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The actual contents of the file can be viewed below.

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#!/usr/bin/env python

# Copyright (c) 2013 Jose M. Dana
#
# This file is part of memprof.
#
# memprof is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation (version 3 of the License only).
#
# memprof is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with memprof.  If not, see <http://www.gnu.org/licenses/>.

import sys
import time
import copy
import types
import argparse
import types

from .mp_utils import *
from .getsize import getSize, isInteresting

def memprof(*args, **kwargs):
  def inner(func):    
    return MemProf(func, *args, **kwargs)
  
  # To allow @memprof with parameters
  if len(args) and callable(args[0]):
    func = args[0]
    args = args[1:]
    return inner(func)
  else:
    return inner
  
  
class MemProf(object):
  def __init__(self,func,threshold = default_threshold, plot = False):      
    self.func = func
    self.__locals = {}
    self.__start = -1
    self.__prev = -1
    self.__cache = {}
    self.__refresh = 500000
    self.__ticks = 0
    self.__checkTimes = []
    self.__logfile = "%s.log" % self.func.__name__
    
    self.__plot = self.func.__globals__["memprof_plot"]  if "memprof_plot" in self.func.__globals__ else plot
    self.threshold = self.func.__globals__["memprof_threshold"]  if "memprof_threshold" in self.func.__globals__ else threshold
              
    self.__units,self.__factor = get_units_factor(self.threshold)
                        
    self.__log = None

  def __get__(self, obj, type=None):
    if obj is None:
      func = self.func
      if not hasattr(func, "__call__"):
        self.func = func.__get__(None, ownerClass)
        return self
    else:
      # Return a wrapper that binds self as a method of obj (!)
      return types.MethodType(self, obj)
    
  def tracer(self,frame, event, arg):
    if event not in ["line", "call", "return"]:
      return 

    self.__ticks += 1
          
    if (event in ["call","return"] and frame.f_code.co_name == self.func.__name__) or self.__ticks >= self.__refresh:
      self.__ticks = 0
      self.__locals = dict(list(frame.f_locals.items()) + list(frame.f_globals.items()))

      self.__locals.pop('__builtins__',None)
      self.__locals.pop('__loader__',None)
      self.__locals.pop('__cached__',None)
      self.__locals.pop('__package__',None)
      self.__locals.pop('__doc__',None)
      self.__locals.pop('__name__',None)
      self.__locals.pop('__file__',None)
      self.checkMem()
    
    return self.tracer
    
  def checkMem(self):
    now = time.time()
  
    self.__prev,elapsed = now, now - self.__prev
    from_start = now - self.__start
    
    print("\n")
    print("*" * 12)
    print("%ds (+%ds)" % (from_start,elapsed))
    print("*" * 12)
    
    self.__checkTimes.append(from_start)
   
    self.__log.write("%f\n" % from_start)
    
    for item, value in filter(lambda x: (x[1] is not self.__class__) and isInteresting(x[1]),self.__locals.items()):
      size = getSize(value)

      self.__log.write("%s\t%d\n" % (item,size))
      
      if size > self.threshold:
        size /= self.__factor
      
        try:
          prev = self.__cache[item][-1]
        except (IndexError,KeyError) as e:
          prev = 0
        
        self.__cache.setdefault(item,[]).append(size)
        
        if len(self.__cache[item]) < len(self.__checkTimes):
          self.__cache[item][-1:-1] = [0] * (len(self.__checkTimes) - len(self.__cache[item]))
              
        print("%s: %.2f %s%s" % (item, size, self.__units, "\t(%s%.2f %s)" % ("+" if size-prev > 0 else "", size-prev, self.__units) if prev > 0 else ""))
  
  def __call__(self,*args, **kwargs):
    print("memprof starting (min. size: %d)" % (self.threshold))

    if self.__start == -1:
      self.__prev = self.__start = time.time()
      self.__log = open(self.__logfile,"w")
    else:
      self.__log = open(self.__logfile,"a")
      
      self.__checkTimes.append(self.__prev - self.__start + 0.00000001)
      self.__log.write("%f\n" % (self.__prev - self.__start + 0.00000001))
      
      self.__checkTimes.append(time.time() - self.__start)
      self.__log.write("%f\n" % (time.time() - self.__start))
      
      self.__log.write("RESTART\n")
      
      for key in self.__cache.keys():
        self.__cache[key].append(0)
        self.__cache[key].append(0)
                      
    curr_tracer = sys.gettrace()
    sys.settrace(self.tracer)      
    
    res = self.func(*args, **kwargs)

    sys.settrace(curr_tracer)
    
    self.__log.close()
    self.__ticks = 0    
    
    if self.__plot:
      gen_plot(self.__logfile,self.threshold)
              
    print("memprof done")
    
    return res

def main():
  parser = argparse.ArgumentParser()
  
  parser.add_argument('-t','--threshold',type=int, default=default_threshold, action='store', help='threshold (default: %d bytes)' % default_threshold)
  parser.add_argument('-p','--plot', action='store_true', default=False,help='Generate plots (default: False)')

  args, unknown = parser.parse_known_args()
  
  sys.argv = unknown
  
  if sys.argv == []:
    parser.print_help()
    sys.exit(1)
    
  __file__ = sys.argv[0]
      
  ns_globals = {}
  ns_globals["memprof_plot"] = args.plot
  ns_globals["memprof_threshold"] = args.threshold
  
  if PY3:
    with open(__file__) as f:
      code = compile(f.read(), __file__, 'exec')
      exec(code, ns_globals)
  else:    
    execfile(__file__, ns_globals)
  
if __name__ == '__main__':    
  main()