883 lines
29 KiB
Python
883 lines
29 KiB
Python
# -*- coding: utf-8 -*-
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"""
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debug.py - Functions to aid in debugging
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Copyright 2010 Luke Campagnola
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Distributed under MIT/X11 license. See license.txt for more infomation.
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"""
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import sys, traceback, time, gc, re, types, weakref, inspect, os, cProfile
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from . import ptime
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from numpy import ndarray
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from .Qt import QtCore, QtGui
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__ftraceDepth = 0
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def ftrace(func):
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"""Decorator used for marking the beginning and end of function calls.
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Automatically indents nested calls.
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"""
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def w(*args, **kargs):
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global __ftraceDepth
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pfx = " " * __ftraceDepth
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print(pfx + func.__name__ + " start")
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__ftraceDepth += 1
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try:
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rv = func(*args, **kargs)
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finally:
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__ftraceDepth -= 1
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print(pfx + func.__name__ + " done")
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return rv
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return w
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def getExc(indent=4, prefix='| '):
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tb = traceback.format_exc()
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lines = []
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for l in tb.split('\n'):
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lines.append(" "*indent + prefix + l)
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return '\n'.join(lines)
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def printExc(msg='', indent=4, prefix='|'):
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"""Print an error message followed by an indented exception backtrace
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(This function is intended to be called within except: blocks)"""
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exc = getExc(indent, prefix + ' ')
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print("[%s] %s\n" % (time.strftime("%H:%M:%S"), msg))
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print(" "*indent + prefix + '='*30 + '>>')
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print(exc)
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print(" "*indent + prefix + '='*30 + '<<')
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def printTrace(msg='', indent=4, prefix='|'):
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"""Print an error message followed by an indented stack trace"""
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trace = backtrace(1)
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#exc = getExc(indent, prefix + ' ')
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print("[%s] %s\n" % (time.strftime("%H:%M:%S"), msg))
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print(" "*indent + prefix + '='*30 + '>>')
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for line in trace.split('\n'):
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print(" "*indent + prefix + " " + line)
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print(" "*indent + prefix + '='*30 + '<<')
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def backtrace(skip=0):
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return ''.join(traceback.format_stack()[:-(skip+1)])
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def listObjs(regex='Q', typ=None):
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"""List all objects managed by python gc with class name matching regex.
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Finds 'Q...' classes by default."""
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if typ is not None:
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return [x for x in gc.get_objects() if isinstance(x, typ)]
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else:
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return [x for x in gc.get_objects() if re.match(regex, type(x).__name__)]
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def findRefPath(startObj, endObj, maxLen=8, restart=True, seen={}, path=None, ignore=None):
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"""Determine all paths of object references from startObj to endObj"""
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refs = []
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if path is None:
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path = [endObj]
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if ignore is None:
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ignore = {}
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ignore[id(sys._getframe())] = None
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ignore[id(path)] = None
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ignore[id(seen)] = None
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prefix = " "*(8-maxLen)
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#print prefix + str(map(type, path))
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prefix += " "
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if restart:
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#gc.collect()
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seen.clear()
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gc.collect()
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newRefs = [r for r in gc.get_referrers(endObj) if id(r) not in ignore]
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ignore[id(newRefs)] = None
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#fo = allFrameObjs()
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#newRefs = []
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#for r in gc.get_referrers(endObj):
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#try:
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#if r not in fo:
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#newRefs.append(r)
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#except:
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#newRefs.append(r)
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for r in newRefs:
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#print prefix+"->"+str(type(r))
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if type(r).__name__ in ['frame', 'function', 'listiterator']:
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#print prefix+" FRAME"
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continue
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try:
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if any([r is x for x in path]):
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#print prefix+" LOOP", objChainString([r]+path)
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continue
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except:
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print(r)
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print(path)
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raise
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if r is startObj:
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refs.append([r])
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print(refPathString([startObj]+path))
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continue
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if maxLen == 0:
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#print prefix+" END:", objChainString([r]+path)
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continue
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## See if we have already searched this node.
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## If not, recurse.
