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# Copyright (C) 2003 Python Software Foundation
import unittest
import plistlib
import os
import datetime
from test import support
# This test data was generated through Cocoa's NSDictionary class
TESTDATA = b"""<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" \
"http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>aDate</key>
<date>2004-10-26T10:33:33Z</date>
<key>aDict</key>
<dict>
<key>aFalseValue</key>
<false/>
<key>aTrueValue</key>
<true/>
<key>aUnicodeValue</key>
<string>M\xc3\xa4ssig, Ma\xc3\x9f</string>
<key>anotherString</key>
<string><hello & 'hi' there!></string>
<key>deeperDict</key>
<dict>
<key>a</key>
<integer>17</integer>
<key>b</key>
<real>32.5</real>
<key>c</key>
<array>
<integer>1</integer>
<integer>2</integer>
<string>text</string>
</array>
</dict>
</dict>
<key>aFloat</key>
<real>0.5</real>
<key>aList</key>
<array>
<string>A</string>
<string>B</string>
<integer>12</integer>
<real>32.5</real>
<array>
<integer>1</integer>
<integer>2</integer>
<integer>3</integer>
</array>
</array>
<key>aString</key>
<string>Doodah</string>
<key>anInt</key>
<integer>728</integer>
<key>nestedData</key>
<array>
<data>
PGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAzxsb3RzIG9mIGJpbmFyeSBndW5r
PgABAgM8bG90cyBvZiBiaW5hcnkgZ3Vuaz4AAQIDPGxvdHMgb2YgYmluYXJ5
IGd1bms+AAECAzxsb3RzIG9mIGJpbmFyeSBndW5rPgABAgM8bG90cyBvZiBi
aW5hcnkgZ3Vuaz4AAQIDPGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAzxsb3Rz
IG9mIGJpbmFyeSBndW5rPgABAgM8bG90cyBvZiBiaW5hcnkgZ3Vuaz4AAQID
PGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAw==
</data>
</array>
<key>someData</key>
<data>
PGJpbmFyeSBndW5rPg==
</data>
<key>someMoreData</key>
<data>
PGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAzxsb3RzIG9mIGJpbmFyeSBndW5rPgABAgM8
bG90cyBvZiBiaW5hcnkgZ3Vuaz4AAQIDPGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAzxs
b3RzIG9mIGJpbmFyeSBndW5rPgABAgM8bG90cyBvZiBiaW5hcnkgZ3Vuaz4AAQIDPGxv
dHMgb2YgYmluYXJ5IGd1bms+AAECAzxsb3RzIG9mIGJpbmFyeSBndW5rPgABAgM8bG90
cyBvZiBiaW5hcnkgZ3Vuaz4AAQIDPGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAw==
</data>
<key>\xc3\x85benraa</key>
<string>That was a unicode key.</string>
</dict>
</plist>
""".replace(b" " * 8, b"\t") # Apple as well as plistlib.py output hard tabs
class TestPlistlib(unittest.TestCase):
def tearDown(self):
try:
os.unlink(support.TESTFN)
except:
pass
def _create(self):
pl = dict(
aString="Doodah",
aList=["A", "B", 12, 32.5, [1, 2, 3]],
aFloat = 0.5,
anInt = 728,
aDict=dict(
anotherString="<hello & 'hi' there!>",
aUnicodeValue='M\xe4ssig, Ma\xdf',
aTrueValue=True,
aFalseValue=False,
deeperDict=dict(a=17, b=32.5, c=[1, 2, "text"]),
),
someData = plistlib.Data(b"<binary gunk>"),
someMoreData = plistlib.Data(b"<lots of binary gunk>\0\1\2\3" * 10),
nestedData = [plistlib.Data(b"<lots of binary gunk>\0\1\2\3" * 10)],
aDate = datetime.datetime(2004, 10, 26, 10, 33, 33),
)
pl['\xc5benraa'] = "That was a unicode key."
return pl
def test_create(self):
pl = self._create()
self.assertEqual(pl["aString"], "Doodah")
self.assertEqual(pl["aDict"]["aFalseValue"], False)
def test_io(self):
pl = self._create()
plistlib.writePlist(pl, support.TESTFN)
pl2 = plistlib.readPlist(support.TESTFN)
self.assertEqual(dict(pl), dict(pl2))
def test_bytes(self):
pl = self._create()
data = plistlib.writePlistToBytes(pl)
pl2 = plistlib.readPlistFromBytes(data)
self.assertEqual(dict(pl), dict(pl2))
data2 = plistlib.writePlistToBytes(pl2)
self.assertEqual(data, data2)
def test_appleformatting(self):
pl = plistlib.readPlistFromBytes(TESTDATA)
data = plistlib.writePlistToBytes(pl)
self.assertEqual(data, TESTDATA,
"generated data was not identical to Apple's output")
def test_appleformattingfromliteral(self):
pl = self._create()
pl2 = plistlib.readPlistFromBytes(TESTDATA)
self.assertEqual(dict(pl), dict(pl2),
"generated data was not identical to Apple's output")
def test_bytesio(self):
from io import BytesIO
b = BytesIO()
pl = self._create()
plistlib.writePlist(pl, b)
pl2 = plistlib.readPlist(BytesIO(b.getvalue()))
self.assertEqual(dict(pl), dict(pl2))
def test_controlcharacters(self):
for i in range(128):
c = chr(i)
testString = "string containing %s" % c
if i >= 32 or c in "\r\n\t":
# \r, \n and \t are the only legal control chars in XML
plistlib.writePlistToBytes(testString)
else:
self.assertRaises(ValueError,
plistlib.writePlistToBytes,
testString)
def test_nondictroot(self):
test1 = "abc"
test2 = [1, 2, 3, "abc"]
result1 = plistlib.readPlistFromBytes(plistlib.writePlistToBytes(test1))
result2 = plistlib.readPlistFromBytes(plistlib.writePlistToBytes(test2))
self.assertEqual(test1, result1)
self.assertEqual(test2, result2)
def test_invalidarray(self):
for i in ["<key>key inside an array</key>",
"<key>key inside an array2</key><real>3</real>",
"<true/><key>key inside an array3</key>"]:
self.assertRaises(ValueError, plistlib.readPlistFromBytes,
("<plist><array>%s</array></plist>"%i).encode())
def test_invaliddict(self):
for i in ["<key><true/>k</key><string>compound key</string>",
"<key>single key</key>",
"<string>missing key</string>",
"<key>k1</key><string>v1</string><real>5.3</real>"
"<key>k1</key><key>k2</key><string>double key</string>"]:
self.assertRaises(ValueError, plistlib.readPlistFromBytes,
("<plist><dict>%s</dict></plist>"%i).encode())
self.assertRaises(ValueError, plistlib.readPlistFromBytes,
("<plist><array><dict>%s</dict></array></plist>"%i).encode())
def test_invalidinteger(self):
self.assertRaises(ValueError, plistlib.readPlistFromBytes,
b"<plist><integer>not integer</integer></plist>")
def test_invalidreal(self):
self.assertRaises(ValueError, plistlib.readPlistFromBytes,
b"<plist><integer>not real</integer></plist>")
def test_main():
support.run_unittest(TestPlistlib)
if __name__ == '__main__':
test_main()
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