OPEN_RPA_PUBLIC
/
ORPA-pyOpenRPA
2
0
Fork 1
Code Issues 2 Pull Requests Packages Projects Releases Wiki Activity
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from 'da97936b1d'
${ noResults }
ORPA-pyOpenRPA/Resources/LPy64-3105/lib/python3.10/test/test_codecs.py

3525 lines
133 KiB
Raw Blame History Escape

This file contains ambiguous Unicode characters!

This file contains ambiguous Unicode characters that may be confused with others in your current locale. If your use case is intentional and legitimate, you can safely ignore this warning. Use the Escape button to highlight these characters.

import codecs
import contextlib
import io
import locale
import sys
import unittest
import encodings
from unittest import mock
from test import support
from test.support import os_helper
from test.support import warnings_helper
try:
import _testcapi
except ImportError:
_testcapi = None
try:
import ctypes
except ImportError:
ctypes = None
SIZEOF_WCHAR_T = -1
else:
SIZEOF_WCHAR_T = ctypes.sizeof(ctypes.c_wchar)
def coding_checker(self, coder):
def check(input, expect):
self.assertEqual(coder(input), (expect, len(input)))
return check
# On small versions of Windows like Windows IoT or Windows Nano Server not all codepages are present
def is_code_page_present(cp):
from ctypes import POINTER, WINFUNCTYPE, WinDLL
from ctypes.wintypes import BOOL, BYTE, WCHAR, UINT, DWORD
MAX_LEADBYTES = 12 # 5 ranges, 2 bytes ea., 0 term.
MAX_DEFAULTCHAR = 2 # single or double byte
MAX_PATH = 260
class CPINFOEXW(ctypes.Structure):
_fields_ = [("MaxCharSize", UINT),
("DefaultChar", BYTE*MAX_DEFAULTCHAR),
("LeadByte", BYTE*MAX_LEADBYTES),
("UnicodeDefaultChar", WCHAR),
("CodePage", UINT),
("CodePageName", WCHAR*MAX_PATH)]
prototype = WINFUNCTYPE(BOOL, UINT, DWORD, POINTER(CPINFOEXW))
GetCPInfoEx = prototype(("GetCPInfoExW", WinDLL("kernel32")))
info = CPINFOEXW()
return GetCPInfoEx(cp, 0, info)
class Queue(object):
"""
queue: write bytes at one end, read bytes from the other end
"""
def __init__(self, buffer):
self._buffer = buffer
def write(self, chars):
self._buffer += chars
def read(self, size=-1):
if size<0:
s = self._buffer
self._buffer = self._buffer[:0] # make empty
return s
else:
s = self._buffer[:size]
self._buffer = self._buffer[size:]
return s
class MixInCheckStateHandling:
def check_state_handling_decode(self, encoding, u, s):
for i in range(len(s)+1):
d = codecs.getincrementaldecoder(encoding)()
part1 = d.decode(s[:i])
state = d.getstate()
self.assertIsInstance(state[1], int)
# Check that the condition stated in the documentation for
# IncrementalDecoder.getstate() holds
if not state[1]:
# reset decoder to the default state without anything buffered
d.setstate((state[0][:0], 0))
# Feeding the previous input may not produce any output
self.assertTrue(not d.decode(state[0]))
# The decoder must return to the same state
self.assertEqual(state, d.getstate())
# Create a new decoder and set it to the state
# we extracted from the old one
d = codecs.getincrementaldecoder(encoding)()
d.setstate(state)
part2 = d.decode(s[i:], True)
self.assertEqual(u, part1+part2)
def check_state_handling_encode(self, encoding, u, s):
for i in range(len(u)+1):
d = codecs.getincrementalencoder(encoding)()
part1 = d.encode(u[:i])
state = d.getstate()
d = codecs.getincrementalencoder(encoding)()
d.setstate(state)
part2 = d.encode(u[i:], True)
self.assertEqual(s, part1+part2)
class ReadTest(MixInCheckStateHandling):
def check_partial(self, input, partialresults):
# get a StreamReader for the encoding and feed the bytestring version
# of input to the reader byte by byte. Read everything available from
# the StreamReader and check that the results equal the appropriate
# entries from partialresults.
q = Queue(b"")
r = codecs.getreader(self.encoding)(q)
result = ""
for (c, partialresult) in zip(input.encode(self.encoding), partialresults, strict=True):
q.write(bytes([c]))
result += r.read()
self.assertEqual(result, partialresult)
# check that there's nothing left in the buffers
self.assertEqual(r.read(), "")
self.assertEqual(r.bytebuffer, b"")
# do the check again, this time using an incremental decoder
d = codecs.getincrementaldecoder(self.encoding)()
result = ""
for (c, partialresult) in zip(input.encode(self.encoding), partialresults, strict=True):
result += d.decode(bytes([c]))
self.assertEqual(result, partialresult)
# check that there's nothing left in the buffers
self.assertEqual(d.decode(b"", True), "")
self.assertEqual(d.buffer, b"")
# Check whether the reset method works properly
d.reset()
result = ""
for (c, partialresult) in zip(input.encode(self.encoding), partialresults, strict=True):
result += d.decode(bytes([c]))
self.assertEqual(result, partialresult)
# check that there's nothing left in the buffers
self.assertEqual(d.decode(b"", True), "")
self.assertEqual(d.buffer, b"")
# check iterdecode()
encoded = input.encode(self.encoding)
self.assertEqual(
input,
"".join(codecs.iterdecode([bytes([c]) for c in encoded], self.encoding))
)
def test_readline(self):
def getreader(input):
stream = io.BytesIO(input.encode(self.encoding))
return codecs.getreader(self.encoding)(stream)
def readalllines(input, keepends=True, size=None):
reader = getreader(input)
lines = []
while True:
line = reader.readline(size=size, keepends=keepends)
if not line:
break
lines.append(line)
return "|".join(lines)
s = "foo\nbar\r\nbaz\rspam\u2028eggs"
sexpected = "foo\n|bar\r\n|baz\r|spam\u2028|eggs"
sexpectednoends = "foo|bar|baz|spam|eggs"
self.assertEqual(readalllines(s, True), sexpected)
self.assertEqual(readalllines(s, False), sexpectednoends)
self.assertEqual(readalllines(s, True, 10), sexpected)
self.assertEqual(readalllines(s, False, 10), sexpectednoends)
lineends = ("\n", "\r\n", "\r", "\u2028")
# Test long lines (multiple calls to read() in readline())
vw = []
vwo = []
for (i, lineend) in enumerate(lineends):
vw.append((i*200+200)*"\u3042" + lineend)
vwo.append((i*200+200)*"\u3042")
self.assertEqual(readalllines("".join(vw), True), "|".join(vw))
self.assertEqual(readalllines("".join(vw), False), "|".join(vwo))
# Test lines where the first read might end with \r, so the
# reader has to look ahead whether this is a lone \r or a \r\n
for size in range(80):
for lineend in lineends:
s = 10*(size*"a" + lineend + "xxx\n")
reader = getreader(s)
for i in range(10):
self.assertEqual(
reader.readline(keepends=True),
size*"a" + lineend,
)
self.assertEqual(
reader.readline(keepends=True),
"xxx\n",
)
reader = getreader(s)
for i in range(10):
self.assertEqual(
reader.readline(keepends=False),
size*"a",
)
self.assertEqual(
reader.readline(keepends=False),
"xxx",
)
def test_mixed_readline_and_read(self):
lines = ["Humpty Dumpty sat on a wall,\n",
"Humpty Dumpty had a great fall.\r\n",
"All the king's horses and all the king's men\r",
"Couldn't put Humpty together again."]
data = ''.join(lines)
def getreader():
stream = io.BytesIO(data.encode(self.encoding))
return codecs.getreader(self.encoding)(stream)
# Issue #8260: Test readline() followed by read()
f = getreader()
self.assertEqual(f.readline(), lines[0])
self.assertEqual(f.read(), ''.join(lines[1:]))
self.assertEqual(f.read(), '')
# Issue #32110: Test readline() followed by read(n)
f = getreader()
self.assertEqual(f.readline(), lines[0])
self.assertEqual(f.read(1), lines[1][0])
self.assertEqual(f.read(0), '')
self.assertEqual(f.read(100), data[len(lines[0]) + 1:][:100])
# Issue #16636: Test readline() followed by readlines()
f = getreader()
self.assertEqual(f.readline(), lines[0])
self.assertEqual(f.readlines(), lines[1:])
self.assertEqual(f.read(), '')
# Test read(n) followed by read()
f = getreader()
self.assertEqual(f.read(size=40, chars=5), data[:5])
self.assertEqual(f.read(), data[5:])
self.assertEqual(f.read(), '')
# Issue #32110: Test read(n) followed by read(n)
f = getreader()
self.assertEqual(f.read(size=40, chars=5), data[:5])
self.assertEqual(f.read(1), data[5])
self.assertEqual(f.read(0), '')
self.assertEqual(f.read(100), data[6:106])
# Issue #12446: Test read(n) followed by readlines()
f = getreader()
self.assertEqual(f.read(size=40, chars=5), data[:5])
self.assertEqual(f.readlines(), [lines[0][5:]] + lines[1:])
self.assertEqual(f.read(), '')
def test_bug1175396(self):
s = [
'<%!--===================================================\r\n',
' BLOG index page: show recent articles,\r\n',
' today\'s articles, or articles of a specific date.\r\n',
'========================================================--%>\r\n',
'<%@inputencoding="ISO-8859-1"%>\r\n',
'<%@pagetemplate=TEMPLATE.y%>\r\n',
'<%@import=import frog.util, frog%>\r\n',
'<%@import=import frog.objects%>\r\n',
'<%@import=from frog.storageerrors import StorageError%>\r\n',
'<%\r\n',
'\r\n',
'import logging\r\n',
'log=logging.getLogger("Snakelets.logger")\r\n',
'\r\n',
'\r\n',
'user=self.SessionCtx.user\r\n',
'storageEngine=self.SessionCtx.storageEngine\r\n',
'\r\n',
'\r\n',
'def readArticlesFromDate(date, count=None):\r\n',
' entryids=storageEngine.listBlogEntries(date)\r\n',
' entryids.reverse() # descending\r\n',
' if count:\r\n',
' entryids=entryids[:count]\r\n',
' try:\r\n',
' return [ frog.objects.BlogEntry.load(storageEngine, date, Id) for Id in entryids ]\r\n',
' except StorageError,x:\r\n',
' log.error("Error loading articles: "+str(x))\r\n',
' self.abort("cannot load articles")\r\n',
'\r\n',
'showdate=None\r\n',
'\r\n',
'arg=self.Request.getArg()\r\n',
'if arg=="today":\r\n',
' #-------------------- TODAY\'S ARTICLES\r\n',
' self.write("<h2>Today\'s articles</h2>")\r\n',
' showdate = frog.util.isodatestr() \r\n',
' entries = readArticlesFromDate(showdate)\r\n',
'elif arg=="active":\r\n',
' #-------------------- ACTIVE ARTICLES redirect\r\n',
' self.Yredirect("active.y")\r\n',
'elif arg=="login":\r\n',
' #-------------------- LOGIN PAGE redirect\r\n',
' self.Yredirect("login.y")\r\n',
'elif arg=="date":\r\n',
' #-------------------- ARTICLES OF A SPECIFIC DATE\r\n',
' showdate = self.Request.getParameter("date")\r\n',
' self.write("<h2>Articles written on %s</h2>"% frog.util.mediumdatestr(showdate))\r\n',
' entries = readArticlesFromDate(showdate)\r\n',
'else:\r\n',
' #-------------------- RECENT ARTICLES\r\n',
' self.write("<h2>Recent articles</h2>")\r\n',
' dates=storageEngine.listBlogEntryDates()\r\n',
' if dates:\r\n',
' entries=[]\r\n',
' SHOWAMOUNT=10\r\n',
' for showdate in dates:\r\n',
' entries.extend( readArticlesFromDate(showdate, SHOWAMOUNT-len(entries)) )\r\n',
' if len(entries)>=SHOWAMOUNT:\r\n',
' break\r\n',
' \r\n',
]
stream = io.BytesIO("".join(s).encode(self.encoding))
reader = codecs.getreader(self.encoding)(stream)
for (i, line) in enumerate(reader):
self.assertEqual(line, s[i])
def test_readlinequeue(self):
q = Queue(b"")
writer = codecs.getwriter(self.encoding)(q)
reader = codecs.getreader(self.encoding)(q)
# No lineends
writer.write("foo\r")
self.assertEqual(reader.readline(keepends=False), "foo")
writer.write("\nbar\r")
self.assertEqual(reader.readline(keepends=False), "")
self.assertEqual(reader.readline(keepends=False), "bar")
writer.write("baz")
self.assertEqual(reader.readline(keepends=False), "baz")
self.assertEqual(reader.readline(keepends=False), "")
# Lineends
writer.write("foo\r")
self.assertEqual(reader.readline(keepends=True), "foo\r")
writer.write("\nbar\r")
self.assertEqual(reader.readline(keepends=True), "\n")
self.assertEqual(reader.readline(keepends=True), "bar\r")
writer.write("baz")
self.assertEqual(reader.readline(keepends=True), "baz")
self.assertEqual(reader.readline(keepends=True), "")
writer.write("foo\r\n")
self.assertEqual(reader.readline(keepends=True), "foo\r\n")
def test_bug1098990_a(self):
s1 = "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy\r\n"
s2 = "offending line: ladfj askldfj klasdj fskla dfzaskdj fasklfj laskd fjasklfzzzzaa%whereisthis!!!\r\n"
s3 = "next line.\r\n"
s = (s1+s2+s3).encode(self.encoding)
stream = io.BytesIO(s)
reader = codecs.getreader(self.encoding)(stream)
self.assertEqual(reader.readline(), s1)
self.assertEqual(reader.readline(), s2)
self.assertEqual(reader.readline(), s3)
self.assertEqual(reader.readline(), "")
def test_bug1098990_b(self):
s1 = "aaaaaaaaaaaaaaaaaaaaaaaa\r\n"
s2 = "bbbbbbbbbbbbbbbbbbbbbbbb\r\n"
s3 = "stillokay:bbbbxx\r\n"
s4 = "broken!!!!badbad\r\n"
s5 = "againokay.\r\n"
s = (s1+s2+s3+s4+s5).encode(self.encoding)
stream = io.BytesIO(s)
reader = codecs.getreader(self.encoding)(stream)
self.assertEqual(reader.readline(), s1)
self.assertEqual(reader.readline(), s2)
self.assertEqual(reader.readline(), s3)
self.assertEqual(reader.readline(), s4)
self.assertEqual(reader.readline(), s5)
self.assertEqual(reader.readline(), "")
ill_formed_sequence_replace = "\ufffd"
def test_lone_surrogates(self):
self.assertRaises(UnicodeEncodeError, "\ud800".encode, self.encoding)
self.assertEqual("[\uDC80]".encode(self.encoding, "backslashreplace"),
"[\\udc80]".encode(self.encoding))
self.assertEqual("[\uDC80]".encode(self.encoding, "namereplace"),
"[\\udc80]".encode(self.encoding))
self.assertEqual("[\uDC80]".encode(self.encoding, "xmlcharrefreplace"),
"[&#56448;]".encode(self.encoding))
self.assertEqual("[\uDC80]".encode(self.encoding, "ignore"),
"[]".encode(self.encoding))
self.assertEqual("[\uDC80]".encode(self.encoding, "replace"),
"[?]".encode(self.encoding))
# sequential surrogate characters
self.assertEqual("[\uD800\uDC80]".encode(self.encoding, "ignore"),
"[]".encode(self.encoding))
self.assertEqual("[\uD800\uDC80]".encode(self.encoding, "replace"),
"[??]".encode(self.encoding))
bom = "".encode(self.encoding)
for before, after in [("\U00010fff", "A"), ("[", "]"),
("A", "\U00010fff")]:
before_sequence = before.encode(self.encoding)[len(bom):]
after_sequence = after.encode(self.encoding)[len(bom):]
test_string = before + "\uDC80" + after
test_sequence = (bom + before_sequence +
self.ill_formed_sequence + after_sequence)
self.assertRaises(UnicodeDecodeError, test_sequence.decode,
self.encoding)
self.assertEqual(test_string.encode(self.encoding,
"surrogatepass"),
test_sequence)
self.assertEqual(test_sequence.decode(self.encoding,
"surrogatepass"),
test_string)
self.assertEqual(test_sequence.decode(self.encoding, "ignore"),
before + after)
self.assertEqual(test_sequence.decode(self.encoding, "replace"),
before + self.ill_formed_sequence_replace + after)
backslashreplace = ''.join('\\x%02x' % b
for b in self.ill_formed_sequence)
self.assertEqual(test_sequence.decode(self.encoding, "backslashreplace"),
before + backslashreplace + after)
def test_incremental_surrogatepass(self):
# Test incremental decoder for surrogatepass handler:
# see issue #24214
# High surrogate
data = '\uD901'.encode(self.encoding, 'surrogatepass')
for i in range(1, len(data)):
dec = codecs.getincrementaldecoder(self.encoding)('surrogatepass')
self.assertEqual(dec.decode(data[:i]), '')
self.assertEqual(dec.decode(data[i:], True), '\uD901')
# Low surrogate
data = '\uDC02'.encode(self.encoding, 'surrogatepass')
for i in range(1, len(data)):
dec = codecs.getincrementaldecoder(self.encoding)('surrogatepass')
self.assertEqual(dec.decode(data[:i]), '')
self.assertEqual(dec.decode(data[i:]), '\uDC02')
class UTF32Test(ReadTest, unittest.TestCase):
encoding = "utf-32"
if sys.byteorder == 'little':
ill_formed_sequence = b"\x80\xdc\x00\x00"
else:
ill_formed_sequence = b"\x00\x00\xdc\x80"
spamle = (b'\xff\xfe\x00\x00'
b's\x00\x00\x00p\x00\x00\x00a\x00\x00\x00m\x00\x00\x00'
b's\x00\x00\x00p\x00\x00\x00a\x00\x00\x00m\x00\x00\x00')
spambe = (b'\x00\x00\xfe\xff'
b'\x00\x00\x00s\x00\x00\x00p\x00\x00\x00a\x00\x00\x00m'
b'\x00\x00\x00s\x00\x00\x00p\x00\x00\x00a\x00\x00\x00m')
def test_only_one_bom(self):
_,_,reader,writer = codecs.lookup(self.encoding)
# encode some stream
s = io.BytesIO()
f = writer(s)
f.write("spam")
f.write("spam")
d = s.getvalue()
# check whether there is exactly one BOM in it
self.assertTrue(d == self.spamle or d == self.spambe)
# try to read it back
s = io.BytesIO(d)
f = reader(s)
self.assertEqual(f.read(), "spamspam")
def test_badbom(self):
s = io.BytesIO(4*b"\xff")
f = codecs.getreader(self.encoding)(s)
self.assertRaises(UnicodeError, f.read)
s = io.BytesIO(8*b"\xff")
f = codecs.getreader(self.encoding)(s)
self.assertRaises(UnicodeError, f.read)
def test_partial(self):
self.check_partial(
"\x00\xff\u0100\uffff\U00010000",
[
"", # first byte of BOM read
"", # second byte of BOM read
"", # third byte of BOM read
"", # fourth byte of BOM read => byteorder known
"",
"",
"",
"\x00",
"\x00",
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff",
"\x00\xff",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff\U00010000",
]
)
def test_handlers(self):
self.assertEqual(('\ufffd', 1),
codecs.utf_32_decode(b'\x01', 'replace', True))
self.assertEqual(('', 1),
codecs.utf_32_decode(b'\x01', 'ignore', True))
def test_errors(self):
self.assertRaises(UnicodeDecodeError, codecs.utf_32_decode,
b"\xff", "strict", True)
def test_decoder_state(self):
self.check_state_handling_decode(self.encoding,
"spamspam", self.spamle)
self.check_state_handling_decode(self.encoding,
"spamspam", self.spambe)
def test_issue8941(self):
