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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""Unit tests for memory-based file-like objects.
StringIO -- for unicode strings
BytesIO -- for bytes
"""
from __future__ import unicode_literals
from __future__ import print_function
import unittest
from test import test_support as support
import io
import _pyio as pyio
import pickle
class MemorySeekTestMixin:
def testInit(self):
buf = self.buftype("1234567890")
bytesIo = self.ioclass(buf)
def testRead(self):
buf = self.buftype("1234567890")
bytesIo = self.ioclass(buf)
self.assertEqual(buf[:1], bytesIo.read(1))
self.assertEqual(buf[1:5], bytesIo.read(4))
self.assertEqual(buf[5:], bytesIo.read(900))
self.assertEqual(self.EOF, bytesIo.read())
def testReadNoArgs(self):
buf = self.buftype("1234567890")
bytesIo = self.ioclass(buf)
self.assertEqual(buf, bytesIo.read())
self.assertEqual(self.EOF, bytesIo.read())
def testSeek(self):
buf = self.buftype("1234567890")
bytesIo = self.ioclass(buf)
bytesIo.read(5)
bytesIo.seek(0)
self.assertEqual(buf, bytesIo.read())
bytesIo.seek(3)
self.assertEqual(buf[3:], bytesIo.read())
self.assertRaises(TypeError, bytesIo.seek, 0.0)
def testTell(self):
buf = self.buftype("1234567890")
bytesIo = self.ioclass(buf)
self.assertEqual(0, bytesIo.tell())
bytesIo.seek(5)
self.assertEqual(5, bytesIo.tell())
bytesIo.seek(10000)
self.assertEqual(10000, bytesIo.tell())
class MemoryTestMixin:
def test_detach(self):
buf = self.ioclass()
self.assertRaises(self.UnsupportedOperation, buf.detach)
def write_ops(self, f, t):
self.assertEqual(f.write(t("blah.")), 5)
self.assertEqual(f.seek(0), 0)
self.assertEqual(f.write(t("Hello.")), 6)
self.assertEqual(f.tell(), 6)
self.assertEqual(f.seek(5), 5)
self.assertEqual(f.tell(), 5)
self.assertEqual(f.write(t(" world\n\n\n")), 9)
self.assertEqual(f.seek(0), 0)
self.assertEqual(f.write(t("h")), 1)
self.assertEqual(f.truncate(12), 12)
self.assertEqual(f.tell(), 1)
def test_write(self):
buf = self.buftype("hello world\n")
memio = self.ioclass(buf)
self.write_ops(memio, self.buftype)
self.assertEqual(memio.getvalue(), buf)
memio = self.ioclass()
self.write_ops(memio, self.buftype)
self.assertEqual(memio.getvalue(), buf)
self.assertRaises(TypeError, memio.write, None)
memio.close()
self.assertRaises(ValueError, memio.write, self.buftype(""))
def test_writelines(self):
buf = self.buftype("1234567890")
memio = self.ioclass()
self.assertEqual(memio.writelines([buf] * 100), None)
self.assertEqual(memio.getvalue(), buf * 100)
memio.writelines([])
self.assertEqual(memio.getvalue(), buf * 100)
memio = self.ioclass()
self.assertRaises(TypeError, memio.writelines, [buf] + [1])
self.assertEqual(memio.getvalue(), buf)
self.assertRaises(TypeError, memio.writelines, None)
memio.close()
self.assertRaises(ValueError, memio.writelines, [])
def test_writelines_error(self):
memio = self.ioclass()
def error_gen():
yield self.buftype('spam')
raise KeyboardInterrupt
self.assertRaises(KeyboardInterrupt, memio.writelines, error_gen())
def test_truncate(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertRaises(ValueError, memio.truncate, -1)
memio.seek(6)
self.assertEqual(memio.truncate(), 6)
self.assertEqual(memio.getvalue(), buf[:6])
self.assertEqual(memio.truncate(4), 4)
self.assertEqual(memio.getvalue(), buf[:4])
# truncate() accepts long objects
self.assertEqual(memio.truncate(4L), 4)
