# Calculate difference in keys contained in two Python dictionaries

Suppose I have two Python dictionaries - `dictA` and `dictB`. I need to find out if there are any keys which are present in `dictB` but not in `dictA`. What is the fastest way to go about it?

Should I convert the dictionary keys into a set and then go about?

Apologies for not stating my question properly. My scenario is like this - I have a `dictA` which can be the same as `dictB` or may have some keys missing as compared to `dictB` or else the value of some keys might be different which has to be set to that of `dictA` key's value.

Problem is the dictionary has no standard and can have values which can be dict of dict.

Say

``````dictA={'key1':a, 'key2':b, 'key3':{'key11':cc, 'key12':dd}, 'key4':{'key111':{....}}}
dictB={'key1':a, 'key2:':newb, 'key3':{'key11':cc, 'key12':newdd, 'key13':ee}.......
``````

So 'key2' value has to be reset to the new value and 'key13' has to be added inside the dict. The key value does not have a fixed format. It can be a simple value or a dict or a dict of dict.

-

You can use set operations on the keys:

``````diff = set(dictb.keys()) - set(dicta.keys())
``````

Here is a class to find all the possibilities: what was added, what was removed, which key-value pairs are the same, and which key-value pairs are changed.

``````class DictDiffer(object):
"""
Calculate the difference between two dictionaries as:
(2) items removed
(3) keys same in both but changed values
(4) keys same in both and unchanged values
"""
def __init__(self, current_dict, past_dict):
self.current_dict, self.past_dict = current_dict, past_dict
self.set_current, self.set_past = set(current_dict.keys()), set(past_dict.keys())
self.intersect = self.set_current.intersection(self.set_past)
return self.set_current - self.intersect
def removed(self):
return self.set_past - self.intersect
def changed(self):
return set(o for o in self.intersect if self.past_dict[o] != self.current_dict[o])
def unchanged(self):
return set(o for o in self.intersect if self.past_dict[o] == self.current_dict[o])
``````

Here is some sample output:

``````>>> a = {'a': 1, 'b': 1, 'c': 0}
>>> b = {'a': 1, 'b': 2, 'd': 0}
>>> d = DictDiffer(b, a)
>>> print "Removed:", d.removed()
Removed: set(['c'])
>>> print "Changed:", d.changed()
Changed: set(['b'])
>>> print "Unchanged:", d.unchanged()
Unchanged: set(['a'])
``````

Available as a github repo: https://github.com/hughdbrown/dictdiffer

-
Smart solution, thanks! I've made it work with nested dicts by checking whether changed or unchanged values are dict instances and calling a recursive function to check them again using your class. – AJJ Dec 12 '12 at 12:24
@AJJ: Open-sourced the code on github: github.com/hughdbrown/dictdiffer Let the pull requests begin! – hughdbrown Jan 14 '13 at 20:33
@AJJ I'd love to see that implementation. – urschrei Mar 7 '13 at 11:30
@urschrei: AJJ submitted a github pull request for this github.com/hughdbrown/dictdiffer/pull/3. I have not gotten around to reviewing it yet. You could take his implementation if you weren't willing to wait on me: github.com/ajweb/dictdiffer. – hughdbrown Apr 23 '13 at 13:14
How about a `def update(self, new_dict): self.__init__(new_dict, self.current_dict)` or the like so you can do a rolling comparison – Nick T Oct 21 '13 at 20:02

not sure whether its "fast" or not, but normally, one can do this

``````dicta = {"a":1,"b":2,"c":3,"d":4}
dictb = {"a":1,"d":2}
for key in dicta.keys():
if not key in dictb:
print key
``````
-
You have to swap `dicta` and `dictb` since he wants to know those keys of `dictb` that are not in `dicta`. – Gumbo Jul 22 '09 at 13:51

As Alex Martelli wrote, if you simply want to check if any key in B is not in A, `any(True for k in dictB if k not in dictA)` would be the way to go.

To find the keys that are missing:

``````diff = set(dictB)-set(dictA) #sets

C:\Dokumente und Einstellungen\thc>python -m timeit -s "dictA =
dict(zip(range(1000),range
(1000))); dictB = dict(zip(range(0,2000,2),range(1000)))" "diff=set(dictB)-set(dictA)"
10000 loops, best of 3: 107 usec per loop

diff = [ k for k in dictB if k not in dictA ] #lc

C:\Dokumente und Einstellungen\thc>python -m timeit -s "dictA =
dict(zip(range(1000),range
(1000))); dictB = dict(zip(range(0,2000,2),range(1000)))" "diff=[ k for k in dictB if
k not in dictA ]"
10000 loops, best of 3: 95.9 usec per loop
``````

So those two solutions are pretty much the same speed.

