MinDalle_StableDiff/Python310/Lib/test/test_fileinput.py

1044 lines
40 KiB
Python

'''
Tests for fileinput module.
Nick Mathewson
'''
import io
import os
import sys
import re
import fileinput
import collections
import builtins
import tempfile
import unittest
try:
import bz2
except ImportError:
bz2 = None
try:
import gzip
except ImportError:
gzip = None
from io import BytesIO, StringIO
from fileinput import FileInput, hook_encoded
from pathlib import Path
from test.support import verbose
from test.support.os_helper import TESTFN
from test.support.os_helper import unlink as safe_unlink
from test.support import os_helper
from test.support import warnings_helper
from test import support
from unittest import mock
# The fileinput module has 2 interfaces: the FileInput class which does
# all the work, and a few functions (input, etc.) that use a global _state
# variable.
class BaseTests:
# Write a content (str or bytes) to temp file, and return the
# temp file's name.
def writeTmp(self, content, *, mode='w'): # opening in text mode is the default
fd, name = tempfile.mkstemp()
self.addCleanup(os_helper.unlink, name)
encoding = None if "b" in mode else "utf-8"
with open(fd, mode, encoding=encoding) as f:
f.write(content)
return name
class LineReader:
def __init__(self):
self._linesread = []
@property
def linesread(self):
try:
return self._linesread[:]
finally:
self._linesread = []
def openhook(self, filename, mode):
self.it = iter(filename.splitlines(True))
return self
def readline(self, size=None):
line = next(self.it, '')
self._linesread.append(line)
return line
def readlines(self, hint=-1):
lines = []
size = 0
while True:
line = self.readline()
if not line:
return lines
lines.append(line)
size += len(line)
if size >= hint:
return lines
def close(self):
pass
class BufferSizesTests(BaseTests, unittest.TestCase):
def test_buffer_sizes(self):
t1 = self.writeTmp(''.join("Line %s of file 1\n" % (i+1) for i in range(15)))
t2 = self.writeTmp(''.join("Line %s of file 2\n" % (i+1) for i in range(10)))
t3 = self.writeTmp(''.join("Line %s of file 3\n" % (i+1) for i in range(5)))
t4 = self.writeTmp(''.join("Line %s of file 4\n" % (i+1) for i in range(1)))
pat = re.compile(r'LINE (\d+) OF FILE (\d+)')
if verbose:
print('1. Simple iteration')
fi = FileInput(files=(t1, t2, t3, t4), encoding="utf-8")
lines = list(fi)
fi.close()
self.assertEqual(len(lines), 31)
self.assertEqual(lines[4], 'Line 5 of file 1\n')
self.assertEqual(lines[30], 'Line 1 of file 4\n')
self.assertEqual(fi.lineno(), 31)
self.assertEqual(fi.filename(), t4)
if verbose:
print('2. Status variables')
fi = FileInput(files=(t1, t2, t3, t4), encoding="utf-8")
s = "x"
while s and s != 'Line 6 of file 2\n':
s = fi.readline()
self.assertEqual(fi.filename(), t2)
self.assertEqual(fi.lineno(), 21)
self.assertEqual(fi.filelineno(), 6)
self.assertFalse(fi.isfirstline())
self.assertFalse(fi.isstdin())
if verbose:
print('3. Nextfile')
fi.nextfile()
self.assertEqual(fi.readline(), 'Line 1 of file 3\n')
self.assertEqual(fi.lineno(), 22)
fi.close()
if verbose:
print('4. Stdin')
fi = FileInput(files=(t1, t2, t3, t4, '-'), encoding="utf-8")
savestdin = sys.stdin
try:
sys.stdin = StringIO("Line 1 of stdin\nLine 2 of stdin\n")
lines = list(fi)
self.assertEqual(len(lines), 33)
self.assertEqual(lines[32], 'Line 2 of stdin\n')
self.assertEqual(fi.filename(), '<stdin>')
fi.nextfile()
finally:
sys.stdin = savestdin
if verbose:
print('5. Boundary conditions')
fi = FileInput(files=(t1, t2, t3, t4), encoding="utf-8")
self.assertEqual(fi.lineno(), 0)
self.assertEqual(fi.filename(), None)
fi.nextfile()
self.assertEqual(fi.lineno(), 0)
self.assertEqual(fi.filename(), None)
if verbose:
print('6. Inplace')
savestdout = sys.stdout
try:
fi = FileInput(files=(t1, t2, t3, t4), inplace=1, encoding="utf-8")
for line in fi:
line = line[:-1].upper()
print(line)
fi.close()
finally:
sys.stdout = savestdout
