Difference between revisions of "CSC111 Lab 5 2015b"

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----
 
----
  
<br />
 
=Preparation=
 
<br />
 
* Copy paste the program below in a new Idle window, and call it '''lab5Companion.py'''. 
 
* Save your new program to your working directory, where you normally save your lab programs.
 
* Run the program.  It should create 3 text files in your folder.  You will be using them in this lab.  The files are called:
 
**  chocoQuotes.txt
 
** hargitay.txt
 
** joanneHarris.txt
 
 
<br />
 
::<source lang="python">
 
[19:14:51] ~/Desktop/temp$: cat lab5prep.py
 
# lab5Companion.py
 
# D. Thiebaut
 
# This program will create several files in the directory
 
# where you will run it.
 
# The files are retrieved from a Web server, stored temporarily
 
# in a string, and stored in a local file on your disk.
 
# The 3 files are very, very short.
 
# Their names are:
 
# - chocoQuotes.txt
 
# - hargitay.txt
 
# - joanneHarris.txt
 
 
import urllib.request  # the lib that handles the url stuff
 
 
# main program
 
def main():
 
 
    # list of files to retrieve
 
    URLs = [ "http://cs.smith.edu/~dthiebaut/111/files/chocoQuotes.txt",
 
            "http://cs.smith.edu/~dthiebaut/111/files/hargitay.txt",
 
            "http://cs.smith.edu/~dthiebaut/111/files/joanneHarris.txt" ]
 
 
    # get each file, one at a time
 
    for url in URLs:
 
        # fetch the file and put its contents in the
 
        # string text.
 
        response = urllib.request.urlopen( url )
 
        text    = response.read().decode( 'UTF-8' )
 
       
 
        # write text to file, in the same directory as this program.
 
        fileName  = url.split( "/" )[-1]
 
        file      = open( fileName, "w" )
 
        file.write( text + "\n" )
 
        file.close()
 
 
        # give feedback to user.
 
        print( "File {0:1} created in your folder".format( fileName ) )
 
 
 
main()
 
 
</source>
 
<br />
 
  
 
<br />
 
<br />
 +
<center><videoflash>tDhhDKjatLI</videoflash></center>
 
<br />
 
<br />
 +
<showafterdate after="20151007 08:00" before="20151231 00:00">
 
<bluebox>
 
<bluebox>
This lab deals with functions, passing parameters, and returning values.  It is also about for you to start the Python.org documentation on the Web.  The online documentation is a great help when writing programs.  The Moodle submissions are due on Friday 10/08 at 11:55 p.m.
+
This lab deals with functions, passing parameters, and returning values.  It is also about for you to start the Python.org documentation on the Web.  The online documentation is a great help when writing programs.  The Moodle submissions are due on Friday 10/09 at 11:55 p.m.
 
</bluebox>
 
</bluebox>
 
<br />
 
<br />
 
__TOC__
 
__TOC__
 
<br />
 
<br />
=Searching the Python.org Doc=
+
=Searching the Python.org Docs=
 +
[[Image:python_org.png|right|250px]]
 
<br />
 
<br />
 
* Open your Web browser and go to http://python.org
 
* Open your Web browser and go to http://python.org
Line 77: Line 24:
  
 
<br />
 
<br />
 +
 
=Functions=
 
=Functions=
 
<br />
 
<br />
Line 110: Line 58:
 
<br />
 
<br />
 
Notice what happens when you add the <tt>end=""</tt> construct in the print statement.  It changes the way the print() function ends printing what it has to print.  By default, if you do not have an <tt>end=""</tt> construct, '''print()''' brings the cursor to the next line.  But this behavior can be changed.  We are going to use this, in the new program below.
 
Notice what happens when you add the <tt>end=""</tt> construct in the print statement.  It changes the way the print() function ends printing what it has to print.  By default, if you do not have an <tt>end=""</tt> construct, '''print()''' brings the cursor to the next line.  But this behavior can be changed.  We are going to use this, in the new program below.
 +
<br />
 
<br />
 
<br />
 
==Teller Machine with Functions==
 
==Teller Machine with Functions==
 
[[Image:TellerFigure.jpg|right]]
 
[[Image:TellerFigure.jpg|right]]
 
<br />
 
<br />
* Without looking at your notes, (but if you get stuck, it's ok to look up your notes or the class notes on the Web), try to recreate the teller machine program that prompts the user for some ''integer'' amount of dollars, and returns the number of bills.
+
* Without looking at your notes, (but if you get stuck, it's ok to look up your notes or the class notes on the Web), try to recreate the teller machine program
* Recommendations:
+
:# Start with the main program, have it call a function to get the amount (you can call it '''getAmount()'''), then it calls a function (say '''divideInBills()'''), that ''receives'' the amount, breaks it into 4 numbers, and ''returns'' a list of 4 numbers to main.  And finally, at the end of main(), a function (say, '''displayResults()''') is passed the list of 4 numbers and prints them in a nicely formatted output.
:* create a function to get the amount from the user: the function asks the user to enter some amount, gets the amount with inpu(), then returns it to the main() program.
+
<br />
:* create a function that receives the amount to be broken, and prints the breakdown in various amounts of bills.
+
<br />
:* If you are ambitious, try to think of a way to write a function that receives an amount (say 17), and some denomination (say 10), and prints "1 $10-bill(s)", and returns 7. One you have this function written, you can call it 4 times to break down the amount into $20-, $10-, $5- and $1-bills.
+
{| style="width:100%; background:silver"
 +
|-
 +
|
 +
 
 +
===Challenge #1===
 +
|}
 +
[[Image:QuestionMark5.jpg|right|120px]]
 +
 
 +
:* Instead of having the function getAmount() return 4 numbers, like this:
 +
<br />
 +
::<source lang="python">
 +
    no20s, no10s, no5s, no1s = divideInBills( amount )
 +
</source>
 +
<br />
 +
:create a new function called '''breakDown( ... )''' that gets the amount and a value, and returns the number of bills of that value, and the new amount:
 +
<br />
 +
::<source lang="python">
 +
    amount, no20s = breakDown( amount, 20 )
 +
    amount, no10s = breakDown( amount, 10 )
 +
    amount, no5s = breakDown( amount, 5 )
 +
    amount, no1s = breakDown( amount, 1 ) # you might find a simpler way to write this!
 +
 
 +
</source>
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 
<br />
 
<br />
  
Line 213: Line 189:
 
</source>
 
</source>
 
<br />
 
<br />
<!--  ================================================================
+
<!--  ================================================================ -->
  
 
==Functions and Stick Figure, Version 3==
 
==Functions and Stick Figure, Version 3==
 
<br />
 
<br />
* Use the same approach to create this stick figure with a sword:
+
* Use the same approach to create this stick figure of a snow man:
 
<br />
 
<br />
 
::<source lang="text">
 
::<source lang="text">
/+=====>
+
    __
\O___
+
  _|==|_
   |
+
    ('')__/
   |
+
>--(`^^`)
/ \
+
   (`^'^'`)
/  \
+
   `======'
 +
 
 
</source>
 
</source>
 
<br />
 
<br />
* Try to organize your functions similarly to the way I did.  Below is my stickFigure1() function.  Figure out the missing pieces!  Note: I added a '1' suffix to all the function names to differentiate them from the functions used for the other version of the stick-figure.
+
 
 +
* Try to organize your functions similarly to the way you did in the previous version.  Below is an example of a snowMan() function.  Figure out the missing pieces!   
 
