mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-25 04:32:33 -06:00
595 lines
24 KiB
Python
595 lines
24 KiB
Python
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"""Undocumented Module"""
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__all__ = ['FakeObject', '_createGarbage', 'GarbageReport', 'GarbageLogger']
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from direct.directnotify.DirectNotifyGlobal import directNotify
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from direct.showbase.PythonUtil import safeRepr, fastRepr, printListEnumGen, printNumberedTypesGen
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from direct.showbase.PythonUtil import AlphabetCounter
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from direct.showbase.Job import Job
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import gc
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import types
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GarbageCycleCountAnnounceEvent = 'announceGarbageCycleDesc2num'
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class FakeObject:
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pass
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class FakeDelObject:
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def __del__(self):
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pass
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def _createGarbage(num=1):
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for i in xrange(num):
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a = FakeObject()
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b = FakeObject()
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a.other = b
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b.other = a
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a = FakeDelObject()
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b = FakeDelObject()
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a.other = b
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b.other = a
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class GarbageReport(Job):
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"""Detects leaked Python objects (via gc.collect()) and reports on garbage
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items, garbage-to-garbage references, and garbage cycles.
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If you just want to dump the report to the log, use GarbageLogger."""
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notify = directNotify.newCategory("GarbageReport")
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def __init__(self, name, log=True, verbose=False, fullReport=False, findCycles=True,
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threaded=False, doneCallback=None, autoDestroy=False, priority=None,
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safeMode=False, delOnly=False, collect=True):
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# if autoDestroy is True, GarbageReport will self-destroy after logging
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# if false, caller is responsible for calling destroy()
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# if threaded is True, processing will be performed over multiple frames
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# if collect is False, we assume that the caller just did a collect and the results
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# are still in gc.garbage
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Job.__init__(self, name)
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# stick the arguments onto a ScratchPad so we can delete them all at once
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self._args = ScratchPad(name=name, log=log, verbose=verbose, fullReport=fullReport,
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findCycles=findCycles, doneCallback=doneCallback,
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autoDestroy=autoDestroy, safeMode=safeMode, delOnly=delOnly,
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collect=collect)
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if priority is not None:
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self.setPriority(priority)
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jobMgr.add(self)
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if not threaded:
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jobMgr.finish(self)
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def run(self):
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# do the garbage collection
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oldFlags = gc.get_debug()
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if self._args.delOnly:
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# do a collect without SAVEALL, to identify the instances that are involved in
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# cycles with instances that define __del__
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# cycles that do not involve any instances that define __del__ are cleaned up
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# automatically by Python, but they also appear in gc.garbage when SAVEALL is set
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gc.set_debug(0)
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if self._args.collect:
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gc.collect()
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garbageInstances = gc.garbage[:]
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del gc.garbage[:]
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# only yield if there's more time-consuming work to do,
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# if there's no garbage, give instant feedback
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if len(garbageInstances) > 0:
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yield None
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# don't repr the garbage list if we don't have to
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if self.notify.getDebug():
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self.notify.debug('garbageInstances == %s' % fastRepr(garbageInstances))
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self.numGarbageInstances = len(garbageInstances)
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# grab the ids of the garbage instances (objects with __del__)
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self.garbageInstanceIds = set()
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for i in xrange(len(garbageInstances)):
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self.garbageInstanceIds.add(id(garbageInstances[i]))
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if not (i % 20):
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yield None
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# then release the list of instances so that it doesn't interfere with the gc.collect() below
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del garbageInstances
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else:
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self.garbageInstanceIds = set()
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# do a SAVEALL pass so that we have all of the objects involved in legitimate garbage cycles
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# without SAVEALL, gc.garbage only contains objects with __del__ methods
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gc.set_debug(gc.DEBUG_SAVEALL)
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if self._args.collect:
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gc.collect()
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self.garbage = gc.garbage[:]
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del gc.garbage[:]
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# only yield if there's more time-consuming work to do,
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# if there's no garbage, give instant feedback
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if len(self.garbage) > 0:
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yield None
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# don't repr the garbage list if we don't have to
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if self.notify.getDebug():
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self.notify.debug('self.garbage == %s' % fastRepr(self.garbage))
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gc.set_debug(oldFlags)
