Given three integer arrays arr1, arr2 and arr3 sorted in strictly increasing order, return a sorted array of only the integers that appeared in all three arrays.
Example 1:
Input: arr1 = [1,2,3,4,5], arr2 = [1,2,5,7,9], arr3 = [1,3,4,5,8] Output: [1,5] Explanation: Only 1 and 5 appeared in the three arrays.
Example 2:
Input: arr1 = [197,418,523,876,1356], arr2 = [501,880,1593,1710,1870], arr3 = [521,682,1337,1395,1764] Output: []
Constraints:
1 <= arr1.length, arr2.length, arr3.length <= 10001 <= arr1[i], arr2[i], arr3[i] <= 2000
Traverse the three arrays, count the occurrence of each number, then traverse any one of the arrays. If the count of a number is
The time complexity is
class Solution:
def arraysIntersection(
self, arr1: List[int], arr2: List[int], arr3: List[int]
) -> List[int]:
cnt = Counter(arr1 + arr2 + arr3)
return [x for x in arr1 if cnt[x] == 3]class Solution {
public List<Integer> arraysIntersection(int[] arr1, int[] arr2, int[] arr3) {
List<Integer> ans = new ArrayList<>();
int[] cnt = new int[2001];
for (int x : arr1) {
++cnt[x];
}
for (int x : arr2) {
++cnt[x];
}
for (int x : arr3) {
if (++cnt[x] == 3) {
ans.add(x);
}
}
return ans;
}
}class Solution {
public:
vector<int> arraysIntersection(vector<int>& arr1, vector<int>& arr2, vector<int>& arr3) {
vector<int> ans;
int cnt[2001]{};
for (int x : arr1) {
++cnt[x];
}
for (int x : arr2) {
++cnt[x];
}
for (int x : arr3) {
if (++cnt[x] == 3) {
ans.push_back(x);
}
}
return ans;
}
};func arraysIntersection(arr1 []int, arr2 []int, arr3 []int) (ans []int) {
cnt := [2001]int{}
for _, x := range arr1 {
cnt[x]++
}
for _, x := range arr2 {
cnt[x]++
}
for _, x := range arr3 {
cnt[x]++
if cnt[x] == 3 {
ans = append(ans, x)
}
}
return
}class Solution {
/**
* @param Integer[] $arr1
* @param Integer[] $arr2
* @param Integer[] $arr3
* @return Integer[]
*/
function arraysIntersection($arr1, $arr2, $arr3) {
$rs = [];
$arr = array_merge($arr1, $arr2, $arr3);
for ($i = 0; $i < count($arr); $i++) {
$hashtable[$arr[$i]] += 1;
if ($hashtable[$arr[$i]] === 3) {
array_push($rs, $arr[$i]);
}
}
return $rs;
}
}Traverse the first array. For each number, use binary search to find this number in the second and third arrays. If found in both, add this number to the result array.
The time complexity is
class Solution:
def arraysIntersection(
self, arr1: List[int], arr2: List[int], arr3: List[int]
) -> List[int]:
ans = []
for x in arr1:
i = bisect_left(arr2, x)
j = bisect_left(arr3, x)
if i < len(arr2) and j < len(arr3) and arr2[i] == x and arr3[j] == x:
ans.append(x)
return ansclass Solution {
public List<Integer> arraysIntersection(int[] arr1, int[] arr2, int[] arr3) {
List<Integer> ans = new ArrayList<>();
for (int x : arr1) {
int i = Arrays.binarySearch(arr2, x);
int j = Arrays.binarySearch(arr3, x);
if (i >= 0 && j >= 0) {
ans.add(x);
}
}
return ans;
}
}class Solution {
public:
vector<int> arraysIntersection(vector<int>& arr1, vector<int>& arr2, vector<int>& arr3) {
vector<int> ans;
for (int x : arr1) {
auto i = lower_bound(arr2.begin(), arr2.end(), x);
auto j = lower_bound(arr3.begin(), arr3.end(), x);
if (*i == x && *j == x) {
ans.push_back(x);
}
}
return ans;
}
};func arraysIntersection(arr1 []int, arr2 []int, arr3 []int) (ans []int) {
for _, x := range arr1 {
i := sort.SearchInts(arr2, x)
j := sort.SearchInts(arr3, x)
if i < len(arr2) && j < len(arr3) && arr2[i] == x && arr3[j] == x {
ans = append(ans, x)
}
}
return
}