djweber12/chess_board_sim
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djweber12:builder-v1.0.0
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compare: djweber12:9c31cc66e71c676911956b03de164ad7c20b9d9d
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djweber12:main
djweber12:builder-v1.0.0

No commits in common. "fe8e46b88c0d0f517bf0d8d1e88df3be72a2472e" and "9c31cc66e71c676911956b03de164ad7c20b9d9d" have entirely different histories.
fe8e46b88c ... 9c31cc66e7

4 changed files with 302 additions and 291 deletions
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.gitignore vendored
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@ -1,4 +1,3 @@
build/
.rscons*
.vscode/
compile_commands.json

321
src/game_logic/chess_board.cpp
View File

@ -3,11 +3,13 @@
#include <string.h>
static uint8_t Board_Pieces[8][8] = {{0}};
static uint8_t Board_State[8][8] = {{0}};
static uint8_t Saved_Binary_Board[8] = {0};
static uint8_t Board_States[8][8] = {{0}};
static Game_State_t Game_State;
static Game_State_t Last_Game_State;
static uint8_t Board_Lights[8][8] = {{0}};
static uint8_t Game_State = GAME_STATE_P1_TURN_BEGINING;
static uint8_t Last_Game_State = GAME_STATE_P1_TURN_BEGINING;
static bool White_Turn = true;
static uint8_t Selected_Piece = SQUARE_EMPTY;
static uint8_t Error_Count = 0u;
static uint8_t Taken_Piece = SQUARE_EMPTY;
@ -26,15 +28,15 @@ static uint8_t Pawn_Converted_To = QUEEN_WHITE;
* @brief Function for clearing all of the lights on the board. Except for error moves.
* @retval None
*/
static void clear_board_state(void)
static void clear_lights(void)
{
for (size_t i = 0; i < 8; i++)
{
for (size_t j = 0; j < 8; j++)
{
if(Board_States[i][j] != ERROR_MOVE)
if(Board_Lights[i][j] != ERROR_MOVE)
{
Board_States[i][j] = LIGHT_OFF;
Board_Lights[i][j] = LIGHT_OFF;
}
}
}
@ -71,15 +73,15 @@ static bool opposite_teams(uint8_t piece_one, uint8_t piece_two)
*/
bool square_is_safe(uint8_t row, uint8_t column)
{
int8_t temp = row + (Game_State.player_turn ? -1 : 1);
int8_t temp = row + (White_Turn ? -1 : 1);
/* first check if pawns can take us */
if ((column > 0) && ((Game_State.player_turn ? PAWN_BLACK : PAWN_WHITE) == Board_Pieces[temp][column - 1u]))
if ((column > 0) && ((White_Turn ? PAWN_BLACK : PAWN_WHITE) == Board_State[temp][column - 1u]))
{
//can be eaten by a pawn, not safe.
return false;
}
if ((column < 7) && ((Game_State.player_turn ? PAWN_BLACK : PAWN_WHITE) == Board_Pieces[temp][column + 1u]))
if ((column < 7) && ((White_Turn ? PAWN_BLACK : PAWN_WHITE) == Board_State[temp][column + 1u]))
{
//can be eaten by a pawn, not safe.
return false;
@ -96,7 +98,7 @@ bool square_is_safe(uint8_t row, uint8_t column)
{
int8_t x = row + left_right;
int8_t y = column + up_down;
if ((Game_State.player_turn ? KING_BLACK : KING_WHITE) == Board_Pieces[x][y])
if ((White_Turn ? KING_BLACK : KING_WHITE) == Board_State[x][y])
{
return false;
}
@ -139,11 +141,11 @@ bool square_is_safe(uint8_t row, uint8_t column)
{
loop = false;
}
else if (Board_Pieces[x][y] == SQUARE_EMPTY)
else if (Board_State[x][y] == SQUARE_EMPTY)
{
/* Do nothing */
}
else if (((Game_State.player_turn ? ROOK_BLACK : ROOK_WHITE) == Board_Pieces[x][y]) || ((Game_State.player_turn ? QUEEN_BLACK : QUEEN_WHITE) == Board_Pieces[x][y]))
else if (((White_Turn ? ROOK_BLACK : ROOK_WHITE) == Board_State[x][y]) || ((White_Turn ? QUEEN_BLACK : QUEEN_WHITE) == Board_State[x][y]))
