# Comparing two dictionaries and checking how many (key, value) pairs are equal

I have two dictionaries, but for simplification, I will take these two:

``````>>> x = dict(a=1, b=2)
>>> y = dict(a=2, b=2)
``````

Now, I want to compare whether each `key, value` pair in `x` has the same corresponding value in `y`. So I wrote this:

``````>>> for x_values, y_values in zip(x.iteritems(), y.iteritems()):
if x_values == y_values:
print 'Ok', x_values, y_values
else:
print 'Not', x_values, y_values
``````

And it works since a `tuple` is returned and then compared for equality.

My questions:

Is this correct? Is there a better way to do this? Better not in speed, I am talking about code elegance.

UPDATE: I forgot to mention that I have to check how many `key, value` pairs are equal.

If you want to know how many values match in both the dictionaries, you should have said that :)

Maybe something like this:

``````shared_items = {k: x[k] for k in x if k in y and x[k] == y[k]}
print(len(shared_items))
``````
• Same error if there is list element for the dict key. I think cmp is better way to do it unless I am missing anything. Sep 22, 2015 at 20:22
• @Mutant that is a different issue. You cannot create a dictionary with a `list` key in the first place. `x = {[1,2]: 2}` will fail. The question already has valid `dicts`. Nov 18, 2015 at 17:11
• @annan: wrong, the question is generic. the example in the question description has already "valid dicts". If I post a new question, with same title, but with a different "invalid" dict, somebody will mark it as duplicate. Downvoting. Aug 11, 2016 at 15:54
• @ribamar the question is "Comparing two dictionaries [...]". The 'invalid dict' above with `list` keys is not valid python code - dict keys must be immutable. Therefore you are not comparing dictionaries. If you try and use a list as a dictionary key your code will not run. You have no objects for which to compare. This is like typing `x = dict(23\;dfg&^*\$^%\$^\$%^)` then complaining how the comparison does not work with the dictionary. Of course it will not work. Tim's comment on the other hand is about mutable `values`, hence why I said that these are different issues. Aug 17, 2016 at 12:35
• @MikeyE - `set` requires values to be hashable and `dict` requires keys to be hashable. `set(x.keys())` will always work because keys are required to be hashable, but `set(x.values())` will fail on values that aren't hashable. Apr 10, 2017 at 13:51
``````def dict_compare(d1, d2):
d1_keys = set(d1.keys())
d2_keys = set(d2.keys())
shared_keys = d1_keys.intersection(d2_keys)
removed = d2_keys - d1_keys
modified = {o : (d1[o], d2[o]) for o in shared_keys if d1[o] != d2[o]}
same = set(o for o in shared_keys if d1[o] == d2[o])

x = dict(a=1, b=2)
y = dict(a=2, b=2)
added, removed, modified, same = dict_compare(x, y)
``````
• This one actually handles mutable values in the dict! Jul 13, 2015 at 18:43
• When I run this, I still get an error seeing dealing with the mutable values: ValueError: The truth value of a DataFrame is ambiguous. Use a.empty, a.bool(), a.item(), a.any() or a.all(). Apr 19, 2017 at 19:19
• @Afflatus - `DataFrame`s by design don't allow truthy comparisons (unless it has a length of 1) as they inherit from `numpy.ndarray`. -credit to stackoverflow.com/a/33307396/994076 May 10, 2017 at 1:00

What you want to do is simply `x == y`

What you do is not a good idea, because the items in a dictionary are not supposed to have any order. You might be comparing `[('a', 1),('b', 1)]` with `[('b', 1), ('a', 1)]` (same dictionaries, different order).

For example, see this:

``````>>> x = dict(a=2, b=2, c=3, d=4)
>>> x
{'a': 2, 'c': 3, 'b': 2, 'd': 4}
>>> y = dict(b=2, c=3, d=4)
>>> y
{'c': 3, 'b': 2, 'd': 4}
>>> zip(x.iteritems(), y.iteritems())
[(('a', 2), ('c', 3)), (('c', 3), ('b', 2)), (('b', 2), ('d', 4))]
``````

The difference is only one item, but your algorithm will see that all items are different