# Issue #8941: insufficient result allocation when decoding into
# surrogate pairs on UCS-2 builds.
encoded_le = b'\xff\xfe\x00\x00' + b'\x00\x00\x01\x00' * 1024
self.assertEqual('\U00010000' * 1024,
codecs.utf_32_decode(encoded_le)[0])
encoded_be = b'\x00\x00\xfe\xff' + b'\x00\x01\x00\x00' * 1024
self.assertEqual('\U00010000' * 1024,
codecs.utf_32_decode(encoded_be)[0])
class UTF32LETest(ReadTest, unittest.TestCase):
encoding = "utf-32-le"
ill_formed_sequence = b"\x80\xdc\x00\x00"
def test_partial(self):
self.check_partial(
"\x00\xff\u0100\uffff\U00010000",
[
"",
"",
"",
"\x00",
"\x00",
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff",
"\x00\xff",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff\U00010000",
]
)
def test_simple(self):
self.assertEqual("\U00010203".encode(self.encoding), b"\x03\x02\x01\x00")
def test_errors(self):
self.assertRaises(UnicodeDecodeError, codecs.utf_32_le_decode,
b"\xff", "strict", True)
def test_issue8941(self):
# Issue #8941: insufficient result allocation when decoding into
# surrogate pairs on UCS-2 builds.
encoded = b'\x00\x00\x01\x00' * 1024
self.assertEqual('\U00010000' * 1024,
codecs.utf_32_le_decode(encoded)[0])
class UTF32BETest(ReadTest, unittest.TestCase):
encoding = "utf-32-be"
ill_formed_sequence = b"\x00\x00\xdc\x80"
def test_partial(self):
self.check_partial(
"\x00\xff\u0100\uffff\U00010000",
[
"",
"",
"",
"\x00",
"\x00",
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff",
"\x00\xff",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff\U00010000",
]
)
def test_simple(self):
self.assertEqual("\U00010203".encode(self.encoding), b"\x00\x01\x02\x03")
def test_errors(self):
self.assertRaises(UnicodeDecodeError, codecs.utf_32_be_decode,
b"\xff", "strict", True)
def test_issue8941(self):
# Issue #8941: insufficient result allocation when decoding into
# surrogate pairs on UCS-2 builds.
encoded = b'\x00\x01\x00\x00' * 1024
self.assertEqual('\U00010000' * 1024,
codecs.utf_32_be_decode(encoded)[0])
class UTF16Test(ReadTest, unittest.TestCase):
encoding = "utf-16"
if sys.byteorder == 'little':
ill_formed_sequence = b"\x80\xdc"
else:
ill_formed_sequence = b"\xdc\x80"
spamle = b'\xff\xfes\x00p\x00a\x00m\x00s\x00p\x00a\x00m\x00'
spambe = b'\xfe\xff\x00s\x00p\x00a\x00m\x00s\x00p\x00a\x00m'
def test_only_one_bom(self):
_,_,reader,writer = codecs.lookup(self.encoding)
# encode some stream
s = io.BytesIO()
f = writer(s)
f.write("spam")
f.write("spam")
d = s.getvalue()
# check whether there is exactly one BOM in it
self.assertTrue(d == self.spamle or d == self.spambe)
# try to read it back
s = io.BytesIO(d)
f = reader(s)
self.assertEqual(f.read(), "spamspam")
def test_badbom(self):
s = io.BytesIO(b"\xff\xff")
f = codecs.getreader(self.encoding)(s)
self.assertRaises(UnicodeError, f.read)
s = io.BytesIO(b"\xff\xff\xff\xff")
f = codecs.getreader(self.encoding)(s)
self.assertRaises(UnicodeError, f.read)
def test_partial(self):
self.check_partial(
"\x00\xff\u0100\uffff\U00010000",
[
"", # first byte of BOM read
"", # second byte of BOM read => byteorder known
"",
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff\U00010000",
]
)
def test_handlers(self):
self.assertEqual(('\ufffd', 1),
codecs.utf_16_decode(b'\x01', 'replace', True))
self.assertEqual(('', 1),
codecs.utf_16_decode(b'\x01', 'ignore', True))
def test_errors(self):
self.assertRaises(UnicodeDecodeError, codecs.utf_16_decode,
b"\xff", "strict", True)
def test_decoder_state(self):
self.check_state_handling_decode(self.encoding,
"spamspam", self.spamle)
self.check_state_handling_decode(self.encoding,
"spamspam", self.spambe)
def test_bug691291(self):
# Files are always opened in binary mode, even if no binary mode was
# specified. This means that no automatic conversion of '\n' is done
# on reading and writing.
s1 = 'Hello\r\nworld\r\n'
s = s1.encode(self.encoding)
self.addCleanup(os_helper.unlink, os_helper.TESTFN)
with open(os_helper.TESTFN, 'wb') as fp:
fp.write(s)
with warnings_helper.check_warnings(('', DeprecationWarning)):
reader = codecs.open(os_helper.TESTFN, 'U', encoding=self.encoding)
with reader:
self.assertEqual(reader.read(), s1)
class UTF16LETest(ReadTest, unittest.TestCase):
encoding = "utf-16-le"
ill_formed_sequence = b"\x80\xdc"
def test_partial(self):
self.check_partial(
"\x00\xff\u0100\uffff\U00010000",
[
"",
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff\U00010000",
]
)
def test_errors(self):
tests = [
(b'\xff', '\ufffd'),
(b'A\x00Z', 'A\ufffd'),
(b'A\x00B\x00C\x00D\x00Z', 'ABCD\ufffd'),
(b'\x00\xd8', '\ufffd'),
(b'\x00\xd8A', '\ufffd'),
(b'\x00\xd8A\x00', '\ufffdA'),
(b'\x00\xdcA\x00', '\ufffdA'),
]
for raw, expected in tests:
self.assertRaises(UnicodeDecodeError, codecs.utf_16_le_decode,
raw, 'strict', True)
self.assertEqual(raw.decode('utf-16le', 'replace'), expected)
def test_nonbmp(self):
self.assertEqual("\U00010203".encode(self.encoding),
b'\x00\xd8\x03\xde')
self.assertEqual(b'\x00\xd8\x03\xde'.decode(self.encoding),
"\U00010203")
class UTF16BETest(ReadTest, unittest.TestCase):
encoding = "utf-16-be"
ill_formed_sequence = b"\xdc\x80"
def test_partial(self):
self.check_partial(
"\x00\xff\u0100\uffff\U00010000",
[
"",
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff\u0100",
"\x00\xff\u0100",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff",
"\x00\xff\u0100\uffff\U00010000",
]
)
def test_errors(self):
tests = [
(b'\xff', '\ufffd'),
(b'\x00A\xff', 'A\ufffd'),
(b'\x00A\x00B\x00C\x00DZ', 'ABCD\ufffd'),
(b'\xd8\x00', '\ufffd'),
(b'\xd8\x00\xdc', '\ufffd'),
(b'\xd8\x00\x00A', '\ufffdA'),
(b'\xdc\x00\x00A', '\ufffdA'),
]
for raw, expected in tests:
self.assertRaises(UnicodeDecodeError, codecs.utf_16_be_decode,
raw, 'strict', True)
self.assertEqual(raw.decode('utf-16be', 'replace'), expected)
def test_nonbmp(self):
self.assertEqual("\U00010203".encode(self.encoding),
b'\xd8\x00\xde\x03')
self.assertEqual(b'\xd8\x00\xde\x03'.decode(self.encoding),
"\U00010203")
class UTF8Test(ReadTest, unittest.TestCase):
encoding = "utf-8"
ill_formed_sequence = b"\xed\xb2\x80"
ill_formed_sequence_replace = "\ufffd" * 3
BOM = b''
def test_partial(self):
self.check_partial(
"\x00\xff\u07ff\u0800\uffff\U00010000",
[
"\x00",
"\x00",
"\x00\xff",
"\x00\xff",
"\x00\xff\u07ff",
"\x00\xff\u07ff",
"\x00\xff\u07ff",
"\x00\xff\u07ff\u0800",
"\x00\xff\u07ff\u0800",
"\x00\xff\u07ff\u0800",
"\x00\xff\u07ff\u0800\uffff",
"\x00\xff\u07ff\u0800\uffff",
"\x00\xff\u07ff\u0800\uffff",
"\x00\xff\u07ff\u0800\uffff",
"\x00\xff\u07ff\u0800\uffff\U00010000",
]
)
def test_decoder_state(self):
u = "\x00\x7f\x80\xff\u0100\u07ff\u0800\uffff\U0010ffff"
self.check_state_handling_decode(self.encoding,
u, u.encode(self.encoding))
def test_decode_error(self):
for data, error_handler, expected in (
(b'[\x80\xff]', 'ignore', '[]'),
(b'[\x80\xff]', 'replace', '[\ufffd\ufffd]'),
(b'[\x80\xff]', 'surrogateescape', '[\udc80\udcff]'),
(b'[\x80\xff]', 'backslashreplace', '[\\x80\\xff]'),
):
with self.subTest(data=data, error_handler=error_handler,
expected=expected):
self.assertEqual(data.decode(self.encoding, error_handler),
expected)
def test_lone_surrogates(self):
super().test_lone_surrogates()
# not sure if this is making sense for
# UTF-16 and UTF-32
self.assertEqual("[\uDC80]".encode(self.encoding, "surrogateescape"),
self.BOM + b'[\x80]')
with self.assertRaises(UnicodeEncodeError) as cm:
"[\uDC80\uD800\uDFFF]".encode(self.encoding, "surrogateescape")
exc = cm.exception
self.assertEqual(exc.object[exc.start:exc.end], '\uD800\uDFFF')
def test_surrogatepass_handler(self):
self.assertEqual("abc\ud800def".encode(self.encoding, "surrogatepass"),
self.BOM + b"abc\xed\xa0\x80def")
self.assertEqual("\U00010fff\uD800".encode(self.encoding, "surrogatepass"),
self.BOM + b"\xf0\x90\xbf\xbf\xed\xa0\x80")
self.assertEqual("[\uD800\uDC80]".encode(self.encoding, "surrogatepass"),
self.BOM + b'[\xed\xa0\x80\xed\xb2\x80]')
self.assertEqual(b"abc\xed\xa0\x80def".decode(self.encoding, "surrogatepass"),
"abc\ud800def")
self.assertEqual(b"\xf0\x90\xbf\xbf\xed\xa0\x80".decode(self.encoding, "surrogatepass"),
"\U00010fff\uD800")
self.assertTrue(codecs.lookup_error("surrogatepass"))
with self.assertRaises(UnicodeDecodeError):
b"abc\xed\xa0".decode(self.encoding, "surrogatepass")
with self.assertRaises(UnicodeDecodeError):
b"abc\xed\xa0z".decode(self.encoding, "surrogatepass")
def test_incremental_errors(self):
# Test that the incremental decoder can fail with final=False.
# See issue #24214
cases = [b'\x80', b'\xBF', b'\xC0', b'\xC1', b'\xF5', b'\xF6', b'\xFF']
for prefix in (b'\xC2', b'\xDF', b'\xE0', b'\xE0\xA0', b'\xEF',
b'\xEF\xBF', b'\xF0', b'\xF0\x90', b'\xF0\x90\x80',
b'\xF4', b'\xF4\x8F', b'\xF4\x8F\xBF'):
for suffix in b'\x7F', b'\xC0':
cases.append(prefix + suffix)
cases.extend((b'\xE0\x80', b'\xE0\x9F', b'\xED\xA0\x80',
b'\xED\xBF\xBF', b'\xF0\x80', b'\xF0\x8F', b'\xF4\x90'))
for data in cases:
with self.subTest(data=data):
dec = codecs.getincrementaldecoder(self.encoding)()
self.assertRaises(UnicodeDecodeError, dec.decode, data)
class UTF7Test(ReadTest, unittest.TestCase):
encoding = "utf-7"
def test_ascii(self):
# Set D (directly encoded characters)
set_d = ('ABCDEFGHIJKLMNOPQRSTUVWXYZ'
'abcdefghijklmnopqrstuvwxyz'
'0123456789'
'\'(),-./:?')
