# Compute the product of 3 dictionaries and concatenate keys and values

Assuming that I have 3 different dictionaries:

``````dict1 = {
"A": "a"
}

dict2 = {
"B": "b",
"C": "c",
"D": "d",
"E": "e"
}

dict3 = {
"F": "f",
"G": "g"
}
``````

I want to compute the product of these dictionaries (excluding the product between `dict2` and `dict3`) and combine both the keys and values where the keys are concatenated with `_` and values with `' and '`

The desired output would be a single dictionary:

``````{
# dict1 x dict2
"A_B": "a and b",
"A_C": "a and c",
"A_D": "a and d",
"A_E": "a and e",

# dict1 x dict3
"A_F": "a and f",
"A_G": "a and g",

# dict1 x dict2 x dict3
"A_B_F": "a and b and f",
"A_B_G": "a and b and g",
"A_C_F": "a and c and f",
"A_C_G": "a and c and g",
"A_D_F": "a and d and f",
"A_D_G": "a and d and g",
"A_E_F": "a and e and f",
"A_E_G": "a and e and g"
}
``````

I had a look at the documentation for `itertools` but I was not able to understand how I can achieve the desired output.

## 4 Answers

The function that will do the job is `itertools.product`. First, here is how you can print out the product `dict1 x dict2 x dict3`:

``````for t in product(dict1.items(), dict2.items(), dict3.items()):
k, v = zip(*t)
print("_".join(k), "-", " and ".join(v))
``````

Output:

``````A_B_F - a and b and f
A_B_G - a and b and g
A_C_F - a and c and f
A_C_G - a and c and g
A_D_F - a and d and f
A_D_G - a and d and g
A_E_F - a and e and f
A_E_G - a and e and g
``````

Now, just populate a `result` dictionary:

``````result = {}
for t in product(dict1.items(), dict2.items(), dict3.items()):
k, v = zip(*t)
result["_".join(k)] = " and ".join(v)
``````

You can now add to this dictionary the `dict1 x dict2` and `dict1 x dict3` products, that are even simpler to compute.

Based on @ShadowRanger's comment, here is a complete snippet:

``````import itertools
import pprint

dict1 = {
"A": "a"
}

dict2 = {
"B": "b",
"C": "c",
"D": "d",
"E": "e"
}

dict3 = {
"F": "f",
"G": "g"
}

result = {}
for dicts in ((dict1, dict2), (dict1, dict3), (dict1, dict2, dict3)):
for t in itertools.product(*(d.items() for d in dicts)):
k, v = zip(*t)
result["_".join(k)] = " and ".join(v)

pprint.pprint(result)
``````

Output:

``````{'A_B': 'a and b',
'A_B_F': 'a and b and f',
'A_B_G': 'a and b and g',
'A_C': 'a and c',
'A_C_F': 'a and c and f',
'A_C_G': 'a and c and g',
'A_D': 'a and d',
'A_D_F': 'a and d and f',
'A_D_G': 'a and d and g',
'A_E': 'a and e',
'A_E_F': 'a and e and f',
'A_E_G': 'a and e and g',
'A_F': 'a and f',
'A_G': 'a and g'}
``````
• is `functools` supposed to be `itertools`? – Ben Jones Apr 11 at 16:23
• @BenJones Yeah sure my bad, I always mix them up... – Right leg Apr 11 at 16:24
• No worries. Now I know about `functools`! – Ben Jones Apr 11 at 16:25
• @BenJones Wanna learn about some more magic? Check out `more_itertools` :) – Right leg Apr 11 at 16:27
• Adding an outer loop of `for dicts in ((dict1, dict2), (dict1, dict3), (dict1, dict2, dict3)):` and making the inner loop `for t in product(*[d.items() for d in dicts]):` would let you produce the result with minimal code repetition. – ShadowRanger Apr 11 at 16:27

To produce all pairings, you can use two recursive generator functions: one to find the overall combinations of dictionaries, and the other to pair the keys and values:

``````def pair_dicts(data, c):
if not data:
keys, values = zip(*c)
yield ('_'.join(keys), ' and '.join(values))
else:
for i in data:
yield from pair_dicts(data[1:], c+[i])

def combos(d, c = []):
if len(c) == len(d):
yield c
else:
if len(c) > 1:
yield c
for i in d:
if all(h != i for h in c):
yield from combos(d, c+[i])

new_d = [[list(c.items()) for c in i] for i in combos([dict1, dict2, dict3])]
final_result = dict(i for b in new_d for i in pair_dicts(b, []))
``````