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self.numGarbage = len(self.garbage)
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# only yield if there's more time-consuming work to do,
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# if there's no garbage, give instant feedback
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if self.numGarbage > 0:
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yield None
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if self._args.verbose:
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self.notify.info('found %s garbage items' % self.numGarbage)
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""" spammy
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# print the types of the garbage first, in case the repr of an object
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# causes a crash
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if self.numGarbage > 0:
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self.notify.info('TYPES ONLY (this is only needed if a crash occurs before GarbageReport finishes):')
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for result in printNumberedTypesGen(self.garbage):
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yield None
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"""
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# Py obj id -> garbage list index
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self._id2index = {}
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self.referrersByReference = {}
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self.referrersByNumber = {}
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self.referentsByReference = {}
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self.referentsByNumber = {}
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self._id2garbageInfo = {}
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self.cycles = []
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self.cyclesBySyntax = []
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self.uniqueCycleSets = set()
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self.cycleIds = set()
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# make the id->index table to speed up the next steps
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for i in xrange(self.numGarbage):
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self._id2index[id(self.garbage[i])] = i
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if not (i % 20):
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yield None
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# grab the referrers (pointing to garbage)
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if self._args.fullReport and (self.numGarbage != 0):
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if self._args.verbose:
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self.notify.info('getting referrers...')
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for i in xrange(self.numGarbage):
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yield None
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for result in self._getReferrers(self.garbage[i]):
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yield None
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byNum, byRef = result
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self.referrersByNumber[i] = byNum
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self.referrersByReference[i] = byRef
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# grab the referents (pointed to by garbage)
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if self.numGarbage > 0:
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if self._args.verbose:
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self.notify.info('getting referents...')
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for i in xrange(self.numGarbage):
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yield None
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for result in self._getReferents(self.garbage[i]):
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yield None
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byNum, byRef = result
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self.referentsByNumber[i] = byNum
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self.referentsByReference[i] = byRef
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for i in xrange(self.numGarbage):
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if hasattr(self.garbage[i], '_garbageInfo') and callable(self.garbage[i]._garbageInfo):
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try:
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info = self.garbage[i]._garbageInfo()
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except Exception, e:
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info = str(e)
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self._id2garbageInfo[id(self.garbage[i])] = info
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yield None
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else:
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if not (i % 20):
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yield None
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# find the cycles
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if self._args.findCycles and self.numGarbage > 0:
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if self._args.verbose:
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self.notify.info('calculating cycles...')
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for i in xrange(self.numGarbage):
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yield None
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for newCycles in self._getCycles(i, self.uniqueCycleSets):
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yield None
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self.cycles.extend(newCycles)
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# create a representation of the cycle in human-readable form
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newCyclesBySyntax = []
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for cycle in newCycles:
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cycleBySyntax = ''
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objs = []
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# leave off the last index, it's a repeat of the first index
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for index in cycle[:-1]:
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objs.append(self.garbage[index])
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yield None
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# make the list repeat so we can safely iterate off the end
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numObjs = len(objs) - 1
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objs.extend(objs)
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# state variables for our loop below
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numToSkip = 0
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objAlreadyRepresented = False
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# if cycle starts off with an instance dict, start with the instance instead
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startIndex = 0
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# + 1 to include a reference back to the first object
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endIndex = numObjs + 1
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if type(objs[-1]) is types.InstanceType and type(objs[0]) is types.DictType:
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startIndex -= 1
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endIndex -= 1
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for index in xrange(startIndex, endIndex):
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if numToSkip:
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numToSkip -= 1
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continue
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obj = objs[index]
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if type(obj) is types.InstanceType:
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if not objAlreadyRepresented:
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cycleBySyntax += '%s' % obj.__class__.__name__
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cycleBySyntax += '.'
