# Is there an easier way of representing conditions in C++?

I wrote a basic tic-tac-toe game based on multidimensional arrays. g[3][3]. In my program I have about 9 conditions like the one I am about to show you:

``````if((g[0][0] == X && g[0][1] == X && g[0][2] == X) || (g[0][0] == O && g[0][1] == O && g[0][2] == O))
``````

This is quite insane. I am probably doing something wrong but this is why I am addressing this question. Is there an easier way of representing long and complicated conditions like this? For example couldn't I somehow do:

``````if(grid.hasXes)
``````
-
A loop? A lookup table? A function? Take your pick... –  Oli Charlesworth Apr 16 '12 at 14:01
@Oli Charlesworth, can you give some examples of each? –  Bugster Apr 16 '12 at 14:03

You're probably going about it the wrong way. There are only 3^9, or 19683 possible combinations, so you can convert your grid to an `int`, even on a 16 bit machine:

``````int
asInt( char const (&grid)[3][3] )
{
int results = 0;
for ( int i = 0; i != 3; ++ i ) {
for ( int j = 0; j != 3; ++ j ) {
results *= 3;
switch ( grid[i][j] ) {
case 'X':
results += 1;
break;

case 'Y':
results += 2;
break;

case ' ':
break;

default:
assert(0);
}
}
}
return results;
}
``````

Afterwards, you can use the int to index into a table indicating who won (if anyone). Alternatively, you can convert just one or the other player's position into a 9 bit int:

``````int
asInt( char const (&grid)[3][3], char who )
{
int results = 0;
for ( int i = 0; i != 3; ++ i ) {
for ( int j = 0; j != 3; ++ j ) {
results *= 2;
if ( grid[i][j] == who ) {
++ results;
}
}
}
return results;
}
``````

You can then use a simple linear search into a table, verifying that the necessary bits are set:

``````static int const wins[] =
{
0007, 0070, 0700,       //  rows
0111, 0222, 0444,       //  columns
0124, 0421              //  diagonals
};

class Wins
{
int myToMatch;
public:
Wins( char const (&grid)[3][3], char who )
: myToMatch( asInt( grid, who ) )
{
}
bool operator()( int entry ) const
{
return (entry & myToMatch) == entry;
}
};
``````

Then:

``````if ( std::find_if( begin( wins ), end( wins ), Wins( grid, 'X' ) )
!= end( wins ) {
//  X wins
else if ( std::find_if( begin( wins ), end( wins ), Wins( grid, 'O' ) )
!= end( wins ) {
//  O wins
else
//  play another turn.
``````

You could even consider keeping the grid as two `int`s, one per player. The bit number for a position would be `3 * i + j`, and to test if a move is legal:

``````bool
isLegal( int gridX, int gridY, int i, int j )
{
return ((gridX | gridY) & (1 << (3 * i + j))) == 0;
}
``````
-
Wow this answer pretty much makes me think my question was stupid since there are so many ways. This answer makes me feel so small, thanks! –  Bugster Apr 16 '12 at 16:34
@ThePlan Not at all. Seeing such possibilities depends a lot on experience. And the only way to get that experience, and to learn, is to ask such questions. I thought it was a good question; that's why I put some effort into thinking up what I think is a good answer. (And the bit bashing technique at the end is not something that's likely to occur to you unless you've actually done something similar in the past.) –  James Kanze Apr 16 '12 at 17:23

The simplest -- and most powerful -- way to deal with this kind of issue is simply by extracting the ugly code into a function. That function can be a member of a class, if it's convenient, or simply a free function. In your case, the quick fix could be

``````bool hasXes(char[3][3] g) {
return (g[0][0] == X && g[0][1] == X && g[0][2] == X) || (g[0][0] == O && g[0][1] == O && g[0][2] == O)
}
``````

Then you can simply write:

``````if (hasXes(g)) ...
``````
-
you should at least pass X to the function, or assume lambda availability. Or Boost.bind... –  CapelliC Apr 16 '12 at 14:09

now I got it...

``````bool check(char *g, int x, int y, int moveX, int moveY, char ch)
{
for (int i(0); i<3; ++i)
{
if ((g+(y*3)+x) != ch) return false;
x += moveX;
y += moveY;
}
return true;
}
``````

you use it like that:

``````if (check(g, 0, 0, 0, 1, 'O')) //checking O in the first row.
if (check(g, 0, 0, 0, 1, 'X')) //checking X in the first row.
if (check(g, 0, 0, 1, 0, 'O')) //checking O in the first column.
if (check(g, 0, 0, 1, 0, 'X')) //checking X in the first column.
``````
-

You could write functions to hide the complexity and enhance the readability of your main driver function. For instance, you could check a row or column to see if it it's all equal to X or O.

-

This should work:

``````bool found = false;
int i, j;
for(i = 0; i < 3; i++)
{
for(j = 0; j < 3; j++)
{
if(g[i][j] == X)
{
found = true;
break;
}
}
if(found == true)
{
break;
}
}
if(found == true)
{
// do something because one of them had X.  i, j have the co-ordinates of the first find of it
}
else
{
// none of them had X
}
``````

There may be a way to use a goto as well, though those are heavily discouraged in c++. If you only want a row at a time, only use 1 loop.

-
I have used gotos in my code despite the fact it's considered a bad practice because I had no patience to think for alternate loops. –  Bugster Apr 16 '12 at 14:10

One more option to choose from. You can use memcmp if the storage is contiguous

``````if(!memcmp(g[0],"XXX",3) || !memcmp(g[0],"OOO",3))
``````
-
+1 clever, -1 ewwww :) –  Ernest Friedman-Hill Apr 16 '12 at 14:12
@ErnestFriedman-Hill: -1 why? –  Abhijit Apr 16 '12 at 14:13
Joke. I didn't vote at all. I gave you an imaginary +1 for cleverness and -1 for ugliness; they balance out to no vote. –  Ernest Friedman-Hill Apr 16 '12 at 14:14
That's fine for the rows. Now how do you do the columns. (And please: `memcmp` doesn't return a `bool`; don't pretend that it does. It just confused people.) –  James Kanze Apr 16 '12 at 15:39

In this special case there is also the somewhat simpler comparison:

``````if(g[0][0] == g[0][1] && g[0][1] == g[0][2])
``````

At least assuming there are only `X` and `O` possible. Otherwise this will become

``````if(g[0][0] == g[0][1] && g[0][1] == g[0][2] && ( g[0][1] == X || g[0][1] == O ) )
``````

Which still is a lot simpler IMHO.

If you cannot simplify like this, use a loop as other have pointed out.

-

``````const bool first_is_xful = g[0][0] == X && g[0][1] == X && g[0][2] == X,
second_is_xful = ...;

if (first_is_xful || second_is_xful || ...) ...
``````

Or functions functions:

``````bool is_xful (int row, ...) ...

...

if (is_ixful(0) || ...
``````
-

You could count the Xs or try to find them:

Assuming g is a 3 x 3 array, containing characters `X` or `O`:

``````char* end = g + 9;
std::count(g, end, 'X') > 0;
``````

or more efficiently:

``````char* end = g + 9;
std::find(g, end, 'X') != end;
``````
-