Use the function design recipe to develop a function named count_odds. The function takes a list of integers, which may be empty. The function returns the number of odd integers in the list. Automated testing is required Your solutions can use: • the [] operator to get and set list elements (e.g., lst[i] and lst[i] = a) • the in and not in operators (e.g., a in lst) • the list concatenation operator (e.g., lst1 + lst2) • the list replication operator (e.g., lst * n or n * lst) • Python's built-in len, min and max functions, unless otherwise noted. Your solutions cannot use: • list slicing (e.g., lst[i : j] or (lst[i : j] = t) • the del statement (e.g., del lst[0]) • Python's built-in reversed and sorted functions.
Use the function design recipe to develop a function named count_odds. The function takes a list of integers, which may be empty. The function returns the number of odd integers in the list.
Automated testing is required
Your solutions can use:
• the [] operator to get and set list elements (e.g., lst[i] and lst[i] = a)
• the in and not in operators (e.g., a in lst)
• the list concatenation operator (e.g., lst1 + lst2)
• the list replication operator (e.g., lst * n or n * lst)
• Python's built-in len, min and max functions, unless otherwise noted.
Your solutions cannot use:
• list slicing (e.g., lst[i : j] or (lst[i : j] = t)
• the del statement (e.g., del lst[0])
• Python's built-in reversed and sorted functions.
• any of the Python methods that provide list operations, e.g., sum, append, clear, copy, count, extend, index, insert, pop, remove, reverse and sort
• list comprehensions
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