Remove Element (LeetCode)
Problem Description​
| Problem Statement | Solution Link | LeetCode Profile |
|---|---|---|
| Merge Two Sorted Lists | Merge Two Sorted Lists Solution on LeetCode | VijayShankerSharma |
Problem Description​
Given an integer array nums and an integer val, remove all occurrences of val in nums in-place. The order of the elements may be changed. Then return the number of elements in nums which are not equal to val.
Consider the number of elements in nums which are not equal to val to be k. To get accepted, you need to do the following things:
- Change the array
numssuch that the firstkelements ofnumscontain the elements which are not equal toval. The remaining elements ofnumsare not important as well as the size ofnums. - Return
k.
Custom Judge​
The judge will test your solution with the following code:
int[] nums = [...]; // Input array
int val = ...; // Value to remove
int[] expectedNums = [...]; // The expected answer with correct length.
// It is sorted with no values equaling val.
int k = removeElement(nums, val); // Calls your implementation
assert k == expectedNums.length;
sort(nums, 0, k); // Sort the first k elements of nums
for (int i = 0; i < actualLength; i++) {
assert nums[i] == expectedNums[i];
}
If all assertions pass, then your solution will be accepted.
Examples​
Example 1​
- Input:
nums = [3,2,2,3], val = 3 - Output:
2, nums = [2,2,_,_] - Explanation: Your function should return
k = 2, with the first two elements ofnumsbeing 2. It does not matter what you leave beyond the returnedk(hence they are underscores).
Example 2​
- Input:
nums = [0,1,2,2,3,0,4,2], val = 2 - Output:
5, nums = [0,1,4,0,3,_,_,_] - Explanation: Your function should return
k = 5, with the first five elements ofnumscontaining 0, 0, 1, 3, and 4. Note that the five elements can be returned in any order. It does not matter what you leave beyond the returnedk(hence they are underscores).
Constraints​
0 <= nums.length <= 1000 <= nums[i] <= 500 <= val <= 100
Approach​
To solve the problem, we can use the following approach:
-
Initialize Two Pointers:
- Use two pointers,
slowandfast, whereslowpoints to the beginning of the array andfastmoves forward to explore the array.
- Use two pointers,
-
Iterate Through the Array:
- While
fastis within the bounds of the array:- If
nums[fast]is not equal toval, copynums[fast]tonums[slow]and increment both pointers. - If
nums[fast]is equal toval, just incrementfast.
- If
- While
-
Return Result:
- The new length of the array without the elements equal to
valis given byslow.
- The new length of the array without the elements equal to
Solution Code​
Python​
class Solution:
def removeElement(self, nums, val):
# Pointer to place the next non-val element
k = 0
# Iterate through all elements in the array
for i in range(len(nums)):
if nums[i] != val:
# Place the non-val element at the next position in the array
nums[k] = nums[i]
k += 1
return k
def _driver():
# Example usage
nums = [3, 2, 2, 3]
val = 3
sol = Solution()
k = sol.removeElement(nums, val)
print("The number of elements not equal to val:", k)
print("The modified array:", nums[:k])
if __name__ == "__main__":
_driver()
Java​
class Solution {
public int removeElement(int[] nums, int val) {
int slow = 0;
for (int fast = 0; fast < nums.length; fast++) {
if (nums[fast] != val) {
nums[slow] = nums[fast];
slow++;
}
}
return slow;
}
}
C++​
class Solution {
public:
int removeElement(vector<int>& nums, int val) {
int slow = 0;
for (int fast = 0; fast < nums.size(); fast++) {
if (nums[fast] != val) {
nums[slow] = nums[fast];
slow++;
}
}
return slow;
}
};
Conclusion​
The above solution efficiently removes all occurrences of a specified value from an integer array in-place. It employs a two-pointer technique to achieve a time complexity of and a space complexity of . This ensures that the algorithm can handle input sizes up to the upper limit specified in the constraints efficiently, providing a simple yet effective approach to solving the problem of removing an element from an array.