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I've tried my best to figure this out, but I can't for the life of me. I have a dictionary with many different values in it, including another dictionary. Before setting the values for the dictionary within the dictionary, I try to set the values equal to a "blank" dictionary such that in subsequent steps I can update it.

The short story is: I have two lines that somehow are changing a dictionary that I wouldn't expect. Given some dicts: blankresiduedict = {stuff:[stuff], stuff:[stuff]}; blankidentifiers = {stuff:stuff, stuff:stuff}

the lines

self.pdb_chain_dict['1MH9_B'] = (blankresiduedict.copy(),blankidentifiers.copy())
self.pdb_chain_dict['1MH9_B'][0][(stuff)][0] = residuedict[('A','D','41')]

are somehow changing the values of blankresiduedict to be equal to residuedict.

Any idea how this is happening? There is literally no other reference to blankresiduedict in that section of code, and when I look at the output, blankresiduedict starts out accurate and then with each loop keeps changing value to equal whatever residuedict was for that loop.



(Below is a more detailed description)

This is a small part of a very large project, so some of this may really be hard to represent in a compact form. I'll do my best to eliminate the unnecessary stuff. This is a method within a class that I am trying to use to update the dictionary for the class instance.

blankresiduedict = {}
blankidentifiers = {}
self.allowmultiples = True
self.ancestorline = [
    '1MH9', 
    'A', 'D', '41',
    'A', 'D', '43',
    'A', 'T', '130', 
    #etc...
]
self.no_key_residues = 6
self.pdb_chain_dict = {
    '1MH9_B': (
        {
            ('A','D','41'): [('B','D','41')],
            ('A','D','43'): [('B','D','43')], 
            ('A','T','130'): [('B','T','130')]
        }, 
        #{identifiers dictionary}
    ), 
    '1MH9_C': (
        #{etc},{etc}
    ), 
    # etc...
}


for i in range(1, (3*self.no_key_residues)+1, 3): # Using this loop structure allows a variable number of key residues to be given
    if not self.allowmultiples:
        raise Exception("Do some stuff here")
    else:
        blankresiduedict[(self.ancestorline[i],self.ancestorline[i+1],self.ancestorline[i+2])] = [('-','-','-')] 
blankidentifiers = {'EC Num':'-','Sprot':'-','Class':'-','Keywords':'-','Title':'-','SeqRepr':'-'}

### Begin some loop structure, where for every loop, the following is basically happening
residuedict = {
    ('A','D','41'): ('B','D','10'), 
    ('A','D','43'): ('B','D','12')
} #in actuality this value would change for every loop, but just showing what a typical loop would look like
self.pdb_chain_dict['1MH9_B'] = (blankresiduedict.copy(),blankidentifiers.copy())
self.pdb_chain_dict['1MH9_B'][0][('A','D','41')][0] = residuedict[('A','D','41')]

What should happen here is that the value in the pdb_chain_dict is set to the the tuple of two blank dictionaries ({residuedict},{identifiers}) I'm mostly leaving the identifier dictionary alone in this example because it has the exact same problem. However, what I'm finding is that the blankresiduedict is actually changing. And, after doing a lot of testing, the line where it is changing is self.pdb_chain_dict['1MH9_B'][0][('A,'D','41')][0] = residuedict[('A','D','41')].

This makes no sense to me...blankresiduedict is not even involved, yet somehow it's value is being changed in that step.

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1 Answer 1

up vote 3 down vote accepted

That's because a copy of a dictionary is not a deep copy, and your dict values are lists, which are mutable. Here's a minimal example that reproduces your issue:

d1 = {"foo": [1, 2, 3]}
d2 = d1.copy()
# Add a new element to d2 to show that the copy worked
d2["bar"] = []

# The two dicts are different.
print d1
print d2

# However, the list wasn't copied 
# it's the same object that shows up in 2 different dicts
print d1["foo"] is d2["foo"]

# So that's what happens in your code: you're mutating the list.
d1["foo"].append(5)
print d2["foo"]
share|improve this answer
    
Oh wow, I didn't realize that. That's a good illustration of how the copy is not "deep", but how can I generate a genuine copy while retaining the list? One approach I just tried out was "recreating" the blank dictionaries for each loop so that they can effectively not be rewritten. However, this does not feel like a very "Pythonic" way of handling it. –  Brandon Turner Dec 26 '13 at 22:14
1  
The problem is not the dict itself, it's the list that it contains. I'd suggest recreating the list instead of mutating it, e.g. d2["foo"] = [1, 2, 3, 5] in my example, or rebuilding self.pdb_chain_dict['1MH9_B'][0][('A,'D','41')] in yours. Alternately, the deepcopy module will, as the name implies, make deep copies, but I find its use distasteful. –  Max Noel Dec 26 '13 at 22:17
    
I'd use copy.deepcopy (or a language where everything is mutable). –  sweeneyrod Dec 26 '13 at 22:25
1  
@sweeneyrod: Note that mutability, in this case, is the reason why there is a problem in the first place ;) –  Max Noel Dec 26 '13 at 22:28
    
@MaxNoel Yeah, I meant immutable! –  sweeneyrod Dec 27 '13 at 11:36
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