{
return false;
}
@ -183,19 +185,19 @@ bool square_is_safe(uint8_t row, uint8_t column)
int8_t y = column;
while (loop)
{
uint8_t bish = (Game_State.player_turn ? BISHOP_BLACK : BISHOP_WHITE);
uint8_t queen = (Game_State.player_turn ? QUEEN_BLACK : QUEEN_WHITE);
uint8_t bish = (White_Turn ? BISHOP_BLACK : BISHOP_WHITE);
uint8_t queen = (White_Turn ? QUEEN_BLACK : QUEEN_WHITE);
x += left_right_step;
y += up_down_step;
if ((x < 0) || (y < 0) || (x >= 8) || (y >= 8))
{
loop = false;
}
else if (Board_Pieces[x][y] == SQUARE_EMPTY)
else if (Board_State[x][y] == SQUARE_EMPTY)
{
/* do nothing */
}
else if ((bish == Board_Pieces[x][y]) || (queen == Board_Pieces[x][y]))
else if ((bish == Board_State[x][y]) || (queen == Board_State[x][y]))
{
return false;
}
@ -246,7 +248,7 @@ bool square_is_safe(uint8_t row, uint8_t column)
int8_t y = (int8_t)column + up_down_step;
if ((x >= 0) && (y >= 0) && (x < 8) && (y < 8))
{
if ((Game_State.player_turn ? KNIGHT_BLACK : KNIGHT_WHITE) == Board_Pieces[x][y])
if ((White_Turn ? KNIGHT_BLACK : KNIGHT_WHITE) == Board_State[x][y])
{
return false;
}
@ -259,23 +261,23 @@ bool square_is_safe(uint8_t row, uint8_t column)
bool Check_If_Move_Caused_Check(uint8_t piece, uint8_t row, uint8_t column)
{
bool ret_val;
uint8_t store_current_piece = Board_Pieces[row][column];
Board_Pieces[row][column] = piece;
uint8_t store_current_piece = Board_State[row][column];
Board_State[row][column] = piece;
//If its the white's turn we want to see if the white king is still safe.
uint8_t white_black_idx = Game_State.player_turn ? 0u : 1u;
uint8_t white_black_idx = White_Turn ? 0u : 1u;
ret_val = !square_is_safe(King_Locations[white_black_idx][0u], King_Locations[white_black_idx][1u]);
Board_Pieces[row][column] = store_current_piece;
Board_State[row][column] = store_current_piece;
return ret_val;
}
void Check_If_Could_Cause_Check(uint8_t row, uint8_t column)
{
uint8_t temp_storage = Board_Pieces[row][column];
Board_Pieces[row][column] = SQUARE_EMPTY;
uint8_t temp_storage = Board_State[row][column];
Board_State[row][column] = SQUARE_EMPTY;
//If its the white's turn we want to see if the white king is still safe.
uint8_t white_black_idx = Game_State.player_turn ? 0u : 1u;
uint8_t white_black_idx = White_Turn ? 0u : 1u;
High_Alert = !square_is_safe(King_Locations[white_black_idx][0u], King_Locations[white_black_idx][1u]);
Board_Pieces[row][column] = temp_storage;
Board_State[row][column] = temp_storage;
}
static bool Set_Light(uint8_t piece, uint8_t row, uint8_t column, uint8_t state)
@ -283,7 +285,7 @@ static bool Set_Light(uint8_t piece, uint8_t row, uint8_t column, uint8_t state)
bool ret_val = false;
if (!Check_If_Move_Caused_Check(piece, row, column))
{
Board_States[row][column] = state;
Board_Lights[row][column] = state;
ret_val = true;
}
return ret_val;
@ -298,7 +300,7 @@ static bool Set_Light(uint8_t piece, uint8_t row, uint8_t column, uint8_t state)
static bool pawn_move(uint8_t piece, uint8_t row, uint8_t column)
{
bool ret_val = false;
if (Board_Pieces[row][column] == SQUARE_EMPTY)
if (Board_State[row][column] == SQUARE_EMPTY)
{
ret_val = Set_Light(piece, row, column, POTENTIAL_MOVE);
}
@ -329,11 +331,11 @@ static bool cast_a_ray(uint8_t piece, int8_t direction_r, int8_t direction_c, ui
{
loop = false;
}
else if (Board_Pieces[x][y] == SQUARE_EMPTY)
else if (Board_State[x][y] == SQUARE_EMPTY)
{