<br />
 
<br />
 
::<source lang="python">
 
::<source lang="python">
def stickFigure1():
+
def snowMan():
     leftForearm1()
+
     hat()
     sword1()
+
     headRightArm()
     leftArm1()
+
     leftArm()
     head1()
+
     body()
     rightArm1()
+
     base()
     body1()
+
     </source>
    leftThigh1()
 
    rightThigh1()
 
    leftCalf1()
 
    rightCalf1()
 
</source>
 
 
<br />
 
<br />
  
================================================================ -->
+
<!-- ================================================================ -->
 
+
<br />
=Trim DNA=
+
==Trimming DNA==
 
<br />
 
<br />
 
* Assume that we have a string containing the description of a DNA sequence, say "AAGACTAAAAAAGACTT."  (DNA sequences are made of 4 symbols: A, C, G, and T.)  Assume we know that "AGA" is a special marker in our DNA strings.  So our string is marked in this way: "A<font color="magenta">AGA</font>CTAAAAA<font color="magenta">AGA</font>CTT."
 
* Assume that we have a string containing the description of a DNA sequence, say "AAGACTAAAAAAGACTT."  (DNA sequences are made of 4 symbols: A, C, G, and T.)  Assume we know that "AGA" is a special marker in our DNA strings.  So our string is marked in this way: "A<font color="magenta">AGA</font>CTAAAAA<font color="magenta">AGA</font>CTT."
  
* Write a function called '''trimDNA( )''' that receives the original DNA string as a parameter, and returns the string where everything on the left and right of the markers has been removed.   
+
* Write a function called '''trimDNA( )''' that receives the original DNA string as a parameter, and returns the string where everything on the left and right of the markers has been removed.  We assume that the string will always contain two markers.
  
 
* Example:
 
* Example:
Line 270: Line 243:
  
 
<br />
 
<br />
=Happy Birthday!=
+
==Testing==
 +
<br />
 +
Make sure your function works strings of the type A<font color="magenta">AGA</font><font color="magenta">AGA</font>CTT, or <font color="magenta">AGA</font>TTTT<font color="magenta">AGA</font>.
 +
 
 +
<br />
 +
<br />
 +
==Happy Birthday!==
 
<br />
 
<br />
 
* Start with these three new functions:
 
* Start with these three new functions:
Line 318: Line 297:
 
|
 
|
  
===Challenge #8===
+
===Challenge #2===
 
|}
 
|}
 
[[Image:QuestionMark8.jpg|right|120px]]
 
[[Image:QuestionMark8.jpg|right|120px]]
Line 333: Line 312:
 
|
 
|
  
===Challenge #9===
+
===Challenge #3===
 
|}
 
|}
 
[[Image:QuestionMark9.jpg|right|120px]]
 
[[Image:QuestionMark9.jpg|right|120px]]
Line 342: Line 321:
 
<br />
 
<br />
 
::<source lang="text">
 
::<source lang="text">
Please enter the names of your friends: Jorge Karl Dave
+
Please enter the names of your friends: Jorge KARL        Dave
  
 
Happy birthday to you!
 
Happy birthday to you!
Line 360: Line 339:
 
</source>
 
</source>
 
<br />
 
<br />
==Moodle Submission==
 
<br />
 
* Submit your solution program for Challenge 9 to Moodle, in Section LAB 5 PB 9.  You will need to rename your program lab5_9.py.
 
<br />
 
 
=Reading Text From File=
 
<br />
 
* Open '''Finder''' or '''Windows Explorer''' and go to the folder that contains your '''lab5.py''' program, as well as your '''lab5Companion.py''' programs.  Make sure the folder contains the 3 text files you created earlier. 
 
* Open the file name '''hargitay.txt'''.  Verify that it contains the same poem we have been playing with.
 
* Either create a new program or add a new '''main()''' function to your existing program (rename the original main, '''main2()''', maybe?), and put the code below in the new function:
 
<br />
 
::<source lang="python">
 
def main():
 
    fileName = "hargitay.txt"
 
    file = open( fileName, "r" )
 
    lines = file.readlines()
 
    file.close()
 
 
    for line in lines:
 
        print( line )
 
</source>
 
* Run the program.  Observe its output.
 
* The reason for the double-spacing is that each line read from the file contains a '\n' at the end of it.  And when you print such a line, the '''print()''' function adds its own \n at the end.    This is why you get a blank line in between lines.
 
* One way to remove the '\n' at the end of each line is to print the line as follows: <tt>print( line.rstrip() )</tt>.  The '''rstrip()''' method right-strips the string of all ''white-space'' characters, which include spaces, tabs, and '\n'-characters.
 
<br />
 
<br />
 
{| style="width:100%; background:silver"
 
|-
 
|
 
 
===Challenge #5===
 
|}
 
[[Image:QuestionMark5.jpg|right|120px]]
 
 
* Make your program get the name of the file from the user, with an '''input()''' statement.
 
* Then, make your program output the contents of the file in a box, as you did in Challenge 4.
 
* Test your program by providing it with different file names:
 
** hargitay.txt
 
** joanneHarris.txt
 
** chocoQuotes.txt
 
* Adjust the width of the box if necessary.
 
<br />
 
<br />
 
{| style="width:100%; background:silver"
 
|-
 
|
 
 
===Challenge #6===
 
|}
 
[[Image:QuestionMark6.jpg|right|120px]]
 
 
* Exact same challenge as Challenge 5, but this time start with this program, where I have replaced the '''.readlines()''' method with '''.read()'''.
 
<br />
 
::<source lang="python">
 
def main():
 
    fileName = input( "File name? " )
 
    file = open( fileName, "r" )
 
    text = file.read()
 
    file.close()
 
 
    print( "The type of text is", type( text ) )
 
    print( "text = ", text )
 
 
 
</source>
 
<br />
 
:; Note
 
:: when Python says that something is of type <tt> <class 'str'></tt>, it means that it is a '''string'''.
 
<br />
 
<br />
 
=Writing Text to File=
 
<br />
 
* Try this new version of main:
 
<br />
 
::<source lang="python">
 
def main():
 
    fileName = "hargitay.txt"
 
    file = open( fileName, "r" )
 
    text = file.read()
 
    file.close()
 
   
 
    text = text.replace( "chocolate", "carrot" )
 
    text = text.replace( "Chocolate", "Carrot" )
 
  
    file = open( fileName, "w" )
 
    file.write( text + "\n" )
 
    file.close()
 
 
</source>
 
<br />
 
* Open Finder or Windows Explorer, and take a look at the file "hargitay.txt", either with '''TextEdit''' or with '''Notepad'''.  See anything different?
 
* BTW, You can recreate the original file by running the '''lab5Companion.py''' program again.
 
<br />
 
<br />
 
<br />
 
{| style="width:100%; background:silver"
 
|-
 
|
 
 
===Challenge #7===
 
|}
 
[[Image:QuestionMark7.jpg|right|120px]]
 
 
* Modify the program so that it prompts the user for
 
** The name of the file to read from and write to, and
 
** a word
 
: and make the program read the file, replace the word chocolate in it with the word the user picked, and save the resulting text back to the file.
 
* Verify that your program works correctly, and that it modifies the file you select and replaces ''chocolate'' with the word you choose.
 
<br />
 
 
==Moodle Submission==
 
==Moodle Submission==
 
<br />
 
<br />
Rename your program '''lab5_7.py''', and submit your solution program for Challenge #7 to Moodle, in the Lab 5 PB 7 section.
+
* Submit your solution program for Challenge 3 to Moodle, in Section LAB 5 PB 3.  You will need to rename your program lab5_3.py.
 
<br />
 
<br />
 
<br />
 
<br />
=Splitting Long Strings (Optional: Skip it if you do not have time)=
+
</showafterdate>
<br />
 
<tanbox>
 
In this section you will see how to take text represented as a multi-line string, and process it various ways.
 
</tanbox>
 
<br />
 
* Long strings that span several lines can be created by enclosing them in triple quotes; either triple single-quotes ('''), or triple double-quotes ("""). 
 
