现代软件工程 结对编程 (II) 电梯调度

发布时间:2020-06-11 07:45:11 作者:邹欣
来源:网络 阅读:188

现代软件工程 结对编程 (II) 电梯调度

Pair Project II: Elevator Scheduler

<现代软件工程> 的结对编程作业,  作者: 邹欣

 

怎样设计API?  怎样从不同角度考虑需求?  怎样对不同的设计进行评估? 

怎样做设计一个测试框架来测试众多解决方案?  如何驱动这样的测试框架?

怎样和伙伴合作,  快速有效地完成这些挑战?

 

这就是我们这次小项目要练习的。

 

 

Design and implement an Elevator Scheduler to aim for both correctness and performance, in managed code.

Skills to practice:

  1. a) Requirement Analysis

    需求分析   

  1. b) High level design (interface, information hiding, loose coupling)

    程序API 设计,  信息隐藏, 耦合

 

  1. c) Test Framework Design

    设计测试框架, 模拟测试数据

  1. d) Implementation skills

    设计的实现

 

  1. e) Algorithm design

    算法设计

1. Background

 

Imagine we’re building a tall office building,   We need to have design an efficient elevator system to carry people to their destinations.    the following is a example of the configuration about elevators:

 

Elevator name

Service floor list

Passenger limit

Weight limit

1

All floors

10

800 kg

2

floor 1..10

10

800 kg

3

floor 0,1,2..10

20

1600 kg

4

floor 0,1, 11-20

20

2000 kg

*note: in our test program, the configuration of elevators can be changed,  the scheduler need to read the configuraiton at the initialization time via the API.

2. Requirement to Student pairs

  1. 2.1 Each pair of students will design a set of interface and class definition so that an algorithm provider can provide his/her implementation to the “elevator scheduler” class.

  2. 2.2 We will discuss the student’s submission in the class,  pick the best design.

  3. 2.3 after the API is decided,  we will focus on the design of test framework

  4. 2.4  1-2 volunteers will implment a “test framework” app,  and the rest student pairs will each pair will focus on the implementation of the “elevator scheduler” program.

 

consideration for the API:

  1. a) how to keep it simple.

  2. b) how to provide enough info for the scheduler to finish the scheduling work,  without knowing too much info?

  3. c) which component is actually driving the elevator?

  4. d) how to regulate proper passenger behavor?  (e.g. if a passenger needs to go to floor 3 from floor 20, but the current elevator can’t go there directly, what should the passenger do?)

 

consideration for the test framework:

  1. a) how to make sure it generates the same result for the same test cases on a given scheduler?

  2. b) how to check the correctness of the scheduler?

  3. c) how to prevent “cheating” by the scheduler? 

  4. d) how to emulate the “real world” efficiently?  (e.g. if 2 passengers are 30 minutes away, does the test framework need to wait for 30 minutes?)

 

TA will come up with a consistent testing model to test your program according to the “rush hour” scenario (see below), and record the total travel time of all passengers.

You (student pair) have:

 

2.5 Explanation of BUS program:

We can have a worst case algorithm called “bus”. This algorithm treats an elevator as a bus, it goes from bottom to top, stops at every floor, open the door, to let people in and out, then close the door and move on. After it reaches the top floor, it will go down. This algorithm can serve all requests, but it’s apparently not the fastest algorithm.

Your code is required to be managed code (C#, managed C++, etc).

 

Score guideline: TA will evaluate the “average total travel time” for all passengers in the same test case, the lower, the better. If your performance is lower than “bus” solution, you get 0 points; if your program can’t deliver any passenger to the correct destination, you get 0 points.

 

One hint about elevator scheduling: When total weight is within 40 kg of the max limit, or the number of passengers is already at maximum, the elevator doesn’t need to stop for more external requests.

The elevator scheduler program doesn’t know how many passengers are waiting on each floor, it doesn’t know how many passengers will show up either. This is the same with the real world situation.

3. Testing

TA will simulate a “rush hour” test. The “rush hour” test is to simulate the come-to-work and leave-work scenario in a business building, which has the following 2 parts (they can be run next to each other).

20 people going thru random floors within 5 minutes.

 


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