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path: root/Lib/test/test_io.py
blob: 2ac2e17a03e62ea8bdb59e99dde5702ad8fc5a03 (plain)
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"""Unit tests for the io module."""

# Tests of io are scattered over the test suite:
# * test_bufio - tests file buffering
# * test_memoryio - tests BytesIO and StringIO
# * test_fileio - tests FileIO
# * test_file - tests the file interface
# * test_io - tests everything else in the io module
# * test_univnewlines - tests universal newline support
# * test_largefile - tests operations on a file greater than 2**32 bytes
#     (only enabled with -ulargefile)

################################################################################
# ATTENTION TEST WRITERS!!!
################################################################################
# When writing tests for io, it's important to test both the C and Python
# implementations. This is usually done by writing a base test that refers to
# the type it is testing as an attribute. Then it provides custom subclasses to
# test both implementations. This file has lots of examples.
################################################################################

import abc
import array
import errno
import locale
import os
import pickle
import random
import signal
import sys
import threading
import time
import unittest
import warnings
import weakref
from collections import deque, UserList
from itertools import cycle, count
from test import support
from test.support.script_helper import assert_python_ok, run_python_until_end

import codecs
import io  # C implementation of io
import _pyio as pyio # Python implementation of io

try:
    import ctypes
except ImportError:
    def byteslike(*pos, **kw):
        return array.array("b", bytes(*pos, **kw))
else:
    def byteslike(*pos, **kw):
        """Create a bytes-like object having no string or sequence methods"""
        data = bytes(*pos, **kw)
        obj = EmptyStruct()
        ctypes.resize(obj, len(data))
        memoryview(obj).cast("B")[:] = data
        return obj
    class EmptyStruct(ctypes.Structure):
        pass

def _default_chunk_size():
    """Get the default TextIOWrapper chunk size"""
    with open(__file__, "r", encoding="latin-1") as f:
        return f._CHUNK_SIZE


class MockRawIOWithoutRead:
    """A RawIO implementation without read(), so as to exercise the default
    RawIO.read() which calls readinto()."""

    def __init__(self, read_stack=()):
        self._read_stack = list(read_stack)
        self._write_stack = []
        self._reads = 0
        self._extraneous_reads = 0

    def write(self, b):
        self._write_stack.append(bytes(b))
        return len(b)

    def writable(self):
        return True

    def fileno(self):
        return 42

    def readable(self):
        return True

    def seekable(self):
        return True

    def seek(self, pos, whence):
        return 0   # wrong but we gotta return something

    def tell(self):
        return 0   # same comment as above

    def readinto(self, buf):
        self._reads += 1
        max_len = len(buf)
        try:
            data = self._read_stack[0]
        except IndexError:
            self._extraneous_reads += 1
            return 0
        if data is None:
            del self._read_stack[0]
            return None
        n = len(data)
        if len(data) <= max_len:
            del self._read_stack[0]
            buf[:n] = data
            return n
        else:
            buf[:] = data[:max_len]
            self._read_stack[0] = data[max_len:]
            return max_len

    def truncate(self, pos=None):
        return pos

class CMockRawIOWithoutRead(MockRawIOWithoutRead, io.RawIOBase):
    pass

class PyMockRawIOWithoutRead(MockRawIOWithoutRead, pyio.RawIOBase):
    pass


class MockRawIO(MockRawIOWithoutRead):

    def read(self, n=None):
        self._reads += 1
        try:
            return self._read_stack.pop(0)
        except:
            self._extraneous_reads += 1
            return b""

class CMockRawIO(MockRawIO, io.RawIOBase):
    pass

class PyMockRawIO(MockRawIO, pyio.RawIOBase):
    pass


class MisbehavedRawIO(MockRawIO):
    def write(self, b):
        return super().write(b) * 2

    def read(self, n=None):
        return super().read(n) * 2

    def seek(self, pos, whence):
        return -123

    def tell(self):
        return -456

    def readinto(self, buf):
        super().readinto(buf)
        return len(buf) * 5

class CMisbehavedRawIO(MisbehavedRawIO, io.RawIOBase):
    pass

class PyMisbehavedRawIO(MisbehavedRawIO, pyio.RawIOBase):
    pass


class SlowFlushRawIO(MockRawIO):
    def __init__(self):
        super().__init__()
        self.in_flush = threading.Event()

    def flush(self):
        self.in_flush.set()
        time.sleep(0.25)

class CSlowFlushRawIO(SlowFlushRawIO, io.RawIOBase):
    pass

class PySlowFlushRawIO(SlowFlushRawIO, pyio.RawIOBase):
    pass


class CloseFailureIO(MockRawIO):
    closed = 0

    def close(self):
        if not self.closed:
            self.closed = 1
            raise OSError

class CCloseFailureIO(CloseFailureIO, io.RawIOBase):
    pass

class PyCloseFailureIO(CloseFailureIO, pyio.RawIOBase):
    pass


class MockFileIO:

    def __init__(self, data):
        self.read_history = []
        super().__init__(data)

    def read(self, n=None):
        res = super().read(n)
        self.read_history.append(None if res is None else len(res))
        return res

    def readinto(self, b):
        res = super().readinto(b)
        self.read_history.append(res)
        return res

class CMockFileIO(MockFileIO, io.BytesIO):
    pass

class PyMockFileIO(MockFileIO, pyio.BytesIO):
    pass


class MockUnseekableIO:
    def seekable(self):
        return False

    def seek(self, *args):
        raise self.UnsupportedOperation("not seekable")

    def tell(self, *args):
        raise self.UnsupportedOperation("not seekable")

    def truncate(self, *args):
        raise self.UnsupportedOperation("not seekable")

class CMockUnseekableIO(MockUnseekableIO, io.BytesIO):
    UnsupportedOperation = io.UnsupportedOperation

class PyMockUnseekableIO(MockUnseekableIO, pyio.BytesIO):
    UnsupportedOperation = pyio.UnsupportedOperation


class MockNonBlockWriterIO:

    def __init__(self):
        self._write_stack = []
        self._blocker_char = None

    def pop_written(self):
        s = b"".join(self._write_stack)
        self._write_stack[:] = []
        return s

    def block_on(self, char):
        """Block when a given char is encountered."""
        self._blocker_char = char

    def readable(self):
        return True

    def seekable(self):
        return True

    def writable(self):
        return True

    def write(self, b):
        b = bytes(b)
        n = -1
        if self._blocker_char:
            try:
                n = b.index(self._blocker_char)
            except ValueError:
                pass
            else:
                if n > 0:
                    # write data up to the first blocker
                    self._write_stack.append(b[:n])
                    return n
                else:
                    # cancel blocker and indicate would block
                    self._blocker_char = None
                    return None
        self._write_stack.append(b)
        return len(b)

class CMockNonBlockWriterIO(MockNonBlockWriterIO, io.RawIOBase):
    BlockingIOError = io.BlockingIOError

class PyMockNonBlockWriterIO(MockNonBlockWriterIO, pyio.RawIOBase):
    BlockingIOError = pyio.BlockingIOError


class IOTest(unittest.TestCase):

    def setUp(self):
        support.unlink(support.TESTFN)

    def tearDown(self):
        support.unlink(support.TESTFN)

    def write_ops(self, f):
        self.assertEqual(f.write(b"blah."), 5)
        f.truncate(0)
        self.assertEqual(f.tell(), 5)
        f.seek(0)

        self.assertEqual(f.write(b"blah."), 5)
        self.assertEqual(f.seek(0), 0)
        self.assertEqual(f.write(b"Hello."), 6)
        self.assertEqual(f.tell(), 6)
        self.assertEqual(f.seek(-1, 1), 5)
        self.assertEqual(f.tell(), 5)
        buffer = bytearray(b" world\n\n\n")
        self.assertEqual(f.write(buffer), 9)
        buffer[:] = b"*" * 9  # Overwrite our copy of the data
        self.assertEqual(f.seek(0), 0)
        self.assertEqual(f.write(b"h"), 1)
        self.assertEqual(f.seek(-1, 2), 13)
        self.assertEqual(f.tell(), 13)

        self.assertEqual(f.truncate(12), 12)
        self.assertEqual(f.tell(), 13)
        self.assertRaises(TypeError, f.seek, 0.0)

    def read_ops(self, f, buffered=False):
        data = f.read(5)
        self.assertEqual(data, b"hello")
        data = byteslike(data)
        self.assertEqual(f.readinto(data), 5)
        self.assertEqual(bytes(data), b" worl")
        data = bytearray(5)
        self.assertEqual(f.readinto(data), 2)
        self.assertEqual(len(data), 5)
        self.assertEqual(data[:2], b"d\n")
        self.assertEqual(f.seek(0), 0)
        self.assertEqual(f.read(20), b"hello world\n")
        self.assertEqual(f.read(1), b"")
        self.assertEqual(f.readinto(byteslike(b"x")), 0)
        self.assertEqual(f.seek(-6, 2), 6)
        self.assertEqual(f.read(5), b"world")
        self.assertEqual(f.read(0), b"")
        self.assertEqual(f.readinto(byteslike()), 0)
        self.assertEqual(f.seek(-6, 1), 5)
        self.assertEqual(f.read(5), b" worl")
        self.assertEqual(f.tell(), 10)
        self.assertRaises(TypeError, f.seek, 0.0)
        if buffered:
            f.seek(0)
            self.assertEqual(f.read(), b"hello world\n")
            f.seek(6)
            self.assertEqual(f.read(), b"world\n")
            self.assertEqual(f.read(), b"")
            f.seek(0)
            data = byteslike(5)
            self.assertEqual(f.readinto1(data), 5)
            self.assertEqual(bytes(data), b"hello")

    LARGE = 2**31

    def large_file_ops(self, f):
        assert f.readable()
        assert f.writable()
        try:
            self.assertEqual(f.seek(self.LARGE), self.LARGE)
        except (OverflowError, ValueError):
            self.skipTest("no largefile support")
        self.assertEqual(f.tell(), self.LARGE)
        self.assertEqual(f.write(b"xxx"), 3)
        self.assertEqual(f.tell(), self.LARGE + 3)
        self.assertEqual(f.seek(-1, 1), self.LARGE + 2)
        self.assertEqual(f.truncate(), self.LARGE + 2)
        self.assertEqual(f.tell(), self.LARGE + 2)
        self.assertEqual(f.seek(0, 2), self.LARGE + 2)
        self.assertEqual(f.truncate(self.LARGE + 1), self.LARGE + 1)
        self.assertEqual(f.tell(), self.LARGE + 2)
        self.assertEqual(f.seek(0, 2), self.LARGE + 1)
        self.assertEqual(f.seek(-1, 2), self.LARGE)
        self.assertEqual(f.read(2), b"x")

    def test_invalid_operations(self):
        # Try writing on a file opened in read mode and vice-versa.
        exc = self.UnsupportedOperation
        for mode in ("w", "wb"):
            with self.open(support.TESTFN, mode) as fp:
                self.assertRaises(exc, fp.read)
                self.assertRaises(exc, fp.readline)
        with self.open(support.TESTFN, "wb", buffering=0) as fp:
            self.assertRaises(exc, fp.read)
            self.assertRaises(exc, fp.readline)
        with self.open(support.TESTFN, "rb", buffering=0) as fp:
            self.assertRaises(exc, fp.write, b"blah")
            self.assertRaises(exc, fp.writelines, [b"blah\n"])
        with self.open(support.TESTFN, "rb") as fp:
            self.assertRaises(exc, fp.write, b"blah")
            self.assertRaises(exc, fp.writelines, [b"blah\n"])
        with self.open(support.TESTFN, "r") as fp:
            self.assertRaises(exc, fp.write, "blah")
            self.assertRaises(exc, fp.writelines, ["blah\n"])
            # Non-zero seeking from current or end pos
            self.assertRaises(exc, fp.seek, 1, self.SEEK_CUR)
            self.assertRaises(exc, fp.seek, -1, self.SEEK_END)

    def test_optional_abilities(self):
        # Test for OSError when optional APIs are not supported
        # The purpose of this test is to try fileno(), reading, writing and
        # seeking operations with various objects that indicate they do not
        # support these operations.

        def pipe_reader():
            [r, w] = os.pipe()
            os.close(w)  # So that read() is harmless
            return self.FileIO(r, "r")

        def pipe_writer():
            [r, w] = os.pipe()
            self.addCleanup(os.close, r)
            # Guarantee that we can write into the pipe without blocking
            thread = threading.Thread(target=os.read, args=(r, 100))
            thread.start()
            self.addCleanup(thread.join)
            return self.FileIO(w, "w")

        def buffered_reader():
            return self.BufferedReader(self.MockUnseekableIO())

        def buffered_writer():
            return self.BufferedWriter(self.MockUnseekableIO())

        def buffered_random():
            return self.BufferedRandom(self.BytesIO())

        def buffered_rw_pair():
            return self.BufferedRWPair(self.MockUnseekableIO(),
                self.MockUnseekableIO())

        def text_reader():
            class UnseekableReader(self.MockUnseekableIO):
                writable = self.BufferedIOBase.writable
                write = self.BufferedIOBase.write
            return self.TextIOWrapper(UnseekableReader(), "ascii")

        def text_writer():
            class UnseekableWriter(self.MockUnseekableIO):
                readable = self.BufferedIOBase.readable
                read = self.BufferedIOBase.read
            return self.TextIOWrapper(UnseekableWriter(), "ascii")

        tests = (
            (pipe_reader, "fr"), (pipe_writer, "fw"),
            (buffered_reader, "r"), (buffered_writer, "w"),
            (buffered_random, "rws"), (buffered_rw_pair, "rw"),
            (text_reader, "r"), (text_writer, "w"),
            (self.BytesIO, "rws"), (self.StringIO, "rws"),
        )
        for [test, abilities] in tests:
            with self.subTest(test), test() as obj:
                readable = "r" in abilities
                self.assertEqual(obj.readable(), readable)
                writable = "w" in abilities
                self.assertEqual(obj.writable(), writable)

                if isinstance(obj, self.TextIOBase):
                    data = "3"
                elif isinstance(obj, (self.BufferedIOBase, self.RawIOBase)):
                    data = b"3"
                else:
                    self.fail("Unknown base class")

                if "f" in abilities:
                    obj.fileno()
                else:
                    self.assertRaises(OSError, obj.fileno)

                if readable:
                    obj.read(1)
                    obj.read()
                else:
                    self.assertRaises(OSError, obj.read, 1)
                    self.assertRaises(OSError, obj.read)

                if writable:
                    obj.write(data)
                else:
                    self.assertRaises(OSError, obj.write, data)

                if sys.platform.startswith("win") and test in (
                        pipe_reader, pipe_writer):
                    # Pipes seem to appear as seekable on Windows
                    continue
                seekable = "s" in abilities
                self.assertEqual(obj.seekable(), seekable)

                if seekable:
                    obj.tell()
                    obj.seek(0)
                else:
                    self.assertRaises(OSError, obj.tell)
                    self.assertRaises(OSError, obj.seek, 0)

                if writable and seekable:
                    obj.truncate()
                    obj.truncate(0)
                else:
                    self.assertRaises(OSError, obj.truncate)
                    self.assertRaises(OSError, obj.truncate, 0)

    def test_open_handles_NUL_chars(self):
        fn_with_NUL = 'foo\0bar'
        self.assertRaises(ValueError, self.open, fn_with_NUL, 'w')

        bytes_fn = bytes(fn_with_NUL, 'ascii')
        with warnings.catch_warnings():
            warnings.simplefilter("ignore", DeprecationWarning)
            self.assertRaises(ValueError, self.open, bytes_fn, 'w')

    def test_raw_file_io(self):
        with self.open(support.TESTFN, "wb", buffering=0) as f:
            self.assertEqual(f.readable(), False)
            self.assertEqual(f.writable(), True)
            self.assertEqual(f.seekable(), True)
            self.write_ops(f)
        with self.open(support.TESTFN, "rb", buffering=0) as f:
            self.assertEqual(f.readable(), True)
            self.assertEqual(f.writable(), False)
            self.assertEqual(f.seekable(), True)
            self.read_ops(f)

    def test_buffered_file_io(self):
        with self.open(support.TESTFN, "wb") as f:
            self.assertEqual(f.readable(), False)
            self.assertEqual(f.writable(), True)
            self.assertEqual(f.seekable(), True)
            self.write_ops(f)
        with self.open(support.TESTFN, "rb") as f:
            self.assertEqual(f.readable(), True)
            self.assertEqual(f.writable(), False)
            self.assertEqual(f.seekable(), True)
            self.read_ops(f, True)

    def test_readline(self):
        with self.open(support.TESTFN, "wb") as f:
            f.write(b"abc\ndef\nxyzzy\nfoo\x00bar\nanother line")
        with self.open(support.TESTFN, "rb") as f:
            self.assertEqual(f.readline(), b"abc\n")
            self.assertEqual(f.readline(10), b"def\n")
            self.assertEqual(f.readline(2), b"xy")
            self.assertEqual(f.readline(4), b"zzy\n")
            self.assertEqual(f.readline(), b"foo\x00bar\n")
            self.assertEqual(f.readline(None), b"another line")
            self.assertRaises(TypeError, f.readline, 5.3)
        with self.open(support.TESTFN, "r") as f:
            self.assertRaises(TypeError, f.readline, 5.3)

    def test_readline_nonsizeable(self):
        # Issue #30061
        # Crash when readline() returns an object without __len__
        class R(self.IOBase):
            def readline(self):
                return None
        self.assertRaises((TypeError, StopIteration), next, R())

    def test_next_nonsizeable(self):
        # Issue #30061
        # Crash when __next__() returns an object without __len__
        class R(self.IOBase):
            def __next__(self):
                return None
        self.assertRaises(TypeError, R().readlines, 1)

    def test_raw_bytes_io(self):
        f = self.BytesIO()
        self.write_ops(f)
        data = f.getvalue()
        self.assertEqual(data, b"hello world\n")
        f = self.BytesIO(data)
        self.read_ops(f, True)

    def test_large_file_ops(self):
        # On Windows and Mac OSX this test comsumes large resources; It takes
        # a long time to build the >2 GiB file and takes >2 GiB of disk space
        # therefore the resource must be enabled to run this test.
        if sys.platform[:3] == 'win' or sys.platform == 'darwin':
            support.requires(
                'largefile',
                'test requires %s bytes and a long time to run' % self.LARGE)
        with self.open(support.TESTFN, "w+b", 0) as f:
            self.large_file_ops(f)
        with self.open(support.TESTFN, "w+b") as f:
            self.large_file_ops(f)

    def test_with_open(self):
        for bufsize in (0, 1, 100):
            f = None
            with self.open(support.TESTFN, "wb", bufsize) as f:
                f.write(b"xxx")
            self.assertEqual(f.closed, True)
            f = None
            try:
                with self.open(support.TESTFN, "wb", bufsize) as f:
                    1/0
            except ZeroDivisionError:
                self.assertEqual(f.closed, True)
            else:
                self.fail("1/0 didn't raise an exception")