fi = FileInput(files=(t1, t2, t3, t4), encoding="utf-8")
for line in fi:
self.assertEqual(line[-1], '\n')
m = pat.match(line[:-1])
self.assertNotEqual(m, None)
self.assertEqual(int(m.group(1)), fi.filelineno())
fi.close()
class UnconditionallyRaise:
def __init__(self, exception_type):
self.exception_type = exception_type
self.invoked = False
def __call__(self, *args, **kwargs):
self.invoked = True
raise self.exception_type()
class FileInputTests(BaseTests, unittest.TestCase):
def test_zero_byte_files(self):
t1 = self.writeTmp("")
t2 = self.writeTmp("")
t3 = self.writeTmp("The only line there is.\n")
t4 = self.writeTmp("")
fi = FileInput(files=(t1, t2, t3, t4), encoding="utf-8")
line = fi.readline()
self.assertEqual(line, 'The only line there is.\n')
self.assertEqual(fi.lineno(), 1)
self.assertEqual(fi.filelineno(), 1)
self.assertEqual(fi.filename(), t3)
line = fi.readline()
self.assertFalse(line)
self.assertEqual(fi.lineno(), 1)
self.assertEqual(fi.filelineno(), 0)
self.assertEqual(fi.filename(), t4)
fi.close()
def test_files_that_dont_end_with_newline(self):
t1 = self.writeTmp("A\nB\nC")
t2 = self.writeTmp("D\nE\nF")
fi = FileInput(files=(t1, t2), encoding="utf-8")
lines = list(fi)
self.assertEqual(lines, ["A\n", "B\n", "C", "D\n", "E\n", "F"])
self.assertEqual(fi.filelineno(), 3)
self.assertEqual(fi.lineno(), 6)
## def test_unicode_filenames(self):
## # XXX A unicode string is always returned by writeTmp.
## # So is this needed?
## t1 = self.writeTmp("A\nB")
## encoding = sys.getfilesystemencoding()
## if encoding is None:
## encoding = 'ascii'
## fi = FileInput(files=str(t1, encoding), encoding="utf-8")
## lines = list(fi)
## self.assertEqual(lines, ["A\n", "B"])
def test_fileno(self):
t1 = self.writeTmp("A\nB")
t2 = self.writeTmp("C\nD")
fi = FileInput(files=(t1, t2), encoding="utf-8")
self.assertEqual(fi.fileno(), -1)
line = next(fi)
self.assertNotEqual(fi.fileno(), -1)
fi.nextfile()
self.assertEqual(fi.fileno(), -1)
line = list(fi)
self.assertEqual(fi.fileno(), -1)
def test_opening_mode(self):
try:
# invalid mode, should raise ValueError
fi = FileInput(mode="w", encoding="utf-8")
self.fail("FileInput should reject invalid mode argument")
except ValueError:
pass
# try opening in universal newline mode
t1 = self.writeTmp(b"A\nB\r\nC\rD", mode="wb")
with warnings_helper.check_warnings(('', DeprecationWarning)):
fi = FileInput(files=t1, mode="U", encoding="utf-8")
with warnings_helper.check_warnings(('', DeprecationWarning)):
lines = list(fi)
self.assertEqual(lines, ["A\n", "B\n", "C\n", "D"])
def test_stdin_binary_mode(self):
with mock.patch('sys.stdin') as m_stdin:
m_stdin.buffer = BytesIO(b'spam, bacon, sausage, and spam')
fi = FileInput(files=['-'], mode='rb')
lines = list(fi)
self.assertEqual(lines, [b'spam, bacon, sausage, and spam'])
def test_detached_stdin_binary_mode(self):
orig_stdin = sys.stdin
try:
sys.stdin = BytesIO(b'spam, bacon, sausage, and spam')
self.assertFalse(hasattr(sys.stdin, 'buffer'))
fi = FileInput(files=['-'], mode='rb')
lines = list(fi)
self.assertEqual(lines, [b'spam, bacon, sausage, and spam'])
finally:
sys.stdin = orig_stdin
def test_file_opening_hook(self):
try:
# cannot use openhook and inplace mode
fi = FileInput(inplace=1, openhook=lambda f, m: None)
self.fail("FileInput should raise if both inplace "
"and openhook arguments are given")
except ValueError:
pass
try:
fi = FileInput(openhook=1)
self.fail("FileInput should check openhook for being callable")
except ValueError:
pass
class CustomOpenHook:
def __init__(self):
self.invoked = False
def __call__(self, *args, **kargs):
self.invoked = True
return open(*args, encoding="utf-8")
t = self.writeTmp("\n")
custom_open_hook = CustomOpenHook()
with FileInput([t], openhook=custom_open_hook) as fi:
fi.readline()
self.assertTrue(custom_open_hook.invoked, "openhook not invoked")
def test_readline(self):
with open(TESTFN, 'wb') as f:
f.write(b'A\nB\r\nC\r')
