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I have a problem with combining or calculating common/equal part of these two dictionaries. In my dictionaries, values are lists:

d1 = {0:['11','18','25','38'], 

d2 = {0:['05','08','11','13','16','25','34','38','40', '43'], 
      1:['05', '08', '09','13','15','20','32','36','38', '40','41'], 
      2:['02', '08', '11', '13', '18', '20', '22','33','36','39'], 
      3:['06', '11', '12', '25', '26', '27', '28', '30', '31', '37']}

I'd like to check "d2" and know if there are numbers from "d1". If there are some, I'd like to update one of them with new data or receive 3rd dictionary "d3" with only the values that are identical/equal in both "d1" and "d2" like:

d3 = {0:['11','25','38'], 1:['38'], 2:['11','18'], 3:['11','25']}

Can anyone help me with this?

My fault I forgot to be more specific. I'm looking for a solution in Python.

share|improve this question
Please specify your language, or if you don't care. Your examples can be taken as either pseudo-code or literals in some existing language; it's best to know what you expect. – unwind Mar 12 '09 at 12:17
You are basically asking for some iteration over set intersection. This is very language-dependent. Please specify the relevant language. – Yuval F Mar 12 '09 at 12:21
shoudn't d3 0: be just 11? – Jeremy French Mar 12 '09 at 12:45
My fault I forgot to be more specific. I'm looking for a solution in Python. – elfuego1 Mar 12 '09 at 13:19
The d3 answer looks wrong to me, also. – S.Lott Mar 12 '09 at 13:33

5 Answers 5

up vote 7 down vote accepted

Assuming this is Python, you want:

dict((x, set(y) & set(d1.get(x, ()))) for (x, y) in d2.iteritems())

to generate the resulting dictionary "d3".

Python 3.0+ version

>>> d3 = {k: list(set(d1.get(k,[])).intersection(v)) for k, v in d2.items()}
{0: ['11', '25', '38'], 1: ['38'], 2: ['11', '18'], 3: ['11', '25']}

The above version (as well as Python 2.x version) allows empty intersections therefore additional filtering is required in general case:

>>> d3 = {k: v for k, v in d3.items() if v}

Combining the above in one pass:

d3 = {}
for k, v in d2.items():
    # find common elements for d1 & d2
    v3 = set(d1.get(k,[])).intersection(v)
    if v3: # whether there are common elements
       d3[k] = list(v3)

[Edit: I made this post community wiki so that people can improve it if desired. I concede it might be a little hard to read if you're not used to reading this sort of thing in Python.]

share|improve this answer
I used your solution and got an error: TypeError: 'int' object is not iterable Can you help me with this one yet? – elfuego1 Mar 12 '09 at 13:20
Sorry, there was a typo. You want to use "d2.iteritems()" to get the list of items there. – John Feminella Mar 12 '09 at 13:27
This returns: {0: set(['11', '25', '38']), 1: set(['38']), 2: set(['11', '18']), 3: set(['11', '25'])} so it's pretty close. – Adrian Archer Mar 12 '09 at 13:30
Thank you very much John!!! Your solution is what I need ;-) – elfuego1 Mar 12 '09 at 13:33
dict((x, list(set(y) & set(d1.get(x, ())))) for (x, y) in d2.iteritems()) makes it return a dict of lists, not sets if you prefer that. – Adrian Archer Mar 12 '09 at 13:39

Offering a more readable solution:

d3= {}
for common_key in set(d1) & set(d2):
    common_values= set(d1[common_key]) & set(d2[common_key])
    d3[common_key]= list(common_values)

EDIT after suggestion:

If you want only keys having at least one common value item:

d3= {}
for common_key in set(d1) & set(d2):
    common_values= set(d1[common_key]) & set(d2[common_key])
    if common_values:
        d3[common_key]= list(common_values)

You could keep the d1 and d2 values as sets instead of lists, if order and duplicates are not important.

share|improve this answer
+1: for readability. Though I would drop common_ prefix and replace & by explicit intersection() call (but It is a matter of taste). – J.F. Sebastian Mar 13 '09 at 3:12
btw, common_values might be an empty set in general case. The OP asks "there are some" i.e. all(d3.values()) must be True. – J.F. Sebastian Mar 13 '09 at 3:19

The problem boils down to determining the common elements between the two entries. (To obtain the result for all entries, just enclose the code in a loop over all of them.) Furthermore, it looks like each entry is a set (i.e. it has not duplicate elements). Therefore, all you need to do is find the set intersection between these elements. Many languages offer a method or function for doing this; for instance in C++ use the set container and the set_intersection function. This is a lot more efficient than comparing each element in one set against the other, as others have proposed.

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If we can assume d1 and d2 have the same keys:

d3 = {}
for k in d1.keys():
    intersection = set(d1[k]) & set(d2[k])
    d3[k] = [x for x in intersection]

Otherwise, if we can't assume that, then it is a little messier:

d3 = {}
for k in set(d1.keys() + d2.keys()):
    intersection = set(d1.get(k, [])) & set(d2.get(k, []))
    d3[k] = [x for x in intersection]

Edit: New version taking the comments into account. This one only checks for keys that d1 and d2 have in common, which is what the poster seems to be asking.

d3 = {}
for k in set(d1.keys()) & set(d2.keys()):
    intersection = set(d1[k]) & set(d2[k])
    d3[k] = list(intersection)
share|improve this answer
that's not more pythonic – SilentGhost Mar 12 '09 at 14:13
@SilentGhost, why is that? Care to elaborate? Or you code post a more pythonic one. – dan-gph Mar 12 '09 at 14:15
i've upvoted john's answer, even though, myself, I'd written: {i: list(set(j) & set(d1.get(i, []))) for i, j in d2.items()} – SilentGhost Mar 12 '09 at 14:20
@SilentGhost, why is that better? – dan-gph Mar 12 '09 at 14:28
because it's idiomatic? – SilentGhost Mar 12 '09 at 14:30

in pseudocode:

Dictionary d3 = new Dictionary()
for (i = 0 to min(d1.size(), d2.size()))
  element shared = getSharedElements(d1[i], d2[i]);, shared);

function getsharedElements(array e1, array e2)
  element e3 = new element();
  for (int i = 0 to e1.length)
    if (e2.contains(e1[i]))
  return e3;
share|improve this answer
Highly non-pythonic! – Joe Koberg Mar 12 '09 at 14:17
Heh, the Python is actually more concise than the pseudocode! “Python is executable pseudocode”, indeed! – bobince Mar 12 '09 at 15:10
This was posted before the original post mentioned python. – tehvan Mar 13 '09 at 6:14

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