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I have two lists of items in different categories, lets say A & B, there are m A's and n B's. I want to mix the two lists into a single list so the result keeps the order of A and the order of B but combines them in a way which doesn't look artificial.

If m and n where similar a stupid version would be to alternate A B A B but that looks unnatural. Something like A A B A B A B B A A etc looks less fake. In most cases there are more A's than B's but it's not guaranteed. Generally there are 125 A and 50 B and never more but can be filtered down to as little as 1.

I've built one which is based on the ratio of m/n but of course it highly regular. I tried to add a bit of random element into it but still doesn't look quite right.

The right look is clearly subjective, obviously if there was a solid statistical foundation the code would be easier to write. Any ideas are welcome. Even telling me the correct search terms in google would help if there is a branch of math or statistics that does stuff like this.

Writing this in Objective-C but I don't need code, just algorithm or ideas.

UPDATE: I investigated various things suggested but some were too complicated, especially things like Sobol sequences). What I am doing at the moment is using the random algorithm (add the total A and B together, pick random int from 0 to total-1, if less the total A pick A) but I added a check to ensure that no more than 2 B's show up consecutively (since B count is virtually always less than half the As). Not perfect yet but it does look a bit less random. You do wind up with an excess of B's stuck to the end, but these are less desirable from a business point anyway. Sobol et all would ensure better mixing but it's way too much effort for this.

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Idea: man 3 arc4random –  user529758 Jun 6 '13 at 16:20
Add the length of A and B together. Generate a random number between 0 and length - 1. Pick the next value of either A or B based on the random number (less than A length, A; otherwise B). Repeat until the output is as long as you want. –  Gilbert Le Blanc Jun 6 '13 at 16:21
that's what I am using atm - arc4random –  ahwulf Jun 6 '13 at 16:21
about to try that one –  ahwulf Jun 6 '13 at 16:22
@Billska: It's hard to misinterpret the OP's second sentence: "I want to mix the two lists into a single list so the result keeps the order of A and the order of B but combines them in a way which doesn't look artificial." –  Jim Mischel Jun 7 '13 at 15:46

3 Answers 3

up vote 3 down vote accepted

Given m A's and n B's:

while (m + n > 0) {
  float r = a random number in the range 0..1;
  if (r < m / (m + n)) {  // use floating point arithmetic
    choose the next A;
  } else {
    choose the next B;
share|improve this answer
If you have a way of generating a random integer in the range [0,m+n) you could eliminate the floating-point requirement and use r < m. –  Mark Ransom Jun 6 '13 at 22:53
As OP said in the comment, he is worried about discrepancy of output which is likely to occur in this algorithm. One such situation is when len(A) << len(B). The output of this post will have the bias that A is likely to appear only at the beginning of the output. –  Billiska Jun 7 '13 at 15:38
@Billiska: If there is 1 'A' and 99 'B', the likelihood of A being at the beginning of the sequence is no higher than the likelihood of it being at the end. –  Jim Mischel Jun 7 '13 at 15:51
@JimMischel Thank you for the correction. Yes, the chance is exactly the same as random shuffle. The point I should have made is rather the OP want to "avoid A A A A A B B B B A B kind of clumping". That is he actually want to bias it towards low discrepancy output. –  Billiska Jun 7 '13 at 16:06
Yes that's why I looked at Sobol et al. In the end it was rather easy to do the random thing with a run avoider. –  ahwulf Jun 7 '13 at 17:06

One approach is to sample uniformly at random from the words with the right letter counts that are accepted by a specified deterministic automaton. The algorithm is a dynamic program over the states of the automaton and the numbers of symbols remaining. Here's some sample outputs with 20 a's and 20 b's:


Here's the Python that produced these.

from collections import namedtuple
from itertools import product, repeat
from random import random

deterministic finite automata
delta is a dict from state-symbol pairs to states
q0 is the initial state
F is the set of accepting states
DFA = namedtuple('DFA', ('delta', 'q0', 'F'))