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tree = None
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try:
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cache = seen[id(r)]
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if cache[0] >= maxLen:
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tree = cache[1]
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for p in tree:
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print(refPathString(p+path))
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except KeyError:
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pass
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ignore[id(tree)] = None
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if tree is None:
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tree = findRefPath(startObj, r, maxLen-1, restart=False, path=[r]+path, ignore=ignore)
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seen[id(r)] = [maxLen, tree]
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## integrate any returned results
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if len(tree) == 0:
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#print prefix+" EMPTY TREE"
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continue
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else:
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for p in tree:
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refs.append(p+[r])
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#seen[id(r)] = [maxLen, refs]
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return refs
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def objString(obj):
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"""Return a short but descriptive string for any object"""
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try:
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if type(obj) in [int, float]:
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return str(obj)
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elif isinstance(obj, dict):
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if len(obj) > 5:
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return "<dict {%s,...}>" % (",".join(list(obj.keys())[:5]))
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else:
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return "<dict {%s}>" % (",".join(list(obj.keys())))
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elif isinstance(obj, str):
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if len(obj) > 50:
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return '"%s..."' % obj[:50]
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else:
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return obj[:]
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elif isinstance(obj, ndarray):
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return "<ndarray %s %s>" % (str(obj.dtype), str(obj.shape))
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elif hasattr(obj, '__len__'):
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if len(obj) > 5:
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return "<%s [%s,...]>" % (type(obj).__name__, ",".join([type(o).__name__ for o in obj[:5]]))
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else:
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return "<%s [%s]>" % (type(obj).__name__, ",".join([type(o).__name__ for o in obj]))
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else:
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return "<%s %s>" % (type(obj).__name__, obj.__class__.__name__)
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except:
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return str(type(obj))
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def refPathString(chain):
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"""Given a list of adjacent objects in a reference path, print the 'natural' path
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names (ie, attribute names, keys, and indexes) that follow from one object to the next ."""
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s = objString(chain[0])
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i = 0
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while i < len(chain)-1:
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#print " -> ", i
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i += 1
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o1 = chain[i-1]
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o2 = chain[i]
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cont = False
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if isinstance(o1, list) or isinstance(o1, tuple):
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if any([o2 is x for x in o1]):
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s += "[%d]" % o1.index(o2)
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continue
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#print " not list"
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if isinstance(o2, dict) and hasattr(o1, '__dict__') and o2 == o1.__dict__:
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i += 1
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if i >= len(chain):
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s += ".__dict__"
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continue
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o3 = chain[i]
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for k in o2:
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if o2[k] is o3:
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s += '.%s' % k
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cont = True
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continue
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#print " not __dict__"
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if isinstance(o1, dict):
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try:
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if o2 in o1:
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s += "[key:%s]" % objString(o2)
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continue
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except TypeError:
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pass
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for k in o1:
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if o1[k] is o2:
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s += "[%s]" % objString(k)
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cont = True
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continue
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#print " not dict"
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#for k in dir(o1): ## Not safe to request attributes like this.
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#if getattr(o1, k) is o2:
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#s += ".%s" % k
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#cont = True
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#continue
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#print " not attr"
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if cont:
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continue
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s += " ? "
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sys.stdout.flush()
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return s
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def objectSize(obj, ignore=None, verbose=False, depth=0, recursive=False):
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"""Guess how much memory an object is using"""
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ignoreTypes = [types.MethodType, types.UnboundMethodType, types.BuiltinMethodType, types.FunctionType, types.BuiltinFunctionType]
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ignoreRegex = re.compile('(method-wrapper|Flag|ItemChange|Option|Mode)')
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if ignore is None:
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ignore = {}
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indent = ' '*depth
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try:
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hash(obj)
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hsh = obj
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except:
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hsh = "%s:%d" % (str(type(obj)), id(obj))
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if hsh in ignore:
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return 0
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ignore[hsh] = 1
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try:
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size = sys.getsizeof(obj)
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except TypeError:
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size = 0
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if isinstance(obj, ndarray):
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try:
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size += len(obj.data)
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except:
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pass
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if recursive:
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if type(obj) in [list, tuple]:
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if verbose:
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print(indent+"list:")
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for o in obj:
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s = objectSize(o, ignore=ignore, verbose=verbose, depth=depth+1)
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if verbose:
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print(indent+' +', s)
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size += s
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elif isinstance(obj, dict):
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if verbose:
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print(indent+"list:")
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for k in obj:
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s = objectSize(obj[k], ignore=ignore, verbose=verbose, depth=depth+1)
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if verbose:
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print(indent+' +', k, s)
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size += s
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#elif isinstance(obj, QtCore.QObject):
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#try:
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#childs = obj.children()
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#if verbose:
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#print indent+"Qt children:"
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#for ch in childs:
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#s = objectSize(obj, ignore=ignore, verbose=verbose, depth=depth+1)
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#size += s
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#if verbose:
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#print indent + ' +', ch.objectName(), s
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#except:
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#pass
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#if isinstance(obj, types.InstanceType):
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gc.collect()
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if verbose:
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print(indent+'attrs:')
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for k in dir(obj):
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if k in ['__dict__']:
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continue
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o = getattr(obj, k)
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if type(o) in ignoreTypes:
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continue
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strtyp = str(type(o))
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if ignoreRegex.search(strtyp):
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continue
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#if isinstance(o, types.ObjectType) and strtyp == "<type 'method-wrapper'>":
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#continue
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#if verbose:
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#print indent, k, '?'
