During this activity, students should be able to:
This activity helps students develop the following skills, values and attitudes: proficiency in English, ability to analyze and synthesize, capacity to identify and solve problems, and efficient use of computer systems.
Individually or in pairs, solve the following set of problems using Python 3.5. Run and test each of your programs to make sure they work as expected.
Each source file must include at the top the authors’ personal information (student ID and name) within comments. For example:
# Authors: # A01166611 Pepper Pots # A01160611 Anthony Stark # # Description of problem being solved. # # April 19, 2017. . . (The rest of the program goes here) .
Write a program called wordcount.py
. Define in this program a function called wordcount(infile)
that takes a string with the name of an input file infile
and returns the number of lines, number of words, and number
of characters in the file.
To test your program, create a file called crocodile.txt
with the following content:
HOW DOTH THE LITTLE CROCODILE Lewis Carroll How doth the little crocodile Improve his shining tail, And pour the waters of the Nile On every golden scale! How cheerfully he seems to grin, How neatly spread his claws, And welcome little fishes in With gently smiling jaws!
Add the following main()
function to your program:
def main(): print(wordcount('crocodile.txt'))
The expected output after running the program should be:
(12, 47, 274)
This is because the file crocodile.txt
has 12 lines, 47 words, and 274 characters. NOTE: These numbers may vary slightly depending of the operating system being used.
Write a program called addints.py
. Define in this program a function called addints(infile)
that takes one argument: a string with the name of the input file infile
that contains a sequence of integer numbers, each number in its own line. The function should return the result of adding all these integers together.
To test your program, create a file called numbers.txt
with the following content:
4 8 15 16 23 42
Add the following main()
function to your program:
def main(): print(addints('numbers.txt'))
The expected output after running the program should be:
108
Write a program called reverse.py
. Define in this program a function called reverse(infile, outfile)
that takes two arguments: a string with the name of the input file infile
and a string with the name of the output file outfile
. The function should write in outfile
each of the lines contained in infile
but in reversed order. The function should return nothing.
To test your program, create a file called speak.txt
with the following content:
SPEAK ROUGHLY Lewis Carroll Speak roughly to your little boy, And beat him when he sneezes: He only does it to annoy, Because he knows it teases. Chorus Wow! wow! wow! I speak severely to my boy, I beat him when he sneezes; For he can thoroughly enjoy The pepper when he pleases!
Add the following main()
function to your program:
def main(): reverse('speak.txt', 'speak_reverse.txt')
After running your program, the contents of the file speak_reverse.txt
should be:
The pepper when he pleases! For he can thoroughly enjoy I beat him when he sneezes; I speak severely to my boy, Wow! wow! wow! Chorus Because he knows it teases. He only does it to annoy, And beat him when he sneezes: Speak roughly to your little boy, Lewis Carroll SPEAK ROUGHLY
Write a program called countv.py
. Define in this program a function called countv(infile)
that takes a string with the name of an input file infile
and returns the number of vowels contained in the specified file.
To test your program, create a file called hanging.txt
with the following content:
THE HANGING TREE Suzanne Collins Are you, are you Coming to the tree Where they strung up a man they say murdered three.
Add the following main()
function to your program:
def main(): print(countv('hanging.txt'))
The expected output after running the program should be:
38
Write a program called words.py
. Define in this program a function called words(outfile, s)
that takes two strings: the name of an output file outfile
and a string phrase s
. The function should create an new file with the given name containing each word of the phrase s
in its own line.
Use the following main()
function to test your program:
def main(): words("output.txt", "I'm gonna make him an offer he can't refuse")
After running your program, the contents of the file output.txt
should be:
I'm gonna make him an offer he can't refuse
Write a program called linenum.py
. Define in this program a function called linenum(infile, outfile)
that takes two arguments: a string with the name of the input file infile
and a string with the name of the output file outfile
. The function should write in outfile
each of the lines contained in infile
but adding the line number along the left edge. The function should return nothing.
To test your program, create a file called bat.txt
with the following content:
THE BAT Lewis Carroll Twinkle, twinkle, little bat How I wonder what you're at! Up above the world you fly Like a tea-tray in the sky.
Add the following main()
function to your program:
def main(): linenum('bat.txt', 'bat_linenum.txt')
After running your program, the contents of the file bat_linenum.txt
should be:
1: THE BAT 2: Lewis Carroll 3: 4: Twinkle, twinkle, little bat 5: How I wonder what you're at! 6: Up above the world you fly 7: Like a tea-tray in the sky.
Create a ZIP file called files.zip
containing only the six programs you wrote (wordcount.py
, addints.py
, reverse.py
, countv.py
, words.py
, and linenum.py
, ).
To deliver the files.zip
file, please provide the following information:
If this activity was developed by a team of two people, only one person is required to deliver it. No activity will be accepted through e-mail or any other means.
Due date is Wednesday, April 19.
This activity will be evaluated using the following criteria:
-10 | One or more programs don’t contain within comments the authors’ personal information. |
---|---|
DA | One or more programs were plagiarized. |
10-100 | Depending on the amount of problems that were solved correctly. |