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Let's say we have a Python dictionary d, and we're iterating over it like so:

for k,v in d.iteritems():
    del d[f(k)] # remove some item
    d[g(k)] = v # add a new item

(f and g are just some black-box transformations.)

In other words, we try to add/remove items to d while iterating over it using iteritems.

Is this well defined? Could you provide some references to support your answer?

(It's pretty obvious how to fix this if it's broken, so this isn't the angle I am after.)

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possible duplicate of python - why is it not safe to modify sequence being iterated on? –  matt b Jul 21 '11 at 14:18
1  
See stackoverflow.com/questions/5384914/… –  Todd Moses Jul 21 '11 at 14:21
    
I have tried to do this and it seems that if you leave initial dict size unchanged - e.g. replace any key/value instead of removing them then this code will not throw exception –  Artsiom Rudzenka Jul 21 '11 at 14:34

6 Answers 6

up vote 13 down vote accepted

It is explicitely mentioned on the Python doc page: http://docs.python.org/library/stdtypes.html#dict.iteritems that Using iteritems() while adding or deleting entries in the dictionary may raise a RuntimeError or fail to iterate over all entries.

The same holds for iter(d), d.iterkeys() and d.itervalues(), and I'll go as far as saying that it does for for k, v in d.items(): (I can't remember exactly what for does, but I would not be surprised if the implementation called iter(d)).

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Alex Martelli weighs in on this here.

It may not be safe to change the container (e.g. dict) while looping over the container. So del d[f(k)] may not be safe. As you know, the workaround is to use d.items() (to loop over an independent copy of the container) instead of d.iteritems() (which uses the same underlying container).

It is okay to modify the value at an existing index of the dict, but inserting values at new indices (e.g. d[g(k)]=v) may not work.

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2  
I think this is a key answer for me. A lot of use cases will have one process inserting things and another cleaning things up/deleting them so the advice to use d.items() works. Python 3 caveats not withstanding –  easytiger Apr 26 '13 at 8:25
    
More information about the Python 3 caveats can be found in PEP 469 where the semantic equivalents of the aforementioned Python 2 dict methods are enumerated. –  Lionel Brooks Sep 14 '14 at 21:16

You cannot do that, at least with d.iteritems(). I tried it, and Python fails with

RuntimeError: dictionary changed size during iteration

If you instead use d.items(), then it works.

In Python 3, d.items() is a view into the dictionary, like d.iteritems() in Python 2. To do this in Python 3, instead use d.copy().items(). This will similarly allow us to iterate over a copy of the dictionary in order to avoid modifying the data structure we are iterating over.

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1  
Except in Python 3… –  bradley.ayers Mar 23 '13 at 18:56
1  
I added Python 3 to my answer. –  murgatroid99 Mar 23 '13 at 19:27
1  
FYI, the literal translation (as e.g. used by 2to3) of Py2's d.items() to Py3 is list(d.items()), although d.copy().items() is probably of comparable efficiency. –  Søren Løvborg Jul 24 '13 at 10:26
    
If the dict object is very large, is d.copy().items() efficiet? –  dragonfly Oct 23 '13 at 9:50

The following code shows that this is not well defined:

def f(x):
    return x

def g(x):
    return x+1

def h(x):
    return x+10

try:
    d = {1:"a", 2:"b", 3:"c"}
    for k, v in d.iteritems():
        del d[f(k)]
        d[g(k)] = v+"x"
    print d
except Exception as e:
    print "Exception:", e

try:
    d = {1:"a", 2:"b", 3:"c"}
    for k, v in d.iteritems():
        del d[f(k)]
        d[h(k)] = v+"x"
    print d
except Exception as e:
    print "Exception:", e

The first example calls g(k), and throws an exception (dictionary changed size during iteration).

The second example calls h(k) and throws no exception, but outputs:

{21: 'axx', 22: 'bxx', 23: 'cxx'}

Which, looking at the code, seems wrong - I would have expected something like:

{11: 'ax', 12: 'bx', 13: 'cx'}
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I can understand why you might expect {11: 'ax', 12: 'bx', 13: 'cx'} but the 21,22,23 should give you clue as to what actually happened: your loop went through items 1, 2, 3, 11, 12, 13 but didn't manage to pick up the second round of new items as they got inserted in front of the items you had already iterated over. Change h() to return x+5 and you get another x: 'axxx' etc. or 'x+3' and you get the magnificent 'axxxxx' –  Duncan Jul 21 '11 at 14:39
    
Yeah, my mistake I'm afraid - my expected output was {11: 'ax', 12: 'bx', 13: 'cx'} as you said, so I'll update my post about it. Either way, this is clearly not well defined behaviour. –  combatdave Jul 21 '11 at 15:12

I got the same problem and I used following procedure to solve this issue.

Python List can be iterate even if you modify during iterating over it. so for following code it will print 1's infinitely.

for i in list:
   list.append(1)
   print 1

So using list and dict collaboratively you can solve this problem.

d_list=[]
 d_dict = {} 
 for k in d_list:
    if d_dict[k] is not -1:
       d_dict[f(k)] = -1 # rather than deleting it mark it with -1 or other value to specify that it will be not considered further(deleted)
       d_dict[g(k)] = v # add a new item 
       d_list.append(g(k))
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I have a large dictionary containing Numpy arrays, so the dict.copy().keys() thing suggested by @murgatroid99 was not feasible (thought it worked). Instead, I just converted the keys_view to a list and it worked fine (in Python 3.4):

for item in list(dict_d.keys()):
    temp = dict_d.pop(item)
    dict_d['some_key'] = 1  # Some value

I realize this doesn't dive into the philosophical realm of Python's inner workings like the answers above, but it does provide a practical solution to the stated problem.

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