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refs = [r for r in gc.get_referrers(o) if type(r) != types.FrameType]
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if len(refs) == 1:
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s = objectSize(o, ignore=ignore, verbose=verbose, depth=depth+1)
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size += s
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if verbose:
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print(indent + " +", k, s)
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#else:
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#if verbose:
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#print indent + ' -', k, len(refs)
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return size
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class GarbageWatcher:
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"""
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Convenient dictionary for holding weak references to objects.
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Mainly used to check whether the objects have been collect yet or not.
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Example:
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gw = GarbageWatcher()
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gw['objName'] = obj
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gw['objName2'] = obj2
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gw.check()
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"""
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def __init__(self):
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self.objs = weakref.WeakValueDictionary()
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self.allNames = []
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def add(self, obj, name):
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self.objs[name] = obj
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self.allNames.append(name)
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def __setitem__(self, name, obj):
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self.add(obj, name)
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def check(self):
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"""Print a list of all watched objects and whether they have been collected."""
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gc.collect()
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dead = self.allNames[:]
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alive = []
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for k in self.objs:
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dead.remove(k)
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alive.append(k)
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print("Deleted objects:", dead)
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print("Live objects:", alive)
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def __getitem__(self, item):
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return self.objs[item]
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class Profiler:
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"""Simple profiler allowing measurement of multiple time intervals.
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Example:
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prof = Profiler('Function')
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... do stuff ...
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prof.mark('did stuff')
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... do other stuff ...
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prof.mark('did other stuff')
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prof.finish()
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"""
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depth = 0
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def __init__(self, msg="Profiler", disabled=False):
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self.depth = Profiler.depth
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Profiler.depth += 1
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self.disabled = disabled
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if disabled:
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return
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self.t0 = ptime.time()
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self.t1 = self.t0
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self.msg = " "*self.depth + msg
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print(self.msg, ">>> Started")
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def mark(self, msg=''):
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if self.disabled:
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return
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t1 = ptime.time()
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print(" "+self.msg, msg, "%gms" % ((t1-self.t1)*1000))
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self.t1 = t1
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def finish(self):
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if self.disabled:
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return
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t1 = ptime.time()
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print(self.msg, '<<< Finished, total time:', "%gms" % ((t1-self.t0)*1000))
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def __del__(self):
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Profiler.depth -= 1
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def profile(code, name='profile_run', sort='cumulative', num=30):
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"""Common-use for cProfile"""
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cProfile.run(code, name)
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stats = pstats.Stats(name)
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stats.sort_stats(sort)
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stats.print_stats(num)
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return stats
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#### Code for listing (nearly) all objects in the known universe
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#### http://utcc.utoronto.ca/~cks/space/blog/python/GetAllObjects
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# Recursively expand slist's objects
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# into olist, using seen to track
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# already processed objects.
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def _getr(slist, olist, first=True):
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i = 0
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for e in slist:
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oid = id(e)
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typ = type(e)
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if oid in olist or typ is int: ## or e in olist: ## since we're excluding all ints, there is no longer a need to check for olist keys
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continue
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olist[oid] = e
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if first and (i%1000) == 0:
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gc.collect()
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tl = gc.get_referents(e)
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if tl:
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_getr(tl, olist, first=False)
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i += 1
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# The public function.
