mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-29 06:32:40 -06:00
212 lines
8.3 KiB
Python
Executable file
212 lines
8.3 KiB
Python
Executable file
"""Undocumented Module"""
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__all__ = ['findClass', 'rebindClass', 'copyFuncs', 'replaceMessengerFunc', 'replaceTaskMgrFunc', 'replaceStateFunc', 'replaceCRFunc', 'replaceAIRFunc', 'replaceIvalFunc']
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import time
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import types
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import os
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import sys
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def findClass(className):
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"""
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Look in sys.modules dictionary for a module that defines a class
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with this className.
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"""
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for moduleName, module in sys.modules.items():
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# Some modules are None for some reason
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if module:
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# print "Searching in ", moduleName
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classObj = module.__dict__.get(className)
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# If this modules defines some object called classname and the
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# object is a class or type definition and that class's module
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# is the same as the module we are looking in, then we found
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# the matching class and a good module namespace to redefine
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# our class in.
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if (classObj and
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((type(classObj) == types.ClassType) or
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(type(classObj) == types.TypeType)) and
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(classObj.__module__ == moduleName)):
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return [classObj, module.__dict__]
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return None
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def rebindClass(filename):
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file = open(filename, 'r')
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lines = file.readlines()
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for i in xrange(len(lines)):
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line = lines[i]
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if (line[0:6] == 'class '):
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# Chop off the "class " syntax and strip extra whitespace
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classHeader = line[6:].strip()
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# Look for a open paren if it does inherit
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parenLoc = classHeader.find('(')
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if parenLoc > 0:
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className = classHeader[:parenLoc]
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else:
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# Look for a colon if it does not inherit
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colonLoc = classHeader.find(':')
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if colonLoc > 0:
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className = classHeader[:colonLoc]
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else:
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print 'error: className not found'
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# Remove that temp file
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file.close()
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os.remove(filename)
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return
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print 'Rebinding class name: ' + className
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break
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# Try to find the original class with this class name
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res = findClass(className)
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if not res:
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print ('Warning: Finder could not find class')
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# Remove the temp file we made
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file.close()
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os.remove(filename)
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return
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# Store the original real class
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realClass, realNameSpace = res
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# Now execute that class def in this namespace
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execfile(filename, realNameSpace)
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# That execfile should have created a new class obj in that namespace
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tmpClass = realNameSpace[className]
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# Copy the functions that we just redefined into the real class
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copyFuncs(tmpClass, realClass)
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# Now make sure the original class is in that namespace,
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# not our temp one from the execfile. This will help us preserve
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# class variables and other state on the original class.
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realNameSpace[className] = realClass
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# Remove the temp file we made
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file.close()
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os.remove(filename)
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print (' Finished rebind')
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def copyFuncs(fromClass, toClass):
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replaceFuncList = []
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newFuncList = []
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# Copy the functions from fromClass into toClass dictionary
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for funcName, newFunc in fromClass.__dict__.items():
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# Filter out for functions
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if (type(newFunc) == types.FunctionType):
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# See if we already have a function with this name
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oldFunc = toClass.__dict__.get(funcName)
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if oldFunc:
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"""
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# This code is nifty, but with nested functions, give an error:
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# SystemError: cellobject.c:22: bad argument to internal function
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# Give the new function code the same filename as the old function
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# Perhaps there is a cleaner way to do this? This was my best idea.
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newCode = types.CodeType(newFunc.func_code.co_argcount,
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newFunc.func_code.co_nlocals,
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newFunc.func_code.co_stacksize,
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newFunc.func_code.co_flags,
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newFunc.func_code.co_code,
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newFunc.func_code.co_consts,
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newFunc.func_code.co_names,
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newFunc.func_code.co_varnames,
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# Use the oldFunc's filename here. Tricky!
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oldFunc.func_code.co_filename,
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newFunc.func_code.co_name,
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newFunc.func_code.co_firstlineno,
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newFunc.func_code.co_lnotab)
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newFunc = types.FunctionType(newCode,
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newFunc.func_globals,
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newFunc.func_name,
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newFunc.func_defaults,
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newFunc.func_closure)
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"""
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replaceFuncList.append((oldFunc, funcName, newFunc))
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else:
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# TODO: give these new functions a proper code filename
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newFuncList.append((funcName, newFunc))
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# Look in the messenger, taskMgr, and other globals that store func
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# pointers to see if this old function pointer is stored there, and
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# update it to the new function pointer.
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replaceMessengerFunc(replaceFuncList)
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replaceTaskMgrFunc(replaceFuncList)
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replaceStateFunc(replaceFuncList)
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replaceCRFunc(replaceFuncList)
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replaceAIRFunc(replaceFuncList)
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replaceIvalFunc(replaceFuncList)
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# Now that we've the globals funcs, actually swap the pointers in
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# the new class to the new functions
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for oldFunc, funcName, newFunc in replaceFuncList:
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# print "replacing old func: ", oldFunc, funcName, newFunc
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setattr(toClass, funcName, newFunc)
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# Add the brand new functions too
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for funcName, newFunc in newFuncList:
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# print "adding new func: ", oldFunc, funcName, newFunc
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setattr(toClass, funcName, newFunc)
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def replaceMessengerFunc(replaceFuncList):
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try:
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messenger
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except:
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return
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for oldFunc, funcName, newFunc in replaceFuncList:
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res = messenger.replaceMethod(oldFunc, newFunc)
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if res:
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print ('replaced %s messenger function(s): %s' % (res, funcName))
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def replaceTaskMgrFunc(replaceFuncList):
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try:
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taskMgr
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except:
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return
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for oldFunc, funcName, newFunc in replaceFuncList:
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if taskMgr.replaceMethod(oldFunc, newFunc):
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print ('replaced taskMgr function: %s' % funcName)
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def replaceStateFunc(replaceFuncList):
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if not sys.modules.get('base.direct.fsm.State'):
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return
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from direct.fsm.State import State
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for oldFunc, funcName, newFunc in replaceFuncList:
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res = State.replaceMethod(oldFunc, newFunc)
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if res:
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print ('replaced %s FSM transition function(s): %s' % (res, funcName))
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def replaceCRFunc(replaceFuncList):
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try:
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base.cr
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except:
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return
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# masad: Gyedo's fake cr causes a crash in followingreplaceMethod on rebinding, so
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# I throw in the isFake check. I still think the fake cr should be eliminated.
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if hasattr(base.cr,'isFake'):
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return
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for oldFunc, funcName, newFunc in replaceFuncList:
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if base.cr.replaceMethod(oldFunc, newFunc):
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print ('replaced DistributedObject function: %s' % funcName)
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def replaceAIRFunc(replaceFuncList):
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try:
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simbase.air
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except:
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return
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for oldFunc, funcName, newFunc in replaceFuncList:
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if simbase.air.replaceMethod(oldFunc, newFunc):
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print ('replaced DistributedObject function: %s' % funcName)
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def replaceIvalFunc(replaceFuncList):
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# Make sure we have imported IntervalManager and thus created
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# a global ivalMgr.
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if not sys.modules.get('base.direct.interval.IntervalManager'):
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return
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from direct.interval.FunctionInterval import FunctionInterval
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for oldFunc, funcName, newFunc in replaceFuncList:
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res = FunctionInterval.replaceMethod(oldFunc, newFunc)
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if res:
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print ('replaced %s interval function(s): %s' % (res, funcName))
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