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# skip past the instance dict and get the member obj
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numToSkip += 1
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member = objs[index+2]
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for key, value in obj.__dict__.iteritems():
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if value is member:
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break
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yield None
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else:
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key = '<unknown member name>'
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cycleBySyntax += '%s' % key
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objAlreadyRepresented = True
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elif type(obj) is types.DictType:
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cycleBySyntax += '{'
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# get object referred to by dict
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val = objs[index+1]
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for key, value in obj.iteritems():
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if value is val:
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break
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yield None
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else:
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key = '<unknown key>'
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cycleBySyntax += '%s}' % fastRepr(key)
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objAlreadyRepresented = True
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elif type(obj) in (types.TupleType, types.ListType):
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brackets = {
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types.TupleType: '()',
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types.ListType: '[]',
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}[type(obj)]
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# get object being referenced by container
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nextObj = objs[index+1]
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cycleBySyntax += brackets[0]
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for index in xrange(len(obj)):
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if obj[index] is nextObj:
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index = str(index)
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break
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yield None
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else:
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index = '<unknown index>'
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cycleBySyntax += '%s%s' % (index, brackets[1])
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objAlreadyRepresented = True
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else:
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cycleBySyntax += '%s --> ' % itype(obj)
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objAlreadyRepresented = False
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newCyclesBySyntax.append(cycleBySyntax)
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yield None
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self.cyclesBySyntax.extend(newCyclesBySyntax)
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# if we're not doing a full report, add this cycle's IDs to the master set
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if not self._args.fullReport:
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for cycle in newCycles:
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yield None
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self.cycleIds.update(set(cycle))
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self.numCycles = len(self.cycles)
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if self._args.findCycles:
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s = ['===== GarbageReport: \'%s\' (%s %s) =====' % (
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self._args.name, self.numCycles,
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choice(self.numCycles == 1, 'cycle', 'cycles'))]
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else:
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s = ['===== GarbageReport: \'%s\' =====' % (
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self._args.name)]
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if self.numGarbage > 0:
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# make a list of the ids we will actually be printing
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if self._args.fullReport:
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garbageIndices = range(self.numGarbage)
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else:
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garbageIndices = list(self.cycleIds)
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garbageIndices.sort()
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numGarbage = len(garbageIndices)
