NOTE: Please comment if you think this post looks to you not having adequate details e.g. codes, results and other stuff; I will edit the post accordingly.
NOTE 2: I wrote this program by hand myself.
I have a negamax implementation the result of which looked very wrong to me i have tried many ways of debugging it but I still can't seem to get the crux of it.
First of all this is a negamax implementation for Tic Tac Toe, which has board of 3X3.
following codes are the full set in order to replicate the error I had wit this algorithm. please comment below if I missed anything.
An Example could be doing this main:
int main {
Board board;
board.startGameNage(0,0);
}
I would expect the game ended in a draw because this is computer (perfect player) vs computer (perfect player), however,Using the following set of functions I got a game ending like below:
current max move is: 0,0, current score is: -inf current max move is: 0,2, current score is: 3 current max move is: 0,1, current score is: -3 current max move is: 1,1, current score is: 3 current max move is: 2,0, current score is: -3 current max move is: 1,2, current score is: 3 current max move is: 2,1, current score is: -3 current max move is: 1,0, current score is: 3 current max move is: 1,0, current score is: -3
X X O
X O O
X X ---
the " - " there means no move is made in that cell, which looked obviously wrong.
I implemented my minimax first and this negamax was in a way evolving based on my minimax implementation, which might be the reason that I can't see my error.
I got that minimax makes moves from 2 player's perspective and evaluate scores the same as well, whereas negamax make moves from 2 player's perspective but evaluate score only from current player's perspective.
I guess this is the bit that confused me. I can't seem to see how my implementation went wrong here.
I start my game by the following function in main:
// in main I will just give the following function a coordinate, e.g. (0,0)
void Board::startGameNega(const int & row, const int & col){
Move move(row, col);
int player = 1;
for (int depth = 0; depth < 9; depth++){
applyMoveNega(move, player);
Move current_move = move;
move = negaMax(depth, player, move);
player = -player;
cout << "current Max move is: " << current_move.getRow()
<< " , "
<< current_move.getCol()
<< ", Current score is: "
<< current_move.getScore() << endl;
}
print(); // print the end of game board
}
here is the board.hpp:
#define LENGTH 3
#define WIDTH 3
#define CROSS 1
#define NOUGHT -1
#include <iostream>
#include <vector>
#include <array>
#include <map>
#include "Move.hpp"
using namespace std;
#pragma once
typedef vector<Move> Moves;
struct Board {
// constructors;
Board(int width, int length) :m_width(width), m_length(width){};
Board(){};
// destructor;
~Board(){};
// negamax;
Move negaMax(const int & depth, const int & player, const Move & initialMove);
void startGameNega(const int & row, const int & col);
void applyMoveNega(const Move & move, const int & player);
bool isWon(const int & player);
bool isGameComplete();
int evaluateGameStateNega(const int & depth, const int & player);
// share;
int getOpponent(const int & player);
void deleteMove(const Move & move);
void deleteMoves(const Move & initialMove);
// utilities;
static int defaultBoard[WIDTH][LENGTH];
int getWidth() const { return m_width; }
int getLength() const { return m_length; }
void setWidth(int width){ m_width = width; }
void setLength(int length){ m_length = length; }
void print();
int getCurrentPlayer();
private:
int m_width;
int m_length;
enum isWin{ yes, no, draw };
int result;
int m_player;
};
some key elements listed here:
print:
void Board::print(){
for (int i = 0; i < WIDTH; i++) {
for (int j = 0; j < LENGTH; j++) {
switch (defaultBoard[i][j]) {
case CROSS:
cout << "X";
break;
case NOUGHT:
cout << "O";
break;
default:
cout << "-";
break;
}
cout << " ";
}
cout << endl;
}
}
generateMoves:
Moves Board::generateMoves(const int &rowIndex, const int &colIndex){
Moves Moves;
if (defaultBoard){
for (int i = 0; i < WIDTH; i++)
{
for (int j = 0; j < LENGTH; j++)
{
if (i == rowIndex && j == colIndex)
{
continue;
}
else if (defaultBoard[i][j] == 1 || defaultBoard[i][j] == 4)
{
continue;
}
else if (defaultBoard[i][j] == 0)
{
Move move(i, j);
Moves.push_back(move);
}
}
}
}
return Moves;
}
applyMovesNega:
void Board::applyMoveNega(const Move & move, const int & player){
if (player == 1){
defaultBoard[move.getRow()][move.getCol()] = CROSS;
}
else if (player == -1)
{
defaultBoard[move.getRow()][move.getCol()] = NOUGHT;
}
}
isGameComplete:
bool Board::isGameComplete(){
if (defaultBoard[0][0] == defaultBoard[0][1] && defaultBoard[0][1] == defaultBoard[0][2] && defaultBoard[0][0] != 0 ||
defaultBoard[1][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[1][2] && defaultBoard[1][0] != 0 ||
