dos_compilers/Borland Turbo Pascal v55/TTT.PAS

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2024-07-02 15:49:04 +02:00
{ App to prove you can't win at Tic-Tac-Toe }
{ use of byte instead of integer should be faster, but it's not }
program ttt;
uses Dos;
{$I timeutil.pas}
{$I dos_gt.pas}
type TScoreFunc = function : integer;
const
scoreWin = 6;
scoreTie = 5;
scoreLose = 4;
scoreMax = 9;
scoreMin = 2;
scoreInvalid = 0;
pieceBlank = 0;
pieceX = 1;
pieceO = 2;
iterations = 1;
type
boardType = array[ 0..8 ] of integer;
funcArrayType = array[ 0..8 ] of pointer;
var
{ update evaluated after each run because longint operations are slow }
evaluated: longint;
moves: integer;
board: boardType;
timeStart, timeEnd: timetype;
scoreFuncs : funcArrayType;
procedure dumpBoard;
var
i : integer;
begin
Write( '{' );
for i := 0 to 8 do
Write( board[i] );
Write( '}' );
end;
function func0 : integer;
var x : integer;
begin
x := board[0];
if ( ( ( x = board[1] ) and ( x = board[2] ) ) or
( ( x = board[3] ) and ( x = board[6] ) ) or
( ( x = board[4] ) and ( x = board[8] ) ) ) then
func0 := x
else
func0 := pieceBlank;
end;
function func1 : integer;
var x : integer;
begin
x := board[1];
if ( ( ( x = board[0] ) and ( x = board[2] ) ) or
( ( x = board[4] ) and ( x = board[7] ) ) ) then
func1 := x
else
func1 := pieceBlank;
end;
function func2 : integer;
var x : integer;
begin
x := board[2];
if ( ( ( x = board[0] ) and ( x = board[1] ) ) or
( ( x = board[5] ) and ( x = board[8] ) ) or
( ( x = board[4] ) and ( x = board[6] ) ) ) then
func2 := x
else
func2 := pieceBlank;
end;
function func3 : integer;
var x : integer;
begin
x := board[3];
if ( ( ( x = board[4] ) and ( x = board[5] ) ) or
( ( x = board[0] ) and ( x = board[6] ) ) ) then
func3 := x
else
func3 := pieceBlank;
end;
function func4 : integer;
var x : integer;
begin
x := board[4];
if ( ( ( x = board[0] ) and ( x = board[8] ) ) or
( ( x = board[2] ) and ( x = board[6] ) ) or
( ( x = board[1] ) and ( x = board[7] ) ) or
( ( x = board[3] ) and ( x = board[5] ) ) ) then
func4 := x
else
func4 := pieceBlank;
end;
function func5 : integer;
var x : integer;
begin
x := board[5];
if ( ( ( x = board[3] ) and ( x = board[4] ) ) or
( ( x = board[2] ) and ( x = board[8] ) ) ) then
func5 := x
else
func5 := pieceBlank;
end;
function func6 : integer;
var x : integer;
begin
x := board[6];
if ( ( ( x = board[7] ) and ( x = board[8] ) ) or
( ( x = board[0] ) and ( x = board[3] ) ) or
( ( x = board[4] ) and ( x = board[2] ) ) ) then
func6 := x
else
func6 := pieceBlank;
end;
function func7 : integer;
var x : integer;
begin
x := board[7];
if ( ( ( x = board[6] ) and ( x = board[8] ) ) or
( ( x = board[1] ) and ( x = board[4] ) ) ) then
func7 := x
else
func7 := pieceBlank;
end;
function func8 : integer;
var x : integer;
begin
x := board[8];
if ( ( ( x = board[6] ) and ( x = board[7] ) ) or
( ( x = board[2] ) and ( x = board[5] ) ) or
( ( x = board[0] ) and ( x = board[4] ) ) ) then
func8 := x
else
func8 := pieceBlank;
end;
function lookForWinner : integer;
var
t, p : integer;
begin
{dumpBoard;}
p := pieceBlank;
t := board[ 0 ];
if pieceBlank <> t then
begin
if ( ( ( t = board[1] ) and ( t = board[2] ) ) or
( ( t = board[3] ) and ( t = board[6] ) ) ) then
p := t;
end;
if pieceBlank = p then
begin
t := board[1];
if ( t = board[4] ) and ( t = board[7] ) then
p := t
else
begin
t := board[2];
if ( t = board[5] ) and ( t = board[8] ) then
p := t
else
begin
t := board[3];
if ( t = board[4] ) and ( t = board[5] ) then
p := t
else
begin
t := board[6];
if ( t = board[7] ) and ( t = board[8] ) then
p := t
else
begin
t := board[4];
if ( ( ( t = board[0] ) and ( t = board[8] ) ) or
( ( t = board[2] ) and ( t = board[6] ) ) ) then
p := t
end;
end;
end;
end;
end;
lookForWinner := p;
end;
function winner2( move: integer ) : integer;
