COMP-206 Mini Assignment 4: C Programming – Control Structures

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Ex. 1 — A Simple Interger Calculator (9 Points)
In this exercise, you will create a C program to implement a simple integer calculator.
Your calculator should accept three arguments as input, x, op, y, where x and y are integers and op is one of the
operators +, -, *, / to perform the corresponding arithmetic operations.
1.Use vi to create a C program source file simplecalc.c
2.(1 Point) The program should include a comment section at the beginning that describes its purpose (couple
of lines), the author (your name), your department, a small “history” section indicating what changes you did
on what date.
/∗
Program t o implemen t a s im pl e c a l c u l a t o r
∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗
∗ Author Dept . Date No tes
∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗∗
∗ Joseph D Comp . S c i e n c e . Feb 10 2020 I n i t i a l v e r s i o n .
∗ Joseph D Comp . S c i e n c e . Feb 11 2020 Added e r r o r h a n dl i n g .
∗/
The code should be properly indented for readability as well as contain any additional comments required to
understand the program logic.
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3.(1 Point) The source code should be compilable by (exactly) using the command gcc -o simplecalc simplecalc.c
4.(3 Points) Your program should accept the three arguments mentioned above as its input. If the user does
not pass this argument, you should display an error message and terminate with error code 1.
$ ./simplecalc
Error: usage is simplecalc
$ echo $?
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5.(4 Points) Your program performs simple arithmetic operations on the input as indicated by the operator and
displays the output. You should use a switch statement to decide which operator to execute. You will loose
2 points if you do not use the switch. If the user enters one of the operators not listed above, print an error
message and terminate with error code 2. Successfull execution of the program should result in a return code
of 0 from the program.
$ ./simplecalc 5 + 3
8
$ echo $?
0
$ ./simplecalc 5 – 3
2
$ ./simplecalc 5 * 3
15
$ ./simplecalc 5 / 3
1
$ ./simplecalc 5 @ 3
@ not a valid operator
$ echo $?
2
Ex. 2 — A C Program to implement Caesar’s Cipher(11 Points)
In this exercise, you will create a C program to implement a basic version of Caesar’s cipher.
https://en.wikipedia.org/wiki/Caesar_cipher
The object of Caesar’s cipher is to replace each letter in the alphabet with another letter that is ‘X’ offset away from
it to scramble the message.
For example consider the following sample output
$ ./caesarcipher 3
abcdefghijklmnopqrstuvwxyz
defghijklmnopqrstuvwxyzabc
Here we asked the program to set an offset of 3, and typed the following line and pressed enter
$ ./caesarcipher 3
abcdefghijklmnopqrstuvwxyz
At which point, it changed each letter in the input line with the letter that is 3 letters to its right.
defghijklmnopqrstuvwxyzabc
As a result, a got replaced with d and so forth. Towards the end of the alphabets, you have to “wrap around”. In
the above example, There is no alphabet 3 letters to the right of x, so it wrapped around to a and so forth.
You can “decrypt” the message by running the program with the proper offset in the opposite direction, as shown
below.
$ ./caesarcipher -3
defghijklmnopqrstuvwxyzabc
abcdefghijklmnopqrstuvwxyz
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Here, we started with program with an offset -3 which asked the program to shift the letters to the left and the
entered the original encrypted line.
$ ./caesarcipher -3
defghijklmnopqrstuvwxyzabc
To which it responded with the decrypted message.
abcdefghijklmnopqrstuvwxyz
1.Use vi to create a C program source file caesarcipher.c
2.(1 Point) The program should include a comment section at the beginning that describes its purpose (couple
of lines), the author (your name), your department, a small “history” section indicating what changes you did
on what date. The code should be properly indented for readability as well as contain any additional comments
required to understand the program logic.
3.(1 Point) The source code should be compilable by (exactly) using the command gcc -o caesarcipher
caesarcipher.c .
4.(2 Points) Your program should accept an integer argument as its option for the user to indicate the offset. If
the user does not pass this argument, you should display an error message and terminate with error code 1.
$ ./caesarcipher
Error: usage is caesarcipher
$ echo $?
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5.(4 Points) Your program should use the offset to shift the letters typed in a line either to the right.
$ ./caesarcipher 5
this is a secret message
ymnx nx f xjhwjy rjxxflj
or to the left.
$ ./caesarcipher -5
this is a secret message
ocdn dn v nzxmzo hznnvbz
6.(2 Points) The program should be able to read multiple lines, encrypting and displaying one line at a time, till
it runs out of input/reaches EOF (can be simulated by pressing CTRL+D at the keyboard input in an empty
line). If you are using the tester script, you shouldn’t have to do CTRL+D (if you do, there is an issue with
your implementation). The program should terminate with return code 0 for any sucessfull execution.
$ ./caesarcipher 5
this is a secret message
ymnx nx f xjhwjy rjxxflj
delete after reading
ijqjyj fkyjw wjfinsl
$ echo $?
0
7.(1 Point) The program should only encrypt lowercase english alphabets (a-z) and should merely print any
other letters, numbers, white space characters, etc., as is.
$ ./caesarcipher 6
Hello there! How is COMP206?
Hkrru znkxk! Huc oy COMP206?
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WHAT TO HAND IN
Turn in the C program source codes simplecalc.c and caesarcipher.c, named properly. You do not have to zip
all of the files together. The files must be uploaded to mycourses. DO NOT turn in the executables simplecalc or
caesarcipher. TAs will compile your C program on their own as indicated in the problem descriptions above.
MISC. INFORMATION
There is a tester script mini4tester.sh that is provided with the assignment that you can use to test how your
programs are behaving. TAs will be using the exact same tester script to grade your assignment.
$ ./mini4tester.sh
However, it is recommended that when you start writing your program, test it yourself first with the above
examples. Once you are fairly confident that your program is working, you can test it using the tester script.
You can compare the output produced by running the mini tester on your C programs to that produced by the
mini tester on the solution programs which is given in mini4tester.out.txt.
** Important ** If your program “hangs” / is stuck while executing it through the tester script and requires
TAs to interrupt it, you will loose 4 points per program!.
FOOD FOR THOUGHT!
The following discussion is meant to encourage you to search independently for creative and optimal ways to perform
rudimentary tasks with less effort and/or make your program robust and sophisticated. It does not impact the points
that you can achieve in the above questions.
• Will your cipher program work for the following offsets? (Assuming that you keep continuing to wrap around
multiple times).
$ ./caesarcipher 306
and
$ ./caesarcipher -306
If not, can you think of a very simple way to address it?
• Here is a fun activity you can have with your friends using the cipher program that you just developed. You
should have the cipher program running, with a secret offset key which you do not tell anyone. Now encrypt a
message using it and use the write Unix command to send it to a friend who is also logged into the same Unix
host. Have your friend also do the same back to you (using their cipher program and their own secret offset
key). Now compete in who can decrypt the other’s message first.
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