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from mutagen._util import DictMixin, cdata, utf8, insert_bytes, delete_bytes
from tests import TestCase, add
import mmap
import random
class FDict(DictMixin):
uses_mmap = False
def __init__(self):
self.__d = {}
self.keys = self.__d.keys
def __getitem__(self, *args): return self.__d.__getitem__(*args)
def __setitem__(self, *args): return self.__d.__setitem__(*args)
def __delitem__(self, *args): return self.__d.__delitem__(*args)
class Tutf8(TestCase):
uses_mmap = False
def test_str(self):
value = utf8("1234")
self.failUnlessEqual(value, "1234")
self.failUnless(isinstance(value, str))
def test_bad_str(self):
value = utf8("\xab\xde")
# Two '?' symbols.
self.failUnlessEqual(value, "\xef\xbf\xbd\xef\xbf\xbd")
self.failUnless(isinstance(value, str))
def test_low_unicode(self):
value = utf8(u"1234")
self.failUnlessEqual(value, "1234")
self.failUnless(isinstance(value, str))
def test_high_unicode(self):
value = utf8(u"\u1234")
self.failUnlessEqual(value, '\xe1\x88\xb4')
self.failUnless(isinstance(value, str))
def test_invalid(self):
self.failUnlessRaises(TypeError, utf8, 1234)
add(Tutf8)
class TDictMixin(TestCase):
uses_mmap = False
def setUp(self):
self.fdict = FDict()
self.rdict = {}
self.fdict["foo"] = self.rdict["foo"] = "bar"
def test_getsetitem(self):
self.failUnlessEqual(self.fdict["foo"], "bar")
self.failUnlessRaises(KeyError, self.fdict.__getitem__, "bar")
def test_has_key_contains(self):
self.failUnless("foo" in self.fdict)
self.failIf("bar" in self.fdict)
self.failUnless(self.fdict.has_key("foo"))
self.failIf(self.fdict.has_key("bar"))
def test_iter(self):
self.failUnlessEqual(list(iter(self.fdict)), ["foo"])
def test_clear(self):
self.fdict.clear()
self.rdict.clear()
self.failIf(self.fdict)
def test_keys(self):
self.failUnlessEqual(list(self.fdict.keys()), list(self.rdict.keys()))
self.failUnlessEqual(
list(self.fdict.iterkeys()), list(self.rdict.iterkeys()))
def test_values(self):
self.failUnlessEqual(
list(self.fdict.values()), list(self.rdict.values()))
self.failUnlessEqual(
list(self.fdict.itervalues()), list(self.rdict.itervalues()))
def test_items(self):
self.failUnlessEqual(
list(self.fdict.items()), list(self.rdict.items()))
self.failUnlessEqual(
list(self.fdict.iteritems()), list(self.rdict.iteritems()))
def test_pop(self):
self.failUnlessEqual(self.fdict.pop("foo"), self.rdict.pop("foo"))
self.failUnlessRaises(KeyError, self.fdict.pop, "woo")
def test_pop_bad(self):
self.failUnlessRaises(TypeError, self.fdict.pop, "foo", 1, 2)
def test_popitem(self):
self.failUnlessEqual(self.fdict.popitem(), self.rdict.popitem())
self.failUnlessRaises(KeyError, self.fdict.popitem)
def test_update_other(self):
other = {"a": 1, "b": 2}
self.fdict.update(other)
self.rdict.update(other)
def test_update_other_is_list(self):
other = [("a", 1), ("b", 2)]
self.fdict.update(other)
self.rdict.update(dict(other))
def test_update_kwargs(self):
self.fdict.update(a=1, b=2)
# Ironically, the *real* dict doesn't support this on Python 2.3
other = {"a": 1, "b": 2}
self.rdict.update(other)
def test_setdefault(self):
self.fdict.setdefault("foo", "baz")
self.rdict.setdefault("foo", "baz")
self.fdict.setdefault("bar", "baz")
self.rdict.setdefault("bar", "baz")
def test_get(self):
self.failUnlessEqual(self.rdict.get("a"), self.fdict.get("a"))
self.failUnlessEqual(
self.rdict.get("a", "b"), self.fdict.get("a", "b"))
self.failUnlessEqual(self.rdict.get("foo"), self.fdict.get("foo"))
def test_repr(self):
