10001000)
#Create users:
Tome_Rater.add_user("Alan Turing", "*****@*****.**")
Tome_Rater.add_user("David Marr", "*****@*****.**")
#Add a user with three books already read:
Tome_Rater.add_user("Marvin Minsky",
"*****@*****.**",
user_books=[book1, novel1, nonfiction1])
#Add books to a user one by one, with ratings:
Tome_Rater.add_book_to_user(book1, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(novel1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(nonfiction1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(nonfiction2, "*****@*****.**", 4)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(novel2, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 4)
#Uncomment these to test your functions:
Tome_Rater.print_catalog()
Tome_Rater.print_users()
print("Most positive user:"******"Highest rated book:")
print(Tome_Rater.highest_rated_book())
print("Most read book:")
print(Tome_Rater.most_read_book())
tr.add_book_to_user('*****@*****.**', book1, 1) #['None', 1] #(switched the order of arguments)
tr.add_book_to_user('*****@*****.**', novel1, 3) #['None', 3]
tr.add_book_to_user('*****@*****.**', nonfiction1, 3) #['None', 3]
tr.add_book_to_user('*****@*****.**', nonfiction2, 4) #[4]
tr.add_book_to_user('*****@*****.**', novel3, 1) #[1]
#tr.add_book_to_user(book1, '*****@*****.**', 1)
#tr.add_book_to_user(novel1, "*****@*****.**", 3)
#tr.add_book_to_user(nonfiction1, "*****@*****.**", 3)
#tr.add_book_to_user(nonfiction2, "*****@*****.**", 4)
#tr.add_book_to_user(novel3, "*****@*****.**", 1)
#Add BOOK (Marvin Minsky)
tr.add_book_to_user('*****@*****.**', novel2, 2) #[2] #(switched the order of arguments)
tr.add_book_to_user('*****@*****.**', novel3, 2) #[1, 2]
#tr.add_book_to_user(novel2, "*****@*****.**", 2)
#tr.add_book_to_user(novel3, "*****@*****.**", 2)
#Add BOOK (David Marr)
tr.add_book_to_user('*****@*****.**', novel3, 4) #[1, 2, 4] #(switched the order of arguments)
#tr.add_book_to_user(novel3, "*****@*****.**", 4)
#TEST (print analysis functions)
tr.print_catalog() # tr.print_catalog()
tr.print_users() # tr.print_users()
tr.most_read_book() # print(tr.get_most_read_book()) #(inconsistent METHOD NAME (most_read_books))
tr.highest_rated_book() # print(tr.highest_rated_book())
tr.most_positive_user() # print(tr.most_positive_user())
nonfiction2 = Tome_Rater.create_non_fiction("Computing Machinery and Intelligence", "AI", "advanced", 11111938)
novel2 = Tome_Rater.create_novel("The Diamond Age", "Neal Stephenson", 10101010)
novel3 = Tome_Rater.create_novel("There Will Come Soft Rains", "Ray Bradbury", 10001000)
#Create users:
Tome_Rater.add_user("Alan Turing", "*****@*****.**")
Tome_Rater.add_user("David Marr", "*****@*****.**")
#Add a user with three books already read:
Tome_Rater.add_user("Marvin Minsky", "*****@*****.**", user_books=[book1, novel1, nonfiction1])
#Add books to a user one by one, with ratings:
Tome_Rater.add_book_to_user(book1, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(novel1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(nonfiction1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(nonfiction2, "*****@*****.**", 4)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(novel2, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 4)
#Uncomment these to test your functions:
Tome_Rater.print_catalog()
Tome_Rater.print_users()
print("Most positive user:"******"Highest rated book:",Tome_Rater.highest_rated_book(), '\n')
print("Most read book:",Tome_Rater.get_most_read_book(), '\n')
Tome_Rater.add_book_to_user(nonfiction1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(nonfiction2, "*****@*****.**", 4)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(novel2, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 4)
#Uncomment these to test your functions:
Tome_Rater.print_catalog()
Tome_Rater.print_users()
print("Most positive user:"******"Highest rated book:")
hr_book = Tome_Rater.highest_rated_book()
print("{book}, rating: {rating}".format(book=hr_book,
rating=hr_book.get_average_rating()))
print("Most read book:")
print(Tome_Rater.most_read_book())
print("print Tome_Rater")
print(Tome_Rater)
print("Test comparison")
Tome_Rater2 = Tome_Rater
print("Should equal:")
if Tome_Rater == Tome_Rater2:
print("TomeRaters are equals")
else:
print("TomeRaters are not equal")
#Add a user with three books already read:
Tome_Rater.add_user("Marvin Minsky", "*****@*****.**", user_books=[book1, novel1, nonfiction1])
##Add books to a user one by one, with ratings:
Tome_Rater.add_book_to_user(novel1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(book1, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(nonfiction1, "*****@*****.**", 3)
