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Java-based LeetCode algorithm problem solutions, regularly updated

There is a newer version: 1.37

2008\. Maximum Earnings From Taxi

Medium

There are `n` points on a road you are driving your taxi on. The `n` points on the road are labeled from `1` to `n` in the direction you are going, and you want to drive from point `1` to point `n` to make money by picking up passengers. You cannot change the direction of the taxi.

The passengers are represented by a **0-indexed** 2D integer array `rides`, where rides[i] = [start_i, end_i, tip_i] denotes the i^th passenger requesting a ride from point start_i to point end_i who is willing to give a tip_i dollar tip.

For **each** passenger `i` you pick up, you **earn** end_i - start_i + tip_i dollars. You may only drive **at most one** passenger at a time.

Given `n` and `rides`, return _the **maximum** number of dollars you can earn by picking up the passengers optimally._

**Note:** You may drop off a passenger and pick up a different passenger at the same point.

**Example 1:**

**Input:** n = 5, rides = [[2,5,4],[1,5,1]]

**Output:** 7

**Explanation:** We can pick up passenger 0 to earn 5 - 2 + 4 = 7 dollars.

**Example 2:**

**Input:** n = 20, rides = [[1,6,1],[3,10,2],[10,12,3],[11,12,2],[12,15,2],[13,18,1]]

**Output:** 20

**Explanation:** We will pick up the following passengers: 

- Drive passenger 1 from point 3 to point 10 for a profit of 10 - 3 + 2 = 9 dollars. 

- Drive passenger 2 from point 10 to point 12 for a profit of 12 - 10 + 3 = 5 dollars.

- Drive passenger 5 from point 13 to point 18 for a profit of 18 - 13 + 1 = 6 dollars. 
  
We earn 9 + 5 + 6 = 20 dollars in total.

**Constraints:**

*   1 <= n <= 10⁵
*   1 <= rides.length <= 3 * 10⁴
*   `rides[i].length == 3`
*   1 <= start_i < end_i <= n
*   1 <= tip_i <= 10⁵