-
This makes more sense: `any(k not in dictA for k in dictB)` – hughdbrown May 2 '11 at 10:07

If you really mean exactly what you say (that you only need to find out IF "there are any keys" in B and not in A, not WHICH ONES might those be if any), the fastest way should be:

``````if any(True for k in dictB if k not in dictA): ...
``````

If you actually need to find out WHICH KEYS, if any, are in B and not in A, and not just "IF" there are such keys, then existing answers are quite appropriate (but I do suggest more precision in future questions if that's indeed what you mean;-).

-

In case you want the difference recursively, I have written a package for python: https://github.com/seperman/deepdiff

## Installation

Install from PyPi:

``````pip install deepdiff
``````

## Example usage

Importing

``````>>> from deepdiff import DeepDiff
>>> from pprint import pprint
>>> from __future__ import print_function # In case running on Python 2
``````

Same object returns empty

``````>>> t1 = {1:1, 2:2, 3:3}
>>> t2 = t1
>>> print(DeepDiff(t1, t2))
{}
``````

Type of an item has changed

``````>>> t1 = {1:1, 2:2, 3:3}
>>> t2 = {1:1, 2:"2", 3:3}
>>> print(DeepDiff(t1, t2))
{'type_changes': ["root[2]: 2=<type 'int'> ===> 2=<type 'str'>"]}
``````

Value of an item has changed

``````>>> t1 = {1:1, 2:2, 3:3}
>>> t2 = {1:1, 2:4, 3:3}
>>> print(DeepDiff(t1, t2))
{'values_changed': ['root[2]: 2 ===> 4']}
``````

``````>>> t1 = {1:1, 2:2, 3:3, 4:4}
>>> t2 = {1:1, 2:4, 3:3, 5:5, 6:6}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff)
'dic_item_removed': ['root[4]'],
'values_changed': ['root[2]: 2 ===> 4']}
``````

String difference

``````>>> t1 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":"world"}}
>>> t2 = {1:1, 2:4, 3:3, 4:{"a":"hello", "b":"world!"}}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff, indent = 2)
{ 'values_changed': [ 'root[2]: 2 ===> 4',
"root[4]['b']: 'world' ===> 'world!'"]}
>>>
>>> print (ddiff['values_changed'][1])
root[4]['b']: 'world' ===> 'world!'
``````

String difference 2

``````>>> t1 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":"world!\nGoodbye!\n1\n2\nEnd"}}
>>> t2 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":"world\n1\n2\nEnd"}}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff, indent = 2)
{ 'values_changed': [ "root[4]['b']:\n"
'--- \n'
'+++ \n'
'@@ -1,5 +1,4 @@\n'
'-world!\n'
'-Goodbye!\n'
'+world\n'
' 1\n'
' 2\n'
' End']}
>>>
>>> print (ddiff['values_changed'][0])
root[4]['b']:
---
+++
@@ -1,5 +1,4 @@
-world!
-Goodbye!
+world
1
2
End
``````

Type change

``````>>> t1 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 2, 3]}}
>>> t2 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":"world\n\n\nEnd"}}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff, indent = 2)
{ 'type_changes': [ "root[4]['b']: [1, 2, 3]=<type 'list'> ===> world\n"
'\n'
'\n'
"End=<type 'str'>"]}
``````

List difference

``````>>> t1 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 2, 3, 4]}}
>>> t2 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 2]}}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff, indent = 2)
{'iterable_item_removed': ["root[4]['b']: [3, 4]"]}
``````

List difference 2:

``````>>> t1 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 2, 3]}}
>>> t2 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 3, 2, 3]}}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff, indent = 2)
'values_changed': ["root[4]['b'][1]: 2 ===> 3", "root[4]['b'][2]: 3 ===> 2"]}
``````

List that contains dictionary:

``````>>> t1 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 2, {1:1, 2:2}]}}
>>> t2 = {1:1, 2:2, 3:3, 4:{"a":"hello", "b":[1, 2, {1:3}]}}
>>> ddiff = DeepDiff(t1, t2)
>>> pprint (ddiff, indent = 2)
{ 'dic_item_removed': ["root[4]['b'][2][2]"],
'values_changed': ["root[4]['b'][2][1]: 1 ===> 3"]}
``````