* Copy/paste the program below in a new program.  You may call it '''lab5.py'''
 
<br />
 
::<source lang="python">
 
# lab5.py
 
 
 
text = """Chocolate
 
Chocolate is the first luxury.
 
It has so many things wrapped up in it:
 
Deliciousness in the moment,
 
childhood memories,
 
and that grin-inducing
 
feeling of getting a reward for being good.
 
--Mariska Hargitay"""
 
 
 
def main():
 
    # make sure main knows that this variable exists
 
    global text
 
   
 
    # split the long string into individual lines
 
    lines = text.split( "\n" )
 
  
    # print each line
 
    for line in lines:
 
        print( line )
 
  
main()
 
</source>
 
<br />
 
* Run the program.  Verify that it outputs the entirety of the text.
 
* Just to make sure we understand what the variable '''lines''' contain, make your program print '''lines''', with a simple <tt>print( lines )</tt> statement.
 
* Observe that it's just a regular Python '''list'''.
 
<br />
 
 
<br />
 
<br />
{| style="width:100%; background:silver"
 
|-
 
|
 
  
===Challenge #1===
+
== Paper and Pencil Exercises ==
|}
+
Question 1:
[[Image:QuestionMark1.jpg|right|120px]]
+
Write a program that calculates the average word length in a sentence entered by the user. Make sure you format your output to only show TWO decimal places!
  
* Modify your program, and make it print the poem so that each line is centered in a field of 60 spaces.  You must use the '''text''' variable, and print its line.  Do not create a new version of the poem!
 
* Expected output
 
<br />
 
::<source lang="text">
 
                        Chocolate                         
 
              Chocolate is the first luxury.             
 
          It has so many things wrapped up in it:         
 
                Deliciousness in the moment,               
 
                    childhood memories,                   
 
                  and that grin-inducing                 
 
        feeling of getting a reward for being good.       
 
                    --Mariska Hargitay                   
 
</source>
 
<br />
 
<br />
 
<br />
 
{| style="width:100%; background:silver"
 
|-
 
|
 
  
===Challenge #2===
 
|}
 
[[Image:QuestionMark2.jpg|right|120px]]
 
  
* Make your program print the first line of the poem, centered, but also in uppercase.
+
Question 2:
* If you need to review the string methods, you may want to go to this [https://docs.python.org/3/library/stdtypes.html#string-methods page].
+
Write a program that does the following:
* Print a blank line after the title.
+
    1. Displays the provided list of students in the class:
* Make it display the other lines centered, without changing their case.
+
              students = ["Brown,Sarah", "McCharles,Charlie", "Hudson,Stanley", "Smith,Margaret", "Brown,Ben", "Yang,Debbie"]  
* Print a blank line before the last line.
+
    2. Prompts the user to type in a number between 0 and the length of the list of students
* Expected output
+
    3. Using the user input, get the appropriate student name and print out a new user account with the new format First Initial Last Name
<br />
+
        ie. Sarah Brown turns in to SBrown
::<source lang="text">
 
                        CHOCOLATE           
 
           
 
              Chocolate is the first luxury.              
 
          It has so many things wrapped up in it:         
 
                Deliciousness in the moment,                
 
                    childhood memories,                   
 
                  and that grin-inducing                 
 
        feeling of getting a reward for being good.        
 
  
                    --Mariska Hargitay                   
+
Example Input/Output
</source>
+
>>> main()
<br />
+
1 Brown,Sarah
<br />
+
2 McCharles,Charlie
{| style="width:100%; background:silver"
+
3 Hudson,Stanley
|-
+
4 Smith,Margaret
|
+
5 Brown,Ben
 
+
  6 Yang,Debbie
===Challenge #3===
+
Which student do you want to process? 6
|}
+
[[Image:QuestionMark3.jpg|right|120px]]
+
Debbie Yang: DYang
 
+
  >>>  
* One more modification. Now make your program print the last line right-justified in a field of 60 spaces.
 
* The first line is still in upper-case.
 
* Make it display the other lines centered, without changing their case.
 
* If you need to review the string methods, you may want to go to this [https://docs.python.org/3/library/stdtypes.html#string-methods page].
 
* Expected output
 
<br />
 
::<source lang="text">
 
                        CHOCOLATE       
 
               
 
              Chocolate is the first luxury.             
 
          It has so many things wrapped up in it:         
 
                Deliciousness in the moment,               
 
                    childhood memories,                   
 
                  and that grin-inducing                 
 
        feeling of getting a reward for being good.
 
       
 
                                          --Mariska Hargitay         
 
</source>
 
<br />
 
 
 
<br />
 
{| style="width:100%; background:silver"
 
|-
 
|
 
 
 
===Challenge #4===
 
|}
 
[[Image:QuestionMark4.jpg|right|120px]]
 
 
 
* Make your program print the poem in a box. The top and bottom lines have 50 dashes in them.
 
* Expected output
 
<br />
 
::<source lang="text">
 
+--------------------------------------------------+
 
|                    CHOCOLATE                    |
 
|                                                  |
 
|          Chocolate is the first luxury.          |
 
|    It has so many things wrapped up in it:      |
 
|          Deliciousness in the moment,          |
 
|              childhood memories,                |
 
|              and that grin-inducing              |
 
|  feeling of getting a reward for being good.    |
 
|                                                  |
 
|                                --Mariska Hargitay|
 
+--------------------------------------------------+
 
</source>
 
<br />
 
<br />
 
  
 
<br />
 
  
 
<!-- =================================================================== -->
 
<!-- =================================================================== -->
Line 632: Line 383:
 
<!-- =================================================================== -->
 
<!-- =================================================================== -->
  
<showafterdate after="20150227 11:00" before="20150601 00:00">
+
<showafterdate after="20151013 00:00" before="20151231 00:00">
 
=Solution Programs=
 
=Solution Programs=
 
<br />
 
<br />
 
::<source lang="python">
 
::<source lang="python">
# Solution program for Lab #5
+
# All solutions to the challenges are stored in functions named challengex(),
 
# where x is 1, 2, 3, etc.
 
#
 
 
 
text = """Chocolate
 
Chocolate is the first luxury.
 
It has so many things wrapped up in it:
 
Deliciousness in the moment,
 
childhood memories,
 
and that grin-inducing
 
feeling of getting a reward for being good.
 
--Mariska Hargitay"""
 
 
 
def makeTextFile():
 
    file = open("hargitay.txt","w" )
 
    file.write( text )
 
    file.close()
 
 
 
 
 
def bar():
 
    print()
 
    print( "-"*80 )
 
 
 
def program0():
 
    # split the long string into individual lines
 
    lines = text.split( "\n" )
 
 
 
    # print each line
 
    for line in lines:
 
        print( line )
 
 
 
def challenge1():
 
    # split the long string into individual lines
 
    lines = text.split( "\n" )
 
 
 
    # print each line
 
    for line in lines:
 
        print( line.center( 60 ) )
 
 
 
def challenge2():
 
    # split the long string into individual lines
 
    lines = text.split( "\n" )
 
 
 
    # print title
 
    print( lines[0].upper().center( 60 ) )
 
   
 
    # print each line
 
    for line in lines[1: ]:
 
        print( line.center( 60 ) )
 
 
 
 
 
def challenge3():
 
    # split the long string into individual lines
 
    lines = text.split( "\n" )
 
 
 
    # get first and last line
 
    title = lines[0]
 
    lastLine = lines[-1]
 
 
 
    # get first line and print it
 
    print( title.upper().center( 60 ) )
 
    print()
 
   
 
    # print poem, between title and last line
 
    for line in lines[1:-1]:
 
        print( line )
 
 
 
    # print last line right-justified
 
    print( lastLine.rjust( 60 ) )
 
 
 