self.assertEqual(set_d.encode(self.encoding), set_d.encode('ascii'))
self.assertEqual(set_d.encode('ascii').decode(self.encoding), set_d)
# Set O (optional direct characters)
set_o = ' !"#$%&*;<=>@[]^_`{|}'
self.assertEqual(set_o.encode(self.encoding), set_o.encode('ascii'))
self.assertEqual(set_o.encode('ascii').decode(self.encoding), set_o)
# +
self.assertEqual('a+b'.encode(self.encoding), b'a+-b')
self.assertEqual(b'a+-b'.decode(self.encoding), 'a+b')
# White spaces
ws = ' \t\n\r'
self.assertEqual(ws.encode(self.encoding), ws.encode('ascii'))
self.assertEqual(ws.encode('ascii').decode(self.encoding), ws)
# Other ASCII characters
other_ascii = ''.join(sorted(set(bytes(range(0x80)).decode()) -
set(set_d + set_o + '+' + ws)))
self.assertEqual(other_ascii.encode(self.encoding),
b'+AAAAAQACAAMABAAFAAYABwAIAAsADAAOAA8AEAARABIAEwAU'
b'ABUAFgAXABgAGQAaABsAHAAdAB4AHwBcAH4Afw-')
def test_partial(self):
self.check_partial(
'a+-b\x00c\x80d\u0100e\U00010000f',
[
'a',
'a',
'a+',
'a+-',
'a+-b',
'a+-b',
'a+-b',
'a+-b',
'a+-b',
'a+-b\x00',
'a+-b\x00c',
'a+-b\x00c',
'a+-b\x00c',
'a+-b\x00c',
'a+-b\x00c',
'a+-b\x00c\x80',
'a+-b\x00c\x80d',
'a+-b\x00c\x80d',
'a+-b\x00c\x80d',
'a+-b\x00c\x80d',
'a+-b\x00c\x80d',
'a+-b\x00c\x80d\u0100',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e',
'a+-b\x00c\x80d\u0100e\U00010000',
'a+-b\x00c\x80d\u0100e\U00010000f',
]
)
def test_errors(self):
tests = [
(b'\xffb', '\ufffdb'),
(b'a\xffb', 'a\ufffdb'),
(b'a\xff\xffb', 'a\ufffd\ufffdb'),
(b'a+IK', 'a\ufffd'),
(b'a+IK-b', 'a\ufffdb'),
(b'a+IK,b', 'a\ufffdb'),
(b'a+IKx', 'a\u20ac\ufffd'),
(b'a+IKx-b', 'a\u20ac\ufffdb'),
(b'a+IKwgr', 'a\u20ac\ufffd'),
(b'a+IKwgr-b', 'a\u20ac\ufffdb'),
(b'a+IKwgr,', 'a\u20ac\ufffd'),
(b'a+IKwgr,-b', 'a\u20ac\ufffd-b'),
(b'a+IKwgrB', 'a\u20ac\u20ac\ufffd'),
(b'a+IKwgrB-b', 'a\u20ac\u20ac\ufffdb'),
(b'a+/,+IKw-b', 'a\ufffd\u20acb'),
(b'a+//,+IKw-b', 'a\ufffd\u20acb'),
(b'a+///,+IKw-b', 'a\uffff\ufffd\u20acb'),
(b'a+////,+IKw-b', 'a\uffff\ufffd\u20acb'),
(b'a+IKw-b\xff', 'a\u20acb\ufffd'),
(b'a+IKw\xffb', 'a\u20ac\ufffdb'),
(b'a+@b', 'a\ufffdb'),
]
for raw, expected in tests:
with self.subTest(raw=raw):
self.assertRaises(UnicodeDecodeError, codecs.utf_7_decode,
raw, 'strict', True)
self.assertEqual(raw.decode('utf-7', 'replace'), expected)
def test_nonbmp(self):
self.assertEqual('\U000104A0'.encode(self.encoding), b'+2AHcoA-')
self.assertEqual('\ud801\udca0'.encode(self.encoding), b'+2AHcoA-')
self.assertEqual(b'+2AHcoA-'.decode(self.encoding), '\U000104A0')
self.assertEqual(b'+2AHcoA'.decode(self.encoding), '\U000104A0')
self.assertEqual('\u20ac\U000104A0'.encode(self.encoding), b'+IKzYAdyg-')
self.assertEqual(b'+IKzYAdyg-'.decode(self.encoding), '\u20ac\U000104A0')
self.assertEqual(b'+IKzYAdyg'.decode(self.encoding), '\u20ac\U000104A0')
self.assertEqual('\u20ac\u20ac\U000104A0'.encode(self.encoding),
b'+IKwgrNgB3KA-')
self.assertEqual(b'+IKwgrNgB3KA-'.decode(self.encoding),
'\u20ac\u20ac\U000104A0')
self.assertEqual(b'+IKwgrNgB3KA'.decode(self.encoding),
'\u20ac\u20ac\U000104A0')
def test_lone_surrogates(self):
tests = [
(b'a+2AE-b', 'a\ud801b'),
(b'a+2AE\xffb', 'a\ufffdb'),
(b'a+2AE', 'a\ufffd'),
(b'a+2AEA-b', 'a\ufffdb'),
(b'a+2AH-b', 'a\ufffdb'),
(b'a+IKzYAQ-b', 'a\u20ac\ud801b'),
(b'a+IKzYAQ\xffb', 'a\u20ac\ufffdb'),
(b'a+IKzYAQA-b', 'a\u20ac\ufffdb'),
(b'a+IKzYAd-b', 'a\u20ac\ufffdb'),
(b'a+IKwgrNgB-b', 'a\u20ac\u20ac\ud801b'),
(b'a+IKwgrNgB\xffb', 'a\u20ac\u20ac\ufffdb'),
(b'a+IKwgrNgB', 'a\u20ac\u20ac\ufffd'),
(b'a+IKwgrNgBA-b', 'a\u20ac\u20ac\ufffdb'),
]
for raw, expected in tests:
with self.subTest(raw=raw):
self.assertEqual(raw.decode('utf-7', 'replace'), expected)
class UTF16ExTest(unittest.TestCase):
def test_errors(self):
self.assertRaises(UnicodeDecodeError, codecs.utf_16_ex_decode, b"\xff", "strict", 0, True)
def test_bad_args(self):
self.assertRaises(TypeError, codecs.utf_16_ex_decode)
class ReadBufferTest(unittest.TestCase):
def test_array(self):
import array
self.assertEqual(
codecs.readbuffer_encode(array.array("b", b"spam")),
(b"spam", 4)
)
def test_empty(self):
self.assertEqual(codecs.readbuffer_encode(""), (b"", 0))
def test_bad_args(self):
self.assertRaises(TypeError, codecs.readbuffer_encode)
self.assertRaises(TypeError, codecs.readbuffer_encode, 42)
class UTF8SigTest(UTF8Test, unittest.TestCase):
encoding = "utf-8-sig"
BOM = codecs.BOM_UTF8
def test_partial(self):
self.check_partial(
"\ufeff\x00\xff\u07ff\u0800\uffff\U00010000",
[
"",
"",
"", # First BOM has been read and skipped
"",
"",
"\ufeff", # Second BOM has been read and emitted
"\ufeff\x00", # "\x00" read and emitted
"\ufeff\x00", # First byte of encoded "\xff" read
"\ufeff\x00\xff", # Second byte of encoded "\xff" read
"\ufeff\x00\xff", # First byte of encoded "\u07ff" read
"\ufeff\x00\xff\u07ff", # Second byte of encoded "\u07ff" read
"\ufeff\x00\xff\u07ff",
"\ufeff\x00\xff\u07ff",
"\ufeff\x00\xff\u07ff\u0800",
"\ufeff\x00\xff\u07ff\u0800",
"\ufeff\x00\xff\u07ff\u0800",
"\ufeff\x00\xff\u07ff\u0800\uffff",
"\ufeff\x00\xff\u07ff\u0800\uffff",
"\ufeff\x00\xff\u07ff\u0800\uffff",
"\ufeff\x00\xff\u07ff\u0800\uffff",
"\ufeff\x00\xff\u07ff\u0800\uffff\U00010000",
]
)
def test_bug1601501(self):
# SF bug #1601501: check that the codec works with a buffer
self.assertEqual(str(b"\xef\xbb\xbf", "utf-8-sig"), "")
def test_bom(self):
d = codecs.getincrementaldecoder("utf-8-sig")()
s = "spam"
self.assertEqual(d.decode(s.encode("utf-8-sig")), s)
def test_stream_bom(self):
unistring = "ABC\u00A1\u2200XYZ"
bytestring = codecs.BOM_UTF8 + b"ABC\xC2\xA1\xE2\x88\x80XYZ"
reader = codecs.getreader("utf-8-sig")
for sizehint in [None] + list(range(1, 11)) + \
[64, 128, 256, 512, 1024]:
istream = reader(io.BytesIO(bytestring))
ostream = io.StringIO()
while 1:
if sizehint is not None:
data = istream.read(sizehint)
else:
data = istream.read()
if not data:
break
ostream.write(data)
got = ostream.getvalue()
self.assertEqual(got, unistring)
def test_stream_bare(self):
unistring = "ABC\u00A1\u2200XYZ"
bytestring = b"ABC\xC2\xA1\xE2\x88\x80XYZ"
reader = codecs.getreader("utf-8-sig")
for sizehint in [None] + list(range(1, 11)) + \
[64, 128, 256, 512, 1024]:
istream = reader(io.BytesIO(bytestring))
ostream = io.StringIO()
while 1:
if sizehint is not None:
data = istream.read(sizehint)
else:
data = istream.read()
if not data:
break
ostream.write(data)
got = ostream.getvalue()
self.assertEqual(got, unistring)
class EscapeDecodeTest(unittest.TestCase):
def test_empty(self):
self.assertEqual(codecs.escape_decode(b""), (b"", 0))
self.assertEqual(codecs.escape_decode(bytearray()), (b"", 0))
def test_raw(self):
decode = codecs.escape_decode
for b in range(256):
b = bytes([b])
if b != b'\\':
self.assertEqual(decode(b + b'0'), (b + b'0', 2))
def test_escape(self):
decode = codecs.escape_decode
check = coding_checker(self, decode)
check(b"[\\\n]", b"[]")
check(br'[\"]', b'["]')
check(br"[\']", b"[']")
check(br"[\\]", b"[\\]")
check(br"[\a]", b"[\x07]")
check(br"[\b]", b"[\x08]")
check(br"[\t]", b"[\x09]")
check(br"[\n]", b"[\x0a]")
check(br"[\v]", b"[\x0b]")
check(br"[\f]", b"[\x0c]")
check(br"[\r]", b"[\x0d]")
check(br"[\7]", b"[\x07]")
check(br"[\78]", b"[\x078]")
check(br"[\41]", b"[!]")
check(br"[\418]", b"[!8]")
check(br"[\101]", b"[A]")
check(br"[\1010]", b"[A0]")
check(br"[\501]", b"[A]")
check(br"[\x41]", b"[A]")
check(br"[\x410]", b"[A0]")
for i in range(97, 123):
b = bytes([i])
if b not in b'abfnrtvx':
with self.assertWarns(DeprecationWarning):
check(b"\\" + b, b"\\" + b)
with self.assertWarns(DeprecationWarning):
check(b"\\" + b.upper(), b"\\" + b.upper())
with self.assertWarns(DeprecationWarning):
check(br"\8", b"\\8")
with self.assertWarns(DeprecationWarning):
check(br"\9", b"\\9")
with self.assertWarns(DeprecationWarning):
check(b"\\\xfa", b"\\\xfa")
def test_errors(self):
decode = codecs.escape_decode
self.assertRaises(ValueError, decode, br"\x")
self.assertRaises(ValueError, decode, br"[\x]")
self.assertEqual(decode(br"[\x]\x", "ignore"), (b"[]", 6))
self.assertEqual(decode(br"[\x]\x", "replace"), (b"[?]?", 6))
self.assertRaises(ValueError, decode, br"\x0")
self.assertRaises(ValueError, decode, br"[\x0]")
self.assertEqual(decode(br"[\x0]\x0", "ignore"), (b"[]", 8))
self.assertEqual(decode(br"[\x0]\x0", "replace"), (b"[?]?", 8))
# From RFC 3492
punycode_testcases = [
# A Arabic (Egyptian):
("\u0644\u064A\u0647\u0645\u0627\u0628\u062A\u0643\u0644"
"\u0645\u0648\u0634\u0639\u0631\u0628\u064A\u061F",
b"egbpdaj6bu4bxfgehfvwxn"),
# B Chinese (simplified):
("\u4ED6\u4EEC\u4E3A\u4EC0\u4E48\u4E0D\u8BF4\u4E2D\u6587",
b"ihqwcrb4cv8a8dqg056pqjye"),
# C Chinese (traditional):
("\u4ED6\u5011\u7232\u4EC0\u9EBD\u4E0D\u8AAA\u4E2D\u6587",
b"ihqwctvzc91f659drss3x8bo0yb"),
# D Czech: Pro<ccaron>prost<ecaron>nemluv<iacute><ccaron>esky
("\u0050\u0072\u006F\u010D\u0070\u0072\u006F\u0073\u0074"
"\u011B\u006E\u0065\u006D\u006C\u0075\u0076\u00ED\u010D"
"\u0065\u0073\u006B\u0079",
b"Proprostnemluvesky-uyb24dma41a"),
# E Hebrew:
("\u05DC\u05DE\u05D4\u05D4\u05DD\u05E4\u05E9\u05D5\u05D8"
"\u05DC\u05D0\u05DE\u05D3\u05D1\u05E8\u05D9\u05DD\u05E2"
"\u05D1\u05E8\u05D9\u05EA",
b"4dbcagdahymbxekheh6e0a7fei0b"),
# F Hindi (Devanagari):
("\u092F\u0939\u0932\u094B\u0917\u0939\u093F\u0928\u094D"
"\u0926\u0940\u0915\u094D\u092F\u094B\u0902\u0928\u0939"
"\u0940\u0902\u092C\u094B\u0932\u0938\u0915\u0924\u0947"
"\u0939\u0948\u0902",
b"i1baa7eci9glrd9b2ae1bj0hfcgg6iyaf8o0a1dig0cd"),
#(G) Japanese (kanji and hiragana):
("\u306A\u305C\u307F\u3093\u306A\u65E5\u672C\u8A9E\u3092"
"\u8A71\u3057\u3066\u304F\u308C\u306A\u3044\u306E\u304B",
b"n8jok5ay5dzabd5bym9f0cm5685rrjetr6pdxa"),
# (H) Korean (Hangul syllables):
("\uC138\uACC4\uC758\uBAA8\uB4E0\uC0AC\uB78C\uB4E4\uC774"
"\uD55C\uAD6D\uC5B4\uB97C\uC774\uD574\uD55C\uB2E4\uBA74"
"\uC5BC\uB9C8\uB098\uC88B\uC744\uAE4C",
b"989aomsvi5e83db1d2a355cv1e0vak1dwrv93d5xbh15a0dt30a5j"
b"psd879ccm6fea98c"),
# (I) Russian (Cyrillic):
("\u043F\u043E\u0447\u0435\u043C\u0443\u0436\u0435\u043E"
"\u043D\u0438\u043D\u0435\u0433\u043E\u0432\u043E\u0440"
"\u044F\u0442\u043F\u043E\u0440\u0443\u0441\u0441\u043A"
"\u0438",
b"b1abfaaepdrnnbgefbaDotcwatmq2g4l"),
# (J) Spanish: Porqu<eacute>nopuedensimplementehablarenEspa<ntilde>ol
("\u0050\u006F\u0072\u0071\u0075\u00E9\u006E\u006F\u0070"
"\u0075\u0065\u0064\u0065\u006E\u0073\u0069\u006D\u0070"
"\u006C\u0065\u006D\u0065\u006E\u0074\u0065\u0068\u0061"
"\u0062\u006C\u0061\u0072\u0065\u006E\u0045\u0073\u0070"
"\u0061\u00F1\u006F\u006C",
b"PorqunopuedensimplementehablarenEspaol-fmd56a"),
# (K) Vietnamese:
# T<adotbelow>isaoh<odotbelow>kh<ocirc>ngth<ecirchookabove>ch\
# <ihookabove>n<oacute>iti<ecircacute>ngVi<ecircdotbelow>t
("\u0054\u1EA1\u0069\u0073\u0061\u006F\u0068\u1ECD\u006B"
"\u0068\u00F4\u006E\u0067\u0074\u0068\u1EC3\u0063\u0068"
"\u1EC9\u006E\u00F3\u0069\u0074\u0069\u1EBF\u006E\u0067"
"\u0056\u0069\u1EC7\u0074",
b"TisaohkhngthchnitingVit-kjcr8268qyxafd2f1b9g"),
#(L) 3<nen>B<gumi><kinpachi><sensei>
("\u0033\u5E74\u0042\u7D44\u91D1\u516B\u5148\u751F",
b"3B-ww4c5e180e575a65lsy2b"),
# (M) <amuro><namie>-with-SUPER-MONKEYS
("\u5B89\u5BA4\u5948\u7F8E\u6075\u002D\u0077\u0069\u0074"
"\u0068\u002D\u0053\u0055\u0050\u0045\u0052\u002D\u004D"
"\u004F\u004E\u004B\u0045\u0059\u0053",
b"-with-SUPER-MONKEYS-pc58ag80a8qai00g7n9n"),
# (N) Hello-Another-Way-<sorezore><no><basho>
("\u0048\u0065\u006C\u006C\u006F\u002D\u0041\u006E\u006F"
"\u0074\u0068\u0065\u0072\u002D\u0057\u0061\u0079\u002D"
"\u305D\u308C\u305E\u308C\u306E\u5834\u6240",
b"Hello-Another-Way--fc4qua05auwb3674vfr0b"),
# (O) <hitotsu><yane><no><shita>2
("\u3072\u3068\u3064\u5C4B\u6839\u306E\u4E0B\u0032",
b"2-u9tlzr9756bt3uc0v"),
# (P) Maji<de>Koi<suru>5<byou><mae>
("\u004D\u0061\u006A\u0069\u3067\u004B\u006F\u0069\u3059"
"\u308B\u0035\u79D2\u524D",
b"MajiKoi5-783gue6qz075azm5e"),
# (Q) <pafii>de<runba>
("\u30D1\u30D5\u30A3\u30FC\u0064\u0065\u30EB\u30F3\u30D0",
b"de-jg4avhby1noc0d"),
# (R) <sono><supiido><de>
("\u305D\u306E\u30B9\u30D4\u30FC\u30C9\u3067",
b"d9juau41awczczp"),
# (S) -> $1.00 <-
("\u002D\u003E\u0020\u0024\u0031\u002E\u0030\u0030\u0020"
"\u003C\u002D",
b"-> $1.00 <--")
]
for i in punycode_testcases:
if len(i)!=2:
print(repr(i))
class PunycodeTest(unittest.TestCase):
def test_encode(self):
for uni, puny in punycode_testcases:
# Need to convert both strings to lower case, since
# some of the extended encodings use upper case, but our
# code produces only lower case. Converting just puny to
# lower is also insufficient, since some of the input characters
# are upper case.
self.assertEqual(
str(uni.encode("punycode"), "ascii").lower(),
str(puny, "ascii").lower()
)
def test_decode(self):
for uni, puny in punycode_testcases:
self.assertEqual(uni, puny.decode("punycode"))
puny = puny.decode("ascii").encode("ascii")
self.assertEqual(uni, puny.decode("punycode"))
def test_decode_invalid(self):
testcases = [
(b"xn--w&", "strict", UnicodeError()),
(b"xn--w&", "ignore", "xn-"),
]
for puny, errors, expected in testcases:
with self.subTest(puny=puny, errors=errors):
if isinstance(expected, Exception):
self.assertRaises(UnicodeError, puny.decode, "punycode", errors)
else:
self.assertEqual(puny.decode("punycode", errors), expected)
# From http://www.gnu.org/software/libidn/draft-josefsson-idn-test-vectors.html
nameprep_tests = [
# 3.1 Map to nothing.
(b'foo\xc2\xad\xcd\x8f\xe1\xa0\x86\xe1\xa0\x8bbar'
b'\xe2\x80\x8b\xe2\x81\xa0baz\xef\xb8\x80\xef\xb8\x88\xef'
b'\xb8\x8f\xef\xbb\xbf',
b'foobarbaz'),
# 3.2 Case folding ASCII U+0043 U+0041 U+0046 U+0045.
(b'CAFE',
b'cafe'),
# 3.3 Case folding 8bit U+00DF (german sharp s).
# The original test case is bogus; it says \xc3\xdf
(b'\xc3\x9f',
b'ss'),
# 3.4 Case folding U+0130 (turkish capital I with dot).
(b'\xc4\xb0',
b'i\xcc\x87'),
# 3.5 Case folding multibyte U+0143 U+037A.
(b'\xc5\x83\xcd\xba',
b'\xc5\x84 \xce\xb9'),
# 3.6 Case folding U+2121 U+33C6 U+1D7BB.
# XXX: skip this as it fails in UCS-2 mode
#('\xe2\x84\xa1\xe3\x8f\x86\xf0\x9d\x9e\xbb',
# 'telc\xe2\x88\x95kg\xcf\x83'),
(None, None),
# 3.7 Normalization of U+006a U+030c U+00A0 U+00AA.
(b'j\xcc\x8c\xc2\xa0\xc2\xaa',
b'\xc7\xb0 a'),
# 3.8 Case folding U+1FB7 and normalization.
(b'\xe1\xbe\xb7',
b'\xe1\xbe\xb6\xce\xb9'),
# 3.9 Self-reverting case folding U+01F0 and normalization.
# The original test case is bogus, it says `\xc7\xf0'
(b'\xc7\xb0',
b'\xc7\xb0'),
# 3.10 Self-reverting case folding U+0390 and normalization.
(b'\xce\x90',
b'\xce\x90'),
# 3.11 Self-reverting case folding U+03B0 and normalization.
(b'\xce\xb0',
b'\xce\xb0'),
# 3.12 Self-reverting case folding U+1E96 and normalization.
(b'\xe1\xba\x96',
b'\xe1\xba\x96'),
# 3.13 Self-reverting case folding U+1F56 and normalization.
(b'\xe1\xbd\x96',
b'\xe1\xbd\x96'),
# 3.14 ASCII space character U+0020.
(b' ',
b' '),
# 3.15 Non-ASCII 8bit space character U+00A0.
(b'\xc2\xa0',
b' '),
# 3.16 Non-ASCII multibyte space character U+1680.
(b'\xe1\x9a\x80',
None),
# 3.17 Non-ASCII multibyte space character U+2000.
(b'\xe2\x80\x80',
b' '),
# 3.18 Zero Width Space U+200b.
(b'\xe2\x80\x8b',
b''),
# 3.19 Non-ASCII multibyte space character U+3000.
(b'\xe3\x80\x80',
b' '),
# 3.20 ASCII control characters U+0010 U+007F.
(b'\x10\x7f',
b'\x10\x7f'),
# 3.21 Non-ASCII 8bit control character U+0085.
(b'\xc2\x85',
None),
# 3.22 Non-ASCII multibyte control character U+180E.
(b'\xe1\xa0\x8e',
None),
# 3.23 Zero Width No-Break Space U+FEFF.
(b'\xef\xbb\xbf',
b''),
# 3.24 Non-ASCII control character U+1D175.
(b'\xf0\x9d\x85\xb5',
None),
# 3.25 Plane 0 private use character U+F123.
(b'\xef\x84\xa3',
None),
# 3.26 Plane 15 private use character U+F1234.
(b'\xf3\xb1\x88\xb4',
None),
# 3.27 Plane 16 private use character U+10F234.
(b'\xf4\x8f\x88\xb4',
None),
# 3.28 Non-character code point U+8FFFE.
(b'\xf2\x8f\xbf\xbe',
None),
# 3.29 Non-character code point U+10FFFF.
(b'\xf4\x8f\xbf\xbf',
None),
# 3.30 Surrogate code U+DF42.
(b'\xed\xbd\x82',
None),
# 3.31 Non-plain text character U+FFFD.
(b'\xef\xbf\xbd',
None),
# 3.32 Ideographic description character U+2FF5.
(b'\xe2\xbf\xb5',
None),
# 3.33 Display property character U+0341.
(b'\xcd\x81',
b'\xcc\x81'),
# 3.34 Left-to-right mark U+200E.
(b'\xe2\x80\x8e',
None),
# 3.35 Deprecated U+202A.
(b'\xe2\x80\xaa',
None),
# 3.36 Language tagging character U+E0001.
(b'\xf3\xa0\x80\x81',
None),
# 3.37 Language tagging character U+E0042.
(b'\xf3\xa0\x81\x82',
None),
# 3.38 Bidi: RandALCat character U+05BE and LCat characters.
(b'foo\xd6\xbebar',
None),
# 3.39 Bidi: RandALCat character U+FD50 and LCat characters.
(b'foo\xef\xb5\x90bar',
None),
# 3.40 Bidi: RandALCat character U+FB38 and LCat characters.
(b'foo\xef\xb9\xb6bar',
b'foo \xd9\x8ebar'),
# 3.41 Bidi: RandALCat without trailing RandALCat U+0627 U+0031.
(b'\xd8\xa71',
None),
# 3.42 Bidi: RandALCat character U+0627 U+0031 U+0628.
(b'\xd8\xa71\xd8\xa8',
b'\xd8\xa71\xd8\xa8'),
# 3.43 Unassigned code point U+E0002.
# Skip this test as we allow unassigned
#(b'\xf3\xa0\x80\x82',
# None),
(None, None),
# 3.44 Larger test (shrinking).
# Original test case reads \xc3\xdf
(b'X\xc2\xad\xc3\x9f\xc4\xb0\xe2\x84\xa1j\xcc\x8c\xc2\xa0\xc2'
b'\xaa\xce\xb0\xe2\x80\x80',
b'xssi\xcc\x87tel\xc7\xb0 a\xce\xb0 '),
# 3.45 Larger test (expanding).
# Original test case reads \xc3\x9f
(b'X\xc3\x9f\xe3\x8c\x96\xc4\xb0\xe2\x84\xa1\xe2\x92\x9f\xe3\x8c'
b'\x80',
b'xss\xe3\x82\xad\xe3\x83\xad\xe3\x83\xa1\xe3\x83\xbc\xe3'
b'\x83\x88\xe3\x83\xabi\xcc\x87tel\x28d\x29\xe3\x82'
b'\xa2\xe3\x83\x91\xe3\x83\xbc\xe3\x83\x88')
]
class NameprepTest(unittest.TestCase):
def test_nameprep(self):
from encodings.idna import nameprep
for pos, (orig, prepped) in enumerate(nameprep_tests):
if orig is None:
# Skipped
continue
# The Unicode strings are given in UTF-8
orig = str(orig, "utf-8", "surrogatepass")
if prepped is None:
# Input contains prohibited characters
self.assertRaises(UnicodeError, nameprep, orig)
else:
prepped = str(prepped, "utf-8", "surrogatepass")
try:
self.assertEqual(nameprep(orig), prepped)
except Exception as e:
raise support.TestFailed("Test 3.%d: %s" % (pos+1, str(e)))
class IDNACodecTest(unittest.TestCase):
def test_builtin_decode(self):
self.assertEqual(str(b"python.org", "idna"), "python.org")
self.assertEqual(str(b"python.org.", "idna"), "python.org.")
self.assertEqual(str(b"xn--pythn-mua.org", "idna"), "pyth\xf6n.org")
self.assertEqual(str(b"xn--pythn-mua.org.", "idna"), "pyth\xf6n.org.")
def test_builtin_encode(self):
self.assertEqual("python.org".encode("idna"), b"python.org")
self.assertEqual("python.org.".encode("idna"), b"python.org.")
self.assertEqual("pyth\xf6n.org".encode("idna"), b"xn--pythn-mua.org")
self.assertEqual("pyth\xf6n.org.".encode("idna"), b"xn--pythn-mua.org.")
def test_stream(self):
r = codecs.getreader("idna")(io.BytesIO(b"abc"))
r.read(3)
self.assertEqual(r.read(), "")
def test_incremental_decode(self):
self.assertEqual(
"".join(codecs.iterdecode((bytes([c]) for c in b"python.org"), "idna")),
"python.org"
)
self.assertEqual(
"".join(codecs.iterdecode((bytes([c]) for c in b"python.org."), "idna")),
"python.org."
)
self.assertEqual(
"".join(codecs.iterdecode((bytes([c]) for c in b"xn--pythn-mua.org."), "idna")),
"pyth\xf6n.org."
)
self.assertEqual(
"".join(codecs.iterdecode((bytes([c]) for c in b"xn--pythn-mua.org."), "idna")),
"pyth\xf6n.org."
)
decoder = codecs.getincrementaldecoder("idna")()
self.assertEqual(decoder.decode(b"xn--xam", ), "")
self.assertEqual(decoder.decode(b"ple-9ta.o", ), "\xe4xample.")
self.assertEqual(decoder.decode(b"rg"), "")
self.assertEqual(decoder.decode(b"", True), "org")
decoder.reset()
self.assertEqual(decoder.decode(b"xn--xam", ), "")
self.assertEqual(decoder.decode(b"ple-9ta.o", ), "\xe4xample.")
self.assertEqual(decoder.decode(b"rg."), "org.")
self.assertEqual(decoder.decode(b"", True), "")
def test_incremental_encode(self):
self.assertEqual(
b"".join(codecs.iterencode("python.org", "idna")),
b"python.org"
)
self.assertEqual(
b"".join(codecs.iterencode("python.org.", "idna")),
b"python.org."
)
self.assertEqual(
b"".join(codecs.iterencode("pyth\xf6n.org.", "idna")),
b"xn--pythn-mua.org."
)
self.assertEqual(
b"".join(codecs.iterencode("pyth\xf6n.org.", "idna")),
b"xn--pythn-mua.org."
