Working on a college project for simple matrix multiplication based encryption.

The project outline is such;

text file to matrix multiplied by encryption key matrix= Encrypted file.

Encrypted file to matrix multiplied by inverse of key matrix = Decrypted file.

But I want to go a bit further and be able to do **any file** (text, mp3, gif etc etc).

I have been researching for hours trying to solve this problem and am starting to get a little frustrated.

The best way (and only) I can think of is for the program to read raw binary and perform encryption on that.

So--> questions:

**Can I extract raw binary from a file, put into matrix, perform matrix multiplication and (essentially) write back binary to file?****Also what is the viability of such a method on different computers and platforms? ( I am thinking that maybe if I convert from binary to int and on decryption convert back, it might change-- different size allocations on different computers etc?)**

Also, I am welcome to opinion on better solutions

---> But the basic algorithm should be based on matrix multiplication.

My code:

```
int writetomatrix(int current_variable)
{
if (counter == 9){
counter=0;
b=0;
a=0;}
if (b==3) b=0;
if (a==3) {b++;
a=0;}
counter++;
B[a][b]=current_variable;
a++;
}
int main () {
int *buffer= new int[1];
ifstream input;
input.open ("input.txt",ios::in|ios::binary);
input.read ((char*)&buffer, 1);
writetomatrix(buffer);
}
```

The error I get:

```
initializing argument 1 of ‘int writetomatrix(int)’
```

`crypt`

used the Hill cipher, which is pretty much what you've described. I haven't looked, but you could probably find source to at least one such implementation fairly easily. – Jerry Coffin Mar 7 '12 at 22:05`unsigned char`

. – Jerry Coffin Mar 7 '12 at 22:10`unsigned char`

is just a small integer type (usually with the range 0..255). You can do math on it just like any other integer type (though it'll be converted to`int`

first, so you may have to add a cast to get the result back to`unsigned char`

). – Jerry Coffin Mar 7 '12 at 22:15