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def get_all_objects():
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"""Return a list of all live Python objects (excluding int and long), not including the list itself."""
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gc.collect()
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gcl = gc.get_objects()
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olist = {}
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_getr(gcl, olist)
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del olist[id(olist)]
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del olist[id(gcl)]
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del olist[id(sys._getframe())]
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return olist
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def lookup(oid, objects=None):
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"""Return an object given its ID, if it exists."""
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if objects is None:
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objects = get_all_objects()
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return objects[oid]
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class ObjTracker:
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"""
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Tracks all objects under the sun, reporting the changes between snapshots: what objects are created, deleted, and persistent.
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This class is very useful for tracking memory leaks. The class goes to great (but not heroic) lengths to avoid tracking
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its own internal objects.
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Example:
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ot = ObjTracker() # takes snapshot of currently existing objects
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... do stuff ...
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ot.diff() # prints lists of objects created and deleted since ot was initialized
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... do stuff ...
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ot.diff() # prints lists of objects created and deleted since last call to ot.diff()
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# also prints list of items that were created since initialization AND have not been deleted yet
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# (if done correctly, this list can tell you about objects that were leaked)
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arrays = ot.findPersistent('ndarray') ## returns all objects matching 'ndarray' (string match, not instance checking)
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## that were considered persistent when the last diff() was run
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describeObj(arrays[0]) ## See if we can determine who has references to this array
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"""
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allObjs = {} ## keep track of all objects created and stored within class instances
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allObjs[id(allObjs)] = None
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def __init__(self):
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self.startRefs = {} ## list of objects that exist when the tracker is initialized {oid: weakref}
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## (If it is not possible to weakref the object, then the value is None)
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self.startCount = {}
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self.newRefs = {} ## list of objects that have been created since initialization
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self.persistentRefs = {} ## list of objects considered 'persistent' when the last diff() was called
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self.objTypes = {}
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ObjTracker.allObjs[id(self)] = None
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self.objs = [self.__dict__, self.startRefs, self.startCount, self.newRefs, self.persistentRefs, self.objTypes]
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self.objs.append(self.objs)
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for v in self.objs:
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ObjTracker.allObjs[id(v)] = None
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self.start()
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def findNew(self, regex):
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"""Return all objects matching regex that were considered 'new' when the last diff() was run."""
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return self.findTypes(self.newRefs, regex)
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def findPersistent(self, regex):
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"""Return all objects matching regex that were considered 'persistent' when the last diff() was run."""
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return self.findTypes(self.persistentRefs, regex)
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def start(self):
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"""
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Remember the current set of objects as the comparison for all future calls to diff()
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Called automatically on init, but can be called manually as well.
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"""
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refs, count, objs = self.collect()
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for r in self.startRefs:
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self.forgetRef(self.startRefs[r])
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self.startRefs.clear()
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self.startRefs.update(refs)
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for r in refs:
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self.rememberRef(r)
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self.startCount.clear()
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self.startCount.update(count)
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#self.newRefs.clear()
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#self.newRefs.update(refs)
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def diff(self, **kargs):
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"""
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Compute all differences between the current object set and the reference set.
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Print a set of reports for created, deleted, and persistent objects
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"""
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refs, count, objs = self.collect() ## refs contains the list of ALL objects
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## Which refs have disappeared since call to start() (these are only displayed once, then forgotten.)
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delRefs = {}
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for i in self.startRefs.keys():
|
|
if i not in refs:
|
|
delRefs[i] = self.startRefs[i]
|
|
del self.startRefs[i]
|
|
self.forgetRef(delRefs[i])
|
|
for i in self.newRefs.keys():
|
|
if i not in refs:
|
|
delRefs[i] = self.newRefs[i]
|
|
del self.newRefs[i]
|
|
self.forgetRef(delRefs[i])
|
|
#print "deleted:", len(delRefs)
|
|
|
|
## Which refs have appeared since call to start() or diff()
|
|
persistentRefs = {} ## created since start(), but before last diff()
|
|
createRefs = {} ## created since last diff()
|
|
for o in refs:
|
|
if o not in self.startRefs:
|
|
if o not in self.newRefs:
|
|
createRefs[o] = refs[o] ## object has been created since last diff()
|
|
else:
|
|
persistentRefs[o] = refs[o] ## object has been created since start(), but before last diff() (persistent)
|
|
#print "new:", len(newRefs)
|
|
|
|
## self.newRefs holds the entire set of objects created since start()
|
|
for r in self.newRefs:
|
|
self.forgetRef(self.newRefs[r])
|
|
self.newRefs.clear()
|
|
self.newRefs.update(persistentRefs)
|
|
self.newRefs.update(createRefs)
|
|
for r in self.newRefs:
|
|
self.rememberRef(self.newRefs[r])
|
|
#print "created:", len(createRefs)