• @THC4k, sorry for not mentioning. But I have to check how many values match in both the dictionaries. Dec 24, 2010 at 19:13
• Ok, so based on my update, is my way of doing still incorrect? Dec 24, 2010 at 19:20
• @A A: I added why your's doesn't work when you want to count. Dec 24, 2010 at 19:25
• As of Python 3.6, dict is orderd out-of-the-box.
– Phil
Jul 31, 2018 at 19:03
• @JochenRitzel: How this works for deep nested dictionaries inside dicts? I tried this on deep nested dicts, with exactly the same value but order was different, and comparison failed Sep 27, 2020 at 18:12

# `dic1 == dic2`

From python docs:

The following examples all return a dictionary equal to `{"one": 1, "two": 2, "three": 3}`:

``````>>> a = dict(one=1, two=2, three=3)
>>> b = {'one': 1, 'two': 2, 'three': 3}
>>> c = dict(zip(['one', 'two', 'three'], [1, 2, 3]))
>>> d = dict([('two', 2), ('one', 1), ('three', 3)])
>>> e = dict({'three': 3, 'one': 1, 'two': 2})
>>> a == b == c == d == e
True
``````

Providing keyword arguments as in the first example only works for keys that are valid Python identifiers. Otherwise, any valid keys can be used.

Valid for `python2` and `python3`.

• I don't agree with @ErkinAlpGüney. Could you provide a proof? Jul 7, 2017 at 1:11
• I disagree with @ErkinAlpGüney. The official documentation shows that == does indeed compare dictionaries by value, not by address. docs.python.org/2/library/stdtypes.html#mapping-types-dict Aug 12, 2017 at 9:15
• Works for Python 2.7.13 Sep 9, 2017 at 15:43
• @ankostis: `OrderedDict != dict` Mar 17, 2018 at 14:40
• Can you please provide an input where this isn't true? Sep 1, 2018 at 8:24

Since it seems nobody mentioned `deepdiff`, I will add it here for completeness. I find it very convenient for getting diff of (nested) objects in general:

### Installation

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

### Sample code

``````import deepdiff
import json

dict_1 = {
"a": 1,
"nested": {
"b": 1,
}
}

dict_2 = {
"a": 2,
"nested": {
"b": 2,
}
}

diff = deepdiff.DeepDiff(dict_1, dict_2)
print(json.dumps(diff, indent=4))
``````

### Output

``````{
"values_changed": {
"root['a']": {
"new_value": 2,
"old_value": 1
},
"root['nested']['b']": {
"new_value": 2,
"old_value": 1
}
}
}
``````

Note about pretty-printing the result for inspection: The above code works if both dicts have the same attribute keys (with possibly different attribute values as in the example). However, if an `"extra"` attribute is present is one of the dicts, `json.dumps()` fails with

``````TypeError: Object of type PrettyOrderedSet is not JSON serializable
``````

Solution: use `diff.to_json()` and `json.loads()` / `json.dumps()` to pretty-print:

``````import deepdiff
import json

dict_1 = {
"a": 1,
"nested": {
"b": 1,
},
"extra": 3
}

dict_2 = {
"a": 2,
"nested": {
"b": 2,
}
}

diff = deepdiff.DeepDiff(dict_1, dict_2)
``````

Output:

``````{
"dictionary_item_removed": [
"root['extra']"
],
"values_changed": {
"root['a']": {
"new_value": 2,
"old_value": 1
},
"root['nested']['b']": {
"new_value": 2,
"old_value": 1
}
}
}
``````

Alternative: use `pprint`, results in a different formatting:

``````import pprint

# same code as above

pprint.pprint(diff, indent=4)
``````

Output:

``````{   'dictionary_item_removed': [root['extra']],
'values_changed': {   "root['a']": {   'new_value': 2,
'old_value': 1},
"root['nested']['b']": {   'new_value': 2,
'old_value': 1}}}
``````
• This should be on the top. Worked perfectly and is neat! Jan 3, 2023 at 0:42

I'm new to python but I ended up doing something similar to @mouad

``````unmatched_item = set(dict_1.items()) ^ set(dict_2.items())
len(unmatched_item) # should be 0
``````

The XOR operator (`^`) should eliminate all elements of the dict when they are the same in both dicts.

