def __init__(self):
instruction = """Write a function called f which returns the value 42.
And then call the check method with the function
i.e. cucats.demo2.check(f)"""
title = "Demo 2"
Wrapper.__init__(self, title, value_answer, instruction)
print ("Demo 2 loaded")
def __init__(self):
instruction = """Write a function called f which returns the value 42.
And then call the check method with the function
i.e. cucats.demo2.check(f)"""
title = "Demo 2"
Wrapper.__init__(self, title, value_answer, instruction)
print("Demo 2 loaded")
def squaring(f):
test = [int(rand() * 1000) for i in range(100)]
answer = [x * x for x in test]
user_answer = [f(x) for x in test]
if (answer == user_answer):
Wrapper.printCorrect()
else:
Wrapper.printWrong(user_answer, answer)
def __init__(self):
instructions = """
In this exercise, your task is to write a function 'between(city1, city2)' that:
- Takes the names of two cities as input strings
- Tells us what is at the point between the cities
To help you do this, we're giving you two functions:
- 'coordinates(city)': Takes the name of a city as input and gives you (latitude, longitude)
- 'city(latitude,longitude)': Takes a latitude and a longitude as input and returns a string telling you what's at the point
Hint: the coordinates of a point in the middle of two others are the averages of the coordinates of the two points.
Hint: 'coordinates(city)' returns a pair of values. You can record this as:
'(latitude, longitude) = coordinates(city)'
"""
title = "Cities"
Wrapper.__init__(self, title, test, instructions)
print("Cities loaded")
def __init__(self):
instruction = "Write a function f that returns the square of the input. Call ex2.check(f)"
title = "Writing a "
Wrapper.__init__(self, title, squaring, instruction)
print("Exercises 2 loaded")
def __init__(self):
instruction = """Call the check method with the value of 40 + 2.
i.e. cucats.demo1.check(answer)"""
title = "Demo 1"
Wrapper.__init__(self, title, value_answer, instruction)
print("Demo 1 loaded")
def __init__(self):
instruction = "Use python as a calculator to calculate the value of 2^1000. Check your answer with ex1.check(answer)"
title = "Using python as a calculator"
Wrapper.__init__(self, title, calculator, instruction)
print ("Exercises 1 loaded")
def __init__(self):
instruction = """Call the check method with the value of 40 + 2.
i.e. cucats.demo1.check(answer)"""
title = "Demo 1"
Wrapper.__init__(self, title, value_answer, instruction)
print ("Demo 1 loaded")
def __init__(self):
title = "Fizzbuzz"
Wrapper.__init__(self, title, check_function, instruction)
print(title + " loaded")
def __init__(self):
title = "Fizzbuzz"
Wrapper.__init__(self, title, check_function, instruction)
print (title + " loaded")
def __init__(self):
instruction = "Use python as a calculator to calculate the value of 2^1000. Check your answer with ex1.check(answer)"
title = "Using python as a calculator"
Wrapper.__init__(self, title, calculator, instruction)
print("Exercises 1 loaded")