花花酱 LeetCode 377. Combination Sum IV

By zxi on December 15, 2017

Problem:

Given an integer array with all positive numbers and no duplicates, find the number of possible combinations that add up to a positive integer target.

Example:

nums = [1, 2, 3]

target = 4

The possible combination ways are:

(1, 1, 1, 1)

(1, 1, 2)

(1, 2, 1)

(1, 3)

(2, 1, 1)

(2, 2)

(3, 1)

Note that different sequences are counted as different combinations.

Therefore the output is 7.

题目大意：给你一些数和一个目标值，问使用这些数(每个数可以被使用任意次数)加起来等于目标值的组合（其实是不重复的排列）有多少种。

Idea:

Solution:

C++ / Recursion + Memorization

// Author: Huahua

// Runtime: 0 ms

class Solution {

public:

int combinationSum4(vector<int>& nums, int target) {

m_ = vector<int>(target + 1, -1);

m_[0] = 1;

return dp(nums, target);

}

private:

int dp(const vector<int>& nums, int target) {

if (target < 0) return 0;

if (m_[target] != -1) return m_[target];

int ans = 0;

for (const int num : nums)

ans += dp(nums, target - num);

return m_[target] = ans;

}

vector<int> m_;

};

C++ / DP

// Author: Huahua

// Runtime: 3 ms

class Solution {

public:

int combinationSum4(vector<int>& nums, int target) {

vector<int> dp(target + 1, 0); // dp[i] # of combinations sum up to i

dp[0] = 1;

for (int i = 1; i <= target; ++i)

for (const int num : nums)

if (i - num >= 0)

dp[i] += dp[i - num];

return dp[target];

}

};

Related Problems:

花花酱 LeetCode 540. Single Element in a Sorted Array

By zxi on December 15, 2017

Problem:

Given a sorted array consisting of only integers where every element appears twice except for one element which appears once. Find this single element that appears only once.

Example 1:

1 2	Input: [1,1,2,3,3,4,4,8,8] Output: 2

Example 2:

1 2	Input: [3,3,7,7,10,11,11] Output: 10

Note: Your solution should run in O(log n) time and O(1) space.

Idea:

Binary search.

Time complexity: O(logn)

Space complexity: O(1)

Solution:

C++

// Author: Huahua

// Runtime: 6 ms

class Solution {

public:

int singleNonDuplicate(vector<int>& nums) {

int l = 0;

int r = nums.size();

while (l < r) {

const int m = l + (r - l) / 2;

// int n = m % 2 == 0 ? m + 1 : m - 1;

const int n = m ^ 1;

if (nums[m] == nums[n])

l = m + 1;

else

r = m;

}

return nums[l];

}

};

花花酱 LeetCode 477. Total Hamming Distance

By zxi on December 14, 2017

Problem:

The Hamming distance between two integers is the number of positions at which the corresponding bits are different.

Now your job is to find the total Hamming distance between all pairs of the given numbers.

Example:

Input: 4, 14, 2

Output: 6

Explanation: In binary representation, the 4 is 0100, 14 is 1110, and 2 is 0010 (just

showing the four bits relevant in this case). So the answer will be:

HammingDistance(4, 14) + HammingDistance(4, 2) + HammingDistance(14, 2) = 2 + 2 + 2 = 6.

Note:

Elements of the given array are in the range of 0 to 10^9
Length of the array will not exceed 10^4.

题目大意：给你一堆数，让你求所有数对的HammingDistance的总和。

Idea:

Brute force, compute HammingDistance for all pairs. O(n^2) TLE
Count how many ones on i-th bit, assuming k. Distance += k * (n – k). O(n)

Solution:

C++ / O(n)

// Author: Huahua

// Runtime: 59 ms

class Solution {

public:

int totalHammingDistance(vector<int>& nums) {

int ans = 0;

int mask = 1;

for (int i = 0; i < 32; ++i) {

int count = 0;

for (const int num : nums)

if (num & mask) ++count;

ans += (nums.size() - count) * count;

mask <<= 1;

}

return ans;

}

};

花花酱 LeetCode 210. Course Schedule II

By zxi on December 13, 2017

Problem

There are a total of n courses you have to take, labeled from 0 to n - 1.

