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2960. Count Tested Devices After Test Operations
Description
You are given a 0-indexed integer array batteryPercentages
having length n
, denoting the battery percentages of n
0-indexed devices.
Your task is to test each device i
in order from 0
to n - 1
, by performing the following test operations:
- If
batteryPercentages[i]
is greater than0
:- Increment the count of tested devices.
- Decrease the battery percentage of all devices with indices
j
in the range[i + 1, n - 1]
by1
, ensuring their battery percentage never goes below0
, i.e,batteryPercentages[j] = max(0, batteryPercentages[j] - 1)
. - Move to the next device.
- Otherwise, move to the next device without performing any test.
Return an integer denoting the number of devices that will be tested after performing the test operations in order.
Example 1:
Input: batteryPercentages = [1,1,2,1,3] Output: 3 Explanation: Performing the test operations in order starting from device 0: At device 0, batteryPercentages[0] > 0, so there is now 1 tested device, and batteryPercentages becomes [1,0,1,0,2]. At device 1, batteryPercentages[1] == 0, so we move to the next device without testing. At device 2, batteryPercentages[2] > 0, so there are now 2 tested devices, and batteryPercentages becomes [1,0,1,0,1]. At device 3, batteryPercentages[3] == 0, so we move to the next device without testing. At device 4, batteryPercentages[4] > 0, so there are now 3 tested devices, and batteryPercentages stays the same. So, the answer is 3.
Example 2:
Input: batteryPercentages = [0,1,2] Output: 2 Explanation: Performing the test operations in order starting from device 0: At device 0, batteryPercentages[0] == 0, so we move to the next device without testing. At device 1, batteryPercentages[1] > 0, so there is now 1 tested device, and batteryPercentages becomes [0,1,1]. At device 2, batteryPercentages[2] > 0, so there are now 2 tested devices, and batteryPercentages stays the same. So, the answer is 2.
Constraints:
1 <= n == batteryPercentages.length <= 100
0 <= batteryPercentages[i] <= 100
Solutions
Solution 1: Simulation
Assume that the current number of devices we have tested is $ans$. When testing a new device $i$, its remaining battery is $\max(0, batteryPercentages[i] - ans)$. If the remaining battery is greater than $0$, it means this device can be tested, and we need to increase $ans$ by $1$.
Finally, return $ans$.
The time complexity is $O(n)$, where $n$ is the length of the array. The space complexity is $O(1)$.
-
class Solution { public int countTestedDevices(int[] batteryPercentages) { int ans = 0; for (int x : batteryPercentages) { x -= ans; if (x > 0) { ++ans; } } return ans; } }
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class Solution { public: int countTestedDevices(vector<int>& batteryPercentages) { int ans = 0; for (int x : batteryPercentages) { x -= ans; if (x > 0) { ++ans; } } return ans; } };
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class Solution: def countTestedDevices(self, batteryPercentages: List[int]) -> int: ans = 0 for x in batteryPercentages: x -= ans ans += x > 0 return ans
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func countTestedDevices(batteryPercentages []int) (ans int) { for _, x := range batteryPercentages { x -= ans if x > 0 { ans++ } } return }
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function countTestedDevices(batteryPercentages: number[]): number { let ans = 0; for (let x of batteryPercentages) { x -= ans; if (x > 0) { ++ans; } } return ans; }