# Fill TextIOWrapper buffer.
f.write(b'123456789\n' * 1000)
# Issue #20501: readline() shouldn't read whole file.
f.write(b'\x80')
self.addCleanup(safe_unlink, TESTFN)
with FileInput(files=TESTFN,
openhook=hook_encoded('ascii')) as fi:
try:
self.assertEqual(fi.readline(), 'A\n')
self.assertEqual(fi.readline(), 'B\n')
self.assertEqual(fi.readline(), 'C\n')
except UnicodeDecodeError:
self.fail('Read to end of file')
with self.assertRaises(UnicodeDecodeError):
# Read to the end of file.
list(fi)
self.assertEqual(fi.readline(), '')
self.assertEqual(fi.readline(), '')
def test_readline_binary_mode(self):
with open(TESTFN, 'wb') as f:
f.write(b'A\nB\r\nC\rD')
self.addCleanup(safe_unlink, TESTFN)
with FileInput(files=TESTFN, mode='rb') as fi:
self.assertEqual(fi.readline(), b'A\n')
self.assertEqual(fi.readline(), b'B\r\n')
self.assertEqual(fi.readline(), b'C\rD')
# Read to the end of file.
self.assertEqual(fi.readline(), b'')
self.assertEqual(fi.readline(), b'')
def test_inplace_binary_write_mode(self):
temp_file = self.writeTmp(b'Initial text.', mode='wb')
with FileInput(temp_file, mode='rb', inplace=True) as fobj:
line = fobj.readline()
self.assertEqual(line, b'Initial text.')
# print() cannot be used with files opened in binary mode.
sys.stdout.write(b'New line.')
with open(temp_file, 'rb') as f:
self.assertEqual(f.read(), b'New line.')
def test_inplace_encoding_errors(self):
temp_file = self.writeTmp(b'Initial text \x88', mode='wb')
with FileInput(temp_file, inplace=True,
encoding="ascii", errors="replace") as fobj:
line = fobj.readline()
self.assertEqual(line, 'Initial text \ufffd')
print("New line \x88")
with open(temp_file, 'rb') as f:
self.assertEqual(f.read().rstrip(b'\r\n'), b'New line ?')
