CSC111 Lab 8 2011
--D. Thiebaut 15:04, 26 October 2011 (EDT)
Contents
Break and Continue
- Solve the exercises we did in class on Tuesday.
Rosette
- Rosette is this year's winner of the Loebner prize for best chatterbot, or chatbot. Give her a try, and see how long it takes for you to make her make a mistake that a human behing would not make:
Eliza!
Today we are going to therapy and will consult with Doctor Eliza.
Playing with Eliza
Eliza is named after Eliza Doolittle, of the 1913 George Bernard Shaw play Pigmalion, which is the inspiration for the musical My Fair Lady, of which you can find many snipets on YouTube, as illusrated below.
Joseph Weizenbaum originated the program. A good description of what how Eliza works can be found here.
First, play with Eliza a bit to get a feel for it. You can either use this page, or that one, or use the "therapist" included in emacs. To start the therapist in emacs, start emacs in your 111a-xx account, and type the following commands:
Shift ESC
- then
x doctor
and press the Enter key. Emacs will switch to "doctor" mode... When you are done and want to return to editing your program, type
CTRL-x k
An initial Eliza program
Copy and paste the program below into a file called eliza.py. Feel free to work with Idle or with emacs.
# eliza.py
#
# a very simple beginning for an eliza-like program
#
# 1) greet user
# 2) repeat a huge number of times:
# 2.1) get user's statement about life
# 2.2) respond in a way that seems intelligent
#
# Addition:
# cycles through a series of canned answers to get
# the user to think the computer is listening
import random
canned = [ "\nPlease tell me more",
"\nI see...",
"\nI am listening..." ]
def main():
# greet user
print( "Welcome. Please tell me of your problems: " )
print( '(You may quit at any time by answering "bye")' )
# repeat a huge number of times
for i in range( 10000 ):
# get user's statement about her life
answer = input( "\n> " )
if ( answer.lower() == "bye" ):
break
# respond semi-intelligently
# cycle through the list of canned sentences...
print( random.choice( canned ) )
main()
- Run the program and enter at least 6 or 7 sentences. Observe how the program repeats itself in the way it responds to the user.
- Go ahead and add a few more canned answers if you wish. This will make it harder for a human to figure out the repetition, but not foolproof.
- By the way, you do not have to type sentences that make sense to test your program. Just the letter 'a' is enough of an input!
Detect Family Members
- Let's start by checking to see if the user is mentioning "mother" in the conversation. If so, we'll have our program respond with some family-oriented statement.
- How can we see if the user mentioned mother in her sentence? There are several possibilities. The one we'll use here is to use the string find() method. To see how it works, try these python statements in the python shell:
>>> answer = "My mother sent me" >>> answer.find( "mother" ) ... >>> answer.find( "My" ) ... >>> answer.find( "father" ) ... >>> answer.find( "me" ) ... >>> answer.find( "MOTHER" ) ... >>>
- Notice that find() returns the index of where a word appears in the string answer. If the string doesn't appear in answer, then find() returns -1.
- So, something like this should work for us:
answer = input( "> " )
# did user mention "mother"?
if answer.find( "mother" ) != -1:
print( "tell me more about your family, please." )
Challenge 1 |
- Integrate this solution in your program. Make sure your program detects correctly the word mother whether it is spelled in lower or upper case.
Challenge 2 |
- Make your program check as well for the words father, brother, sister, son, daughter.
Simple Reflection
- One way for Eliza to appear intelligent is to say the same thing the user just said, but to change the sentence from the first person to the second person. For example, if the user says "I am tired", Eliza might respond "You are tired?".
- We can program that by replacing all occurrences of "I" by "you", "am" by "are", "my" by "your", and "me" by "you".
- Here is a possible solution (code it in a separate program):
def main():
answer = input( "\n> " )
# split user's sentence into words
words = answer.split( )
#create a copy new list of words that will be Eliza's response
newWords = []
for word in words:
newWords.append( word )
# take each word of user sentence and if the word represents
# the first person singular, switch it to second person.
for i in range( len( words ) ):
if words[i] == "I":
newWords[i] = "you"
# join the list of words in newWords in a string, and print it
sentence = ' '.join( newWords )
print( sentence )
main()
- Go ahead and implement this modification. Play with it. Verify that when you use "I" in a sentence, the program replaces it by "you". Understand why the program actually does that.
Challenge 3 |
- Once you have tested this, go ahead and make your program also replace
- "me" by "you"
- "am" by "are"
- "I've" by "you've"
- "I'm" by "you're"
- "I'll" by "you'll"
- "was" by "were"
- "my" by "your"
- "mine" by "yours"
Adding a ? at the end of the reflected sentence
- Once you have your list of new words newWords containing the reflected words, either modify the last word of this list and add a "?" at the end of it, or simply add a "?" to the end of the sentence.
Reflection or Canned Answer?
- Depending on how you have modified your program, it may respond to the user with two sentences. One reflected and one canned.
- What you should do is make your program output the reflected answer when it finds out that it was able to change some of the words in the user's string, and make it output a canned answer when there is no reflection.
- For example, if the user says "I am bored", your Eliza program will respond "you are bored?", but if the user says "never!", your program will respond with an answer of the type "Please go on..."
Hint #1: you could compare the original list of words entered by the user, to the list of words generated after the reflection.
Hint #2: Remember that we saw the continue statement, and how it works...
Challenge 4 |
Test your program! It should be able to reflect sentences such as "I like you", and should detect when feed it a family-related word. And if it can't reflect and doesn't find a reference to a family member, it should respond with a canned answer. It should really start showing some amount of (fake) artificial intelligence!
Second level reflection: Switching second person to first person
- What if the user says to the program "I don't like you"?
- Right now your program will output "you don't like you?" which is not quite right. So we should try to fix this.
Challenge 5 |
- Go ahead, and make your program replace the 2nd person in the user's input by the first person. You will see that without doing a semantic analysis of the sentence, it is impossible to know whether "you" should be replaced by "I", or by "me". At this point, we will not worry about this, and simply replace "you" by "me" and this will have a higher probability of looking correct.
- If your modification is correct, and the user enters "I don't like you", your program should output "you don't like me?".
Catching key words
- You may have noticed that with the real Eliza program, when your answer is a single word such as "No", or "never", the program picks up on this and responds something like "why are you so negative?".
- Let's make your program pick up on a single-word "NO" answer.
- All you need is an if statement that will test whether the user's answer is one word only, and this word is "no".
answer = input( "> " )
if answer.lower() =="no":
print( "you are begin very negative today!" )
...
- Integrate this new test in your program.
Random "negative canned" answers
Instead of your program always outputting "you are begin very negative today!" in the case explored in the previous section, make it select its response from a new series of canned negative responses (like "No?", "Really?", "You are awfully negative", "why not?", etc.)
Challenge 6 |
- What if we not only wanted our program to pick up on "No", but also on "Never", "Niet", or "Not"? All we need to do is change the if statement to read "if the user's answer contains 1 word only, and this word is "no" or "never"..."
- Here is the test in python:
if answer in [ "no", "never", "niet", "not" ]:
print( random.choice( cannedNegative ) )
Learning More about Eliza
- If you want to know more about this important program in the history of computer science, you may enjoy reading this paper.
You are now ready to work on Homework 6. It does not deal with Eliza, as we hadn't covered enough of this material after the lecture on Tuesday. Instead, you will have to work with moving circles in a graphics window.