defaultBoard[2][0] == defaultBoard[2][1] && defaultBoard[2][1] == defaultBoard[2][2] && defaultBoard[2][0] != 0 ||
defaultBoard[0][0] == defaultBoard[1][0] && defaultBoard[1][0] == defaultBoard[2][0] && defaultBoard[0][0] != 0 ||
defaultBoard[0][1] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[2][1] && defaultBoard[0][1] != 0 ||
defaultBoard[0][2] == defaultBoard[1][2] && defaultBoard[1][2] == defaultBoard[2][2] && defaultBoard[0][2] != 0 ||
defaultBoard[0][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[2][2] && defaultBoard[0][0] != 0 ||
defaultBoard[2][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[0][2] && defaultBoard[2][0] != 0){
return true;
}
return false;
}
evaluate the score:
int Board::evaluateGameStateNega(const int & depth, const int & player){
int new_score;
isWon(player);
if (result == isWin::yes)
new_score = 10 - depth;
else if (result == isWin::no)
new_score = depth - 10;
else
new_score = 0;
return new_score;
}
deleteMove:
void Board::deleteMove(const Move & move){
defaultBoard[move.getRow()][move.getCol()] = 0;}
here's the move.hpp:
struct Move{
Move(){};
Move(const int & index) :m_rowIndex(index / 3),m_colIndex(index % 3){};
Move(const int & row, const int & col) :m_rowIndex(row), m_colIndex(col){};
Move(const int & row, const int & col, const int & score):m_rowIndex(row), m_colIndex(col), m_score(score){};
~Move(){};
//member functions;
int getRow() const { return m_rowIndex; };
int getCol() const { return m_colIndex; };
void setRow(const int & row){ m_rowIndex = row; };
void setCol(const int & col){ m_colIndex = col; };
void setScore(const int & score){ m_score = score; };
int getScore() const { return m_score; }
private:
int m_rowIndex;
int m_colIndex;
int m_score;
};
This is the actual NegaMax Function:
Move Board::negaMax(const int & depth, const int & curPlayer, const Move & initialMove){
int row = initialMove.getRow();
int col = initialMove.getCol();
int _depth = depth;
int _curplayer = curPlayer;
Moves moves = generateMoves(row, col);
Move bestMove;
Move proposedNextMove;
//change to isGameComplete as of 15/10;
if (_depth == 8 || isGameComplete())
{
int score = evaluateGameStateNega(_depth, _curplayer);
bestMove.setScore(score);
bestMove.setRow(initialMove.getRow());
bestMove.setCol(initialMove.getCol());
}
else{
_depth += 1;
int bestScore = -1000;
for (auto move : moves){
applyMoveNega(move, -_curplayer);
proposedNextMove = negaMax(_depth, -_curplayer, move);
int tScore = -proposedNextMove.getScore();
proposedNextMove.setScore(tScore);
if (proposedNextMove.getScore() > bestScore){
bestScore = proposedNextMove.getScore();
bestMove.setScore(bestScore);
bestMove.setRow(move.getRow());
bestMove.setCol(move.getCol());
}
deleteMove(move);
}
}
return bestMove;
}
I evaluate the game state using following Function:
bool Board::isWon(const int & player){
if (defaultBoard[0][0] == defaultBoard[0][1] && defaultBoard[0][1] == defaultBoard[0][2] && defaultBoard[0][0] == player ||
defaultBoard[1][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[1][2] && defaultBoard[1][0] == player ||
defaultBoard[2][0] == defaultBoard[2][1] && defaultBoard[2][1] == defaultBoard[2][2] && defaultBoard[2][0] == player ||
defaultBoard[0][0] == defaultBoard[1][0] && defaultBoard[1][0] == defaultBoard[2][0] && defaultBoard[0][0] == player ||
defaultBoard[0][1] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[2][1] && defaultBoard[0][1] == player ||
defaultBoard[0][2] == defaultBoard[1][2] && defaultBoard[1][2] == defaultBoard[2][2] && defaultBoard[0][2] == player ||
defaultBoard[0][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[2][2] && defaultBoard[0][0] == player ||
defaultBoard[2][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[0][2] && defaultBoard[2][0] == player){
result = isWin::yes;
return true;
}
else if (defaultBoard[0][0] == defaultBoard[0][1] && defaultBoard[0][1] == defaultBoard[0][2] && defaultBoard[0][0] == -player ||
defaultBoard[1][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[1][2] && defaultBoard[1][0] == -player ||
defaultBoard[2][0] == defaultBoard[2][1] && defaultBoard[2][1] == defaultBoard[2][2] && defaultBoard[2][0] == -player ||
defaultBoard[0][0] == defaultBoard[1][0] && defaultBoard[1][0] == defaultBoard[2][0] && defaultBoard[0][0] == -player ||
defaultBoard[0][1] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[2][1] && defaultBoard[0][1] == -player ||
defaultBoard[0][2] == defaultBoard[1][2] && defaultBoard[1][2] == defaultBoard[2][2] && defaultBoard[0][2] == -player ||
defaultBoard[0][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[2][2] && defaultBoard[0][0] == -player ||
defaultBoard[2][0] == defaultBoard[1][1] && defaultBoard[1][1] == defaultBoard[0][2] && defaultBoard[2][0] == -player)
{
result = isWin::no;
return true;
}
result = isWin::draw;
return false;
}
_depth == 8
makes it stop after 8 entries