def test_file_hook_backward_compatibility(self):
def old_hook(filename, mode):
return io.StringIO("I used to receive only filename and mode")
t = self.writeTmp("\n")
with FileInput([t], openhook=old_hook) as fi:
result = fi.readline()
self.assertEqual(result, "I used to receive only filename and mode")
def test_context_manager(self):
t1 = self.writeTmp("A\nB\nC")
t2 = self.writeTmp("D\nE\nF")
with FileInput(files=(t1, t2), encoding="utf-8") as fi:
lines = list(fi)
self.assertEqual(lines, ["A\n", "B\n", "C", "D\n", "E\n", "F"])
self.assertEqual(fi.filelineno(), 3)
self.assertEqual(fi.lineno(), 6)
self.assertEqual(fi._files, ())
def test_close_on_exception(self):
t1 = self.writeTmp("")
try:
with FileInput(files=t1, encoding="utf-8") as fi:
raise OSError
except OSError:
self.assertEqual(fi._files, ())
def test_empty_files_list_specified_to_constructor(self):
with FileInput(files=[], encoding="utf-8") as fi:
self.assertEqual(fi._files, ('-',))
@warnings_helper.ignore_warnings(category=DeprecationWarning)
def test__getitem__(self):
"""Tests invoking FileInput.__getitem__() with the current
line number"""
t = self.writeTmp("line1\nline2\n")
with FileInput(files=[t], encoding="utf-8") as fi:
retval1 = fi[0]
self.assertEqual(retval1, "line1\n")
retval2 = fi[1]
self.assertEqual(retval2, "line2\n")
def test__getitem___deprecation(self):
t = self.writeTmp("line1\nline2\n")
with self.assertWarnsRegex(DeprecationWarning,
r'Use iterator protocol instead'):
with FileInput(files=[t]) as fi:
self.assertEqual(fi[0], "line1\n")
@warnings_helper.ignore_warnings(category=DeprecationWarning)
def test__getitem__invalid_key(self):
"""Tests invoking FileInput.__getitem__() with an index unequal to
the line number"""
t = self.writeTmp("line1\nline2\n")
with FileInput(files=[t], encoding="utf-8") as fi:
with self.assertRaises(RuntimeError) as cm:
fi[1]
self.assertEqual(cm.exception.args, ("accessing lines out of order",))
@warnings_helper.ignore_warnings(category=DeprecationWarning)
def test__getitem__eof(self):
"""Tests invoking FileInput.__getitem__() with the line number but at
end-of-input"""
t = self.writeTmp('')
with FileInput(files=[t], encoding="utf-8") as fi:
with self.assertRaises(IndexError) as cm:
fi[0]
self.assertEqual(cm.exception.args, ("end of input reached",))
def test_nextfile_oserror_deleting_backup(self):
"""Tests invoking FileInput.nextfile() when the attempt to delete
the backup file would raise OSError. This error is expected to be
silently ignored"""
os_unlink_orig = os.unlink
os_unlink_replacement = UnconditionallyRaise(OSError)
try:
t = self.writeTmp("\n")
self.addCleanup(safe_unlink, t + '.bak')
with FileInput(files=[t], inplace=True, encoding="utf-8") as fi:
next(fi) # make sure the file is opened
os.unlink = os_unlink_replacement
fi.nextfile()
finally:
os.unlink = os_unlink_orig
# sanity check to make sure that our test scenario was actually hit
self.assertTrue(os_unlink_replacement.invoked,
"os.unlink() was not invoked")
def test_readline_os_fstat_raises_OSError(self):
"""Tests invoking FileInput.readline() when os.fstat() raises OSError.
This exception should be silently discarded."""
os_fstat_orig = os.fstat
os_fstat_replacement = UnconditionallyRaise(OSError)
try:
t = self.writeTmp("\n")
with FileInput(files=[t], inplace=True, encoding="utf-8") as fi:
os.fstat = os_fstat_replacement
fi.readline()
finally:
os.fstat = os_fstat_orig
# sanity check to make sure that our test scenario was actually hit
self.assertTrue(os_fstat_replacement.invoked,
"os.fstat() was not invoked")
def test_readline_os_chmod_raises_OSError(self):
"""Tests invoking FileInput.readline() when os.chmod() raises OSError.
This exception should be silently discarded."""