Output:

``````{'A_B': 'a and b', 'A_C': 'a and c', 'A_D': 'a and d', 'A_E': 'a and e', 'A_B_F': 'a and b and f', 'A_B_G': 'a and b and g', 'A_C_F': 'a and c and f', 'A_C_G': 'a and c and g', 'A_D_F': 'a and d and f', 'A_D_G': 'a and d and g', 'A_E_F': 'a and e and f', 'A_E_G': 'a and e and g', 'A_F': 'a and f', 'A_G': 'a and g', 'A_F_B': 'a and f and b', 'A_F_C': 'a and f and c', 'A_F_D': 'a and f and d', 'A_F_E': 'a and f and e', 'A_G_B': 'a and g and b', 'A_G_C': 'a and g and c', 'A_G_D': 'a and g and d', 'A_G_E': 'a and g and e', 'B_A': 'b and a', 'C_A': 'c and a', 'D_A': 'd and a', 'E_A': 'e and a', 'B_A_F': 'b and a and f', 'B_A_G': 'b and a and g', 'C_A_F': 'c and a and f', 'C_A_G': 'c and a and g', 'D_A_F': 'd and a and f', 'D_A_G': 'd and a and g', 'E_A_F': 'e and a and f', 'E_A_G': 'e and a and g', 'B_F': 'b and f', 'B_G': 'b and g', 'C_F': 'c and f', 'C_G': 'c and g', 'D_F': 'd and f', 'D_G': 'd and g', 'E_F': 'e and f', 'E_G': 'e and g', 'B_F_A': 'b and f and a', 'B_G_A': 'b and g and a', 'C_F_A': 'c and f and a', 'C_G_A': 'c and g and a', 'D_F_A': 'd and f and a', 'D_G_A': 'd and g and a', 'E_F_A': 'e and f and a', 'E_G_A': 'e and g and a', 'F_A': 'f and a', 'G_A': 'g and a', 'F_A_B': 'f and a and b', 'F_A_C': 'f and a and c', 'F_A_D': 'f and a and d', 'F_A_E': 'f and a and e', 'G_A_B': 'g and a and b', 'G_A_C': 'g and a and c', 'G_A_D': 'g and a and d', 'G_A_E': 'g and a and e', 'F_B': 'f and b', 'F_C': 'f and c', 'F_D': 'f and d', 'F_E': 'f and e', 'G_B': 'g and b', 'G_C': 'g and c', 'G_D': 'g and d', 'G_E': 'g and e', 'F_B_A': 'f and b and a', 'F_C_A': 'f and c and a', 'F_D_A': 'f and d and a', 'F_E_A': 'f and e and a', 'G_B_A': 'g and b and a', 'G_C_A': 'g and c and a', 'G_D_A': 'g and d and a', 'G_E_A': 'g and e and a'}
``````
• Although it's not an issue here, I'd generally advise against using a list or any other mutable value as a default value, and would rather go for `def combos(d, c=None): if c is None: c = []`. See stackoverflow.com/questions/1132941/… – Right leg Apr 11 at 16:59

I created a (not so nice) function to do your task with arbitrary number of dictionaries.

(Explanation below)

``````import itertools as it

dict1 = {
"A": "a"
}

dict2 = {
"B": "b",
"C": "c",
"D": "d",
"E": "e"
}

dict3 = {
"F": "f",
"G": "g"
}

def custom_dict_product(dictionaries):
return dict(zip(map("_".join, it.product(*map(dict.keys, dictionaries))),
map(" and ".join, it.product(*map(dict.values, dictionaries)))))

result = custom_dict_product([dict1,dict2])
result.update(custom_dict_product([dict1,dict3]))
result.update(custom_dict_product([dict1,dict2,dict3]))
result
#{'A_B': 'a and b',
# 'A_B_F': 'a and b and f',
# 'A_B_G': 'a and b and g',
# 'A_C': 'a and c',
# 'A_C_F': 'a and c and f',
# 'A_C_G': 'a and c and g',
# 'A_D': 'a and d',
# 'A_D_F': 'a and d and f',
# 'A_D_G': 'a and d and g',
# 'A_E': 'a and e',
# 'A_E_F': 'a and e and f',
# 'A_E_G': 'a and e and g',
# 'A_F': 'a and f',
# 'A_G': 'a and g'}
``````

The function takes the given dictionaries and gets their keys and values, which is done by `map(dict.keys, dictionaries))`and `map(dict.values, dictionaries))`. The results of the first call

``````list(it.product(*map(dict.keys, [dict1,dict2])))
# [('A', 'C'), ('A', 'E'), ('A', 'B'), ('A', 'D')]
``````

The tuples insides this list are then forced to your desired structure with `join`(and again an map call to do this for every element):

``````"_".join(('A', 'C'))
# 'A_C'
list(map("_".join, it.product(*map(dict.keys, [dict1,dict2]))))
# ['A_C', 'A_E', 'A_B', 'A_D']
``````

Finally the two resulting lists are transformed to tuples of `(keys, values)` with the call of `zip` and handed to the dictionary creation.

Here a dirty, but working, solution that makes use of `itertools`

``````from itertools import product, combinations

# create a list and sum dict to be used later
t = [dict1, dict2, dict3]
k = {}
for d in t:
k.update(d)

# iterate over "i" order of combinations ("dict1_X" or "dict1_X_Y") and
# the cartesian product of keys for each combination

results = {}
for i in range(2, 4):
a = [
[
results.update({"_".join(y): " and ".join([k[j] for j in y])})
for y in product(*x)
]
for x in combinations(t, i)
if dict1 in x
]

results
``````

Output:

``````{'A_B': 'a and b',
'A_B_F': 'a and b and f',
'A_B_G': 'a and b and g',
'A_C': 'a and c',
'A_C_F': 'a and c and f',
'A_C_G': 'a and c and g',
'A_D': 'a and d',
'A_D_F': 'a and d and f',
'A_D_G': 'a and d and g',
'A_E': 'a and e',
'A_E_F': 'a and e and f',
'A_E_G': 'a and e and g',
'A_F': 'a and f',
'A_G': 'a and g'}
``````