self.assertEqual(memio.getvalue(), buf[:4])
self.assertEqual(memio.tell(), 6)
memio.seek(0, 2)
memio.write(buf)
self.assertEqual(memio.getvalue(), buf[:4] + buf)
pos = memio.tell()
self.assertEqual(memio.truncate(None), pos)
self.assertEqual(memio.tell(), pos)
self.assertRaises(TypeError, memio.truncate, '0')
memio.close()
self.assertRaises(ValueError, memio.truncate, 0)
def test_init(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.getvalue(), buf)
memio = self.ioclass(None)
self.assertEqual(memio.getvalue(), self.EOF)
memio.__init__(buf * 2)
self.assertEqual(memio.getvalue(), buf * 2)
memio.__init__(buf)
self.assertEqual(memio.getvalue(), buf)
def test_read(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.read(0), self.EOF)
self.assertEqual(memio.read(1), buf[:1])
# read() accepts long objects
self.assertEqual(memio.read(4L), buf[1:5])
self.assertEqual(memio.read(900), buf[5:])
self.assertEqual(memio.read(), self.EOF)
memio.seek(0)
self.assertEqual(memio.read(), buf)
self.assertEqual(memio.read(), self.EOF)
self.assertEqual(memio.tell(), 10)
memio.seek(0)
self.assertEqual(memio.read(-1), buf)
memio.seek(0)
self.assertEqual(type(memio.read()), type(buf))
memio.seek(100)
self.assertEqual(type(memio.read()), type(buf))
memio.seek(0)
self.assertEqual(memio.read(None), buf)
self.assertRaises(TypeError, memio.read, '')
memio.close()
self.assertRaises(ValueError, memio.read)
def test_readline(self):
buf = self.buftype("1234567890\n")
memio = self.ioclass(buf * 2)
self.assertEqual(memio.readline(0), self.EOF)
self.assertEqual(memio.readline(), buf)
self.assertEqual(memio.readline(), buf)
self.assertEqual(memio.readline(), self.EOF)
memio.seek(0)
self.assertEqual(memio.readline(5), buf[:5])
# readline() accepts long objects
self.assertEqual(memio.readline(5L), buf[5:10])
self.assertEqual(memio.readline(5), buf[10:15])
memio.seek(0)
self.assertEqual(memio.readline(-1), buf)
memio.seek(0)
self.assertEqual(memio.readline(0), self.EOF)
buf = self.buftype("1234567890\n")
memio = self.ioclass((buf * 3)[:-1])
self.assertEqual(memio.readline(), buf)
self.assertEqual(memio.readline(), buf)
self.assertEqual(memio.readline(), buf[:-1])
self.assertEqual(memio.readline(), self.EOF)
memio.seek(0)
self.assertEqual(type(memio.readline()), type(buf))
self.assertEqual(memio.readline(), buf)
self.assertRaises(TypeError, memio.readline, '')
memio.close()
self.assertRaises(ValueError, memio.readline)
def test_readlines(self):
buf = self.buftype("1234567890\n")
memio = self.ioclass(buf * 10)
self.assertEqual(memio.readlines(), [buf] * 10)
memio.seek(5)
self.assertEqual(memio.readlines(), [buf[5:]] + [buf] * 9)
memio.seek(0)
# readlines() accepts long objects
self.assertEqual(memio.readlines(15L), [buf] * 2)
memio.seek(0)
self.assertEqual(memio.readlines(-1), [buf] * 10)
memio.seek(0)
self.assertEqual(memio.readlines(0), [buf] * 10)
memio.seek(0)
self.assertEqual(type(memio.readlines()[0]), type(buf))
memio.seek(0)
self.assertEqual(memio.readlines(None), [buf] * 10)
self.assertRaises(TypeError, memio.readlines, '')
memio.close()
self.assertRaises(ValueError, memio.readlines)
def test_iterator(self):
buf = self.buftype("1234567890\n")
memio = self.ioclass(buf * 10)
self.assertEqual(iter(memio), memio)
self.assertTrue(hasattr(memio, '__iter__'))
self.assertTrue(hasattr(memio, 'next'))
