Difference between revisions of "CSC111 Lab 9 2014"
(→Challenge 6 (Optional: skip unless you have finished the lab early)) |
(→Catching Exceptions) |
||
Line 217: | Line 217: | ||
<br /> | <br /> | ||
+ | <!-- | ||
=Catching Exceptions= | =Catching Exceptions= | ||
<br /> | <br /> | ||
Line 340: | Line 341: | ||
</source> | </source> | ||
<br /> | <br /> | ||
+ | --> | ||
<br /> | <br /> | ||
<onlydft> | <onlydft> |
Revision as of 12:17, 2 April 2014
--D. Thiebaut (talk) 23:40, 1 April 2014 (EDT)
Contents
Reading and Writing Text Files
Write Example
# write some variables to file
name = "Smith College"
address = "1 Elm st., Northampton, MA 01063"
file = open( "college.txt", "w" )
file.write( "%s\n" % name )
file.write( "%s\n" % address )
file.close()
Read Example
# read the same file back and print all the lines
file = open( "college.txt", "r" )
for line in file:
print( "line =", line.strip() )
file.close()
Writing Text to File and Reading it Back
Challenge 1 |
- Use the example above and write a program that writes the string text defined below to a file named poem.txt in the same folder (directory) where your program is located.
text = """An Evening by Gwendolyn Brooks A sunset's mounded cloud; A diamond evening-star; Sad blue hills afar; Love in his shroud. Scarcely a tear to shed; Hardly a word to say; The end of a summer day; Sweet Love dead."""
- Once the program terminates, open the file with TextEdit if working on a Mac, or with Notepad if working on Windows. Verify that the file exists and that it contains the poem.
- Put the code that writes the poem to file in a function called writeTextFile( fileName, text ), where fileName is the name of the file, and text the name of the variable. The function should 1) open the file for writing, 2) write text to the file, and 3) close the file.
Verify that your function works by deleting poem.txt and then running your new program. If you function is written correctly, it will have recreated the poem.txt file with the same contents as before.
Challenge 2 |
- Add some code to your program that will read the file just created and print its contents (all the lines) on the screen.
- When this works, put this new code into a function called readTextFile() that is given just the file name (fileName) and that returns a long string that is equal to the contents of the file. Here is an example of how your program will use your new function to read the file and display the string:
text = readTextFile( "poem.txt" )
for line in text.split( "\n" ):
print( line )
Writing Numbers to File and Reading them Back
Same idea: you write a function that takes a list of numbers and writes them to file, one per line. Then you write a function that reads the numbers back, prints them, and computes their sum. This last part is very important, because to text files contain text, or strings, and when you read that back into variables that are supposed to contain numbers, you must transform the strings into numbers.
Here is the list of numbers to use, and an example of how to organize your main program:
numbers = [ 1, 2, 10, 100, 50, 7 ]
# write the list to file, one number per line
writeIntFile( "numbers.txt", numbers )
# read the file of ints, and return it as a list of ints.
newNumbers = readIntFile( "numbers.txt" )
# print the list of ints and their sum (should be 170)
for x in newNumbers:
print( x )
print( "Sum = ", sum( newNumbers ) )
- Hints
- 1) Text files contain only strings of characters. To store numbers in a file you have to write the number as a string. A good way to transform an integer into a one-line string is with "%d\n" % x , where x is the integer in question.
- 2) When reading the file of integers, just read the file and display the lines in it as text. Then little by little transform each line into an int. Then when that works, figure out how to add the ints to a list, one at a time.
Creating a Log
Add the function below to your program. Then call it from your main program and "play" with it for a little while. Figure out how to make it stop (read the code!)
from random import choice
def discussion():
canned = [ "Please go on...", "Is that so?", "Please tell me more.", "Really?" ]
print( "Hello!" )
while True:
answer = input( "> " ).strip()
if answer.lower() in [ "bye", "ciao", "later" ]:
break
print( choice( canned ) )
print( "Good bye!" )
Challenge 3 |
- Add some new statements to your function so that it will record the conversation that is taking place on the screen in a log file. A log is simply a text file that contains a list of lines representing actions that have taken place at some point under some circumstances. You may want to call the log log.txt
- Verify that when your function has terminated, a new file exists in your working directory, and that it contains a log of your conversation.
