本文介绍了一种解决含重复元素数组的独特排列问题的算法。通过对数组进行排序,并在深度优先搜索过程中检查相邻元素是否相同来避免重复解,该方法仅需增加几行代码即可在原有排列算法基础上实现。
Given a collection of numbers that might contain duplicates, return all possible unique permutations.
For example,
[1,1,2] have the following unique permutations:
[1,1,2],
[1,2,1], and
[2,1,1].
[解题思路]
跟 Permutations的解法一样,就是要考虑“去重”。先对数组进行排序,这样在DFS的时候,可以先判断前面的一个数是否和自己相等,相等的时候则前面的数必须使用了,自己才能使用,这样就不会产生重复的排列了。
与Permitations的code相比,只加了3行,Line 8,23,24。
[Code]
1: vector<vector<int> > permuteUnique(vector<int> &num) {
2: // Start typing your C/C++ solution below
3: // DO NOT write int main() function
4: vector<vector<int> > coll;
5: vector<int> solution;
6: if(num.size() ==0) return coll;
7: vector<int> visited(num.size(), 0);
8: sort(num.begin(), num.end());
9: GeneratePermute(num, 0, visited, solution, coll);
10: return coll;
11: }
12: void GeneratePermute(vector<int> & num, int step, vector<int>& visited, vector<int>& solution, vector<vector<int> >& coll)
13: {
14: if(step == num.size())
15: {
16: coll.push_back(solution);
17: return;
18: }
19: for(int i =0; i< num.size(); i++)
20: {
21: if(visited[i] == 0)
22: {
23: if(i>0 && num[i] == num[i-1]&& visited[i-1] ==0)
24: continue;
25: visited[i] = 1;
26: solution.push_back(num[i]);
27: GeneratePermute(num, step+1, visited, solution, coll);
28: solution.pop_back();
29: visited[i] =0;
30: }
31: }
32: }
[Note]
Line 23: Don’t miss “&& visited[i-1] ==0”. Or, the inner recursion will skip using duplicate number.
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