Consider a software for maintaining records of the students in a class. Consider the following functions which are required to be performed:
- Sorting of names according to First Name of the students.
- Finding the Minimum marks among all the marks
- Finding contact number of student using his/her First Name.
Approach: For the above problem we should use a dictionary that either takes a name as a whole to key and other data as value to it or vice versa. Here I have taken the name as a key and contact number, marks as the value associated with the name. So at first the user needs to enter the details of the students and these details will be stored in dictionary as {[‘first name’, ‘second name’]:(‘contact number’, ‘marks’)}. Then we create a new list of tuples that store data according to the function requirement. In the program four user-defined functions have been created:
- sort( ) function that sorts the record based on the first name.
- minmarks( ) function that finds the minimum marks from all records.
- searchdetail( ) function that takes first name as an input and fetch student contact number from the corresponding record.
- option() function for showing the options.
Python 3
Execute
python StudentInfo.py
print("*********Program for Student Information*********")
D = dict()
n = int(input('How many student record you want to store?? '))
# Add student information
# to the dictionary
for i in range(0, n):
x, y = input(
"Enter the complete name (First and last name) of student: ").split()
z = input("Enter contact number: ")
m = input('Enter Marks: ')
D[x, y] = (z, m)
# define a function for shorting
# names based on first name
def sort():
ls = list()
# fetch key and value using
# items() method
for sname, details in D.items():
# store key parts as an tuple
tup = (sname[0], sname[1])
# add tuple to the list
ls.append(tup)
# sort the final list of tuples
ls = sorted(ls)
for i in ls:
# print first name and second name
print(i[0], i[1])
return
# define a function for
# finding the minimum marks
# in stored data
def minmarks():
ls = list()
# fetch key and value using
# items() methods
for sname, details in D.items():
# add details second element
# (marks) to the list
ls.append(details[1])
# sort the list elemnts
ls = sorted(ls)
print("Minimum marks: ", min(ls))
return
# define a function for searching
# student contact number
def searchdetail(fname):
ls = list()
for sname, details in D.items():
tup = (sname, details)
ls.append(tup)
for i in ls:
if i[0][0] == fname:
print(i[1][0])
return
# define a funtion for
# asking the options
def option():
choice = int(input('Enter the operation detail: \n \
1: Sorting using first name \n \
2: Finding Minimum marks \n \
3: Search contact number using first name: \n \
4: Exit\n \
Option: '))
if choice == 1:
# finction call
sort()
print('Want to perform some other operation??? Y or N: ')
inp = input()
if inp == 'Y':
option()
# exit finction call
exit()
elif choice == 2:
minmarks()
print('Want to perform some other operation??? Y or N: ')
inp = input()
if inp == 'Y':
option()
exit()
elif choice == 3:
first = input('Enter first name of student: ')
searchdetail(first)
print('Want to perform some other operation??? Y or N: ')
inp = input()
if inp == 'Y':
option()
exit()
else:
print('Thanks for executing me!!!!')
exit()
option()