)
encoder = codecs.getincrementalencoder("idna")()
self.assertEqual(encoder.encode("\xe4x"), b"")
self.assertEqual(encoder.encode("ample.org"), b"xn--xample-9ta.")
self.assertEqual(encoder.encode("", True), b"org")
encoder.reset()
self.assertEqual(encoder.encode("\xe4x"), b"")
self.assertEqual(encoder.encode("ample.org."), b"xn--xample-9ta.org.")
self.assertEqual(encoder.encode("", True), b"")
def test_errors(self):
"""Only supports "strict" error handler"""
"python.org".encode("idna", "strict")
b"python.org".decode("idna", "strict")
for errors in ("ignore", "replace", "backslashreplace",
"surrogateescape"):
self.assertRaises(Exception, "python.org".encode, "idna", errors)
self.assertRaises(Exception,
b"python.org".decode, "idna", errors)
class CodecsModuleTest(unittest.TestCase):
def test_decode(self):
self.assertEqual(codecs.decode(b'\xe4\xf6\xfc', 'latin-1'),
'\xe4\xf6\xfc')
self.assertRaises(TypeError, codecs.decode)
self.assertEqual(codecs.decode(b'abc'), 'abc')
self.assertRaises(UnicodeDecodeError, codecs.decode, b'\xff', 'ascii')
# test keywords
self.assertEqual(codecs.decode(obj=b'\xe4\xf6\xfc', encoding='latin-1'),
'\xe4\xf6\xfc')
self.assertEqual(codecs.decode(b'[\xff]', 'ascii', errors='ignore'),
'[]')
def test_encode(self):
self.assertEqual(codecs.encode('\xe4\xf6\xfc', 'latin-1'),
b'\xe4\xf6\xfc')
self.assertRaises(TypeError, codecs.encode)
self.assertRaises(LookupError, codecs.encode, "foo", "__spam__")
self.assertEqual(codecs.encode('abc'), b'abc')
self.assertRaises(UnicodeEncodeError, codecs.encode, '\xffff', 'ascii')
# test keywords
self.assertEqual(codecs.encode(obj='\xe4\xf6\xfc', encoding='latin-1'),
b'\xe4\xf6\xfc')
self.assertEqual(codecs.encode('[\xff]', 'ascii', errors='ignore'),
b'[]')
def test_register(self):
self.assertRaises(TypeError, codecs.register)
self.assertRaises(TypeError, codecs.register, 42)
def test_unregister(self):
name = "nonexistent_codec_name"
search_function = mock.Mock()
codecs.register(search_function)
self.assertRaises(TypeError, codecs.lookup, name)
search_function.assert_called_with(name)
search_function.reset_mock()
codecs.unregister(search_function)
self.assertRaises(LookupError, codecs.lookup, name)
search_function.assert_not_called()
def test_lookup(self):
self.assertRaises(TypeError, codecs.lookup)
self.assertRaises(LookupError, codecs.lookup, "__spam__")
self.assertRaises(LookupError, codecs.lookup, " ")
def test_getencoder(self):
self.assertRaises(TypeError, codecs.getencoder)
self.assertRaises(LookupError, codecs.getencoder, "__spam__")
def test_getdecoder(self):
self.assertRaises(TypeError, codecs.getdecoder)
self.assertRaises(LookupError, codecs.getdecoder, "__spam__")
def test_getreader(self):
self.assertRaises(TypeError, codecs.getreader)
self.assertRaises(LookupError, codecs.getreader, "__spam__")
def test_getwriter(self):
self.assertRaises(TypeError, codecs.getwriter)
self.assertRaises(LookupError, codecs.getwriter, "__spam__")
def test_lookup_issue1813(self):
# Issue #1813: under Turkish locales, lookup of some codecs failed
# because 'I' is lowercased as "ı" (dotless i)
oldlocale = locale.setlocale(locale.LC_CTYPE)
self.addCleanup(locale.setlocale, locale.LC_CTYPE, oldlocale)
try:
locale.setlocale(locale.LC_CTYPE, 'tr_TR')
except locale.Error:
# Unsupported locale on this system
self.skipTest('test needs Turkish locale')
c = codecs.lookup('ASCII')
self.assertEqual(c.name, 'ascii')
def test_all(self):
api = (
"encode", "decode",
"register", "CodecInfo", "Codec", "IncrementalEncoder",
"IncrementalDecoder", "StreamReader", "StreamWriter", "lookup",
"getencoder", "getdecoder", "getincrementalencoder",
"getincrementaldecoder", "getreader", "getwriter",
"register_error", "lookup_error",
"strict_errors", "replace_errors", "ignore_errors",
"xmlcharrefreplace_errors", "backslashreplace_errors",
"namereplace_errors",
"open", "EncodedFile",
"iterencode", "iterdecode",
"BOM", "BOM_BE", "BOM_LE",
"BOM_UTF8", "BOM_UTF16", "BOM_UTF16_BE", "BOM_UTF16_LE",
"BOM_UTF32", "BOM_UTF32_BE", "BOM_UTF32_LE",
"BOM32_BE", "BOM32_LE", "BOM64_BE", "BOM64_LE", # Undocumented
"StreamReaderWriter", "StreamRecoder",
)
self.assertCountEqual(api, codecs.__all__)
for api in codecs.__all__:
getattr(codecs, api)
def test_open(self):
self.addCleanup(os_helper.unlink, os_helper.TESTFN)
for mode in ('w', 'r', 'r+', 'w+', 'a', 'a+'):
with self.subTest(mode), \
codecs.open(os_helper.TESTFN, mode, 'ascii') as file:
self.assertIsInstance(file, codecs.StreamReaderWriter)
def test_undefined(self):
self.assertRaises(UnicodeError, codecs.encode, 'abc', 'undefined')
self.assertRaises(UnicodeError, codecs.decode, b'abc', 'undefined')
self.assertRaises(UnicodeError, codecs.encode, '', 'undefined')
self.assertRaises(UnicodeError, codecs.decode, b'', 'undefined')
for errors in ('strict', 'ignore', 'replace', 'backslashreplace'):
self.assertRaises(UnicodeError,
codecs.encode, 'abc', 'undefined', errors)
self.assertRaises(UnicodeError,
codecs.decode, b'abc', 'undefined', errors)
def test_file_closes_if_lookup_error_raised(self):
mock_open = mock.mock_open()
with mock.patch('builtins.open', mock_open) as file:
with self.assertRaises(LookupError):
codecs.open(os_helper.TESTFN, 'wt', 'invalid-encoding')
file().close.assert_called()
class StreamReaderTest(unittest.TestCase):
def setUp(self):
self.reader = codecs.getreader('utf-8')
self.stream = io.BytesIO(b'\xed\x95\x9c\n\xea\xb8\x80')
def test_readlines(self):
f = self.reader(self.stream)
self.assertEqual(f.readlines(), ['\ud55c\n', '\uae00'])
class EncodedFileTest(unittest.TestCase):
def test_basic(self):
f = io.BytesIO(b'\xed\x95\x9c\n\xea\xb8\x80')
ef = codecs.EncodedFile(f, 'utf-16-le', 'utf-8')
self.assertEqual(ef.read(), b'\\\xd5\n\x00\x00\xae')
f = io.BytesIO()
ef = codecs.EncodedFile(f, 'utf-8', 'latin-1')
ef.write(b'\xc3\xbc')
self.assertEqual(f.getvalue(), b'\xfc')
all_unicode_encodings = [
"ascii",
"big5",
"big5hkscs",
"charmap",
"cp037",
"cp1006",
"cp1026",
"cp1125",
"cp1140",
"cp1250",
"cp1251",
"cp1252",
"cp1253",
"cp1254",
"cp1255",
"cp1256",
"cp1257",
"cp1258",
"cp424",
"cp437",
"cp500",
"cp720",
"cp737",
"cp775",
"cp850",
"cp852",
"cp855",
"cp856",
"cp857",
"cp858",
"cp860",
"cp861",
"cp862",
"cp863",
"cp864",
"cp865",
"cp866",
"cp869",
"cp874",
"cp875",
"cp932",
"cp949",
"cp950",
"euc_jis_2004",
"euc_jisx0213",
"euc_jp",
"euc_kr",
"gb18030",
"gb2312",
"gbk",
"hp_roman8",
"hz",
"idna",
"iso2022_jp",
"iso2022_jp_1",
"iso2022_jp_2",
"iso2022_jp_2004",
"iso2022_jp_3",
"iso2022_jp_ext",
"iso2022_kr",
"iso8859_1",
"iso8859_10",
"iso8859_11",
"iso8859_13",
"iso8859_14",
"iso8859_15",
"iso8859_16",
"iso8859_2",
"iso8859_3",
"iso8859_4",
"iso8859_5",
"iso8859_6",
"iso8859_7",
"iso8859_8",
"iso8859_9",
"johab",
"koi8_r",
"koi8_t",
"koi8_u",
"kz1048",
"latin_1",
"mac_cyrillic",
"mac_greek",
"mac_iceland",
"mac_latin2",
"mac_roman",
"mac_turkish",
"palmos",
"ptcp154",
"punycode",
"raw_unicode_escape",
"shift_jis",
"shift_jis_2004",
"shift_jisx0213",
"tis_620",
"unicode_escape",
"utf_16",
"utf_16_be",
"utf_16_le",
"utf_7",
"utf_8",
]
if hasattr(codecs, "mbcs_encode"):
all_unicode_encodings.append("mbcs")
if hasattr(codecs, "oem_encode"):
all_unicode_encodings.append("oem")
# The following encoding is not tested, because it's not supposed
# to work:
# "undefined"
# The following encodings don't work in stateful mode
broken_unicode_with_stateful = [
"punycode",
]
class BasicUnicodeTest(unittest.TestCase, MixInCheckStateHandling):
def test_basics(self):
s = "abc123" # all codecs should be able to encode these
for encoding in all_unicode_encodings:
name = codecs.lookup(encoding).name
if encoding.endswith("_codec"):
name += "_codec"
elif encoding == "latin_1":
name = "latin_1"
self.assertEqual(encoding.replace("_", "-"), name.replace("_", "-"))
(b, size) = codecs.getencoder(encoding)(s)
self.assertEqual(size, len(s), "encoding=%r" % encoding)
(chars, size) = codecs.getdecoder(encoding)(b)
self.assertEqual(chars, s, "encoding=%r" % encoding)
if encoding not in broken_unicode_with_stateful:
# check stream reader/writer
q = Queue(b"")
writer = codecs.getwriter(encoding)(q)
encodedresult = b""
for c in s:
writer.write(c)
chunk = q.read()
self.assertTrue(type(chunk) is bytes, type(chunk))
encodedresult += chunk
q = Queue(b"")
reader = codecs.getreader(encoding)(q)
decodedresult = ""
for c in encodedresult:
q.write(bytes([c]))
decodedresult += reader.read()
self.assertEqual(decodedresult, s, "encoding=%r" % encoding)
if encoding not in broken_unicode_with_stateful:
# check incremental decoder/encoder and iterencode()/iterdecode()
try:
encoder = codecs.getincrementalencoder(encoding)()
except LookupError: # no IncrementalEncoder
pass
else:
# check incremental decoder/encoder
encodedresult = b""
for c in s:
encodedresult += encoder.encode(c)
encodedresult += encoder.encode("", True)
decoder = codecs.getincrementaldecoder(encoding)()
decodedresult = ""
for c in encodedresult:
decodedresult += decoder.decode(bytes([c]))
decodedresult += decoder.decode(b"", True)
self.assertEqual(decodedresult, s,
"encoding=%r" % encoding)
# check iterencode()/iterdecode()
result = "".join(codecs.iterdecode(
codecs.iterencode(s, encoding), encoding))
self.assertEqual(result, s, "encoding=%r" % encoding)
# check iterencode()/iterdecode() with empty string
result = "".join(codecs.iterdecode(
codecs.iterencode("", encoding), encoding))
self.assertEqual(result, "")
if encoding not in ("idna", "mbcs"):
# check incremental decoder/encoder with errors argument
try:
encoder = codecs.getincrementalencoder(encoding)("ignore")
except LookupError: # no IncrementalEncoder
pass
else:
encodedresult = b"".join(encoder.encode(c) for c in s)
decoder = codecs.getincrementaldecoder(encoding)("ignore")
decodedresult = "".join(decoder.decode(bytes([c]))
for c in encodedresult)
self.assertEqual(decodedresult, s,
"encoding=%r" % encoding)
@support.cpython_only
def test_basics_capi(self):
s = "abc123" # all codecs should be able to encode these
for encoding in all_unicode_encodings:
if encoding not in broken_unicode_with_stateful:
# check incremental decoder/encoder (fetched via the C API)
try:
cencoder = _testcapi.codec_incrementalencoder(encoding)
except LookupError: # no IncrementalEncoder
pass
else:
# check C API
encodedresult = b""
for c in s:
encodedresult += cencoder.encode(c)
encodedresult += cencoder.encode("", True)
cdecoder = _testcapi.codec_incrementaldecoder(encoding)
decodedresult = ""
for c in encodedresult:
decodedresult += cdecoder.decode(bytes([c]))
decodedresult += cdecoder.decode(b"", True)
self.assertEqual(decodedresult, s,
"encoding=%r" % encoding)
if encoding not in ("idna", "mbcs"):
# check incremental decoder/encoder with errors argument
try:
cencoder = _testcapi.codec_incrementalencoder(encoding, "ignore")
except LookupError: # no IncrementalEncoder
pass
else:
encodedresult = b"".join(cencoder.encode(c) for c in s)
cdecoder = _testcapi.codec_incrementaldecoder(encoding, "ignore")
decodedresult = "".join(cdecoder.decode(bytes([c]))
for c in encodedresult)
self.assertEqual(decodedresult, s,
"encoding=%r" % encoding)
def test_seek(self):
# all codecs should be able to encode these
s = "%s\n%s\n" % (100*"abc123", 100*"def456")
for encoding in all_unicode_encodings:
if encoding == "idna": # FIXME: See SF bug #1163178
continue
if encoding in broken_unicode_with_stateful:
continue
reader = codecs.getreader(encoding)(io.BytesIO(s.encode(encoding)))
for t in range(5):
# Test that calling seek resets the internal codec state and buffers
reader.seek(0, 0)
data = reader.read()
self.assertEqual(s, data)
def test_bad_decode_args(self):
for encoding in all_unicode_encodings:
decoder = codecs.getdecoder(encoding)
self.assertRaises(TypeError, decoder)
if encoding not in ("idna", "punycode"):
self.assertRaises(TypeError, decoder, 42)
def test_bad_encode_args(self):
for encoding in all_unicode_encodings:
encoder = codecs.getencoder(encoding)
self.assertRaises(TypeError, encoder)
def test_encoding_map_type_initialized(self):
from encodings import cp1140
# This used to crash, we are only verifying there's no crash.
table_type = type(cp1140.encoding_table)
self.assertEqual(table_type, table_type)
def test_decoder_state(self):
# Check that getstate() and setstate() handle the state properly
u = "abc123"
for encoding in all_unicode_encodings:
if encoding not in broken_unicode_with_stateful:
self.check_state_handling_decode(encoding, u, u.encode(encoding))
self.check_state_handling_encode(encoding, u, u.encode(encoding))
class CharmapTest(unittest.TestCase):
def test_decode_with_string_map(self):
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict", "abc"),
("abc", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict", "\U0010FFFFbc"),
("\U0010FFFFbc", 3)
)
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict", "ab"
)
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict", "ab\ufffe"
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace", "ab"),
("ab\ufffd", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace", "ab\ufffe"),
("ab\ufffd", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace", "ab"),
("ab\\x02", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace", "ab\ufffe"),
("ab\\x02", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore", "ab"),
("ab", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore", "ab\ufffe"),
("ab", 3)
)
allbytes = bytes(range(256))
self.assertEqual(
codecs.charmap_decode(allbytes, "ignore", ""),
("", len(allbytes))
)
def test_decode_with_int2str_map(self):
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: 'a', 1: 'b', 2: 'c'}),
("abc", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: 'Aa', 1: 'Bb', 2: 'Cc'}),
("AaBbCc", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: '\U0010FFFF', 1: 'b', 2: 'c'}),
("\U0010FFFFbc", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: 'a', 1: 'b', 2: ''}),
("ab", 3)
)
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict",
{0: 'a', 1: 'b'}
)
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict",
{0: 'a', 1: 'b', 2: None}
)
# Issue #14850
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict",
{0: 'a', 1: 'b', 2: '\ufffe'}
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace",
{0: 'a', 1: 'b'}),
("ab\ufffd", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace",
{0: 'a', 1: 'b', 2: None}),
("ab\ufffd", 3)
)
# Issue #14850
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace",
{0: 'a', 1: 'b', 2: '\ufffe'}),
("ab\ufffd", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace",
{0: 'a', 1: 'b'}),
("ab\\x02", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace",
{0: 'a', 1: 'b', 2: None}),
("ab\\x02", 3)
)
# Issue #14850
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace",
{0: 'a', 1: 'b', 2: '\ufffe'}),
("ab\\x02", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore",
{0: 'a', 1: 'b'}),
("ab", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore",
{0: 'a', 1: 'b', 2: None}),
("ab", 3)
)
# Issue #14850
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore",
{0: 'a', 1: 'b', 2: '\ufffe'}),
("ab", 3)
)
allbytes = bytes(range(256))
self.assertEqual(
codecs.charmap_decode(allbytes, "ignore", {}),
("", len(allbytes))
)
self.assertRaisesRegex(TypeError,
"character mapping must be in range\\(0x110000\\)",
codecs.charmap_decode,
b"\x00\x01\x02", "strict", {0: "A", 1: 'Bb', 2: -2}
)
self.assertRaisesRegex(TypeError,
"character mapping must be in range\\(0x110000\\)",
codecs.charmap_decode,
b"\x00\x01\x02", "strict", {0: "A", 1: 'Bb', 2: 999999999}
)
def test_decode_with_int2int_map(self):
a = ord('a')
b = ord('b')
c = ord('c')
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: a, 1: b, 2: c}),
("abc", 3)
)
# Issue #15379
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: 0x10FFFF, 1: b, 2: c}),
("\U0010FFFFbc", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "strict",
{0: sys.maxunicode, 1: b, 2: c}),
(chr(sys.maxunicode) + "bc", 3)
)
self.assertRaises(TypeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict",
{0: sys.maxunicode + 1, 1: b, 2: c}
)
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict",
{0: a, 1: b},
)
self.assertRaises(UnicodeDecodeError,
codecs.charmap_decode, b"\x00\x01\x02", "strict",
{0: a, 1: b, 2: 0xFFFE},
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace",
{0: a, 1: b}),
("ab\ufffd", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "replace",
{0: a, 1: b, 2: 0xFFFE}),
("ab\ufffd", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace",
{0: a, 1: b}),
("ab\\x02", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "backslashreplace",
{0: a, 1: b, 2: 0xFFFE}),
("ab\\x02", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore",
{0: a, 1: b}),
("ab", 3)
)
self.assertEqual(
codecs.charmap_decode(b"\x00\x01\x02", "ignore",
{0: a, 1: b, 2: 0xFFFE}),
("ab", 3)
)
class WithStmtTest(unittest.TestCase):
def test_encodedfile(self):
f = io.BytesIO(b"\xc3\xbc")
with codecs.EncodedFile(f, "latin-1", "utf-8") as ef:
self.assertEqual(ef.read(), b"\xfc")
self.assertTrue(f.closed)
def test_streamreaderwriter(self):
f = io.BytesIO(b"\xc3\xbc")
info = codecs.lookup("utf-8")
with codecs.StreamReaderWriter(f, info.streamreader,
info.streamwriter, 'strict') as srw:
self.assertEqual(srw.read(), "\xfc")
class TypesTest(unittest.TestCase):
def test_decode_unicode(self):
# Most decoders don't accept unicode input
decoders = [
codecs.utf_7_decode,
codecs.utf_8_decode,
codecs.utf_16_le_decode,
codecs.utf_16_be_decode,
codecs.utf_16_ex_decode,
codecs.utf_32_decode,
codecs.utf_32_le_decode,
codecs.utf_32_be_decode,
codecs.utf_32_ex_decode,
codecs.latin_1_decode,
codecs.ascii_decode,
codecs.charmap_decode,
]
if hasattr(codecs, "mbcs_decode"):
decoders.append(codecs.mbcs_decode)
for decoder in decoders:
self.assertRaises(TypeError, decoder, "xxx")
def test_unicode_escape(self):