ret_val = Set_Light(piece, x, y, POTENTIAL_MOVE) || ret_val;
}
else if (opposite_teams(piece, Board_Pieces[x][y]))
else if (opposite_teams(piece, Board_State[x][y]))
{
ret_val = Set_Light(piece, x, y, POTENTIAL_TAKE) || ret_val;
/* once we take a piece we can no longer take anymore */
@ -356,7 +358,7 @@ static bool cast_a_ray(uint8_t piece, int8_t direction_r, int8_t direction_c, ui
static bool pawn_take(uint8_t piece, uint8_t row, uint8_t column)
{
bool ret_val = false;
if ((Board_Pieces[row][column] < SQUARE_EMPTY) && opposite_teams(piece, Board_Pieces[row][column]))
if ((Board_State[row][column] < SQUARE_EMPTY) && opposite_teams(piece, Board_State[row][column]))
{
ret_val = Set_Light(piece, row, column, POTENTIAL_TAKE);
}
@ -382,7 +384,7 @@ static bool Mark_Potential_Moves(uint8_t piece, uint8_t column, uint8_t row)
uint8_t temp_row = row + direction;
if (row == (white_team(piece) ? 6u : 1u))
{
if(Board_Pieces[temp_row][column] == SQUARE_EMPTY)
if(Board_State[temp_row][column] == SQUARE_EMPTY)
{
ret_val = pawn_move(piece, row + (direction * 2u), column) || ret_val;
}
@ -475,11 +477,11 @@ static bool Mark_Potential_Moves(uint8_t piece, uint8_t column, uint8_t row)
int8_t y = (int8_t)column + up_down_step;
if ((x >= 0) && (y >= 0) && (x < 8) && (y < 8))
{
if (Board_Pieces[x][y] == SQUARE_EMPTY)
if (Board_State[x][y] == SQUARE_EMPTY)
{
ret_val = Set_Light(piece, x, y, POTENTIAL_MOVE) || ret_val;
}
else if (opposite_teams(piece, Board_Pieces[x][y]))
else if (opposite_teams(piece, Board_State[x][y]))
{
ret_val = Set_Light(piece, x, y, POTENTIAL_TAKE) || ret_val;
}
@ -543,14 +545,14 @@ static bool Mark_Potential_Moves(uint8_t piece, uint8_t column, uint8_t row)
int8_t y = column + up_down;
if (square_is_safe(x, y))
{
if (Board_Pieces[x][y] == SQUARE_EMPTY)
if (Board_State[x][y] == SQUARE_EMPTY)
{
Board_States[x][y] = POTENTIAL_MOVE;
Board_Lights[x][y] = POTENTIAL_MOVE;
ret_val = true;
}
else if (opposite_teams(piece, Board_Pieces[x][y]))
else if (opposite_teams(piece, Board_State[x][y]))
{
Board_States[x][y] = POTENTIAL_TAKE;
Board_Lights[x][y] = POTENTIAL_TAKE;
ret_val = true;
}
}
@ -563,26 +565,26 @@ static bool Mark_Potential_Moves(uint8_t piece, uint8_t column, uint8_t row)
if (square_is_safe(row, column))
{
// Queen side castle
if(Castling_Allowed[white_black_idx][0u] && (Board_Pieces[kings_row][1u] == SQUARE_EMPTY)
&& (Board_Pieces[kings_row][2u] == SQUARE_EMPTY) && (Board_Pieces[kings_row][3u]) == SQUARE_EMPTY)
if(Castling_Allowed[white_black_idx][0u] && (Board_State[kings_row][1u] == SQUARE_EMPTY)
&& (Board_State[kings_row][2u] == SQUARE_EMPTY) && (Board_State[kings_row][3u]) == SQUARE_EMPTY)
{
//First Check to see if the king will pass through check
if(square_is_safe(kings_row, 3u) && square_is_safe(kings_row, 2u))
{
// Yay we can castle queen side!
Board_States[kings_row][2u] = POTENTIAL_CASTLE;
Board_Lights[kings_row][2u] = POTENTIAL_CASTLE;
ret_val = true;
}
}
// King side castle
if (Castling_Allowed[white_black_idx][1u] && (Board_Pieces[kings_row][5u] == SQUARE_EMPTY) && (Board_Pieces[kings_row][6u] == SQUARE_EMPTY))
if (Castling_Allowed[white_black_idx][1u] && (Board_State[kings_row][5u] == SQUARE_EMPTY) && (Board_State[kings_row][6u] == SQUARE_EMPTY))
{
//First Check to see if the king will pass through check
if(square_is_safe(kings_row, 5u) && square_is_safe(kings_row, 6u))
{
// Yay we can castle king side!