    # issue 5008
    def test_append_mode_tell(self):
        with self.open(support.TESTFN, "wb") as f:
            f.write(b"xxx")
        with self.open(support.TESTFN, "ab", buffering=0) as f:
            self.assertEqual(f.tell(), 3)
        with self.open(support.TESTFN, "ab") as f:
            self.assertEqual(f.tell(), 3)
        with self.open(support.TESTFN, "a") as f:
            self.assertGreater(f.tell(), 0)

    def test_destructor(self):
        record = []
        class MyFileIO(self.FileIO):
            def __del__(self):
                record.append(1)
                try:
                    f = super().__del__
                except AttributeError:
                    pass
                else:
                    f()
            def close(self):
                record.append(2)
                super().close()
            def flush(self):
                record.append(3)
                super().flush()
        with support.check_warnings(('', ResourceWarning)):
            f = MyFileIO(support.TESTFN, "wb")
            f.write(b"xxx")
            del f
            support.gc_collect()
            self.assertEqual(record, [1, 2, 3])
            with self.open(support.TESTFN, "rb") as f:
                self.assertEqual(f.read(), b"xxx")

    def _check_base_destructor(self, base):
        record = []
        class MyIO(base):
            def __init__(self):
                # This exercises the availability of attributes on object
                # destruction.
                # (in the C version, close() is called by the tp_dealloc
                # function, not by __del__)
                self.on_del = 1
                self.on_close = 2
                self.on_flush = 3
            def __del__(self):
                record.append(self.on_del)
                try:
                    f = super().__del__
                except AttributeError:
                    pass
                else:
                    f()
            def close(self):
                record.append(self.on_close)
                super().close()
            def flush(self):
                record.append(self.on_flush)
                super().flush()
        f = MyIO()
        del f
        support.gc_collect()
        self.assertEqual(record, [1, 2, 3])

    def test_IOBase_destructor(self):
        self._check_base_destructor(self.IOBase)

    def test_RawIOBase_destructor(self):
        self._check_base_destructor(self.RawIOBase)

    def test_BufferedIOBase_destructor(self):
        self._check_base_destructor(self.BufferedIOBase)

    def test_TextIOBase_destructor(self):
        self._check_base_destructor(self.TextIOBase)

    def test_close_flushes(self):
        with self.open(support.TESTFN, "wb") as f:
            f.write(b"xxx")
        with self.open(support.TESTFN, "rb") as f:
            self.assertEqual(f.read(), b"xxx")

    def test_array_writes(self):
        a = array.array('i', range(10))
        n = len(a.tobytes())
        def check(f):
            with f:
                self.assertEqual(f.write(a), n)
                f.writelines((a,))
        check(self.BytesIO())
        check(self.FileIO(support.TESTFN, "w"))
        check(self.BufferedWriter(self.MockRawIO()))
        check(self.BufferedRandom(self.MockRawIO()))
        check(self.BufferedRWPair(self.MockRawIO(), self.MockRawIO()))

    def test_closefd(self):
        self.assertRaises(ValueError, self.open, support.TESTFN, 'w',
                          closefd=False)

    def test_read_closed(self):
        with self.open(support.TESTFN, "w") as f:
            f.write("egg\n")
        with self.open(support.TESTFN, "r") as f:
            file = self.open(f.fileno(), "r", closefd=False)
            self.assertEqual(file.read(), "egg\n")
            file.seek(0)
            file.close()
            self.assertRaises(ValueError, file.read)

    def test_no_closefd_with_filename(self):
        # can't use closefd in combination with a file name
        self.assertRaises(ValueError, self.open, support.TESTFN, "r", closefd=False)

    def test_closefd_attr(self):
        with self.open(support.TESTFN, "wb") as f:
            f.write(b"egg\n")
        with self.open(support.TESTFN, "r") as f:
            self.assertEqual(f.buffer.raw.closefd, True)
            file = self.open(f.fileno(), "r", closefd=False)
            self.assertEqual(file.buffer.raw.closefd, False)

    def test_garbage_collection(self):
        # FileIO objects are collected, and collecting them flushes
        # all data to disk.
        with support.check_warnings(('', ResourceWarning)):
            f = self.FileIO(support.TESTFN, "wb")
            f.write(b"abcxxx")
            f.f = f
            wr = weakref.ref(f)
            del f
            support.gc_collect()
        self.assertIsNone(wr(), wr)
        with self.open(support.TESTFN, "rb") as f:
            self.assertEqual(f.read(), b"abcxxx")

    def test_unbounded_file(self):
        # Issue #1174606: reading from an unbounded stream such as /dev/zero.
        zero = "/dev/zero"
        if not os.path.exists(zero):
            self.skipTest("{0} does not exist".format(zero))
        if sys.maxsize > 0x7FFFFFFF:
            self.skipTest("test can only run in a 32-bit address space")
        if support.real_max_memuse < support._2G:
            self.skipTest("test requires at least 2 GiB of memory")
        with self.open(zero, "rb", buffering=0) as f:
            self.assertRaises(OverflowError, f.read)
        with self.open(zero, "rb") as f:
            self.assertRaises(OverflowError, f.read)
        with self.open(zero, "r") as f:
            self.assertRaises(OverflowError, f.read)

    def check_flush_error_on_close(self, *args, **kwargs):
        # Test that the file is closed despite failed flush
        # and that flush() is called before file closed.
        f = self.open(*args, **kwargs)
        closed = []
        def bad_flush():
            closed[:] = [f.closed]
            raise OSError()
        f.flush = bad_flush
        self.assertRaises(OSError, f.close) # exception not swallowed
        self.assertTrue(f.closed)
        self.assertTrue(closed)      # flush() called
        self.assertFalse(closed[0])  # flush() called before file closed
        f.flush = lambda: None  # break reference loop

    def test_flush_error_on_close(self):
        # raw file
        # Issue #5700: io.FileIO calls flush() after file closed
        self.check_flush_error_on_close(support.TESTFN, 'wb', buffering=0)
        fd = os.open(support.TESTFN, os.O_WRONLY|os.O_CREAT)
        self.check_flush_error_on_close(fd, 'wb', buffering=0)
        fd = os.open(support.TESTFN, os.O_WRONLY|os.O_CREAT)
        self.check_flush_error_on_close(fd, 'wb', buffering=0, closefd=False)
        os.close(fd)
        # buffered io
        self.check_flush_error_on_close(support.TESTFN, 'wb')
        fd = os.open(support.TESTFN, os.O_WRONLY|os.O_CREAT)
        self.check_flush_error_on_close(fd, 'wb')
        fd = os.open(support.TESTFN, os.O_WRONLY|os.O_CREAT)
        self.check_flush_error_on_close(fd, 'wb', closefd=False)
        os.close(fd)
        # text io
        self.check_flush_error_on_close(support.TESTFN, 'w')
        fd = os.open(support.TESTFN, os.O_WRONLY|os.O_CREAT)
        self.check_flush_error_on_close(fd, 'w')
        fd = os.open(support.TESTFN, os.O_WRONLY|os.O_CREAT)
        self.check_flush_error_on_close(fd, 'w', closefd=False)
        os.close(fd)

    def test_multi_close(self):
        f = self.open(support.TESTFN, "wb", buffering=0)
        f.close()
        f.close()
        f.close()
        self.assertRaises(ValueError, f.flush)

    def test_RawIOBase_read(self):
        # Exercise the default RawIOBase.read() implementation (which calls
        # readinto() internally).
        rawio = self.MockRawIOWithoutRead((b"abc", b"d", None, b"efg", None))
        self.assertEqual(rawio.read(2), b"ab")
        self.assertEqual(rawio.read(2), b"c")
        self.assertEqual(rawio.read(2), b"d")
        self.assertEqual(rawio.read(2), None)
        self.assertEqual(rawio.read(2), b"ef")
        self.assertEqual(rawio.read(2), b"g")
        self.assertEqual(rawio.read(2), None)
        self.assertEqual(rawio.read(2), b"")

    def test_types_have_dict(self):
        test = (
            self.IOBase(),
            self.RawIOBase(),
            self.TextIOBase(),
            self.StringIO(),
            self.BytesIO()
        )
        for obj in test:
            self.assertTrue(hasattr(obj, "__dict__"))

    def test_opener(self):
        with self.open(support.TESTFN, "w") as f:
            f.write("egg\n")
        fd = os.open(support.TESTFN, os.O_RDONLY)
        def opener(path, flags):
            return fd
        with self.open("non-existent", "r", opener=opener) as f:
            self.assertEqual(f.read(), "egg\n")

    def test_bad_opener_negative_1(self):
        # Issue #27066.
        def badopener(fname, flags):
            return -1
        with self.assertRaises(ValueError) as cm:
            open('non-existent', 'r', opener=badopener)
        self.assertEqual(str(cm.exception), 'opener returned -1')

    def test_bad_opener_other_negative(self):
        # Issue #27066.
        def badopener(fname, flags):
            return -2
        with self.assertRaises(ValueError) as cm:
            open('non-existent', 'r', opener=badopener)
        self.assertEqual(str(cm.exception), 'opener returned -2')

    def test_fileio_closefd(self):
        # Issue #4841
        with self.open(__file__, 'rb') as f1, \
             self.open(__file__, 'rb') as f2:
            fileio = self.FileIO(f1.fileno(), closefd=False)
            # .__init__() must not close f1
            fileio.__init__(f2.fileno(), closefd=False)
            f1.readline()
            # .close() must not close f2
            fileio.close()
            f2.readline()

    def test_nonbuffered_textio(self):
        with support.check_no_resource_warning(self):
            with self.assertRaises(ValueError):
                self.open(support.TESTFN, 'w', buffering=0)

    def test_invalid_newline(self):
        with support.check_no_resource_warning(self):
            with self.assertRaises(ValueError):
                self.open(support.TESTFN, 'w', newline='invalid')

    def test_buffered_readinto_mixin(self):
        # Test the implementation provided by BufferedIOBase
        class Stream(self.BufferedIOBase):
            def read(self, size):
                return b"12345"
            read1 = read
        stream = Stream()
        for method in ("readinto", "readinto1"):
            with self.subTest(method):
                buffer = byteslike(5)
                self.assertEqual(getattr(stream, method)(buffer), 5)
                self.assertEqual(bytes(buffer), b"12345")

    def test_fspath_support(self):
        class PathLike:
            def __init__(self, path):
                self.path = path

            def __fspath__(self):
                return self.path

        def check_path_succeeds(path):
            with self.open(path, "w") as f:
                f.write("egg\n")

            with self.open(path, "r") as f:
                self.assertEqual(f.read(), "egg\n")

        check_path_succeeds(PathLike(support.TESTFN))
        check_path_succeeds(PathLike(support.TESTFN.encode('utf-8')))

        bad_path = PathLike(TypeError)
        with self.assertRaises(TypeError):
            self.open(bad_path, 'w')

        # ensure that refcounting is correct with some error conditions
        with self.assertRaisesRegex(ValueError, 'read/write/append mode'):
            self.open(PathLike(support.TESTFN), 'rwxa')


class CIOTest(IOTest):

    def test_IOBase_finalize(self):
        # Issue #12149: segmentation fault on _PyIOBase_finalize when both a
        # class which inherits IOBase and an object of this class are caught
        # in a reference cycle and close() is already in the method cache.
        class MyIO(self.IOBase):
            def close(self):
                pass

        # create an instance to populate the method cache
        MyIO()
        obj = MyIO()
        obj.obj = obj
        wr = weakref.ref(obj)
        del MyIO
        del obj
        support.gc_collect()
        self.assertIsNone(wr(), wr)

class PyIOTest(IOTest):
    pass


@support.cpython_only
class APIMismatchTest(unittest.TestCase):

    def test_RawIOBase_io_in_pyio_match(self):
        """Test that pyio RawIOBase class has all c RawIOBase methods"""
        mismatch = support.detect_api_mismatch(pyio.RawIOBase, io.RawIOBase,
                                               ignore=('__weakref__',))
        self.assertEqual(mismatch, set(), msg='Python RawIOBase does not have all C RawIOBase methods')

    def test_RawIOBase_pyio_in_io_match(self):
        """Test that c RawIOBase class has all pyio RawIOBase methods"""
        mismatch = support.detect_api_mismatch(io.RawIOBase, pyio.RawIOBase)
        self.assertEqual(mismatch, set(), msg='C RawIOBase does not have all Python RawIOBase methods')


class CommonBufferedTests:
    # Tests common to BufferedReader, BufferedWriter and BufferedRandom

    def test_detach(self):
        raw = self.MockRawIO()
        buf = self.tp(raw)
        self.assertIs(buf.detach(), raw)
        self.assertRaises(ValueError, buf.detach)

        repr(buf)  # Should still work

    def test_fileno(self):
        rawio = self.MockRawIO()
        bufio = self.tp(rawio)

        self.assertEqual(42, bufio.fileno())

    def test_invalid_args(self):
        rawio = self.MockRawIO()
        bufio = self.tp(rawio)
        # Invalid whence
        self.assertRaises(ValueError, bufio.seek, 0, -1)
        self.assertRaises(ValueError, bufio.seek, 0, 9)

    def test_override_destructor(self):
        tp = self.tp
        record = []
        class MyBufferedIO(tp):
            def __del__(self):
                record.append(1)
                try:
                    f = super().__del__
                except AttributeError:
                    pass
                else:
                    f()
            def close(self):
                record.append(2)
                super().close()
            def flush(self):
                record.append(3)
                super().flush()
        rawio = self.MockRawIO()
        bufio = MyBufferedIO(rawio)
        del bufio
        support.gc_collect()
        self.assertEqual(record, [1, 2, 3])

    def test_context_manager(self):
        # Test usability as a context manager
        rawio = self.MockRawIO()
        bufio = self.tp(rawio)
        def _with():
            with bufio:
                pass
        _with()
        # bufio should now be closed, and using it a second time should raise
        # a ValueError.
        self.assertRaises(ValueError, _with)

    def test_error_through_destructor(self):
        # Test that the exception state is not modified by a destructor,
        # even if close() fails.
        rawio = self.CloseFailureIO()
        def f():
            self.tp(rawio).xyzzy
        with support.captured_output("stderr") as s:
            self.assertRaises(AttributeError, f)
        s = s.getvalue().strip()
        if s:
            # The destructor *may* have printed an unraisable error, check it
            self.assertEqual(len(s.splitlines()), 1)
            self.assertTrue(s.startswith("Exception OSError: "), s)
            self.assertTrue(s.endswith(" ignored"), s)

    def test_repr(self):
        raw = self.MockRawIO()
        b = self.tp(raw)
        clsname = "%s.%s" % (self.tp.__module__, self.tp.__qualname__)
        self.assertEqual(repr(b), "<%s>" % clsname)
        raw.name = "dummy"
        self.assertEqual(repr(b), "<%s name='dummy'>" % clsname)
        raw.name = b"dummy"
        self.assertEqual(repr(b), "<%s name=b'dummy'>" % clsname)

    def test_recursive_repr(self):
        # Issue #25455
        raw = self.MockRawIO()
        b = self.tp(raw)
        with support.swap_attr(raw, 'name', b):
            try:
                repr(b)  # Should not crash
            except RuntimeError:
                pass

    def test_flush_error_on_close(self):
        # Test that buffered file is closed despite failed flush
        # and that flush() is called before file closed.
        raw = self.MockRawIO()
        closed = []
        def bad_flush():
            closed[:] = [b.closed, raw.closed]
            raise OSError()
        raw.flush = bad_flush
        b = self.tp(raw)
        self.assertRaises(OSError, b.close) # exception not swallowed
        self.assertTrue(b.closed)
        self.assertTrue(raw.closed)
        self.assertTrue(closed)      # flush() called
        self.assertFalse(closed[0])  # flush() called before file closed
        self.assertFalse(closed[1])
        raw.flush = lambda: None  # break reference loop

    def test_close_error_on_close(self):
        raw = self.MockRawIO()
        def bad_flush():
            raise OSError('flush')
        def bad_close():
            raise OSError('close')
        raw.close = bad_close
        b = self.tp(raw)
        b.flush = bad_flush
        with self.assertRaises(OSError) as err: # exception not swallowed
            b.close()
        self.assertEqual(err.exception.args, ('close',))
        self.assertIsInstance(err.exception.__context__, OSError)
        self.assertEqual(err.exception.__context__.args, ('flush',))
        self.assertFalse(b.closed)

    def test_nonnormalized_close_error_on_close(self):
        # Issue #21677
        raw = self.MockRawIO()
        def bad_flush():
            raise non_existing_flush
        def bad_close():
            raise non_existing_close
        raw.close = bad_close
        b = self.tp(raw)
        b.flush = bad_flush
        with self.assertRaises(NameError) as err: # exception not swallowed
            b.close()
        self.assertIn('non_existing_close', str(err.exception))
        self.assertIsInstance(err.exception.__context__, NameError)
        self.assertIn('non_existing_flush', str(err.exception.__context__))
        self.assertFalse(b.closed)

    def test_multi_close(self):
        raw = self.MockRawIO()
        b = self.tp(raw)
        b.close()
        b.close()
        b.close()
        self.assertRaises(ValueError, b.flush)

    def test_unseekable(self):
        bufio = self.tp(self.MockUnseekableIO(b"A" * 10))
        self.assertRaises(self.UnsupportedOperation, bufio.tell)
        self.assertRaises(self.UnsupportedOperation, bufio.seek, 0)

    def test_readonly_attributes(self):
        raw = self.MockRawIO()
        buf = self.tp(raw)
        x = self.MockRawIO()
        with self.assertRaises(AttributeError):
            buf.raw = x


class SizeofTest:

    @support.cpython_only
    def test_sizeof(self):
        bufsize1 = 4096
        bufsize2 = 8192
        rawio = self.MockRawIO()
        bufio = self.tp(rawio, buffer_size=bufsize1)
        size = sys.getsizeof(bufio) - bufsize1
        rawio = self.MockRawIO()
        bufio = self.tp(rawio, buffer_size=bufsize2)
        self.assertEqual(sys.getsizeof(bufio), size + bufsize2)

