/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2007 Mauricio Peccorini * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "plugin.h" #include "chessbox_pgn.h" #define LOG_FILE PLUGIN_GAMES_DATA_DIR "/chessbox.log" int loghandler; const char *pgn_file = PLUGIN_GAMES_DATA_DIR "/chessbox.pgn"; short kn_offs[8][2] = {{2,1},{2,-1},{-2,1},{-2,-1},{1,2},{1,-2},{-1,2},{-1,-2}}; short rk_offs[4][2] = {{1,0},{-1,0},{0,1},{0,-1}}; short bp_offs[4][2] = {{1,1},{-1,1},{1,-1},{-1,-1}}; /* global vars for pl_malloc() */ void *bufptr = NULL; size_t bufleft; /* simple function to "allocate" memory in pluginbuffer. * (borrowed from dict.c) */ static void *pl_malloc(size_t size) { void *ptr; ptr = bufptr; if (bufleft < size) { return NULL; } else { bufptr = (char*)(bufptr) + size; bufleft -= size; return ptr; } } /* init function for pl_malloc() */ static void pl_malloc_init(void) { bufptr = rb->plugin_get_buffer(&bufleft); } static void process_tag(struct pgn_game_node* game, char* buffer){ char tag_type[20]; char tag_value[255]; short pos=0, pos2=0; while (buffer[pos+1] != ' '){ tag_type[pos] = buffer[pos+1]; pos++; } tag_type[pos] = '\0'; pos+=3; while (buffer[pos] != '"'){ tag_value[pos2] = buffer[pos]; pos++; pos2++; } /* truncate tag values that are too large */ if (pos2 > 19){ pos2 = 19; } tag_value[pos2] = '\0'; if (rb->strcmp(tag_type,"White") == 0){ rb->strcpy(game->white_player, tag_value); } if (rb->strcmp(tag_type,"Black") == 0){ rb->strcpy(game->black_player, tag_value); } if (rb->strcmp(tag_type,"Result") == 0){ rb->strcpy(game->result, tag_value); } if (rb->strcmp(tag_type,"Date") == 0){ rb->strcpy(game->game_date, tag_value); } } static unsigned short get_next_token(const char* line_buffer, unsigned short initial_pos, char* token_buffer){ unsigned short pos, token_pos=0; for (pos = initial_pos;line_buffer[pos] == ' ' || line_buffer[pos] == '.';pos++); do { token_buffer[token_pos] = line_buffer[pos]; pos++; token_pos++; } while (line_buffer[pos] != ' ' && line_buffer[pos] != '.' && line_buffer[pos] != '\0'); /* ignore annotations */ while (token_buffer[token_pos-1] == '!' || token_buffer[token_pos-1] == '?'){ token_pos--; } token_buffer[token_pos] = '\0'; return pos; } static unsigned short piece_from_pgn(char pgn_piece){ switch (pgn_piece){ case 'R': return rook; case 'N': return knight; case 'B': return bishop; case 'Q': return queen; case 'K': return king; } return no_piece; } static char pgn_from_piece(unsigned short piece, unsigned short color){ char pgn_piece = ' '; switch (piece){ case pawn: pgn_piece = 'P'; break; case rook: pgn_piece = 'R'; break; case knight: pgn_piece = 'N'; break; case bishop: pgn_piece = 'B'; break; case queen: pgn_piece = 'Q'; break; case king: pgn_piece = 'K'; break; case no_piece: pgn_piece = ' '; break; } if (color == black && pgn_piece != ' '){ pgn_piece += 32; } return pgn_piece; } static bool pgn_to_coords(struct pgn_ply_node* ply){ bool success = true; unsigned short str_length = rb->strlen(ply->pgn_text); char str[9]; rb->strcpy(str,ply->pgn_text); ply->column_from = 0xFF; ply->row_from = 0xFF; ply->column_to = 0xFF; ply->row_to = 0xFF; ply->taken_piece = no_piece; ply->promotion_piece = no_piece; ply->enpassant = false; ply->castle = false; ply->promotion = false; unsigned short i, j, piece; bool found = false; if (str_length >= 3 && (str[0] == 'O' || str[0] == '0') && str[1] == '-' && (str[2] == 'O' || str[2] == '0')) { /* castling */ ply->castle = true; if (str_length >= 5 && str[3] == '-' && (str[4] == 'O' || str[4] == '0')){ /* castle queenside */ if (ply->player == white){ ply->row_from = 0; ply->column_from = 4; ply->row_to = 0; ply->column_to = 2; /* update the rook's position, the king's position will be updated later */ board[locn[0][3]] = rook; color[locn[0][3]] = white; board[locn[0][0]] = no_piece; color[locn[0][0]] = neutral; } else { ply->row_from = 7; ply->column_from = 4; ply->row_to = 7; ply->column_to = 2; board[locn[7][3]] = rook; color[locn[7][3]] = black; board[locn[7][0]] = no_piece; color[locn[7][0]] = neutral; } } else { /* castle kingside */ if (ply->player == white){ ply->row_from = 0; ply->column_from = 4; ply->row_to = 0; ply->column_to = 6; board[locn[0][5]] = rook; color[locn[0][5]] = white; board[locn[0][7]] = no_piece; color[locn[0][7]] = neutral; } else { ply->row_from = 7; ply->column_from = 4; ply->row_to = 7; ply->column_to = 6; board[locn[7][5]] = rook; color[locn[7][5]] = black; board[locn[7][7]] = no_piece; color[locn[7][7]] = neutral; } } } else if (str[0] >= 'a' && str[0] <= 'h'){ /* pawns */ ply->column_from = str[0] - 'a'; if (str[1] == 'x'){ ply->row_from = str[3] - '1' + ((ply->player==white)?