• Unfortunately this doesn't work if the values in the dict are mutable (ie not hashable). (Ex `{'a':{'b':1}}` gives `TypeError: unhashable type: 'dict'`) Jul 13, 2015 at 18:28

Just use:

``````assert cmp(dict1, dict2) == 0
``````
• It seems that the task is not only to check if the contents of both are the same but also to give a report of the differences Sep 8, 2015 at 22:01
• I believe this is identical to `dict1 == dict2` Oct 5, 2015 at 18:45
• For anyone using Python3.5, the `cmp` built in has been removed (and should be treated as removed before. An alternative they propose: `(a > b) - (a < b) == cmp(a, b)` for a functional equivalent (or better `__eq__` and `__hash__`) Nov 13, 2015 at 17:54
• @nerdwaller - dicts are not orderable types, so dict_a > dict_b would raise a `TypeError`: `unorderable types: dict() < dict()` Oct 11, 2016 at 13:56
• @Stefano: Good call, my comment was more for general comparison in python (I wasn't paying attention to the actual answer, my mistake) . Oct 11, 2016 at 14:01

@mouad 's answer is nice if you assume that both dictionaries contain simple values only. However, if you have dictionaries that contain dictionaries you'll get an exception as dictionaries are not hashable.

Off the top of my head, something like this might work:

``````def compare_dictionaries(dict1, dict2):
if dict1 is None or dict2 is None:
print('Nones')
return False

if (not isinstance(dict1, dict)) or (not isinstance(dict2, dict)):
print('Not dict')
return False

shared_keys = set(dict1.keys()) & set(dict2.keys())

if not ( len(shared_keys) == len(dict1.keys()) and len(shared_keys) == len(dict2.keys())):
print('Not all keys are shared')
return False

dicts_are_equal = True
for key in dict1.keys():
if isinstance(dict1[key], dict) or isinstance(dict2[key], dict):
dicts_are_equal = dicts_are_equal and compare_dictionaries(dict1[key], dict2[key])
else:
dicts_are_equal = dicts_are_equal and all(atleast_1d(dict1[key] == dict2[key]))

return dicts_are_equal
``````
• If you use `not isinstance(dict1, dict)` instead of `type(dict1) is not dict`, this will work on other classes based on `dict. Also, instead of `(dict1[key] == dict2[key])`, you can do `all(atleast_1d(dict1[key] == dict2[key]))` to handle arrays at least. Mar 22, 2018 at 20:53
• +1, but you could break out of your `for loop` as soon as your `dicts_are_equal` becomes false. There's no need to continue any further. May 27, 2020 at 12:41
• I was suprised myself but it seems I can just compare nested dicts out of the box with == (using python3.8). `>>> dict2 = {"a": {"a": {"a": "b"}}} >>> dict1 = {"a": {"a": {"a": "b"}}} >>> dict1 == dict2 True >>> dict1 = {"a": {"a": {"a": "a"}}} >>> dict1 == dict2 False` Dec 15, 2020 at 15:01

The function is fine IMO, clear and intuitive. But just to give you (another) answer, here is my go:

``````def compare_dict(dict1, dict2):
for x1 in dict1.keys():
z = dict1.get(x1) == dict2.get(x1)
if not z:
print('key', x1)
print('value A', dict1.get(x1), '\nvalue B', dict2.get(x1))
print('-----\n')
``````

Can be useful for you or for anyone else..

EDIT:

I have created a recursive version of the one above.. Have not seen that in the other answers

``````def compare_dict(a, b):
# Compared two dictionaries..
# Posts things that are not equal..
res_compare = []
for k in set(list(a.keys()) + list(b.keys())):
if isinstance(a[k], dict):
z0 = compare_dict(a[k], b[k])
else:
z0 = a[k] == b[k]

z0_bool = np.all(z0)
res_compare.append(z0_bool)
if not z0_bool:
print(k, a[k], b[k])
return np.all(res_compare)
``````
• Let's improve it so it works both ways. Line 2: "for x1 in set(dict1.keys()).union(dict2.keys()):" Aug 9, 2018 at 18:17
• Thanks @nkadwa, it does now
– zwep
Nov 20, 2019 at 12:26

The easiest way (and one of the more robust at that) to do a deep comparison of two dictionaries is to serialize them in JSON format, sorting the keys, and compare the string results:

``````import json
if json.dumps(x, sort_keys=True) == json.dumps(y, sort_keys=True):
... Do something ...
``````
• The most explicit one though not fastest. Nov 1, 2022 at 21:43