self.failUnlessEqual(repr(self.rdict), repr(self.fdict))
def test_len(self):
self.failUnlessEqual(len(self.rdict), len(self.fdict))
def tearDown(self):
self.failUnlessEqual(self.fdict, self.rdict)
self.failUnlessEqual(self.rdict, self.fdict)
add(TDictMixin)
class Tcdata(TestCase):
uses_mmap = False
ZERO = "\x00\x00\x00\x00"
LEONE = "\x01\x00\x00\x00"
BEONE = "\x00\x00\x00\x01"
NEGONE = "\xff\xff\xff\xff"
def test_int_le(self):
self.failUnlessEqual(cdata.int_le(self.ZERO), 0)
self.failUnlessEqual(cdata.int_le(self.LEONE), 1)
self.failUnlessEqual(cdata.int_le(self.BEONE), 16777216)
self.failUnlessEqual(cdata.int_le(self.NEGONE), -1)
def test_uint_le(self):
self.failUnlessEqual(cdata.uint_le(self.ZERO), 0)
self.failUnlessEqual(cdata.uint_le(self.LEONE), 1)
self.failUnlessEqual(cdata.uint_le(self.BEONE), 16777216)
self.failUnlessEqual(cdata.uint_le(self.NEGONE), 2**32-1)
def test_longlong_le(self):
self.failUnlessEqual(cdata.longlong_le(self.ZERO * 2), 0)
self.failUnlessEqual(cdata.longlong_le(self.LEONE + self.ZERO), 1)
self.failUnlessEqual(cdata.longlong_le(self.NEGONE * 2), -1)
def test_ulonglong_le(self):
self.failUnlessEqual(cdata.ulonglong_le(self.ZERO * 2), 0)
self.failUnlessEqual(cdata.ulonglong_le(self.LEONE + self.ZERO), 1)
self.failUnlessEqual(cdata.ulonglong_le(self.NEGONE * 2), 2**64-1)
def test_invalid_lengths(self):
self.failUnlessRaises(cdata.error, cdata.int_le, "")
self.failUnlessRaises(cdata.error, cdata.longlong_le, "")
self.failUnlessRaises(cdata.error, cdata.uint_le, "")
self.failUnlessRaises(cdata.error, cdata.ulonglong_le, "")
def test_test(self):
self.failUnless(cdata.test_bit((1), 0))
self.failIf(cdata.test_bit(1, 1))
self.failUnless(cdata.test_bit(2, 1))
self.failIf(cdata.test_bit(2, 0))
v = (1 << 12) + (1 << 5) + 1
self.failUnless(cdata.test_bit(v, 0))
self.failUnless(cdata.test_bit(v, 5))
self.failUnless(cdata.test_bit(v, 12))
self.failIf(cdata.test_bit(v, 3))
self.failIf(cdata.test_bit(v, 8))
self.failIf(cdata.test_bit(v, 13))
add(Tcdata)
class FileHandling(TestCase):
def file(self, contents):
import tempfile
temp = tempfile.TemporaryFile()
temp.write(contents)
temp.flush()
temp.seek(0)
return temp
def read(self, fobj):
fobj.seek(0, 0)
return fobj.read()
def test_insert_into_empty(self):
o = self.file('')
insert_bytes(o, 8, 0)
self.assertEquals('\x00' * 8, self.read(o))
def test_insert_before_one(self):
o = self.file('a')
insert_bytes(o, 8, 0)
self.assertEquals('a' + '\x00' * 7 + 'a', self.read(o))
def test_insert_after_one(self):
o = self.file('a')
insert_bytes(o, 8, 1)
self.assertEquals('a' + '\x00' * 8, self.read(o))
def test_smaller_than_file_middle(self):
o = self.file('abcdefghij')
insert_bytes(o, 4, 4)
self.assertEquals('abcdefghefghij', self.read(o))
def test_smaller_than_file_to_end(self):
o = self.file('abcdefghij')
insert_bytes(o, 4, 6)
self.assertEquals('abcdefghijghij', self.read(o))
def test_smaller_than_file_across_end(self):
o = self.file('abcdefghij')
insert_bytes(o, 4, 8)
self.assertEquals('abcdefghij\x00\x00ij', self.read(o))
def test_smaller_than_file_at_end(self):
o = self.file('abcdefghij')
insert_bytes(o, 3, 10)
self.assertEquals('abcdefghij\x00\x00\x00', self.read(o))
def test_smaller_than_file_at_beginning(self):
o = self.file('abcdefghij')
insert_bytes(o, 3, 0)
self.assertEquals('abcabcdefghij', self.read(o))
def test_zero(self):
o = self.file('abcdefghij')
self.assertRaises((AssertionError, ValueError), insert_bytes, o, 0, 1)
def test_negative(self):
o = self.file('abcdefghij')