    @support.cpython_only
    def test_buffer_freeing(self) :
        bufsize = 4096
        rawio = self.MockRawIO()
        bufio = self.tp(rawio, buffer_size=bufsize)
        size = sys.getsizeof(bufio) - bufsize
        bufio.close()
        self.assertEqual(sys.getsizeof(bufio), size)

class BufferedReaderTest(unittest.TestCase, CommonBufferedTests):
    read_mode = "rb"

    def test_constructor(self):
        rawio = self.MockRawIO([b"abc"])
        bufio = self.tp(rawio)
        bufio.__init__(rawio)
        bufio.__init__(rawio, buffer_size=1024)
        bufio.__init__(rawio, buffer_size=16)
        self.assertEqual(b"abc", bufio.read())
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=0)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-16)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-1)
        rawio = self.MockRawIO([b"abc"])
        bufio.__init__(rawio)
        self.assertEqual(b"abc", bufio.read())

    def test_uninitialized(self):
        bufio = self.tp.__new__(self.tp)
        del bufio
        bufio = self.tp.__new__(self.tp)
        self.assertRaisesRegex((ValueError, AttributeError),
                               'uninitialized|has no attribute',
                               bufio.read, 0)
        bufio.__init__(self.MockRawIO())
        self.assertEqual(bufio.read(0), b'')

    def test_read(self):
        for arg in (None, 7):
            rawio = self.MockRawIO((b"abc", b"d", b"efg"))
            bufio = self.tp(rawio)
            self.assertEqual(b"abcdefg", bufio.read(arg))
        # Invalid args
        self.assertRaises(ValueError, bufio.read, -2)

    def test_read1(self):
        rawio = self.MockRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)
        self.assertEqual(b"a", bufio.read(1))
        self.assertEqual(b"b", bufio.read1(1))
        self.assertEqual(rawio._reads, 1)
        self.assertEqual(b"", bufio.read1(0))
        self.assertEqual(b"c", bufio.read1(100))
        self.assertEqual(rawio._reads, 1)
        self.assertEqual(b"d", bufio.read1(100))
        self.assertEqual(rawio._reads, 2)
        self.assertEqual(b"efg", bufio.read1(100))
        self.assertEqual(rawio._reads, 3)
        self.assertEqual(b"", bufio.read1(100))
        self.assertEqual(rawio._reads, 4)

    def test_read1_arbitrary(self):
        rawio = self.MockRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)
        self.assertEqual(b"a", bufio.read(1))
        self.assertEqual(b"bc", bufio.read1())
        self.assertEqual(b"d", bufio.read1())
        self.assertEqual(b"efg", bufio.read1(-1))
        self.assertEqual(rawio._reads, 3)
        self.assertEqual(b"", bufio.read1())
        self.assertEqual(rawio._reads, 4)

    def test_readinto(self):
        rawio = self.MockRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)
        b = bytearray(2)
        self.assertEqual(bufio.readinto(b), 2)
        self.assertEqual(b, b"ab")
        self.assertEqual(bufio.readinto(b), 2)
        self.assertEqual(b, b"cd")
        self.assertEqual(bufio.readinto(b), 2)
        self.assertEqual(b, b"ef")
        self.assertEqual(bufio.readinto(b), 1)
        self.assertEqual(b, b"gf")
        self.assertEqual(bufio.readinto(b), 0)
        self.assertEqual(b, b"gf")
        rawio = self.MockRawIO((b"abc", None))
        bufio = self.tp(rawio)
        self.assertEqual(bufio.readinto(b), 2)
        self.assertEqual(b, b"ab")
        self.assertEqual(bufio.readinto(b), 1)
        self.assertEqual(b, b"cb")

    def test_readinto1(self):
        buffer_size = 10
        rawio = self.MockRawIO((b"abc", b"de", b"fgh", b"jkl"))
        bufio = self.tp(rawio, buffer_size=buffer_size)
        b = bytearray(2)
        self.assertEqual(bufio.peek(3), b'abc')
        self.assertEqual(rawio._reads, 1)
        self.assertEqual(bufio.readinto1(b), 2)
        self.assertEqual(b, b"ab")
        self.assertEqual(rawio._reads, 1)
        self.assertEqual(bufio.readinto1(b), 1)
        self.assertEqual(b[:1], b"c")
        self.assertEqual(rawio._reads, 1)
        self.assertEqual(bufio.readinto1(b), 2)
        self.assertEqual(b, b"de")
        self.assertEqual(rawio._reads, 2)
        b = bytearray(2*buffer_size)
        self.assertEqual(bufio.peek(3), b'fgh')
        self.assertEqual(rawio._reads, 3)
        self.assertEqual(bufio.readinto1(b), 6)
        self.assertEqual(b[:6], b"fghjkl")
        self.assertEqual(rawio._reads, 4)

    def test_readinto_array(self):
        buffer_size = 60
        data = b"a" * 26
        rawio = self.MockRawIO((data,))
        bufio = self.tp(rawio, buffer_size=buffer_size)

        # Create an array with element size > 1 byte
        b = array.array('i', b'x' * 32)
        assert len(b) != 16

        # Read into it. We should get as many *bytes* as we can fit into b
        # (which is more than the number of elements)
        n = bufio.readinto(b)
        self.assertGreater(n, len(b))

        # Check that old contents of b are preserved
        bm = memoryview(b).cast('B')
        self.assertLess(n, len(bm))
        self.assertEqual(bm[:n], data[:n])
        self.assertEqual(bm[n:], b'x' * (len(bm[n:])))

    def test_readinto1_array(self):
        buffer_size = 60
        data = b"a" * 26
        rawio = self.MockRawIO((data,))
        bufio = self.tp(rawio, buffer_size=buffer_size)

        # Create an array with element size > 1 byte
        b = array.array('i', b'x' * 32)
        assert len(b) != 16

        # Read into it. We should get as many *bytes* as we can fit into b
        # (which is more than the number of elements)
        n = bufio.readinto1(b)
        self.assertGreater(n, len(b))

        # Check that old contents of b are preserved
        bm = memoryview(b).cast('B')
        self.assertLess(n, len(bm))
        self.assertEqual(bm[:n], data[:n])
        self.assertEqual(bm[n:], b'x' * (len(bm[n:])))

    def test_readlines(self):
        def bufio():
            rawio = self.MockRawIO((b"abc\n", b"d\n", b"ef"))
            return self.tp(rawio)
        self.assertEqual(bufio().readlines(), [b"abc\n", b"d\n", b"ef"])
        self.assertEqual(bufio().readlines(5), [b"abc\n", b"d\n"])
        self.assertEqual(bufio().readlines(None), [b"abc\n", b"d\n", b"ef"])

    def test_buffering(self):
        data = b"abcdefghi"
        dlen = len(data)

        tests = [
            [ 100, [ 3, 1, 4, 8 ], [ dlen, 0 ] ],
            [ 100, [ 3, 3, 3],     [ dlen ]    ],
            [   4, [ 1, 2, 4, 2 ], [ 4, 4, 1 ] ],
        ]

        for bufsize, buf_read_sizes, raw_read_sizes in tests:
            rawio = self.MockFileIO(data)
            bufio = self.tp(rawio, buffer_size=bufsize)
            pos = 0
            for nbytes in buf_read_sizes:
                self.assertEqual(bufio.read(nbytes), data[pos:pos+nbytes])
                pos += nbytes
            # this is mildly implementation-dependent
            self.assertEqual(rawio.read_history, raw_read_sizes)

    def test_read_non_blocking(self):
        # Inject some None's in there to simulate EWOULDBLOCK
        rawio = self.MockRawIO((b"abc", b"d", None, b"efg", None, None, None))
        bufio = self.tp(rawio)
        self.assertEqual(b"abcd", bufio.read(6))
        self.assertEqual(b"e", bufio.read(1))
        self.assertEqual(b"fg", bufio.read())
        self.assertEqual(b"", bufio.peek(1))
        self.assertIsNone(bufio.read())
        self.assertEqual(b"", bufio.read())

        rawio = self.MockRawIO((b"a", None, None))
        self.assertEqual(b"a", rawio.readall())
        self.assertIsNone(rawio.readall())

    def test_read_past_eof(self):
        rawio = self.MockRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)

        self.assertEqual(b"abcdefg", bufio.read(9000))

    def test_read_all(self):
        rawio = self.MockRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)

        self.assertEqual(b"abcdefg", bufio.read())

    @support.requires_resource('cpu')
    def test_threads(self):
        try:
            # Write out many bytes with exactly the same number of 0's,
            # 1's... 255's. This will help us check that concurrent reading
            # doesn't duplicate or forget contents.
            N = 1000
            l = list(range(256)) * N
            random.shuffle(l)
            s = bytes(bytearray(l))
            with self.open(support.TESTFN, "wb") as f:
                f.write(s)
            with self.open(support.TESTFN, self.read_mode, buffering=0) as raw:
                bufio = self.tp(raw, 8)
                errors = []
                results = []
                def f():
                    try:
                        # Intra-buffer read then buffer-flushing read
                        for n in cycle([1, 19]):
                            s = bufio.read(n)
                            if not s:
                                break
                            # list.append() is atomic
                            results.append(s)
                    except Exception as e:
                        errors.append(e)
                        raise
                threads = [threading.Thread(target=f) for x in range(20)]
                with support.start_threads(threads):
                    time.sleep(0.02) # yield
                self.assertFalse(errors,
                    "the following exceptions were caught: %r" % errors)
                s = b''.join(results)
                for i in range(256):
                    c = bytes(bytearray([i]))
                    self.assertEqual(s.count(c), N)
        finally:
            support.unlink(support.TESTFN)

    def test_unseekable(self):
        bufio = self.tp(self.MockUnseekableIO(b"A" * 10))
        self.assertRaises(self.UnsupportedOperation, bufio.tell)
        self.assertRaises(self.UnsupportedOperation, bufio.seek, 0)
        bufio.read(1)
        self.assertRaises(self.UnsupportedOperation, bufio.seek, 0)
        self.assertRaises(self.UnsupportedOperation, bufio.tell)

    def test_misbehaved_io(self):
        rawio = self.MisbehavedRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)
        self.assertRaises(OSError, bufio.seek, 0)
        self.assertRaises(OSError, bufio.tell)

    def test_no_extraneous_read(self):
        # Issue #9550; when the raw IO object has satisfied the read request,
        # we should not issue any additional reads, otherwise it may block
        # (e.g. socket).
        bufsize = 16
        for n in (2, bufsize - 1, bufsize, bufsize + 1, bufsize * 2):
            rawio = self.MockRawIO([b"x" * n])
            bufio = self.tp(rawio, bufsize)
            self.assertEqual(bufio.read(n), b"x" * n)
            # Simple case: one raw read is enough to satisfy the request.
            self.assertEqual(rawio._extraneous_reads, 0,
                             "failed for {}: {} != 0".format(n, rawio._extraneous_reads))
            # A more complex case where two raw reads are needed to satisfy
            # the request.
            rawio = self.MockRawIO([b"x" * (n - 1), b"x"])
            bufio = self.tp(rawio, bufsize)
            self.assertEqual(bufio.read(n), b"x" * n)
            self.assertEqual(rawio._extraneous_reads, 0,
                             "failed for {}: {} != 0".format(n, rawio._extraneous_reads))

    def test_read_on_closed(self):
        # Issue #23796
        b = io.BufferedReader(io.BytesIO(b"12"))
        b.read(1)
        b.close()
        self.assertRaises(ValueError, b.peek)
        self.assertRaises(ValueError, b.read1, 1)


class CBufferedReaderTest(BufferedReaderTest, SizeofTest):
    tp = io.BufferedReader

    def test_constructor(self):
        BufferedReaderTest.test_constructor(self)
        # The allocation can succeed on 32-bit builds, e.g. with more
        # than 2 GiB RAM and a 64-bit kernel.
        if sys.maxsize > 0x7FFFFFFF:
            rawio = self.MockRawIO()
            bufio = self.tp(rawio)
            self.assertRaises((OverflowError, MemoryError, ValueError),
                bufio.__init__, rawio, sys.maxsize)

    def test_initialization(self):
        rawio = self.MockRawIO([b"abc"])
        bufio = self.tp(rawio)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=0)
        self.assertRaises(ValueError, bufio.read)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-16)
        self.assertRaises(ValueError, bufio.read)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-1)
        self.assertRaises(ValueError, bufio.read)

    def test_misbehaved_io_read(self):
        rawio = self.MisbehavedRawIO((b"abc", b"d", b"efg"))
        bufio = self.tp(rawio)
        # _pyio.BufferedReader seems to implement reading different, so that
        # checking this is not so easy.
        self.assertRaises(OSError, bufio.read, 10)

    def test_garbage_collection(self):
        # C BufferedReader objects are collected.
        # The Python version has __del__, so it ends into gc.garbage instead
        with support.check_warnings(('', ResourceWarning)):
            rawio = self.FileIO(support.TESTFN, "w+b")
            f = self.tp(rawio)
            f.f = f
            wr = weakref.ref(f)
            del f
            support.gc_collect()
        self.assertIsNone(wr(), wr)

    def test_args_error(self):
        # Issue #17275
        with self.assertRaisesRegex(TypeError, "BufferedReader"):
            self.tp(io.BytesIO(), 1024, 1024, 1024)


class PyBufferedReaderTest(BufferedReaderTest):
    tp = pyio.BufferedReader


class BufferedWriterTest(unittest.TestCase, CommonBufferedTests):
    write_mode = "wb"

    def test_constructor(self):
        rawio = self.MockRawIO()
        bufio = self.tp(rawio)
        bufio.__init__(rawio)
        bufio.__init__(rawio, buffer_size=1024)
        bufio.__init__(rawio, buffer_size=16)
        self.assertEqual(3, bufio.write(b"abc"))
        bufio.flush()
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=0)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-16)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-1)
        bufio.__init__(rawio)
        self.assertEqual(3, bufio.write(b"ghi"))
        bufio.flush()
        self.assertEqual(b"".join(rawio._write_stack), b"abcghi")

    def test_uninitialized(self):
        bufio = self.tp.__new__(self.tp)
        del bufio
        bufio = self.tp.__new__(self.tp)
        self.assertRaisesRegex((ValueError, AttributeError),
                               'uninitialized|has no attribute',
                               bufio.write, b'')
        bufio.__init__(self.MockRawIO())
        self.assertEqual(bufio.write(b''), 0)

    def test_detach_flush(self):
        raw = self.MockRawIO()
        buf = self.tp(raw)
        buf.write(b"howdy!")
        self.assertFalse(raw._write_stack)
        buf.detach()
        self.assertEqual(raw._write_stack, [b"howdy!"])

    def test_write(self):
        # Write to the buffered IO but don't overflow the buffer.
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        bufio.write(b"abc")
        self.assertFalse(writer._write_stack)
        buffer = bytearray(b"def")
        bufio.write(buffer)
        buffer[:] = b"***"  # Overwrite our copy of the data
        bufio.flush()
        self.assertEqual(b"".join(writer._write_stack), b"abcdef")

    def test_write_overflow(self):
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        contents = b"abcdefghijklmnop"
        for n in range(0, len(contents), 3):
            bufio.write(contents[n:n+3])
        flushed = b"".join(writer._write_stack)
        # At least (total - 8) bytes were implicitly flushed, perhaps more
        # depending on the implementation.
        self.assertTrue(flushed.startswith(contents[:-8]), flushed)

    def check_writes(self, intermediate_func):
        # Lots of writes, test the flushed output is as expected.
        contents = bytes(range(256)) * 1000
        n = 0
        writer = self.MockRawIO()
        bufio = self.tp(writer, 13)
        # Generator of write sizes: repeat each N 15 times then proceed to N+1
        def gen_sizes():
            for size in count(1):
                for i in range(15):
                    yield size
        sizes = gen_sizes()
        while n < len(contents):
            size = min(next(sizes), len(contents) - n)
            self.assertEqual(bufio.write(contents[n:n+size]), size)
            intermediate_func(bufio)
            n += size
        bufio.flush()
        self.assertEqual(contents, b"".join(writer._write_stack))

    def test_writes(self):
        self.check_writes(lambda bufio: None)

    def test_writes_and_flushes(self):
        self.check_writes(lambda bufio: bufio.flush())

    def test_writes_and_seeks(self):
        def _seekabs(bufio):
            pos = bufio.tell()
            bufio.seek(pos + 1, 0)
            bufio.seek(pos - 1, 0)
            bufio.seek(pos, 0)
        self.check_writes(_seekabs)
        def _seekrel(bufio):
            pos = bufio.seek(0, 1)
            bufio.seek(+1, 1)
            bufio.seek(-1, 1)
            bufio.seek(pos, 0)
        self.check_writes(_seekrel)

    def test_writes_and_truncates(self):
        self.check_writes(lambda bufio: bufio.truncate(bufio.tell()))

    def test_write_non_blocking(self):
        raw = self.MockNonBlockWriterIO()
        bufio = self.tp(raw, 8)

        self.assertEqual(bufio.write(b"abcd"), 4)
        self.assertEqual(bufio.write(b"efghi"), 5)
        # 1 byte will be written, the rest will be buffered
        raw.block_on(b"k")
        self.assertEqual(bufio.write(b"jklmn"), 5)