 
 
def challenge4():
 
    # split the long string into individual lines
 
    lines = text.split( "\n" )
 
 
 
    bar = "+" + "-"*50 + "+"
 
 
 
    # get first line and print it
 
    print( bar )
 
    print( "|" + lines[0].upper().center( 50 ) + "|" )
 
   
 
    # print each line
 
    for line in lines[1:-1]:
 
        print( "|" + line.center(50) + "|" )
 
    print( "|" + lines[-1].rjust(50) + "|" )
 
    print( bar )
 
 
 
 
 
def challenge5():
 
    # open the file and read the lines in
 
    fileName = "hargitay.txt"
 
    file = open( fileName, "r" )
 
    lines = file.readlines()
 
    file.close()
 
 
 
    # create a bar for the top and bottom of box
 
    bar = "+" + "-"*50 + "+"
 
 
 
    # get first line and print it
 
    print( bar )
 
    print( "|" + lines[0].upper().center( 50 ) + "|" )
 
   
 
    # print each line
 
    for line in lines[1:-1]:
 
        print( "|" + line.center(50) + "|" )
 
    print( "|" + lines[-1].rjust(50) + "|" )
 
    print( bar )
 
 
 
def challenge6():
 
    # open the file and read the lines in
 
    fileName = "hargitay.txt"
 
    file = open( fileName, "r" )
 
    text = file.read()
 
    lines = text.split( "\n" )
 
    file.close()
 
 
 
    # create a bar for the top and bottom of box
 
    bar = "+" + "-"*50 + "+"
 
 
 
    # get first line and print it
 
    print( bar )
 
    print( "|" + lines[0].upper().center( 50 ) + "|" )
 
   
 
    # print each line
 
    for line in lines[1:-1]:
 
        print( "|" + line.center(50) + "|" )
 
    print( "|" + lines[-1].rjust(50) + "|" )
 
    print( bar )
 
 
 
 
 
def challenge7():
 
    # get the user input
 
    fileName = input( "File name? " )
 
    word    = input( "Word to swap in? " )
 
   
 
    # open the file and read the lines in
 
    file = open( fileName, "r" )
 
    text = file.read()
 
    file.close()
 
 
 
    # replace chocolate by word before we split the text
 
    text = text.replace( "Chocolate", word.capitalize() )
 
    text = text.replace( "chocolate", word.lower() )
 
    text = text.replace( "CHOCOLATE", word.upper() )
 
 
 
    file = open( fileName, "w" )
 
    file.write( text )
 
    file.close()
 
 
 
 
 
 
 
  
 
# --------------------- stickFigure -----------------------
 
# --------------------- stickFigure -----------------------
Line 876: Line 476:
 
     rightCalf1()
 
     rightCalf1()
  
 +
# ---------------------- Snow Man ----------------------
 +
"""
 +
    __
 +
  _|==|_
 +
    ('')__/
 +
>--(`^^`)
 +
  (`^'^'`)
 +
  `======'
 +
"""
 +
def hat():
 +
    print("    __" )
 +
    print("  _|==|_" )
 +
 +
def headRightArm():
 +
    print( "    ('')__/" )
 +
 +
def leftArm():
 +
    print( ">--", end="" )
 +
 +
def body():
 +
    print( "(`^^`)" )
 +
    print("  (`^'^'`)" )
 +
 +
def base():
 +
    print( "  `======'" )
 +
    print()
 +
   
 +
def snowMan():
 +
    hat()
 +
    headRightArm()
 +
    leftArm()
 +
    body()
 +
    base()
 +
   
 +
 +
snowMan()
 +
 +
   
  
 +
   
 
# ---------------------------------------------------------
 
# ---------------------------------------------------------
  
Line 893: Line 532:
  
  
def challenge8( ):
+
def singHappy( ):
 
     # get the name from the user
 
     # get the name from the user
 
     name = input( "Who's birthday should we celebrate? " )
 
     name = input( "Who's birthday should we celebrate? " )
Line 900: Line 539:
 
     singSong( name )
 
     singSong( name )
  
# challenge 9
+
# ----------------- Another Version ---------------------
 
def happyBirthday():
 
def happyBirthday():
 
     print( "Happy birthday to you!" )
 
     print( "Happy birthday to you!" )
Line 913: Line 552:
 
     happyBirthday()
 
     happyBirthday()
  
def challenge9( ):
+
def singHappy2( ):
 
     # get a line of names, separated by spaces
 
     # get a line of names, separated by spaces
 
     line = input( "? " )
 
     line = input( "? " )
Line 921: Line 560:
  
 
     # split the line into individual names, and sing song for each
 
     # split the line into individual names, and sing song for each
     for name in line.split( " " ):
+
     for name in line.split( ):
 
         singSong( name )
 
         singSong( name )
 
         # blank line separates the different songs
 
         # blank line separates the different songs
Line 932: Line 571:
 
      
 
      
 
def main():
 
def main():
   
+
    newStickFigure()
    challenge1()
+
    stickFigure1()
    bar()
+
    snowMan()
    challenge2()
+
    singHappy()
    bar()
+
    singHappy2()
    challenge3()
+
 
    bar()
 
    challenge4()
 
    bar()
 
    challenge5()
 
    bar()
 
    challenge6()
 
    bar()
 
    challenge7()
 
    bar()
 
    challenge8()
 
    bar()
 
    challenge9()
 
    bar()
 
 
 
   
 
 
main()
 
main()
  
Line 960: Line 584:
 
</showafterdate>
 
</showafterdate>
 
<br />
 
<br />
<onlydft>
 
=VPL Modules=
 
<br />
 
==Challenge 7==
 
===vpl_run.sh===
 
<br />
 
<source lang="bash">
 
#! /bin/bash
 
 
cat > vpl_execution <<EOF
 
#! /bin/bash
 
 
# --- Python ----
 
if [[ `hostname -s` = "beowulf2" ]]; then
 
  python=/usr/bin/python3.3
 
else
 
  python=/usr/local/bin/python3.4
 
fi
 
 
prog=lab5_7.py
 
\$python \$prog
 
 
EOF
 
 
chmod +x vpl_execution
 
</source>
 
<br />
 
===vpl_evaluate.sh===
 
<br />
 
<source lang="bash">
 
#! /bin/bash
 
 
cat  > vpl_execution <<EOF
 
#! /bin/bash
 
 
# --- Python ----
 
if [[ `hostname -s` = "beowulf2" ]]; then
 
  python=/usr/bin/python3.3
 
else
 
  python=/usr/local/bin/python3.4
 
fi
 
 
 
 
\$python evaluate.py
 
 
EOF
 
 
chmod +x vpl_execution
 
 
 
</source>
 
<br />
 
===evaluate.py===
 
<br />
 
<source lang="python">
 
# evaluate.py
 
# D. Thiebaut
 
# This program is used to test a student's python program on Moodle.
 
 
import sys
 
import random
 
import subprocess
 
 
#--- define what the student program is called, and what the solution
 
#--- program name is.
 
module = "lab5_7"
 
solutionModule = "lab5_7sol"
 
userOutSplitPattern = "POEM"    # pattern used to start recording the user
 
                              # output.  Useful when program does several
 
                              # input() statements, and user output starts
 
                              # after that.
 
 
 
#--- GLOBALS ---
 
interpreter = sys.executable
 
 
def commentLong( line ):
 
    print( "<|--\n" + line  + "\n --|>" )
 
 
def commentShort( text ):
 
    print( "Comment :=>> " + text )
 
 
def printGrade( grade ):
 
    print( "Grade :=>> ", grade )
 
 
# generateInputFileWithRandomInputs
 
# generate a file with name "inputFileName" with some random input
 
# for the program.
 
# MAKE SURE TO EDIT THIS TO MATCH THE PROGRAM BEING TESTED
 
def generateInputFileWithRandomInputs( inputFileName ):
 
