Your program should ask the user to enter a 4 character string representing the time in 24 hr format as ‘HHMM’. For example, the digits ‘1425’ indicate 14 hours and 25 minutes. You may assume that the user enters a valid time. Write a program which reads in a starting day (Mon, Tue, Wed) and a time value in the same format as Question 2 from the user. Then, also ask the user to enter an offset of time in HHMM format. The program should print the day and time (in am/pm notation) given the starting day/time but with the offset added in. Your program must account for the offset resulting in a later day being calculated (if the starting day is Friday, and the offset results in +2 days, the resulting day should be Sunday). Additionally, the program should correctly keep time (60 minutes in an hour, 24 hours in a day, etc.) For example, in the second example below, when we add 10 hours and 44 minutes to the starting time, we didn't result in 77 minutes past the resulting hour! Yes, in that last example, the user entered an offset of 135 hours and 16 minutes. Despite the mention of the input format being HHMM, up to 3 digits can be used for the amount of hours (as we did here). No offset will be entered by the user such that the days advance more 6 days forward. * NOTE - DO NOT use any language construct not taught in lecture sections. For this lab, that includes loops, functions (including main()), string functions, file i/o, exception handling, dictionaries, lists, tuples, and object orientation.

Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
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Your program should ask the user to enter a 4 character string representing the time in 24 hr format as ‘HHMM’. For example, the digits ‘1425’ indicate 14 hours and 25 minutes. You may assume that the user enters a valid time.

Write a program which reads in a starting day (Mon, Tue, Wed) and a time value in the same format as Question 2 from the user. Then, also ask the user to enter an offset of time in HHMM format.

The program should print the day and time (in am/pm notation) given the starting day/time but with the offset added in. Your program must account for the offset resulting in a later day being calculated (if the starting day is Friday, and the offset results in +2 days, the resulting day should be Sunday).

Additionally, the program should correctly keep time (60 minutes in an hour, 24 hours in a day, etc.) For example, in the second example below, when we add 10 hours and 44 minutes to the starting time, we didn't result in 77 minutes past the resulting hour!

Yes, in that last example, the user entered an offset of 135 hours and 16 minutes. Despite the mention of the input format being HHMM, up to 3 digits can be used for the amount of hours (as we did here).

No offset will be entered by the user such that the days advance more 6 days forward.

* NOTE - DO NOT use any language construct not taught in lecture sections. For this lab, that includes loops, functions (including main()), string functions, file i/o, exception handling, dictionaries, lists, tuples, and object orientation.

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