Board_States[kings_row][6u] = POTENTIAL_CASTLE;
Board_Lights[kings_row][6u] = POTENTIAL_CASTLE;
ret_val = true;
}
}
@ -603,21 +605,21 @@ bool Check_If_Player_Can_Move(bool white)
{
for (uint8_t column = 0; column < 8u; column++)
{
if((white_team(Board_Pieces[row][column]) == white))
if((white_team(Board_State[row][column]) == white))
{
// SDL_Log("move: Row:%d, Col:%d", row, column);
if(Mark_Potential_Moves(Board_Pieces[row][column], column, row))
if(Mark_Potential_Moves(Board_State[row][column], column, row))
{
// SDL_Log("Player Can still move: Row:%d, Col:%d", row, column);
clear_board_state();
clear_lights();
return true;
}
}
}
}
clear_board_state();
clear_lights();
// SDL_Log("Player cant move");
return false;
}
@ -627,21 +629,26 @@ bool Check_If_Player_Can_Move(bool white)
*/
static void Switch_Turns(void)
{
Game_State.turn_state = BEGINNING;
Game_State.player_turn = !Game_State.player_turn;
Game_State = (White_Turn ? GAME_STATE_P2_TURN_BEGINING : GAME_STATE_P1_TURN_BEGINING);
White_Turn = !White_Turn;
// Square is safe assumes the other team is trying to attack the square so for example at the end of
// White's turn we want to see if the black king is now in check, so we will switch teams and then
// Check if the current kings locations is safe. If it is safe then check is false, if it isnt safe then check is true.
uint8_t white_black_idx = Game_State.player_turn ? 0u : 1u;
uint8_t white_black_idx = White_Turn ? 0u : 1u;
Check[white_black_idx] = !square_is_safe(King_Locations[white_black_idx][0u], King_Locations[white_black_idx][1u]);
//Last thing we need to check before switching turns is to check if the game is over.
bool player_can_play = Check_If_Player_Can_Move(Game_State.player_turn);
//Last thing we need to check before sitching turns is to check if the game is over.
bool player_can_play = Check_If_Player_Can_Move(White_Turn);
if(!player_can_play)
{
Game_State.game_over = true;
Game_State.player_turn = !Game_State.player_turn;
Game_State.error_detected = !Check[white_black_idx];
if(Check[white_black_idx])
{
Game_State = White_Turn ? GAME_STATE_OVER_BLACK_WIN : GAME_STATE_OVER_WHITE_WIN;
}
else
{
Game_State = GAME_STATE_OVER_STALE_MATE;
}
}
}
@ -655,7 +662,7 @@ static void Switch_Turns(void)
*/
static void Check_If_Moving_King(uint8_t row, uint8_t column)
{
uint8_t white_black_idx = Game_State.player_turn ? 0u : 1u;
uint8_t white_black_idx = White_Turn ? 0u : 1u;
if((Selected_Piece == KING_WHITE) || (Selected_Piece == KING_BLACK))
{
King_Locations[white_black_idx][0u] = row;
@ -680,14 +687,14 @@ static void Check_If_Moving_King(uint8_t row, uint8_t column)
static void Check_If_Converting_Pawn(uint8_t row, uint8_t column)
{
uint8_t white_black_idx = Game_State.player_turn ? 0u : 1u;
uint8_t white_black_idx = White_Turn ? 0u : 1u;
Converting_Pawn = false;
if((Selected_Piece == PAWN_WHITE) || (Selected_Piece == PAWN_BLACK))
{
if((row == 0u) || (row == 7u))
{
Selected_Piece = Game_State.player_turn ? QUEEN_WHITE : QUEEN_BLACK;
Selected_Piece = White_Turn ? QUEEN_WHITE : QUEEN_BLACK;
Pawn_Converted_To = Selected_Piece;
Converting_Pawn = true;
Converting_Pawn_Row_Col[0] = row;
@ -705,16 +712,16 @@ static bool Converting_Pawn_If_Applicable(uint8_t row, uint8_t column)
(Converting_Pawn_Row_Col[1] == column))
{
//Putting the piece down on the board
if(Board_Pieces[row][column] == SQUARE_EMPTY)
if(Board_State[row][column] == SQUARE_EMPTY)
{