    #--- generate random inputs ---
 
    fileName = random.choice( [ "choco.txt", "choc.txt", "chocolat.txt" ] )
 
   
 
    title    = [ "POEM: Chocolate Poem", "POEM: Chocolate Chocolate", "POEM: Chocolate Anyone?" ]
 
    lines    = [ "Chocolate, CHOCOLATE : you're the best!",
 
                "Milk chocolate, dark chocolate?  Who cares?",
 
                "I'm happy when I eat chocolate.  You?",
 
                "This line does not contain c-h-o-c-o-l-a-t-e",
 
                "It's cold... I want some hot chocolate, now!" ]
 
    author  = [ "--Anonymous", "--Francis", "--DFT" ]
 
    replace  = random.choice( [ "carrot", "cocoa", "cream" ] )
 
 
    poem    = [ random.choice( title ),
 
                random.choice( lines ),
 
                random.choice( lines ),
 
                random.choice( lines ),
 
                random.choice( author ) ]
 
    poem = "\n".join( poem )
 
 
    #--- create data file with input data ---
 
    text = poem + "\n"
 
    file = open( fileName, "w" )
 
    file.write( text )
 
    file.close()
 
 
    #--- create input file for stdin ---
 
    file = open( inputFileName, "w" )
 
    file.write( fileName + "\n" )
 
    file.write( replace + "\n" )
 
    file.close()
 
 
    return  text
 
 
# checkForFunctionPresence
 
# checks that "functionName" is defined and called in the program.
 
# MAKE SURE TO EDIT TO MATCH PROGRAM BEING TESTED
 
def checkForFunctionPresence( module, functionName ):
 
    foundDef = False
 
    foundCall = False
 
 
    for line in open( module+".py", "r" ).readlines():
 
        # remove comments
 
        idx = line.find( "#" )
 
        if ( idx >=0 ): line = line[0:idx]
 
 
        if line.startswith( "def " + functionName + "(" ):
 
            foundDef = True
 
            continue
 
        if line.startswith( "def " + functionName + " (" ):
 
            foundDef = True
 
            continue
 
        if line.find( functionName+"(" ) != -1:
 
            foundCall = True
 
            continue
 
 
    return (foundDef, foundCall)
 
 
 
 
# ==================================================================
 
# NO EDITS NEEDED BELOW!
 
# ==================================================================
 
 
 
 
 
# checkModuleRunsOK: runs the module as a shell subprocess and
 
# look for errors in the output.  This is required, because otherwise
 
# importing the module in this program will make this program crash.
 
# It's not possible (as far as I can tell0 to catch exceptions from
 
# the import or __module__ statements.
 
# returns True, none if no errors, otherwise False, string if there's
 
# an exception, and the error message (string) is in the returned 2nd
 
# arg.
 
# The module name is assumed to not include ".py"
 
def checkModuleRunsOk( module, inputFileName ):
 
    global interpreter
 
    p = subprocess.Popen( [ interpreter, module+".py" ],
 
                          stdout=subprocess.PIPE,
 
                          stderr=subprocess.PIPE,
 
                          stdin=subprocess.PIPE)
 
 
    p.stdin.write( bytes( open( inputFileName, "r" ).read(), 'UTF-8' ) )
 
    data = p.communicate( )
 
    p.stdin.close()
 
 
    error = data[1].decode( 'UTF-8' )
 
    if len( error ) > 1:
 
        return False, error
 
    return True, None
 
 
                     
 
# extractTextFromErrorMessage( sys_exc_info ):
 
def extractTextFromErrorMessage( sys_exc_info ):
 
    print( "sys_exec_info = ", sys_exc_info )
 
    text = ""
 
    for field in sys_exc_info:
 
        if type( field )==type( " " ):
 
            text += field + "\n"
 
    return text
 
 
# runModule:
 
# runs the module, passes it data from the input file on its stdin
 
# and get its output on stdout captured in outputFileName.
 
# We assume the module will not crash, because we already tested
 
# it with checkModuleRunsOk().
 
def runModule( module, inputFileName, outputFileName ):
 
    global userOutSplitPattern
 
 
    error = False
 
 
    #--- make stdin read information from the text file
 
    sys.stdin = open( inputFileName, "r" )
 
 
    #--- capture the stdout of the program to test into a file
 
    saveStdOut = sys.stdout
 
    saveStdErr = sys.stderr
 
 
    sys.stdout = open( outputFileName, "w" )
 
    sys.stderr = open( "errorOut", "w" )
 
 
    #--- run the student program ---
 
    try:
 
        _module = __import__(  module  )
 
    except:
 
        error = True
 
        sys.stderr.close()
 
        sys.stderr = saveStdErr
 
        sys.stdout.close()
 
        sys.stdout = saveStdOut
 
        text = sys.exc_info()[0]
 
        text = extractTextFromErrorMessage( text )
 
        print( "*** sys.exc_info() = ", text )
 
        return error, text
 
       
 
    #--- filter out junk from output of program ---
 
    sys.stdout.close()
 
    sys.stdout = saveStdOut
 
    sys.stderr.close()
 
    sys.stderr = saveStdErr
 
    file = open( outputFileName, "r" )
 
    text = file.read()
 
    index = text.find( userOutSplitPattern ) #"+-" )
 
    text = text[index:]
 
    text = text.strip( ).strip( "\n" ) + "\n"
 
    #print( text, end="" )
 
    file.close()
 
    return False, text
 
 
def removeBlankLines( lines ):
 
    newLines = []
 
    for line in lines.split( "\n" ):
 
        if len( line )==0:
 
            continue
 
        newLines.append( line )
 
 
    return ( "\n".join( newLines ) ) + "\n"
 
 
def compareUserExpected( inputLines, userOutText, expectedOutText ):
 
    userOutText = removeBlankLines( userOutText )
 
    expectedOutText = removeBlankLines( expectedOutText )
 
    #print( "userOutText:" + userOutText )
 
    #print( "expectedOutText:" + expectedOutText )
 
    misMatchLineNumbers = []
 
    userTextOutLines = userOutText.split( "\n" )
 
    expectedOutTextLines = expectedOutText.split( "\n" )
 
 
    for i in range( len( userTextOutLines ) ):
 
        lineNo = i+1
 
        if userTextOutLines[i] != expectedOutTextLines[i]:
 
            misMatchLineNumbers.append( lineNo )
 
   
 
    return misMatchLineNumbers
 
           
 
 
 
def main():
 
    global module
 
    global solutionModule
 
 
   
 
    #--- check that the main module uses a main() function
 
    foundDef, foundCall = checkForFunctionPresence( module, "main" )
 
    if (not foundDef) or (not foundCall):
 
        commentShort( "-Missing main() program" )
 
        commentShort( "Your program must use a main() function." )
 
        commentShort( "(make sure you spell it exactly \"main()\"!" )
 
        printGrade( 40 )
 
        return
 
 
 
    #--- generate input file with random data ---
 
    inputLines = generateInputFileWithRandomInputs( "input" )
 
 
 
    Ok, errorMessage = checkModuleRunsOk( module, "input" )
 
    if not Ok:
 
        commentLong( "- Your program crashed...\n"
 
                    + "Your program was tested with:\n"
 
                    + inputLines  + "\n"
 
                    + "Error message:\n"
 
                    + errorMessage + "\n" )
 
        printGrade( 50 )
 
        return
 
 
                   
 
    error, userOutText        = runModule( module, "input", "userOut" )
 
    if error:
 
        commentLong( "- Your program crashed...\n"
 
                    + "Your program was tested with:\n"
 
                    + inputLines  + "\n"
 
                    + "Error message:\n"
 
