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I'm not advocating that this would ever be a good idea, but I've found that you can crash Python (2.7 and 3.2 checked) by running eval on a large enough input string:

def kill_python(N):
    S = '+'.join((str(n) for n in xrange(N)))
    return eval(S)

On my computer S can be generated just fine, but for values of approximately N>74900, Python will fail with Segmentation fault (core dumped). Is there a limit to the length of string (or parse tree) that the interpreter can handle?

Note: I don't need to do this, to me this is a deeper question reflecting my ignorance of what goes on inside the box. I'd like to understand why Python fails here, and so catastrophically (why not throw an exception?)

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7  
IIRC, the Python interpreter segfaulting is considered a bug in any situation, and shouldn't happen - this might be worth a bug report. –  Lattyware Jul 24 '12 at 16:26
4  
@Lattyware: In most situations, not all. But this one should be considered a bug. –  Sven Marnach Jul 24 '12 at 16:27
    
Interestingly, sum(xrange(75000)) seems to work just fine –  inspectorG4dget Jul 24 '12 at 16:27
    
@SvenMarnach A few exceptions spring to mind (the most obvious being an extension module causing CPython to crash), but as this is core functionality, I think - as you say - it's probably a bug. –  Lattyware Jul 24 '12 at 16:29
4  
This has been seen in the answer here too: stackoverflow.com/questions/5177432/… –  jmetz Jul 24 '12 at 16:38

1 Answer 1

up vote 15 down vote accepted

This issue is caused by a stack overflow (sic!) in the CPython compiler. An easy way to reproduce the same issue is

>>> code = compile("1" + "+1" * 1000000, "", "eval")
Segmentation fault

which proves that the segfault is happening at the compile stage, not during evaluation. (Of course this is also easy to confirm with gdb.)

[Side note: For smaller expressions, the compiler would apply constant folding here anyway, so the only thing happening during the execution of the code is to load the result:

>>> code = compile("1" + "+1" * 1000, "", "eval")
>>> eval(code)
1001
>>> dis.dis(code)
  1           0 LOAD_CONST            1000 (1001)
              3 RETURN_VALUE        

End of side note.]

This issue is a known defect. The Python developers collected several ways to crash the Python interpreter in the directory Lib/test/crashers of the source distribution. The one corresponding to this issue is Lib/test/crashers/compiler_recursion.py.

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