Sets:

``````>>> t1 = {1, 2, 8}
>>> t2 = {1, 2, 3, 5}
>>> ddiff = DeepDiff(t1, t2)
>>> print (DeepDiff(t1, t2))
{'set_item_added': ['root: [3, 5]'], 'set_item_removed': ['root: [8]']}
``````

Named Tuples:

``````>>> from collections import namedtuple
>>> Point = namedtuple('Point', ['x', 'y'])
>>> t1 = Point(x=11, y=22)
>>> t2 = Point(x=11, y=23)
>>> print (DeepDiff(t1, t2))
{'values_changed': ['root.y: 22 ===> 23']}
``````

Custom objects:

``````>>> class ClassA(object):
...     a = 1
...     def __init__(self, b):
...         self.b = b
...
>>> t1 = ClassA(1)
>>> t2 = ClassA(2)
>>>
>>> print(DeepDiff(t1, t2))
{'values_changed': ['root.b: 1 ===> 2']}
``````

``````>>> t2.c = "new attribute"
>>> print(DeepDiff(t1, t2))
{'attribute_added': ['root.c'], 'values_changed': ['root.b: 1 ===> 2']}
``````
-

There is an other question in stackoverflow about this argument and i have to admit that there is a simple solution explained: the datadiff library of python helps printing the difference between two dictionaries.

-

Here's a way that will work, allows for keys that evaluate to `False`, and still uses a generator expression to fall out early if possible. It's not exceptionally pretty though.

``````any(map(lambda x: True, (k for k in b if k not in a)))
``````

EDIT:

THC4k posted a reply to my comment on another answer. Here's a better, prettier way to do the above:

``````any(True for k in b if k not in a)
``````

Not sure how that never crossed my mind...

-

If on Python ≥ 2.7:

``````# update different values in dictB
# I would assume only dictA should be updated,
# but the question specifies otherwise

for k in dictA.viewkeys() & dictB.viewkeys():
if dictA[k] != dictB[k]:
dictB[k]= dictA[k]

# add missing keys to dictA

dictA.update( (k,dictB[k]) for k in dictB.viewkeys() - dictA.viewkeys() )
``````
-

what about standart (compare FULL Object)

PyDev->new PyDev Module->Module: unittest

``````import unittest

class Test(unittest.TestCase):

def testName(self):
obj1 = {1:1, 2:2}
obj2 = {1:1, 2:2}
self.maxDiff = None # sometimes is usefull
self.assertDictEqual(d1, d2)

if __name__ == "__main__":
#import sys;sys.argv = ['', 'Test.testName']

unittest.main()
``````
-

This is an old question and asks a little bit less than what I needed so this answer actually solves more than this question asks. The answers in this question helped me solve the following:

1. (asked) Record differences between two dictionaries
2. Merge differences from #1 into base dictionary
3. (asked) Merge differences between two dictionaries (treat dictionary #2 as if it were a diff dictionary)
4. Try to detect item movements as well as changes
5. (asked) Do all of this recursively

All this combined with JSON makes for a pretty powerful configuration storage support.