Board_Pieces[row][column] = Pawn_Converted_To;
Board_States[row][column] = LIGHT_OFF;
Board_State[row][column] = Pawn_Converted_To;
Board_Lights[row][column] = LIGHT_OFF;
}
//Picking the piece back up to toggle through the options
else
{
Board_Pieces[row][column] = SQUARE_EMPTY;
Board_States[row][column] = CONVERTING_PAWN;
Board_State[row][column] = SQUARE_EMPTY;
Board_Lights[row][column] = CONVERTING_PAWN;
Pawn_Converted_To = Pawn_Converted_To - 2;
if (Pawn_Converted_To < ROOK_WHITE)
{
@ -739,86 +746,91 @@ static bool Converting_Pawn_If_Applicable(uint8_t row, uint8_t column)
*/
static void Board_Square_Was_Toggled(uint8_t j, uint8_t i)
{
if (Game_State.error_detected)
switch (Game_State)
{
if (Board_States[j][i] == PIECE_ORIGIN)
/* Something unexpected happened, game cannot progress until the board is returned to the known state */
case GAME_STATE_ERROR_DETECTED:
{
Board_Pieces[j][i] = Selected_Piece;
if (Board_Lights[j][i] == PIECE_ORIGIN)
{
Board_State[j][i] = Selected_Piece;
Selected_Piece = SQUARE_EMPTY;
clear_board_state();
Game_State.turn_state = BEGINNING;
clear_lights();
Last_Game_State--;
}
else if (Board_States[j][i] == PIECE_NEEDS_TO_BE_HERE)
else if (Board_Lights[j][i] == PIECE_NEEDS_TO_BE_HERE)
{
if (j < 8u)
{
Board_Pieces[j][i] = Selected_Piece;
Board_State[j][i] = Selected_Piece;
Selected_Piece = SQUARE_EMPTY;
Board_States[j][i] = LIGHT_OFF;
Board_Lights[j][i] = LIGHT_OFF;
}
else
{
Board_Pieces[j][i] = Taken_Piece;
Board_State[j][i] = Taken_Piece;
uint8_t board_column = (j / 2u) * 2u;
if(Board_States[board_column][i] == PIECE_NEEDS_TO_BE_HERE)
if(Board_Lights[board_column][i] == PIECE_NEEDS_TO_BE_HERE)
{
Board_States[board_column][i] = LIGHT_OFF;
Board_Lights[board_column][i] = LIGHT_OFF;
}
if(Board_States[board_column + 1u][i] == PIECE_NEEDS_TO_BE_HERE)
if(Board_Lights[board_column + 1u][i] == PIECE_NEEDS_TO_BE_HERE)
{
Board_States[board_column + 1u][i] = LIGHT_OFF;
Board_Lights[board_column + 1u][i] = LIGHT_OFF;
}
Taken_Piece = SQUARE_EMPTY;
}
if ((Selected_Piece == SQUARE_EMPTY) && (Taken_Piece == SQUARE_EMPTY))
{
Game_State.turn_state = BEGINNING;
Game_State.player_turn = !Game_State.player_turn;
Last_Game_State = (White_Turn ? GAME_STATE_P2_TURN_BEGINING : GAME_STATE_P1_TURN_BEGINING);
White_Turn = !White_Turn;
}
}
else if (Board_States[j][i] == ERROR_MOVE)
else if (Board_Lights[j][i] == ERROR_MOVE)
{
Error_Count--;
Board_States[j][i] = LIGHT_OFF;
Board_Lights[j][i] = LIGHT_OFF;
/* All Errors have been rectified so we can go back to where we were.*/
if(Error_Count == 0u)
{
Game_State.error_detected = false;
Game_State = Last_Game_State;
}
}
else
{
Error_Count++;
Board_States[j][i] = ERROR_MOVE;
Board_Lights[j][i] = ERROR_MOVE;
}
break;
}
else
{
switch (Game_State.turn_state)
case GAME_STATE_IDLE:
{
break;
}
/* We are waiting till the player who's turn it is picks up a piece that is on their team */
case BEGINNING:
case GAME_STATE_P2_TURN_BEGINING:
case GAME_STATE_P1_TURN_BEGINING:
{
if ((j < 8u) && (Board_Pieces[j][i] != SQUARE_EMPTY) && (white_team(Board_Pieces[j][i]) == Game_State.player_turn))
if ((j < 8u) && (Board_State[j][i] != SQUARE_EMPTY) && (white_team(Board_State[j][i]) == White_Turn))
{
if((Board_Pieces[j][i] != KING_BLACK) && (Board_Pieces[j][i] != KING_WHITE))
if((Board_State[j][i] != KING_BLACK) && (Board_State[j][i] != KING_WHITE))
{
Check_If_Could_Cause_Check(j, i);
}
Selected_Piece = Board_Pieces[j][i];