# Escape-decoding a unicode string is supported and gives the same
# result as decoding the equivalent ASCII bytes string.
self.assertEqual(codecs.unicode_escape_decode(r"\u1234"), ("\u1234", 6))
self.assertEqual(codecs.unicode_escape_decode(br"\u1234"), ("\u1234", 6))
self.assertEqual(codecs.raw_unicode_escape_decode(r"\u1234"), ("\u1234", 6))
self.assertEqual(codecs.raw_unicode_escape_decode(br"\u1234"), ("\u1234", 6))
self.assertRaises(UnicodeDecodeError, codecs.unicode_escape_decode, br"\U00110000")
self.assertEqual(codecs.unicode_escape_decode(r"\U00110000", "replace"), ("\ufffd", 10))
self.assertEqual(codecs.unicode_escape_decode(r"\U00110000", "backslashreplace"),
(r"\x5c\x55\x30\x30\x31\x31\x30\x30\x30\x30", 10))
self.assertRaises(UnicodeDecodeError, codecs.raw_unicode_escape_decode, br"\U00110000")
self.assertEqual(codecs.raw_unicode_escape_decode(r"\U00110000", "replace"), ("\ufffd", 10))
self.assertEqual(codecs.raw_unicode_escape_decode(r"\U00110000", "backslashreplace"),
(r"\x5c\x55\x30\x30\x31\x31\x30\x30\x30\x30", 10))
class UnicodeEscapeTest(ReadTest, unittest.TestCase):
encoding = "unicode-escape"
test_lone_surrogates = None
def test_empty(self):
self.assertEqual(codecs.unicode_escape_encode(""), (b"", 0))
self.assertEqual(codecs.unicode_escape_decode(b""), ("", 0))
def test_raw_encode(self):
encode = codecs.unicode_escape_encode
for b in range(32, 127):
if b != b'\\'[0]:
self.assertEqual(encode(chr(b)), (bytes([b]), 1))
def test_raw_decode(self):
decode = codecs.unicode_escape_decode
for b in range(256):
if b != b'\\'[0]:
self.assertEqual(decode(bytes([b]) + b'0'), (chr(b) + '0', 2))
def test_escape_encode(self):
encode = codecs.unicode_escape_encode
check = coding_checker(self, encode)
check('\t', br'\t')
check('\n', br'\n')
check('\r', br'\r')
check('\\', br'\\')
for b in range(32):
if chr(b) not in '\t\n\r':
check(chr(b), ('\\x%02x' % b).encode())
for b in range(127, 256):
check(chr(b), ('\\x%02x' % b).encode())
check('\u20ac', br'\u20ac')
check('\U0001d120', br'\U0001d120')
def test_escape_decode(self):
decode = codecs.unicode_escape_decode
check = coding_checker(self, decode)
check(b"[\\\n]", "[]")
check(br'[\"]', '["]')
check(br"[\']", "[']")
check(br"[\\]", r"[\]")
check(br"[\a]", "[\x07]")
check(br"[\b]", "[\x08]")
check(br"[\t]", "[\x09]")
check(br"[\n]", "[\x0a]")
check(br"[\v]", "[\x0b]")
check(br"[\f]", "[\x0c]")
check(br"[\r]", "[\x0d]")
check(br"[\7]", "[\x07]")
check(br"[\78]", "[\x078]")
check(br"[\41]", "[!]")
check(br"[\418]", "[!8]")
check(br"[\101]", "[A]")
check(br"[\1010]", "[A0]")
check(br"[\x41]", "[A]")
check(br"[\x410]", "[A0]")
check(br"\u20ac", "\u20ac")
check(br"\U0001d120", "\U0001d120")
for i in range(97, 123):
b = bytes([i])
if b not in b'abfnrtuvx':
with self.assertWarns(DeprecationWarning):
check(b"\\" + b, "\\" + chr(i))
if b.upper() not in b'UN':
with self.assertWarns(DeprecationWarning):
check(b"\\" + b.upper(), "\\" + chr(i-32))
with self.assertWarns(DeprecationWarning):
check(br"\8", "\\8")
with self.assertWarns(DeprecationWarning):
check(br"\9", "\\9")
with self.assertWarns(DeprecationWarning):
check(b"\\\xfa", "\\\xfa")
def test_decode_errors(self):
decode = codecs.unicode_escape_decode
for c, d in (b'x', 2), (b'u', 4), (b'U', 4):
for i in range(d):
self.assertRaises(UnicodeDecodeError, decode,
b"\\" + c + b"0"*i)
self.assertRaises(UnicodeDecodeError, decode,
b"[\\" + c + b"0"*i + b"]")
data = b"[\\" + c + b"0"*i + b"]\\" + c + b"0"*i
self.assertEqual(decode(data, "ignore"), ("[]", len(data)))
self.assertEqual(decode(data, "replace"),
("[\ufffd]\ufffd", len(data)))
self.assertRaises(UnicodeDecodeError, decode, br"\U00110000")
self.assertEqual(decode(br"\U00110000", "ignore"), ("", 10))
self.assertEqual(decode(br"\U00110000", "replace"), ("\ufffd", 10))
def test_partial(self):
self.check_partial(
"\x00\t\n\r\\\xff\uffff\U00010000",
[
'',
'',
'',
'\x00',
'\x00',
'\x00\t',
'\x00\t',
'\x00\t\n',
'\x00\t\n',
'\x00\t\n\r',
'\x00\t\n\r',
'\x00\t\n\r\\',
'\x00\t\n\r\\',
'\x00\t\n\r\\',
'\x00\t\n\r\\',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff\U00010000',
]
)
class RawUnicodeEscapeTest(ReadTest, unittest.TestCase):
encoding = "raw-unicode-escape"
test_lone_surrogates = None
def test_empty(self):
self.assertEqual(codecs.raw_unicode_escape_encode(""), (b"", 0))
self.assertEqual(codecs.raw_unicode_escape_decode(b""), ("", 0))
def test_raw_encode(self):
encode = codecs.raw_unicode_escape_encode
for b in range(256):
self.assertEqual(encode(chr(b)), (bytes([b]), 1))
def test_raw_decode(self):
decode = codecs.raw_unicode_escape_decode
for b in range(256):
self.assertEqual(decode(bytes([b]) + b'0'), (chr(b) + '0', 2))
def test_escape_encode(self):
encode = codecs.raw_unicode_escape_encode
check = coding_checker(self, encode)
for b in range(256):
if b not in b'uU':
check('\\' + chr(b), b'\\' + bytes([b]))
check('\u20ac', br'\u20ac')
check('\U0001d120', br'\U0001d120')
def test_escape_decode(self):
decode = codecs.raw_unicode_escape_decode
check = coding_checker(self, decode)
for b in range(256):
if b not in b'uU':
check(b'\\' + bytes([b]), '\\' + chr(b))
check(br"\u20ac", "\u20ac")
check(br"\U0001d120", "\U0001d120")
def test_decode_errors(self):
decode = codecs.raw_unicode_escape_decode
for c, d in (b'u', 4), (b'U', 4):
for i in range(d):
self.assertRaises(UnicodeDecodeError, decode,
b"\\" + c + b"0"*i)
self.assertRaises(UnicodeDecodeError, decode,
b"[\\" + c + b"0"*i + b"]")
data = b"[\\" + c + b"0"*i + b"]\\" + c + b"0"*i
self.assertEqual(decode(data, "ignore"), ("[]", len(data)))
self.assertEqual(decode(data, "replace"),
("[\ufffd]\ufffd", len(data)))
self.assertRaises(UnicodeDecodeError, decode, br"\U00110000")
self.assertEqual(decode(br"\U00110000", "ignore"), ("", 10))
self.assertEqual(decode(br"\U00110000", "replace"), ("\ufffd", 10))
def test_partial(self):
self.check_partial(
"\x00\t\n\r\\\xff\uffff\U00010000",
[
'\x00',
'\x00\t',
'\x00\t\n',
'\x00\t\n\r',
'\x00\t\n\r',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff',
'\x00\t\n\r\\\xff\uffff\U00010000',
]
)
class EscapeEncodeTest(unittest.TestCase):
def test_escape_encode(self):
tests = [
(b'', (b'', 0)),
(b'foobar', (b'foobar', 6)),
(b'spam\0eggs', (b'spam\\x00eggs', 9)),
(b'a\'b', (b"a\\'b", 3)),
(b'b\\c', (b'b\\\\c', 3)),
(b'c\nd', (b'c\\nd', 3)),
(b'd\re', (b'd\\re', 3)),
(b'f\x7fg', (b'f\\x7fg', 3)),
]
for data, output in tests:
with self.subTest(data=data):
self.assertEqual(codecs.escape_encode(data), output)
self.assertRaises(TypeError, codecs.escape_encode, 'spam')
self.assertRaises(TypeError, codecs.escape_encode, bytearray(b'spam'))
class SurrogateEscapeTest(unittest.TestCase):
def test_utf8(self):
# Bad byte
self.assertEqual(b"foo\x80bar".decode("utf-8", "surrogateescape"),
"foo\udc80bar")
self.assertEqual("foo\udc80bar".encode("utf-8", "surrogateescape"),
b"foo\x80bar")
# bad-utf-8 encoded surrogate
self.assertEqual(b"\xed\xb0\x80".decode("utf-8", "surrogateescape"),
"\udced\udcb0\udc80")
self.assertEqual("\udced\udcb0\udc80".encode("utf-8", "surrogateescape"),
b"\xed\xb0\x80")
def test_ascii(self):
# bad byte
self.assertEqual(b"foo\x80bar".decode("ascii", "surrogateescape"),
"foo\udc80bar")
self.assertEqual("foo\udc80bar".encode("ascii", "surrogateescape"),
b"foo\x80bar")
def test_charmap(self):
# bad byte: \xa5 is unmapped in iso-8859-3
self.assertEqual(b"foo\xa5bar".decode("iso-8859-3", "surrogateescape"),
"foo\udca5bar")
self.assertEqual("foo\udca5bar".encode("iso-8859-3", "surrogateescape"),
b"foo\xa5bar")
def test_latin1(self):
# Issue6373
self.assertEqual("\udce4\udceb\udcef\udcf6\udcfc".encode("latin-1", "surrogateescape"),
b"\xe4\xeb\xef\xf6\xfc")
class BomTest(unittest.TestCase):
def test_seek0(self):
data = "1234567890"
tests = ("utf-16",
"utf-16-le",
"utf-16-be",
"utf-32",
"utf-32-le",
"utf-32-be")
self.addCleanup(os_helper.unlink, os_helper.TESTFN)
for encoding in tests:
# Check if the BOM is written only once
with codecs.open(os_helper.TESTFN, 'w+', encoding=encoding) as f:
f.write(data)
f.write(data)
f.seek(0)
self.assertEqual(f.read(), data * 2)
f.seek(0)
self.assertEqual(f.read(), data * 2)
# Check that the BOM is written after a seek(0)
with codecs.open(os_helper.TESTFN, 'w+', encoding=encoding) as f:
f.write(data[0])
self.assertNotEqual(f.tell(), 0)
f.seek(0)
f.write(data)
f.seek(0)
self.assertEqual(f.read(), data)
# (StreamWriter) Check that the BOM is written after a seek(0)
with codecs.open(os_helper.TESTFN, 'w+', encoding=encoding) as f:
f.writer.write(data[0])
self.assertNotEqual(f.writer.tell(), 0)
f.writer.seek(0)
f.writer.write(data)
f.seek(0)
self.assertEqual(f.read(), data)
# Check that the BOM is not written after a seek() at a position
# different than the start
with codecs.open(os_helper.TESTFN, 'w+', encoding=encoding) as f:
f.write(data)
f.seek(f.tell())
f.write(data)
f.seek(0)
self.assertEqual(f.read(), data * 2)
# (StreamWriter) Check that the BOM is not written after a seek()
# at a position different than the start
with codecs.open(os_helper.TESTFN, 'w+', encoding=encoding) as f:
f.writer.write(data)
f.writer.seek(f.writer.tell())
f.writer.write(data)
f.seek(0)
self.assertEqual(f.read(), data * 2)
bytes_transform_encodings = [
"base64_codec",
"uu_codec",
"quopri_codec",
"hex_codec",
]
transform_aliases = {
"base64_codec": ["base64", "base_64"],
"uu_codec": ["uu"],
"quopri_codec": ["quopri", "quoted_printable", "quotedprintable"],
"hex_codec": ["hex"],
"rot_13": ["rot13"],
}
try:
import zlib
except ImportError:
zlib = None
else:
bytes_transform_encodings.append("zlib_codec")
transform_aliases["zlib_codec"] = ["zip", "zlib"]
try:
import bz2
except ImportError:
pass
else:
bytes_transform_encodings.append("bz2_codec")
transform_aliases["bz2_codec"] = ["bz2"]
class TransformCodecTest(unittest.TestCase):
def test_basics(self):
binput = bytes(range(256))
for encoding in bytes_transform_encodings:
with self.subTest(encoding=encoding):
# generic codecs interface
(o, size) = codecs.getencoder(encoding)(binput)
self.assertEqual(size, len(binput))
(i, size) = codecs.getdecoder(encoding)(o)
self.assertEqual(size, len(o))
self.assertEqual(i, binput)
def test_read(self):
for encoding in bytes_transform_encodings:
with self.subTest(encoding=encoding):
sin = codecs.encode(b"\x80", encoding)
reader = codecs.getreader(encoding)(io.BytesIO(sin))
sout = reader.read()
self.assertEqual(sout, b"\x80")
def test_readline(self):
for encoding in bytes_transform_encodings:
with self.subTest(encoding=encoding):
sin = codecs.encode(b"\x80", encoding)
reader = codecs.getreader(encoding)(io.BytesIO(sin))
sout = reader.readline()
self.assertEqual(sout, b"\x80")
def test_buffer_api_usage(self):
# We check all the transform codecs accept memoryview input
# for encoding and decoding
# and also that they roundtrip correctly
original = b"12345\x80"
for encoding in bytes_transform_encodings:
with self.subTest(encoding=encoding):
data = original
view = memoryview(data)
data = codecs.encode(data, encoding)
view_encoded = codecs.encode(view, encoding)
self.assertEqual(view_encoded, data)
view = memoryview(data)
data = codecs.decode(data, encoding)
self.assertEqual(data, original)
view_decoded = codecs.decode(view, encoding)
self.assertEqual(view_decoded, data)
def test_text_to_binary_denylists_binary_transforms(self):
# Check binary -> binary codecs give a good error for str input
bad_input = "bad input type"
for encoding in bytes_transform_encodings:
with self.subTest(encoding=encoding):
fmt = (r"{!r} is not a text encoding; "
r"use codecs.encode\(\) to handle arbitrary codecs")
msg = fmt.format(encoding)
with self.assertRaisesRegex(LookupError, msg) as failure:
bad_input.encode(encoding)
self.assertIsNone(failure.exception.__cause__)
def test_text_to_binary_denylists_text_transforms(self):
# Check str.encode gives a good error message for str -> str codecs
msg = (r"^'rot_13' is not a text encoding; "
r"use codecs.encode\(\) to handle arbitrary codecs")
with self.assertRaisesRegex(LookupError, msg):
"just an example message".encode("rot_13")
def test_binary_to_text_denylists_binary_transforms(self):
# Check bytes.decode and bytearray.decode give a good error
# message for binary -> binary codecs
data = b"encode first to ensure we meet any format restrictions"
for encoding in bytes_transform_encodings:
with self.subTest(encoding=encoding):
encoded_data = codecs.encode(data, encoding)
fmt = (r"{!r} is not a text encoding; "
r"use codecs.decode\(\) to handle arbitrary codecs")
msg = fmt.format(encoding)
with self.assertRaisesRegex(LookupError, msg):
encoded_data.decode(encoding)
with self.assertRaisesRegex(LookupError, msg):
bytearray(encoded_data).decode(encoding)
def test_binary_to_text_denylists_text_transforms(self):
# Check str -> str codec gives a good error for binary input
for bad_input in (b"immutable", bytearray(b"mutable")):
with self.subTest(bad_input=bad_input):
msg = (r"^'rot_13' is not a text encoding; "
r"use codecs.decode\(\) to handle arbitrary codecs")
with self.assertRaisesRegex(LookupError, msg) as failure:
bad_input.decode("rot_13")
self.assertIsNone(failure.exception.__cause__)
@unittest.skipUnless(zlib, "Requires zlib support")
def test_custom_zlib_error_is_wrapped(self):
# Check zlib codec gives a good error for malformed input
msg = "^decoding with 'zlib_codec' codec failed"
with self.assertRaisesRegex(Exception, msg) as failure:
codecs.decode(b"hello", "zlib_codec")
self.assertIsInstance(failure.exception.__cause__,
type(failure.exception))
def test_custom_hex_error_is_wrapped(self):
# Check hex codec gives a good error for malformed input
msg = "^decoding with 'hex_codec' codec failed"
with self.assertRaisesRegex(Exception, msg) as failure:
codecs.decode(b"hello", "hex_codec")
self.assertIsInstance(failure.exception.__cause__,
type(failure.exception))
# Unfortunately, the bz2 module throws OSError, which the codec
# machinery currently can't wrap :(
# Ensure codec aliases from http://bugs.python.org/issue7475 work
def test_aliases(self):
for codec_name, aliases in transform_aliases.items():
expected_name = codecs.lookup(codec_name).name
for alias in aliases:
with self.subTest(alias=alias):
info = codecs.lookup(alias)
self.assertEqual(info.name, expected_name)
def test_quopri_stateless(self):
# Should encode with quotetabs=True
encoded = codecs.encode(b"space tab\teol \n", "quopri-codec")
self.assertEqual(encoded, b"space=20tab=09eol=20\n")
# But should still support unescaped tabs and spaces
unescaped = b"space tab eol\n"
self.assertEqual(codecs.decode(unescaped, "quopri-codec"), unescaped)
def test_uu_invalid(self):
# Missing "begin" line
self.assertRaises(ValueError, codecs.decode, b"", "uu-codec")
