diff --git a/code/3_type_operations.py b/code/3_type_operations.py index 3f1c47f..b2dd712 100644 --- a/code/3_type_operations.py +++ b/code/3_type_operations.py @@ -193,3 +193,7 @@ users = { "peach" : 17, "starfox" : 174 } + + +for num in range(10): + print(num) diff --git a/code/4_control_flow.py b/code/4_control_flow.py new file mode 100644 index 0000000..ceaf667 --- /dev/null +++ b/code/4_control_flow.py @@ -0,0 +1,113 @@ +""" +In this example, we are covering control flow in python + + +Control flow at its lowest level lets us control the execution of code depending on data +""" + + +""" +If statements are the most basic form of control flow, and allow us to conditionally execute code depending on a boolean +expression +""" + +age = 18 + +if age >= 18: + # When the age is greater or equal to 18, this code is run + print("You are an adult") +elif age >= 13: + # Otherwise, when the age is greater or equal to 13, this code is run + # you can chain multiple of these 'elif' conditions if you want + print("You are a teenager") +else: + # And if neither of the above run, this else block is run + print("You are a literal child") + + + + +bank_balance = 10000 +age = 27 + + +# Below, write the code for a bank to check if you are entitled to a mortgage +# For sake of example, lets say you can get a mortgage when both: +# a) You are above 25 years old +# b) You have over 50,000 in the bank +# You can just print "Entitled" or "Not Entitled" + + + + +# ^ Your code above here ^ + + + +""" +While loops are another critical part of control flow + +they allow you to execute a block of code for as along as a boolean expression holds true +""" + + +""" +The below code keeps on doubling a number until it passes a million +""" + +number = 1 +doubles_needed = 0 + +while number < 1000000: + # Double the number + number = number * 2 + doubles_needed = doubles_needed + 1 + +print("You needed to double", doubles_needed, "times to reach a million") + + +# Exercise: +# Below, write the code to perform an integer multiplication without using the python multiplication symbol * +# You can use the fact that multiplication is a repeated addition to help you + +number = 23 +times = 4 +result = 0 + +# ^ Write your code above ^ + + +""" +For loops are the final bit of control flow we are covering today + +technically, we do not need them as you can do anything that needs a for loop with a while loop +""" + +vegetables = ["Carrot", "Lettuce", "Broccoli", "Cauliflower"] + + +for vegetable in vegetables: + print(vegetable) + + +# The above loop can be written as + +index = 0 +while index < len(vegetables): + vegetable = vegetables[index] + print(vegetable) + + index = index + 1 + +# But obviously, the for loop looks much nicer + + + +# For this next exercise, I will provide you with a list of numbers +# I want you to create a for loop to square each one, and add it to a new list +# You will need a for loop and the list.append() method + + +numbers = [11, 75, 41, 26, 52, 39] +squared = [] +