Board_Pieces[j][i] = SQUARE_EMPTY;
Selected_Piece = Board_State[j][i];
Board_State[j][i] = SQUARE_EMPTY;
(void)Mark_Potential_Moves(Selected_Piece, i, j);
Board_States[j][i] = PIECE_ORIGIN;
Game_State.turn_state = IN_PROGRESS;
Board_Lights[j][i] = PIECE_ORIGIN;
Game_State++;
}
else
{
if(!Converting_Pawn_If_Applicable(j, i))
{
Game_State.error_detected = true;
Board_States[j][i] = ERROR_MOVE;
Last_Game_State = Game_State;
Game_State = GAME_STATE_ERROR_DETECTED;
Board_Lights[j][i] = ERROR_MOVE;
Error_Count++;
}
}
@ -826,47 +838,48 @@ static void Board_Square_Was_Toggled(uint8_t j, uint8_t i)
break;
}
/* Person is in the middle of taking a turn for example they might already have a piece in the hand*/
case IN_PROGRESS:
case GAME_STATE_P2_TURN_IN_PROGRESS:
case GAME_STATE_P1_TURN_IN_PROGRESS:
{
if (Board_States[j][i] == POTENTIAL_MOVE)
if (Board_Lights[j][i] == POTENTIAL_MOVE)
{
Check_If_Moving_King(j, i);
Check_If_Converting_Pawn(j, i);
Board_Pieces[j][i] = Selected_Piece;
Board_State[j][i] = Selected_Piece;
Selected_Piece = SQUARE_EMPTY;
clear_board_state();
clear_lights();
Switch_Turns();
}
else if (Board_States[j][i] == POTENTIAL_TAKE)
else if (Board_Lights[j][i] == POTENTIAL_TAKE)
{
// Taken_Piece = Board_State[j][i];
Board_Pieces[j][i] = SQUARE_EMPTY;
Game_State.turn_state = FINALIZING;
clear_board_state();
Board_States[j][i] = PIECE_NEEDS_TO_BE_HERE;
Board_State[j][i] = SQUARE_EMPTY;
Game_State = (White_Turn ? GAME_STATE_P1_TURN_TAKING : GAME_STATE_P2_TURN_TAKING);
clear_lights();
Board_Lights[j][i] = PIECE_NEEDS_TO_BE_HERE;
}
else if (Board_States[j][i] == PIECE_ORIGIN)
else if (Board_Lights[j][i] == PIECE_ORIGIN)
{
Board_Pieces[j][i] = Selected_Piece;
Board_State[j][i] = Selected_Piece;
Selected_Piece = SQUARE_EMPTY;
clear_board_state();
Game_State.turn_state = BEGINNING;
clear_lights();
Game_State--;
}
else if (Board_States[j][i] == POTENTIAL_CASTLE)
else if (Board_Lights[j][i] == POTENTIAL_CASTLE)
{
Check_If_Moving_King(j, i);
Board_Pieces[j][i] = Selected_Piece;
Board_State[j][i] = Selected_Piece;
Selected_Piece = SQUARE_EMPTY;
clear_board_state();
clear_lights();
if(i == 2u)
{
Board_States[j][3u] = PIECE_NEEDS_TO_BE_HERE;
Board_States[j][0u] = PIECE_NEEDS_TO_BE_REMOVED;
Board_Lights[j][3u] = PIECE_NEEDS_TO_BE_HERE;
Board_Lights[j][0u] = PIECE_NEEDS_TO_BE_REMOVED;
}
else if(i == 6u)
{
Board_States[j][5u] = PIECE_NEEDS_TO_BE_HERE;
Board_States[j][7u] = PIECE_NEEDS_TO_BE_REMOVED;
Board_Lights[j][5u] = PIECE_NEEDS_TO_BE_HERE;
Board_Lights[j][7u] = PIECE_NEEDS_TO_BE_REMOVED;
}
else
{
@ -874,38 +887,41 @@ static void Board_Square_Was_Toggled(uint8_t j, uint8_t i)
}
}
else if (Board_States[j][i] == PIECE_NEEDS_TO_BE_REMOVED)
else if (Board_Lights[j][i] == PIECE_NEEDS_TO_BE_REMOVED)
{
Selected_Piece = Board_Pieces[j][i];
Board_Pieces[j][i] = SQUARE_EMPTY;
Board_States[j][i] = LIGHT_OFF;
Game_State.turn_state = FINALIZING;
Selected_Piece = Board_State[j][i];
Board_State[j][i] = SQUARE_EMPTY;
Board_Lights[j][i] = LIGHT_OFF;
Game_State = (White_Turn ? GAME_STATE_P1_TURN_TAKING : GAME_STATE_P2_TURN_TAKING);
}
else
{
Game_State.error_detected = true;
Board_States[j][i] = ERROR_MOVE;
Last_Game_State = Game_State;
Game_State = GAME_STATE_ERROR_DETECTED;
Board_Lights[j][i] = ERROR_MOVE;
Error_Count++;
}
break;
}
/* Player still needs to do something to complete their turn, like complete castle, en pessant, or converting a pawn*/
case FINALIZING:
case GAME_STATE_P2_TURN_TAKING:
case GAME_STATE_P1_TURN_TAKING:
{
if (Board_States[j][i] == PIECE_NEEDS_TO_BE_HERE)
if (Board_Lights[j][i] == PIECE_NEEDS_TO_BE_HERE)
{
Check_If_Moving_King(j, i);
Check_If_Converting_Pawn(j, i);
Board_Pieces[j][i] = Selected_Piece;
Board_State[j][i] = Selected_Piece;
Selected_Piece = SQUARE_EMPTY;
Board_States[j][i] = LIGHT_OFF;
Board_Lights[j][i] = LIGHT_OFF;
}
else
{
if(!Converting_Pawn_If_Applicable(j, i))
{
Game_State.error_detected = true;
Board_States[j][i] = ERROR_MOVE;
Last_Game_State = Game_State;
Game_State = GAME_STATE_ERROR_DETECTED;
Board_Lights[j][i] = ERROR_MOVE;
Error_Count++;
}
}
@ -922,13 +938,12 @@ static void Board_Square_Was_Toggled(uint8_t j, uint8_t i)
break;
}
}
}
}
void Board_get_lights_and_state(uint8_t board_state[8][8], uint8_t board_pieces[8][8])
void Board_get_lights_and_state(uint8_t board_lights[8][8], uint8_t board_state[8][8])
{
memcpy(&board_state[0][0], &Board_States[0][0], sizeof(Board_States));
memcpy(&board_pieces[0][0], &Board_Pieces[0][0], sizeof(Board_Pieces));
memcpy(&board_lights[0][0], &Board_Lights[0][0], sizeof(Board_Lights));
memcpy(&board_state[0][0], &Board_State[0][0], sizeof(Board_State));
}
@ -969,7 +984,7 @@ void chess_board_init(void)
{
for (uint8_t j = 0u; j < 8u; j++)
{
Board_Pieces[i][j] = SQUARE_EMPTY;
Board_State[i][j] = SQUARE_EMPTY;
}
}
Saved_Binary_Board[0] = 0xFF;
@ -978,31 +993,31 @@ void chess_board_init(void)
Saved_Binary_Board[7] = 0xFF;
//Place black pieces
Board_Pieces[0][0] = ROOK_BLACK;
Board_Pieces[0][7] = ROOK_BLACK;
Board_Pieces[0][1] = KNIGHT_BLACK;
Board_Pieces[0][6] = KNIGHT_BLACK;
Board_Pieces[0][2] = BISHOP_BLACK;
Board_Pieces[0][5] = BISHOP_BLACK;
Board_Pieces[0][3] = QUEEN_BLACK;
Board_Pieces[0][4] = KING_BLACK;
Board_Pieces[7][0] = ROOK_WHITE;
Board_Pieces[7][7] = ROOK_WHITE;
Board_Pieces[7][1] = KNIGHT_WHITE;
Board_Pieces[7][6] = KNIGHT_WHITE;
Board_Pieces[7][2] = BISHOP_WHITE;
Board_Pieces[7][5] = BISHOP_WHITE;
Board_Pieces[7][3] = QUEEN_WHITE;
Board_Pieces[7][4] = KING_WHITE;
Board_State[0][0] = ROOK_BLACK;
Board_State[0][7] = ROOK_BLACK;
Board_State[0][1] = KNIGHT_BLACK;
Board_State[0][6] = KNIGHT_BLACK;
Board_State[0][2] = BISHOP_BLACK;
Board_State[0][5] = BISHOP_BLACK;
Board_State[0][3] = QUEEN_BLACK;
Board_State[0][4] = KING_BLACK;
Board_State[7][0] = ROOK_WHITE;
Board_State[7][7] = ROOK_WHITE;
Board_State[7][1] = KNIGHT_WHITE;
Board_State[7][6] = KNIGHT_WHITE;
Board_State[7][2] = BISHOP_WHITE;
Board_State[7][5] = BISHOP_WHITE;
Board_State[7][3] = QUEEN_WHITE;
Board_State[7][4] = KING_WHITE;
for (uint8_t i = 0; i < 8; i++)
{
Board_Pieces[1][i] = PAWN_BLACK;
Board_Pieces[6][i] = PAWN_WHITE;
Board_State[1][i] = PAWN_BLACK;
Board_State[6][i] = PAWN_WHITE;
}
}
Game_State_t Board_get_game_state(void)
void Board_get_game_state(uint8_t * game_state)
{
return Game_State;
*game_state = Game_State;
}

50
src/game_logic/chess_board.h
View File

@ -1,17 +1,15 @@
#include "stdint.h"
enum Board_States_t {
LIGHT_OFF = 0u,
POTENTIAL_MOVE,
POTENTIAL_TAKE,
SUGGESTED_MOVE,
ERROR_MOVE,
PIECE_ORIGIN,
PIECE_NEEDS_TO_BE_HERE,
POTENTIAL_CASTLE,
PIECE_NEEDS_TO_BE_REMOVED,
CONVERTING_PAWN,
};
#define LIGHT_OFF 0u
#define POTENTIAL_MOVE 1u
#define POTENTIAL_TAKE 2u
#define SUGGESTED_MOVE 3u
#define ERROR_MOVE 4u
#define PIECE_ORIGIN 5u
#define PIECE_NEEDS_TO_BE_HERE 6u
#define POTENTIAL_CASTLE 7u
#define PIECE_NEEDS_TO_BE_REMOVED 8u
#define CONVERTING_PAWN 9u