os_chmod_orig = os.chmod
os_chmod_replacement = UnconditionallyRaise(OSError)
try:
t = self.writeTmp("\n")
with FileInput(files=[t], inplace=True, encoding="utf-8") as fi:
os.chmod = os_chmod_replacement
fi.readline()
finally:
os.chmod = os_chmod_orig
# sanity check to make sure that our test scenario was actually hit
self.assertTrue(os_chmod_replacement.invoked,
"os.fstat() was not invoked")
def test_fileno_when_ValueError_raised(self):
class FilenoRaisesValueError(UnconditionallyRaise):
def __init__(self):
UnconditionallyRaise.__init__(self, ValueError)
def fileno(self):
self.__call__()
unconditionally_raise_ValueError = FilenoRaisesValueError()
t = self.writeTmp("\n")
with FileInput(files=[t], encoding="utf-8") as fi:
file_backup = fi._file
try:
fi._file = unconditionally_raise_ValueError
result = fi.fileno()
finally:
fi._file = file_backup # make sure the file gets cleaned up
# sanity check to make sure that our test scenario was actually hit
self.assertTrue(unconditionally_raise_ValueError.invoked,
"_file.fileno() was not invoked")
self.assertEqual(result, -1, "fileno() should return -1")
def test_readline_buffering(self):
src = LineReader()
with FileInput(files=['line1\nline2', 'line3\n'],
openhook=src.openhook) as fi:
self.assertEqual(src.linesread, [])
self.assertEqual(fi.readline(), 'line1\n')
self.assertEqual(src.linesread, ['line1\n'])
self.assertEqual(fi.readline(), 'line2')
self.assertEqual(src.linesread, ['line2'])
self.assertEqual(fi.readline(), 'line3\n')
self.assertEqual(src.linesread, ['', 'line3\n'])
self.assertEqual(fi.readline(), '')
self.assertEqual(src.linesread, [''])
self.assertEqual(fi.readline(), '')
self.assertEqual(src.linesread, [])
def test_iteration_buffering(self):
src = LineReader()
with FileInput(files=['line1\nline2', 'line3\n'],
openhook=src.openhook) as fi:
self.assertEqual(src.linesread, [])
self.assertEqual(next(fi), 'line1\n')
self.assertEqual(src.linesread, ['line1\n'])
self.assertEqual(next(fi), 'line2')
self.assertEqual(src.linesread, ['line2'])
self.assertEqual(next(fi), 'line3\n')
self.assertEqual(src.linesread, ['', 'line3\n'])
self.assertRaises(StopIteration, next, fi)
self.assertEqual(src.linesread, [''])
self.assertRaises(StopIteration, next, fi)
self.assertEqual(src.linesread, [])
def test_pathlib_file(self):
t1 = Path(self.writeTmp("Pathlib file."))
with FileInput(t1, encoding="utf-8") as fi:
line = fi.readline()
self.assertEqual(line, 'Pathlib file.')
self.assertEqual(fi.lineno(), 1)
self.assertEqual(fi.filelineno(), 1)
self.assertEqual(fi.filename(), os.fspath(t1))
def test_pathlib_file_inplace(self):
t1 = Path(self.writeTmp('Pathlib file.'))
with FileInput(t1, inplace=True, encoding="utf-8") as fi:
line = fi.readline()
self.assertEqual(line, 'Pathlib file.')
print('Modified %s' % line)
with open(t1, encoding="utf-8") as f:
self.assertEqual(f.read(), 'Modified Pathlib file.\n')
class MockFileInput:
"""A class that mocks out fileinput.FileInput for use during unit tests"""
def __init__(self, files=None, inplace=False, backup="", *,
mode="r", openhook=None, encoding=None, errors=None):
self.files = files
self.inplace = inplace
self.backup = backup
self.mode = mode
self.openhook = openhook
self.encoding = encoding
self.errors = errors
self._file = None
self.invocation_counts = collections.defaultdict(lambda: 0)
self.return_values = {}
def close(self):
self.invocation_counts["close"] += 1
def nextfile(self):
self.invocation_counts["nextfile"] += 1
return self.return_values["nextfile"]
def filename(self):
self.invocation_counts["filename"] += 1
return self.return_values["filename"]
def lineno(self):
self.invocation_counts["lineno"] += 1
return self.return_values["lineno"]
def filelineno(self):
self.invocation_counts["filelineno"] += 1
return self.return_values["filelineno"]
def fileno(self):
self.invocation_counts["fileno"] += 1
return self.return_values["fileno"]
def isfirstline(self):
self.invocation_counts["isfirstline"] += 1
return self.return_values["isfirstline"]
def isstdin(self):
self.invocation_counts["isstdin"] += 1
return self.return_values["isstdin"]
class BaseFileInputGlobalMethodsTest(unittest.TestCase):
"""Base class for unit tests for the global function of
the fileinput module."""
