My problem is similar to the quesiton asked here. Differing from this question, I need an algorithm which generates r-tuple permutations of a given list with repeated elements.
On an example:
list1 = [1,1,1,2,2]
for i in permu(list1, 3):
print i
[1,1,1]
[1,1,2]
[1,2,1]
[2,1,1]
[1,2,2]
[2,1,2]
[2,2,1]
It seems that itertools.permutations will work fine here with adding a simple filtering to remove the repeated ones. However in my real cases, lists are much longer than this example and as you already know complexity of itertools.permutations increases exponential as the length of list increases.
So far, what I have is below. This code does the described job, but it is not efficient.
def generate_paths(paths, N = None):
groupdxs = [i for i, group in enumerate(paths) for _ in range(len(group))]
oldCombo = []
result = []
for dxCombo in itertools.permutations(groupdxs, N):
if dxCombo <= oldCombo: # as simple filter
continue
oldCombo = dxCombo
parNumbers = partialCombinations(dxCombo, len(paths))
if not parNumbers.count(0) >= len(paths)-1: # all of nodes are coming from same path, same graph
groupTemps = []
for groupInd in range(len(parNumbers)):
groupTemp = [x for x in itertools.combinations(paths[groupInd], parNumbers[groupInd])]
groupTemps.append(groupTemp)
for parGroups in itertools.product(*groupTemps):
iters = [iter(group) for group in parGroups]
p = [next(iters[i]) for i in dxCombo]
result.append(p)
return result
def partialCombinations(combo, numGruops):
tempCombo = list(combo)
result = list([0] * numGruops)
for x in tempCombo:
result[x] += 1
return result
In first for loop, I need to generate all possible r-length tuples which makes algorithm slower. There is a good solution for permutation without using r-length in above link. How can I adopt this algorithm to mine? Or is there any better ways?
itertools.permutations
but did you tryitertools.combinations_with_replacement
?