Some courses may have prerequisites, for example to take course 0 you have to first take course 1, which is expressed as a pair: [0,1]

Given the total number of courses and a list of prerequisite pairs, return the ordering of courses you should take to finish all courses.

There may be multiple correct orders, you just need to return one of them. If it is impossible to finish all courses, return an empty array.

For example:

1	2, [[1,0]]

There are a total of 2 courses to take. To take course 1 you should have finished course 0. So the correct course order is [0,1]

1	4, [[1,0],[2,0],[3,1],[3,2]]

There are a total of 4 courses to take. To take course 3 you should have finished both courses 1 and 2. Both courses 1 and 2 should be taken after you finished course 0. So one correct course order is [0,1,2,3]. Another correct ordering is[0,2,1,3].

Note:

The input prerequisites is a graph represented by a list of edges, not adjacency matrices. Read more about how a graph is represented.
You may assume that there are no duplicate edges in the input prerequisites.

题目大意：

给你一些课程和它的先修课程，让你输出修课顺序。如果无法修完所有课程，返回空数组。

Idea

Topological sorting

拓扑排序

Solution 1: Topological Sorting

Time complexity: O(V+E)

Space complexity: O(V+E)

C++

// Author: Huahua

// Runtime: 16 ms

class Solution {

public:

vector<int> findOrder(int numCourses, vector<pair<int, int>>& prerequisites) {

vector<vector<int>> graph(numCourses);

for(const auto& p : prerequisites)

graph[p.second].push_back(p.first);

// states: 0 = unkonwn, 1 == visiting, 2 = visited

vector<int> v(numCourses, 0);

vector<int> ans;

for (int i = 0; i < numCourses; ++i)

if (dfs(i, graph, v, ans)) return {};

std::reverse(ans.begin(), ans.end());

return ans;

}

private:

bool dfs(int cur, vector<vector<int>>& graph, vector<int>& v, vector<int>& ans) {

if (v[cur] == 1) return true;

if (v[cur] == 2) return false;

v[cur] = 1;

for (const int t : graph[cur])

if (dfs(t, graph, v, ans)) return true;

v[cur] = 2;

ans.push_back(cur);

return false;

}

};

Java

// Author: Huahua

// Runtime: 83 ms

class Solution {

public int[] findOrder(int numCourses, int[][] prerequisites) {

ArrayList<ArrayList<Integer>> graph = new ArrayList<>();

for (int i = 0; i < numCourses; ++i)

graph.add(new ArrayList<Integer>());

for (int i = 0; i < prerequisites.length; ++i) {

int course = prerequisites[i][0];

int prerequisite = prerequisites[i][1];

graph.get(course).add(prerequisite);

}

int[] visited = new int[numCourses];

List<Integer> ans = new ArrayList<Integer>();

Integer index = numCourses;

for (int i = 0; i < numCourses; ++i)

if (dfs(i, graph, visited, ans)) return new int[0];

return ans.stream().mapToInt(i->i).toArray();

}

private boolean dfs(int curr, ArrayList<ArrayList<Integer>> graph, int[] visited, List<Integer> ans) {

if (visited[curr] == 1) return true;

if (visited[curr] == 2) return false;

visited[curr] = 1;

for (int next : graph.get(curr))

if (dfs(next, graph, visited, ans)) return true;

visited[curr] = 2;

ans.add(curr);

return false;

}

Huahua's Tech Road

花花酱 LeetCode 377. Combination Sum IV

花花酱 LeetCode 540. Single Element in a Sorted Array

花花酱 LeetCode 477. Total Hamming Distance

花花酱 LeetCode 210. Course Schedule II

Problem

Idea

Solution 1: Topological Sorting

C++

Java

Related Problems:

花花酱 LeetCode 742. Closest Leaf in a Binary Tree