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I have two Python dictionaries, and I want to write a single expression that returns these two dictionaries, merged. The update() method would be what I need, if it returned its result instead of modifying a dict in-place.

>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> z = x.update(y)
>>> print z
>>> x
{'a': 1, 'b': 10, 'c': 11}

How can I get that final merged dict in z, not x?

(To be extra-clear, the last-one-wins conflict-handling of dict.update() is what I'm looking for as well.)

share|improve this question
Why doesn't z = x+y do this? Philosophically, pythonically speaking. – BobStein-VisiBone Sep 24 '14 at 11:43
@BobStein-VisiBone Because the Python core team is (correctly IMO) hesitant to use common operators for things that they don't 100% obviously mean; i.e. when there could be differing reasonable interpretations of what the operator should do for that type. The type of merge-with-override I've described here is one possible meaning for + on a dict, but it's not the only reasonable one. – Carl Meyer Sep 24 '14 at 16:01
Also, it's not a commutative operation. Which doesn't totally rule it out, else we wouldn't have + on strings or lists either - some would say we shouldn't have + on strings, but at least in that case there's only one reasonable interpretation - but it is another strike against using +. – Carl Meyer Sep 24 '14 at 16:11
From all the answers I could prefer a = {'a': 5, 'b':7}; b = {'b': 5, 'c': 3}; dict(a, **b) to append to dictionaries, since it is short, fairly readable and python 3 compatible. That is, I find dict(a.values() + b.values()) slightly more readable, yet it does not work in python 3 and is inefficient in python 2 (as it materializes). I can remember that Haskell has a ++ operator for appending lists, maybe that would be an idea. On the other hand, operator madness easily obfuscates the readability and 'understandability' of your code. – Herbert Aug 17 '15 at 10:27
@Hjulle Lambdas are limited to a single expression, if you want to combine two dicts for the sake of passing to another function via **, it lets you avoid an otherwise-unneeded temp variable, etc. Like many programming language issues, it's not a question of what is possible (there are of course other options) it's a question of what is convenient and feels right. – Carl Meyer Aug 25 '15 at 16:25

36 Answers 36

up vote 1026 down vote accepted

How can I merge two Python dictionaries in a single expression?

Say you have two dicts and you want to merge them into a new dict without altering the original dicts:

x = {'a': 1, 'b': 2}
y = {'b': 3, 'c': 4}

The desired result is to get a new dictionary (z) with the values merged, and the second dict's values overwriting those from the first.

>>> z
{'a': 1, 'b': 3, 'c': 4}

A new syntax for this, proposed in PEP 448 and available as of Python 3.5, is

z = {**x, **y}

And it is indeed a single expression. It is now showing as implemented in the release schedule for 3.5, PEP 478, and it has now made its way into What's New in Python 3.5 document.

However, since many organizations are still on Python 2, you may wish to do this in a backwards compatible way. The classically Pythonic way, available in Python 2 and Python 3.0-3.4, is to do this as a two-step process:

z = x.copy()
z.update(y) # which returns None since it mutates z

In both approaches, y will come second and its values will replace x's values, thus 'b' will point to 3 in our final result.

Not yet on Python 3.5, but want a single expression

If you are not yet on Python 3.5, or need to write backward-compatible code, and you want this in a single expression, the most performant while correct approach is to put it in a function:

def merge_two_dicts(x, y):
    '''Given two dicts, merge them into a new dict as a shallow copy.'''
    z = x.copy()
    return z

and then you have a single expression:

z = merge_two_dicts(x, y)

You can also make a function to merge an undefined number of dicts, from zero to a very large number:

def merge_dicts(*dict_args):
    Given any number of dicts, shallow copy and merge into a new dict,
    precedence goes to key value pairs in latter dicts.
    result = {}
    for dictionary in dict_args:
    return result

This function will work in Python 2 and 3 for all dicts. e.g. given dicts a to g:

z = merge_dicts(a, b, c, d, e, f, g) 

and key value pairs in g will take precedence over dicts a to f, and so on.

Critiques of Other Answers

Don't use what you see in the most upvoted answer:

z = dict(x.items() + y.items())

In Python 2, you create two lists in memory for each dict, create a third list in memory with length equal to the length of the first two put together, and then discard all three lists to create the dict. In Python 3, this will fail because you're adding two dict_items objects together, not two lists -

>>> c = dict(a.items() + b.items())
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: unsupported operand type(s) for +: 'dict_items' and 'dict_items'

and you would have to explicitly create them as lists, e.g. z = dict(list(x.items()) + list(y.items())). This is a waste of resources and computation power.