Yet another possibility, up to the last note of the OP, is to compare the hashes (`SHA` or `MD`) of the dicts dumped as JSON. The way hashes are constructed guarantee that if they are equal, the source strings are equal as well. This is very fast and mathematically sound.

``````import json
import hashlib

def hash_dict(d):
return hashlib.sha1(json.dumps(d, sort_keys=True)).hexdigest()

x = dict(a=1, b=2)
y = dict(a=2, b=2)
z = dict(a=1, b=2)

print(hash_dict(x) == hash_dict(y))
print(hash_dict(x) == hash_dict(z))
``````
• That's completly wrong, just parsing the data into json is really slow. Then hashing that huge sring you just created is even worse. You should never do that Sep 15, 2015 at 21:39
• @Bruno: quoting the OP: "Better not in speed, I am talking about code elegance"
– WoJ
Sep 16, 2015 at 14:10
• @Bruno: elegance is subjective. I can understand that you do not like it (and probably downvoted). This is not the same as "wrong".
– WoJ
Sep 16, 2015 at 14:26
• This is a great answer. `json.dumps(d, sort_keys=True)` will give you canonical JSON so that you can be certain that both dict are equivalent. Also it depends what you are trying to achive. As soon as the value are not JSON serizalizable it will fail. For thus who say it is inefficient, have a look at the ujson project. Mar 14, 2016 at 13:14
• Once you dump the string to JSON, you can just compare it directly. Hashing the two strings is just meaningless extra complexity. (Also, this only works if the dict is JSON-able, which lots aren't.) Sep 30, 2016 at 23:18

To test if two dicts are equal in keys and values:

``````def dicts_equal(d1,d2):
""" return True if all keys and values are the same """
return all(k in d2 and d1[k] == d2[k]
for k in d1) \
and all(k in d1 and d1[k] == d2[k]
for k in d2)
``````

If you want to return the values which differ, write it differently:

``````def dict1_minus_d2(d1, d2):
""" return the subset of d1 where the keys don't exist in d2 or
the values in d2 are different, as a dict """
return {k,v for k,v in d1.items() if k in d2 and v == d2[k]}
``````

You would have to call it twice i.e

``````dict1_minus_d2(d1,d2).extend(dict1_minus_d2(d2,d1))
``````

# Code

``````def equal(a, b):
type_a = type(a)
type_b = type(b)

if type_a != type_b:
return False

if isinstance(a, dict):
if len(a) != len(b):
return False
for key in a:
if key not in b:
return False
if not equal(a[key], b[key]):
return False
return True

elif isinstance(a, list):
if len(a) != len(b):
return False
while len(a):
x = a.pop()
index = indexof(x, b)
if index == -1:
return False
del b[index]
return True

else:
return a == b

def indexof(x, a):
for i in range(len(a)):
if equal(x, a[i]):
return i
return -1
``````

# Test

``````>>> a = {
'number': 1,
'list': ['one', 'two']
}
>>> b = {
'list': ['two', 'one'],
'number': 1
}
>>> equal(a, b)
True
``````

A simple compare with == should be enough nowadays (python 3.8). Even when you compare the same dicts in a different order (last example). The best thing is, you don't need a third-party package to accomplish this.

``````a = {'one': 'dog', 'two': 'cat', 'three': 'mouse'}
b = {'one': 'dog', 'two': 'cat', 'three': 'mouse'}

c = {'one': 'dog', 'two': 'cat', 'three': 'mouse'}
d = {'one': 'dog', 'two': 'cat', 'three': 'mouse', 'four': 'fish'}

e = {'one': 'cat', 'two': 'dog', 'three': 'mouse'}
f = {'one': 'dog', 'two': 'cat', 'three': 'mouse'}

g = {'two': 'cat', 'one': 'dog', 'three': 'mouse'}
h = {'one': 'dog', 'two': 'cat', 'three': 'mouse'}

print(a == b) # True
print(c == d) # False
print(e == f) # False
print(g == h) # True
``````

I am using this solution that works perfectly for me in Python 3

``````
import logging
log = logging.getLogger(__name__)

...

def deep_compare(self,left, right, level=0):
if type(left) != type(right):
log.info("Exit 1 - Different types")
return False

elif type(left) is dict:
# Dict comparison
for key in left:
if key not in right:
log.info("Exit 2 - missing {} in right".format(key))
return False
else:
if not deep_compare(left[str(key)], right[str(key)], level +1 ):
log.info("Exit 3 - different children")
return False
return True
elif type(left) is list:
# List comparison
for key in left:
if key not in right:
log.info("Exit 4 - missing {} in right".format(key))
return False
else:
if not deep_compare(left[left.index(key)], right[right.index(key)], level +1 ):
log.info("Exit 5 - different children")
return False
return True
else:
# Other comparison
return left == right

return False

``````

It compares dict, list and any other types that implements the "==" operator by themselves. If you need to compare something else different, you need to add a new branch in the "if tree".