i = 0
for line in memio:
self.assertEqual(line, buf)
i += 1
self.assertEqual(i, 10)
memio.seek(0)
i = 0
for line in memio:
self.assertEqual(line, buf)
i += 1
self.assertEqual(i, 10)
memio = self.ioclass(buf * 2)
memio.close()
self.assertRaises(ValueError, next, memio)
def test_getvalue(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.getvalue(), buf)
memio.read()
self.assertEqual(memio.getvalue(), buf)
self.assertEqual(type(memio.getvalue()), type(buf))
memio = self.ioclass(buf * 1000)
self.assertEqual(memio.getvalue()[-3:], self.buftype("890"))
memio = self.ioclass(buf)
memio.close()
self.assertRaises(ValueError, memio.getvalue)
def test_seek(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
memio.read(5)
self.assertRaises(ValueError, memio.seek, -1)
self.assertRaises(ValueError, memio.seek, 1, -1)
self.assertRaises(ValueError, memio.seek, 1, 3)
self.assertEqual(memio.seek(0), 0)
self.assertEqual(memio.seek(0, 0), 0)
self.assertEqual(memio.read(), buf)
self.assertEqual(memio.seek(3), 3)
# seek() accepts long objects
self.assertEqual(memio.seek(3L), 3)
self.assertEqual(memio.seek(0, 1), 3)
self.assertEqual(memio.read(), buf[3:])
self.assertEqual(memio.seek(len(buf)), len(buf))
self.assertEqual(memio.read(), self.EOF)
memio.seek(len(buf) + 1)
self.assertEqual(memio.read(), self.EOF)
self.assertEqual(memio.seek(0, 2), len(buf))
self.assertEqual(memio.read(), self.EOF)
memio.close()
self.assertRaises(ValueError, memio.seek, 0)
def test_overseek(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.seek(len(buf) + 1), 11)
self.assertEqual(memio.read(), self.EOF)
self.assertEqual(memio.tell(), 11)
self.assertEqual(memio.getvalue(), buf)
memio.write(self.EOF)
self.assertEqual(memio.getvalue(), buf)
memio.write(buf)
self.assertEqual(memio.getvalue(), buf + self.buftype('\0') + buf)
def test_tell(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.tell(), 0)
memio.seek(5)
self.assertEqual(memio.tell(), 5)
memio.seek(10000)
self.assertEqual(memio.tell(), 10000)
memio.close()
self.assertRaises(ValueError, memio.tell)
def test_flush(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.flush(), None)
def test_flags(self):
memio = self.ioclass()
self.assertEqual(memio.writable(), True)
self.assertEqual(memio.readable(), True)
self.assertEqual(memio.seekable(), True)
self.assertEqual(memio.isatty(), False)
self.assertEqual(memio.closed, False)
memio.close()
self.assertRaises(ValueError, memio.writable)
self.assertRaises(ValueError, memio.readable)
self.assertRaises(ValueError, memio.seekable)
self.assertRaises(ValueError, memio.isatty)
self.assertEqual(memio.closed, True)
def test_subclassing(self):
buf = self.buftype("1234567890")
def test1():
class MemIO(self.ioclass):
pass
m = MemIO(buf)
return m.getvalue()
def test2():
class MemIO(self.ioclass):
def __init__(me, a, b):
self.ioclass.__init__(me, a)
m = MemIO(buf, None)
return m.getvalue()
self.assertEqual(test1(), buf)
self.assertEqual(test2(), buf)
def test_instance_dict_leak(self):
# Test case for issue #6242.
# This will be caught by regrtest.py -R if this leak.
for _ in range(100):
memio = self.ioclass()
memio.foo = 1
def test_pickling(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
memio.foo = 42
memio.seek(2)
class PickleTestMemIO(self.ioclass):
def __init__(me, initvalue, foo):
self.ioclass.__init__(me, initvalue)