Similarly, taking the union of items() in Python 3 (viewitems() in Python 2.7) will also fail when values are unhashable objects (like lists, for example). Even if your values are hashable, since sets are semantically unordered, the behavior is undefined in regards to precedence. So don't do this:

>>> c = dict(a.items() | b.items())

This example demonstrates what happens when values are unhashable:

>>> x = {'a': []}
>>> y = {'b': []}
>>> dict(x.items() | y.items())
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: unhashable type: 'list'

Here's an example where y should have precedence, but instead the value from x is retained due to the arbitrary order of sets:

>>> x = {'a': 2}
>>> y = {'a': 1}
>>> dict(x.items() | y.items())
{'a': 2}

Another hack you should not use:

z = dict(x, **y)

This uses the dict constructor, and is very fast and memory efficient (even slightly more-so than our two-step process) but unless you know precisely what is happening here (that is, the second dict is being passed as keyword arguments to the dict constructor), it's difficult to read, it's not the intended usage, and so it is not Pythonic. Also, this fails in Python 3 when keys are not strings.

>>> c = dict(a, **b)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: keyword arguments must be strings

From the mailing list, Guido van Rossum, the creator of the language, wrote:

I am fine with declaring dict({}, **{1:3}) illegal, since after all it is abuse of the ** mechanism.


Apparently dict(x, **y) is going around as "cool hack" for "call x.update(y) and return x". Personally I find it more despicable than cool.

Less Performant But Correct Ad-hocs

These approaches are less performant, but they will provide correct behavior. They will be much less performant than copy and update or the new unpacking because they iterate through each key-value pair at a higher level of abstraction, but they do respect the order of precedence (latter dicts have precedence)

You can also chain the dicts manually inside a dict comprehension:

{k: v for d in dicts for k, v in d.items()} # iteritems in Python 2.7

or in python 2.6 (and perhaps as early as 2.4 when generator expressions were introduced):

dict((k, v) for d in dicts for k, v in d.items())

itertools.chain will chain the iterators over the key-value pairs in the correct order:

import itertools
z = dict(itertools.chain(x.iteritems(), y.iteritems()))

Performance Analysis

I'm only going to do the performance analysis of the usages known to behave correctly.

import timeit

The following is done on Ubuntu 14.04

In Python 2.7 (system Python):

>>> min(timeit.repeat(lambda: merge_two_dicts(x, y)))
>>> min(timeit.repeat(lambda: {k: v for d in (x, y) for k, v in d.items()} ))
>>> min(timeit.repeat(lambda: dict(itertools.chain(x.iteritems(), y.iteritems()))))
>>> min(timeit.repeat(lambda: dict((k, v) for d in (x, y) for k, v in d.items())))

In Python 3.5 (deadsnakes PPA):

>>> min(timeit.repeat(lambda: {**x, **y}))
>>> min(timeit.repeat(lambda: merge_two_dicts(x, y)))
>>> min(timeit.repeat(lambda: {k: v for d in (x, y) for k, v in d.items()} ))
>>> min(timeit.repeat(lambda: dict(itertools.chain(x.items(), y.items()))))
>>> min(timeit.repeat(lambda: dict((k, v) for d in (x, y) for k, v in d.items())))
share|improve this answer
Thanks for the critique. I don't necessarily disagree with the critique of the proposed solutions. I do think that the solution you propose is a little silly - the question asks for a single-line solution, and adding a function definition is clearly not a single-line solution. It's not always important to get the most efficient answer, especially when asked for a single line solution. That said, in actual code I would obviously use a function like yours. – Thomas Vander Stichele Mar 5 '15 at 1:06
@ThomasVanderStichele Thanks for the vote of confidence, production level code is what I'm going for. If I ever see production code with code like that in the top answer, it will be changed immediately. – Aaron Hall Mar 5 '15 at 1:29
If only dict.update() returned self. Then z = x.copy().update(y) But no. – BobStein-VisiBone Jun 2 '15 at 13:44
@BobStein-VisiBone Then Python would be much like Ruby. This is supposed to be due to mutability. Returning None, in general, means we mutated the original object, getting an object means we created a new object. Style sticklers like this because we don't tend to string together lots of method calls in Python (strings being the immutable counterexample). – Aaron Hall Jun 2 '15 at 14:19
Creator of the language, Guido van Rossum, calls it a hack. mail.python.org/pipermail/python-dev/2010-April/099459.html And for all the reasons I gave, it's not a good one. Cheers! – Aaron Hall Dec 3 '15 at 12:36

In your case, what you can do is:

z = dict(x.items() + y.items())

This will, as you want it, put the final dict in z, and make the value for key b be properly overridden by the second (y) dict's value:

>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> z = dict(x.items() + y.items())
>>> z
{'a': 1, 'c': 11, 'b': 10}

If you use Python 3, it is only a little more complicated. To create z:

>>> z = dict(list(x.items()) + list(y.items()))
>>> z
{'a': 1, 'c': 11, 'b': 10}
share|improve this answer
But it's not great if performance is important. – static_rtti May 19 '11 at 9:10
In case you want to reduce a list of dictionaries into a single dictionary using this method, you can use reduce(lambda x,y: dict(x.items() + y.items()), [{'a': 1}, {'b': 2}]). – Danilo Bargen May 27 '11 at 11:23
@static_rtti, analogous, less memory consuming: dict(chain(x.iteritems(), y.iteritems())) (from itertools import chain), and in py3k dict(chain(x.items(), y.items())) – j-a Dec 9 '11 at 18:05
I would prefer z = dict(chain(x.items(), y.items)). – U2EF1 Aug 12 '12 at 23:43
In Python 3, .items() returns a set-like object, so you can use the union operator: dict(x.items() | y.items()). – Roberto Bonvallet Nov 25 '13 at 16:11

An alternative:

z = x.copy()
share|improve this answer
Perhaps because it clearly fails to meet the criteria provided in the question, without providing any additional information or rationale. – Carl Meyer Jan 11 '09 at 18:18
This meets the requested criteria and matches the expected result. – vinyll Jun 6 '12 at 14:16
This is by far the best answer. Guido (python author) suggested this answer while abusing a different answer (the one with ** in it), so I'd go with this one. If you want to use a single expression, PUT THIS IN A FUNCTION!!1 – Sam Watkins Aug 6 '12 at 9:18
To clarify why this doesn't meet the critera provided by the question: it's not a single expression and it doesn't return z. – Alex Mar 21 '13 at 13:15
@Alex: How about this: (lambda f=x.copy(): (f.update(y), f)[1])() – Claudiu Aug 7 '13 at 21:20

Another, more concise, option:

z = dict(x, **y)

Note: this has become a popular answer, but it is important to point out that if y has any non-string keys, the fact that this works at all is an abuse of a CPython implementation detail, and it does not work in Python 3, or in PyPy, IronPython, or Jython. Also, Guido is not a fan. So I can't recommend this technique for forward-compatible or cross-implementation portable code, which really means it should be avoided entirely.

share|improve this answer
This is great. But searching for "**" does not get me to any documentation to explain how this works. Does anyone know where I can look up this method? --thanks – BenjaminGolder Apr 8 '11 at 18:32
@BenjaminGolder: try this SO. Generally you can google for things like this with their full name, ie. "double star python". Ooh, this SO question is good too. – jjt Apr 9 '11 at 2:02
I was sure this would break on non-string keys in y until I tried it. Didn't realize built-ins get to bend the rules on keyword args. – dhaffey Apr 20 '11 at 5:44
Despite the arguments against it, I don't agree that it's necessary to avoid it entirely. It works for me in both CPython 2.7.3 and 3.3.0 with the string-key dictionaries in your question -- which represent a significant subset of dict usage cases. Notably, for them, it's about 4X faster and 7X faster respectively than the accepted "politically correct" answer (with a suitably modified version of it for Py 3). FWIW, this technique was also what Alex Martelli recommended in his answer to a similar question + most Python code will never be ported. – martineau Mar 30 '13 at 2:28
@ArtOfWarfare It doesn't work with non-string keys in any version of Python 3. I guess 3.2 was the latest Python 3 available when I wrote this answer? Edited to clarify. – Carl Meyer Jan 21 at 6:43

This probably won't be a popular answer, but you almost certainly do not want to do this. If you want a copy that's a merge, then use copy (or deepcopy, depending on what you want) and then update. The two lines of code are much more readable - more Pythonic - than the single line creation with .items() + .items(). Explicit is better than implicit.

In addition, when you use .items() (pre Python 3.0), you're creating a new list that contains the items from the dict. If your dictionaries are large, then that is quite a lot of overhead (two large lists that will be thrown away as soon as the merged dict is created). update() can work more efficiently, because it can run through the second dict item-by-item.

In terms of time:

>>> timeit.Timer("dict(x, **y)", "x = dict(zip(range(1000), range(1000)))\ny=dict(zip(range(1000,2000), range(1000,2000)))").timeit(100000)
>>> timeit.Timer("temp = x.copy()\ntemp.update(y)", "x = dict(zip(range(1000), range(1000)))\ny=dict(zip(range(1000,2000), range(1000,2000)))").timeit(100000)
>>> timeit.Timer("dict(x.items() + y.items())", "x = dict(zip(range(1000), range(1000)))\ny=dict(zip(range(1000,2000), range(1000,2000)))").timeit(100000)

IMO the tiny slowdown between the first two is worth it for the readability. In addition, keyword arguments for dictionary creation was only added in Python 2.3, whereas copy() and update() will work in older versions.

