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Can someone please explain this to me? This doesn't make any sense to me.

I copy a dictionary into another and edit the second and both are changed. Why is this happening?

>>> dict1 = {"key1": "value1", "key2": "value2"}
>>> dict2 = dict1
>>> dict2
{'key2': 'value2', 'key1': 'value1'}
>>> dict2["key2"] = "WHY?!"
>>> dict1
{'key2': 'WHY?!', 'key1': 'value1'}
share|improve this question

Python never implicitly copies objects. When you set dict2 = dict1, you are making them refer to the same exact dict object, so when you mutate it, all references to it keep referring to the object in its current state.

If you want to copy the dict (which is rare), you have to do so explicitly with

dict2 = dict(dict1)


dict2 = dict1.copy()
share|improve this answer
It might be better to say "dict2 and dict1 point to the same dictionary", you are not changing dict1 or dict2 but what they point to. – GrayWizardx Mar 17 '10 at 21:15
No I was saying that its a pointer thing, but then I tried to rewrite it without sounding like a curmudgeony old C++ programmer telling people that new languages suck. Its a common problem for people learning c++ as well. Your answer is perfect as is, and I already +1'ed it. – GrayWizardx Mar 17 '10 at 21:45
Also note that the dict.copy() is shallow, if there is a nested list/etc in there changes will be applied to both. IIRC. Deepcopy will avoid that. – Will Mar 18 '10 at 7:08
It is not quite correct that python never implicitly copies objects. Primitive data types, such as int, float, and bool, are also treated as objects (just do a dir(1) to see that), but they are implicitly copied. – daniel kullmann Mar 6 '12 at 10:34
@danielkullmann, I think you might have misunderstandings about Python based on how other languages you've dealt with work. In Python, a) There is no concept of "primitive data types". int, float, and bool instances are real Python objects, and b) objects of these types are not implicitly copied when you pass them, not at a semantic Python level for sure and not even as an implementation detail in CPython. – Mike Graham Mar 6 '12 at 15:03

When you assign dict2 = dict1, you are not making a copy of dict1, it results in dict2 being just another name for dict1.

To copy the mutable types like dictionaries, use copy / deepcopy of the copy module.

import copy

dict2 = copy.deepcopy(dict1)
share|improve this answer
For any dictionary I ever work with, deepcopy is what I need... I just lost several hours due to a bug that was because I wasn't getting a complete copy of a nested dictionary and my changes to nested entries were affecting the original. – flutefreak7 Apr 12 '14 at 23:01
I agree with @flutefreak7, this answer should have more upvotes – stupidbodo Sep 30 '14 at 12:33
Same here. deepcopy() does the trick. Was messing up my nested dicts inside a rotating cache by adding a timestamp to a 'copy' of the original event. Thank you! – fxstein Feb 10 '15 at 3:05
>>> x={'a': 1, 'b': {'m': 4, 'n': 5, 'o': 6}, 'c': 3}
>>> u=x.copy()
>>> v=dict(x)
>>> import copy
>>> w=copy.deepcopy(x)
>>> x['a']=10
>>> x
{'a': 10, 'c': 3, 'b': {'m': 4, 'o': 6, 'n': 5}}
>>> u
{'a': 1, 'c': 3, 'b': {'m': 4, 'o': 6, 'n': 5}}
>>> v
{'a': 1, 'c': 3, 'b': {'m': 4, 'o': 6, 'n': 5}}
>>> w
{'a': 1, 'c': 3, 'b': {'m': 4, 'o': 6, 'n': 5}}
>>> x['b']['m']=40
>>> x
{'a': 10, 'c': 3, 'b': {'m': 40, 'o': 6, 'n': 5}}
>>> u
{'a': 1, 'c': 3, 'b': {'m': 40, 'o': 6, 'n': 5}}
>>> v
{'a': 1, 'c': 3, 'b': {'m': 40, 'o': 6, 'n': 5}}
>>> w
{'a': 1, 'c': 3, 'b': {'m': 4, 'o': 6, 'n': 5}}
share|improve this answer
this should be the right answer as it doesn't to explicitly loop over the dict and can be used for other primary structures. – Nikkolasg Jan 22 '15 at 12:23
Just to clarify: w=copy.deepcopy(x) is the key line. – alcoholiday Sep 23 '15 at 14:06

You can also just make a new dictionary with a dictionary comprehension. This avoids importing copy.

dout = dict((k,v) for k,v in mydict.items())

Of course in python >= 2.7 you can do:

dout = {k:v for k,v in mydict.items()}

But for backwards compat., the top method is better.

share|improve this answer
Most probably it should be a } at the end of the second command. – petres Oct 28 '14 at 10:24
Thanks, fixed it. – Dashing Adam Hughes Dec 2 '14 at 21:42
This is particularly useful if you want more control over how and what exactly is copied. +1 – ApproachingDarknessFish Jan 26 '15 at 5:43
Note that this method does not perform a deep copy, and if you want a shallow copy with no need to control over keys to be copied, d2 = dict.copy(d1) doesn't require any imports either. – Jarek Piórkowski Aug 23 '15 at 23:23

dict2 = dict1 does not copy the dictionary. It simply gives you the programmer a second way (dict2) to refer to the same dictionary.

share|improve this answer

Every variable in python (stuff like dict1 or str or __builtins__ is a pointer to some hidden platonic "object" inside the machine.

If you set dict1 = dict2,you just point dict1 to the same object (or memory location, or whatever analogy you like) as dict2. Now, the object referenced by dict1 is the same object referenced by dict2.

You can check: dict1 is dict2 should be True. Also, id(dict1) should be the same as id(dict2).

You want dict1 = copy(dict2), or dict1 = deepcopy(dict2).

The difference between copy and deepcopy? deepcopy will make sure that the elements of dict2 (did you point it at a list?) are also copies.

I don't use deepcopy much - it's usually poor practice to write code that needs it (in my opinion).

share|improve this answer
I just realized I need to always be using deepcopy so that when I copy a nested dictionary and start modifying nested entries, the effects occur only on the copy and not the original. – flutefreak7 Apr 12 '14 at 23:04

This confused me too, initially, because I was coming from a C background.

In C, a variable is a location in memory with a defined type. Assigning to a variable copies the data into the variable's memory location.

But in Python, variables act more like pointers to objects. So assigning one variable to another doesn't make a copy, it just makes that variable name point to the same object.

share|improve this answer
python variables act more like c++ references – Ruggero Turra Mar 18 '10 at 8:58
Because everything in Python is an object! diveintopython.net/getting_to_know_python/… (yes, this response is many years late, but perhaps it's of some use to someone!) – grimman Nov 23 '13 at 12:24
I believe that Python language semantics say there are no "variables". They are called "named references"; meaning the reference to an object is a syntactic string in code. An object can have many named references to it. Immutable objects like ints and floats and str instances have only one instance of it per process. An int of 1 in memory does not change to a 2 or some other value at the same memory address when you do this myvalue=1 myvalue=2 – DevPlayer Jun 24 at 2:03

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