me.foo = foo
# __getnewargs__ is undefined on purpose. This checks that PEP 307
# is used to provide pickling support.
# Pickle expects the class to be on the module level. Here we use a
# little hack to allow the PickleTestMemIO class to derive from
# self.ioclass without having to define all combinations explicitly on
# the module-level.
import __main__
PickleTestMemIO.__module__ = '__main__'
__main__.PickleTestMemIO = PickleTestMemIO
submemio = PickleTestMemIO(buf, 80)
submemio.seek(2)
# We only support pickle protocol 2 and onward since we use extended
# __reduce__ API of PEP 307 to provide pickling support.
for proto in range(2, pickle.HIGHEST_PROTOCOL):
for obj in (memio, submemio):
obj2 = pickle.loads(pickle.dumps(obj, protocol=proto))
self.assertEqual(obj.getvalue(), obj2.getvalue())
self.assertEqual(obj.__class__, obj2.__class__)
self.assertEqual(obj.foo, obj2.foo)
self.assertEqual(obj.tell(), obj2.tell())
obj.close()
self.assertRaises(ValueError, pickle.dumps, obj, proto)
del __main__.PickleTestMemIO
class PyBytesIOTest(MemoryTestMixin, MemorySeekTestMixin, unittest.TestCase):
UnsupportedOperation = pyio.UnsupportedOperation
# When Jython tries to use UnsupportedOperation as _pyio defines it, it runs
# into a problem with multiple inheritance and the slots array: issue 1996.
# Override the affected test version just so we can skip it visibly.
@unittest.skipIf(support.is_jython, "FIXME: Jython issue 1996")
def test_detach(self):
pass
@staticmethod
def buftype(s):
return s.encode("ascii")
ioclass = pyio.BytesIO
EOF = b""
def test_read1(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertRaises(TypeError, memio.read1)
self.assertEqual(memio.read(), buf)
def test_readinto(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
b = bytearray(b"hello")
self.assertEqual(memio.readinto(b), 5)
self.assertEqual(b, b"12345")
self.assertEqual(memio.readinto(b), 5)
self.assertEqual(b, b"67890")
self.assertEqual(memio.readinto(b), 0)
self.assertEqual(b, b"67890")
b = bytearray(b"hello world")
memio.seek(0)
self.assertEqual(memio.readinto(b), 10)
self.assertEqual(b, b"1234567890d")
b = bytearray(b"")
memio.seek(0)
self.assertEqual(memio.readinto(b), 0)
self.assertEqual(b, b"")
self.assertRaises(TypeError, memio.readinto, '')
import array
a = array.array(b'b', b"hello world")
memio = self.ioclass(buf)
memio.readinto(a)
self.assertEqual(a.tostring(), b"1234567890d")
memio.close()
self.assertRaises(ValueError, memio.readinto, b)
memio = self.ioclass(b"123")
b = bytearray()
memio.seek(42)
memio.readinto(b)
self.assertEqual(b, b"")
def test_relative_seek(self):
buf = self.buftype("1234567890")
memio = self.ioclass(buf)
self.assertEqual(memio.seek(-1, 1), 0)
self.assertEqual(memio.seek(3, 1), 3)
self.assertEqual(memio.seek(-4, 1), 0)
self.assertEqual(memio.seek(-1, 2), 9)
self.assertEqual(memio.seek(1, 1), 10)
self.assertEqual(memio.seek(1, 2), 11)
memio.seek(-3, 2)
self.assertEqual(memio.read(), buf[-3:])
memio.seek(0)
memio.seek(1, 1)
self.assertEqual(memio.read(), buf[1:])
def test_unicode(self):
memio = self.ioclass()
self.assertRaises(TypeError, self.ioclass, "1234567890")
self.assertRaises(TypeError, memio.write, "1234567890")
self.assertRaises(TypeError, memio.writelines, ["1234567890"])
def test_bytes_array(self):
buf = b"1234567890"
import array
a = array.array(b'b', buf)
memio = self.ioclass(a)
self.assertEqual(memio.getvalue(), buf)
self.assertEqual(memio.write(a), 10)
self.assertEqual(memio.getvalue(), buf)
def test_issue5449(self):
buf = self.buftype("1234567890")
self.ioclass(initial_bytes=buf)
self.assertRaises(TypeError, self.ioclass, buf, foo=None)
class TextIOTestMixin:
def test_newlines_property(self):
memio = self.ioclass(newline=None)
