164 lines
5.2 KiB
Python
164 lines
5.2 KiB
Python
"""
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src/randomtrackingdict.py
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=========================
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"""
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import random
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from threading import RLock
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from time import time
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import helper_random
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class RandomTrackingDict(object):
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"""
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Dict with randomised order and tracking.
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Keeps a track of how many items have been requested from the dict, and timeouts. Resets after all objects have been
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retrieved and timed out. The main purpose of this isn't as much putting related code together as performance
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optimisation and anonymisation of downloading of objects from other peers. If done using a standard dict or array,
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it takes too much CPU (and looks convoluted). Randomisation helps with anonymity.
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"""
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# pylint: disable=too-many-instance-attributes
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maxPending = 10
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pendingTimeout = 60
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def __init__(self):
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self.dictionary = {}
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self.indexDict = []
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self.len = 0
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self.pendingLen = 0
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self.lastPoll = 0
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self.lastObject = 0
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self.lock = RLock()
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def __len__(self):
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return self.len
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def __contains__(self, key):
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return key in self.dictionary
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def __getitem__(self, key):
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return self.dictionary[key][1]
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def _swap(self, i1, i2):
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with self.lock:
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key1 = self.indexDict[i1]
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key2 = self.indexDict[i2]
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self.indexDict[i1] = key2
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self.indexDict[i2] = key1
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self.dictionary[key1][0] = i2
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self.dictionary[key2][0] = i1
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# for quick reassignment
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return i2
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def __setitem__(self, key, value):
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with self.lock:
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if key in self.dictionary:
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self.dictionary[key][1] = value
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else:
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self.indexDict.append(key)
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self.dictionary[key] = [self.len, value]
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self._swap(self.len, self.len - self.pendingLen)
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self.len += 1
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def __delitem__(self, key):
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if key not in self.dictionary:
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raise KeyError
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with self.lock:
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index = self.dictionary[key][0]
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# not pending
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if index < self.len - self.pendingLen:
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# left of pending part
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index = self._swap(index, self.len - self.pendingLen - 1)
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# pending
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else:
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self.pendingLen -= 1
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# end
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self._swap(index, self.len - 1)
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# if the following del is batched, performance of this single
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# operation can improve 4x, but it's already very fast so we'll
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# ignore it for the time being
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del self.indexDict[-1]
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del self.dictionary[key]
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self.len -= 1
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def setMaxPending(self, maxPending):
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"""
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Sets maximum number of objects that can be retrieved from the class simultaneously as long as there is no
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timeout
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"""
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self.maxPending = maxPending
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def setPendingTimeout(self, pendingTimeout):
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"""Sets how long to wait for a timeout if max pending is reached (or all objects have been retrieved)"""
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self.pendingTimeout = pendingTimeout
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def setLastObject(self):
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"""Update timestamp for tracking of received objects"""
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self.lastObject = time()
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def randomKeys(self, count=1):
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"""Retrieve count random keys from the dict that haven't already been retrieved"""
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if self.len == 0 or ((self.pendingLen >= self.maxPending or
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self.pendingLen == self.len) and self.lastPoll +
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self.pendingTimeout > time()):
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raise KeyError
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# pylint: disable=redefined-outer-name
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with self.lock:
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# reset if we've requested all
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# or if last object received too long time ago
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if self.pendingLen == self.len or self.lastObject + self.pendingTimeout > time():
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self.pendingLen = 0
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available = self.len - self.pendingLen
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if count > available:
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count = available
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randomIndex = helper_random.randomsample(range(self.len - self.pendingLen), count)
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retval = [self.indexDict[i] for i in randomIndex]
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for i in sorted(randomIndex, reverse=True):
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# swap with one below lowest pending
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self._swap(i, self.len - self.pendingLen - 1)
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self.pendingLen += 1
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self.lastPoll = time()
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return retval
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if __name__ == '__main__':
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# pylint: disable=redefined-outer-name
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def randString():
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"""helper function for tests, generates a random string"""
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retval = b''
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for _ in range(32):
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retval += chr(random.randint(0, 255))
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return retval
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a = []
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k = RandomTrackingDict()
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d = {}
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print "populating random tracking dict"
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a.append(time())
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for i in range(50000):
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k[randString()] = True
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a.append(time())
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print "done"
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while k:
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retval = k.randomKeys(1000)
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if not retval:
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print "error getting random keys"
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try:
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k.randomKeys(100)
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print "bad"
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except KeyError:
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pass
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for i in retval:
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del k[i]
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a.append(time())
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for x in range(len(a) - 1):
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print "%i: %.3f" % (x, a[x + 1] - a[x])
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