share|improve this answer
Helpful performance data. There are specific cases where merging in a single expression greatly enhances readability over copy/update; for instance, if you have a sizable "base" dictionary which you want to use as kwargs for a number of consecutive function calls, with minor additions each time. – Carl Meyer Jan 11 '09 at 18:26
All this variants dict(x, **y), z=x.copy();z.update(y), and z=dict(x);z.update(y) are essentially the same. – J.F. Sebastian Jan 11 '09 at 23:24
With the slight difference that dict(x) creates a plain dictionary from x's keys (with x being any dictionary-like or sequence-of-pairs-like) while x.copy() creates another object of the same type as x (provided copy() is implemented correctly in the respective class). So one may be preferable over the other, depending on circumstances. – blubberdiblub Aug 11 '13 at 17:16
I did the fourth test dict(x.viewitems() | y.viewitems()) and it is much worse than x.items() (almost twice bad) – balki Oct 11 '13 at 22:04
From a quick test in Python 3.4, it looks like dict(itertools.chain(x.items(), y.items())) is much faster than dict(x.items() | y.items()) which is itself much faster than dict(collections.ChainMap(y, x)), but none of the three are as fast as the copy/update version. Still, how often is performance really going to be the issue here? (Which is what the answer already says at the top…) – abarnert Sep 27 '14 at 0:22

In a follow-up answer, you asked about the relative performance of these two alternatives:

z1 = dict(x.items() + y.items())
z2 = dict(x, **y)

On my machine, at least (a fairly ordinary x86_64 running Python 2.5.2), alternative z2 is not only shorter and simpler but also significantly faster. You can verify this for yourself using the timeit module that comes with Python.

Example 1: identical dictionaries mapping 20 consecutive integers to themselves:

% python -m timeit -s 'x=y=dict((i,i) for i in range(20))' 'z1=dict(x.items() + y.items())'
100000 loops, best of 3: 5.67 usec per loop
% python -m timeit -s 'x=y=dict((i,i) for i in range(20))' 'z2=dict(x, **y)' 
100000 loops, best of 3: 1.53 usec per loop

z2 wins by a factor of 3.5 or so. Different dictionaries seem to yield quite different results, but z2 always seems to come out ahead. (If you get inconsistent results for the same test, try passing in -r with a number larger than the default 3.)

Example 2: non-overlapping dictionaries mapping 252 short strings to integers and vice versa:

% python -m timeit -s 'from htmlentitydefs import codepoint2name as x, name2codepoint as y' 'z1=dict(x.items() + y.items())'
1000 loops, best of 3: 260 usec per loop
% python -m timeit -s 'from htmlentitydefs import codepoint2name as x, name2codepoint as y' 'z2=dict(x, **y)'               
10000 loops, best of 3: 26.9 usec per loop

z2 wins by about a factor of 10. That's a pretty big win in my book!

After comparing those two, I wondered if z1's poor performance could be attributed to the overhead of constructing the two item lists, which in turn led me to wonder if this variation might work better:

from itertools import chain
z3 = dict(chain(x.iteritems(), y.iteritems()))

A few quick tests, e.g.

% python -m timeit -s 'from itertools import chain; from htmlentitydefs import codepoint2name as x, name2codepoint as y' 'z3=dict(chain(x.iteritems(), y.iteritems()))'
10000 loops, best of 3: 66 usec per loop

lead me to conclude that z3 is somewhat faster than z1, but not nearly as fast as z2. Definitely not worth all the extra typing.

This discussion is still missing something important, which is a performance comparison of these alternatives with the "obvious" way of merging two lists: using the update method. To try to keep things on an equal footing with the expressions, none of which modify x or y, I'm going to make a copy of x instead of modifying it in-place, as follows:

z0 = dict(x)

A typical result:

% python -m timeit -s 'from htmlentitydefs import codepoint2name as x, name2codepoint as y' 'z0=dict(x); z0.update(y)'
10000 loops, best of 3: 26.9 usec per loop

In other words, z0 and z2 seem to have essentially identical performance. Do you think this might be a coincidence? I don't....

In fact, I'd go so far as to claim that it's impossible for pure Python code to do any better than this. And if you can do significantly better in a C extension module, I imagine the Python folks might well be interested in incorporating your code (or a variation on your approach) into the Python core. Python uses dict in lots of places; optimizing its operations is a big deal.

You could also write this as

z0 = x.copy()

as Tony does, but (not surprisingly) the difference in notation turns out not to have any measurable effect on performance. Use whichever looks right to you. Of course, he's absolutely correct to point out that the two-statement version is much easier to understand.

share|improve this answer
Because dict(x) creates a copy of x internally (if x is a dict), the operations in z0, z2 and the version with x.copy() are very close to identical computationally. – joeln Apr 10 '13 at 6:25
If the performance of z0 and z2 are identical, z0 should win the tie, since z2 only works when all keys are strings. – bukzor Dec 14 '13 at 0:16
This does not work in Python 3; items() is not catenable, and iteritems does not exist. – Antti Haapala Mar 16 '15 at 5:50
I guess in Python 3 you would have to write z1 = dict(list(x.items()) + list(y.items())) or some such thing? – zaphod Mar 17 '15 at 7:20

