2012-05-21 15:12:37 +04:00
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# This Source Code Form is subject to the terms of the Mozilla Public
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# License, v. 2.0. If a copy of the MPL was not distributed with this
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# file, You can obtain one at http://mozilla.org/MPL/2.0/.
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2008-09-19 20:19:52 +04:00
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import unittest
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import shutil
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import os
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import re
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import sys
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import random
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import copy
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from string import letters
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'''
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Test case infrastructure for MozZipFile.
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This isn't really a unit test, but a test case generator and runner.
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For a given set of files, lengths, and number of writes, we create
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a testcase for every combination of the three. There are some
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symmetries used to reduce the number of test cases, the first file
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written is always the first file, the second is either the first or
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the second, the third is one of the first three. That is, if we
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had 4 files, but only three writes, the fourth file would never even
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get tried.
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The content written to the jars is pseudorandom with a fixed seed.
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'''
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if not __file__:
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__file__ = sys.argv[0]
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sys.path.append(os.path.join(os.path.dirname(__file__), '..'))
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from MozZipFile import ZipFile
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import zipfile
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leafs = (
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'firstdir/oneleaf',
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'seconddir/twoleaf',
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'thirddir/with/sub/threeleaf')
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_lengths = map(lambda n: n * 64, [16, 64, 80])
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lengths = 3
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writes = 5
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def givenlength(i):
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'''Return a length given in the _lengths array to allow manual
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tuning of which lengths of zip entries to use.
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'''
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return _lengths[i]
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def prod(*iterables):
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''''Tensor product of a list of iterables.
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This generator returns lists of items, one of each given
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iterable. It iterates over all possible combinations.
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'''
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for item in iterables[0]:
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if len(iterables) == 1:
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yield [item]
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else:
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for others in prod(*iterables[1:]):
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yield [item] + others
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def getid(descs):
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'Convert a list of ints to a string.'
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return reduce(lambda x,y: x+'%d%d'%tuple(y), descs,'')
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def getContent(length):
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'Get pseudo random content of given length.'
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rv = [None] * length
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for i in xrange(length):
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rv[i] = random.choice(letters)
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return ''.join(rv)
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def createWriter(sizer, *items):
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'Helper method to fill in tests, one set of writes, one for each item'
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locitems = copy.deepcopy(items)
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for item in locitems:
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item['length'] = sizer(item.pop('length', 0))
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def helper(self):
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mode = 'w'
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if os.path.isfile(self.f):
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mode = 'a'
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zf = ZipFile(self.f, mode, self.compression)
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for item in locitems:
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self._write(zf, **item)
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zf = None
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pass
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return helper
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def createTester(name, *writes):
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'''Helper method to fill in tests, calls into a list of write
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helper methods.
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'''
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_writes = copy.copy(writes)
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def tester(self):
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for w in _writes:
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getattr(self, w)()
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self._verifyZip()
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pass
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# unit tests get confused if the method name isn't test...
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tester.__name__ = name
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return tester
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class TestExtensiveStored(unittest.TestCase):
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'''Unit tests for MozZipFile
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The testcase are actually populated by code following the class
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definition.
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'''
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stage = "mozzipfilestage"
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compression = zipfile.ZIP_STORED
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def leaf(self, *leafs):
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return os.path.join(self.stage, *leafs)
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def setUp(self):
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if os.path.exists(self.stage):
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shutil.rmtree(self.stage)
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os.mkdir(self.stage)
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self.f = self.leaf('test.jar')
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self.ref = {}
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self.seed = 0
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def tearDown(self):
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self.f = None
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self.ref = None
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def _verifyZip(self):
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zf = zipfile.ZipFile(self.f)
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badEntry = zf.testzip()
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self.failIf(badEntry, badEntry)
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zlist = zf.namelist()
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zlist.sort()
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vlist = self.ref.keys()
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vlist.sort()
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self.assertEqual(zlist, vlist)
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for leaf, content in self.ref.iteritems():
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zcontent = zf.read(leaf)
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self.assertEqual(content, zcontent)
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def _write(self, zf, seed=None, leaf=0, length=0):
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if seed is None:
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seed = self.seed
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self.seed += 1
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random.seed(seed)
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leaf = leafs[leaf]
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content = getContent(length)
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self.ref[leaf] = content
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zf.writestr(leaf, content)
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dir = os.path.dirname(self.leaf('stage', leaf))
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if not os.path.isdir(dir):
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os.makedirs(dir)
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open(self.leaf('stage', leaf), 'w').write(content)
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# all leafs in all lengths
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atomics = list(prod(xrange(len(leafs)), xrange(lengths)))
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# populate TestExtensiveStore with testcases
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for w in xrange(writes):
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# Don't iterate over all files for the the first n passes,
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# those are redundant as long as w < lengths.
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# There are symmetries in the trailing end, too, but I don't know
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# how to reduce those out right now.
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nonatomics = [list(prod(range(min(i,len(leafs))), xrange(lengths)))
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for i in xrange(1, w+1)] + [atomics]
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for descs in prod(*nonatomics):
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suffix = getid(descs)
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dicts = [dict(leaf=leaf, length=length) for leaf, length in descs]
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setattr(TestExtensiveStored, '_write' + suffix,
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createWriter(givenlength, *dicts))
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setattr(TestExtensiveStored, 'test' + suffix,
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createTester('test' + suffix, '_write' + suffix))
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# now create another round of tests, with two writing passes
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# first, write all file combinations into the jar, close it,
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# and then write all atomics again.
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# This should catch more or less all artifacts generated
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# by the final ordering step when closing the jar.
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files = [list(prod([i], xrange(lengths))) for i in xrange(len(leafs))]
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allfiles = reduce(lambda l,r:l+r,
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[list(prod(*files[:(i+1)])) for i in xrange(len(leafs))])
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for first in allfiles:
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testbasename = 'test%s_' % getid(first)
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test = [None, '_write' + getid(first), None]
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for second in atomics:
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test[0] = testbasename + getid([second])
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test[2] = '_write' + getid([second])
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setattr(TestExtensiveStored, test[0], createTester(*test))
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class TestExtensiveDeflated(TestExtensiveStored):
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'Test all that has been tested with ZIP_STORED with DEFLATED, too.'
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compression = zipfile.ZIP_DEFLATED
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if __name__ == '__main__':
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unittest.main()
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