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I am in need of a Python (2.7) object that functions like a set (fast insertion, deletion, and membership checking) but has the ability to return a random value. Previous questions asked on stackoverflow have answers that are things like:

import random
random.sample(mySet, 1)

But this is quite slow for large sets (it runs in O(n) time).

Other solutions aren't random enough (they depend on the internal representation of python sets, which produces some results which are very non-random):

for e in mySet:
    break
# e is now an element from mySet

I coded my own rudimentary class which has constant time lookup, deletion, and random values.

class randomSet:
    def __init__(self):
        self.dict = {}
        self.list = []

    def add(self, item):
        if item not in self.dict:
            self.dict[item] = len(self.list)
            self.list.append(item)

    def addIterable(self, item):
        for a in item:
            self.add(a)

    def delete(self, item):
        if item in self.dict:
            index = self.dict[item]
            if index == len(self.list)-1:
                del self.dict[self.list[index]]
                del self.list[index]
            else:
                self.list[index] = self.list.pop()
                self.dict[self.list[index]] = index
                del self.dict[item]

    def getRandom(self):
        if self.list:
            return self.list[random.randomint(0,len(self.list)-1)]

    def popRandom(self):
        if self.list:
            index = random.randint(0,len(self.list)-1)
            if index == len(self.list)-1:
                del self.dict[self.list[index]]
                return self.list.pop()
            returnValue = self.list[index]
            self.list[index] = self.list.pop()
            self.dict[self.list[index]] = index
            del self.dict[returnValue]
            return returnValue

Are there any better implementations for this, or any big improvements to be made to this code?

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why would you not just use a list and cast it as a set when you needed set operation stuff? ... –  Joran Beasley Sep 25 '12 at 17:08
1  
This allows you to interleve adding elements with selecting elements without a performance penalty. Does you real life scenario really follow this pattern? If you can do all your adding of elements up front, you could start with a set, then cast to a list before grabbing random elements. –  Steven Rumbalski Sep 25 '12 at 17:11
    
Because that is very very slow (runs in O(n) time) for large lists. –  GrantS Sep 25 '12 at 17:13
    
@GrantS: Do you mean that the list creation is slow? That would only need to be done once. It's no slower than creating a list and a dictionary as you do in your class. –  Steven Rumbalski Sep 25 '12 at 17:16
3  
@GrantS: If you are ysing Python 2.x, for the Greater Good of all: inherit from "object", or other new style base. Do not use old style classes (by not declaring a superclass) - you can get seriously hurt with a hard to debug problem –  jsbueno Sep 25 '12 at 17:20
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5 Answers

up vote 13 down vote accepted

I think the best way to do this would be to use the MutableSet abstract base class in collections. Inherit from MutableSet, and then define add, discard, __len__, __iter__, and __contains__; also rewrite __init__ to optionally accept a sequence, just like the set constructor does. MutableSet provides built-in definitions of all other set methods based on those methods. That way you get the full set interface cheaply. (And if you do this, addIterable is defined for you, under the name extend.)

discard in the standard set interface appears to be what you have called delete here. So rename delete to discard. Also, instead of having a separate popRandom method, you could just define popRandom like so:

def popRandom(self):
    item = self.getRandom()
    self.discard(item)
    return item

That way you don't have to maintain two separate item removal methods.

Finally, in your item removal method (delete now, discard according to the standard set interface), you don't need an if statement. Instead of testing whether index == len(self.list) - 1, simply swap the final item in the list with the item at the index of the list to be popped, and make the necessary change to the reverse-indexing dictionary. Then pop the last item from the list and remove it from the dictionary. This works whether index == len(self.list) - 1 or not:

def discard(self, item):
    if item in self.dict:
        index = self.dict[item]
        self.list[index], self.list[-1] = self.list[-1], self.list[index]
        self.dict[self.list[index]] = index
        del self.list[-1]                    # or in one line:
        del self.dict[item]                  # del self.dict[self.list.pop()]
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1  
+2 if I could. It's nice to get a set interface for so little. And excellent advice on streamlining the implementation. –  Steven Rumbalski Sep 25 '12 at 17:34
    
If this is the solution that the thread opener uses, I would be highly interested in a seeing the T(setsize) graph for both this solution and a O(N) lookup solution on a default set, with T being the time required for a lookup. –  Jan-Philip Gehrcke Sep 25 '12 at 17:49
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One approach you could take is to derive a new class from set which salts itself with random objects of a type derived from int.

You can then use pop to select a random element, and if it is not of the salt type, reinsert and return it, but if it is of the salt type, insert a new, randomly-generated salt object (and pop to select a new object).

This will tend to alter the order in which objects are selected. On average, the number of attempts will depend on the proportion of salting elements, i.e. amortised O(k) performance.

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+1, for the idea but I'd like to know if did test some form of this. I am not shure if salting sets would be that effective. –  jsbueno Sep 25 '12 at 17:33
    
@jsbueno Order of insertion is known to affect the order of iteration in sets, but yes, I guess this also depends on the fine details of the hashing scheme used. –  Marcin Sep 25 '12 at 18:24
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Can't we implement a new class inheriting from set with some (hackish) modifications that enable us to retrieve a random element from the list with O(1) lookup time? Btw, on Python 2.x you should inherit from object, i.e. use class randomSet(object). Also PEP8 is something to consider for you :-)

Edit: For getting some ideas of what hackish solutions might be capable of, this thread is worth reading: http://python.6.n6.nabble.com/Get-item-from-set-td1530758.html

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You should always explicitly inherit from object if your class has no other base classes and you're not using python3 :) –  l4mpi Sep 25 '12 at 17:04
    
Why would I inherit from set? The only way this works is with a dict which points to the index of a value in a list. It doesn't use sets at all, so I don't see how inheriting from set would help. EDIT: Wait, I might see what you're saying. Is my use of a dict here entirely unnecessary? –  GrantS Sep 25 '12 at 17:05
1  
No. Inheriting from set would be inefficient because random.sample would need to iterate over the entire set making it O(n). –  Steven Rumbalski Sep 25 '12 at 17:06
    
@GrantS: I did not mean that you should just make your randomSet inherit from set. I was thinking of an entirely different solution that bases on set, but somehow hacks set in order to access a random item. Now, I see that there is no obvious way to do so without iterating over the set. –  Jan-Philip Gehrcke Sep 25 '12 at 17:09
    
@Jan-Philip Gehrcke Indeed. I could do it with just set and list but that makes deletion run in O(n) time (which is why the dict is necessary). –  GrantS Sep 25 '12 at 17:15
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Yes, I'd implement an "ordered set" in much the same way you did - and use a list as an internal data structure.

However, I'd inherit straight from "set" and just keep track of the added items in an internal list (as you did) - and leave the methods I don't use alone.

Maybe add a "sync" method to update the internal list whenever the set is updated by set-specific operations, like the *_update methods.

That if using an "ordered dict" does not cover your use cases. (I just found that trying to cast ordered_dict keys to a regular set is not optmized, so if you need set operations on your data that is not an option)

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If you don't mind only supporting comparable elements, then you could use blist.sortedset.

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