                    + userOutText + "\n" )
 
        printGrade( 50 )
 
        return
 
 
    dummy, expectedOutText    = runModule( solutionModule, "input", "expectedOut" )
 
 
    misMatchLineNumbers = compareUserExpected( inputLines,
 
                                              userOutText,
 
                                              expectedOutText )
 
    if len( misMatchLineNumbers ) == 0:
 
        commentLong( "- Congrats, correct output!\n"
 
                    +"Your program was tested with:\n"
 
                    +inputLines + "\n"
 
                    +"Your output:\n"
 
                    +userOutText + "\n" )
 
        printGrade( 100 )
 
    else:
 
        s = "" if len( misMatchLineNumbers ) == 1 else "s"
 
 
        commentLong( "-Incorrect output.\n"
 
                    +"Your program was tested with:\n"
 
                    +inputLines + "\n"
 
                    +"Your output:\n"
 
                    +userOutText + "\n"
 
                    +"Expected output:\n"
 
                    +expectedOutText + "\n"
 
                    +("There are mismatches in Line%s " % s) +
 
                    ", ".join( [str(k) for k in misMatchLineNumbers] )
 
                    +"\n" )
 
        noLinesGood = len( expectedOutText.strip().split("\n") )
 
        noErrors    = len( misMatchLineNumbers )
 
        #print( "noLinesGood = ", noLinesGood, " noErrors = ", noErrors )
 
 
        grade      = round( 60 + 40 / noLinesGood *( noLinesGood- noErrors ) )
 
        printGrade( grade )
 
 
main()
 
 
 
 
</source>
 
<br />
 
 
==Challenge 9==
 
 
===evaluate.py===
 
<br />
 
<source lang="python">
 
# evaluate.py
 
# D. Thiebaut
 
# This program is used to test a student's python program on Moodle.
 
 
import sys
 
import random
 
import subprocess
 
 
#--- define what the student program is called, and what the solution
 
#--- program name is.
 
module = "lab5_9"
 
solutionModule = module + "sol"
 
userOutSplitPattern = "Ha"    # pattern used to start recording the user
 
                              # output.  Useful when program does several
 
                              # input() statements, and user output starts
 
                              # after that.
 
stripOutputsBeforeCompare = True
 
                              # set to True if extra spaces at beginning or
 
                              # end of user output is ok
 
 
#--- GLOBALS ---
 
interpreter = sys.executable
 
 
def commentLong( line ):
 
    print( "<|--\n" + line  + "\n --|>" )
 
 
def commentShort( text ):
 
    print( "Comment :=>> " + text )
 
 
def printGrade( grade ):
 
    print( "Grade :=>> ", grade )
 
 
# generateInputFileWithRandomInputs
 
# generate a file with name "inputFileName" with some random input
 
# for the program.
 
# MAKE SURE TO EDIT THIS TO MATCH THE PROGRAM BEING TESTED
 
def generateInputFileWithRandomInputs( inputFileName ):
 
    #--- generate random inputs ---
 
 
    list = []
 
    for i in range( random.choice( [2, 5, 3] ) ):
 
        list.append( random.choice( [ "Dave", "Jorge", "Max", "Carl", "Tim" ] ) )
 
   
 
    names = " ".join( list )
 
 
    #--- create input file for stdin ---
 
    file = open( inputFileName, "w" )
 
    file.write( names + "\n" )
 
    file.close()
 
 
    return names + "\n"
 
 
# checkForFunctionPresence
 
# checks that "functionName" is defined and called in the program.
 
# MAKE SURE TO EDIT TO MATCH PROGRAM BEING TESTED
 
def checkForFunctionPresence( module, functionName ):
 
    foundDef = False
 
    foundCall = False
 
 
    for line in open( module+".py", "r" ).readlines():
 
        # remove comments
 
        idx = line.find( "#" )
 
        if ( idx >=0 ): line = line[0:idx]
 
 
        if line.startswith( "def " + functionName + "(" ):
 
            foundDef = True
 
            continue
 
        if line.startswith( "def " + functionName + " (" ):
 
            foundDef = True
 
            continue
 
        if line.find( functionName+"(" ) != -1:
 
            foundCall = True
 
            continue
 
 
    return (foundDef, foundCall)
 
 
 
 
# ==================================================================
 
# NO EDITS NEEDED BELOW!
 
# ==================================================================
 
 
 
 
 
# checkModuleRunsOK: runs the module as a shell subprocess and
 
# look for errors in the output.  This is required, because otherwise
 
# importing the module in this program will make this program crash.
 
# It's not possible (as far as I can tell0 to catch exceptions from
 
# the import or __module__ statements.
 
# returns True, none if no errors, otherwise False, string if there's
 
# an exception, and the error message (string) is in the returned 2nd
 
# arg.
 
# The module name is assumed to not include ".py"
 
def checkModuleRunsOk( module, inputFileName ):
 
    global interpreter
 
    p = subprocess.Popen( [ interpreter, module+".py" ],
 
                          stdout=subprocess.PIPE,
 
                          stderr=subprocess.PIPE,
 
                          stdin=subprocess.PIPE)
 
 
    #print( "inputFileName = ", inputFileName )
 
    #print( "open( inputFileName, r).read() = ", open( inputFileName, "r" ).read() )
 
 
    p.stdin.write( bytes( open( inputFileName, "r" ).read(), 'UTF-8' ) )
 
    data = p.communicate( )
 
    p.stdin.close()
 
 
    error = data[1].decode( 'UTF-8' )
 
    if len( error ) > 1:
 
        return False, error
 
    return True, None
 
 
                     
 
# extractTextFromErrorMessage( sys_exc_info ):
 
def extractTextFromErrorMessage( sys_exc_info ):
 
    print( "sys_exec_info = ", sys_exc_info )
 
    text = ""
 
    for field in sys_exc_info:
 
        if type( field )==type( " " ):
 
            text += field + "\n"
 
    return text
 
 
# runModule:
 
# runs the module, passes it data from the input file on its stdin
 
# and get its output on stdout captured in outputFileName.
 
# We assume the module will not crash, because we already tested
 
# it with checkModuleRunsOk().
 
def runModule( module, inputFileName, outputFileName ):
 
    global userOutSplitPattern
 
 
    error = False
 
 
    #--- make stdin read information from the text file
 
    sys.stdin = open( inputFileName, "r" )
 
 
    #--- capture the stdout of the program to test into a file
 
    saveStdOut = sys.stdout
 
    saveStdErr = sys.stderr
 
 
    sys.stdout = open( outputFileName, "w" )
 
    sys.stderr = open( "errorOut", "w" )
 
 
    #--- run the student program ---
 
    try:
 
        _module = __import__(  module  )
 
    except:
 
        error = True
 
        sys.stderr.close()
 
        sys.stderr = saveStdErr
 
        sys.stdout.close()
 
        sys.stdout = saveStdOut
 
        text = sys.exc_info()[0]
 
        text = extractTextFromErrorMessage( text )
 
        print( "*** sys.exc_info() = ", text )
 
        return error, text
 
       
 
    #--- filter out junk from output of program ---
 
    sys.stdout.close()
 
    sys.stdout = saveStdOut
 
    sys.stderr.close()
 
    sys.stderr = saveStdErr
 
 
    file = open( outputFileName, "r" )
 
    text = file.read()
 
    index = text.find( userOutSplitPattern ) #"+-" )
 
    text = text[index:]
 
    text = text.strip( ).strip( "\n" ) + "\n"
 