        # 8 bytes will be written, 8 will be buffered and the rest will be lost
        raw.block_on(b"0")
        try:
            bufio.write(b"opqrwxyz0123456789")
        except self.BlockingIOError as e:
            written = e.characters_written
        else:
            self.fail("BlockingIOError should have been raised")
        self.assertEqual(written, 16)
        self.assertEqual(raw.pop_written(),
            b"abcdefghijklmnopqrwxyz")

        self.assertEqual(bufio.write(b"ABCDEFGHI"), 9)
        s = raw.pop_written()
        # Previously buffered bytes were flushed
        self.assertTrue(s.startswith(b"01234567A"), s)

    def test_write_and_rewind(self):
        raw = io.BytesIO()
        bufio = self.tp(raw, 4)
        self.assertEqual(bufio.write(b"abcdef"), 6)
        self.assertEqual(bufio.tell(), 6)
        bufio.seek(0, 0)
        self.assertEqual(bufio.write(b"XY"), 2)
        bufio.seek(6, 0)
        self.assertEqual(raw.getvalue(), b"XYcdef")
        self.assertEqual(bufio.write(b"123456"), 6)
        bufio.flush()
        self.assertEqual(raw.getvalue(), b"XYcdef123456")

    def test_flush(self):
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        bufio.write(b"abc")
        bufio.flush()
        self.assertEqual(b"abc", writer._write_stack[0])

    def test_writelines(self):
        l = [b'ab', b'cd', b'ef']
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        bufio.writelines(l)
        bufio.flush()
        self.assertEqual(b''.join(writer._write_stack), b'abcdef')

    def test_writelines_userlist(self):
        l = UserList([b'ab', b'cd', b'ef'])
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        bufio.writelines(l)
        bufio.flush()
        self.assertEqual(b''.join(writer._write_stack), b'abcdef')

    def test_writelines_error(self):
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        self.assertRaises(TypeError, bufio.writelines, [1, 2, 3])
        self.assertRaises(TypeError, bufio.writelines, None)
        self.assertRaises(TypeError, bufio.writelines, 'abc')

    def test_destructor(self):
        writer = self.MockRawIO()
        bufio = self.tp(writer, 8)
        bufio.write(b"abc")
        del bufio
        support.gc_collect()
        self.assertEqual(b"abc", writer._write_stack[0])

    def test_truncate(self):
        # Truncate implicitly flushes the buffer.
        with self.open(support.TESTFN, self.write_mode, buffering=0) as raw:
            bufio = self.tp(raw, 8)
            bufio.write(b"abcdef")
            self.assertEqual(bufio.truncate(3), 3)
            self.assertEqual(bufio.tell(), 6)
        with self.open(support.TESTFN, "rb", buffering=0) as f:
            self.assertEqual(f.read(), b"abc")

    @support.requires_resource('cpu')
    def test_threads(self):
        try:
            # Write out many bytes from many threads and test they were
            # all flushed.
            N = 1000
            contents = bytes(range(256)) * N
            sizes = cycle([1, 19])
            n = 0
            queue = deque()
            while n < len(contents):
                size = next(sizes)
                queue.append(contents[n:n+size])
                n += size
            del contents
            # We use a real file object because it allows us to
            # exercise situations where the GIL is released before
            # writing the buffer to the raw streams. This is in addition
            # to concurrency issues due to switching threads in the middle
            # of Python code.
            with self.open(support.TESTFN, self.write_mode, buffering=0) as raw:
                bufio = self.tp(raw, 8)
                errors = []
                def f():
                    try:
                        while True:
                            try:
                                s = queue.popleft()
                            except IndexError:
                                return
                            bufio.write(s)
                    except Exception as e:
                        errors.append(e)
                        raise
                threads = [threading.Thread(target=f) for x in range(20)]
                with support.start_threads(threads):
                    time.sleep(0.02) # yield
                self.assertFalse(errors,
                    "the following exceptions were caught: %r" % errors)
                bufio.close()
            with self.open(support.TESTFN, "rb") as f:
                s = f.read()
            for i in range(256):
                self.assertEqual(s.count(bytes([i])), N)
        finally:
            support.unlink(support.TESTFN)

    def test_misbehaved_io(self):
        rawio = self.MisbehavedRawIO()
        bufio = self.tp(rawio, 5)
        self.assertRaises(OSError, bufio.seek, 0)
        self.assertRaises(OSError, bufio.tell)
        self.assertRaises(OSError, bufio.write, b"abcdef")

    def test_max_buffer_size_removal(self):
        with self.assertRaises(TypeError):
            self.tp(self.MockRawIO(), 8, 12)

    def test_write_error_on_close(self):
        raw = self.MockRawIO()
        def bad_write(b):
            raise OSError()
        raw.write = bad_write
        b = self.tp(raw)
        b.write(b'spam')
        self.assertRaises(OSError, b.close) # exception not swallowed
        self.assertTrue(b.closed)

    def test_slow_close_from_thread(self):
        # Issue #31976
        rawio = self.SlowFlushRawIO()
        bufio = self.tp(rawio, 8)
        t = threading.Thread(target=bufio.close)
        t.start()
        rawio.in_flush.wait()
        self.assertRaises(ValueError, bufio.write, b'spam')
        self.assertTrue(bufio.closed)
        t.join()



class CBufferedWriterTest(BufferedWriterTest, SizeofTest):
    tp = io.BufferedWriter

    def test_constructor(self):
        BufferedWriterTest.test_constructor(self)
        # The allocation can succeed on 32-bit builds, e.g. with more
        # than 2 GiB RAM and a 64-bit kernel.
        if sys.maxsize > 0x7FFFFFFF:
            rawio = self.MockRawIO()
            bufio = self.tp(rawio)
            self.assertRaises((OverflowError, MemoryError, ValueError),
                bufio.__init__, rawio, sys.maxsize)

    def test_initialization(self):
        rawio = self.MockRawIO()
        bufio = self.tp(rawio)
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=0)
        self.assertRaises(ValueError, bufio.write, b"def")
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-16)
        self.assertRaises(ValueError, bufio.write, b"def")
        self.assertRaises(ValueError, bufio.__init__, rawio, buffer_size=-1)
        self.assertRaises(ValueError, bufio.write, b"def")

    def test_garbage_collection(self):
        # C BufferedWriter objects are collected, and collecting them flushes
        # all data to disk.
        # The Python version has __del__, so it ends into gc.garbage instead
        with support.check_warnings(('', ResourceWarning)):
            rawio = self.FileIO(support.TESTFN, "w+b")
            f = self.tp(rawio)
            f.write(b"123xxx")
            f.x = f
            wr = weakref.ref(f)
            del f
            support.gc_collect()
        self.assertIsNone(wr(), wr)
        with self.open(support.TESTFN, "rb") as f:
            self.assertEqual(f.read(), b"123xxx")

    def test_args_error(self):
        # Issue #17275
        with self.assertRaisesRegex(TypeError, "BufferedWriter"):
            self.tp(io.BytesIO(), 1024, 1024, 1024)


class PyBufferedWriterTest(BufferedWriterTest):
    tp = pyio.BufferedWriter

class BufferedRWPairTest(unittest.TestCase):

    def test_constructor(self):
        pair = self.tp(self.MockRawIO(), self.MockRawIO())
        self.assertFalse(pair.closed)

    def test_uninitialized(self):
        pair = self.tp.__new__(self.tp)
        del pair
        pair = self.tp.__new__(self.tp)
        self.assertRaisesRegex((ValueError, AttributeError),
                               'uninitialized|has no attribute',
                               pair.read, 0)
        self.assertRaisesRegex((ValueError, AttributeError),
                               'uninitialized|has no attribute',
                               pair.write, b'')
        pair.__init__(self.MockRawIO(), self.MockRawIO())
        self.assertEqual(pair.read(0), b'')
        self.assertEqual(pair.write(b''), 0)

    def test_detach(self):
        pair = self.tp(self.MockRawIO(), self.MockRawIO())
        self.assertRaises(self.UnsupportedOperation, pair.detach)

    def test_constructor_max_buffer_size_removal(self):
        with self.assertRaises(TypeError):
            self.tp(self.MockRawIO(), self.MockRawIO(), 8, 12)

    def test_constructor_with_not_readable(self):
        class NotReadable(MockRawIO):
            def readable(self):
                return False

        self.assertRaises(OSError, self.tp, NotReadable(), self.MockRawIO())

    def test_constructor_with_not_writeable(self):
        class NotWriteable(MockRawIO):
            def writable(self):
                return False

        self.assertRaises(OSError, self.tp, self.MockRawIO(), NotWriteable())

    def test_read(self):
        pair = self.tp(self.BytesIO(b"abcdef"), self.MockRawIO())

        self.assertEqual(pair.read(3), b"abc")
        self.assertEqual(pair.read(1), b"d")
        self.assertEqual(pair.read(), b"ef")
        pair = self.tp(self.BytesIO(b"abc"), self.MockRawIO())
        self.assertEqual(pair.read(None), b"abc")

    def test_readlines(self):
        pair = lambda: self.tp(self.BytesIO(b"abc\ndef\nh"), self.MockRawIO())
        self.assertEqual(pair().readlines(), [b"abc\n", b"def\n", b"h"])
        self.assertEqual(pair().readlines(), [b"abc\n", b"def\n", b"h"])
        self.assertEqual(pair().readlines(5), [b"abc\n", b"def\n"])

    def test_read1(self):
        # .read1() is delegated to the underlying reader object, so this test
        # can be shallow.
        pair = self.tp(self.BytesIO(b"abcdef"), self.MockRawIO())

        self.assertEqual(pair.read1(3), b"abc")
        self.assertEqual(pair.read1(), b"def")

    def test_readinto(self):
        for method in ("readinto", "readinto1"):
            with self.subTest(method):
                pair = self.tp(self.BytesIO(b"abcdef"), self.MockRawIO())

                data = byteslike(b'\0' * 5)
                self.assertEqual(getattr(pair, method)(data), 5)
                self.assertEqual(bytes(data), b"abcde")

    def test_write(self):
        w = self.MockRawIO()
        pair = self.tp(self.MockRawIO(), w)

        pair.write(b"abc")
        pair.flush()
        buffer = bytearray(b"def")
        pair.write(buffer)
        buffer[:] = b"***"  # Overwrite our copy of the data
        pair.flush()
        self.assertEqual(w._write_stack, [b"abc", b"def"])

    def test_peek(self):
        pair = self.tp(self.BytesIO(b"abcdef"), self.MockRawIO())

        self.assertTrue(pair.peek(3).startswith(b"abc"))
        self.assertEqual(pair.read(3), b"abc")

    def test_readable(self):
        pair = self.tp(self.MockRawIO(), self.MockRawIO())
        self.assertTrue(pair.readable())

    def test_writeable(self):
        pair = self.tp(self.MockRawIO(), self.MockRawIO())
        self.assertTrue(pair.writable())

    def test_seekable(self):
        # BufferedRWPairs are never seekable, even if their readers and writers
        # are.
        pair = self.tp(self.MockRawIO(), self.MockRawIO())
        self.assertFalse(pair.seekable())

    # .flush() is delegated to the underlying writer object and has been
    # tested in the test_write method.

    def test_close_and_closed(self):
        pair = self.tp(self.MockRawIO(), self.MockRawIO())
        self.assertFalse(pair.closed)
        pair.close()
        self.assertTrue(pair.closed)

    def test_reader_close_error_on_close(self):
        def reader_close():
            reader_non_existing
        reader = self.MockRawIO()
        reader.close = reader_close
        writer = self.MockRawIO()
        pair = self.tp(reader, writer)
        with self.assertRaises(NameError) as err:
            pair.close()
        self.assertIn('reader_non_existing', str(err.exception))
        self.assertTrue(pair.closed)
        self.assertFalse(reader.closed)
        self.assertTrue(writer.closed)

    def test_writer_close_error_on_close(self):
        def writer_close():
            writer_non_existing
        reader = self.MockRawIO()
        writer = self.MockRawIO()
        writer.close = writer_close
        pair = self.tp(reader, writer)
        with self.assertRaises(NameError) as err:
            pair.close()
        self.assertIn('writer_non_existing', str(err.exception))
        self.assertFalse(pair.closed)
        self.assertTrue(reader.closed)
        self.assertFalse(writer.closed)

    def test_reader_writer_close_error_on_close(self):
        def reader_close():
            reader_non_existing
        def writer_close():
            writer_non_existing
        reader = self.MockRawIO()
        reader.close = reader_close
        writer = self.MockRawIO()
        writer.close = writer_close
        pair = self.tp(reader, writer)
        with self.assertRaises(NameError) as err:
            pair.close()
        self.assertIn('reader_non_existing', str(err.exception))
        self.assertIsInstance(err.exception.__context__, NameError)
        self.assertIn('writer_non_existing', str(err.exception.__context__))
        self.assertFalse(pair.closed)
        self.assertFalse(reader.closed)
        self.assertFalse(writer.closed)

    def test_isatty(self):
        class SelectableIsAtty(MockRawIO):
            def __init__(self, isatty):
                MockRawIO.__init__(self)
                self._isatty = isatty

            def isatty(self):
                return self._isatty

        pair = self.tp(SelectableIsAtty(False), SelectableIsAtty(False))
        self.assertFalse(pair.isatty())

        pair = self.tp(SelectableIsAtty(True), SelectableIsAtty(False))
        self.assertTrue(pair.isatty())

        pair = self.tp(SelectableIsAtty(False), SelectableIsAtty(True))
        self.assertTrue(pair.isatty())

        pair = self.tp(SelectableIsAtty(True), SelectableIsAtty(True))
        self.assertTrue(pair.isatty())

    def test_weakref_clearing(self):
        brw = self.tp(self.MockRawIO(), self.MockRawIO())
        ref = weakref.ref(brw)
        brw = None
        ref = None # Shouldn't segfault.

class CBufferedRWPairTest(BufferedRWPairTest):
    tp = io.BufferedRWPair

class PyBufferedRWPairTest(BufferedRWPairTest):
    tp = pyio.BufferedRWPair


class BufferedRandomTest(BufferedReaderTest, BufferedWriterTest):
    read_mode = "rb+"
    write_mode = "wb+"

    def test_constructor(self):
        BufferedReaderTest.test_constructor(self)
        BufferedWriterTest.test_constructor(self)

    def test_uninitialized(self):
        BufferedReaderTest.test_uninitialized(self)
        BufferedWriterTest.test_uninitialized(self)

    def test_read_and_write(self):
        raw = self.MockRawIO((b"asdf", b"ghjk"))
        rw = self.tp(raw, 8)

        self.assertEqual(b"as", rw.read(2))
        rw.write(b"ddd")
        rw.write(b"eee")
        self.assertFalse(raw._write_stack) # Buffer writes
        self.assertEqual(b"ghjk", rw.read())
        self.assertEqual(b"dddeee", raw._write_stack[0])

    def test_seek_and_tell(self):
        raw = self.BytesIO(b"asdfghjkl")
        rw = self.tp(raw)

        self.assertEqual(b"as", rw.read(2))
        self.assertEqual(2, rw.tell())
        rw.seek(0, 0)
        self.assertEqual(b"asdf", rw.read(4))

        rw.write(b"123f")
        rw.seek(0, 0)
        self.assertEqual(b"asdf123fl", rw.read())
        self.assertEqual(9, rw.tell())
        rw.seek(-4, 2)
        self.assertEqual(5, rw.tell())
        rw.seek(2, 1)
        self.assertEqual(7, rw.tell())
        self.assertEqual(b"fl", rw.read(11))
        rw.flush()
        self.assertEqual(b"asdf123fl", raw.getvalue())

        self.assertRaises(TypeError, rw.seek, 0.0)

    def check_flush_and_read(self, read_func):
        raw = self.BytesIO(b"abcdefghi")
        bufio = self.tp(raw)

        self.assertEqual(b"ab", read_func(bufio, 2))
        bufio.write(b"12")
        self.assertEqual(b"ef", read_func(bufio, 2))
        self.assertEqual(6, bufio.tell())
        bufio.flush()
        self.assertEqual(6, bufio.tell())
        self.assertEqual(b"ghi", read_func(bufio))
        raw.seek(0, 0)
        raw.write(b"XYZ")
        # flush() resets the read buffer
        bufio.flush()
        bufio.seek(0, 0)
        self.assertEqual(b"XYZ", read_func(bufio, 3))

    def test_flush_and_read(self):
        self.check_flush_and_read(lambda bufio, *args: bufio.read(*args))

    def test_flush_and_readinto(self):
        def _readinto(bufio, n=-1):
            b = bytearray(n if n >= 0 else 9999)
            n = bufio.readinto(b)
            return bytes(b[:n])
        self.check_flush_and_read(_readinto)

    def test_flush_and_peek(self):
        def _peek(bufio, n=-1):
            # This relies on the fact that the buffer can contain the whole
            # raw stream, otherwise peek() can return less.
            b = bufio.peek(n)
            if n != -1:
                b = b[:n]
            bufio.seek(len(b), 1)
            return b
        self.check_flush_and_read(_peek)

    def test_flush_and_write(self):
        raw = self.BytesIO(b"abcdefghi")
        bufio = self.tp(raw)

        bufio.write(b"123")
        bufio.flush()
        bufio.write(b"45")
        bufio.flush()
        bufio.seek(0, 0)
        self.assertEqual(b"12345fghi", raw.getvalue())
        self.assertEqual(b"12345fghi", bufio.read())

    def test_threads(self):
        BufferedReaderTest.test_threads(self)
        BufferedWriterTest.test_threads(self)

    def test_writes_and_peek(self):
        def _peek(bufio):
            bufio.peek(1)
        self.check_writes(_peek)
        def _peek(bufio):
            pos = bufio.tell()
            bufio.seek(-1, 1)
            bufio.peek(1)
            bufio.seek(pos, 0)
        self.check_writes(_peek)

    def test_writes_and_reads(self):
        def _read(bufio):
            bufio.seek(-1, 1)
            bufio.read(1)
        self.check_writes(_read)

    def test_writes_and_read1s(self):
        def _read1(bufio):
            bufio.seek(-1, 1)
            bufio.read1(1)
        self.check_writes(_read1)

    def test_writes_and_readintos(self):
        def _read(bufio):
            bufio.seek(-1, 1)
            bufio.readinto(bytearray(1))
        self.check_writes(_read)

    def test_write_after_readahead(self):
        # Issue #6629: writing after the buffer was filled by readahead should
        # first rewind the raw stream.
        for overwrite_size in [1, 5]:
            raw = self.BytesIO(b"A" * 10)
            bufio = self.tp(raw, 4)
            # Trigger readahead
            self.assertEqual(bufio.read(1), b"A")
            self.assertEqual(bufio.tell(), 1)
            # Overwriting should rewind the raw stream if it needs so
            bufio.write(b"B" * overwrite_size)
            self.assertEqual(bufio.tell(), overwrite_size + 1)
            # If the write size was smaller than the buffer size, flush() and
            # check that rewind happens.
            bufio.flush()
            self.assertEqual(bufio.tell(), overwrite_size + 1)
            s = raw.getvalue()
            self.assertEqual(s,
                b"A" + b"B" * overwrite_size + b"A" * (9 - overwrite_size))

    def test_write_rewind_write(self):
        # Various combinations of reading / writing / seeking backwards / writing again
        def mutate(bufio, pos1, pos2):
            assert pos2 >= pos1
            # Fill the buffer
            bufio.seek(pos1)
            bufio.read(pos2 - pos1)
            bufio.write(b'\x02')
            # This writes earlier than the previous write, but still inside
            # the buffer.
            bufio.seek(pos1)
            bufio.write(b'\x01')

        b = b"\x80\x81\x82\x83\x84"
        for i in range(0, len(b)):
            for j in range(i, len(b)):
                raw = self.BytesIO(b)
                bufio = self.tp(raw, 100)
                mutate(bufio, i, j)
                bufio.flush()
                expected = bytearray(b)
                expected[j] = 2
                expected[i] = 1
                self.assertEqual(raw.getvalue(), expected,
                                 "failed result for i=%d, j=%d" % (i, j))

    def test_truncate_after_read_or_write(self):
        raw = self.BytesIO(b"A" * 10)
        bufio = self.tp(raw, 100)
        self.assertEqual(bufio.read(2), b"AA") # the read buffer gets filled
        self.assertEqual(bufio.truncate(), 2)
        self.assertEqual(bufio.write(b"BB"), 2) # the write buffer increases
        self.assertEqual(bufio.truncate(), 4)

    def test_misbehaved_io(self):
        BufferedReaderTest.test_misbehaved_io(self)
        BufferedWriterTest.test_misbehaved_io(self)

    def test_interleaved_read_write(self):
        # Test for issue #12213
        with self.BytesIO(b'abcdefgh') as raw:
            with self.tp(raw, 100) as f:
                f.write(b"1")
                self.assertEqual(f.read(1), b'b')
                f.write(b'2')
                self.assertEqual(f.read1(1), b'd')
                f.write(b'3')
                buf = bytearray(1)
                f.readinto(buf)
                self.assertEqual(buf, b'f')
                f.write(b'4')
                self.assertEqual(f.peek(1), b'h')
                f.flush()
                self.assertEqual(raw.getvalue(), b'1b2d3f4h')

        with self.BytesIO(b'abc') as raw:
            with self.tp(raw, 100) as f:
                self.assertEqual(f.read(1), b'a')
                f.write(b"2")
                self.assertEqual(f.read(1), b'c')
                f.flush()
                self.assertEqual(raw.getvalue(), b'a2c')

    def test_interleaved_readline_write(self):
        with self.BytesIO(b'ab\ncdef\ng\n') as raw:
            with self.tp(raw) as f:
                f.write(b'1')
                self.assertEqual(f.readline(), b'b\n')
                f.write(b'2')
                self.assertEqual(f.readline(), b'def\n')
                f.write(b'3')
                self.assertEqual(f.readline(), b'\n')
                f.flush()
                self.assertEqual(raw.getvalue(), b'1b\n2def\n3\n')