I wanted something similar, but with the ability to specify how the values on duplicate keys were merged, so I hacked this out (but did not heavily test it). Obviously this is not a single expression, but it is a single function call.

def merge(d1, d2, merge_fn=lambda x,y:y):
    Merges two dictionaries, non-destructively, combining 
    values on duplicate keys as defined by the optional merge
    function.  The default behavior replaces the values in d1
    with corresponding values in d2.  (There is no other generally
    applicable merge strategy, but often you'll have homogeneous 
    types in your dicts, so specifying a merge technique can be 


    >>> d1
    {'a': 1, 'c': 3, 'b': 2}
    >>> merge(d1, d1)
    {'a': 1, 'c': 3, 'b': 2}
    >>> merge(d1, d1, lambda x,y: x+y)
    {'a': 2, 'c': 6, 'b': 4}

    result = dict(d1)
    for k,v in d2.iteritems():
        if k in result:
            result[k] = merge_fn(result[k], v)
            result[k] = v
    return result
share|improve this answer
This is very nice, though I think it would be more clear if you changed the name of the optional merge function to be different than the name of the function it's a keyword argument to... – Kevin Horn Dec 8 '09 at 0:49
A lot like Clojure's merge and merge-with. I found this comment looking for Python equivalents of those. – Lucian Aug 10 '12 at 10:49
This also provides for a recursive merge if the merge argument provided is recursive: rec_merge = lambda x, y: merge(x, y, rec_merge) then rec_merge({'a': {'b': 1}}, {'a': {'c': 2}}) == {'a': {'b': 1, 'c': 2}}. – joeln Apr 10 '13 at 6:39
Regarding "this should be in a PEP", there is history: gossamer-threads.com/lists/python/python/67982 – joeln Apr 10 '13 at 6:48
And in case any Python n00bs were wondering (I was), the call to dict() at the start of the method makes sure you're building a new dictionary as opposed to modifying the dictionary that was passed in. – Nick Chammas Mar 6 '14 at 0:11

In Python 3, you can use collections.ChainMap which groups multiple dicts or other mappings together to create a single, updateable view:

>>> from collections import ChainMap
>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> z = ChainMap({}, y, x)
>>> for k, v in z.items():
        print(k, '-->', v)

a --> 1
b --> 10
c --> 11
share|improve this answer
Nice to know about, but this creates quite a different animal, one which has changes to z affect both x and y. OP was looking for a z which whose changes affected neither x nor y. (Note reversed order of y and x in ChainMap initialization to give desired precedence.) – mgkrebbs Feb 11 '14 at 22:55
You can always call dict(ChainMap(y, x)) if you need an actual dict instead of a different animal. – abarnert Sep 26 '14 at 23:59
@mgkrebbs It was trivial to add {} to the ChainMap to make z independent of x and y. That should meet part of the OP's requirement that I missed the first time around. – Raymond Hettinger Sep 27 '14 at 8:14

The best version I could think while not using copy would be:

from itertools import chain
x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}
dict(chain(x.iteritems(), y.iteritems()))

It's faster than dict(x.items() + y.items()) but not as fast as n = copy(a); n.update(b), at least on CPython. This version also works in Python 3 if you change iteritems() to items(), which is automatically done by the 2to3 tool.

Personally I like this version best because it describes fairly good what I want in a single functional syntax. The only minor problem is that it doesn't make completely obvious that values from y takes precedence over values from x, but I don't believe it's difficult to figure that out.

share|improve this answer

Recursively/deep update a dict

def deepupdate(original, update):
    Recursively update a dict.
    Subdict's won't be overwritten but also updated.
    for key, value in original.iteritems(): 
        if key not in update:
            update[key] = value
        elif isinstance(value, dict):
            deepupdate(value, update[key]) 
    return update


pluto_original = {
    'name': 'Pluto',
    'details': {
        'tail': True,
        'color': 'orange'

pluto_update = {
    'name': 'Pluutoo',
    'details': {
        'color': 'blue'

print deepupdate(pluto_original, pluto_update)


    'name': 'Pluutoo',
    'details': {
        'color': 'blue',
        'tail': True

Thanks rednaw for edits.

share|improve this answer
Handles nested dictionaries !!! – okigan Mar 28 '13 at 17:41
Maybe mention in the answer itself that it is a deep/recursive merge. I actually just wrote a similar function before I finally noticed this one already did the work! – rednaw Oct 7 '13 at 10:01
x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}
z = dict(x.items() + y.items())
print z

For items with keys in both dictionaries ('b'), you can control which one ends up in the output by putting that one last.

share|improve this answer

While the question has already been answered several times, this simple solution to the problem has not been listed yet.

