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060 Permutation Sequence.py
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060 Permutation Sequence.py
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"""
The set [1,2,3,...,n] contains a total of n! unique permutations.
By listing and labeling all of the permutations in order,
We get the following sequence (ie, for n = 3):
"123"
"132"
"213"
"231"
"312"
"321"
Given n and k, return the kth permutation sequence.
Note: Given n will be between 1 and 9 inclusive.
"""
import math
__author__ = 'Danyang'
class Solution(object):
def getPermutation(self, n, k):
k -= 1
array = range(1, n+1)
k %= math.factorial(n)
ret = []
for i in xrange(n-1, -1, -1):
idx, k = divmod(k, math.factorial(i))
ret.append(array.pop(idx))
return "".join(map(str, ret))
def getPermutation(self, n, k):
"""
Reverse Cantor Expansion
equation: sum a_i * i! = k
:param n: integer
:param k: integer
:return: String
"""
# factorial
fac = [1 for _ in xrange(n)]
for i in xrange(1, n):
fac[i] = fac[i-1]*i
# solve equation
k -= 1 # index starting from 0
a = [0 for _ in xrange(n)]
for i in xrange(n-1, -1, -1):
a[n-1-i] = k/fac[i] # a[i] = k/fac[i]
k %= fac[i]
# post-process
candidate = range(1, n+1) # sorted
visited = [False for _ in xrange(n)]
for ind, val in enumerate(a):
i = 0 # pointer
cnt = 0 # counter
while True:
if visited[i]:
i += 1
else:
if cnt == val: break
cnt += 1
i += 1
a[ind] = candidate[i]
visited[i] = True
return "".join(map(str, a))
def getPermutation_complicated(self, n, k):
"""
Mathematics
Reversed Cantor Expansion
A = [1, 2, ..., n], where A's index starts from 0
Suppose for n element, the k-th permutation is:
[a0, a1, a2, ..., an-1]
since [a1, a3, ..., an-1] has (n-1)! permutations,
if k < (n-1)!, a0 = A[0] (first element in array), else a0 = A[k/(n-1)!] (subsequent items)
recursively, (or iteratively)
a0 = A[k0/(n-1)!], where k0 = k
a1 = A[k1/(n-2)!], where k1 = k0%(n-1)! in the remaining array
a2 = A[k2/(n-3)!], where k2 = k1%(n-2)! in the remaining array
...
:param n: integer
:param k: integer
:return: String
"""
k -= 1 # index starting from 0
factorial = 1 # (n-1)!
for i in xrange(1, n):
factorial *= i
result = []
array = range(1, n+1)
for i in reversed(xrange(1, n)):
index = k/factorial
result.append(array[index])
array = array[:index]+array[index+1:]
k = k%factorial
factorial /= i
# case when factorial=0!
result.append(array[0])
return "".join(str(element) for element in result)
class Solution_TLE:
"""
Time Limit Expected
"""
def __init__(self):
self.counter = 0
def getPermutation(self, n, k):
"""
dfs, iterate all possibilities
:param n: integer
:param k: integer
:return: String
"""
if not n:
return
sequence = range(1, n+1)
result = self.get_kth_permutation_dfs(sequence, k, [])
return "".join(str(element) for element in result)
def get_kth_permutation_dfs(self, remaining_seq, k, cur):
"""
dfs until find kth permutation, return that permutation, otherwise return None
:param remaining_seq:
:param k:
:param cur:
:return:
"""
if not remaining_seq:
self.counter += 1
if self.counter == k:
return cur
for ind, val in enumerate(remaining_seq):
result = self.get_kth_permutation_dfs(remaining_seq[:ind]+remaining_seq[ind+1:], k, cur+[val])
if result: return result
if __name__ == "__main__":
assert Solution().getPermutation(4, 6) == "1432"
assert Solution().getPermutation(2, 2) == "21"
assert Solution().getPermutation(3, 1) == "123"
assert Solution().getPermutation(3, 5) == "312"
print Solution().getPermutation(9, 171669)