    # You can't construct a BufferedRandom over a non-seekable stream.
    test_unseekable = None


class CBufferedRandomTest(BufferedRandomTest, SizeofTest):
    tp = io.BufferedRandom

    def test_constructor(self):
        BufferedRandomTest.test_constructor(self)
        # The allocation can succeed on 32-bit builds, e.g. with more
        # than 2 GiB RAM and a 64-bit kernel.
        if sys.maxsize > 0x7FFFFFFF:
            rawio = self.MockRawIO()
            bufio = self.tp(rawio)
            self.assertRaises((OverflowError, MemoryError, ValueError),
                bufio.__init__, rawio, sys.maxsize)

    def test_garbage_collection(self):
        CBufferedReaderTest.test_garbage_collection(self)
        CBufferedWriterTest.test_garbage_collection(self)

    def test_args_error(self):
        # Issue #17275
        with self.assertRaisesRegex(TypeError, "BufferedRandom"):
            self.tp(io.BytesIO(), 1024, 1024, 1024)


class PyBufferedRandomTest(BufferedRandomTest):
    tp = pyio.BufferedRandom


# To fully exercise seek/tell, the StatefulIncrementalDecoder has these
# properties:
#   - A single output character can correspond to many bytes of input.
#   - The number of input bytes to complete the character can be
#     undetermined until the last input byte is received.
#   - The number of input bytes can vary depending on previous input.
#   - A single input byte can correspond to many characters of output.
#   - The number of output characters can be undetermined until the
#     last input byte is received.
#   - The number of output characters can vary depending on previous input.

class StatefulIncrementalDecoder(codecs.IncrementalDecoder):
    """
    For testing seek/tell behavior with a stateful, buffering decoder.

    Input is a sequence of words.  Words may be fixed-length (length set
    by input) or variable-length (period-terminated).  In variable-length
    mode, extra periods are ignored.  Possible words are:
      - 'i' followed by a number sets the input length, I (maximum 99).
        When I is set to 0, words are space-terminated.
      - 'o' followed by a number sets the output length, O (maximum 99).
      - Any other word is converted into a word followed by a period on
        the output.  The output word consists of the input word truncated
        or padded out with hyphens to make its length equal to O.  If O
        is 0, the word is output verbatim without truncating or padding.
    I and O are initially set to 1.  When I changes, any buffered input is
    re-scanned according to the new I.  EOF also terminates the last word.
    """

    def __init__(self, errors='strict'):
        codecs.IncrementalDecoder.__init__(self, errors)
        self.reset()

    def __repr__(self):
        return '<SID %x>' % id(self)

    def reset(self):
        self.i = 1
        self.o = 1
        self.buffer = bytearray()

    def getstate(self):
        i, o = self.i ^ 1, self.o ^ 1 # so that flags = 0 after reset()
        return bytes(self.buffer), i*100 + o

    def setstate(self, state):
        buffer, io = state
        self.buffer = bytearray(buffer)
        i, o = divmod(io, 100)
        self.i, self.o = i ^ 1, o ^ 1

    def decode(self, input, final=False):
        output = ''
        for b in input:
            if self.i == 0: # variable-length, terminated with period
                if b == ord('.'):
                    if self.buffer:
                        output += self.process_word()
                else:
                    self.buffer.append(b)
            else: # fixed-length, terminate after self.i bytes
                self.buffer.append(b)
                if len(self.buffer) == self.i:
                    output += self.process_word()
        if final and self.buffer: # EOF terminates the last word
            output += self.process_word()
        return output

    def process_word(self):
        output = ''
        if self.buffer[0] == ord('i'):
            self.i = min(99, int(self.buffer[1:] or 0)) # set input length
        elif self.buffer[0] == ord('o'):
            self.o = min(99, int(self.buffer[1:] or 0)) # set output length
        else:
            output = self.buffer.decode('ascii')
            if len(output) < self.o:
                output += '-'*self.o # pad out with hyphens
            if self.o:
                output = output[:self.o] # truncate to output length
            output += '.'
        self.buffer = bytearray()
        return output

    codecEnabled = False

    @classmethod
    def lookupTestDecoder(cls, name):
        if cls.codecEnabled and name == 'test_decoder':
            latin1 = codecs.lookup('latin-1')
            return codecs.CodecInfo(
                name='test_decoder', encode=latin1.encode, decode=None,
                incrementalencoder=None,
                streamreader=None, streamwriter=None,
                incrementaldecoder=cls)

# Register the previous decoder for testing.
# Disabled by default, tests will enable it.
codecs.register(StatefulIncrementalDecoder.lookupTestDecoder)


class StatefulIncrementalDecoderTest(unittest.TestCase):
    """
    Make sure the StatefulIncrementalDecoder actually works.
    """

    test_cases = [
        # I=1, O=1 (fixed-length input == fixed-length output)
        (b'abcd', False, 'a.b.c.d.'),
        # I=0, O=0 (variable-length input, variable-length output)
        (b'oiabcd', True, 'abcd.'),
        # I=0, O=0 (should ignore extra periods)
        (b'oi...abcd...', True, 'abcd.'),
        # I=0, O=6 (variable-length input, fixed-length output)
        (b'i.o6.x.xyz.toolongtofit.', False, 'x-----.xyz---.toolon.'),
        # I=2, O=6 (fixed-length input < fixed-length output)
        (b'i.i2.o6xyz', True, 'xy----.z-----.'),
        # I=6, O=3 (fixed-length input > fixed-length output)
        (b'i.o3.i6.abcdefghijklmnop', True, 'abc.ghi.mno.'),
        # I=0, then 3; O=29, then 15 (with longer output)
        (b'i.o29.a.b.cde.o15.abcdefghijabcdefghij.i3.a.b.c.d.ei00k.l.m', True,
         'a----------------------------.' +
         'b----------------------------.' +
         'cde--------------------------.' +
         'abcdefghijabcde.' +
         'a.b------------.' +
         '.c.------------.' +
         'd.e------------.' +
         'k--------------.' +
         'l--------------.' +
         'm--------------.')
    ]

    def test_decoder(self):
        # Try a few one-shot test cases.
        for input, eof, output in self.test_cases:
            d = StatefulIncrementalDecoder()
            self.assertEqual(d.decode(input, eof), output)

        # Also test an unfinished decode, followed by forcing EOF.
        d = StatefulIncrementalDecoder()
        self.assertEqual(d.decode(b'oiabcd'), '')
        self.assertEqual(d.decode(b'', 1), 'abcd.')

class TextIOWrapperTest(unittest.TestCase):

    def setUp(self):
        self.testdata = b"AAA\r\nBBB\rCCC\r\nDDD\nEEE\r\n"
        self.normalized = b"AAA\nBBB\nCCC\nDDD\nEEE\n".decode("ascii")
        support.unlink(support.TESTFN)

    def tearDown(self):
        support.unlink(support.TESTFN)

    def test_constructor(self):
        r = self.BytesIO(b"\xc3\xa9\n\n")
        b = self.BufferedReader(r, 1000)
        t = self.TextIOWrapper(b)
        t.__init__(b, encoding="latin-1", newline="\r\n")
        self.assertEqual(t.encoding, "latin-1")
        self.assertEqual(t.line_buffering, False)
        t.__init__(b, encoding="utf-8", line_buffering=True)
        self.assertEqual(t.encoding, "utf-8")
        self.assertEqual(t.line_buffering, True)
        self.assertEqual("\xe9\n", t.readline())
        self.assertRaises(TypeError, t.__init__, b, newline=42)
        self.assertRaises(ValueError, t.__init__, b, newline='xyzzy')

    def test_uninitialized(self):
        t = self.TextIOWrapper.__new__(self.TextIOWrapper)
        del t
        t = self.TextIOWrapper.__new__(self.TextIOWrapper)
        self.assertRaises(Exception, repr, t)
        self.assertRaisesRegex((ValueError, AttributeError),
                               'uninitialized|has no attribute',
                               t.read, 0)
        t.__init__(self.MockRawIO())
        self.assertEqual(t.read(0), '')

    def test_non_text_encoding_codecs_are_rejected(self):
        # Ensure the constructor complains if passed a codec that isn't
        # marked as a text encoding
        # http://bugs.python.org/issue20404
        r = self.BytesIO()
        b = self.BufferedWriter(r)
        with self.assertRaisesRegex(LookupError, "is not a text encoding"):
            self.TextIOWrapper(b, encoding="hex")

    def test_detach(self):
        r = self.BytesIO()
        b = self.BufferedWriter(r)
        t = self.TextIOWrapper(b)
        self.assertIs(t.detach(), b)

        t = self.TextIOWrapper(b, encoding="ascii")
        t.write("howdy")
        self.assertFalse(r.getvalue())
        t.detach()
        self.assertEqual(r.getvalue(), b"howdy")
        self.assertRaises(ValueError, t.detach)

        # Operations independent of the detached stream should still work
        repr(t)
        self.assertEqual(t.encoding, "ascii")
        self.assertEqual(t.errors, "strict")
        self.assertFalse(t.line_buffering)
        self.assertFalse(t.write_through)

    def test_repr(self):
        raw = self.BytesIO("hello".encode("utf-8"))
        b = self.BufferedReader(raw)
        t = self.TextIOWrapper(b, encoding="utf-8")
        modname = self.TextIOWrapper.__module__
        self.assertEqual(repr(t),
                         "<%s.TextIOWrapper encoding='utf-8'>" % modname)
        raw.name = "dummy"
        self.assertEqual(repr(t),
                         "<%s.TextIOWrapper name='dummy' encoding='utf-8'>" % modname)
        t.mode = "r"
        self.assertEqual(repr(t),
                         "<%s.TextIOWrapper name='dummy' mode='r' encoding='utf-8'>" % modname)
        raw.name = b"dummy"
        self.assertEqual(repr(t),
                         "<%s.TextIOWrapper name=b'dummy' mode='r' encoding='utf-8'>" % modname)

        t.buffer.detach()
        repr(t)  # Should not raise an exception

    def test_recursive_repr(self):
        # Issue #25455
        raw = self.BytesIO()
        t = self.TextIOWrapper(raw)
        with support.swap_attr(raw, 'name', t):
            try:
                repr(t)  # Should not crash
            except RuntimeError:
                pass

    def test_line_buffering(self):
        r = self.BytesIO()
        b = self.BufferedWriter(r, 1000)
        t = self.TextIOWrapper(b, newline="\n", line_buffering=True)
        t.write("X")
        self.assertEqual(r.getvalue(), b"")  # No flush happened
        t.write("Y\nZ")
        self.assertEqual(r.getvalue(), b"XY\nZ")  # All got flushed
        t.write("A\rB")
        self.assertEqual(r.getvalue(), b"XY\nZA\rB")

    def test_reconfigure_line_buffering(self):
        r = self.BytesIO()
        b = self.BufferedWriter(r, 1000)
        t = self.TextIOWrapper(b, newline="\n", line_buffering=False)
        t.write("AB\nC")
        self.assertEqual(r.getvalue(), b"")

        t.reconfigure(line_buffering=True)   # implicit flush
        self.assertEqual(r.getvalue(), b"AB\nC")
        t.write("DEF\nG")
        self.assertEqual(r.getvalue(), b"AB\nCDEF\nG")
        t.write("H")
        self.assertEqual(r.getvalue(), b"AB\nCDEF\nG")
        t.reconfigure(line_buffering=False)   # implicit flush
        self.assertEqual(r.getvalue(), b"AB\nCDEF\nGH")
        t.write("IJ")
        self.assertEqual(r.getvalue(), b"AB\nCDEF\nGH")

        # Keeping default value
        t.reconfigure()
        t.reconfigure(line_buffering=None)
        self.assertEqual(t.line_buffering, False)
        t.reconfigure(line_buffering=True)
        t.reconfigure()
        t.reconfigure(line_buffering=None)
        self.assertEqual(t.line_buffering, True)

    def test_default_encoding(self):
        old_environ = dict(os.environ)
        try:
            # try to get a user preferred encoding different than the current
            # locale encoding to check that TextIOWrapper() uses the current
            # locale encoding and not the user preferred encoding
            for key in ('LC_ALL', 'LANG', 'LC_CTYPE'):
                if key in os.environ:
                    del os.environ[key]

            current_locale_encoding = locale.getpreferredencoding(False)
            b = self.BytesIO()
            t = self.TextIOWrapper(b)
            self.assertEqual(t.encoding, current_locale_encoding)
        finally:
            os.environ.clear()
            os.environ.update(old_environ)

    @support.cpython_only
    def test_device_encoding(self):
        # Issue 15989
        import _testcapi
        b = self.BytesIO()
        b.fileno = lambda: _testcapi.INT_MAX + 1
        self.assertRaises(OverflowError, self.TextIOWrapper, b)
        b.fileno = lambda: _testcapi.UINT_MAX + 1
        self.assertRaises(OverflowError, self.TextIOWrapper, b)

    def test_encoding(self):
        # Check the encoding attribute is always set, and valid
        b = self.BytesIO()
        t = self.TextIOWrapper(b, encoding="utf-8")
        self.assertEqual(t.encoding, "utf-8")
        t = self.TextIOWrapper(b)
        self.assertIsNotNone(t.encoding)
        codecs.lookup(t.encoding)

    def test_encoding_errors_reading(self):
        # (1) default
        b = self.BytesIO(b"abc\n\xff\n")
        t = self.TextIOWrapper(b, encoding="ascii")
        self.assertRaises(UnicodeError, t.read)
        # (2) explicit strict
        b = self.BytesIO(b"abc\n\xff\n")
        t = self.TextIOWrapper(b, encoding="ascii", errors="strict")
        self.assertRaises(UnicodeError, t.read)
        # (3) ignore
        b = self.BytesIO(b"abc\n\xff\n")
        t = self.TextIOWrapper(b, encoding="ascii", errors="ignore")
        self.assertEqual(t.read(), "abc\n\n")
        # (4) replace
        b = self.BytesIO(b"abc\n\xff\n")
        t = self.TextIOWrapper(b, encoding="ascii", errors="replace")
        self.assertEqual(t.read(), "abc\n\ufffd\n")

    def test_encoding_errors_writing(self):
        # (1) default
        b = self.BytesIO()
        t = self.TextIOWrapper(b, encoding="ascii")
        self.assertRaises(UnicodeError, t.write, "\xff")
        # (2) explicit strict
        b = self.BytesIO()
        t = self.TextIOWrapper(b, encoding="ascii", errors="strict")
        self.assertRaises(UnicodeError, t.write, "\xff")
        # (3) ignore
        b = self.BytesIO()
        t = self.TextIOWrapper(b, encoding="ascii", errors="ignore",
                             newline="\n")
        t.write("abc\xffdef\n")
        t.flush()
        self.assertEqual(b.getvalue(), b"abcdef\n")
        # (4) replace
        b = self.BytesIO()
        t = self.TextIOWrapper(b, encoding="ascii", errors="replace",
                             newline="\n")
        t.write("abc\xffdef\n")
        t.flush()
        self.assertEqual(b.getvalue(), b"abc?def\n")

    def test_newlines(self):
        input_lines = [ "unix\n", "windows\r\n", "os9\r", "last\n", "nonl" ]

        tests = [
            [ None, [ 'unix\n', 'windows\n', 'os9\n', 'last\n', 'nonl' ] ],
            [ '', input_lines ],
            [ '\n', [ "unix\n", "windows\r\n", "os9\rlast\n", "nonl" ] ],
            [ '\r\n', [ "unix\nwindows\r\n", "os9\rlast\nnonl" ] ],
            [ '\r', [ "unix\nwindows\r", "\nos9\r", "last\nnonl" ] ],
        ]
        encodings = (
            'utf-8', 'latin-1',
            'utf-16', 'utf-16-le', 'utf-16-be',
            'utf-32', 'utf-32-le', 'utf-32-be',
        )

