# Problem trying to code Conway's Game of Life in C++

I'm building this program using the reni2D library found on involuntaryexercise.com I've created a grid consisting of a 2D array of rows and colums in which each square is clicked to be on and off. Now, I'm trying to make some working algorithms that adhere to the rules, but when running the program they all disappear after having the program go through the related loops. I don't see anything inherently wrong here, so I'm relying on the eyes of skilled programmers to guide me on the right path.

[UPDATE]: The program now works better, except that it doesn't follow the Game Of Life rules for some reason.

``````if(raGetKey(VK_RETURN))
{
//occupied cells
for(int i=0; i<ROWS; i++){ //768/24 = 32
for(int j=0; j<COLS; j++){ //768/32 = 24
//Occupied cells
if(sq[i][j].isOn == true && sq[i][j].neighbors < 4)
{
//UDLR
if((j+1)<COLS && sq[i][j+1].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
if((j-1)>(-1) && sq[i][j-1].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
if((i+1)<ROWS && sq[i+1][j].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
if((i-1)>(-1) && sq[i-1][j].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}

if(sq[i][j].neighbors >= 4)
break;
//Diagonal
if((i+1)<ROWS && (j+1)<COLS  && sq[i+1][j+1].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
if((i-1)>(-1) && (j-1)> (-1) && sq[i-1][j-1].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
if((i-1)>(-1) && (j+1)<COLS  && sq[i-1][j+1].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
if((i+1)<ROWS && (j-1)> (-1) && sq[i+1][j-1].isOn == true){
sq[i][j].neighbors += 1;
printf("The occupied sq[%d][%d] gains a neighbor\n", i, j);
}
}

//Empty cells
if(sq[i][j].isOn == false && sq[i][j].neighbors < 4)
{
//UDLR
/*if((i+1)<ROWS && (j+1)<COLS && (i-1)>0 && (j-1)>0)
{*/
if((j+1)<COLS && sq[i][j+1].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
if((j-1)>0    && sq[i][j-1].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
if((i+1)<ROWS && sq[i+1][j].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
if((i-1)>-1   && sq[i-1][j].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}

if(sq[i][j].neighbors >= 4)
break;
//Diagonal
if((i+1)<ROWS && (j+1)<COLS  && sq[i+1][j+1].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
if((i-1)>(-1) && (j-1)> (-1) && sq[i-1][j-1].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
if((i-1)>(-1) && (j+1)<COLS  && sq[i-1][j+1].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
if((i+1)<ROWS && (j-1)> (-1) && sq[i+1][j-1].isOn == true){
sq[i][j].neighbors += 1;
printf("The empty sq[%d][%d] gains a neighbor\n", i, j);
}
//}
}
}
}
for(int i=0; i<ROWS; i++) //768/24 = 32
{
for(int j=0; j<COLS; j++) //768/32 = 24
{

if(sq[i][j].isOn == true)
{
if(sq[i][j].neighbors <= 1){
sq[i][j].isOn = false;
sq[i][j].neighbors = 0;
printf("sq[%d][%d] is ON and has less than 1 neighbors ... Died from lonliness\n", i, j);
}
if(sq[i][j].neighbors >= 4){
sq[i][j].isOn = false;
sq[i][j].neighbors = 0;
printf("sq[%d][%d] is ON and has neighbors is greater than or equal to 4... Died from overpopulation\n", i, j);
}
if(sq[i][j].neighbors > 1 && sq[i][j].neighbors < 4){
sq[i][j].isOn = true;
printf("sq[%d][%d] is ON has 2 or 3 neighbors... Lives\n", i, j);
sq[i][j].neighbors = 0;
}
}
if(/*sq[i][j].isOn == false && */sq[i][j].neighbors == 3){
printf("sq[%d][%d] is OFF has 3 neighbors... Reproduce\n", i, j);
sq[i][j].isOn = true;
sq[i][j].neighbors = 0;
}
}
}
}
``````
-
Did you tried stepping through a debugger? –  Remus Rusanu Nov 15 '10 at 2:54
I'm not sure what the problem is, but I see an awful lot of code for one function, and at least one entirely redundant block. I'd start by breaking it into smaller functions. –  Ken Nov 15 '10 at 3:08

There might be several problems here, but at least one of them could be misplaced curly braces: did you mean to have your 3rd and 4th for-loops inside your 1st for-loop?

As an aside, many programmers like to use text editors that have automatic indenting, which can help catch these types of bugs.

-
Your advice worked. Now it works almost as it should. Almost meaning it doesn't interpret the algorithms correctly. Does anyone see anything that needs fixing? –  Mr. Czar Nov 15 '10 at 21:49
Great. Now you should set ROWS and COLS to 3, and step through the code to see what happens. (Either insert some more printf statements, or put some breakpoints in your debugger.) It'll be nice and small, so you should be able to see the exact point when something goes wrong. –  Nate Kohl Nov 15 '10 at 22:47

It's quite clear what went wrong here (hint: your cells die because your program thinks their neighbourhoods are overpopulated when in fact, they aren't). The more interesting question is: Why did it go wrong? In my opinion, it is because you use an identifier called 'neighbors' for something which doesn't count neighbours at all but rather does so partially and mangled with some 'optimizations' that you built into your code.

(Read on if you want to know the exact cause:

You're not resetting 'neighbors' if the cell lives, but then add to 'neighbors' again when you go through the next iteration of the loop.)

-
After fixing that problem by setting neighbors to 0, the cells still seem to disappear. –  Mr. Czar Nov 15 '10 at 20:53
It's really hard to test my program when pushing enter(not in debug mode) because it calculates and updates too quickly. –  Mr. Czar Nov 18 '10 at 1:37