    #print( text, end="" )
 
    file.close()
 
    return False, text
 
 
def removeBlankLines( lines ):
 
    newLines = []
 
    for line in lines.split( "\n" ):
 
        if len( line )==0:
 
            continue
 
        newLines.append( line )
 
 
    return ( "\n".join( newLines ) ) + "\n"
 
 
def compareUserExpected( inputLines, userOutText, expectedOutText ):
 
    global stripOutputsBeforeCompare
 
 
    userOutText = removeBlankLines( userOutText )
 
    expectedOutText = removeBlankLines( expectedOutText )
 
    misMatchLineNumbers = []
 
    userTextOutLines = userOutText.split( "\n" )
 
    expectedOutTextLines = expectedOutText.split( "\n" )
 
 
    for i in range( len( userTextOutLines ) ):
 
        lineNo = i+1
 
        userLine = userTextOutLines[i]
 
        expectedLine = expectedOutTextLines[i]
 
        if stripOutputsBeforeCompare:
 
            userLine = userLine.strip()
 
            expectedLine = expectedLine.strip()
 
        if userLine != expectedLine:
 
            #print( "user    >" + userTextOutLines[i] + "<" )
 
            #print( "expected >" + expectedOutTextLines[i] + "<" )
 
            misMatchLineNumbers.append( lineNo )
 
   
 
    return misMatchLineNumbers
 
           
 
 
 
def main():
 
    global module
 
    global solutionModule
 
 
   
 
    #--- check that the main module uses a main() function
 
    foundDef, foundCall = checkForFunctionPresence( module, "main" )
 
    if (not foundDef) or (not foundCall):
 
        commentShort( "-Missing main() program" )
 
        commentShort( "Your program must use a main() function." )
 
        commentShort( "(make sure you spell it exactly \"main()\"!" )
 
        printGrade( 40 )
 
        return
 
 
 
    #--- generate input file with random data ---
 
    inputLines = generateInputFileWithRandomInputs( "input" )
 
 
 
    Ok, errorMessage = checkModuleRunsOk( module, "input" )
 
    if not Ok:
 
        commentLong( "- Your program crashed...\n"
 
                    + "Your program was tested with:\n"
 
                    + inputLines  + "\n"
 
                    + "Error message:\n"
 
                    + errorMessage + "\n" )
 
        printGrade( 50 )
 
        return
 
 
                   
 
    error, userOutText        = runModule( module, "input", "userOut" )
 
    if error:
 
        commentLong( "- Your program crashed...\n"
 
                    + "Your program was tested with:\n"
 
                    + inputLines  + "\n"
 
                    + "Error message:\n"
 
                    + userOutText + "\n" )
 
        printGrade( 50 )
 
        return
 
 
    dummy, expectedOutText    = runModule( solutionModule, "input", "expectedOut" )
 
 
    misMatchLineNumbers = compareUserExpected( inputLines,
 
                                              userOutText,
 
                                              expectedOutText )
 
    if len( misMatchLineNumbers ) == 0:
 
        commentLong( "- Congrats, correct output!\n"
 
                    +"Your program was tested with:\n"
 
                    +inputLines + "\n"
 
                    +"Your output:\n"
 
                    +userOutText + "\n" )
 
        printGrade( 100 )
 
    else:
 
        s = "" if len( misMatchLineNumbers ) == 1 else "s"
 
 
        commentLong( "-Incorrect output.\n"
 
                    +"Your program was tested with:\n"
 
                    +inputLines + "\n"
 
                    +"Your output:\n"
 
                    +userOutText + "\n"
 
                    +"Expected output:\n"
 
                    +expectedOutText + "\n"
 
                    +("There are errors in Line%s " % s) +
 
                    ", ".join( [str(k) for k in misMatchLineNumbers] )
 
                    +"\n" )
 
        noLinesGood = len( expectedOutText.strip().split("\n") )
 
        noErrors    = len( misMatchLineNumbers )
 
        #print( "noLinesGood = ", noLinesGood, " noErrors = ", noErrors )
 
 
        grade      = round( 60 + 40 / noLinesGood *( noLinesGood- noErrors ) )
 
        printGrade( grade )
 
 
main()
 
 
 
 
 
</source>
 
<br />
 
</onlydft>
 
 
<br /><br /><br />
 
<br /><br /><br />
 
<br />
 
<br />

Latest revision as of 15:13, 8 October 2015

--D. Thiebaut (talk) 12:17, 22 February 2015 (EST)





<showafterdate after="20151007 08:00" before="20151231 00:00">

This lab deals with functions, passing parameters, and returning values. It is also about for you to start the Python.org documentation on the Web. The online documentation is a great help when writing programs. The Moodle submissions are due on Friday 10/09 at 11:55 p.m.



Searching the Python.org Docs

Python org.png


  • Open your Web browser and go to http://python.org
  • Click on Documentation, then on Python 3.x Docs.
  • In the Search Bar on the left, enter string methods.
  • Locate the result that contains Built-In Types, and go to that page. Locate the string methods there... (Hints: 4.7.1)
  • Look at all the different methods that strings offer you.
  • You're ready for the lab!


Functions


Working with Functions in the Console


  • This sections serves as a review for the end="..." optional parameter in print statements.
  • Try the following statements in the Python console:


>>> def test():
	print( "hello" )
	print( "there" )

	
>>> test()


>>> def test():
	print( "hello", end="" )
	print( "there" )

	
>>> test()

>>> def test():
	print( "hello", end="-" )
	print( "there" )

	
>>> test()
>>>


Notice what happens when you add the end="" construct in the print statement. It changes the way the print() function ends printing what it has to print. By default, if you do not have an end="" construct, print() brings the cursor to the next line. But this behavior can be changed. We are going to use this, in the new program below.

Teller Machine with Functions

TellerFigure.jpg


  • Without looking at your notes, (but if you get stuck, it's ok to look up your notes or the class notes on the Web), try to recreate the teller machine program.
  1. Start with the main program, have it call a function to get the amount (you can call it getAmount()), then it calls a function (say divideInBills()), that receives the amount, breaks it into 4 numbers, and returns a list of 4 numbers to main. And finally, at the end of main(), a function (say, displayResults()) is passed the list of 4 numbers and prints them in a nicely formatted output.



Challenge #1

QuestionMark5.jpg
  • Instead of having the function getAmount() return 4 numbers, like this:


     no20s, no10s, no5s, no1s = divideInBills( amount )


create a new function called breakDown( ... ) that gets the amount and a value, and returns the number of bills of that value, and the new amount:


    amount, no20s = breakDown( amount, 20 )
    amount, no10s = breakDown( amount, 10 )
    amount, no5s = breakDown( amount, 5 )
    amount, no1s = breakDown( amount, 1 )  # you might find a simpler way to write this!







Functions and Stick Figure, Version 1


  • This section will be cleaner if you start a new program, rather than add to an existing program.
  • Add this code section to your new program:


def head():
    print( "  o" )

def leftArm():
    print( " /", end="" )

def torso():
    print( "O", end="" )

def rightArm():
    print( "\\" )

def leftLeg():
    print( " /", end="" )

def rightLeg():
    print( " \\" )

def stickFigure():
    head()
    leftArm()
    torso()
    rightArm()
    leftLeg()
    rightLeg()

def main():
    stickFigure()

main()


  • Take a close look at the program. Locate the end="" construct, which prevents the print from going to the next line when it's done.
  • Notice also the "\\" string. Because the '\' character is used to print special characters, like '\n' (new line), or '\t' (tab), if we want to print a regular backslash character, we have to use 2 backslashes next to each other.


  • Run the program. Notice how it displays a stick figure.