        # Try a range of buffer sizes to test the case where \r is the last
        # character in TextIOWrapper._pending_line.
        for encoding in encodings:
            # XXX: str.encode() should return bytes
            data = bytes(''.join(input_lines).encode(encoding))
            for do_reads in (False, True):
                for bufsize in range(1, 10):
                    for newline, exp_lines in tests:
                        bufio = self.BufferedReader(self.BytesIO(data), bufsize)
                        textio = self.TextIOWrapper(bufio, newline=newline,
                                                  encoding=encoding)
                        if do_reads:
                            got_lines = []
                            while True:
                                c2 = textio.read(2)
                                if c2 == '':
                                    break
                                self.assertEqual(len(c2), 2)
                                got_lines.append(c2 + textio.readline())
                        else:
                            got_lines = list(textio)

                        for got_line, exp_line in zip(got_lines, exp_lines):
                            self.assertEqual(got_line, exp_line)
                        self.assertEqual(len(got_lines), len(exp_lines))

    def test_newlines_input(self):
        testdata = b"AAA\nBB\x00B\nCCC\rDDD\rEEE\r\nFFF\r\nGGG"
        normalized = testdata.replace(b"\r\n", b"\n").replace(b"\r", b"\n")
        for newline, expected in [
            (None, normalized.decode("ascii").splitlines(keepends=True)),
            ("", testdata.decode("ascii").splitlines(keepends=True)),
            ("\n", ["AAA\n", "BB\x00B\n", "CCC\rDDD\rEEE\r\n", "FFF\r\n", "GGG"]),
            ("\r\n", ["AAA\nBB\x00B\nCCC\rDDD\rEEE\r\n", "FFF\r\n", "GGG"]),
            ("\r",  ["AAA\nBB\x00B\nCCC\r", "DDD\r", "EEE\r", "\nFFF\r", "\nGGG"]),
            ]:
            buf = self.BytesIO(testdata)
            txt = self.TextIOWrapper(buf, encoding="ascii", newline=newline)
            self.assertEqual(txt.readlines(), expected)
            txt.seek(0)
            self.assertEqual(txt.read(), "".join(expected))

    def test_newlines_output(self):
        testdict = {
            "": b"AAA\nBBB\nCCC\nX\rY\r\nZ",
            "\n": b"AAA\nBBB\nCCC\nX\rY\r\nZ",
            "\r": b"AAA\rBBB\rCCC\rX\rY\r\rZ",
            "\r\n": b"AAA\r\nBBB\r\nCCC\r\nX\rY\r\r\nZ",
            }
        tests = [(None, testdict[os.linesep])] + sorted(testdict.items())
        for newline, expected in tests:
            buf = self.BytesIO()
            txt = self.TextIOWrapper(buf, encoding="ascii", newline=newline)
            txt.write("AAA\nB")
            txt.write("BB\nCCC\n")
            txt.write("X\rY\r\nZ")
            txt.flush()
            self.assertEqual(buf.closed, False)
            self.assertEqual(buf.getvalue(), expected)

    def test_destructor(self):
        l = []
        base = self.BytesIO
        class MyBytesIO(base):
            def close(self):
                l.append(self.getvalue())
                base.close(self)
        b = MyBytesIO()
        t = self.TextIOWrapper(b, encoding="ascii")
        t.write("abc")
        del t
        support.gc_collect()
        self.assertEqual([b"abc"], l)

    def test_override_destructor(self):
        record = []
        class MyTextIO(self.TextIOWrapper):
            def __del__(self):
                record.append(1)
                try:
                    f = super().__del__
                except AttributeError:
                    pass
                else:
                    f()
            def close(self):
                record.append(2)
                super().close()
            def flush(self):
                record.append(3)
                super().flush()
        b = self.BytesIO()
        t = MyTextIO(b, encoding="ascii")
        del t
        support.gc_collect()
        self.assertEqual(record, [1, 2, 3])

    def test_error_through_destructor(self):
        # Test that the exception state is not modified by a destructor,
        # even if close() fails.
        rawio = self.CloseFailureIO()
        def f():
            self.TextIOWrapper(rawio).xyzzy
        with support.captured_output("stderr") as s:
            self.assertRaises(AttributeError, f)
        s = s.getvalue().strip()
        if s:
            # The destructor *may* have printed an unraisable error, check it
            self.assertEqual(len(s.splitlines()), 1)
            self.assertTrue(s.startswith("Exception OSError: "), s)
            self.assertTrue(s.endswith(" ignored"), s)

    # Systematic tests of the text I/O API

    def test_basic_io(self):
        for chunksize in (1, 2, 3, 4, 5, 15, 16, 17, 31, 32, 33, 63, 64, 65):
            for enc in "ascii", "latin-1", "utf-8" :# , "utf-16-be", "utf-16-le":
                f = self.open(support.TESTFN, "w+", encoding=enc)
                f._CHUNK_SIZE = chunksize
                self.assertEqual(f.write("abc"), 3)
                f.close()
                f = self.open(support.TESTFN, "r+", encoding=enc)
                f._CHUNK_SIZE = chunksize
                self.assertEqual(f.tell(), 0)
                self.assertEqual(f.read(), "abc")
                cookie = f.tell()
                self.assertEqual(f.seek(0), 0)
                self.assertEqual(f.read(None), "abc")
                f.seek(0)
                self.assertEqual(f.read(2), "ab")
                self.assertEqual(f.read(1), "c")
                self.assertEqual(f.read(1), "")
                self.assertEqual(f.read(), "")
                self.assertEqual(f.tell(), cookie)
                self.assertEqual(f.seek(0), 0)
                self.assertEqual(f.seek(0, 2), cookie)
                self.assertEqual(f.write("def"), 3)
                self.assertEqual(f.seek(cookie), cookie)
                self.assertEqual(f.read(), "def")
                if enc.startswith("utf"):
                    self.multi_line_test(f, enc)
                f.close()

    def multi_line_test(self, f, enc):
        f.seek(0)
        f.truncate()
        sample = "s\xff\u0fff\uffff"
        wlines = []
        for size in (0, 1, 2, 3, 4, 5, 30, 31, 32, 33, 62, 63, 64, 65, 1000):
            chars = []
            for i in range(size):
                chars.append(sample[i % len(sample)])
            line = "".join(chars) + "\n"
            wlines.append((f.tell(), line))
            f.write(line)
        f.seek(0)
        rlines = []
        while True:
            pos = f.tell()
            line = f.readline()
            if not line:
                break
            rlines.append((pos, line))
        self.assertEqual(rlines, wlines)

    def test_telling(self):
        f = self.open(support.TESTFN, "w+", encoding="utf-8")
        p0 = f.tell()
        f.write("\xff\n")
        p1 = f.tell()
        f.write("\xff\n")
        p2 = f.tell()
        f.seek(0)
        self.assertEqual(f.tell(), p0)
        self.assertEqual(f.readline(), "\xff\n")
        self.assertEqual(f.tell(), p1)
        self.assertEqual(f.readline(), "\xff\n")
        self.assertEqual(f.tell(), p2)
        f.seek(0)
        for line in f:
            self.assertEqual(line, "\xff\n")
            self.assertRaises(OSError, f.tell)
        self.assertEqual(f.tell(), p2)
        f.close()

    def test_seeking(self):
        chunk_size = _default_chunk_size()
        prefix_size = chunk_size - 2
        u_prefix = "a" * prefix_size
        prefix = bytes(u_prefix.encode("utf-8"))
        self.assertEqual(len(u_prefix), len(prefix))
        u_suffix = "\u8888\n"
        suffix = bytes(u_suffix.encode("utf-8"))
        line = prefix + suffix
        with self.open(support.TESTFN, "wb") as f:
            f.write(line*2)
        with self.open(support.TESTFN, "r", encoding="utf-8") as f:
            s = f.read(prefix_size)
            self.assertEqual(s, str(prefix, "ascii"))
            self.assertEqual(f.tell(), prefix_size)
            self.assertEqual(f.readline(), u_suffix)

    def test_seeking_too(self):
        # Regression test for a specific bug
        data = b'\xe0\xbf\xbf\n'
        with self.open(support.TESTFN, "wb") as f:
            f.write(data)
        with self.open(support.TESTFN, "r", encoding="utf-8") as f:
            f._CHUNK_SIZE  # Just test that it exists
            f._CHUNK_SIZE = 2
            f.readline()
            f.tell()

    def test_seek_and_tell(self):
        #Test seek/tell using the StatefulIncrementalDecoder.
        # Make test faster by doing smaller seeks
        CHUNK_SIZE = 128

        def test_seek_and_tell_with_data(data, min_pos=0):
            """Tell/seek to various points within a data stream and ensure
            that the decoded data returned by read() is consistent."""
            f = self.open(support.TESTFN, 'wb')
            f.write(data)
            f.close()
            f = self.open(support.TESTFN, encoding='test_decoder')
            f._CHUNK_SIZE = CHUNK_SIZE
            decoded = f.read()
            f.close()

            for i in range(min_pos, len(decoded) + 1): # seek positions
                for j in [1, 5, len(decoded) - i]: # read lengths
                    f = self.open(support.TESTFN, encoding='test_decoder')
                    self.assertEqual(f.read(i), decoded[:i])
                    cookie = f.tell()
                    self.assertEqual(f.read(j), decoded[i:i + j])
                    f.seek(cookie)
                    self.assertEqual(f.read(), decoded[i:])
                    f.close()

        # Enable the test decoder.
        StatefulIncrementalDecoder.codecEnabled = 1

        # Run the tests.
        try:
            # Try each test case.
            for input, _, _ in StatefulIncrementalDecoderTest.test_cases:
                test_seek_and_tell_with_data(input)

            # Position each test case so that it crosses a chunk boundary.
            for input, _, _ in StatefulIncrementalDecoderTest.test_cases:
                offset = CHUNK_SIZE - len(input)//2
                prefix = b'.'*offset
                # Don't bother seeking into the prefix (takes too long).
                min_pos = offset*2
                test_seek_and_tell_with_data(prefix + input, min_pos)

        # Ensure our test decoder won't interfere with subsequent tests.
        finally:
            StatefulIncrementalDecoder.codecEnabled = 0

    def test_encoded_writes(self):
        data = "1234567890"
        tests = ("utf-16",
                 "utf-16-le",
                 "utf-16-be",
                 "utf-32",
                 "utf-32-le",
                 "utf-32-be")
        for encoding in tests:
            buf = self.BytesIO()
            f = self.TextIOWrapper(buf, encoding=encoding)
            # Check if the BOM is written only once (see issue1753).
            f.write(data)
            f.write(data)
            f.seek(0)
            self.assertEqual(f.read(), data * 2)
            f.seek(0)
            self.assertEqual(f.read(), data * 2)
            self.assertEqual(buf.getvalue(), (data * 2).encode(encoding))

    def test_unreadable(self):
        class UnReadable(self.BytesIO):
            def readable(self):
                return False
        txt = self.TextIOWrapper(UnReadable())
        self.assertRaises(OSError, txt.read)

    def test_read_one_by_one(self):
        txt = self.TextIOWrapper(self.BytesIO(b"AA\r\nBB"))
        reads = ""
        while True:
            c = txt.read(1)
            if not c:
                break
            reads += c
        self.assertEqual(reads, "AA\nBB")

    def test_readlines(self):
        txt = self.TextIOWrapper(self.BytesIO(b"AA\nBB\nCC"))
        self.assertEqual(txt.readlines(), ["AA\n", "BB\n", "CC"])
        txt.seek(0)
        self.assertEqual(txt.readlines(None), ["AA\n", "BB\n", "CC"])
        txt.seek(0)
        self.assertEqual(txt.readlines(5), ["AA\n", "BB\n"])

    # read in amounts equal to TextIOWrapper._CHUNK_SIZE which is 128.
    def test_read_by_chunk(self):
        # make sure "\r\n" straddles 128 char boundary.
        txt = self.TextIOWrapper(self.BytesIO(b"A" * 127 + b"\r\nB"))
        reads = ""
        while True:
            c = txt.read(128)
            if not c:
                break
            reads += c
        self.assertEqual(reads, "A"*127+"\nB")

    def test_writelines(self):
        l = ['ab', 'cd', 'ef']
        buf = self.BytesIO()
        txt = self.TextIOWrapper(buf)
        txt.writelines(l)
        txt.flush()
        self.assertEqual(buf.getvalue(), b'abcdef')

    def test_writelines_userlist(self):
        l = UserList(['ab', 'cd', 'ef'])
        buf = self.BytesIO()
        txt = self.TextIOWrapper(buf)
        txt.writelines(l)
        txt.flush()
        self.assertEqual(buf.getvalue(), b'abcdef')

    def test_writelines_error(self):
        txt = self.TextIOWrapper(self.BytesIO())
        self.assertRaises(TypeError, txt.writelines, [1, 2, 3])
        self.assertRaises(TypeError, txt.writelines, None)
        self.assertRaises(TypeError, txt.writelines, b'abc')

    def test_issue1395_1(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")

        # read one char at a time
        reads = ""
        while True:
            c = txt.read(1)
            if not c:
                break
            reads += c
        self.assertEqual(reads, self.normalized)

    def test_issue1395_2(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        txt._CHUNK_SIZE = 4

        reads = ""
        while True:
            c = txt.read(4)
            if not c:
                break
            reads += c
        self.assertEqual(reads, self.normalized)

    def test_issue1395_3(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        txt._CHUNK_SIZE = 4

        reads = txt.read(4)
        reads += txt.read(4)
        reads += txt.readline()
        reads += txt.readline()
        reads += txt.readline()
        self.assertEqual(reads, self.normalized)

    def test_issue1395_4(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        txt._CHUNK_SIZE = 4

        reads = txt.read(4)
        reads += txt.read()
        self.assertEqual(reads, self.normalized)

    def test_issue1395_5(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        txt._CHUNK_SIZE = 4

        reads = txt.read(4)
        pos = txt.tell()
        txt.seek(0)
        txt.seek(pos)
        self.assertEqual(txt.read(4), "BBB\n")

    def test_issue2282(self):
        buffer = self.BytesIO(self.testdata)
        txt = self.TextIOWrapper(buffer, encoding="ascii")

        self.assertEqual(buffer.seekable(), txt.seekable())

    def test_append_bom(self):
        # The BOM is not written again when appending to a non-empty file
        filename = support.TESTFN
        for charset in ('utf-8-sig', 'utf-16', 'utf-32'):
            with self.open(filename, 'w', encoding=charset) as f:
                f.write('aaa')
                pos = f.tell()
            with self.open(filename, 'rb') as f:
                self.assertEqual(f.read(), 'aaa'.encode(charset))

            with self.open(filename, 'a', encoding=charset) as f:
                f.write('xxx')
            with self.open(filename, 'rb') as f:
                self.assertEqual(f.read(), 'aaaxxx'.encode(charset))

    def test_seek_bom(self):
        # Same test, but when seeking manually
        filename = support.TESTFN
        for charset in ('utf-8-sig', 'utf-16', 'utf-32'):
            with self.open(filename, 'w', encoding=charset) as f:
                f.write('aaa')
                pos = f.tell()
            with self.open(filename, 'r+', encoding=charset) as f:
                f.seek(pos)
                f.write('zzz')
                f.seek(0)
                f.write('bbb')
            with self.open(filename, 'rb') as f:
                self.assertEqual(f.read(), 'bbbzzz'.encode(charset))

    def test_seek_append_bom(self):
        # Same test, but first seek to the start and then to the end
        filename = support.TESTFN
        for charset in ('utf-8-sig', 'utf-16', 'utf-32'):
            with self.open(filename, 'w', encoding=charset) as f:
                f.write('aaa')
            with self.open(filename, 'a', encoding=charset) as f:
                f.seek(0)
                f.seek(0, self.SEEK_END)
                f.write('xxx')
            with self.open(filename, 'rb') as f:
                self.assertEqual(f.read(), 'aaaxxx'.encode(charset))

    def test_errors_property(self):
        with self.open(support.TESTFN, "w") as f:
            self.assertEqual(f.errors, "strict")
        with self.open(support.TESTFN, "w", errors="replace") as f:
            self.assertEqual(f.errors, "replace")

