254 Factor Combinations
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Numbers can be regarded as product of its factors. For example, = 2 x 2 x 2; = 2 x 4. Write a function that takes an integer n and return all possible combinations of its factors. Note: Each combination‘s factors must be sorted ascending, for example: The factors of 2 and 6 is [2, 6], not [6, 2]. You may assume that n is always positive. Factors should be greater than 1 and less than n. Examples: input: 1 output: [] input: 37 output: [] input: 12 output: [ [2, 6], [2, 2, 3], [3, 4] ] input: 32 output: [ [2, 16], [2, 2, 8], [2, 2, 2, 4], [2, 2, 2, 2, 2], [2, 4, 4], [4, 8] ]
这题就是不停的DFS, 直到 n == 1. 有个判断条件 if (item.size() > 1) 是为了防止答案是自己本身n, 按照题意, 这是不允许的.
参考了:http://www.meetqun.com/thread-10673-1-1.html
时间复杂度, 个人觉得是O(n*log(n)), 一开始觉得是O(n!), 但後来想想好像没那麽大. 我的想法是,
最一开始的for回圈是n, 但是一旦进入了下一个DFS, 每次最差都是 n / i在减小, 这边就是log(n), 所以总共是O(n*log(n)), 有错还请指正.
Update: 使用@yuhangjiang的方法,只用计算 2到sqrt(n)的这么多因子,大大提高了速度。 复制代码 public class Solution { public List<List<Integer>> getFactors(int n) { List<List<Integer>> res = new ArrayList<>(); if (n <= 1) return res; getFactors(res, new ArrayList<>(), n, 2); return res; } private void getFactors(List<List<Integer>> res, List<Integer> list, int n, int pos) { for (int i = pos; i <= Math.sqrt(n); i++) { if (n % i == 0 && n / i >= i) { list.add(i); list.add(n / i); res.add(new ArrayList<>(list)); list.remove(list.size() - 1); getFactors(res, list, n / i, i); list.remove(list.size() - 1); } } } }
public class Solution { public List<List<Integer>> getFactors(int n) { List<List<Integer>> res = new ArrayList<List<Integer>>(); List<Integer> item = new ArrayList<Integer>(); if (n <= 3) return res; helper(2, n, res, item); return res; } public void helper(int start, int n, List<List<Integer>> res, List<Integer> item) { if (n == 1) { if (item.size() > 1) { res.add(new ArrayList<Integer>(item)); return; } } for (int i=start; i<=n; i++) { if (n%i == 0) { item.add(i); helper(i, n/i, res, item); item.remove(item.size()-1); } } } }
The n
is divided by i
in each iteration. So we have:
(first iteration)
getFactorsHelper(n/2,2,current,result) = T(n/2)
(second iteration)
getFactorsHelper(n/3,3,current,result) <= getFactorsHelper(n/3,2,current,result) = T(n/3)
(third iteration)
getFactorsHelper(n/4,4,current,result) <= getFactorsHelper(n/4,2,current,result)
= T(n/4)
...
(final iteration)
getFactorsHelper(n/n,n,current,result) <= getFactorsHelper(n/n,2,current,result) = T(n/n) = T(1)
total cost
T(n) <= T(n/2) + T(n/3) + T(n/4) + ... + T(1)
Solving recursive function
I hope this can help you.
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