x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}
z4 = {}

It is as fast as z0 and the evil z2 mentioned above, but easy to understand and change.

share|improve this answer
but it's three statements rather than one expression – fortran Oct 18 '11 at 15:44
Yes! The mentioned one-expression-solutions are either slow or evil. Good code is readable and maintainable. So the problem is the question not the answer. We should ask for the best solution of a problem not for a one-line-solution. – phobie Oct 28 '11 at 3:36
Lose the z4 = {} and change the next line to z4 = x.copy() -- better than just good code doesn't do unnecessary things (which makes it even more readable and maintainable). – martineau Mar 8 '13 at 15:10
Your suggestion would change this to Matthews answer. While his answer is fine, I think mine is more readable and better maintainable. The extra line would only be bad if it would cost execution time. – phobie May 6 '13 at 11:50
I like this answer - in particular, it is symmetrical over x and y which better shows the logic of the code. – frabcus Dec 17 '14 at 16:09

Python 3.5 (PEP 448) allows a nicer syntax option:

x = {'a': 1, 'b': 1}
y = {'a': 2, 'c': 2}
final = {**x, **y} 
# {'a': 2, 'b': 1, 'c': 2}

Or even

final = {'a': 1, 'b': 1, **x, **y}
share|improve this answer
Yes, I was very happy to see this syntax extension in Python 3.5! IMO it reads very naturally, and solves the problem presented here more neatly than any other available option. Thus switching this to be my accepted answer. – Carl Meyer Feb 28 '15 at 1:22
In what way is this solution better than the dict(x, **y)-solution? As you (@CarlMeyer) mentioned within the note of your own answer (stackoverflow.com/a/39858/2798610) Guido considers that solution illegal. – Blackeagle52 Mar 4 '15 at 11:09
Guido dislikes dict(x, **y) for the (very good) reason that it relies on y only having keys which are valid keyword argument names (unless you are using CPython 2.7, where the dict constructor cheats). This objection/restriction does not apply to PEP 448, which generalizes the ** unpacking syntax to dict literals. So this solution has the same concision as dict(x, **y), without the downside. – Carl Meyer Mar 4 '15 at 22:24
def dict_merge(a, b):
  c = a.copy()
  return c

new = dict_merge(old, extras)

Among such shady and dubious answers, this shining example is the one and only good way to merge dicts in Python, endorsed by dictator for life Guido van Rossum himself! Someone else suggested half of this, but did not put it in a function.

print dict_merge(
      {'color':'red', 'model':'Mini'},
      {'model':'Ferrari', 'owner':'Carl'})


{'color': 'red', 'owner': 'Carl', 'model': 'Ferrari'}
share|improve this answer

If you think lambdas are evil then read no further. As requested, you can write the fast and memory-efficient solution with one expression:

x = {'a':1, 'b':2}
y = {'b':10, 'c':11}
z = (lambda a, b: (lambda a_copy: a_copy.update(b) or a_copy)(a.copy()))(x, y)
print z
{'a': 1, 'c': 11, 'b': 10}
print x
{'a': 1, 'b': 2}

As suggested above, using two lines or writing a function is probably a better way to go.

share|improve this answer

In python3, the items method no longer returns a list, but rather a view, which acts like a set. In this case you'll need to take the set union since concatenating with + won't work:

dict(x.items() | y.items())

For python3-like behavior in version 2.7, the viewitems method should work in place of items:

dict(x.viewitems() | y.viewitems())

I prefer this notation anyways since it seems more natural to think of it as a set union operation rather than concatenation (as the title shows).


A couple more points for python 3. First, note that the dict(x, **y) trick won't work in python 3 unless the keys in y are strings.

Also, Raymond Hettinger's Chainmap answer is pretty elegant, since it can take an arbitrary number of dicts as arguments, but from the docs it looks like it sequentially looks through a list of all the dicts for each lookup:

Lookups search the underlying mappings successively until a key is found.

This can slow you down if you have a lot of lookups in your application:

In [1]: from collections import ChainMap
In [2]: from string import ascii_uppercase as up, ascii_lowercase as lo; x = dict(zip(lo, up)); y = dict(zip(up, lo))
In [3]: chainmap_dict = ChainMap(y, x)
In [4]: union_dict = dict(x.items() | y.items())
In [5]: timeit for k in union_dict: union_dict[k]
100000 loops, best of 3: 2.15 µs per loop
In [6]: timeit for k in chainmap_dict: chainmap_dict[k]
10000 loops, best of 3: 27.1 µs per loop

So about an order of magnitude slower for lookups. I'm a fan of Chainmap, but looks less practical where there may be many lookups.

share|improve this answer
In 2.7: x.viewitems() | y.viewitems() TypeError: unhashable type: 'list' – devanl Dec 30 '14 at 15:15

Abuse leading to a one-expression solution for Matthew's answer:

>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> z = (lambda f=x.copy(): (f.update(y), f)[1])()
>>> z
{'a': 1, 'c': 11, 'b': 10}

You said you wanted one expression, so I abused lambda to bind a name, and tuples to override lambda's one-expression limit. Feel free to cringe.