self.assertRaises((AssertionError, ValueError), insert_bytes, o, 8, -1)
def test_delete_one(self):
o = self.file('a')
delete_bytes(o, 1, 0)
self.assertEquals('', self.read(o))
def test_delete_first_of_two(self):
o = self.file('ab')
delete_bytes(o, 1, 0)
self.assertEquals('b', self.read(o))
def test_delete_second_of_two(self):
o = self.file('ab')
delete_bytes(o, 1, 1)
self.assertEquals('a', self.read(o))
def test_delete_third_of_two(self):
o = self.file('ab')
self.assertRaises(AssertionError, delete_bytes, o, 1, 2)
def test_delete_middle(self):
o = self.file('abcdefg')
delete_bytes(o, 3, 2)
self.assertEquals('abfg', self.read(o))
def test_delete_across_end(self):
o = self.file('abcdefg')
self.assertRaises(AssertionError, delete_bytes, o, 4, 8)
def test_delete_zero(self):
o = self.file('abcdefg')
self.assertRaises(AssertionError, delete_bytes, o, 0, 3)
def test_delete_negative(self):
o = self.file('abcdefg')
self.assertRaises(AssertionError, delete_bytes, o, 4, -8)
def test_insert_6106_79_51760(self):
# This appears to be due to ANSI C limitations in read/write on rb+
# files. The problematic behavior only showed up in our mmap fallback
# code for transfers of this or similar sizes.
data = ''.join(map(str, range(12574))) # 51760 bytes
o = self.file(data)
insert_bytes(o, 6106, 79)
self.failUnless(data[:6106+79] + data[79:] == self.read(o))
def test_delete_6106_79_51760(self):
# This appears to be due to ANSI C limitations in read/write on rb+
# files. The problematic behavior only showed up in our mmap fallback
# code for transfers of this or similar sizes.
data = ''.join(map(str, range(12574))) # 51760 bytes
o = self.file(data[:6106+79] + data[79:])
delete_bytes(o, 6106, 79)
self.failUnless(data == self.read(o))
# Generate a bunch of random insertions, apply them, delete them,
# and make sure everything is still correct.
#
# The num_runs and num_changes values are tuned to take about 10s
# on my laptop, or about 30 seconds since we we have 3 variations
# on insert/delete_bytes brokenness. If I ever get a faster
# laptop, it's probably a good idea to increase them. :)
def test_many_changes(self, num_runs=5, num_changes=300,
min_change_size=500, max_change_size=1000,
min_buffer_size=1, max_buffer_size=2000):
self.failUnless(min_buffer_size < min_change_size and
max_buffer_size > max_change_size and
min_change_size < max_change_size and
min_buffer_size < max_buffer_size,
"Given testing parameters make this test useless")
for j in range(num_runs):
data = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" * 1024
fobj = self.file(data)
filesize = len(data)
# Generate the list of changes to apply
changes = []
for i in range(num_changes):
change_size = random.randrange(min_change_size, max_change_size)
change_offset = random.randrange(0, filesize)
filesize += change_size
changes.append((change_offset, change_size))
# Apply the changes, and make sure they all took.
for offset, size in changes:
buffer_size = random.randrange(min_buffer_size, max_buffer_size)
insert_bytes(fobj, size, offset, BUFFER_SIZE=buffer_size)
fobj.seek(0)
self.failIfEqual(fobj.read(len(data)), data)
fobj.seek(0, 2)
self.failUnlessEqual(fobj.tell(), filesize)
# Then, undo them.
changes.reverse()
for offset, size in changes:
buffer_size = random.randrange(min_buffer_size, max_buffer_size)
delete_bytes(fobj, size, offset, BUFFER_SIZE=buffer_size)
fobj.seek(0)
self.failUnless(fobj.read() == data)
add(FileHandling)
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