comments | difficulty | edit_url | rating | source | tags | |||||
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true |
Medium |
1441 |
Weekly Contest 142 Q2 |
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There is a car with capacity
empty seats. The vehicle only drives east (i.e., it cannot turn around and drive west).
You are given the integer capacity
and an array trips
where trips[i] = [numPassengersi, fromi, toi]
indicates that the ith
trip has numPassengersi
passengers and the locations to pick them up and drop them off are fromi
and toi
respectively. The locations are given as the number of kilometers due east from the car's initial location.
Return true
if it is possible to pick up and drop off all passengers for all the given trips, or false
otherwise.
Example 1:
Input: trips = [[2,1,5],[3,3,7]], capacity = 4 Output: false
Example 2:
Input: trips = [[2,1,5],[3,3,7]], capacity = 5 Output: true
Constraints:
1 <= trips.length <= 1000
trips[i].length == 3
1 <= numPassengersi <= 100
0 <= fromi < toi <= 1000
1 <= capacity <= 105
We can use the idea of a difference array, adding the number of passengers to the starting point of each trip and subtracting from the end point. Finally, we just need to check whether the prefix sum of the difference array does not exceed the maximum passenger capacity of the car.
The time complexity is
class Solution:
def carPooling(self, trips: List[List[int]], capacity: int) -> bool:
mx = max(e[2] for e in trips)
d = [0] * (mx + 1)
for x, f, t in trips:
d[f] += x
d[t] -= x
return all(s <= capacity for s in accumulate(d))
class Solution {
public boolean carPooling(int[][] trips, int capacity) {
int[] d = new int[1001];
for (var trip : trips) {
int x = trip[0], f = trip[1], t = trip[2];
d[f] += x;
d[t] -= x;
}
int s = 0;
for (int x : d) {
s += x;
if (s > capacity) {
return false;
}
}
return true;
}
}
class Solution {
public:
bool carPooling(vector<vector<int>>& trips, int capacity) {
int d[1001]{};
for (auto& trip : trips) {
int x = trip[0], f = trip[1], t = trip[2];
d[f] += x;
d[t] -= x;
}
int s = 0;
for (int x : d) {
s += x;
if (s > capacity) {
return false;
}
}
return true;
}
};
func carPooling(trips [][]int, capacity int) bool {
d := [1001]int{}
for _, trip := range trips {
x, f, t := trip[0], trip[1], trip[2]
d[f] += x
d[t] -= x
}
s := 0
for _, x := range d {
s += x
if s > capacity {
return false
}
}
return true
}
function carPooling(trips: number[][], capacity: number): boolean {
const mx = Math.max(...trips.map(([, , t]) => t));
const d = Array(mx + 1).fill(0);
for (const [x, f, t] of trips) {
d[f] += x;
d[t] -= x;
}
let s = 0;
for (const x of d) {
s += x;
if (s > capacity) {
return false;
}
}
return true;
}
impl Solution {
pub fn car_pooling(trips: Vec<Vec<i32>>, capacity: i32) -> bool {
let mx = trips.iter().map(|e| e[2]).max().unwrap_or(0) as usize;
let mut d = vec![0; mx + 1];
for trip in &trips {
let (x, f, t) = (trip[0], trip[1] as usize, trip[2] as usize);
d[f] += x;
d[t] -= x;
}
d.iter()
.scan(0, |acc, &x| {
*acc += x;
Some(*acc)
})
.all(|s| s <= capacity)
}
}
/**
* @param {number[][]} trips
* @param {number} capacity
* @return {boolean}
*/
var carPooling = function (trips, capacity) {
const mx = Math.max(...trips.map(([, , t]) => t));
const d = Array(mx + 1).fill(0);
for (const [x, f, t] of trips) {
d[f] += x;
d[t] -= x;
}
let s = 0;
for (const x of d) {
s += x;
if (s > capacity) {
return false;
}
}
return true;
};
public class Solution {
public bool CarPooling(int[][] trips, int capacity) {
int mx = trips.Max(x => x[2]);
int[] d = new int[mx + 1];
foreach (var trip in trips) {
int x = trip[0], f = trip[1], t = trip[2];
d[f] += x;
d[t] -= x;
}
int s = 0;
foreach (var x in d) {
s += x;
if (s > capacity) {
return false;
}
}
return true;
}
}