Tome_Rater.add_book_to_user(nonfiction2, "*****@*****.**", 4)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 1)
#
Tome_Rater.add_book_to_user(novel2, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 4)
#
#
#Uncomment these to test your functions:
Tome_Rater.print_catalog()
Tome_Rater.print_users()
#
noveltest = Tome_Rater.create_novel("There Will Come Soft Rains", "Ray Bradbury", 10001000)
print("Most positive user:"******"\t{}".format(Tome_Rater.most_positive_user()))
print("Highest rated book:")
print("\t{}".format(Tome_Rater.highest_rated_book()))
print("Most read book:")
print("\t{}".format(Tome_Rater.get_most_read_book()))
print("Testing print_users tomerater1: Beatriz Rodriguez, [email protected]")
tomerater1.print_users()
print("Testing most_read_book tomerater2: Watch My Hand by Nancy P. Magcian")
tomerater2.add_user("Beatriz Rodriguez", "*****@*****.**")
tomerater2.add_user("Xiomei Li", "*****@*****.**")
tomerater2.add_book_to_user(fiction4, "*****@*****.**", 2.5)
tomerater2.add_book_to_user(fiction4, "*****@*****.**", 3)
tomerater2.add_book_to_user(tomeraternovel1, "*****@*****.**", 4)
print(tomerater2.most_read_book())
print("Testing highest_rated_book tomerater3: Untruth by Jim Crowed")
tomerater3.add_user("Beatriz Rodriguez", "*****@*****.**")
tomerater3.add_user("Xiomei Li", "*****@*****.**")
tomerater3.add_book_to_user(fiction3, "*****@*****.**", 4)
tomerater3.add_book_to_user(fiction3, "*****@*****.**", 3)
tomerater3.add_book_to_user(tomeraternovel1, "*****@*****.**", 3.7)
print(tomerater3.highest_rated_book())
print("Testing most_positive_user tomerater3: Beatriz Rodriguez")
print(tomerater3.most_positive_user())
print("Testing get_n_most_read_books tomerater3: That Book & Python for Dummies")
tomerater3.add_book_to_user(tomeraterbook1, "*****@*****.**", 4)
tomerater3.add_book_to_user(tomeraterbook1, "*****@*****.**", 2)
print(tomerater3.get_n_most_read_books(2))
print("Testing get_n_most_prolific_readers tomerater3: Beatriz Rodriguez & Jenny Parque")
tomerater3.add_user("Jenny Parque", "*****@*****.**")
tomerater3.add_book_to_user(tomeraterbook1, "*****@*****.**", 3.8)
tomerater3.add_book_to_user(tomeraterbook1, "*****@*****.**", 2)
tomerater3.add_book_to_user(non_fiction1, "*****@*****.**", 1.5)
tomerater3.add_book_to_user(tomeraternovel1, "*****@*****.**", 2.3)
print(tomerater3.get_n_most_prolific_readers(2))
print("Testing get_n_most_expensive_books tomerater3: Untruth & Look Over There")
print(tomerater3.get_n_most_expensive_books(2))
print('\n--------------------- TomeRater Catalog List ---------------------')
rater.print_catalog()
#############################################################################
print('\n----------------------- TomeRater User List ----------------------')
rater.print_users()
#############################################################################
print('\n------------------------- Most Read Book -------------------------')
book = rater.get_most_read_book()
print('{book} : read by {count}'.format(book=repr(book),
count=rater.books[book]))
#############################################################################
print('\n----------------------- Highest Rated Book -----------------------')
book = rater.highest_rated_book()
print('{book} : rating = {rate}'.format(book=book,
rate=book.get_average_rating()))
#############################################################################
print('\n----------------------- Most Positive User -----------------------')
user = rater.most_positive_user()
print('{user} : rating = {rate}'.format(user=user,
rate=user.get_average_rating()))
# ###########################################################################
# ########## code below is used for a LIST of highest-rated books ###########
# ###########################################################################
# print('\n---------------------- Highest Rated Book(s) ---------------------')
# highest = rater.highest_rated_book()
# for book in highest:
Tome_Rater.add_book_to_user(nonfiction2, "*****@*****.**", 4)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 1)
Tome_Rater.add_book_to_user(novel2, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 2)
Tome_Rater.add_book_to_user(novel3, "*****@*****.**", 4)
#Uncomment these to test your functions:
Tome_Rater.print_catalog()
Tome_Rater.print_users()
print("Most positive user:"******"Highest rated book:")
print(Tome_Rater.highest_rated_book())
print("Most read book:")
print(Tome_Rater.most_read_book())
"""
angelo = User("Angelo", "*****@*****.**")
kass = User("Kassandra", "*****@*****.**")
print(angelo)
print(kass)
print(angelo.get_email())
print(kass.get_email())
angelo2 = User("Angelo", "*****@*****.**")
print(angelo == angelo)
print(angelo == angelo2)