    @support.no_tracing
    def test_threads_write(self):
        # Issue6750: concurrent writes could duplicate data
        event = threading.Event()
        with self.open(support.TESTFN, "w", buffering=1) as f:
            def run(n):
                text = "Thread%03d\n" % n
                event.wait()
                f.write(text)
            threads = [threading.Thread(target=run, args=(x,))
                       for x in range(20)]
            with support.start_threads(threads, event.set):
                time.sleep(0.02)
        with self.open(support.TESTFN) as f:
            content = f.read()
            for n in range(20):
                self.assertEqual(content.count("Thread%03d\n" % n), 1)

    def test_flush_error_on_close(self):
        # Test that text file is closed despite failed flush
        # and that flush() is called before file closed.
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        closed = []
        def bad_flush():
            closed[:] = [txt.closed, txt.buffer.closed]
            raise OSError()
        txt.flush = bad_flush
        self.assertRaises(OSError, txt.close) # exception not swallowed
        self.assertTrue(txt.closed)
        self.assertTrue(txt.buffer.closed)
        self.assertTrue(closed)      # flush() called
        self.assertFalse(closed[0])  # flush() called before file closed
        self.assertFalse(closed[1])
        txt.flush = lambda: None  # break reference loop

    def test_close_error_on_close(self):
        buffer = self.BytesIO(self.testdata)
        def bad_flush():
            raise OSError('flush')
        def bad_close():
            raise OSError('close')
        buffer.close = bad_close
        txt = self.TextIOWrapper(buffer, encoding="ascii")
        txt.flush = bad_flush
        with self.assertRaises(OSError) as err: # exception not swallowed
            txt.close()
        self.assertEqual(err.exception.args, ('close',))
        self.assertIsInstance(err.exception.__context__, OSError)
        self.assertEqual(err.exception.__context__.args, ('flush',))
        self.assertFalse(txt.closed)

    def test_nonnormalized_close_error_on_close(self):
        # Issue #21677
        buffer = self.BytesIO(self.testdata)
        def bad_flush():
            raise non_existing_flush
        def bad_close():
            raise non_existing_close
        buffer.close = bad_close
        txt = self.TextIOWrapper(buffer, encoding="ascii")
        txt.flush = bad_flush
        with self.assertRaises(NameError) as err: # exception not swallowed
            txt.close()
        self.assertIn('non_existing_close', str(err.exception))
        self.assertIsInstance(err.exception.__context__, NameError)
        self.assertIn('non_existing_flush', str(err.exception.__context__))
        self.assertFalse(txt.closed)

    def test_multi_close(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        txt.close()
        txt.close()
        txt.close()
        self.assertRaises(ValueError, txt.flush)

    def test_unseekable(self):
        txt = self.TextIOWrapper(self.MockUnseekableIO(self.testdata))
        self.assertRaises(self.UnsupportedOperation, txt.tell)
        self.assertRaises(self.UnsupportedOperation, txt.seek, 0)

    def test_readonly_attributes(self):
        txt = self.TextIOWrapper(self.BytesIO(self.testdata), encoding="ascii")
        buf = self.BytesIO(self.testdata)
        with self.assertRaises(AttributeError):
            txt.buffer = buf

    def test_rawio(self):
        # Issue #12591: TextIOWrapper must work with raw I/O objects, so
        # that subprocess.Popen() can have the required unbuffered
        # semantics with universal_newlines=True.
        raw = self.MockRawIO([b'abc', b'def', b'ghi\njkl\nopq\n'])
        txt = self.TextIOWrapper(raw, encoding='ascii', newline='\n')
        # Reads
        self.assertEqual(txt.read(4), 'abcd')
        self.assertEqual(txt.readline(), 'efghi\n')
        self.assertEqual(list(txt), ['jkl\n', 'opq\n'])

    def test_rawio_write_through(self):
        # Issue #12591: with write_through=True, writes don't need a flush
        raw = self.MockRawIO([b'abc', b'def', b'ghi\njkl\nopq\n'])
        txt = self.TextIOWrapper(raw, encoding='ascii', newline='\n',
                                 write_through=True)
        txt.write('1')
        txt.write('23\n4')
        txt.write('5')
        self.assertEqual(b''.join(raw._write_stack), b'123\n45')

    def test_bufio_write_through(self):
        # Issue #21396: write_through=True doesn't force a flush()
        # on the underlying binary buffered object.
        flush_called, write_called = [], []
        class BufferedWriter(self.BufferedWriter):
            def flush(self, *args, **kwargs):
                flush_called.append(True)
                return super().flush(*args, **kwargs)
            def write(self, *args, **kwargs):
                write_called.append(True)
                return super().write(*args, **kwargs)

        rawio = self.BytesIO()
        data = b"a"
        bufio = BufferedWriter(rawio, len(data)*2)
        textio = self.TextIOWrapper(bufio, encoding='ascii',
                                    write_through=True)
        # write to the buffered io but don't overflow the buffer
        text = data.decode('ascii')
        textio.write(text)

        # buffer.flush is not called with write_through=True
        self.assertFalse(flush_called)
        # buffer.write *is* called with write_through=True
        self.assertTrue(write_called)
        self.assertEqual(rawio.getvalue(), b"") # no flush

        write_called = [] # reset
        textio.write(text * 10) # total content is larger than bufio buffer
        self.assertTrue(write_called)
        self.assertEqual(rawio.getvalue(), data * 11) # all flushed

    def test_reconfigure_write_through(self):
        raw = self.MockRawIO([])
        t = self.TextIOWrapper(raw, encoding='ascii', newline='\n')
        t.write('1')
        t.reconfigure(write_through=True)  # implied flush
        self.assertEqual(t.write_through, True)
        self.assertEqual(b''.join(raw._write_stack), b'1')
        t.write('23')
        self.assertEqual(b''.join(raw._write_stack), b'123')
        t.reconfigure(write_through=False)
        self.assertEqual(t.write_through, False)
        t.write('45')
        t.flush()
        self.assertEqual(b''.join(raw._write_stack), b'12345')
        # Keeping default value
        t.reconfigure()
        t.reconfigure(write_through=None)
        self.assertEqual(t.write_through, False)
        t.reconfigure(write_through=True)
        t.reconfigure()
        t.reconfigure(write_through=None)
        self.assertEqual(t.write_through, True)

    def test_read_nonbytes(self):
        # Issue #17106
        # Crash when underlying read() returns non-bytes
        t = self.TextIOWrapper(self.StringIO('a'))
        self.assertRaises(TypeError, t.read, 1)
        t = self.TextIOWrapper(self.StringIO('a'))
        self.assertRaises(TypeError, t.readline)
        t = self.TextIOWrapper(self.StringIO('a'))
        self.assertRaises(TypeError, t.read)

    def test_illegal_encoder(self):
        # Issue 31271: Calling write() while the return value of encoder's
        # encode() is invalid shouldn't cause an assertion failure.
        rot13 = codecs.lookup("rot13")
        with support.swap_attr(rot13, '_is_text_encoding', True):
            t = io.TextIOWrapper(io.BytesIO(b'foo'), encoding="rot13")
        self.assertRaises(TypeError, t.write, 'bar')

    def test_illegal_decoder(self):
        # Issue #17106
        # Bypass the early encoding check added in issue 20404
        def _make_illegal_wrapper():
            quopri = codecs.lookup("quopri")
            quopri._is_text_encoding = True
            try:
                t = self.TextIOWrapper(self.BytesIO(b'aaaaaa'),
                                       newline='\n', encoding="quopri")
            finally:
                quopri._is_text_encoding = False
            return t
        # Crash when decoder returns non-string
        t = _make_illegal_wrapper()
        self.assertRaises(TypeError, t.read, 1)
        t = _make_illegal_wrapper()
        self.assertRaises(TypeError, t.readline)
        t = _make_illegal_wrapper()
        self.assertRaises(TypeError, t.read)

        # Issue 31243: calling read() while the return value of decoder's
        # getstate() is invalid should neither crash the interpreter nor
        # raise a SystemError.
        def _make_very_illegal_wrapper(getstate_ret_val):
            class BadDecoder:
                def getstate(self):
                    return getstate_ret_val
            def _get_bad_decoder(dummy):
                return BadDecoder()
            quopri = codecs.lookup("quopri")
            with support.swap_attr(quopri, 'incrementaldecoder',
                                   _get_bad_decoder):
                return _make_illegal_wrapper()
        t = _make_very_illegal_wrapper(42)
        self.assertRaises(TypeError, t.read, 42)
        t = _make_very_illegal_wrapper(())
        self.assertRaises(TypeError, t.read, 42)
        t = _make_very_illegal_wrapper((1, 2))
        self.assertRaises(TypeError, t.read, 42)

    def _check_create_at_shutdown(self, **kwargs):
        # Issue #20037: creating a TextIOWrapper at shutdown
        # shouldn't crash the interpreter.
        iomod = self.io.__name__
        code = """if 1:
            import codecs
            import {iomod} as io

            # Avoid looking up codecs at shutdown
            codecs.lookup('utf-8')

            class C:
                def __init__(self):
                    self.buf = io.BytesIO()
                def __del__(self):
                    io.TextIOWrapper(self.buf, **{kwargs})
                    print("ok")
            c = C()
            """.format(iomod=iomod, kwargs=kwargs)
        return assert_python_ok("-c", code)

    @support.requires_type_collecting
    def test_create_at_shutdown_without_encoding(self):
        rc, out, err = self._check_create_at_shutdown()
        if err:
            # Can error out with a RuntimeError if the module state
            # isn't found.
            self.assertIn(self.shutdown_error, err.decode())
        else:
            self.assertEqual("ok", out.decode().strip())

    @support.requires_type_collecting
    def test_create_at_shutdown_with_encoding(self):
        rc, out, err = self._check_create_at_shutdown(encoding='utf-8',
                                                      errors='strict')
        self.assertFalse(err)
        self.assertEqual("ok", out.decode().strip())

    def test_read_byteslike(self):
        r = MemviewBytesIO(b'Just some random string\n')
        t = self.TextIOWrapper(r, 'utf-8')

        # TextIOwrapper will not read the full string, because
        # we truncate it to a multiple of the native int size
        # so that we can construct a more complex memoryview.
        bytes_val =  _to_memoryview(r.getvalue()).tobytes()

        self.assertEqual(t.read(200), bytes_val.decode('utf-8'))

    def test_issue22849(self):
        class F(object):
            def readable(self): return True
            def writable(self): return True
            def seekable(self): return True

        for i in range(10):
            try:
                self.TextIOWrapper(F(), encoding='utf-8')
            except Exception:
                pass

        F.tell = lambda x: 0
        t = self.TextIOWrapper(F(), encoding='utf-8')


class MemviewBytesIO(io.BytesIO):
    '''A BytesIO object whose read method returns memoryviews
       rather than bytes'''

    def read1(self, len_):
        return _to_memoryview(super().read1(len_))

    def read(self, len_):
        return _to_memoryview(super().read(len_))

def _to_memoryview(buf):
    '''Convert bytes-object *buf* to a non-trivial memoryview'''

    arr = array.array('i')
    idx = len(buf) - len(buf) % arr.itemsize
    arr.frombytes(buf[:idx])
    return memoryview(arr)


class CTextIOWrapperTest(TextIOWrapperTest):
    io = io
    shutdown_error = "RuntimeError: could not find io module state"

    def test_initialization(self):
        r = self.BytesIO(b"\xc3\xa9\n\n")
        b = self.BufferedReader(r, 1000)
        t = self.TextIOWrapper(b)
        self.assertRaises(ValueError, t.__init__, b, newline='xyzzy')
        self.assertRaises(ValueError, t.read)

        t = self.TextIOWrapper.__new__(self.TextIOWrapper)
        self.assertRaises(Exception, repr, t)

    def test_garbage_collection(self):
        # C TextIOWrapper objects are collected, and collecting them flushes
        # all data to disk.
        # The Python version has __del__, so it ends in gc.garbage instead.
        with support.check_warnings(('', ResourceWarning)):
            rawio = io.FileIO(support.TESTFN, "wb")
            b = self.BufferedWriter(rawio)
            t = self.TextIOWrapper(b, encoding="ascii")
            t.write("456def")
            t.x = t
            wr = weakref.ref(t)
            del t
            support.gc_collect()
        self.assertIsNone(wr(), wr)
        with self.open(support.TESTFN, "rb") as f:
            self.assertEqual(f.read(), b"456def")

    def test_rwpair_cleared_before_textio(self):
        # Issue 13070: TextIOWrapper's finalization would crash when called
        # after the reference to the underlying BufferedRWPair's writer got
        # cleared by the GC.
        for i in range(1000):
            b1 = self.BufferedRWPair(self.MockRawIO(), self.MockRawIO())
            t1 = self.TextIOWrapper(b1, encoding="ascii")
            b2 = self.BufferedRWPair(self.MockRawIO(), self.MockRawIO())
            t2 = self.TextIOWrapper(b2, encoding="ascii")
            # circular references
            t1.buddy = t2
            t2.buddy = t1
        support.gc_collect()


class PyTextIOWrapperTest(TextIOWrapperTest):
    io = pyio
    shutdown_error = "LookupError: unknown encoding: ascii"


class IncrementalNewlineDecoderTest(unittest.TestCase):

    def check_newline_decoding_utf8(self, decoder):
        # UTF-8 specific tests for a newline decoder
        def _check_decode(b, s, **kwargs):
            # We exercise getstate() / setstate() as well as decode()
            state = decoder.getstate()
            self.assertEqual(decoder.decode(b, **kwargs), s)
            decoder.setstate(state)
            self.assertEqual(decoder.decode(b, **kwargs), s)

        _check_decode(b'\xe8\xa2\x88', "\u8888")

        _check_decode(b'\xe8', "")
        _check_decode(b'\xa2', "")
        _check_decode(b'\x88', "\u8888")

        _check_decode(b'\xe8', "")
        _check_decode(b'\xa2', "")
        _check_decode(b'\x88', "\u8888")

        _check_decode(b'\xe8', "")
        self.assertRaises(UnicodeDecodeError, decoder.decode, b'', final=True)

        decoder.reset()
        _check_decode(b'\n', "\n")
        _check_decode(b'\r', "")
        _check_decode(b'', "\n", final=True)
        _check_decode(b'\r', "\n", final=True)

        _check_decode(b'\r', "")
        _check_decode(b'a', "\na")

        _check_decode(b'\r\r\n', "\n\n")
        _check_decode(b'\r', "")
        _check_decode(b'\r', "\n")
        _check_decode(b'\na', "\na")

        _check_decode(b'\xe8\xa2\x88\r\n', "\u8888\n")
        _check_decode(b'\xe8\xa2\x88', "\u8888")
        _check_decode(b'\n', "\n")
        _check_decode(b'\xe8\xa2\x88\r', "\u8888")
        _check_decode(b'\n', "\n")

    def check_newline_decoding(self, decoder, encoding):
        result = []
        if encoding is not None:
            encoder = codecs.getincrementalencoder(encoding)()
            def _decode_bytewise(s):
                # Decode one byte at a time
                for b in encoder.encode(s):
                    result.append(decoder.decode(bytes([b])))
        else:
            encoder = None
            def _decode_bytewise(s):
                # Decode one char at a time
                for c in s:
                    result.append(decoder.decode(c))
        self.assertEqual(decoder.newlines, None)
        _decode_bytewise("abc\n\r")
        self.assertEqual(decoder.newlines, '\n')
        _decode_bytewise("\nabc")
        self.assertEqual(decoder.newlines, ('\n', '\r\n'))
        _decode_bytewise("abc\r")
        self.assertEqual(decoder.newlines, ('\n', '\r\n'))
        _decode_bytewise("abc")
        self.assertEqual(decoder.newlines, ('\r', '\n', '\r\n'))
        _decode_bytewise("abc\r")
        self.assertEqual("".join(result), "abc\n\nabcabc\nabcabc")
        decoder.reset()
        input = "abc"
        if encoder is not None:
            encoder.reset()
            input = encoder.encode(input)
        self.assertEqual(decoder.decode(input), "abc")
        self.assertEqual(decoder.newlines, None)

    def test_newline_decoder(self):
        encodings = (
            # None meaning the IncrementalNewlineDecoder takes unicode input
            # rather than bytes input
            None, 'utf-8', 'latin-1',
            'utf-16', 'utf-16-le', 'utf-16-be',
            'utf-32', 'utf-32-le', 'utf-32-be',
        )
        for enc in encodings:
            decoder = enc and codecs.getincrementaldecoder(enc)()
            decoder = self.IncrementalNewlineDecoder(decoder, translate=True)
            self.check_newline_decoding(decoder, enc)
        decoder = codecs.getincrementaldecoder("utf-8")()
        decoder = self.IncrementalNewlineDecoder(decoder, translate=True)
        self.check_newline_decoding_utf8(decoder)
        self.assertRaises(TypeError, decoder.setstate, 42)

    def test_newline_bytes(self):
        # Issue 5433: Excessive optimization in IncrementalNewlineDecoder
        def _check(dec):
            self.assertEqual(dec.newlines, None)
            self.assertEqual(dec.decode("\u0D00"), "\u0D00")
            self.assertEqual(dec.newlines, None)
            self.assertEqual(dec.decode("\u0A00"), "\u0A00")
            self.assertEqual(dec.newlines, None)
        dec = self.IncrementalNewlineDecoder(None, translate=False)
        _check(dec)
        dec = self.IncrementalNewlineDecoder(None, translate=True)
        _check(dec)

class CIncrementalNewlineDecoderTest(IncrementalNewlineDecoderTest):
    pass

class PyIncrementalNewlineDecoderTest(IncrementalNewlineDecoderTest):
    pass


# XXX Tests for open()

class MiscIOTest(unittest.TestCase):

    def tearDown(self):
        support.unlink(support.TESTFN)

    def test___all__(self):
        for name in self.io.__all__:
            obj = getattr(self.io, name, None)
            self.assertIsNotNone(obj, name)
            if name == "open":
                continue
            elif "error" in name.lower() or name == "UnsupportedOperation":
                self.assertTrue(issubclass(obj, Exception), name)
            elif not name.startswith("SEEK_"):
                self.assertTrue(issubclass(obj, self.IOBase))

    def test_attributes(self):
        f = self.open(support.TESTFN, "wb", buffering=0)
        self.assertEqual(f.mode, "wb")
        f.close()

        with support.check_warnings(('', DeprecationWarning)):
            f = self.open(support.TESTFN, "U")
        self.assertEqual(f.name,            support.TESTFN)
        self.assertEqual(f.buffer.name,     support.TESTFN)
        self.assertEqual(f.buffer.raw.name, support.TESTFN)
        self.assertEqual(f.mode,            "U")
        self.assertEqual(f.buffer.mode,     "rb")
        self.assertEqual(f.buffer.raw.mode, "rb")
        f.close()

        f = self.open(support.TESTFN, "w+")
        self.assertEqual(f.mode,            "w+")
        self.assertEqual(f.buffer.mode,     "rb+") # Does it really matter?
        self.assertEqual(f.buffer.raw.mode, "rb+")

        g = self.open(f.fileno(), "wb", closefd=False)
        self.assertEqual(g.mode,     "wb")
        self.assertEqual(g.raw.mode, "wb")
        self.assertEqual(g.name,     f.fileno())
        self.assertEqual(g.raw.name, f.fileno())
        f.close()
        g.close()

    def test_io_after_close(self):
        for kwargs in [
                {"mode": "w"},
                {"mode": "wb"},
                {"mode": "w", "buffering": 1},
                {"mode": "w", "buffering": 2},
                {"mode": "wb", "buffering": 0},
                {"mode": "r"},
                {"mode": "rb"},
                {"mode": "r", "buffering": 1},
                {"mode": "r", "buffering": 2},
                {"mode": "rb", "buffering": 0},
                {"mode": "w+"},
                {"mode": "w+b"},
                {"mode": "w+", "buffering": 1},
                {"mode": "w+", "buffering": 2},
                {"mode": "w+b", "buffering": 0},
            ]:
            f = self.open(support.TESTFN, **kwargs)
            f.close()
            self.assertRaises(ValueError, f.flush)
            self.assertRaises(ValueError, f.fileno)
            self.assertRaises(ValueError, f.isatty)
            self.assertRaises(ValueError, f.__iter__)
            if hasattr(f, "peek"):
                self.assertRaises(ValueError, f.peek, 1)
            self.assertRaises(ValueError, f.read)
            if hasattr(f, "read1"):
                self.assertRaises(ValueError, f.read1, 1024)
                self.assertRaises(ValueError, f.read1)
            if hasattr(f, "readall"):
                self.assertRaises(ValueError, f.readall)
            if hasattr(f, "readinto"):
                self.assertRaises(ValueError, f.readinto, bytearray(1024))
            if hasattr(f, "readinto1"):
                self.assertRaises(ValueError, f.readinto1, bytearray(1024))
            self.assertRaises(ValueError, f.readline)
            self.assertRaises(ValueError, f.readlines)
            self.assertRaises(ValueError, f.readlines, 1)
            self.assertRaises(ValueError, f.seek, 0)
            self.assertRaises(ValueError, f.tell)
            self.assertRaises(ValueError, f.truncate)
            self.assertRaises(ValueError, f.write,
                              b"" if "b" in kwargs['mode'] else "")
            self.assertRaises(ValueError, f.writelines, [])
            self.assertRaises(ValueError, next, f)