# The C StringIO decodes newlines in write() calls, but the Python
# implementation only does when reading. This function forces them to
# be decoded for testing.
def force_decode():
memio.seek(0)
memio.read()
self.assertEqual(memio.newlines, None)
memio.write("a\n")
force_decode()
self.assertEqual(memio.newlines, "\n")
memio.write("b\r\n")
force_decode()
self.assertEqual(memio.newlines, ("\n", "\r\n"))
memio.write("c\rd")
force_decode()
self.assertEqual(memio.newlines, ("\r", "\n", "\r\n"))
def test_relative_seek(self):
memio = self.ioclass()
self.assertRaises(IOError, memio.seek, -1, 1)
self.assertRaises(IOError, memio.seek, 3, 1)
self.assertRaises(IOError, memio.seek, -3, 1)
self.assertRaises(IOError, memio.seek, -1, 2)
self.assertRaises(IOError, memio.seek, 1, 1)
self.assertRaises(IOError, memio.seek, 1, 2)
def test_textio_properties(self):
memio = self.ioclass()
# These are just dummy values but we nevertheless check them for fear
# of unexpected breakage.
self.assertIsNone(memio.encoding)
self.assertIsNone(memio.errors)
self.assertFalse(memio.line_buffering)
def test_newline_none(self):
# newline=None
memio = self.ioclass("a\nb\r\nc\rd", newline=None)
self.assertEqual(list(memio), ["a\n", "b\n", "c\n", "d"])
memio.seek(0)
self.assertEqual(memio.read(1), "a")
self.assertEqual(memio.read(2), "\nb")
self.assertEqual(memio.read(2), "\nc")
self.assertEqual(memio.read(1), "\n")
memio = self.ioclass(newline=None)
self.assertEqual(2, memio.write("a\n"))
self.assertEqual(3, memio.write("b\r\n"))
self.assertEqual(3, memio.write("c\rd"))
memio.seek(0)
self.assertEqual(memio.read(), "a\nb\nc\nd")
memio = self.ioclass("a\r\nb", newline=None)
self.assertEqual(memio.read(3), "a\nb")
def test_newline_empty(self):
# newline=""
memio = self.ioclass("a\nb\r\nc\rd", newline="")
self.assertEqual(list(memio), ["a\n", "b\r\n", "c\r", "d"])
memio.seek(0)
self.assertEqual(memio.read(4), "a\nb\r")
self.assertEqual(memio.read(2), "\nc")
self.assertEqual(memio.read(1), "\r")
memio = self.ioclass(newline="")
self.assertEqual(2, memio.write("a\n"))
self.assertEqual(2, memio.write("b\r"))
self.assertEqual(2, memio.write("\nc"))
self.assertEqual(2, memio.write("\rd"))
memio.seek(0)
self.assertEqual(list(memio), ["a\n", "b\r\n", "c\r", "d"])
def test_newline_lf(self):
# newline="\n"
memio = self.ioclass("a\nb\r\nc\rd")
self.assertEqual(list(memio), ["a\n", "b\r\n", "c\rd"])
def test_newline_cr(self):
# newline="\r"
memio = self.ioclass("a\nb\r\nc\rd", newline="\r")
self.assertEqual(memio.read(), "a\rb\r\rc\rd")
memio.seek(0)
self.assertEqual(list(memio), ["a\r", "b\r", "\r", "c\r", "d"])
def test_newline_crlf(self):
# newline="\r\n"
memio = self.ioclass("a\nb\r\nc\rd", newline="\r\n")
self.assertEqual(memio.read(), "a\r\nb\r\r\nc\rd")
memio.seek(0)
self.assertEqual(list(memio), ["a\r\n", "b\r\r\n", "c\rd"])
def test_issue5265(self):
# StringIO can duplicate newlines in universal newlines mode
memio = self.ioclass("a\r\nb\r\n", newline=None)
self.assertEqual(memio.read(5), "a\nb\n")
class PyStringIOTest(MemoryTestMixin, MemorySeekTestMixin,
TextIOTestMixin, unittest.TestCase):
buftype = unicode
ioclass = pyio.StringIO
UnsupportedOperation = pyio.UnsupportedOperation
EOF = ""