Hope that helps.

for python3:

``````data_set_a = dict_a.items()
data_set_b = dict_b.items()

difference_set = data_set_a ^ data_set_b
``````

In PyUnit there's a method which compares dictionaries beautifully. I tested it using the following two dictionaries, and it does exactly what you're looking for.

``````d1 = {1: "value1",
2: [{"subKey1":"subValue1",
"subKey2":"subValue2"}]}
d2 = {1: "value1",
2: [{"subKey2":"subValue2",
"subKey1": "subValue1"}]
}

def assertDictEqual(self, d1, d2, msg=None):
self.assertIsInstance(d1, dict, 'First argument is not a dictionary')
self.assertIsInstance(d2, dict, 'Second argument is not a dictionary')

if d1 != d2:
standardMsg = '%s != %s' % (safe_repr(d1, True), safe_repr(d2, True))
diff = ('\n' + '\n'.join(difflib.ndiff(
pprint.pformat(d1).splitlines(),
pprint.pformat(d2).splitlines())))
standardMsg = self._truncateMessage(standardMsg, diff)
self.fail(self._formatMessage(msg, standardMsg))
``````

I'm not recommending importing `unittest` into your production code. My thought is the source in PyUnit could be re-tooled to run in production. It uses `pprint` which "pretty prints" the dictionaries. Seems pretty easy to adapt this code to be "production ready".

• this one is especially useful for unit testing: self.assertDictEqual(result, expected_result) May 25, 2021 at 21:04

Being late in my response is better than never!

Compare Not_Equal is more efficient than comparing Equal. As such two dicts are not equal if any key values in one dict is not found in the other dict. The code below takes into consideration that you maybe comparing default dict and thus uses get instead of getitem [].

Using a kind of random value as default in the get call equal to the key being retrieved - just in case the dicts has a None as value in one dict and that key does not exist in the other. Also the get != condition is checked before the not in condition for efficiency because you are doing the check on the keys and values from both sides at the same time.

``````def Dicts_Not_Equal(first,second):
""" return True if both do not have same length or if any keys and values are not the same """
if len(first) == len(second):
for k in first:
if first.get(k) != second.get(k,k) or k not in second: return (True)
for k in second:
if first.get(k,k) != second.get(k) or k not in first: return (True)
return (False)
return (True)
``````

Why not just iterate through one dictionary and check the other in the process (assuming both dictionaries have the same keys)?

``````x = dict(a=1, b=2)
y = dict(a=2, b=2)

for key, val in x.items():
if val == y[key]:
print ('Ok', val, y[key])
else:
print ('Not', val, y[key])
``````

Output:

``````Not 1 2
Ok 2 2
``````

see dictionary view objects: https://docs.python.org/2/library/stdtypes.html#dict

This way you can subtract dictView2 from dictView1 and it will return a set of key/value pairs that are different in dictView2:

``````original = {'one':1,'two':2,'ACTION':'ADD'}
originalView=original.viewitems()
updatedDict = {'one':1,'two':2,'ACTION':'REPLACE'}
updatedDictView=updatedDict.viewitems()
delta=original | updatedDict
print delta
>>set([('ACTION', 'REPLACE')])
``````

You can intersect, union, difference (shown above), symmetric difference these dictionary view objects.
Better? Faster? - not sure, but part of the standard library - which makes it a big plus for portability