Functions and Stick Figure, Version 2


  • Modify the stick figure program so that it looks like the code below:


def head():
    print( "  o" )

def leftArm():
    print( " /", end="" )

def torso():
    print( "O", end="" )

def rightArm():
    print( "\\" )

def leftLeg():
    print( " /", end="" )

def rightLeg():
    print( " \\" )

def body():
    leftArm()
    torso()
    rightArm()

def newStickFigure():
    head()
    body()
    leftLeg()
    rightLeg()

def main():
    newStickFigure()

main()
  • Observe how the code is different, and the new function body() is used to display the body of the stick figure (torso plus arms).
  • Using the example of body(), add a new function called legs() that will call leftLeg() and rightLeg() to draw both legs. Modify newStickFigure() by removing the calls to leftLeg() and rightLeg(), and adding instead a call to legs(). Your new function should look something like this:


def newStickFigure():
    head()
    body()
    legs()


Functions and Stick Figure, Version 3


  • Use the same approach to create this stick figure of a snow man:


     __
   _|==|_
    ('')__/
>--(`^^`)
  (`^'^'`)
  `======'


  • Try to organize your functions similarly to the way you did in the previous version. Below is an example of a snowMan() function. Figure out the missing pieces!


def snowMan():
    hat()
    headRightArm()
    leftArm()
    body()
    base()



Trimming DNA


  • Assume that we have a string containing the description of a DNA sequence, say "AAGACTAAAAAAGACTT." (DNA sequences are made of 4 symbols: A, C, G, and T.) Assume we know that "AGA" is a special marker in our DNA strings. So our string is marked in this way: "AAGACTAAAAAAGACTT."
  • Write a function called trimDNA( ) that receives the original DNA string as a parameter, and returns the string where everything on the left and right of the markers has been removed. We assume that the string will always contain two markers.
  • Example:


def main():
     DNA = "AAGACTAAAAAAGACTT"
     newDNA = trimDNA( DNA )
     print( newDNA )


  • The output would be
 AGACTAAAAAAGA


Testing


Make sure your function works strings of the type AAGAAGACTT, or AGATTTTAGA.



Happy Birthday!


  • Start with these three new functions:


def happyBirthday():
    print( "Happy birthday to you!" )

def happyBirthdayDear( name ):
    print( ("Happy birthday, dear " + name +"!" ) )


  • Write a third function called singSong() that calls the two functions above. When calling happyBirthdayDear( ... ), pass it some name, say yours, or "Dave", or one of your friends. You should get this kind of output:


Happy birthday to you!
Happy birthday, dear Dave!


  • Modify singSong() so that it displays a more appropriate version on the song:


Happy birthday to you!
Happy birthday to you!
Happy birthday, dear Dave!
Happy birthday to you!


Passing the Name as a Parameter


  • Modify your singSong( ) function one more time. I'm highlighting the lines that should change in your function:


def singSong( name ):
     ...
     ...
     happyBirthdayDear( name )
     ...


  • Now, make your program sing "Happy Birthday" to Dave, Karl, Jorge, and Tim!


Challenge #2

QuestionMark8.jpg
  • Make your program prompt the user for a name in the main() function.
  • Then main() will pass the name to singSong(), and your program will sing Happy Birthday to the person of your choice.






Challenge #3

QuestionMark9.jpg


  • Modify your solution program for Challenge 8 so that the user can enter several names on one line when prompted by your program. Your program then "sings" happy birthday to all the friends, one after the other...


  • Example:


Please enter the names of your friends: Jorge KARL         Dave

Happy birthday to you!
Happy birthday to you!
Happy birthday, dear Jorge!
Happy birthday to you!

Happy birthday to you!
Happy birthday to you!
Happy birthday, dear Karl!
Happy birthday to you!

Happy birthday to you!
Happy birthday to you!
Happy birthday, dear Dave!
Happy birthday to you!


Moodle Submission


  • Submit your solution program for Challenge 3 to Moodle, in Section LAB 5 PB 3. You will need to rename your program lab5_3.py.



</showafterdate>



Paper and Pencil Exercises

Question 1: Write a program that calculates the average word length in a sentence entered by the user. Make sure you format your output to only show TWO decimal places!


Question 2: Write a program that does the following:

    1. Displays the provided list of students in the class:
              students = ["Brown,Sarah", "McCharles,Charlie", "Hudson,Stanley", "Smith,Margaret", "Brown,Ben", "Yang,Debbie"] 
    2. Prompts the user to type in a number between 0 and the length of the list of students
    3. Using the user input, get the appropriate student name and print out a new user account with the new format First Initial Last Name 
        ie. Sarah Brown turns in to SBrown

Example Input/Output

>>> main()
1 Brown,Sarah
2 McCharles,Charlie
3 Hudson,Stanley
4 Smith,Margaret
5 Brown,Ben
6 Yang,Debbie
Which student do you want to process? 6

Debbie Yang: DYang
>>> 


<showafterdate after="20151013 00:00" before="20151231 00:00">

Solution Programs


 

# --------------------- stickFigure -----------------------

def head():
    print( "  o" )

def leftArm():
    print( " /", end="" )

def torso():
    print( "O", end="" )

def rightArm():
    print( "\\" )

def leftLeg():
    print( " /", end="" )

def rightLeg():
    print( " \\" )

def stickFigure():
    head()
    leftArm()
    torso()
    rightArm()
    leftLeg()
    rightLeg()

def body():
    leftArm()
    torso()
    rightArm()

def legs():
    leftLeg()
    rightLeg()

def newStickFigure():
    head()
    body()
    legs()

# --------------------- stickFigure1 ----------------------

def leftForearm1():
    print( " /", end="" )

def sword1():
    print( "+=====>" )

def leftArm1():
    print( " \\", end="" )

def head1():
    print( "O", end="" )

def rightArm1():
    print( "___" )

def body1():
    print( "  |" )
    print( "  |" )

def leftThigh1():
    print( " / ", end="" )

def rightThigh1():
    print( "\\" )

def leftCalf1():
    print( "/   ", end ="" )

def rightCalf1():
    print( "\\" )

def stickFigure1():
    leftForearm1()
    sword1()
    leftArm1()
    head1()
    rightArm1()
    body1()
    leftThigh1()
    rightThigh1()
    leftCalf1()
    rightCalf1()

# ---------------------- Snow Man ----------------------
"""
     __
   _|==|_
    ('')__/
>--(`^^`)
  (`^'^'`)
  `======'
"""
def hat():
    print("     __" )
    print("   _|==|_" )

def headRightArm():
    print( "    ('')__/" )

def leftArm():
    print( ">--", end="" )

def body():
    print( "(`^^`)" )
    print("  (`^'^'`)" )

def base():
    print( "  `======'" )
    print()
    
def snowMan():
    hat()
    headRightArm()
    leftArm()
    body()
    base()
    

snowMan()

    

    
# ---------------------------------------------------------


def happyBirthday():
    print( "Happy birthday to you!" )

def happyBirthdayDear( name ):
    print( "Happy birthday, dear " + name +"!"  )

def singSong( name ):
    happyBirthday()
    happyBirthday()
    happyBirthdayDear( name )
    happyBirthday()


def singHappy( ):
    # get the name from the user
    name = input( "Who's birthday should we celebrate? " )

    # sing the song for that person
    singSong( name )

# ----------------- Another Version ---------------------
def happyBirthday():
    print( "Happy birthday to you!" )

def happyBirthdayDear( name ):
    print( "Happy birthday, dear " + name +"!"  )

def singSong( name ):
    happyBirthday()
    happyBirthday()
    happyBirthdayDear( name )
    happyBirthday()

def singHappy2( ):
    # get a line of names, separated by spaces
    line = input( "? " )

    # remove extra spaces at the front or back
    line = line.strip()

    # split the line into individual names, and sing song for each
    for name in line.split(  ):
        singSong( name )
        # blank line separates the different songs
        print()


def bar():
    print( "\n" + ( "-"*30 ) + "oOo" + ("-"*30 ) +"\n" )

    
def main():
     newStickFigure()
     stickFigure1()
     snowMan()
     singHappy()
     singHappy2()

main()

</showafterdate>