You could also do this of course if you don't care about copying it:

>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> z = (x.update(y), x)[1]
>>> z
{'a': 1, 'b': 10, 'c': 11}
share|improve this answer
Good to see how to stretch python. – javadba Oct 3 '13 at 6:01
z = (lambda f=x.copy(): f.update(y) or f)() – John La Rooy Nov 13 '13 at 9:51
@gnibbler: clever – Claudiu Nov 13 '13 at 17:32

Even though the answers were good for this shallow dictionary, none of the methods defined here actually do a deep dictionary merge.

Examples follow:

a = { 'one': { 'depth_2': True }, 'two': True }
b = { 'one': { 'extra': False } }
print dict(a.items() + b.items())

One would expect a result of something like this:

{ 'one': { 'extra': False', 'depth_2': True }, 'two': True }

Instead, we get this:

{'two': True, 'one': {'extra': False}}

The 'one' entry should have had 'depth_2' and 'extra' as items inside its dictionary if it truly was a merge.

Using chain also, does not work:

from itertools import chain
print dict(chain(a.iteritems(), b.iteritems()))

Results in:

{'two': True, 'one': {'extra': False}}

The deep merge that rcwesick gave also creates the same result.

Yes, it will work to merge the sample dictionaries, but none of them are a generic mechanism to merge. I'll update this later once I write a method that does a true merge.

share|improve this answer
Use @rcreswick's merge function (stackoverflow.com/a/44512/1017546) with the recursive helper rec_merge = lambda x, y: merge(x, y, rec_merge). – joeln Apr 10 '13 at 6:37
Check @Stanislav's answer: stackoverflow.com/a/8310229/1248175 – rednaw Oct 7 '13 at 10:02

Drawing on ideas here and elsewhere I've comprehended a function:

def merge(*dicts, **kv): 
      return { k:v for d in list(dicts) + [kv] for k,v in d.items() }

Usage (tested in python 3):

assert (merge({1:11,'a':'aaa'},{1:99, 'b':'bbb'},foo='bar')==\
    {1: 99, 'foo': 'bar', 'b': 'bbb', 'a': 'aaa'})

assert (merge(foo='bar')=={'foo': 'bar'})

assert (merge({1:11},{1:99},foo='bar',baz='quux')==\
    {1: 99, 'foo': 'bar', 'baz':'quux'})

assert (merge({1:11},{1:99})=={1: 99})

You could use a lambda instead.

share|improve this answer
>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> x, z = dict(x), x.update(y) or x
>>> x
{'a': 1, 'b': 2}
>>> y
{'c': 11, 'b': 10}
>>> z
{'a': 1, 'c': 11, 'b': 10}
share|improve this answer
hacky but cool! – wim Feb 18 '14 at 20:20

The problem I have with solutions listed to date is that, in the merged dictionary, the value for key "b" is 10 but, to my way of thinking, it should be 12. In that light, I present the following:

import timeit

su = """
x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}

def timeMerge(f,su,niter):
    print "{:4f} sec for: {:30s}".format(timeit.Timer(f,setup=su).timeit(n),f)

timeMerge("dict(x, **y)",su,n)
timeMerge("dict(x.items() + y.items())",su,n)
timeMerge("for k in y.keys(): x[k] = k in x and x[k]+y[k] or y[k] ",su,n)

#confirm for loop adds b entries together
x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}
for k in y.keys(): x[k] = k in x and x[k]+y[k] or y[k]
print "confirm b elements are added:",x


0.049465 sec for: dict(x, **y)
0.033729 sec for: x.update(y)                   
0.150380 sec for: dict(x.items() + y.items())   
0.083120 sec for: for k in y.keys(): x[k] = k in x and x[k]+y[k] or y[k]

confirm b elements are added: {'a': 1, 'c': 11, 'b': 12}
share|improve this answer

Simple solution using itertools that preserves order (latter dicts have precedence)

import itertools as it
merge = lambda *args: dict(it.chain.from_iterable(it.imap(dict.iteritems, args)))

And it's usage:

x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}
merge(x, y)

>>> {'a': 1, 'b': 10, 'c': 11}

z = {'c': 3, 'd': 4}
merge(x, y, z)

>>> {'a': 1, 'b': 10, 'c': 3, 'd': 4}
share|improve this answer

Two dictionaries

def union2(dict1, dict2):
    return dict(list(dict1.items()) + list(dict2.items()))

n dictionaries

def union(*dicts):
    return dict(sum(map(lambda dct: list(dct.items()), dicts), []))


import itertools

def union(*dicts):
    return dict(itertools.chain(*map(lambda dct: list(dct.items()), dicts)))
share|improve this answer
a = {1: 2, 3: 4, 5: 6}
b = {7:8, 1:2}
combined = dict(a.items() + b.items())
print combined
share|improve this answer