def setUp(self):
self._orig_state = fileinput._state
self._orig_FileInput = fileinput.FileInput
fileinput.FileInput = MockFileInput
def tearDown(self):
fileinput.FileInput = self._orig_FileInput
fileinput._state = self._orig_state
def assertExactlyOneInvocation(self, mock_file_input, method_name):
# assert that the method with the given name was invoked once
actual_count = mock_file_input.invocation_counts[method_name]
self.assertEqual(actual_count, 1, method_name)
# assert that no other unexpected methods were invoked
actual_total_count = len(mock_file_input.invocation_counts)
self.assertEqual(actual_total_count, 1)
class Test_fileinput_input(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.input()"""
def test_state_is_not_None_and_state_file_is_not_None(self):
"""Tests invoking fileinput.input() when fileinput._state is not None
and its _file attribute is also not None. Expect RuntimeError to
be raised with a meaningful error message and for fileinput._state
to *not* be modified."""
instance = MockFileInput()
instance._file = object()
fileinput._state = instance
with self.assertRaises(RuntimeError) as cm:
fileinput.input()
self.assertEqual(("input() already active",), cm.exception.args)
self.assertIs(instance, fileinput._state, "fileinput._state")
def test_state_is_not_None_and_state_file_is_None(self):
"""Tests invoking fileinput.input() when fileinput._state is not None
but its _file attribute *is* None. Expect it to create and return
a new fileinput.FileInput object with all method parameters passed
explicitly to the __init__() method; also ensure that
fileinput._state is set to the returned instance."""
instance = MockFileInput()
instance._file = None
fileinput._state = instance
self.do_test_call_input()
def test_state_is_None(self):
"""Tests invoking fileinput.input() when fileinput._state is None
Expect it to create and return a new fileinput.FileInput object
with all method parameters passed explicitly to the __init__()
method; also ensure that fileinput._state is set to the returned
instance."""
fileinput._state = None
self.do_test_call_input()
def do_test_call_input(self):
"""Tests that fileinput.input() creates a new fileinput.FileInput
object, passing the given parameters unmodified to
fileinput.FileInput.__init__(). Note that this test depends on the
monkey patching of fileinput.FileInput done by setUp()."""
files = object()
inplace = object()
backup = object()
mode = object()
openhook = object()
encoding = object()
# call fileinput.input() with different values for each argument
result = fileinput.input(files=files, inplace=inplace, backup=backup,
mode=mode, openhook=openhook, encoding=encoding)
# ensure fileinput._state was set to the returned object
self.assertIs(result, fileinput._state, "fileinput._state")
# ensure the parameters to fileinput.input() were passed directly
# to FileInput.__init__()
self.assertIs(files, result.files, "files")
self.assertIs(inplace, result.inplace, "inplace")
self.assertIs(backup, result.backup, "backup")
self.assertIs(mode, result.mode, "mode")
self.assertIs(openhook, result.openhook, "openhook")
class Test_fileinput_close(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.close()"""
def test_state_is_None(self):
"""Tests that fileinput.close() does nothing if fileinput._state
is None"""
fileinput._state = None
fileinput.close()
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests that fileinput.close() invokes close() on fileinput._state
and sets _state=None"""
instance = MockFileInput()
fileinput._state = instance
fileinput.close()
self.assertExactlyOneInvocation(instance, "close")
self.assertIsNone(fileinput._state)
class Test_fileinput_nextfile(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.nextfile()"""
def test_state_is_None(self):
"""Tests fileinput.nextfile() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.nextfile()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.nextfile() when fileinput._state is not None.
Ensure that it invokes fileinput._state.nextfile() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
nextfile_retval = object()
instance = MockFileInput()
instance.return_values["nextfile"] = nextfile_retval
fileinput._state = instance
retval = fileinput.nextfile()
self.assertExactlyOneInvocation(instance, "nextfile")
self.assertIs(retval, nextfile_retval)
self.assertIs(fileinput._state, instance)
class Test_fileinput_filename(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.filename()"""
def test_state_is_None(self):
"""Tests fileinput.filename() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.filename()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.filename() when fileinput._state is not None.
Ensure that it invokes fileinput._state.filename() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
filename_retval = object()
instance = MockFileInput()
instance.return_values["filename"] = filename_retval
fileinput._state = instance
retval = fileinput.filename()
self.assertExactlyOneInvocation(instance, "filename")
self.assertIs(retval, filename_retval)
self.assertIs(fileinput._state, instance)
class Test_fileinput_lineno(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.lineno()"""
def test_state_is_None(self):
"""Tests fileinput.lineno() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.lineno()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.lineno() when fileinput._state is not None.