The solution (also on github):

``````from collections import OrderedDict
from pprint import pprint

class izipDestinationMatching(object):
__slots__ = ("attr", "value", "index")

def __init__(self, attr, value, index):
self.attr, self.value, self.index = attr, value, index

def __repr__(self):
return "izip_destination_matching: found match by '%s' = '%s' @ %d" % (self.attr, self.value, self.index)

"""
Returns zipped lists, but final size is equal to b with (if shorter) a padded with nulls
Additionally also tries to find item reallocations by searching child dicts (if they are dicts) for attribute, listed in attrs)
When addMarker == False (patching), final size will be the longer of a, b
"""
for idx, item in enumerate(b):
try:
attr = next((x for x in attrs if x in item), None)  # See if the item has any of the ID attributes
match, matchIdx = next(((orgItm, idx) for idx, orgItm in enumerate(a) if attr in orgItm and orgItm[attr] == item[attr]), (None, None)) if attr else (None, None)
if match and matchIdx != idx and addMarker: item[izipDestinationMatching] = izipDestinationMatching(attr, item[attr], matchIdx)
except:
match = None
yield (match if match else a[idx] if len(a) > idx else None), item
if not addMarker and len(a) > len(b):
for item in a[len(b) - len(a):]:
yield item, item

def dictdiff(a, b, searchAttrs=[]):
"""
returns a dictionary which represents difference from a to b
the return dict is as short as possible:
equal items are removed
added / changed items are listed
removed items are listed with value=None
Also processes list values where the resulting list size will match that of b.
It can also search said list items (that are dicts) for identity values to detect changed positions.
In case such identity value is found, it is kept so that it can be re-found during the merge phase
@param a: original dict
@param b: new dict
@param searchAttrs: list of strings (keys to search for in sub-dicts)
@return: dict / list / whatever input is
"""
if not (isinstance(a, dict) and isinstance(b, dict)):
if isinstance(a, list) and isinstance(b, list):
return [dictdiff(v1, v2, searchAttrs) for v1, v2 in izip_destination(a, b, searchAttrs)]
return b
res = OrderedDict()
if izipDestinationMatching in b:
keepKey = b[izipDestinationMatching].attr
del b[izipDestinationMatching]
else:
keepKey = izipDestinationMatching
for key in sorted(set(a.keys() + b.keys())):
v1 = a.get(key, None)
v2 = b.get(key, None)
if keepKey == key or v1 != v2: res[key] = dictdiff(v1, v2, searchAttrs)
if len(res) <= 1: res = dict(res)  # This is only here for pretty print (OrderedDict doesn't pprint nicely)
return res

def dictmerge(a, b, searchAttrs=[]):
"""
Returns a dictionary which merges differences recorded in b to base dictionary a
Also processes list values where the resulting list size will match that of a
It can also search said list items (that are dicts) for identity values to detect changed positions
@param a: original dict
@param b: diff dict to patch into a
@param searchAttrs: list of strings (keys to search for in sub-dicts)
@return: dict / list / whatever input is
"""
if not (isinstance(a, dict) and isinstance(b, dict)):
if isinstance(a, list) and isinstance(b, list):
return [dictmerge(v1, v2, searchAttrs) for v1, v2 in izip_destination(a, b, searchAttrs, False)]
return b
res = OrderedDict()
for key in sorted(set(a.keys() + b.keys())):
v1 = a.get(key, None)
v2 = b.get(key, None)
#print "processing", key, v1, v2, key not in b, dictmerge(v1, v2)
if v2 is not None: res[key] = dictmerge(v1, v2, searchAttrs)
elif key not in b: res[key] = v1
if len(res) <= 1: res = dict(res)  # This is only here for pretty print (OrderedDict doesn't pprint nicely)
return res
``````
-

Not sure if it is still relevant but I came across this problem, my situation i just needed to return a dictionary of the changes for all nested dictionaries etc etc. Could not find a good solution out there but I did end up writing a simple function to do this. Hope this helps,

-
It would be preferable to have the smallest amount of code that fixes the OP's problem actually in the answer, instead of a link. If the link dies or moves, your answer becomes useless. – George Stocker May 9 '13 at 12:22

Here is a solution for deep comparing 2 dictionaries keys:

``````def compareDictKeys(dict1, dict2):
if type(dict1) != dict or type(dict2) != dict:
return False

keys1, keys2 = dict1.keys(), dict2.keys()
diff = set(keys1) - set(keys2) or set(keys2) - set(keys1)

if not diff:
for key in keys1:
if (type(dict1[key]) == dict or type(dict2[key]) == dict) and not compareDictKeys(dict1[key], dict2[key]):
diff = True
break

return not diff
``````
-

If you want a built-in solution for a full comparison with arbitrary dict structures, @Maxx's answer is a good start.

``````import unittest

test = unittest.TestCase()
test.assertEqual(dictA, dictB)
``````
-
You apparently can't instantiate a test class like that, which is too bad. – Ben Liyanage Oct 6 '15 at 22:59

here's a solution that can compare more than two dicts:

``````def diff_dict(dicts, default=None):
diff_dict = {}
# add 'list()' around 'd.keys()' for python 3 compatibility
for k in set(sum([d.keys() for d in dicts], [])):
# we can just use "values = [d.get(k, default) ..." below if
# we don't care that d1[k]=default and d2[k]=missing will
# be treated as equal
if any(k not in d for d in dicts):
diff_dict[k] = [d.get(k, default) for d in dicts]
else:
values = [d[k] for d in dicts]
if any(v != values[0] for v in values):
diff_dict[k] = values
return diff_dict
``````

usage example:

``````import matplotlib.pyplot as plt
diff_dict([plt.rcParams, plt.rcParamsDefault, plt.matplotlib.rcParamsOrig])
``````
-

``````dicta = {"a":1,"d":2}