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Game of Life

This project is a part of the "computer systems architecture" university course homework.

It is based on the famous zero player game Conway's Game of Life.

We are given the dimensions of a matrix, some points of alive cells, and we want to check the state of our colony after k game turns.

The homework is divided in three separate tasks.

First Task

Example input:

3 // m - number of rows
4 // n - number of columns
5 // p - the number of alive cells
0
1 // the coordonate of the first alive cell is at (0,1)
0
2 // the coordonate of the second alive cell is at (0,2)
1
0 // third cell at (1,0)
2
2 // fourth cell at (2,2)
2
3 // fifth cell at (2,3)
5 // k - number of generations to go through

Second Task

Example input:

3 // m - number of rows
4 // n - number of columns
5 // p - the number of alive cells
0
1 // the coordinate of the first alive cell is at (0,1)
0
2 // the coordinate of the second alive cell is at (0,2)
1
0 // third cell at (1,0)
2
2 // fourth cell at (2,2)
2
3 // fifth cell at (2,3)
0 // type - if it is 0 we encrypt if it is 1 we decrypt
text // what to encrypt / decrypt
5 // k - number of generations to go through

The encryption / decryption is as follows:

Given the extended matrix after "k" generations, we concatenate all the lines, from left to right, and we consider it as our key.

We make it so that our message and our key are of the same length and we XOR all the values, one by one, what results from that we convert to ASCII and that is our answer.

Example:

Say after "k" generations and a given matrix we get the following lines:

0 0 0 0 0 0
0 0 1 0 0 0
0 0 0 0 1 0
0 0 0 0 0 0
0 0 0 0 0 0

We concatenate all of them:

000000 001000 000010 000000 000000

And say our message is: "parola", we take the ASCII code of each value and convert it into binary.

Letter Ascii Code Binary
p 112 01110000
a 97 01100001
r 97 01110010
o 97 01101111
l 97 01101100
a 97 01100001

Resulting concatenation:

01110000 01100001 01110010 01101111 01101100 01100001
message = 011100000110000101110010011011110110110001100001
key     = 000000001000000010000000000000

The key is smaller so we concatenate again:

message = 011100000110000101110010011011110110110001100001
key     = 000000001000000010000000000000000000001000000010000000000000

Not it is too big so we trim it:

message = 011100000110000101110010011011110110110001100001
key     = 000000001000000010000000000000000000001000000010

The resulting XOR of each bit is:
answer = 011100001110000111110010011011110110111001100011

Now we convert it into ASCII:
answer = 0111 0000 1110 0001 1111 0010 0110 1111 0110 1110 0110 0011
       =  7    0    E    1    F    2    6    F    6    E    6    3
       = 0x70E1F26F6E63

The same steps will be taken for decryption.

Third Task

This task is the same as the first, but instead of reading from stdin and writing to the stdout, we now read from in.txt and write to out.txt.

Solution:

We will reuse the code from the first task and will make use of the fopen, fclose, fscanf, fprintf from C.

Tester

The tester is a Rust CLI developed with the purpose of stress testing my assembly solution against a C++ solution.

Requirements:

  • Bash
  • Rust
  • GCC / G++
  • Git
  • Make

Run on your machine:

git clone [email protected]:R3ZV/conway-asm.git        // using Git with SSH

cd conway-asm

make task0
make task1
make task2

// To stress test

bash build-cli
./cli <file_to_be_tested> <file_to_test_against> <task_to_gen_for>:

// e.g.:
// ./cli 0x00.s 0x00.cpp 0:

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