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# log each individual item with a number in front of it
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if not self._args.fullReport:
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abbrev = '(abbreviated) '
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else:
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abbrev = ''
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s.append('===== Garbage Items %s=====' % abbrev)
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digits = 0
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n = numGarbage
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while n > 0:
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yield None
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digits += 1
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n /= 10
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digits = digits
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format = '%0' + '%s' % digits + 'i:%s \t%s'
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for i in xrange(numGarbage):
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yield None
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idx = garbageIndices[i]
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if self._args.safeMode:
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# in safe mode, don't try to repr any of the objects
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objStr = repr(itype(self.garbage[idx]))
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else:
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objStr = fastRepr(self.garbage[idx])
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maxLen = 5000
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if len(objStr) > maxLen:
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snip = '<SNIP>'
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objStr = '%s%s' % (objStr[:(maxLen-len(snip))], snip)
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s.append(format % (idx, itype(self.garbage[idx]), objStr))
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# also log the types of the objects
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s.append('===== Garbage Item Types %s=====' % abbrev)
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for i in xrange(numGarbage):
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yield None
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idx = garbageIndices[i]
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objStr = str(deeptype(self.garbage[idx]))
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maxLen = 5000
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if len(objStr) > maxLen:
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snip = '<SNIP>'
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objStr = '%s%s' % (objStr[:(maxLen-len(snip))], snip)
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s.append(format % (idx, itype(self.garbage[idx]), objStr))
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if self._args.findCycles:
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s.append('===== Garbage Cycles (Garbage Item Numbers) =====')
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ac = AlphabetCounter()
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for i in xrange(self.numCycles):
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yield None
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s.append('%s:%s' % (ac.next(), self.cycles[i]))
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if self._args.findCycles:
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s.append('===== Garbage Cycles (Python Syntax) =====')
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ac = AlphabetCounter()
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for i in xrange(len(self.cyclesBySyntax)):
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yield None
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s.append('%s:%s' % (ac.next(), self.cyclesBySyntax[i]))
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if len(self._id2garbageInfo):
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s.append('===== Garbage Custom Info =====')
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ac = AlphabetCounter()
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for i in xrange(len(self.cyclesBySyntax)):
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yield None
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counter = ac.next()
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_id = id(self.garbage[i])
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if _id in self._id2garbageInfo:
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s.append('%s:%s' % (counter, self._id2garbageInfo[_id]))
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if self._args.fullReport:
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format = '%0' + '%s' % digits + 'i:%s'
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s.append('===== Referrers By Number (what is referring to garbage item?) =====')
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for i in xrange(numGarbage):
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yield None