# The codec system tries to wrap exceptions in order to ensure the error
# mentions the operation being performed and the codec involved. We
# currently *only* want this to happen for relatively stateless
# exceptions, where the only significant information they contain is their
# type and a single str argument.
# Use a local codec registry to avoid appearing to leak objects when
# registering multiple search functions
_TEST_CODECS = {}
def _get_test_codec(codec_name):
return _TEST_CODECS.get(codec_name)
class ExceptionChainingTest(unittest.TestCase):
def setUp(self):
self.codec_name = 'exception_chaining_test'
codecs.register(_get_test_codec)
self.addCleanup(codecs.unregister, _get_test_codec)
# We store the object to raise on the instance because of a bad
# interaction between the codec caching (which means we can't
# recreate the codec entry) and regrtest refleak hunting (which
# runs the same test instance multiple times). This means we
# need to ensure the codecs call back in to the instance to find
# out which exception to raise rather than binding them in a
# closure to an object that may change on the next run
self.obj_to_raise = RuntimeError
def tearDown(self):
_TEST_CODECS.pop(self.codec_name, None)
# Issue #22166: Also pop from caches to avoid appearance of ref leaks
encodings._cache.pop(self.codec_name, None)
def set_codec(self, encode, decode):
codec_info = codecs.CodecInfo(encode, decode,
name=self.codec_name)
_TEST_CODECS[self.codec_name] = codec_info
@contextlib.contextmanager
def assertWrapped(self, operation, exc_type, msg):
full_msg = r"{} with {!r} codec failed \({}: {}\)".format(
operation, self.codec_name, exc_type.__name__, msg)
with self.assertRaisesRegex(exc_type, full_msg) as caught:
yield caught
self.assertIsInstance(caught.exception.__cause__, exc_type)
self.assertIsNotNone(caught.exception.__cause__.__traceback__)
def raise_obj(self, *args, **kwds):
# Helper to dynamically change the object raised by a test codec
raise self.obj_to_raise
def check_wrapped(self, obj_to_raise, msg, exc_type=RuntimeError):
self.obj_to_raise = obj_to_raise
self.set_codec(self.raise_obj, self.raise_obj)
with self.assertWrapped("encoding", exc_type, msg):
"str_input".encode(self.codec_name)
with self.assertWrapped("encoding", exc_type, msg):
codecs.encode("str_input", self.codec_name)
with self.assertWrapped("decoding", exc_type, msg):
b"bytes input".decode(self.codec_name)
with self.assertWrapped("decoding", exc_type, msg):
codecs.decode(b"bytes input", self.codec_name)
def test_raise_by_type(self):
self.check_wrapped(RuntimeError, "")
def test_raise_by_value(self):
msg = "This should be wrapped"
self.check_wrapped(RuntimeError(msg), msg)
def test_raise_grandchild_subclass_exact_size(self):
msg = "This should be wrapped"
class MyRuntimeError(RuntimeError):
__slots__ = ()
self.check_wrapped(MyRuntimeError(msg), msg, MyRuntimeError)
def test_raise_subclass_with_weakref_support(self):
msg = "This should be wrapped"
class MyRuntimeError(RuntimeError):
pass
self.check_wrapped(MyRuntimeError(msg), msg, MyRuntimeError)
def check_not_wrapped(self, obj_to_raise, msg):
def raise_obj(*args, **kwds):
raise obj_to_raise
self.set_codec(raise_obj, raise_obj)
with self.assertRaisesRegex(RuntimeError, msg):
"str input".encode(self.codec_name)
with self.assertRaisesRegex(RuntimeError, msg):
codecs.encode("str input", self.codec_name)
with self.assertRaisesRegex(RuntimeError, msg):
b"bytes input".decode(self.codec_name)
with self.assertRaisesRegex(RuntimeError, msg):
codecs.decode(b"bytes input", self.codec_name)
def test_init_override_is_not_wrapped(self):
class CustomInit(RuntimeError):
def __init__(self):
pass
self.check_not_wrapped(CustomInit, "")
def test_new_override_is_not_wrapped(self):
class CustomNew(RuntimeError):
def __new__(cls):
return super().__new__(cls)
self.check_not_wrapped(CustomNew, "")
def test_instance_attribute_is_not_wrapped(self):
msg = "This should NOT be wrapped"
exc = RuntimeError(msg)
exc.attr = 1
self.check_not_wrapped(exc, "^{}$".format(msg))
def test_non_str_arg_is_not_wrapped(self):
self.check_not_wrapped(RuntimeError(1), "1")
def test_multiple_args_is_not_wrapped(self):
msg_re = r"^\('a', 'b', 'c'\)$"
self.check_not_wrapped(RuntimeError('a', 'b', 'c'), msg_re)
# http://bugs.python.org/issue19609
def test_codec_lookup_failure_not_wrapped(self):
msg = "^unknown encoding: {}$".format(self.codec_name)
# The initial codec lookup should not be wrapped
with self.assertRaisesRegex(LookupError, msg):
"str input".encode(self.codec_name)
with self.assertRaisesRegex(LookupError, msg):
codecs.encode("str input", self.codec_name)
with self.assertRaisesRegex(LookupError, msg):
b"bytes input".decode(self.codec_name)
with self.assertRaisesRegex(LookupError, msg):
codecs.decode(b"bytes input", self.codec_name)
def test_unflagged_non_text_codec_handling(self):
# The stdlib non-text codecs are now marked so they're
# pre-emptively skipped by the text model related methods
# However, third party codecs won't be flagged, so we still make
# sure the case where an inappropriate output type is produced is
# handled appropriately
def encode_to_str(*args, **kwds):
return "not bytes!", 0
def decode_to_bytes(*args, **kwds):
return b"not str!", 0
self.set_codec(encode_to_str, decode_to_bytes)
# No input or output type checks on the codecs module functions
encoded = codecs.encode(None, self.codec_name)
self.assertEqual(encoded, "not bytes!")
decoded = codecs.decode(None, self.codec_name)
self.assertEqual(decoded, b"not str!")
# Text model methods should complain
fmt = (r"^{!r} encoder returned 'str' instead of 'bytes'; "
r"use codecs.encode\(\) to encode to arbitrary types$")
msg = fmt.format(self.codec_name)
with self.assertRaisesRegex(TypeError, msg):
"str_input".encode(self.codec_name)
fmt = (r"^{!r} decoder returned 'bytes' instead of 'str'; "
r"use codecs.decode\(\) to decode to arbitrary types$")
msg = fmt.format(self.codec_name)
with self.assertRaisesRegex(TypeError, msg):
b"bytes input".decode(self.codec_name)
@unittest.skipUnless(sys.platform == 'win32',
'code pages are specific to Windows')
class CodePageTest(unittest.TestCase):
CP_UTF8 = 65001
def test_invalid_code_page(self):
self.assertRaises(ValueError, codecs.code_page_encode, -1, 'a')
self.assertRaises(ValueError, codecs.code_page_decode, -1, b'a')
self.assertRaises(OSError, codecs.code_page_encode, 123, 'a')
self.assertRaises(OSError, codecs.code_page_decode, 123, b'a')
def test_code_page_name(self):
self.assertRaisesRegex(UnicodeEncodeError, 'cp932',
codecs.code_page_encode, 932, '\xff')
self.assertRaisesRegex(UnicodeDecodeError, 'cp932',
codecs.code_page_decode, 932, b'\x81\x00', 'strict', True)
self.assertRaisesRegex(UnicodeDecodeError, 'CP_UTF8',
codecs.code_page_decode, self.CP_UTF8, b'\xff', 'strict', True)
def check_decode(self, cp, tests):
for raw, errors, expected in tests:
if expected is not None:
try:
decoded = codecs.code_page_decode(cp, raw, errors, True)
except UnicodeDecodeError as err:
self.fail('Unable to decode %a from "cp%s" with '
'errors=%r: %s' % (raw, cp, errors, err))
self.assertEqual(decoded[0], expected,
'%a.decode("cp%s", %r)=%a != %a'
% (raw, cp, errors, decoded[0], expected))
# assert 0 <= decoded[1] <= len(raw)
self.assertGreaterEqual(decoded[1], 0)
self.assertLessEqual(decoded[1], len(raw))
else:
self.assertRaises(UnicodeDecodeError,
codecs.code_page_decode, cp, raw, errors, True)
def check_encode(self, cp, tests):
for text, errors, expected in tests:
if expected is not None:
try:
encoded = codecs.code_page_encode(cp, text, errors)
except UnicodeEncodeError as err:
self.fail('Unable to encode %a to "cp%s" with '
'errors=%r: %s' % (text, cp, errors, err))
self.assertEqual(encoded[0], expected,
'%a.encode("cp%s", %r)=%a != %a'
% (text, cp, errors, encoded[0], expected))
self.assertEqual(encoded[1], len(text))
else:
self.assertRaises(UnicodeEncodeError,
codecs.code_page_encode, cp, text, errors)
def test_cp932(self):
self.check_encode(932, (
('abc', 'strict', b'abc'),
('\uff44\u9a3e', 'strict', b'\x82\x84\xe9\x80'),
# test error handlers
('\xff', 'strict', None),
('[\xff]', 'ignore', b'[]'),
('[\xff]', 'replace', b'[y]'),
('[\u20ac]', 'replace', b'[?]'),
('[\xff]', 'backslashreplace', b'[\\xff]'),
('[\xff]', 'namereplace',
b'[\\N{LATIN SMALL LETTER Y WITH DIAERESIS}]'),
('[\xff]', 'xmlcharrefreplace', b'[&#255;]'),
('\udcff', 'strict', None),
('[\udcff]', 'surrogateescape', b'[\xff]'),
('[\udcff]', 'surrogatepass', None),
))
self.check_decode(932, (
(b'abc', 'strict', 'abc'),
(b'\x82\x84\xe9\x80', 'strict', '\uff44\u9a3e'),
# invalid bytes
(b'[\xff]', 'strict', None),
(b'[\xff]', 'ignore', '[]'),
(b'[\xff]', 'replace', '[\ufffd]'),
(b'[\xff]', 'backslashreplace', '[\\xff]'),
(b'[\xff]', 'surrogateescape', '[\udcff]'),
(b'[\xff]', 'surrogatepass', None),
(b'\x81\x00abc', 'strict', None),
(b'\x81\x00abc', 'ignore', '\x00abc'),
(b'\x81\x00abc', 'replace', '\ufffd\x00abc'),
(b'\x81\x00abc', 'backslashreplace', '\\x81\x00abc'),
))
def test_cp1252(self):
self.check_encode(1252, (
('abc', 'strict', b'abc'),
('\xe9\u20ac', 'strict', b'\xe9\x80'),
('\xff', 'strict', b'\xff'),
# test error handlers
('\u0141', 'strict', None),
('\u0141', 'ignore', b''),
('\u0141', 'replace', b'L'),
('\udc98', 'surrogateescape', b'\x98'),
('\udc98', 'surrogatepass', None),
))
self.check_decode(1252, (
(b'abc', 'strict', 'abc'),
(b'\xe9\x80', 'strict', '\xe9\u20ac'),
(b'\xff', 'strict', '\xff'),
))
def test_cp_utf7(self):
cp = 65000
self.check_encode(cp, (
('abc', 'strict', b'abc'),
('\xe9\u20ac', 'strict', b'+AOkgrA-'),
('\U0010ffff', 'strict', b'+2//f/w-'),
('\udc80', 'strict', b'+3IA-'),
('\ufffd', 'strict', b'+//0-'),
))
self.check_decode(cp, (
(b'abc', 'strict', 'abc'),
(b'+AOkgrA-', 'strict', '\xe9\u20ac'),
(b'+2//f/w-', 'strict', '\U0010ffff'),
(b'+3IA-', 'strict', '\udc80'),
(b'+//0-', 'strict', '\ufffd'),
# invalid bytes
(b'[+/]', 'strict', '[]'),
(b'[\xff]', 'strict', '[\xff]'),
))
def test_multibyte_encoding(self):
self.check_decode(932, (
(b'\x84\xe9\x80', 'ignore', '\u9a3e'),
(b'\x84\xe9\x80', 'replace', '\ufffd\u9a3e'),
))
self.check_decode(self.CP_UTF8, (
(b'\xff\xf4\x8f\xbf\xbf', 'ignore', '\U0010ffff'),
(b'\xff\xf4\x8f\xbf\xbf', 'replace', '\ufffd\U0010ffff'),
))
self.check_encode(self.CP_UTF8, (
('[\U0010ffff\uDC80]', 'ignore', b'[\xf4\x8f\xbf\xbf]'),
('[\U0010ffff\uDC80]', 'replace', b'[\xf4\x8f\xbf\xbf?]'),
))
def test_code_page_decode_flags(self):
# Issue #36312: For some code pages (e.g. UTF-7) flags for
# MultiByteToWideChar() must be set to 0.
if support.verbose:
sys.stdout.write('\n')
for cp in (50220, 50221, 50222, 50225, 50227, 50229,
*range(57002, 57011+1), 65000):
