self.assertRaises((OSError, TypeError), f.readinto, "") f.close() self.assertTrue(f.closed) def testMethods(self): methods = [('fileno', ()), ('flush', ()), ('isatty', ()), ('__next__', ()), ('read', ()), ('write', (b"",)), ('readline', ()), ('readlines', ()), ('seek', (0,)), ('tell', ()), ('write', (b"",)), ('writelines', ([],)), ('__iter__', ()), ] methods.append(('truncate', ())) # __exit__ should close the file self.f.__exit__(None, None, None) self.assertTrue(self.f.closed) for methodname, args in methods: method = getattr(self.f, methodname) # should raise on closed file self.assertRaises(ValueError, method, *args) # file is closed, __exit__ shouldn't do anything self.assertEqual(self.f.__exit__(None, None, None), None) # it must also return None if an exception was given try: 1/0 except: self.assertEqual(self.f.__exit__(*sys.exc_info()), None) def testReadWhenWriting(self): self.assertRaises(OSError, self.f.read) class CAutoFileTests(AutoFileTests, unittest.TestCase): open = io.open class PyAutoFileTests(AutoFileTests, unittest.TestCase): open = staticmethod(pyio.open) class OtherFileTests: def tearDown(self): os_helper.unlink(TESTFN) def testModeStrings(self): # check invalid mode strings self.open(TESTFN, 'wb').close() for mode in ("", "aU", "wU+", "U+", "+U", "rU+"): try: f = self.open(TESTFN, mode) except ValueError: pass else: f.close() self.fail('%r is an invalid file mode' % mode) def testBadModeArgument(self): # verify that we get a sensible error message for bad mode argument bad_mode = "qwerty" try: f = self.open(TESTFN, bad_mode) except ValueError as msg: if msg.args[0] != 0: s = str(msg) if TESTFN in s or bad_mode not in s: self.fail("bad error message for invalid mode: %s" % s) # if msg.args[0] == 0, we're probably on Windows where there may be # no obvious way to discover why open() failed. else: f.close() self.fail("no error for invalid mode: %s" % bad_mode) def _checkBufferSize(self, s): try: f = self.open(TESTFN, 'wb', s) f.write(str(s).encode("ascii")) f.close() f.close() f = self.open(TESTFN, 'rb', s) d = int(f.read().decode("ascii")) f.close() f.close() except OSError as msg: self.fail('error setting buffer size %d: %s' % (s, str(msg))) self.assertEqual(d, s) def testSetBufferSize(self): # make sure that explicitly setting the buffer size doesn't cause # misbehaviour especially with repeated close() calls for s in (-1, 0, 512): with warnings_helper.check_no_warnings(self, message='line buffering', category=RuntimeWarning): self._checkBufferSize(s) # test that attempts to use line buffering in binary mode cause # a warning with self.assertWarnsRegex(RuntimeWarning, 'line buffering'): self._checkBufferSize(1) def testTruncateOnWindows(self): # SF bug # "file.truncate fault on windows" f = self.open(TESTFN, 'wb') try: f.write(b'12345678901') # 11 bytes f.close() f = self.open(TESTFN,'rb+') data = f.read(5) if data != b'12345': self.fail("Read on file opened for update failed %r" % data) if f.tell() != 5: self.fail("File pos after read wrong %d" % f.tell()) f.truncate() if f.tell() != 5: self.fail("File pos after ftruncate wrong %d" % f.tell()) f.close() size = os.path.getsize(TESTFN) if size != 5: self.fail("File size after ftruncate wrong %d" % size) finally: f.close() def testIteration(self): # Test the complex interaction when mixing file-iteration and the # various read* methods. dataoffset = 16384 filler = b"ham\n" assert not dataoffset % len(filler), \ "dataoffset must be multiple of len(filler)" nchunks = dataoffset // len(filler) testlines = [ b"spam, spam and eggs\n", b"eggs, spam, ham and spam\n", b"saussages, spam, spam and eggs\n", b"spam, ham, spam and eggs\n", b"spam, spam, spam, spam, spam, ham, spam\n", b"wonderful spaaaaaam.\n" ] methods = [("readline", ()), ("read", ()), ("readlines", ()), ("readinto", (array("b", b" "*100),))] # Prepare the testfile bag = self.open(TESTFN, "wb") bag.write(filler * nchunks) bag.writelines(testlines) bag.close() # Test for appropriate errors mixing read* and iteration for methodname, args in methods: f = self.open(TESTFN, 'rb') self.assertEqual(next(f), filler) meth = getattr(f, methodname) meth(*args) # This simply shouldn't fail f.close() # Test to see if harmless (by accident) mixing of read* and # iteration still works. This depends on the size of the internal # iteration buffer (currently 8192,) but we can test it in a # flexible manner. Each line in the bag o' ham is 4 bytes # ("h", "a", "m", "\n"), so 4096 lines of that should get us # exactly on the buffer boundary for any power-of-2 buffersize # between 4 and 16384 (inclusive). f = self.open(TESTFN, 'rb') for i in range(nchunks): next(f) testline = testlines.pop(0) try: line = f.readline() except ValueError: self.fail("readline() after next() with supposedly empty " "iteration-buffer failed anyway") if line != testline: self.fail("readline() after next() with empty buffer " "failed. Got %r, expected %r" % (line, testline)) testline = testlines.pop(0) buf = array("b", b"\x00" * len(testline)) try: f.readinto(buf) except ValueError: self.fail("readinto() after next() with supposedly empty " "iteration-buffer failed anyway") line = buf.tobytes() if line != testline: self.fail("readinto() after next() with empty buffer " "failed. Got %r, expected %r" % (line, testline)) testline = testlines.pop(0) try: line = f.read(len(testline)) except ValueError: self.fail("read() after next() with supposedly empty " "iteration-buffer failed anyway") if line != testline: self.fail("read() after next() with empty buffer " "failed. Got %r, expected %r" % (line, testline)) try: lines = f.readlines() except ValueError: self.fail("readlines() after next() with supposedly empty " "iteration-buffer failed anyway") if lines != testlines: self.fail("readlines() after next() with empty buffer " "failed. Got %r, expected %r" % (line, testline)) f.close() # Reading after iteration hit EOF shouldn't hurt either f = self.open(TESTFN, 'rb') try: for line in f: pass try: f.readline() f.readinto(buf) f.read() f.readlines() except ValueError: self.fail("read* failed after next() consumed file") finally: f.close() class COtherFileTests(OtherFileTests, unittest.TestCase): open = io.open class PyOtherFileTests(OtherFileTests, unittest.TestCase): open = staticmethod(pyio.open) if __name__ == '__main__': unittest.main()