# When Jython tries to use UnsupportedOperation as _pyio defines it, it runs
# into a problem with multiple inheritance and the slots array: issue 1996.
# Override the affected test version just so we can skip it visibly.
@unittest.skipIf(support.is_jython, "FIXME: Jython issue 1996")
def test_detach(self):
pass
class PyStringIOPickleTest(TextIOTestMixin, unittest.TestCase):
"""Test if pickle restores properly the internal state of StringIO.
"""
buftype = unicode
UnsupportedOperation = pyio.UnsupportedOperation
EOF = ""
class ioclass(pyio.StringIO):
def __new__(cls, *args, **kwargs):
return pickle.loads(pickle.dumps(pyio.StringIO(*args, **kwargs)))
def __init__(self, *args, **kwargs):
pass
class CBytesIOTest(PyBytesIOTest):
ioclass = io.BytesIO
UnsupportedOperation = io.UnsupportedOperation
test_bytes_array = unittest.skip(
"array.array() does not have the new buffer API"
)(PyBytesIOTest.test_bytes_array)
# Re-instate test_detach skipped by Jython in PyBytesIOTest
if support.is_jython: # FIXME: Jython issue 1996
test_detach = MemoryTestMixin.test_detach
def test_getstate(self):
memio = self.ioclass()
state = memio.__getstate__()
self.assertEqual(len(state), 3)
bytearray(state[0]) # Check if state[0] supports the buffer interface.
self.assertIsInstance(state[1], int)
self.assertTrue(isinstance(state[2], dict) or state[2] is None)
memio.close()
self.assertRaises(ValueError, memio.__getstate__)
def test_setstate(self):
# This checks whether __setstate__ does proper input validation.
memio = self.ioclass()
memio.__setstate__((b"no error", 0, None))
memio.__setstate__((bytearray(b"no error"), 0, None))
memio.__setstate__((b"no error", 0, {'spam': 3}))
self.assertRaises(ValueError, memio.__setstate__, (b"", -1, None))
self.assertRaises(TypeError, memio.__setstate__, ("unicode", 0, None))
self.assertRaises(TypeError, memio.__setstate__, (b"", 0.0, None))
self.assertRaises(TypeError, memio.__setstate__, (b"", 0, 0))
self.assertRaises(TypeError, memio.__setstate__, (b"len-test", 0))
self.assertRaises(TypeError, memio.__setstate__)
self.assertRaises(TypeError, memio.__setstate__, 0)
memio.close()
self.assertRaises(ValueError, memio.__setstate__, (b"closed", 0, None))
check_sizeof = support.check_sizeof
@support.cpython_only
def test_sizeof(self):
basesize = support.calcobjsize(b'P2PP2P')
check = self.check_sizeof
self.assertEqual(object.__sizeof__(io.BytesIO()), basesize)
check(io.BytesIO(), basesize )
check(io.BytesIO(b'a'), basesize + 1 + 1 )
check(io.BytesIO(b'a' * 1000), basesize + 1000 + 1 )
class CStringIOTest(PyStringIOTest):