#define PAWN_WHITE 0u
#define PAWN_BLACK 1u
@ -27,23 +25,23 @@ enum Board_States_t {
#define QUEEN_BLACK 11u
#define SQUARE_EMPTY 12u
#define WHITE_TURN true
#define BLACK_TURN false
enum Turn_State_t {
BEGINNING = 0,
IN_PROGRESS,
FINALIZING,
};
struct Game_State_t {
bool game_over = false;
bool error_detected = false;
bool player_turn = WHITE_TURN;
Turn_State_t turn_state = BEGINNING;
};
#define GAME_STATE_IDLE 0u
#define GAME_STATE_P1_TURN_BEGINING 1u
#define GAME_STATE_P1_TURN_IN_PROGRESS 2u
#define GAME_STATE_P1_TURN_TAKING 3u
#define GAME_STATE_P2_TURN_BEGINING 4u
#define GAME_STATE_P2_TURN_IN_PROGRESS 5u
#define GAME_STATE_P2_TURN_TAKING 6u
#define GAME_STATE_ERROR_DETECTED 7u
#define GAME_STATE_OVER 8u
#define GAME_STATE_OVER_WHITE_WIN 8u
#define GAME_STATE_OVER_BLACK_WIN 9u
#define GAME_STATE_OVER_STALE_MATE 10u
void chess_board_init(void);
void Board_Changed(uint8_t current_binary_board[12]);
void Board_get_lights_and_state(uint8_t board_lights[12][8], uint8_t board_state[12][8]);
Game_State_t Board_get_game_state(void);
void Board_get_game_state(uint8_t * game_state);

19
src/pc_app/user_interface_abstraction.cpp
View File

@ -31,7 +31,7 @@ static uint8_t Current_Binary_Board[8] = {0};
* @param board_state board state
* @param game_state games state
*/
static void ui_draw_end_game(SDL_Renderer *p_renderer, uint8_t board_state[8][8], Game_State_t game_state)
static void ui_draw_end_game(SDL_Renderer *p_renderer, uint8_t board_state[8][8], uint8_t game_state)
{
SDL_SetRenderTarget(p_renderer, Board_Texture);
SDL_SetRenderDrawColor(p_renderer, 0x7f, 0x7f, 0x7f, 0);
@ -50,18 +50,16 @@ static void ui_draw_end_game(SDL_Renderer *p_renderer, uint8_t board_state[8][8]
Rectangle.h = square_size;
uint8_t white_color[4] = {0xFF, 0xFF, 0x00, 0x00};
uint8_t black_color[4] = {0xFF, 0xFF, 0x00, 0x00};
if (!game_state.error_detected){
if(game_state.player_turn)
if(game_state == GAME_STATE_OVER_WHITE_WIN)
{
white_color[0] = 0x00; white_color[1] = 0xFF; white_color[2] = 0x00; white_color[3] = 0x00;
black_color[0] = 0xFF; black_color[1] = 0x00; black_color[2] = 0x00; black_color[3] = 0x00;
}
else
else if (game_state == GAME_STATE_OVER_BLACK_WIN)
{
black_color[0] = 0x00; black_color[1] = 0xFF; black_color[2] = 0x00; black_color[3] = 0x00;
white_color[0] = 0xFF; white_color[1] = 0x00; white_color[2] = 0x00; white_color[3] = 0x00;
}
}
for (size_t j = 0; j < 8; j++)
@ -105,7 +103,7 @@ static void ui_draw_end_game(SDL_Renderer *p_renderer, uint8_t board_state[8][8]
}
/**
* @brief Funtion for that will draw the current state of the board including pieces and colors for suggested and possible moves.
* @brief Funtion for that will draw the current state of the board including pecies and colors for suggested and possible moves.
* @param *p_renderer pointer to the renderer object:
* @retval None
*/
@ -238,15 +236,16 @@ void ui_redraw_board(SDL_Renderer *p_renderer)
{
uint8_t board_lights[8][8];
uint8_t board_state[8][8];
Game_State_t game_state = Board_get_game_state();
uint8_t game_state;
Board_get_game_state(&game_state);
Board_get_lights_and_state(board_lights, board_state);
if(game_state.game_over)
if(game_state < GAME_STATE_OVER)
{
ui_draw_end_game(p_renderer, board_state, game_state);
ui_draw_board(p_renderer, board_lights, board_state);
}
else
{
ui_draw_board(p_renderer, board_lights, board_state);
ui_draw_end_game(p_renderer, board_state, game_state);
}
}