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Edit: Really appreciate help in finding bug - but since it might prove hard to find/reproduce, any general debug help would be greatly appreciated too! Help me help myself! =)

Edit 2: Narrowing it down, commenting out code.

Edit 3: Seems lxml might not be the culprit, thanks! The full script is here. I need to go over it looking for references. What do they look like?

Edit 4: Actually, the scripts stops (goes 100%) in this, the parse_og part of it. So edit 3 is false - it must be lxml somehow.

Edit 5 MAJOR EDIT: As suggested by David Robinson and TankorSmash below, I've found a type of data content that will send lxml.etree.HTML( data ) in a wild loop. (I carelessly disregarded it, but find my sins redeemed as I've paid a price to the tune of an extra two days of debug! ;) A working crashing script is here. (Also opened a new question.)

Edit 6: Turns out this is a bug with lxml version 2.7.8 and below (at least). Updated to lxml 2.9.0, and bug is gone. Thanks also to the fine folks over at this follow-up question.

I don't know how to debug this weird problem I'm having. The below code runs fine for about five minutes, when the RAM is suddenly completely filled up (from 200MB to 1700MB during the 100% period - then when memory is full, it goes into blue wait state).

It's due to the code below, specifically the first two lines. That's for sure. But what is going on? What could possibly explain this behaviour?

def parse_og(self, data):
    """ lxml parsing to the bone! """
    try:
        tree = etree.HTML( data ) # << break occurs on this line >>
        m = tree.xpath("//meta[@property]")

        #for i in m:
        #   y = i.attrib['property']
        #   x = i.attrib['content']
        #   # self.rj[y] = x  # commented out in this example because code fails anyway


        tree = ''
        m = ''
        x = ''
        y = ''
        i = ''

        del tree
        del m
        del x
        del y
        del i

    except Exception:
        print 'lxml error: ', sys.exc_info()[1:3]
        print len(data)
        pass

enter image description here

22
  • 1
    Can you link the HTML data so we can test the code too? Mar 8, 2013 at 19:52
  • 1
    Not to be difficult, but you've tried it with a variety of pages, and it doesn't matter what the data is you pass in? Mar 8, 2013 at 19:57
  • 1
    @knutole: perhaps there is some attribute of those specific pages that is causing it to break. Can you provide one example? Mar 8, 2013 at 20:01
  • 2
    @knutole: Presumably there was something common to those pages (that was why they were chosen?) Anyway, couldn't you just provide any one of them as an example? (I haven't been able to reproduce it either so far). Mar 8, 2013 at 20:09
  • 3
    Does it still happen with the whole for i in m: loop commented out? If so problem likely would be outside the routine, eg if input html text were being kept around (although 20 pages per second of 5000 byte pages for 300 seconds is only 30 megabytes). If memory use changes by 1GB due to 6000 ops, that's about 167KB per op. How big is a typical tree? Also, instead of tree = '' and m = '' you could say del m, tree Mar 8, 2013 at 22:32

3 Answers 3

3

You can try Low-level Python debugging with GDB. Probably there is a bug in Python interpreter or in lxml library and it is hard to find it without extra tools.

You can interrupt your script running under gdb when CPU usage goes to 100% and look at stack trace. It will probably help to understand what's going on inside script.

2

it must be due to some references which keep the documents alive. one must always be careful with string results from xpath evaluation. I see you have assigned None to tree and m but not to y,x and i .

Can you also assign None to y,x and i .

0
2

Tools are also helpful when trying to track down memory problems. I've found guppy to be a very useful Python memory profiling and exploration tool.

It is not the easiest to get started with due to a lack of good tutorials / documentation, but once you get to grips with it you will find it very useful. Features I make use of:

  • Remote memory profiling (via sockets)
  • Basic GUI for charting usage, optionally showing live data
  • Powerful, and consistent, interfaces for exploring data usage in a Python shell
2
  • Thanks for that. Can you find "lost" references with this tool?
    – knutole
    Mar 9, 2013 at 17:02
  • 1
    @knutole: With some effort, yes. You can take snapshots of memory state (i.e. before and after the suspected trigger for your problem) and compare them. So you can see just the changes. From there you can obtain the shortest path between global scope and the objecst of interest.
    – RobM
    Mar 28, 2013 at 18:56

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