Ensure that it invokes fileinput._state.lineno() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
lineno_retval = object()
instance = MockFileInput()
instance.return_values["lineno"] = lineno_retval
fileinput._state = instance
retval = fileinput.lineno()
self.assertExactlyOneInvocation(instance, "lineno")
self.assertIs(retval, lineno_retval)
self.assertIs(fileinput._state, instance)
class Test_fileinput_filelineno(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.filelineno()"""
def test_state_is_None(self):
"""Tests fileinput.filelineno() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.filelineno()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.filelineno() when fileinput._state is not None.
Ensure that it invokes fileinput._state.filelineno() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
filelineno_retval = object()
instance = MockFileInput()
instance.return_values["filelineno"] = filelineno_retval
fileinput._state = instance
retval = fileinput.filelineno()
self.assertExactlyOneInvocation(instance, "filelineno")
self.assertIs(retval, filelineno_retval)
self.assertIs(fileinput._state, instance)
class Test_fileinput_fileno(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.fileno()"""
def test_state_is_None(self):
"""Tests fileinput.fileno() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.fileno()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.fileno() when fileinput._state is not None.
Ensure that it invokes fileinput._state.fileno() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
fileno_retval = object()
instance = MockFileInput()
instance.return_values["fileno"] = fileno_retval
instance.fileno_retval = fileno_retval
fileinput._state = instance
retval = fileinput.fileno()
self.assertExactlyOneInvocation(instance, "fileno")
self.assertIs(retval, fileno_retval)
self.assertIs(fileinput._state, instance)
class Test_fileinput_isfirstline(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.isfirstline()"""
def test_state_is_None(self):
"""Tests fileinput.isfirstline() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.isfirstline()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.isfirstline() when fileinput._state is not None.
Ensure that it invokes fileinput._state.isfirstline() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
isfirstline_retval = object()
instance = MockFileInput()
instance.return_values["isfirstline"] = isfirstline_retval
fileinput._state = instance
retval = fileinput.isfirstline()
self.assertExactlyOneInvocation(instance, "isfirstline")
self.assertIs(retval, isfirstline_retval)
self.assertIs(fileinput._state, instance)
class Test_fileinput_isstdin(BaseFileInputGlobalMethodsTest):
"""Unit tests for fileinput.isstdin()"""
def test_state_is_None(self):
"""Tests fileinput.isstdin() when fileinput._state is None.
Ensure that it raises RuntimeError with a meaningful error message
and does not modify fileinput._state"""
fileinput._state = None
with self.assertRaises(RuntimeError) as cm:
fileinput.isstdin()
self.assertEqual(("no active input()",), cm.exception.args)
self.assertIsNone(fileinput._state)
def test_state_is_not_None(self):
"""Tests fileinput.isstdin() when fileinput._state is not None.
Ensure that it invokes fileinput._state.isstdin() exactly once,
returns whatever it returns, and does not modify fileinput._state
to point to a different object."""