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s.append(format % (i, self.referrersByNumber[i]))
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s.append('===== Referents By Number (what is garbage item referring to?) =====')
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for i in xrange(numGarbage):
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yield None
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s.append(format % (i, self.referentsByNumber[i]))
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s.append('===== Referrers (what is referring to garbage item?) =====')
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for i in xrange(numGarbage):
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yield None
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s.append(format % (i, self.referrersByReference[i]))
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s.append('===== Referents (what is garbage item referring to?) =====')
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for i in xrange(numGarbage):
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yield None
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s.append(format % (i, self.referentsByReference[i]))
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self._report = s
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if self._args.log:
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self.printingBegin()
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for i in xrange(len(self._report)):
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if self.numGarbage > 0:
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yield None
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self.notify.info(self._report[i])
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self.notify.info('===== Garbage Report Done =====')
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self.printingEnd()
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yield Job.Done
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def finished(self):
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if self._args.doneCallback:
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self._args.doneCallback(self)
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if self._args.autoDestroy:
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self.destroy()
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def destroy(self):
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#print 'GarbageReport.destroy'
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del self._args
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del self.garbage
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# don't get rid of these, we might need them
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#del self.numGarbage
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#del self.numCycles
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del self.referrersByReference
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del self.referrersByNumber
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del self.referentsByReference
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del self.referentsByNumber
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if hasattr(self, 'cycles'):
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del self.cycles
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del self._report
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if hasattr(self, '_reportStr'):
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del self._reportStr
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Job.destroy(self)
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def getNumCycles(self):
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# if the job hasn't run yet, we don't have a numCycles yet
|
||
|
return self.numCycles
|
||
|
|
||
|
def getDesc2numDict(self):
|
||
|
# dict of python-syntax leak -> number of that type of leak
|
||
|
desc2num = {}
|
||
|
for cycleBySyntax in self.cyclesBySyntax:
|
||
|
desc2num.setdefault(cycleBySyntax, 0)
|
||
|
desc2num[cycleBySyntax] += 1
|
||
|
return desc2num
|
||
|
|
||
|
def getGarbage(self):
|
||
|
return self.garbage
|
||
|
|
||
|
def getReport(self):
|
||
|
if not hasattr(self, '_reportStr'):
|
||
|
self._reportStr = ''
|
||
|
for str in self._report:
|
||
|
self._reportStr += '\n' + str
|
||
|
return self._reportStr
|
||
|
|
||
|
def _getReferrers(self, obj):
|
||
|
# referrers (pointing to garbage)
|
||
|
# returns two lists, first by index into gc.garbage, second by
|
||
|
# direct reference
|
||
|
yield None
|
||
|
byRef = gc.get_referrers(obj)
|
||
|
yield None
|
||
|
# look to see if each referrer is another garbage item
|
||
|
byNum = []
|
||
|
for i in xrange(len(byRef)):
|
||
|
if not (i % 20):
|
||
|
yield None
|
||
|
referrer = byRef[i]
|
||
|
num = self._id2index.get(id(referrer), None)
|
||
|
byNum.append(num)
|
||
|
yield byNum, byRef
|
||
|
|
||
|
def _getReferents(self, obj):
|
||
|
# referents (pointed to by garbage)
|
||
|
# returns two lists, first by index into gc.garbage, second by
|
||
|
# direct reference
|
||
|
yield None
|
||
|
byRef = gc.get_referents(obj)
|
||
|
yield None
|
||
|
# look to see if each referent is another garbage item
|