Below code will help you to compare list of dict in python

``````def compate_generic_types(object1, object2):
if isinstance(object1, str) and isinstance(object2, str):
return object1 == object2
elif isinstance(object1, unicode) and isinstance(object2, unicode):
return object1 == object2
elif isinstance(object1, bool) and isinstance(object2, bool):
return object1 == object2
elif isinstance(object1, int) and isinstance(object2, int):
return object1 == object2
elif isinstance(object1, float) and isinstance(object2, float):
return object1 == object2
elif isinstance(object1, float) and isinstance(object2, int):
return object1 == float(object2)
elif isinstance(object1, int) and isinstance(object2, float):
return float(object1) == object2

return True

def deep_list_compare(object1, object2):
retval = True
count = len(object1)
object1 = sorted(object1)
object2 = sorted(object2)
for x in range(count):
if isinstance(object1[x], dict) and isinstance(object2[x], dict):
retval = deep_dict_compare(object1[x], object2[x])
if retval is False:
print "Unable to match [{0}] element in list".format(x)
return False
elif isinstance(object1[x], list) and isinstance(object2[x], list):
retval = deep_list_compare(object1[x], object2[x])
if retval is False:
print "Unable to match [{0}] element in list".format(x)
return False
else:
retval = compate_generic_types(object1[x], object2[x])
if retval is False:
print "Unable to match [{0}] element in list".format(x)
return False

return retval

def deep_dict_compare(object1, object2):
retval = True

if len(object1) != len(object2):
return False

for k in object1.iterkeys():
obj1 = object1[k]
obj2 = object2[k]
if isinstance(obj1, list) and isinstance(obj2, list):
retval = deep_list_compare(obj1, obj2)
if retval is False:
print "Unable to match [{0}]".format(k)
return False

elif isinstance(obj1, dict) and isinstance(obj2, dict):
retval = deep_dict_compare(obj1, obj2)
if retval is False:
print "Unable to match [{0}]".format(k)
return False
else:
retval = compate_generic_types(obj1, obj2)
if retval is False:
print "Unable to match [{0}]".format(k)
return False

return retval
``````
• Welcome to Stack Overflow! While this code snippet may solve the question, including an explanation really helps to improve the quality of your post. Remember that you are answering the question for readers in the future, and those people might not know the reasons for your code suggestion. Please also try not to crowd your code with explanatory comments, this reduces the readability of both the code and the explanations! Dec 4, 2018 at 13:16

Here is my answer, use a recursize way:

``````def dict_equals(da, db):
if not isinstance(da, dict) or not isinstance(db, dict):
return False
if len(da) != len(db):
return False
for da_key in da:
if da_key not in db:
return False
if not isinstance(db[da_key], type(da[da_key])):
return False
if isinstance(da[da_key], dict):
res = dict_equals(da[da_key], db[da_key])
if res is False:
return False
elif da[da_key] != db[da_key]:
return False
return True

a = {1:{2:3, 'name': 'cc', "dd": {3:4, 21:"nm"}}}
b = {1:{2:3, 'name': 'cc', "dd": {3:4, 21:"nm"}}}
print dict_equals(a, b)
``````

Hope that helps!

``````>>> x = {'a':1,'b':2,'c':3}
>>> x
{'a': 1, 'b': 2, 'c': 3}

>>> y = {'a':2,'b':4,'c':3}
>>> y
{'a': 2, 'b': 4, 'c': 3}

METHOD 1:

>>> common_item = x.items()&y.items() #using union,x.item()
>>> common_item
{('c', 3)}

METHOD 2:

>>> for i in x.items():
if i in y.items():
print('true')
else:
print('false')

false
false
true
``````
``````>>> hash_1
{'a': 'foo', 'b': 'bar'}
>>> hash_2
{'a': 'foo', 'b': 'bar'}
>>> set_1 = set (hash_1.iteritems())
>>> set_1
set([('a', 'foo'), ('b', 'bar')])
>>> set_2 = set (hash_2.iteritems())
>>> set_2
set([('a', 'foo'), ('b', 'bar')])
>>> len (set_1.difference(set_2))
0
>>> if (len(set_1.difference(set_2)) | len(set_2.difference(set_1))) == False:
...    print "The two hashes match."
...
The two hashes match.
>>> hash_2['c'] = 'baz'
>>> hash_2
{'a': 'foo', 'c': 'baz', 'b': 'bar'}
>>> if (len(set_1.difference(set_2)) | len(set_2.difference(set_1))) == False:
...     print "The two hashes match."
...
>>>
>>> hash_2.pop('c')
'baz'
``````

Here's another option:

``````>>> id(hash_1)
140640738806240
>>> id(hash_2)
140640738994848
``````