ioclass = io.StringIO
UnsupportedOperation = io.UnsupportedOperation
# XXX: For the Python version of io.StringIO, this is highly
# dependent on the encoding used for the underlying buffer.
# Re-instate test_detach skipped by Jython in PyBytesIOTest
if support.is_jython: # FIXME: Jython issue 1996
test_detach = MemoryTestMixin.test_detach
# This test checks that tell() results are consistent with the length of
# text written, but this is not documented in the API: only that seek()
# accept what tell() returns.
@unittest.skipIf(support.is_jython, "Exact value of tell() is CPython specific")
def test_widechar(self):
buf = self.buftype("\U0002030a\U00020347")
memio = self.ioclass(buf)
self.assertEqual(memio.getvalue(), buf)
self.assertEqual(memio.write(buf), len(buf))
self.assertEqual(memio.tell(), len(buf))
self.assertEqual(memio.getvalue(), buf)
self.assertEqual(memio.write(buf), len(buf))
self.assertEqual(memio.tell(), len(buf) * 2)
self.assertEqual(memio.getvalue(), buf + buf)
# This test checks that seek() accepts what tell() returns, without requiring
# that tell() return a particular absolute value. Conceived for Jython, but
# probably universal.
def test_widechar_seek(self):
buf = self.buftype("\U0002030aX\u00ca\U00020347\u05d1Y\u0628Z")
memio = self.ioclass(buf)
self.assertEqual(memio.getvalue(), buf)
# For each character in buf, read it back from memio and its tell value
chars = list(buf)
tells = list()
for ch in chars :
tells.append(memio.tell())
self.assertEqual(memio.read(1), ch)
# For each character in buf, seek to it and check it's there
chpos = zip(chars, tells)
chpos.reverse()
for ch, pos in chpos:
memio.seek(pos)
self.assertEqual(memio.read(1), ch)
# Check write after seek to end
memio.seek(0, 2)
self.assertEqual(memio.write(buf), len(buf))
self.assertEqual(memio.getvalue(), buf + buf)
def test_getstate(self):
memio = self.ioclass()
state = memio.__getstate__()
self.assertEqual(len(state), 4)
self.assertIsInstance(state[0], unicode)
self.assertIsInstance(state[1], str)
self.assertIsInstance(state[2], int)
self.assertTrue(isinstance(state[3], dict) or state[3] is None)
memio.close()
self.assertRaises(ValueError, memio.__getstate__)
def test_setstate(self):
# This checks whether __setstate__ does proper input validation.
memio = self.ioclass()
memio.__setstate__(("no error", "\n", 0, None))
memio.__setstate__(("no error", "", 0, {'spam': 3}))
self.assertRaises(ValueError, memio.__setstate__, ("", "f", 0, None))
self.assertRaises(ValueError, memio.__setstate__, ("", "", -1, None))
self.assertRaises(TypeError, memio.__setstate__, (b"", "", 0, None))
# trunk is more tolerant than py3k on the type of the newline param
#self.assertRaises(TypeError, memio.__setstate__, ("", b"", 0, None))
self.assertRaises(TypeError, memio.__setstate__, ("", "", 0.0, None))
self.assertRaises(TypeError, memio.__setstate__, ("", "", 0, 0))
self.assertRaises(TypeError, memio.__setstate__, ("len-test", 0))
self.assertRaises(TypeError, memio.__setstate__)
self.assertRaises(TypeError, memio.__setstate__, 0)
memio.close()
self.assertRaises(ValueError, memio.__setstate__, ("closed", "", 0, None))
class CStringIOPickleTest(PyStringIOPickleTest):
UnsupportedOperation = io.UnsupportedOperation
class ioclass(io.StringIO):
def __new__(cls, *args, **kwargs):
return pickle.loads(pickle.dumps(io.StringIO(*args, **kwargs),
protocol=2))
def __init__(self, *args, **kwargs):
pass
def test_main():
tests = [PyBytesIOTest, PyStringIOTest, CBytesIOTest, CStringIOTest,
PyStringIOPickleTest, CStringIOPickleTest]
support.run_unittest(*tests)
if __name__ == '__main__':
test_main()