||
|
byNum = []
|
||
|
for i in xrange(len(byRef)):
|
||
|
if not (i % 20):
|
||
|
yield None
|
||
|
referent = byRef[i]
|
||
|
num = self._id2index.get(id(referent), None)
|
||
|
byNum.append(num)
|
||
|
yield byNum, byRef
|
||
|
|
||
|
def _getNormalizedCycle(self, cycle):
|
||
|
# returns a representation of a cycle (list of indices) that will be
|
||
|
# reliably derived from a unique cycle regardless of ordering
|
||
|
# this lets us detect duplicate cycles that appear different because of
|
||
|
# which element appears first
|
||
|
if len(cycle) == 0:
|
||
|
return cycle
|
||
|
min = 1<<30
|
||
|
minIndex = None
|
||
|
for i in xrange(len(cycle)):
|
||
|
elem = cycle[i]
|
||
|
if elem < min:
|
||
|
min = elem
|
||
|
minIndex = i
|
||
|
return cycle[minIndex:] + cycle[:minIndex]
|
||
|
|
||
|
def _getCycles(self, index, uniqueCycleSets=None):
|
||
|
# detect garbage cycles for a particular item of garbage
|
||
|
assert self.notify.debugCall()
|
||
|
# returns list of lists, sublists are garbage reference cycles
|
||
|
cycles = []
|
||
|
# this lets us eliminate duplicate cycles
|
||
|
if uniqueCycleSets is None:
|
||
|
uniqueCycleSets = set()
|
||
|
stateStack = Stack()
|
||
|
rootId = index
|
||
|
# check if the root object is one of the garbage instances (has __del__)
|
||
|
objId = id(self.garbage[rootId])
|
||
|
numDelInstances = choice(objId in self.garbageInstanceIds, 1, 0)
|
||
|
stateStack.push(([rootId], rootId, numDelInstances, 0))
|
||
|
while True:
|
||
|
yield None
|
||
|
if len(stateStack) == 0:
|
||
|
break
|
||
|
candidateCycle, curId, numDelInstances, resumeIndex = stateStack.pop()
|
||
|
if self.notify.getDebug():
|
||
|
if self._args.delOnly:
|
||
|
print 'restart: %s root=%s cur=%s numDelInstances=%s resume=%s' % (
|
||
|
candidateCycle, rootId, curId, numDelInstances, resumeIndex)
|
||
|
else:
|
||
|
print 'restart: %s root=%s cur=%s resume=%s' % (
|
||
|
candidateCycle, rootId, curId, resumeIndex)
|
||
|
for index in xrange(resumeIndex, len(self.referentsByNumber[curId])):
|
||
|
yield None
|
||
|
refId = self.referentsByNumber[curId][index]
|
||
|
if self.notify.getDebug():
|
||
|
print ' : %s -> %s' % (curId, refId)
|
||
|
if refId == rootId:
|
||
|
# we found a cycle! mark it down and move on to the next refId
|
||
|
normCandidateCycle = self._getNormalizedCycle(candidateCycle)
|
||
|
normCandidateCycleTuple = tuple(normCandidateCycle)
|
||
|
if not normCandidateCycleTuple in uniqueCycleSets:
|
||
|
# cycles with no instances that define __del__ will be
|
||
|
# cleaned up by Python
|
||
|
if (not self._args.delOnly) or numDelInstances >= 1:
|
||
|
if self.notify.getDebug():
|
||
|
print ' FOUND: ', normCandidateCycle + [normCandidateCycle[0],]
|
||
|
cycles.append(normCandidateCycle + [normCandidateCycle[0],])
|
||
|
uniqueCycleSets.add(normCandidateCycleTuple)
|
||
|
elif refId in candidateCycle:
|
||
|
pass
|
||
|
elif refId is not None:
|
||
|
# check if this object is one of the garbage instances (has __del__)
|
||
|
objId = id(self.garbage[refId])
|
||
|
numDelInstances += choice(objId in self.garbageInstanceIds, 1, 0)
|
||
|
# this refId does not complete a cycle. Mark down
|
||
|
# where we are in this list of referents, then
|
||
|
# start looking through the referents of the new refId
|
||
|
stateStack.push((list(candidateCycle), curId, numDelInstances, index+1))
|
||
|
stateStack.push((list(candidateCycle) + [refId], refId, numDelInstances, 0))
|
||
|
break
|
||
|
yield cycles
|
||
|
|
||
|
class GarbageLogger(GarbageReport):
|
||
|
"""If you just want to log the current garbage to the log file, make
|
||
|
one of these. It automatically destroys itself after logging"""
|
||
|
def __init__(self, name, *args, **kArgs):
|
||
|
kArgs['log'] = True
|
||
|
kArgs['autoDestroy'] = True
|
||
|
GarbageReport.__init__(self, name, *args, **kArgs)
|
||
|
|
||
|
class _CFGLGlobals:
|
||
|
# for checkForGarbageLeaks
|
||
|
LastNumGarbage = 0
|
||
|
LastNumCycles = 0
|
||
|
|
||
|
def checkForGarbageLeaks():
|
||
|
gc.collect()
|
||
|
numGarbage = len(gc.garbage)
|
||
|
if (numGarbage > 0 and config.GetBool('auto-garbage-logging', 0)):
|
||
|
if (numGarbage != _CFGLGlobals.LastNumGarbage):
|
||
|
print
|
||
|
gr = GarbageReport('found garbage', threaded=False, collect=False)
|
||
|
print
|
||
|
_CFGLGlobals.LastNumGarbage = numGarbage
|
||
|
_CFGLGlobals.LastNumCycles = gr.getNumCycles()
|
||
|
messenger.send(GarbageCycleCountAnnounceEvent, [gr.getDesc2numDict()])
|
||
|
gr.destroy()
|
||
|
notify = directNotify.newCategory("GarbageDetect")
|
||
|
if config.GetBool('allow-garbage-cycles', 1):
|
||
|
func = notify.warning
|
||
|
else:
|
||
|
func = notify.error
|
||
|
func('%s garbage cycles found, see info above' % _CFGLGlobals.LastNumCycles)
|
||
|
return numGarbage
|
||
|
|
||
|
def b_checkForGarbageLeaks(wantReply=False):
|
||
|
if not __dev__:
|
||
|
return 0
|
||
|
# does a garbage collect on the client and the AI
|
||
|
# returns number of client garbage leaks
|
||
|
# logs leak info and terminates (if configured to do so)
|
||
|
try:
|
||
|
# if this is the client, tell the AI to check for leaks too
|
||
|
base.cr.timeManager
|
||
|
except:
|
||
|
pass
|
||
|
else:
|
||
|
if base.cr.timeManager:
|
||
|
base.cr.timeManager.d_checkForGarbageLeaks(wantReply=wantReply)
|
||
|
return checkForGarbageLeaks()
|