    def test_blockingioerror(self):
        # Various BlockingIOError issues
        class C(str):
            pass
        c = C("")
        b = self.BlockingIOError(1, c)
        c.b = b
        b.c = c
        wr = weakref.ref(c)
        del c, b
        support.gc_collect()
        self.assertIsNone(wr(), wr)

    def test_abcs(self):
        # Test the visible base classes are ABCs.
        self.assertIsInstance(self.IOBase, abc.ABCMeta)
        self.assertIsInstance(self.RawIOBase, abc.ABCMeta)
        self.assertIsInstance(self.BufferedIOBase, abc.ABCMeta)
        self.assertIsInstance(self.TextIOBase, abc.ABCMeta)

    def _check_abc_inheritance(self, abcmodule):
        with self.open(support.TESTFN, "wb", buffering=0) as f:
            self.assertIsInstance(f, abcmodule.IOBase)
            self.assertIsInstance(f, abcmodule.RawIOBase)
            self.assertNotIsInstance(f, abcmodule.BufferedIOBase)
            self.assertNotIsInstance(f, abcmodule.TextIOBase)
        with self.open(support.TESTFN, "wb") as f:
            self.assertIsInstance(f, abcmodule.IOBase)
            self.assertNotIsInstance(f, abcmodule.RawIOBase)
            self.assertIsInstance(f, abcmodule.BufferedIOBase)
            self.assertNotIsInstance(f, abcmodule.TextIOBase)
        with self.open(support.TESTFN, "w") as f:
            self.assertIsInstance(f, abcmodule.IOBase)
            self.assertNotIsInstance(f, abcmodule.RawIOBase)
            self.assertNotIsInstance(f, abcmodule.BufferedIOBase)
            self.assertIsInstance(f, abcmodule.TextIOBase)

    def test_abc_inheritance(self):
        # Test implementations inherit from their respective ABCs
        self._check_abc_inheritance(self)

    def test_abc_inheritance_official(self):
        # Test implementations inherit from the official ABCs of the
        # baseline "io" module.
        self._check_abc_inheritance(io)

    def _check_warn_on_dealloc(self, *args, **kwargs):
        f = open(*args, **kwargs)
        r = repr(f)
        with self.assertWarns(ResourceWarning) as cm:
            f = None
            support.gc_collect()
        self.assertIn(r, str(cm.warning.args[0]))

    def test_warn_on_dealloc(self):
        self._check_warn_on_dealloc(support.TESTFN, "wb", buffering=0)
        self._check_warn_on_dealloc(support.TESTFN, "wb")
        self._check_warn_on_dealloc(support.TESTFN, "w")

    def _check_warn_on_dealloc_fd(self, *args, **kwargs):
        fds = []
        def cleanup_fds():
            for fd in fds:
                try:
                    os.close(fd)
                except OSError as e:
                    if e.errno != errno.EBADF:
                        raise
        self.addCleanup(cleanup_fds)
        r, w = os.pipe()
        fds += r, w
        self._check_warn_on_dealloc(r, *args, **kwargs)
        # When using closefd=False, there's no warning
        r, w = os.pipe()
        fds += r, w
        with support.check_no_resource_warning(self):
            open(r, *args, closefd=False, **kwargs)

    def test_warn_on_dealloc_fd(self):
        self._check_warn_on_dealloc_fd("rb", buffering=0)
        self._check_warn_on_dealloc_fd("rb")
        self._check_warn_on_dealloc_fd("r")


    def test_pickling(self):
        # Pickling file objects is forbidden
        for kwargs in [
                {"mode": "w"},
                {"mode": "wb"},
                {"mode": "wb", "buffering": 0},
                {"mode": "r"},
                {"mode": "rb"},
                {"mode": "rb", "buffering": 0},
                {"mode": "w+"},
                {"mode": "w+b"},
                {"mode": "w+b", "buffering": 0},
            ]:
            for protocol in range(pickle.HIGHEST_PROTOCOL + 1):
                with self.open(support.TESTFN, **kwargs) as f:
                    self.assertRaises(TypeError, pickle.dumps, f, protocol)

    def test_nonblock_pipe_write_bigbuf(self):
        self._test_nonblock_pipe_write(16*1024)

    def test_nonblock_pipe_write_smallbuf(self):
        self._test_nonblock_pipe_write(1024)

    @unittest.skipUnless(hasattr(os, 'set_blocking'),
                         'os.set_blocking() required for this test')
    def _test_nonblock_pipe_write(self, bufsize):
        sent = []
        received = []
        r, w = os.pipe()
        os.set_blocking(r, False)
        os.set_blocking(w, False)

        # To exercise all code paths in the C implementation we need
        # to play with buffer sizes.  For instance, if we choose a
        # buffer size less than or equal to _PIPE_BUF (4096 on Linux)
        # then we will never get a partial write of the buffer.
        rf = self.open(r, mode='rb', closefd=True, buffering=bufsize)
        wf = self.open(w, mode='wb', closefd=True, buffering=bufsize)

        with rf, wf:
            for N in 9999, 73, 7574:
                try:
                    i = 0
                    while True:
                        msg = bytes([i % 26 + 97]) * N
                        sent.append(msg)
                        wf.write(msg)
                        i += 1

                except self.BlockingIOError as e:
                    self.assertEqual(e.args[0], errno.EAGAIN)
                    self.assertEqual(e.args[2], e.characters_written)
                    sent[-1] = sent[-1][:e.characters_written]
                    received.append(rf.read())
                    msg = b'BLOCKED'
                    wf.write(msg)
                    sent.append(msg)

            while True:
                try:
                    wf.flush()
                    break
                except self.BlockingIOError as e:
                    self.assertEqual(e.args[0], errno.EAGAIN)
                    self.assertEqual(e.args[2], e.characters_written)
                    self.assertEqual(e.characters_written, 0)
                    received.append(rf.read())

            received += iter(rf.read, None)

        sent, received = b''.join(sent), b''.join(received)
        self.assertEqual(sent, received)
        self.assertTrue(wf.closed)
        self.assertTrue(rf.closed)

    def test_create_fail(self):
        # 'x' mode fails if file is existing
        with self.open(support.TESTFN, 'w'):
            pass
        self.assertRaises(FileExistsError, self.open, support.TESTFN, 'x')

    def test_create_writes(self):
        # 'x' mode opens for writing
        with self.open(support.TESTFN, 'xb') as f:
            f.write(b"spam")
        with self.open(support.TESTFN, 'rb') as f:
            self.assertEqual(b"spam", f.read())

    def test_open_allargs(self):
        # there used to be a buffer overflow in the parser for rawmode
        self.assertRaises(ValueError, self.open, support.TESTFN, 'rwax+')


class CMiscIOTest(MiscIOTest):
    io = io

    def test_readinto_buffer_overflow(self):
        # Issue #18025
        class BadReader(self.io.BufferedIOBase):
            def read(self, n=-1):
                return b'x' * 10**6
        bufio = BadReader()
        b = bytearray(2)
        self.assertRaises(ValueError, bufio.readinto, b)

    def check_daemon_threads_shutdown_deadlock(self, stream_name):
        # Issue #23309: deadlocks at shutdown should be avoided when a
        # daemon thread and the main thread both write to a file.
        code = """if 1:
            import sys
            import time
            import threading
            from test.support import SuppressCrashReport

            file = sys.{stream_name}

            def run():
                while True:
                    file.write('.')
                    file.flush()

            crash = SuppressCrashReport()
            crash.__enter__()
            # don't call __exit__(): the crash occurs at Python shutdown

            thread = threading.Thread(target=run)
            thread.daemon = True
            thread.start()

            time.sleep(0.5)
            file.write('!')
            file.flush()
            """.format_map(locals())
        res, _ = run_python_until_end("-c", code)
        err = res.err.decode()
        if res.rc != 0:
            # Failure: should be a fatal error
            self.assertIn("Fatal Python error: could not acquire lock "
                          "for <_io.BufferedWriter name='<{stream_name}>'> "
                          "at interpreter shutdown, possibly due to "
                          "daemon threads".format_map(locals()),
                          err)
        else:
            self.assertFalse(err.strip('.!'))

    def test_daemon_threads_shutdown_stdout_deadlock(self):
        self.check_daemon_threads_shutdown_deadlock('stdout')

    def test_daemon_threads_shutdown_stderr_deadlock(self):
        self.check_daemon_threads_shutdown_deadlock('stderr')


class PyMiscIOTest(MiscIOTest):
    io = pyio


@unittest.skipIf(os.name == 'nt', 'POSIX signals required for this test.')
class SignalsTest(unittest.TestCase):

    def setUp(self):
        self.oldalrm = signal.signal(signal.SIGALRM, self.alarm_interrupt)

    def tearDown(self):
        signal.signal(signal.SIGALRM, self.oldalrm)

    def alarm_interrupt(self, sig, frame):
        1/0

    def check_interrupted_write(self, item, bytes, **fdopen_kwargs):
        """Check that a partial write, when it gets interrupted, properly
        invokes the signal handler, and bubbles up the exception raised
        in the latter."""
        read_results = []
        def _read():
            if hasattr(signal, 'pthread_sigmask'):
                signal.pthread_sigmask(signal.SIG_BLOCK, [signal.SIGALRM])
            s = os.read(r, 1)
            read_results.append(s)
        t = threading.Thread(target=_read)
        t.daemon = True
        r, w = os.pipe()
        fdopen_kwargs["closefd"] = False
        large_data = item * (support.PIPE_MAX_SIZE // len(item) + 1)
        try:
            wio = self.io.open(w, **fdopen_kwargs)
            t.start()
            # Fill the pipe enough that the write will be blocking.
            # It will be interrupted by the timer armed above.  Since the
            # other thread has read one byte, the low-level write will
            # return with a successful (partial) result rather than an EINTR.
            # The buffered IO layer must check for pending signal
            # handlers, which in this case will invoke alarm_interrupt().
            signal.alarm(1)
            try:
                self.assertRaises(ZeroDivisionError, wio.write, large_data)
            finally:
                signal.alarm(0)
                t.join()
            # We got one byte, get another one and check that it isn't a
            # repeat of the first one.
            read_results.append(os.read(r, 1))
            self.assertEqual(read_results, [bytes[0:1], bytes[1:2]])
        finally:
            os.close(w)
            os.close(r)
            # This is deliberate. If we didn't close the file descriptor
            # before closing wio, wio would try to flush its internal
            # buffer, and block again.
            try:
                wio.close()
            except OSError as e:
                if e.errno != errno.EBADF:
                    raise

    def test_interrupted_write_unbuffered(self):
        self.check_interrupted_write(b"xy", b"xy", mode="wb", buffering=0)

    def test_interrupted_write_buffered(self):
        self.check_interrupted_write(b"xy", b"xy", mode="wb")

    # Issue #22331: The test hangs on FreeBSD 7.2
    @support.requires_freebsd_version(8)
    def test_interrupted_write_text(self):
        self.check_interrupted_write("xy", b"xy", mode="w", encoding="ascii")

    @support.no_tracing
    def check_reentrant_write(self, data, **fdopen_kwargs):
        def on_alarm(*args):
            # Will be called reentrantly from the same thread
            wio.write(data)
            1/0
        signal.signal(signal.SIGALRM, on_alarm)
        r, w = os.pipe()
        wio = self.io.open(w, **fdopen_kwargs)
        try:
            signal.alarm(1)
            # Either the reentrant call to wio.write() fails with RuntimeError,
            # or the signal handler raises ZeroDivisionError.
            with self.assertRaises((ZeroDivisionError, RuntimeError)) as cm:
                while 1:
                    for i in range(100):
                        wio.write(data)
                        wio.flush()
                    # Make sure the buffer doesn't fill up and block further writes
                    os.read(r, len(data) * 100)
            exc = cm.exception
            if isinstance(exc, RuntimeError):
                self.assertTrue(str(exc).startswith("reentrant call"), str(exc))
        finally:
            signal.alarm(0)
            wio.close()
            os.close(r)

    def test_reentrant_write_buffered(self):
        self.check_reentrant_write(b"xy", mode="wb")

    def test_reentrant_write_text(self):
        self.check_reentrant_write("xy", mode="w", encoding="ascii")

    def check_interrupted_read_retry(self, decode, **fdopen_kwargs):
        """Check that a buffered read, when it gets interrupted (either
        returning a partial result or EINTR), properly invokes the signal
        handler and retries if the latter returned successfully."""
        r, w = os.pipe()
        fdopen_kwargs["closefd"] = False
        def alarm_handler(sig, frame):
            os.write(w, b"bar")
        signal.signal(signal.SIGALRM, alarm_handler)
        try:
            rio = self.io.open(r, **fdopen_kwargs)
            os.write(w, b"foo")
            signal.alarm(1)
            # Expected behaviour:
            # - first raw read() returns partial b"foo"
            # - second raw read() returns EINTR
            # - third raw read() returns b"bar"
            self.assertEqual(decode(rio.read(6)), "foobar")
        finally:
            signal.alarm(0)
            rio.close()
            os.close(w)
            os.close(r)

    def test_interrupted_read_retry_buffered(self):
        self.check_interrupted_read_retry(lambda x: x.decode('latin1'),
                                          mode="rb")

    def test_interrupted_read_retry_text(self):
        self.check_interrupted_read_retry(lambda x: x,
                                          mode="r")

    def check_interrupted_write_retry(self, item, **fdopen_kwargs):
        """Check that a buffered write, when it gets interrupted (either
        returning a partial result or EINTR), properly invokes the signal
        handler and retries if the latter returned successfully."""
        select = support.import_module("select")

        # A quantity that exceeds the buffer size of an anonymous pipe's
        # write end.
        N = support.PIPE_MAX_SIZE
        r, w = os.pipe()
        fdopen_kwargs["closefd"] = False

        # We need a separate thread to read from the pipe and allow the
        # write() to finish.  This thread is started after the SIGALRM is
        # received (forcing a first EINTR in write()).
        read_results = []
        write_finished = False
        error = None
        def _read():
            try:
                while not write_finished:
                    while r in select.select([r], [], [], 1.0)[0]:
                        s = os.read(r, 1024)
                        read_results.append(s)
            except BaseException as exc:
                nonlocal error
                error = exc
        t = threading.Thread(target=_read)
        t.daemon = True
        def alarm1(sig, frame):
            signal.signal(signal.SIGALRM, alarm2)
            signal.alarm(1)
        def alarm2(sig, frame):
            t.start()

        large_data = item * N
        signal.signal(signal.SIGALRM, alarm1)
        try:
            wio = self.io.open(w, **fdopen_kwargs)
            signal.alarm(1)
            # Expected behaviour:
            # - first raw write() is partial (because of the limited pipe buffer
            #   and the first alarm)
            # - second raw write() returns EINTR (because of the second alarm)
            # - subsequent write()s are successful (either partial or complete)
            written = wio.write(large_data)
            self.assertEqual(N, written)

            wio.flush()
            write_finished = True
            t.join()

            self.assertIsNone(error)
            self.assertEqual(N, sum(len(x) for x in read_results))
        finally:
            signal.alarm(0)
            write_finished = True
            os.close(w)
            os.close(r)
            # This is deliberate. If we didn't close the file descriptor
            # before closing wio, wio would try to flush its internal
            # buffer, and could block (in case of failure).
            try:
                wio.close()
            except OSError as e:
                if e.errno != errno.EBADF:
                    raise

    def test_interrupted_write_retry_buffered(self):
        self.check_interrupted_write_retry(b"x", mode="wb")

    def test_interrupted_write_retry_text(self):
        self.check_interrupted_write_retry("x", mode="w", encoding="latin1")


class CSignalsTest(SignalsTest):
    io = io

class PySignalsTest(SignalsTest):
    io = pyio

    # Handling reentrancy issues would slow down _pyio even more, so the
    # tests are disabled.
    test_reentrant_write_buffered = None
    test_reentrant_write_text = None


def load_tests(*args):
    tests = (CIOTest, PyIOTest, APIMismatchTest,
             CBufferedReaderTest, PyBufferedReaderTest,
             CBufferedWriterTest, PyBufferedWriterTest,
             CBufferedRWPairTest, PyBufferedRWPairTest,
             CBufferedRandomTest, PyBufferedRandomTest,
             StatefulIncrementalDecoderTest,
             CIncrementalNewlineDecoderTest, PyIncrementalNewlineDecoderTest,
             CTextIOWrapperTest, PyTextIOWrapperTest,
             CMiscIOTest, PyMiscIOTest,
             CSignalsTest, PySignalsTest,
             )

    # Put the namespaces of the IO module we are testing and some useful mock
    # classes in the __dict__ of each test.
    mocks = (MockRawIO, MisbehavedRawIO, MockFileIO, CloseFailureIO,
             MockNonBlockWriterIO, MockUnseekableIO, MockRawIOWithoutRead,
             SlowFlushRawIO)
    all_members = io.__all__ + ["IncrementalNewlineDecoder"]
    c_io_ns = {name : getattr(io, name) for name in all_members}
    py_io_ns = {name : getattr(pyio, name) for name in all_members}
    globs = globals()
    c_io_ns.update((x.__name__, globs["C" + x.__name__]) for x in mocks)
    py_io_ns.update((x.__name__, globs["Py" + x.__name__]) for x in mocks)
    # Avoid turning open into a bound method.
    py_io_ns["open"] = pyio.OpenWrapper
    for test in tests:
        if test.__name__.startswith("C"):
            for name, obj in c_io_ns.items():
                setattr(test, name, obj)
        elif test.__name__.startswith("Py"):
            for name, obj in py_io_ns.items():
                setattr(test, name, obj)

    suite = unittest.TestSuite([unittest.makeSuite(test) for test in tests])
    return suite

if __name__ == "__main__":
    unittest.main()