isstdin_retval = object()
instance = MockFileInput()
instance.return_values["isstdin"] = isstdin_retval
fileinput._state = instance
retval = fileinput.isstdin()
self.assertExactlyOneInvocation(instance, "isstdin")
self.assertIs(retval, isstdin_retval)
self.assertIs(fileinput._state, instance)
class InvocationRecorder:
def __init__(self):
self.invocation_count = 0
def __call__(self, *args, **kwargs):
self.invocation_count += 1
self.last_invocation = (args, kwargs)
return io.BytesIO(b'some bytes')
class Test_hook_compressed(unittest.TestCase):
"""Unit tests for fileinput.hook_compressed()"""
def setUp(self):
self.fake_open = InvocationRecorder()
def test_empty_string(self):
self.do_test_use_builtin_open("", 1)
def test_no_ext(self):
self.do_test_use_builtin_open("abcd", 2)
@unittest.skipUnless(gzip, "Requires gzip and zlib")
def test_gz_ext_fake(self):
original_open = gzip.open
gzip.open = self.fake_open
try:
result = fileinput.hook_compressed("test.gz", "3")
finally:
gzip.open = original_open
self.assertEqual(self.fake_open.invocation_count, 1)
self.assertEqual(self.fake_open.last_invocation, (("test.gz", "3"), {}))
@unittest.skipUnless(gzip, "Requires gzip and zlib")
def test_gz_with_encoding_fake(self):
original_open = gzip.open
gzip.open = lambda filename, mode: io.BytesIO(b'Ex-binary string')
try:
result = fileinput.hook_compressed("test.gz", "3", encoding="utf-8")
finally:
gzip.open = original_open
self.assertEqual(list(result), ['Ex-binary string'])
@unittest.skipUnless(bz2, "Requires bz2")
def test_bz2_ext_fake(self):
original_open = bz2.BZ2File
bz2.BZ2File = self.fake_open
try:
result = fileinput.hook_compressed("test.bz2", "4")
finally:
bz2.BZ2File = original_open
self.assertEqual(self.fake_open.invocation_count, 1)
self.assertEqual(self.fake_open.last_invocation, (("test.bz2", "4"), {}))
def test_blah_ext(self):
self.do_test_use_builtin_open("abcd.blah", "5")
def test_gz_ext_builtin(self):
self.do_test_use_builtin_open("abcd.Gz", "6")
def test_bz2_ext_builtin(self):
self.do_test_use_builtin_open("abcd.Bz2", "7")
def do_test_use_builtin_open(self, filename, mode):
original_open = self.replace_builtin_open(self.fake_open)
try:
result = fileinput.hook_compressed(filename, mode)
finally:
self.replace_builtin_open(original_open)
self.assertEqual(self.fake_open.invocation_count, 1)
self.assertEqual(self.fake_open.last_invocation,
((filename, mode), {'encoding': 'locale', 'errors': None}))
@staticmethod
def replace_builtin_open(new_open_func):
original_open = builtins.open
builtins.open = new_open_func
return original_open
class Test_hook_encoded(unittest.TestCase):
"""Unit tests for fileinput.hook_encoded()"""
def test(self):
encoding = object()
errors = object()
result = fileinput.hook_encoded(encoding, errors=errors)
fake_open = InvocationRecorder()
original_open = builtins.open
builtins.open = fake_open
try:
filename = object()
mode = object()
open_result = result(filename, mode)
finally:
builtins.open = original_open
self.assertEqual(fake_open.invocation_count, 1)
args, kwargs = fake_open.last_invocation
self.assertIs(args[0], filename)
self.assertIs(args[1], mode)
self.assertIs(kwargs.pop('encoding'), encoding)
self.assertIs(kwargs.pop('errors'), errors)
self.assertFalse(kwargs)
def test_errors(self):
with open(TESTFN, 'wb') as f:
f.write(b'\x80abc')
self.addCleanup(safe_unlink, TESTFN)
def check(errors, expected_lines):
with FileInput(files=TESTFN, mode='r',
openhook=hook_encoded('utf-8', errors=errors)) as fi:
lines = list(fi)
self.assertEqual(lines, expected_lines)
check('ignore', ['abc'])
with self.assertRaises(UnicodeDecodeError):
check('strict', ['abc'])
check('replace', ['\ufffdabc'])
check('backslashreplace', ['\\x80abc'])
def test_modes(self):
with open(TESTFN, 'wb') as f:
# UTF-7 is a convenient, seldom used encoding
f.write(b'A\nB\r\nC\rD+IKw-')
self.addCleanup(safe_unlink, TESTFN)
def check(mode, expected_lines):
with FileInput(files=TESTFN, mode=mode,
openhook=hook_encoded('utf-7')) as fi:
lines = list(fi)
self.assertEqual(lines, expected_lines)
check('r', ['A\n', 'B\n', 'C\n', 'D\u20ac'])
with self.assertWarns(DeprecationWarning):
check('rU', ['A\n', 'B\n', 'C\n', 'D\u20ac'])
with self.assertWarns(DeprecationWarning):
check('U', ['A\n', 'B\n', 'C\n', 'D\u20ac'])
with self.assertRaises(ValueError):
check('rb', ['A\n', 'B\r\n', 'C\r', 'D\u20ac'])
class MiscTest(unittest.TestCase):
def test_all(self):
support.check__all__(self, fileinput)
if __name__ == "__main__":
unittest.main()