# On small versions of Windows like Windows IoT
# not all codepages are present.
# A missing codepage causes an OSError exception
# so check for the codepage before decoding
if is_code_page_present(cp):
self.assertEqual(codecs.code_page_decode(cp, b'abc'), ('abc', 3), f'cp{cp}')
else:
if support.verbose:
print(f" skipping cp={cp}")
self.assertEqual(codecs.code_page_decode(42, b'abc'),
('\uf061\uf062\uf063', 3))
def test_incremental(self):
decoded = codecs.code_page_decode(932, b'\x82', 'strict', False)
self.assertEqual(decoded, ('', 0))
decoded = codecs.code_page_decode(932,
b'\xe9\x80\xe9', 'strict',
False)
self.assertEqual(decoded, ('\u9a3e', 2))
decoded = codecs.code_page_decode(932,
b'\xe9\x80\xe9\x80', 'strict',
False)
self.assertEqual(decoded, ('\u9a3e\u9a3e', 4))
decoded = codecs.code_page_decode(932,
b'abc', 'strict',
False)
self.assertEqual(decoded, ('abc', 3))
def test_mbcs_alias(self):
# Check that looking up our 'default' codepage will return
# mbcs when we don't have a more specific one available
with mock.patch('_winapi.GetACP', return_value=123):
codec = codecs.lookup('cp123')
self.assertEqual(codec.name, 'mbcs')
@support.bigmemtest(size=2**31, memuse=7, dry_run=False)
def test_large_input(self, size):
# Test input longer than INT_MAX.
# Input should contain undecodable bytes before and after
# the INT_MAX limit.
encoded = (b'01234567' * ((size//8)-1) +
b'\x85\x86\xea\xeb\xec\xef\xfc\xfd\xfe\xff')
self.assertEqual(len(encoded), size+2)
decoded = codecs.code_page_decode(932, encoded, 'surrogateescape', True)
self.assertEqual(decoded[1], len(encoded))
del encoded
self.assertEqual(len(decoded[0]), decoded[1])
self.assertEqual(decoded[0][:10], '0123456701')
self.assertEqual(decoded[0][-20:],
'6701234567'
'\udc85\udc86\udcea\udceb\udcec'
'\udcef\udcfc\udcfd\udcfe\udcff')
@support.bigmemtest(size=2**31, memuse=6, dry_run=False)
def test_large_utf8_input(self, size):
# Test input longer than INT_MAX.
# Input should contain a decodable multi-byte character
# surrounding INT_MAX
encoded = (b'0123456\xed\x84\x80' * (size//8))
self.assertEqual(len(encoded), size // 8 * 10)
decoded = codecs.code_page_decode(65001, encoded, 'ignore', True)
self.assertEqual(decoded[1], len(encoded))
del encoded
self.assertEqual(len(decoded[0]), size)
self.assertEqual(decoded[0][:10], '0123456\ud10001')
self.assertEqual(decoded[0][-11:], '56\ud1000123456\ud100')
class ASCIITest(unittest.TestCase):
def test_encode(self):
self.assertEqual('abc123'.encode('ascii'), b'abc123')
def test_encode_error(self):
for data, error_handler, expected in (
('[\x80\xff\u20ac]', 'ignore', b'[]'),
('[\x80\xff\u20ac]', 'replace', b'[???]'),
('[\x80\xff\u20ac]', 'xmlcharrefreplace', b'[&#128;&#255;&#8364;]'),
('[\x80\xff\u20ac\U000abcde]', 'backslashreplace',
b'[\\x80\\xff\\u20ac\\U000abcde]'),
('[\udc80\udcff]', 'surrogateescape', b'[\x80\xff]'),
):
with self.subTest(data=data, error_handler=error_handler,
expected=expected):
self.assertEqual(data.encode('ascii', error_handler),
expected)
def test_encode_surrogateescape_error(self):
with self.assertRaises(UnicodeEncodeError):
# the first character can be decoded, but not the second
'\udc80\xff'.encode('ascii', 'surrogateescape')
def test_decode(self):
self.assertEqual(b'abc'.decode('ascii'), 'abc')
def test_decode_error(self):
for data, error_handler, expected in (
(b'[\x80\xff]', 'ignore', '[]'),
(b'[\x80\xff]', 'replace', '[\ufffd\ufffd]'),
(b'[\x80\xff]', 'surrogateescape', '[\udc80\udcff]'),
(b'[\x80\xff]', 'backslashreplace', '[\\x80\\xff]'),
):
with self.subTest(data=data, error_handler=error_handler,
expected=expected):
self.assertEqual(data.decode('ascii', error_handler),
expected)
class Latin1Test(unittest.TestCase):
def test_encode(self):
for data, expected in (
('abc', b'abc'),
('\x80\xe9\xff', b'\x80\xe9\xff'),
):
with self.subTest(data=data, expected=expected):
self.assertEqual(data.encode('latin1'), expected)
def test_encode_errors(self):
for data, error_handler, expected in (
('[\u20ac\udc80]', 'ignore', b'[]'),
('[\u20ac\udc80]', 'replace', b'[??]'),
('[\u20ac\U000abcde]', 'backslashreplace',
b'[\\u20ac\\U000abcde]'),
('[\u20ac\udc80]', 'xmlcharrefreplace', b'[&#8364;&#56448;]'),
('[\udc80\udcff]', 'surrogateescape', b'[\x80\xff]'),
):
with self.subTest(data=data, error_handler=error_handler,
expected=expected):
self.assertEqual(data.encode('latin1', error_handler),
expected)
def test_encode_surrogateescape_error(self):
with self.assertRaises(UnicodeEncodeError):
# the first character can be decoded, but not the second
'\udc80\u20ac'.encode('latin1', 'surrogateescape')
def test_decode(self):
for data, expected in (
(b'abc', 'abc'),
(b'[\x80\xff]', '[\x80\xff]'),
):
with self.subTest(data=data, expected=expected):
self.assertEqual(data.decode('latin1'), expected)
class StreamRecoderTest(unittest.TestCase):
def test_writelines(self):
bio = io.BytesIO()
codec = codecs.lookup('ascii')
sr = codecs.StreamRecoder(bio, codec.encode, codec.decode,
encodings.ascii.StreamReader, encodings.ascii.StreamWriter)
sr.writelines([b'a', b'b'])
self.assertEqual(bio.getvalue(), b'ab')
def test_write(self):
bio = io.BytesIO()
codec = codecs.lookup('latin1')
# Recode from Latin-1 to utf-8.
sr = codecs.StreamRecoder(bio, codec.encode, codec.decode,
encodings.utf_8.StreamReader, encodings.utf_8.StreamWriter)
text = 'àñé'
sr.write(text.encode('latin1'))
self.assertEqual(bio.getvalue(), text.encode('utf-8'))
def test_seeking_read(self):
bio = io.BytesIO('line1\nline2\nline3\n'.encode('utf-16-le'))
sr = codecs.EncodedFile(bio, 'utf-8', 'utf-16-le')
self.assertEqual(sr.readline(), b'line1\n')
sr.seek(0)
self.assertEqual(sr.readline(), b'line1\n')
self.assertEqual(sr.readline(), b'line2\n')
self.assertEqual(sr.readline(), b'line3\n')
self.assertEqual(sr.readline(), b'')
def test_seeking_write(self):
bio = io.BytesIO('123456789\n'.encode('utf-16-le'))
sr = codecs.EncodedFile(bio, 'utf-8', 'utf-16-le')
# Test that seek() only resets its internal buffer when offset
# and whence are zero.
sr.seek(2)
sr.write(b'\nabc\n')
self.assertEqual(sr.readline(), b'789\n')
sr.seek(0)
self.assertEqual(sr.readline(), b'1\n')
self.assertEqual(sr.readline(), b'abc\n')
self.assertEqual(sr.readline(), b'789\n')
@unittest.skipIf(_testcapi is None, 'need _testcapi module')
class LocaleCodecTest(unittest.TestCase):
"""
Test indirectly _Py_DecodeUTF8Ex() and _Py_EncodeUTF8Ex().
"""
ENCODING = sys.getfilesystemencoding()
STRINGS = ("ascii", "ulatin1:\xa7\xe9",
"u255:\xff",
"UCS:\xe9\u20ac\U0010ffff",
"surrogates:\uDC80\uDCFF")
BYTES_STRINGS = (b"blatin1:\xa7\xe9", b"b255:\xff")
SURROGATES = "\uDC80\uDCFF"
def encode(self, text, errors="strict"):
return _testcapi.EncodeLocaleEx(text, 0, errors)
def check_encode_strings(self, errors):
for text in self.STRINGS:
with self.subTest(text=text):
try:
expected = text.encode(self.ENCODING, errors)
except UnicodeEncodeError:
with self.assertRaises(RuntimeError) as cm:
self.encode(text, errors)
errmsg = str(cm.exception)
self.assertRegex(errmsg, r"encode error: pos=[0-9]+, reason=")
else:
encoded = self.encode(text, errors)
self.assertEqual(encoded, expected)
def test_encode_strict(self):
self.check_encode_strings("strict")
def test_encode_surrogateescape(self):
self.check_encode_strings("surrogateescape")
def test_encode_surrogatepass(self):
try:
self.encode('', 'surrogatepass')
except ValueError as exc:
if str(exc) == 'unsupported error handler':
self.skipTest(f"{self.ENCODING!r} encoder doesn't support "
f"surrogatepass error handler")
else:
raise
self.check_encode_strings("surrogatepass")
def test_encode_unsupported_error_handler(self):
with self.assertRaises(ValueError) as cm:
self.encode('', 'backslashreplace')
self.assertEqual(str(cm.exception), 'unsupported error handler')
def decode(self, encoded, errors="strict"):
return _testcapi.DecodeLocaleEx(encoded, 0, errors)
def check_decode_strings(self, errors):
is_utf8 = (self.ENCODING == "utf-8")
if is_utf8:
encode_errors = 'surrogateescape'
else:
encode_errors = 'strict'
strings = list(self.BYTES_STRINGS)
for text in self.STRINGS:
try:
encoded = text.encode(self.ENCODING, encode_errors)
if encoded not in strings:
strings.append(encoded)
except UnicodeEncodeError:
encoded = None
if is_utf8:
encoded2 = text.encode(self.ENCODING, 'surrogatepass')
if encoded2 != encoded:
strings.append(encoded2)
for encoded in strings:
with self.subTest(encoded=encoded):
try:
expected = encoded.decode(self.ENCODING, errors)
except UnicodeDecodeError:
with self.assertRaises(RuntimeError) as cm:
self.decode(encoded, errors)
errmsg = str(cm.exception)
self.assertTrue(errmsg.startswith("decode error: "), errmsg)
else:
decoded = self.decode(encoded, errors)
self.assertEqual(decoded, expected)
def test_decode_strict(self):
self.check_decode_strings("strict")
def test_decode_surrogateescape(self):
self.check_decode_strings("surrogateescape")
def test_decode_surrogatepass(self):
try:
self.decode(b'', 'surrogatepass')
except ValueError as exc:
if str(exc) == 'unsupported error handler':
self.skipTest(f"{self.ENCODING!r} decoder doesn't support "
f"surrogatepass error handler")
else:
raise
self.check_decode_strings("surrogatepass")
def test_decode_unsupported_error_handler(self):
with self.assertRaises(ValueError) as cm:
self.decode(b'', 'backslashreplace')
self.assertEqual(str(cm.exception), 'unsupported error handler')
class Rot13Test(unittest.TestCase):
"""Test the educational ROT-13 codec."""
def test_encode(self):
ciphertext = codecs.encode("Caesar liked ciphers", 'rot-13')
self.assertEqual(ciphertext, 'Pnrfne yvxrq pvcuref')
def test_decode(self):
plaintext = codecs.decode('Rg gh, Oehgr?', 'rot-13')
self.assertEqual(plaintext, 'Et tu, Brute?')
def test_incremental_encode(self):
encoder = codecs.getincrementalencoder('rot-13')()
ciphertext = encoder.encode('ABBA nag Cheryl Baker')
self.assertEqual(ciphertext, 'NOON ant Purely Onxre')
def test_incremental_decode(self):
decoder = codecs.getincrementaldecoder('rot-13')()
plaintext = decoder.decode('terra Ares envy tha')
self.assertEqual(plaintext, 'green Nerf rail gun')
class Rot13UtilTest(unittest.TestCase):
"""Test the ROT-13 codec via rot13 function,
i.e. the user has done something like:
$ echo "Hello World" | python -m encodings.rot_13
"""
def test_rot13_func(self):
infile = io.StringIO('Gb or, be abg gb or, gung vf gur dhrfgvba')
outfile = io.StringIO()
encodings.rot_13.rot13(infile, outfile)
outfile.seek(0)
plain_text = outfile.read()
self.assertEqual(
plain_text,
'To be, or not to be, that is the question')
class CodecNameNormalizationTest(unittest.TestCase):
"""Test codec name normalization"""
def test_codecs_lookup(self):
FOUND = (1, 2, 3, 4)
NOT_FOUND = (None, None, None, None)
def search_function(encoding):
if encoding == "aaa_8":
return FOUND
else:
return NOT_FOUND
codecs.register(search_function)
self.addCleanup(codecs.unregister, search_function)
self.assertEqual(FOUND, codecs.lookup('aaa_8'))
self.assertEqual(FOUND, codecs.lookup('AAA-8'))
self.assertEqual(FOUND, codecs.lookup('AAA---8'))
self.assertEqual(FOUND, codecs.lookup('AAA 8'))
self.assertEqual(FOUND, codecs.lookup('aaa\xe9\u20ac-8'))
self.assertEqual(NOT_FOUND, codecs.lookup('AAA.8'))
self.assertEqual(NOT_FOUND, codecs.lookup('AAA...8'))
self.assertEqual(NOT_FOUND, codecs.lookup('BBB-8'))
self.assertEqual(NOT_FOUND, codecs.lookup('BBB.8'))
self.assertEqual(NOT_FOUND, codecs.lookup('a\xe9\u20ac-8'))
def test_encodings_normalize_encoding(self):
# encodings.normalize_encoding() ignores non-ASCII characters.
normalize = encodings.normalize_encoding
self.assertEqual(normalize('utf_8'), 'utf_8')
self.assertEqual(normalize('utf\xE9\u20AC\U0010ffff-8'), 'utf_8')
self.assertEqual(normalize('utf 8'), 'utf_8')
# encodings.normalize_encoding() doesn't convert
# characters to lower case.
self.assertEqual(normalize('UTF 8'), 'UTF_8')
self.assertEqual(normalize('utf.8'), 'utf.8')
self.assertEqual(normalize('utf...8'), 'utf...8')
if __name__ == "__main__":
unittest.main()
Reference in new issue View Git Blame Copy Permalink