|
|
|
|
## self.persistentRefs holds all objects considered persistent.
|
|
self.persistentRefs.clear()
|
|
self.persistentRefs.update(persistentRefs)
|
|
|
|
|
|
print("----------- Count changes since start: ----------")
|
|
c1 = count.copy()
|
|
for k in self.startCount:
|
|
c1[k] = c1.get(k, 0) - self.startCount[k]
|
|
typs = list(c1.keys())
|
|
typs.sort(lambda a,b: cmp(c1[a], c1[b]))
|
|
for t in typs:
|
|
if c1[t] == 0:
|
|
continue
|
|
num = "%d" % c1[t]
|
|
print(" " + num + " "*(10-len(num)) + str(t))
|
|
|
|
print("----------- %d Deleted since last diff: ------------" % len(delRefs))
|
|
self.report(delRefs, objs, **kargs)
|
|
print("----------- %d Created since last diff: ------------" % len(createRefs))
|
|
self.report(createRefs, objs, **kargs)
|
|
print("----------- %d Created since start (persistent): ------------" % len(persistentRefs))
|
|
self.report(persistentRefs, objs, **kargs)
|
|
|
|
|
|
def __del__(self):
|
|
self.startRefs.clear()
|
|
self.startCount.clear()
|
|
self.newRefs.clear()
|
|
self.persistentRefs.clear()
|
|
|
|
del ObjTracker.allObjs[id(self)]
|
|
for v in self.objs:
|
|
del ObjTracker.allObjs[id(v)]
|
|
|
|
@classmethod
|
|
def isObjVar(cls, o):
|
|
return type(o) is cls or id(o) in cls.allObjs
|
|
|
|
def collect(self):
|
|
print("Collecting list of all objects...")
|
|
gc.collect()
|
|
objs = get_all_objects()
|
|
frame = sys._getframe()
|
|
del objs[id(frame)] ## ignore the current frame
|
|
del objs[id(frame.f_code)]
|
|
|
|
ignoreTypes = [int]
|
|
refs = {}
|
|
count = {}
|
|
for k in objs:
|
|
o = objs[k]
|
|
typ = type(o)
|
|
oid = id(o)
|
|
if ObjTracker.isObjVar(o) or typ in ignoreTypes:
|
|
continue
|
|
|
|
try:
|
|
ref = weakref.ref(obj)
|
|
except:
|
|
ref = None
|
|
refs[oid] = ref
|
|
typ = type(o)
|
|
typStr = typeStr(o)
|
|
self.objTypes[oid] = typStr
|
|
ObjTracker.allObjs[id(typStr)] = None
|
|
count[typ] = count.get(typ, 0) + 1
|
|
|
|
print("All objects: %d Tracked objects: %d" % (len(objs), len(refs)))
|
|
return refs, count, objs
|
|
|
|
def forgetRef(self, ref):
|
|
if ref is not None:
|
|
del ObjTracker.allObjs[id(ref)]
|
|
|
|
def rememberRef(self, ref):