- Run your function again. Finish it with "bye" and check the log file again. Notice that the old conversation has been erased by the new one.
- If we had wanted to add the new conversation at the end of the old one (logs have a tendency to keep everything and never erase prior information), then should have opened the file differently. When we open a file like this:
file = open ( "someFileName.ext", "w" )
the "w" indicates create the file if it does not exist, or erase it if it already exists, and start writing to it." To write to a file without erasing it, we simply replace the "w" by an "a" which means "append" to the end of the file, or create it if it doesn't exist.
file = open( "someFileName.ext", "a" )
Challenge 4 |
- Modify your program so that it appends to the log and never erases it.
Challenge 5 |
- Create a new function called log( line ) that adds a new line to the log file. This function will assume the log file name is log.txt, open the log, append the line to it, and close it. Using it will make our original discussion function much simpler:
from random import choice
def discussion():
canned = [ "Please go on...", "Is that so?", "Please tell me more.", "Really?" ]
print( "Hello!" )
log( "Hello!" )
while True:
answer = input( "> " ).strip()
log( answer )
if answer.lower() in [ "bye", "ciao", "later" ]:
break
response = choice( canned )
print( response )
log( response )
print( "Good bye!" )
log( "Good bye!" )
Challenge 6 |
- Instead of having canned answers defined in the program, let's put them in a text file. This may seem strange to put strings in a file, except if you think of the Eliza program for the previous homework where the program may add more canned answers to its list as the conversation with the human progresses. If the program were to save the list of canned answers to a file, and restore them from file when it restarts, the program would have "memory" and fool the user in thinking that the program "remembers" parts of a previous conversation.
- Your challenge is to make your conversation function read the canned answers from a different text file where you will have saved canned sentences, one per line.
Challenge of the Day |
Add a new function to your program that will write the following lines of text to a text file. You may call the file lab9data.txt.
index name cash age #-fans
1 Doc 5.50 101 100
2 Dopey 5.60 78 150
3 Bashful 6.00 99 500
4 Grumpy 4.80 100 99
5 Sneezy 7.00 NA 876
6 Sleepy 9.00 83 10
7 Happy --- 85 1,000,001
Add another function designed to read text with the format shown above. You can start your function with this very non-robust code:
def readLab9Data( fileName ):
file = open( fileName, "r" )
L = []
for line in file:
words = line.split( )
index = int( words[0] )
name = words[1]
cash = float( words[2] )
age = int( words[3] )
fans = int( words[4] )
L.append( (name, cash, age, fans ) )
print( "L = ", L )
When you run this code you will right away get errors. They are generated by the fact that some fields in the file are words when your program expects numbers.
Make your function robust and add more code to your function so that it can read the file without error (make sure it works if the file name is misspelled!)
When your function works fine, make it output the names of
- the richest dwarf
- the oldest dwarf
- the most popular dwarf
Use as few if-statements as possible!
Please show me your solution when you are done!
- Hints
- Write your code as if the file was correctly formatted, then as you test it and generate exceptions, add try/catch statements to protect your code.
- Your program should be able to recover if the user types the wrong file name!
- List comprehension can be a powerful tool to modify a list of tuples, as follows.
# a list with 2 Disney dwarves
L = [ ( "Doc", 5.5, 101, 100 ), ("Dopey", 5.6, 78, 150 ) ]
# compact it into a new list with pairs of cash, name values
L2 = [ (cash, name) for name, cash, age, fans in L ]
# sort it by cash amount
L2.sort()
# get first dwarf in sorted list
cash, name = L2[0]
# print its name and amount of cash
print( cash, name )
-->