def get_changes(self, filter_func=lambda x: True):
storage = MemcacheSlice(NAMESPACE)
storage_version = storage.get_index()
client_version = self.get_client_version()
if client_version != storage_version:
self.set_client_version(storage_version)
pass_two = []
if client_version < storage_version:
# Generate entries without duplicate add or update event
pass_one = []
updated_entries = set()
added_entries = set()
for entry in storage[client_version+1:storage_version+1]:
if not filter_func(entry):
continue
if entry['action'] != 'remove':
if entry['content'] in updated_entries:
continue
updated_entries.add(entry['content'])
if entry['action'] == 'add':
added_entries.add(entry['content'])
pass_one.append(entry)
# Remove add and update that have a delete event, and
# delete that have an add.
deleted_entries = set()
for entry in reversed(pass_one):
if entry['action'] != 'remove':
if entry['content'] in deleted_entries:
continue
else:
deleted_entries.add(entry['content'])
if entry['content'] in added_entries:
continue
pass_two.append(entry)
# Return result in the correct order
return reversed(pass_two)
class TestMemoryImplementation(unittest.TestCase):
def setUp(self):
self.cache = LRU(1000)
self.mutex = threading.Lock()
self.memslice = MemcacheSlice(
'test', client=MemcacheFakeClient(self.cache, self.mutex))
def test_empty(self):
self.assertEquals(-1, self.memslice.get_index())
self.assertEquals(0, len(self.memslice))
self.assertEquals([], self.memslice[:])
self.assertEquals([], self.memslice[0:1])
def test_simple_add(self):
self.memslice.push('first')
self.assertEquals(0, self.memslice.get_index())
self.assertEquals(['first'], self.memslice[:])
self.assertEquals(['first'], self.memslice[0:1])
self.assertEquals(['first'], self.memslice[:1])
def test_multiple_add(self):
self.memslice.push('first')
self.memslice.push('second')
self.memslice.push('third')
self.assertEquals(2, self.memslice.get_index())
self.assertEquals(3, len(self.memslice))
self.assertEquals(['first', 'second', 'third'], self.memslice[:])
self.assertEquals(['first', 'second', 'third'], self.memslice[0:3])
self.assertEquals(['second', 'third'], self.memslice[1:])
def test_threaded_add(self):
for run in range(0, 10):
value_count = 40
thread_count = 5
threads = []
cache = LRU((value_count + 1) * thread_count)
memslice = MemcacheSlice(
'test', client=MemcacheFakeClient(cache, self.mutex))
def async_add():
for i in range(0, value_count):
memslice.push(i)
for i in range(0, thread_count):
th = threading.Thread(target=async_add)
threads.append(th)
for thread in threads:
thread.start()
for thread in threads:
thread.join()
self.assertEquals(thread_count * value_count, len(memslice),
"run %d : %d/%d" % (
run + 1, len(memslice), thread_count * value_count))
def tpc_finish(self, transaction):
memcache = MemcacheSlice(NAMESPACE)
for entry in self._entries:
memcache.push(entry)
self.clear_entries()
def setUp(self):
self.cache = LRU(1000)
self.mutex = threading.Lock()
self.memslice = MemcacheSlice(
'test', client=MemcacheFakeClient(self.cache, self.mutex))