|
|
## Record the address of the weakref object so it is not included in future object counts.
|
|
if ref is not None:
|
|
ObjTracker.allObjs[id(ref)] = None
|
|
|
|
|
|
def lookup(self, oid, ref, objs=None):
|
|
if ref is None or ref() is None:
|
|
try:
|
|
obj = lookup(oid, objects=objs)
|
|
except:
|
|
obj = None
|
|
else:
|
|
obj = ref()
|
|
return obj
|
|
|
|
|
|
def report(self, refs, allobjs=None, showIDs=False):
|
|
if allobjs is None:
|
|
allobjs = get_all_objects()
|
|
|
|
count = {}
|
|
rev = {}
|
|
for oid in refs:
|
|
obj = self.lookup(oid, refs[oid], allobjs)
|
|
if obj is None:
|
|
typ = "[del] " + self.objTypes[oid]
|
|
else:
|
|
typ = typeStr(obj)
|
|
if typ not in rev:
|
|
rev[typ] = []
|
|
rev[typ].append(oid)
|
|
c = count.get(typ, [0,0])
|
|
count[typ] = [c[0]+1, c[1]+objectSize(obj)]
|
|
typs = list(count.keys())
|
|
typs.sort(lambda a,b: cmp(count[a][1], count[b][1]))
|
|
|
|
for t in typs:
|
|
line = " %d\t%d\t%s" % (count[t][0], count[t][1], t)
|
|
if showIDs:
|
|
line += "\t"+",".join(map(str,rev[t]))
|
|
print(line)
|
|
|
|
def findTypes(self, refs, regex):
|
|
allObjs = get_all_objects()
|
|
ids = {}
|
|
objs = []
|
|
r = re.compile(regex)
|
|
for k in refs:
|
|
if r.search(self.objTypes[k]):
|
|
objs.append(self.lookup(k, refs[k], allObjs))
|
|
return objs
|
|
|
|
|
|
|
|
|
|
def describeObj(obj, depth=4, path=None, ignore=None):
|
|
"""
|
|
Trace all reference paths backward, printing a list of different ways this object can be accessed.
|
|
Attempts to answer the question "who has a reference to this object"
|
|
"""
|
|
if path is None:
|
|
path = [obj]
|
|
if ignore is None:
|
|
ignore = {} ## holds IDs of objects used within the function.
|
|
ignore[id(sys._getframe())] = None
|
|
ignore[id(path)] = None
|
|
gc.collect()
|
|
refs = gc.get_referrers(obj)
|
|
ignore[id(refs)] = None
|
|
printed=False
|
|
for ref in refs:
|
|
if id(ref) in ignore:
|
|
continue
|
|
if id(ref) in list(map(id, path)):
|
|
print("Cyclic reference: " + refPathString([ref]+path))
|
|
printed = True
|
|
continue
|
|
newPath = [ref]+path
|
|
if len(newPath) >= depth:
|
|
refStr = refPathString(newPath)
|
|
if '[_]' not in refStr: ## ignore '_' references generated by the interactive shell
|
|
print(refStr)
|
|
printed = True
|
|
else:
|
|
describeObj(ref, depth, newPath, ignore)
|
|
printed = True
|
|
if not printed:
|
|
print("Dead end: " + refPathString(path))
|
|
|
|
|
|
|
|
def typeStr(obj):
|
|
"""Create a more useful type string by making <instance> types report their class."""
|
|
typ = type(obj)
|
|
if typ == types.InstanceType:
|
|
return "<instance of %s>" % obj.__class__.__name__
|
|
else:
|
|
return str(typ)
|
|
|
|
def searchRefs(obj, *args):
|
|
"""Pseudo-interactive function for tracing references backward.
|
|
Arguments:
|
|
obj: The initial object from which to start searching
|
|
args: A set of string or int arguments.
