Python代写：CS113 Recursive and Time

代写Python入门作业，练习Recursive和Time的编程。

Requirement

The assignment is due by 11:55PM of the due date. The point value is indicated in square braces next to each problem. Each solution must be the student’s own work. Assistance should only be sought or accepted from the course instructor. Any violation of this rule will be dealt with harshly.

This assignment requires you to write some recursive functions and implement your own Time class. As usual, you are graded not only on the correctness of the code, but also on clarity and readability. Hence, I will deduct points for not following the guidelines for your class design, poor indentation, poor choice of object names, and lack of documentation. Every module, class, and method should be properly documented. For other code, use a common sense approach, i.e., do not document every line of code and only include a brief and clear explanation if you think the code may not be self-explanatory. Please read the submission guidelines at the end of this document before you start your work.

Problem 1 Recursive functions

In this problem, you are asked to write three recursive functions. All three functions should be implemented in a module called problem1.py. In each of these functions, you may not use any built-in functions other than len, the index operator [] , the slice operator [:], and + (string or list concatenation). You also may not use any loops. Please note: The built-in function in is essentially a loop and may not be used in any of the functions in this question.

1. Write a recursive function called replace element with three parameters: L (a list), oldel, and newel. The function returns a list in which every occurrence of oldel in L has been replaced with newel. For example, replace element([5, 4, 3, 5, 1], 5, 100) should return the list [100, 4, 3, 100, 1]. Keep in mind that all restrictions stated above apply for the recursive implementation.
2. Write a recursive function called num double letters with a single string parameter astr that returns the number of occurrences of double letters in astr. A double letter is simply a consecutive pair of the same character. For example, num double letters(“mississippi”) should return 3 because double letters occur 3 times in the string (“ss”, “ss”, and “pp”). Note that if the same letter occurs consecutively three or more times (this doesn’t happen too often in English!), we count every double letter pair. For example, num double letters(“hmmm”) should return 2 because there are two double m pairs (the second and third letter, as well as the third and fourth letter), and num double letters(“hmmmm”) or num double letters(“mmhmmm”) should return 3.
3. Write a recursive function called has repeats with a single list parameter L, that returns True if L has repeating elements (i.e., an element occurring more than once) and False otherwise. For example, has repeats([3, 2, 1, 5, 12]) should return False and has repeats([3, 5, 2, 1, 5, 12]) should return True.

Problem 2 Time class

In this problem, you are asked to design a class for Time objects. Note that Python has a datetime module that contains a datetime class for time and date objects. In this problem, you are asked to implement your own Time class to represent objects that are times of day. You will download two files from the Sakai site for this problem: problem2.py and test time.py. We will implement the following methods for this class.

1. __init__ : The constructor initializes the hour, the minute, and a string indicating whether it’s an AM or PM time. The constructor has been implemented for you in the file problem2.py. Please look at the instance attributes specified in the constructor before implementing the remaining methods. Note that the constructor ensures that only valid Time instances are allowed.
2. hour: Returns the hour of the Time instance.
3. minute: Returns the minute of the Time instance.
4. am_pm: Returns a string (“AM” or “PM”) indicating whether the Time instance is an AM or PM time.
5. total minutes: Returns the total number of minutes from midnight until the Time instance. For example, if T is the Time instance 12:30PM, then T.total minutes() should return 750.
6. __str__ : Returns a printable version of the Time instance, which is a string representation of that instance. Keep in mind that the printable version of a Time instance must always use two digits for the minute. For example, if T = Time(9, 7, “am”), then print(T) should print 9:07AM.
7. __repr__ : Returns a meaningful representation of the Time instance. This should be the string representation in the form described for the __str__ method

As stated previously, complete the implementation of the Time class in the file problem2.py (you must download this file from Sakai). I have also provided a test file called test time.py that you can use to test your implementation. That module will simply import the problem2.py module. Edit problem2.py to implement the Time methods described above. When you are ready to test your implementation, type python3 test time.py to test your implementation.

Submission Guidelines

Please name the module for each problem as specified in the problem description above. In particular, create a module called problem1.py for Problem 1, and problem2.py for Problem 2 (download this module from Sakai). Also, please make sure that your name and RUID appear as a comment at the very top of the file.

Submit your homework files via Sakai as follows:

1. Use your web browser to go to the website https:sakai.rutgers.edu.
2. Log in by using your Rutgers login id and password, and click on the OBJECT-ORIENTED PROG S19 tab.
3. Click on the ‘Assignments’ link on the left and go to ‘Homework Assignment #3’ to find the homework file (hw3.pdf), and the modules problem2.py and test time.py (for Problem 2).
4. Use this same link to upload your homework files (problem1.py and problem2.py) when you are ready to submit.