"""accepts strings with no runs of length 4"""
noruns4 = DFA(
        ('0', 'a'): '1a',
        ('0', 'b'): '1b',
        ('1a', 'a'): '2a',
        ('1a', 'b'): '1b',
        ('1b', 'a'): '1a',
        ('1b', 'b'): '2b',
        ('2a', 'a'): '3a',
        ('2a', 'b'): '1b',
        ('2b', 'a'): '1a',
        ('2b', 'b'): '3b',
        ('3a', 'a'): '4',
        ('3a', 'b'): '1b',
        ('3b', 'a'): '1a',
        ('3b', 'b'): '4',
        ('4', 'a'): '4',
        ('4', 'b'): '4'},
    F={'0', '1a', '1b', '2a', '2b', '3a', '3b'})

def accepts(dfa, s):
    """returns whether dfa accepts s"""
    q = dfa.q0
    for c in s:
        q = dfa.delta[(q, c)]
    return q in dfa.F

def testaccepts():
    for n in range(10):
        for cs in product(*repeat('ab', n)):
            s = ''.join(cs)
            if not accepts(noruns4, s) != ('aaaa' in s or 'bbbb' in s):
                assert False


def acceptedstrcnts(dfa, syms, cnts, memo=None, q=None):
    counts the number of strings accepted by dfa,
    subject to the constraint of having the specified number of symbols
    if memo is None:
        memo = {}
    if q is None:
        q = dfa.q0
    key = (q,) + tuple(cnts)
    if key not in memo:
        if sum(cnts) > 0:
            total = 0
            for (i, cnt) in enumerate(cnts):
                if cnt > 0:
                    newcnts = list(cnts)
                    newcnts[i] -= 1
                    newq = dfa.delta[(q, syms[i])]
                    total += acceptedstrcnts(dfa, syms, newcnts, memo, newq)
            total = 1.0 if q in dfa.F else 0.0
        memo[key] = total
    return memo[key]

print(acceptedstrcnts(noruns4, 'ab', (125, 50)))
memo = {}
acceptedstrcnts(noruns4, 'ab', (4, 4), memo)
# 62 strings with 4 a's, 4 b's, and no runs

def memoget(memo, q, cnts):
    return memo[(q,) + tuple(cnts)]

def samplestrcnts(dfa, syms, cnts, memo):
    uses the memoization dict to sample the counted words
    modulo roundoff error, the sampling is uniform
    cnts = list(cnts)
    cs = []
    q = dfa.q0
    while sum(cnts) > 0:
        denom = memoget(memo, q, cnts)
        outcome = random()
        j = None
        for (i, cnt) in enumerate(cnts):
            if cnt > 0:
                j = i  # default in case roundoff bites us
                newcnts = list(cnts)
                newcnts[i] -= 1
                newq = dfa.delta[(q, syms[i])]
                numer = memoget(memo, newq, newcnts)
                ratio = numer / denom
                if outcome < ratio:
                outcome -= ratio
        cnts[j] -= 1
        q = dfa.delta[(q, syms[j])]
    return ''.join(cs)

acceptedstrcnts(noruns4, 'ab', (20, 20), memo)
for k in range(10):
    print(samplestrcnts(noruns4, 'ab', (20, 20), memo))
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Interesting approach, but probably too much work. I also wonder about how long this would take with 175 total items. –  ahwulf Jun 7 '13 at 16:21
@ahwulf For this crappy implementation, <2ms. I would expect a two-orders-of-magnitude improvement in Objective-C with less generic data structures. –  David Eisenstat Jun 7 '13 at 16:26

Here's another approach based on Metropolis–Hastings.

from math import log2
from random import randrange

def simscore(lst, j):
    score = 0
    if j > 0 and lst[j] == lst[j - 1]:
        score += 1
    if j < len(lst) - 1 and lst[j] == lst[j + 1]:
        score += 1
    return score

def mix(lst):
    n = len(lst)
    for i in range(len(lst) * (100 + round(log2(n + 1)))):
        j = randrange(n)
        k = randrange(n)
        oldscore = simscore(lst, j) + simscore(lst, k)
        (lst[j], lst[k]) = (lst[k], lst[j])
        newscore = simscore(lst, j) + simscore(lst, k)
        if not (newscore <= oldscore or randrange(4 ** (newscore - oldscore)) == 0):
            (lst[j], lst[k]) = (lst[k], lst[j])

lst = list(125 * 'a' + 50 * 'b')
for i in range(10):

Here are some samples:

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