Contents

  1. binaryToDecimal.py
  2. binaryToDecimal.test.py
  3. non_function_vars.py
  4. oldmac.py
  5. pick4num_wfunctions.py
  6. practice1.py
  7. practice2.py

binaryToDecimal.py 1/7

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# Converts a binary number into a decimal
# By CSCI111, 02.13.2012

print("This program converts a binary number into a decimal number.")

# Read in the binary number as a string -- why?
binnum = input("Enter the binary #: ")

# accumulate the decimal value in this variable
decVal = 0

# go through the positions in the string
for pos in range(len(binnum)):
    # num[pos] is a string; need to convert to an int
    bit = int(binnum[pos])
    # figure out which "place" the current bit is at
    place = 2**(len(binnum)-pos-1)
    # add to the decimal value
    decVal += place * bit
    
print("The decimal value for", binnum, "is", decVal)

binaryToDecimal.test.py 2/7

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# Converts a binary number into a decimal
# Modify to verify that the inputted number is valid.
# By CSCI111

import sys

def main():
    # Read in the binary number as a string -- why?
    num = input("Enter the binary #: ")
    
    # --------- Validate the user input ----------
    if not isBinary(num):
        print(num, "is not a valid binary number.  Please try again.")
        sys.exit()
        
    decVal = binaryToDecimal(num)
    
    print("The decimal value for", num, "is", decVal)


def binaryToDecimal(binnum):
    """
    Converts the binary number to a decimal number
    Precondition: binary, a string that is a binary number
    Postcondition: returns the decimal value of the binary number
    """
    # accumulate the decimal value in this variable
    decVal = 0
    
    # go through the positions in the string
    for pos in range(len(binnum)):
        # num[pos] is a string; need to convert to an int
        bit = int(binary[pos])
        # calculate which "place" the current bit is at
        place = 2**(len(binnum)-pos-1)
        # add to the decimal value
        decVal += place * bit
    return decVal

    
def isBinary(candidate):
    """
    Precondition: candidate is a string
    Postcondition: returns True iff candidate is a valid binary string
    """
    # check that it has all digits (no letters)
    if not candidate.isdigit():
        return False
     
    # Make sure that the inputted number only contains 0s and 1s
    for digit in candidate:
        if digit != "0" and digit != "1":
            return False
    return True

def testIsBinary():
    """
    Test the isBinary function.
    Displays the correctness or incorrectness of the function.
    Does not return anything.
    """
    
    testBinaryTrue = ["10", "0", "0000", "01", "1000010"]
    
    for test in testBinaryTrue:
        result = isBinary(test)
        if result:
            print(test, "successfully identified as binary")
        else:
            print("**ERROR! **", test, "considered not binary")
    
    testBinaryFalse = ["10a", "0000z", "1O", "O"]
    
    for test in testBinaryFalse:
        result = isBinary(test)
        if not result:
            print(test, "successfully identified as not binary")
        else:
            print("**ERROR! **", test, "considered binary")

def testBinaryToDecimal():
    """Test the binaryToDecimal function.  
        Displays the correctness or incorrectness of the function.
        Nothing is returned."""
    testInput = "10"
    expectedResult = 2
    actualResult = binaryToDecimal(testInput)
    if actualResult != expectedResult:
        print("**ERROR! **", testInput, "should be", expectedResult)
        print("Instead, got", actualResult)
    else:
        print("Success on binary to decimal for", testInput, "-->", actualResult)
            
testIsBinary()
testBinaryToDecimal()            

non_function_vars.py 3/7

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# Using variables that aren't part of any function
# by Sara Sprenkle

# create variables that aren't part of any function
non_func = 2
non_func_string = "aardvark"

def main():
    func()
    print(non_func)
    print(non_func_string)

def func():
    print("In func: nf =", non_func)
    print("In func: nfs =", non_func_string)

    # Question: what happens when we try to assign the variables that
    # aren't part of a function a value?
    #non_func = 7
    #non_func_string = "zebra"
    # Answer: 
    
    
main()
non_func = 6
non_func_string = "dog"
print(non_func)
print(non_func_string)
main()

oldmac.py 4/7

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# Print out verses of the song Old MacDonald
# Sara Sprenkle

BEGIN_END = "Old McDonald had a farm"
EIEIO = ", E-I-E-I-O"

def main():
    # call the verse function to print out a verse
    printVerse("dog", "ruff")
    printVerse("duck", "quack")
    
    animal_type = "cow"
    animal_sound = "moo"
    
    printVerse(animal_type, animal_sound)
    

# QUESTION: What happens if main called function as
# printVerse("ruff", "dog")


def printVerse(animal, sound):
    """
    prints a verse of Old MacDonald, plugging in the animal and sound
    parameters (which are strings), as appropriate.
    """
    print(BEGIN_END + EIEIO)
    print("And on that farm he had a " + animal + EIEIO)
    print("With a " + sound + ", " + sound + " here")
    print("And a " + sound + ", " + sound + " there")
    print("Here a", sound)
    print("There a", sound)
    print("Everywhere a " + sound + ", " + sound)
    print(BEGIN_END + EIEIO)
    print()

if __name__ == '__main__':
    main()


pick4num_wfunctions.py 5/7

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# Simulate Pick 4 lottery game - selecting ping pong balls at random
# Modified to figure out if the user entered the winning number
# By CSCI111

from random import *
import sys

# define constants that are easy to change so that our
# program is flexible
NUM_PICKS = 4
MIN_VALUE = 0
MAX_VALUE = 9

NUMFORMAT="####"

def main():

    pickedNum = input("What is your pick? (Format: " + NUMFORMAT + ") ")
    
    ######  handle bad input ######
    error = False
    errorMessage = "Error:\n"
    
    # Check that user enters a string that contains only numbers
    if not pickedNum.isdigit():
        errorMessage += "\tYour number must contain only numbers\n"
        error = True
    
    # User enters a number that is not four digits long
    if len(pickedNum) != 4:
        errorMessage += "\tYour number must contain four numbers"
        error = True
        
    if error:
        print(errorMessage)
        sys.exit()
    
    winningNum = generateWinningNum()
    
    print("The winning Pick 4 lottery number is ", winningNum)
    print()
    
    if winningNum == pickedNum:
        print("Congratulations!  You are very lucky and rich!")
        print("We should be friends!")
    else:
        print("Sorry, you lost.")
    
def generateWinningNum():
    """
    generates a winning number based on constants defined for ...
    returns a string of random numbers of length NUM_PICKS
    """
    # Generate the random number
    winNum = "" # start it as empty
    
    for i in range(NUM_PICKS):
        # generate a random number
        # add the random number to the previous random number
        winNum += str(randint(MIN_VALUE,MAX_VALUE))
        
    return winNum
    
main()

practice1.py 6/7

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# Exercising your knowledge of variable scope.
#

def main():
    num = eval(input("Enter a number to be squared: "))
    squared = square(num)
    print("The square is", squared)

def square(n):
    return n * n

main()

practice2.py 7/7

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# Exercising your knowledge of variable scope.

def main():
    num = eval(input("Enter a number to be squared: "))
    squared = square(num)
    print("The square is", squared)
    print("The original num was", n)

def square(n):
    return n * n

main()

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