So as you see the two id's are different. But the rich comparison operators seem to do the trick:

``````>>> hash_1 == hash_2
True
>>>
>>> hash_2
{'a': 'foo', 'b': 'bar'}
>>> set_2 = set (hash_2.iteritems())
>>> if (len(set_1.difference(set_2)) | len(set_2.difference(set_1))) == False:
...     print "The two hashes match."
...
The two hashes match.
>>>
``````

In Python 3.6, It can be done as:-

``````if (len(dict_1)==len(dict_2):
for i in dict_1.items():
ret=bool(i in dict_2.items())
``````

ret variable will be true if all the items of dict_1 in present in dict_2

You can find that out by writing your own function in the following way.

``````class Solution:
def find_if_dict_equal(self,dict1,dict2):
dict1_keys=list(dict1.keys())
dict2_keys=list(dict2.keys())
if len(dict1_keys)!=len(dict2_keys):
return False
for i in dict1_keys:
if i not in dict2 or dict2[i]!=dict1[i]:
return False
return True

def findAnagrams(self, s, p):
if len(s)<len(p):
return []
p_dict={}
for i in p:
if i not in p_dict:
p_dict[i]=0
p_dict[i]+=1
s_dict={}
final_list=[]
for i in s[:len(p)]:
if i not in s_dict:
s_dict[i]=0
s_dict[i]+=1
if self.find_if_dict_equal(s_dict,p_dict):
final_list.append(0)
for i in range(len(p),len(s)):
element_to_remove=s[i-len(p)]
s_dict[element_to_remove]-=1
if s_dict[element_to_remove]==0:
del s_dict[element_to_remove]
if self.find_if_dict_equal(s_dict,p_dict):
final_list.append(i-len(p)+1)
return final_list
``````
– Community Bot
Feb 2, 2022 at 6:43

I have a default/template dictionry that I want to update its values from a second given dictionary. Thus the update will happen on keys that exist in the default dictionary and if the related value is compatible with the default key/value type.

Somehow this is similar to the question above.

I wrote this solution:

CODE

``````def compDict(gDict, dDict):

gDictKeys = list(gDict.keys())

for gDictKey in gDictKeys:
try:
dDict[gDictKey]
except KeyError:
# Do the operation you wanted to do for "key not present in dict".
print(f'\nkey \'{gDictKey}\' does not exist! Dictionary key/value no set !!!\n')
else:
# check on type
if type(gDict[gDictKey]) == type(dDict[gDictKey]):
if type(dDict[gDictKey])==dict:
compDict(gDict[gDictKey],dDict[gDictKey])
else:
dDict[gDictKey] = gDict[gDictKey]
print('\n',dDict, 'update successful !!!\n')
else:
print(f'\nValue \'{gDict[gDictKey]}\' for \'{gDictKey}\' not a compatible data type !!!\n')

# default dictionary
dDict = {'A':str(),
'B':{'Ba':int(),'Bb':float()},
'C':list(),
}

# given dictionary
gDict = {'A':1234, 'a':'addio', 'C':['HELLO'], 'B':{'Ba':3,'Bb':'wrong'}}

compDict(gDict, dDict)

print('Updated default dictionry: ',dDict)
``````

OUTPUT

Value '1234' for 'A' not a compatible data type !!!

key 'a' does not exist! Dictionary key/value no set !!!

{'A': '', 'B': {'Ba': 0, 'Bb': 0.0}, 'C': ['HELLO']} update successful !!!

{'Ba': 3, 'Bb': 0.0} update successful !!!

Value 'wrong' for 'Bb' not a compatible data type !!!

Updated default dictionry: {'A': '', 'B': {'Ba': 3, 'Bb': 0.0}, 'C': ['HELLO']}

Code:

``````dict1 = {"a": 1, "b": 2}
dict2 = {"a": 2, "b": 2}

for key, value1 in dict1.items():
value2 = dict2[key]
if value1 == value2:
print('Values match:', value1, value2)
else:
print('Values do not match:', value1, value2)
``````

Output:

``````Values do not match: 1 2
Values match: 2 2
``````

Here, `dict1` and `dict2` are being compared by iterating through the keys and checking the values for corresponding keys.

``````import json

if json.dumps(dict1) == json.dumps(dict2):
print("Equal")
``````
• This may not do what was exactly requested, and pulls in the json std lib, but it does work ( as `json.dumps` is deterministic with the default settings ). Nov 9, 2016 at 18:15