|
|
each integer selects one of obj's referrers to be the new 'obj'
|
|
each string indicates an action to take on the current 'obj':
|
|
t: print the types of obj's referrers
|
|
l: print the lengths of obj's referrers (if they have __len__)
|
|
i: print the IDs of obj's referrers
|
|
o: print obj
|
|
ro: return obj
|
|
rr: return list of obj's referrers
|
|
|
|
Examples:
|
|
searchRefs(obj, 't') ## Print types of all objects referring to obj
|
|
searchRefs(obj, 't', 0, 't') ## ..then select the first referrer and print the types of its referrers
|
|
searchRefs(obj, 't', 0, 't', 'l') ## ..also print lengths of the last set of referrers
|
|
searchRefs(obj, 0, 1, 'ro') ## Select index 0 from obj's referrer, then select index 1 from the next set of referrers, then return that object
|
|
|
|
"""
|
|
ignore = {id(sys._getframe()): None}
|
|
gc.collect()
|
|
refs = gc.get_referrers(obj)
|
|
ignore[id(refs)] = None
|
|
refs = [r for r in refs if id(r) not in ignore]
|
|
for a in args:
|
|
|
|
#fo = allFrameObjs()
|
|
#refs = [r for r in refs if r not in fo]
|
|
|
|
if type(a) is int:
|
|
obj = refs[a]
|
|
gc.collect()
|
|
refs = gc.get_referrers(obj)
|
|
ignore[id(refs)] = None
|
|
refs = [r for r in refs if id(r) not in ignore]
|
|
elif a == 't':
|
|
print(list(map(typeStr, refs)))
|
|
elif a == 'i':
|
|
print(list(map(id, refs)))
|
|
elif a == 'l':
|
|
def slen(o):
|
|
if hasattr(o, '__len__'):
|
|
return len(o)
|
|
else:
|
|
return None
|
|
print(list(map(slen, refs)))
|
|
elif a == 'o':
|
|
print(obj)
|
|
elif a == 'ro':
|
|
return obj
|
|
elif a == 'rr':
|
|
return refs
|
|
|
|
def allFrameObjs():
|
|
"""Return list of frame objects in current stack. Useful if you want to ignore these objects in refernece searches"""
|
|
f = sys._getframe()
|
|
objs = []
|
|
while f is not None:
|
|
objs.append(f)
|
|
objs.append(f.f_code)
|
|
#objs.append(f.f_locals)
|
|
#objs.append(f.f_globals)
|
|
#objs.append(f.f_builtins)
|
|
f = f.f_back
|
|
return objs
|
|
|
|
|
|
def findObj(regex):
|
|
"""Return a list of objects whose typeStr matches regex"""
|
|
allObjs = get_all_objects()
|
|
objs = []
|
|
r = re.compile(regex)
|
|
for i in allObjs:
|
|
obj = allObjs[i]
|
|
if r.search(typeStr(obj)):
|
|
objs.append(obj)
|
|
return objs
|
|
|
|
|
|
|
|
def listRedundantModules():
|
|
"""List modules that have been imported more than once via different paths."""
|
|
mods = {}
|
|
for name, mod in sys.modules.items():
|
|
if not hasattr(mod, '__file__'):
|
|
continue
|
|
mfile = os.path.abspath(mod.__file__)
|
|
if mfile[-1] == 'c':
|
|
mfile = mfile[:-1]
|
|
if mfile in mods:
|
|
print("module at %s has 2 names: %s, %s" % (mfile, name, mods[mfile]))
|
|
else:
|
|
mods[mfile] = name
|
|
|
|
|
|
def walkQObjectTree(obj, counts=None, verbose=False, depth=0):
|
|
"""
|
|
Walk through a tree of QObjects, doing nothing to them.
|
|
The purpose of this function is to find dead objects and generate a crash
|
|
immediately rather than stumbling upon them later.
|
|
Prints a count of the objects encountered, for fun. (or is it?)
|
|
"""
|
|
|
|
if verbose:
|
|
print(" "*depth + typeStr(obj))
|
|
report = False
|
|
if counts is None:
|
|
counts = {}
|
|
report = True
|
|
typ = str(type(obj))
|
|
try:
|
|
counts[typ] += 1
|
|
except KeyError:
|
|
counts[typ] = 1
|
|
for child in obj.children():
|
|
walkQObjectTree(child, counts, verbose, depth+1)
|
|
|
|
return counts
|
|
|
|
QObjCache = {}
|
|
def qObjectReport(verbose=False):
|
|
"""Generate a report counting all QObjects and their types"""
|
|
global qObjCache
|
|
count = {}
|
|
for obj in findObj('PyQt'):
|
|
if isinstance(obj, QtCore.QObject):
|
|
oid = id(obj)
|
|
if oid not in QObjCache:
|
|
QObjCache[oid] = typeStr(obj) + " " + obj.objectName()
|
|
try:
|
|
QObjCache[oid] += " " + obj.parent().objectName()
|
|
QObjCache[oid] += " " + obj.text()
|
|
except:
|
|
pass
|
|
print("check obj", oid, str(QObjCache[oid]))
|
|
if obj.parent() is None:
|
|
walkQObjectTree(obj, count, verbose)
|
|
|
|
typs = list(count.keys())
|
|
typs.sort()
|
|
for t in typs:
|
|
print(count[t], "\t", t)
|
|
|