Using a dict comprehension, you may

x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}

dc = {xi:(x[xi] if xi not in list(y.keys()) 
           else y[xi]) for xi in list(x.keys())+(list(y.keys()))}


>>> dc
{'a': 1, 'c': 11, 'b': 10}

Note the syntax for if else in comprehension

{ (some_key if condition else default_key):(something_if_true if condition 
          else something_if_false) for key, value in dict_.items() }
share|improve this answer
I like the idea of using a dict comprehension, but your implementation is weak. It is insane to use ... in list(y.keys()) instead of just ... in y. – wim Feb 18 '14 at 20:18

It's so silly that .update returns nothing.
I just use a simple helper function to solve the problem:

def merge(dict1,*dicts):
    for dict2 in dicts:
    return dict1


merge({},dict1,dict2)  # this one returns a new copy
share|improve this answer

This can be done with a single dict comprehension:

>>> x = {'a':1, 'b': 2}
>>> y = {'b':10, 'c': 11}
>>> { key: y[key] if key in y else x[key]
      for key in set(x) + set(y)

In my view the best answer for the 'single expression' part as no extra functions are needed, and it is short.

share|improve this answer

** creates an intermediary dict, which means that the total number of copies is actually higher doing the dict(one, **two) form, but all that happens in C so it's still generally faster than going to itertools, unless there are a huge number of copies (or, probably, if the copies are very expensive). As always if you actually care about speed you should time your use case.

Timing on Python 2.7.3 with an empty dict:

$ python -m timeit "dict({}, **{})"
1000000 loops, best of 3: 0.405 usec per loop

$ python -m timeit -s "from itertools import chain" \
    "dict(chain({}.iteritems(), {}.iteritems()))"
1000000 loops, best of 3: 1.18 usec per loop

With 10,000 (tiny) items:

$ python -m timeit -s 'd = {i: str(i) for i in xrange(10000)}' \
    "dict(d, **d)"
1000 loops, best of 3: 550 usec per loop

$ python -m timeit -s "from itertools import chain" -s 'd = {i: str(i) for i in xrange(10000)}' \
    "dict(chain(d.iteritems(), d.iteritems()))"
1000 loops, best of 3: 1.11 msec per loop

With 100,000 items:

$ python -m timeit -s 'd = {i: str(i) for i in xrange(100000)}' \
    "dict(d, **d)"
10 loops, best of 3: 19.6 msec per loop

$ python -m timeit -s "from itertools import chain" -s 'd = {i: str(i) for i in xrange(100000)}' \
    "dict(chain(d.iteritems(), d.iteritems()))"
10 loops, best of 3: 20.1 msec per loop

With 1,000,000 items:

$ python -m timeit -s 'd = {i: str(i) for i in xrange(1000000)}' \
    "dict(d, **d)"
10 loops, best of 3: 273 msec per loop

$ python -m timeit -s "from itertools import chain" -s 'd = {i: str(i) for i in xrange(1000000)}' \
    "dict(chain(d.iteritems(), d.iteritems()))"
10 loops, best of 3: 233 msec per loop
share|improve this answer

I have a solution which is not specified here(Man I LOVE python) :-)

z = {}
z.update(x) or z.update(y)

This will not update x as well as y. Performance? I don't think it will be terribly slow :-)

NOTE: It is supposed to be 'or' operation and not 'and' operation. Edited to correct the code.

share|improve this answer
Noooo, it's still 2 lines and also longer than z = x.copy(); z.update(y) – Navin Dec 11 '13 at 9:50

A union of the OP's two dictionaries would be something like:

{'a': 1, 'b': 2, 10, 'c': 11}

Specifically, the union of two entities(x and y) contains all the elements of x and/or y. Unfortunately, what the OP asks for is not a union, despite the title of the post.

My code below is neither elegant nor a one-liner, but I believe it is consistent with the meaning of union.

From the OP's example:

x = {'a':1, 'b': 2}
y = {'b':10, 'c': 11}

z = {}
for k, v in x.items():
    if not k in z:
        z[k] = [(v)]
for k, v in y.items():
    if not k in z:
        z[k] = [(v)]

{'a': [1], 'b': [2, 10], 'c': [11]}

Whether one wants lists could be changed, but the above will work if a dictionary contains lists (and nested lists) as values in either dictionary.

share|improve this answer
I've edited the question to not use the word union, for clarity. – Carl Meyer Sep 30 '14 at 15:49
Perhaps you mean {'a': 1, 'b': (2, 10), 'c': 11} …? – Alfe May 18 at 16:07

protected by Ashwini Chaudhary Feb 11 '14 at 14:03

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