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COMP2611 Spring 2017 Homework #2
(Due Monday Apr 3, 5:00PM)
IMPORTANT Notes:
This is an individual assignment; all works must be your own.
Add your code under TODOs in the skeleton code. Dont change any other code
provided. Keep the skeleton file name unchanged.
Follow the usage of registers as specified in the skeleton, otherwise the provided
functions may not be able to work properly.
Zip all MIPS assembly files in a single
Submit your work via CASS (http://cssystem.cse.ust.hk/UGuides/cass/student.html).
Multiple submissions are allowed but only the last submission before the deadline will
be graded.
No LATE submissions will be accepted. Plan well and dont rush to submit in the last
minute.
Your submitted program must be able to run under MARS, otherwise it will not
be marked.
Question 1: Caesars cipher (10 marks)
Caesars cipher encrypts a plain text by replacing each of its character with another
character according to a fixed shift amount value (or key). Refer to
https://en.wikipedia.org/wiki/Caesar_cipher for further details.
Write a full MIPS program that takes a string (plain text) and a positive integer (key) and
then outputs the encrypted string accordingly. Encrypt only the letters and keep the spaces
in the text unchanged.
For simplicity, assume all user inputs are always positive from 1-25. Refer to Caesar.s
for more details. Read comments in skeleton and follow its instructions.
Sample run of the program in MARS:
Please enter the message all in capital letters: AMAZING STUDENTS
Please enter the shift amount: 3
The encrypted text is: DPDCLQJ VWXGHQWV
program is finished running
http://cssystem.cse.ust.hk/UGuides/cass/student.html
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Question 2: Unsigned integer multiplication by bit shifting (20 marks)
The Shift-and-add multiplication approach is similar to the multiplication performed by
using paper and pencil. The following example illustrates the multiplication procedures
using two unsigned 4-bit numbers, 1000(2) and 1101(2). Without loss of generality we
denote the first number the multiplicand, and the second number multiplier.
Multiplicand 1000(stored in $s0 of your program)
Multiplier1101(stored in $s1 of your program)
1000(multiplicand 1, shift the product 0 bit left,$s2=1000 )
0000(multiplicand 0, shift the product 1 bit left , $s2=$s2+00000)
1000(multiplicand 1, shift the product 2 bits left, $s2=$s2+100000)
1000(multiplicand 1, shift the product 3 bits left, $s2=$s2+1000000)
1101000(done! $s2=1101000)
Complete the multi.s skeleton provided according to the shift-and-add multiplication
procedures illustrated above. Store the multiplicand in $s0 and the multiplier in $s1.
Accumulate the result according to the above example step-by-step into $s2, output $s2
in hexadecimal form (using syscall 34, check the skeleton for the details) after every step
as shown below in the sample run. You program should be able to handle multiplications
of two unsigned 8-bit integers and you do not need to worry about overflows. You may
assume the user inputs are always valid.
Hint: To extract the bits of the multiplier one by one, you put 1 into $s3 and extract the
first bit of multiplier into $t0 using and $t0,$s1,$s3 in the first iteration. Then in
the next iteration you shift $s3 by one bit to the left (sll $t3, $t3, 1) and then
use and $t0,$s1,$s3 to extract the second bit of the multiplier into $t0. By
referring to $t0 in each iteration, you will know what to accumulate to $s2 in the program.
Sample run of the program in MARS:
Please enter the Multiplicand [0-255]: 255
Please enter the Multiplier [0-255]: 211
The result at the current iteration is: 0x000000ff
The result at the current iteration is: 0x000002fd
The result at the current iteration is: 0x000002fd
The result at the current iteration is: 0x000002fd
The result at the current iteration is: 0x000012ed
The result at the current iteration is: 0x000012ed
The result at the current iteration is: 0x000052ad
The result at the current iteration is: 0x0000d22d
The product is: 0x0000d22d
program is finished running
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Question 3: Sort random array (20 marks)
The following C++ program generates a random array and then sorts it in ascending order.
Translate it into MIPS program. The translation doesnt need to be 100% identical but
should follow the same sorting algorithm as described.
For simplicity, the MIPS program assumes array A[] has a fixed size of 10. You can use
the provided procedure random_number_generate to generate 10 random integers
and store them in A[]. Refer to randArraySort.s for more details. Read comments
in skeleton and follow its instructions. Note that we do the sorting by calling the sort()
function in the C/C++ code. In the skeleton program, we do it in the main body of the
program.
#include
#include
#include
using namespace std;
void randArray(int a[], int n){
srand (time(NULL)); //random seed to init the random number generator
for (int i=0;i
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