var
x : integer;
begin
case move of
0: begin
x := board[ 0 ];
if not ( ( ( x = board[1] ) and ( x = board[2] ) ) or
( ( x = board[3] ) and ( x = board[6] ) ) or
( ( x = board[4] ) and ( x = board[8] ) ) )
then x := PieceBlank;
end;
1: begin
x := board[ 1 ];
if not ( ( ( x = board[0] ) and ( x = board[2] ) ) or
( ( x = board[4] ) and ( x = board[7] ) ) )
then x := PieceBlank;
end;
2: begin
x := board[ 2 ];
if not ( ( ( x = board[0] ) and ( x = board[1] ) ) or
( ( x = board[5] ) and ( x = board[8] ) ) or
( ( x = board[4] ) and ( x = board[6] ) ) )
then x := PieceBlank;
end;
3: begin
x := board[ 3 ];
if not ( ( ( x = board[4] ) and ( x = board[5] ) ) or
( ( x = board[0] ) and ( x = board[6] ) ) )
then x := PieceBlank;
end;
4: begin
x := board[ 4 ];
if not ( ( ( x = board[0] ) and ( x = board[8] ) ) or
( ( x = board[2] ) and ( x = board[6] ) ) or
( ( x = board[1] ) and ( x = board[7] ) ) or
( ( x = board[3] ) and ( x = board[5] ) ) )
then x := PieceBlank;
end;
5: begin
x := board[ 5 ];
if not ( ( ( x = board[3] ) and ( x = board[4] ) ) or
( ( x = board[2] ) and ( x = board[8] ) ) )
then x := PieceBlank;
end;
6: begin
x := board[ 6 ];
if not ( ( ( x = board[7] ) and ( x = board[8] ) ) or
( ( x = board[0] ) and ( x = board[3] ) ) or
( ( x = board[4] ) and ( x = board[2] ) ) )
then x := PieceBlank;
end;
7: begin
x := board[ 7 ];
if not ( ( ( x = board[6] ) and ( x = board[8] ) ) or
( ( x = board[1] ) and ( x = board[4] ) ) )
then x := PieceBlank;
end;
8: begin
x := board[ 8 ];
if not ( ( ( x = board[6] ) and ( x = board[7] ) ) or
( ( x = board[2] ) and ( x = board[5] ) ) or
( ( x = board[0] ) and ( x = board[4] ) ) )
then x := PieceBlank;
end;
end;
winner2 := x;
end;
function minmax( alpha: integer; beta: integer; depth: integer; move : integer ): integer;
var
p, value, pieceMove, score : integer;
begin
moves := moves + 1;
value := scoreInvalid;
if depth >= 4 then
begin
{ p := winner2( move ); }
p := TScoreFunc( scoreFuncs[ move ] );
{ p := LookForWinner; this is 10% slower than using function pointers }
if p <> pieceBlank then
begin
if p = pieceX then
value := scoreWin
else
value := scoreLose
end
else if depth = 8 then
value := scoreTie;
end;
if value = scoreInvalid then
begin
if Odd( depth ) then
begin
value := scoreMin;
pieceMove := pieceX;
end
else
begin
value := scoreMax;
pieceMove := pieceO;
end;
p := 0;
repeat
if board[ p ] = pieceBlank then
begin
board[ p ] := pieceMove;
score := minmax( alpha, beta, depth + 1, p );
board[ p ] := pieceBlank;
if Odd( depth ) then
begin
if ( score > value ) then
begin
value := score;
if ( value = scoreWin ) or ( value >= beta ) then p := 10
else if ( value > alpha ) then alpha := value;
end;
end
else
begin
if ( score < value ) then
begin
value := score;
if ( value = scoreLose ) or ( value <= alpha ) then p := 10
else if ( value < beta ) then beta := value;
end;
end;
end;
p := p + 1;
until p > 8;
end;
minmax := value;
end;
procedure runit( move : integer );
var score : integer;
begin
board[move] := pieceX;
score := minmax( scoreMin, scoreMax, 0, move );
board[move] := pieceBlank;
end;
var
i, errpos, loops: integer;
begin
loops := Iterations;
if 0 <> Length( ParamStr( 1 ) ) then
Val( ParamStr( 1 ), loops, errpos );
for i := 0 to 8 do
board[i] := pieceBlank;
scoreFuncs[0] := @func0;
scoreFuncs[1] := @func1;
scoreFuncs[2] := @func2;
scoreFuncs[3] := @func3;
scoreFuncs[4] := @func4;
scoreFuncs[5] := @func5;
scoreFuncs[6] := @func6;
scoreFuncs[7] := @func7;
scoreFuncs[8] := @func8;
evaluated := 0;
get_time( timeStart );
for i := 1 to loops do
begin
moves := 0;
runit( 0 );
runit( 1 );
runit( 4 );
evaluated := evaluated + moves;
end;
get_time( timeEnd );
print_elapsed_time( timeStart, timeEnd );
WriteLn( 'moves evaluated: ', evaluated );
WriteLn( 'iterations: ', loops );
end.