-1:1); ply->row_to = str[3] - '1'; ply->column_to = str[2] - 'a'; if (board[locn[ply->row_to][ply->column_to]] == no_piece){ /* en-passant, remove the pawn */ ply->enpassant = true; board[locn[ply->row_from][ply->column_to]] = no_piece; color[locn[ply->row_from][ply->column_to]] = neutral; ply->taken_piece = pawn; } else { ply->taken_piece = board[locn[ply->row_to][ply->column_to]]; } } else { ply->column_to = ply->column_from; ply->row_from = str[1] - '1' + ((ply->player==white)?-1:1); ply->row_to = str[1] - '1'; } if (board[locn[ply->row_from][ply->column_from]] == no_piece){ /* the pawn moved two squares */ ply->row_from += ((ply->player==white)?-1:1); } if (ply->row_to == 7 || ply->row_to == 0){ /* promotion */ if (str[2] == '='){ ply->promotion_piece = piece_from_pgn(str[3]); } else { ply->promotion_piece = piece_from_pgn(str[5]); } /* change the piece in the original position and wait * for the code at the end to move it */ board[locn[ply->row_from][ply->column_from]] = ply->promotion_piece; } } else { /* the other pieces */ piece = piece_from_pgn(str[0]); if (str[2] == 'x'){ /* taken a piece and move was ambiguous */ ply->column_to = str[3] - 'a'; ply->row_to = str[4] - '1'; ply->taken_piece = board[locn[ply->row_to][ply->column_to]]; if (str[1] >= 'a' && str[1] <= 'h') { ply->column_from = str[1] - 'a'; } else { ply->row_from = str[1] - '1'; } } else if (str[1] == 'x') { /* taken a piece */ ply->column_to = str[2] - 'a'; ply->row_to = str[3] - '1'; ply->taken_piece = board[locn[ply->row_to][ply->column_to]]; } else if (str_length >= 4 && str[3] >= '0' && str[3] <= '9'){ /* no piece taken and move was ambiguous */ ply->column_to = str[2] - 'a'; ply->row_to = str[3] - '1'; if (str[1] >= 'a' && str[1] <= 'h') { ply->column_from = str[1] - 'a'; } else { ply->row_from = str[1] - '1'; } } else { /* regular move */ ply->column_to = str[1] - 'a'; ply->row_to = str[2] - '1'; } if (piece == knight) { for (i=0;i<8;i++){ if (ply->row_to + kn_offs[i][0] >= 0 && ply->row_to + kn_offs[i][0] <= 7 && ply->column_to + kn_offs[i][1] >= 0 && ply->column_to + kn_offs[i][1] <= 7 && board[locn[ply->row_to + kn_offs[i][0]][ply->column_to + kn_offs[i][1]]] == knight && color[locn[ply->row_to + kn_offs[i][0]][ply->column_to + kn_offs[i][1]]] == ply->player && (ply->row_from == 0xFF || ply->row_from == ply->row_to + kn_offs[i][0]) && (ply->column_from == 0xFF || ply->column_from == ply->column_to + kn_offs[i][1])) { ply->row_from = ply->row_to + kn_offs[i][0]; ply->column_from = ply->column_to + kn_offs[i][1]; } } } if (piece == rook || piece == queen || piece == king){ for (i=0;i<4;i++){ j = 1; found = false; while (ply->row_to+(j*rk_offs[i][0]) >= 0 && ply->row_to+(j*rk_offs[i][0]) <= 7 && ply->column_to+(j*rk_offs[i][1]) >= 0 && ply->column_to+(j*rk_offs[i][1]) <= 7){ if (board[locn[ply->row_to+(j*rk_offs[i][0])][ply->column_to+(j*rk_offs[i][1])]] != no_piece) { if (board[locn[ply->row_to+(j*rk_offs[i][0])][ply->column_to+(j*rk_offs[i][1])]] == piece && color[locn[ply->row_to+(j*rk_offs[i][0])][ply->column_to+(j*rk_offs[i][1])]] == ply->player && (ply->row_from == 0xFF || ply->row_from == ply->row_to+(j*rk_offs[i][0])) && (ply->column_from == 0xFF || ply->column_from == ply->column_to+(j*rk_offs[i][1]))) { ply->row_from = ply->row_to+(j*rk_offs[i][0]); ply->column_from = ply->column_to+(j*rk_offs[i][1]); found = true; } break; } j++; } if (found) { break; } } } if (piece == bishop || ((piece == queen || piece == king) && !found)){ for (i=0;i<4;i++){ j = 1; found = false; while (ply->row_to+(j*bp_offs[i][0]) >= 0 && ply->row_to+(j*bp_offs[i][0]) <= 7 && ply->column_to+(j*bp_offs[i][1]) >= 0 && ply->column_to+(j*bp_offs[i][1]) <= 7){ if (board[locn[ply->row_to+(j*bp_offs[i][0])][ply->column_to+(j*bp_offs[i][1])]] != no_piece) { if (board[locn[ply->row_to+(j*bp_offs[i][0])][ply->column_to+(j*bp_offs[i][1])]] == piece && color[locn[ply->row_to+(j*bp_offs[i][0])][ply->column_to+(j*bp_offs[i][1])]] == ply->player && (ply->row_from == 0xFF || ply->row_from == ply->row_to+(j*bp_offs[i][0])) && (ply->column_from == 0xFF || ply->column_from == ply->column_to+(j*bp_offs[i][1]))) { ply->row_from = ply->row_to+(j*bp_offs[i][0]); ply->column_from = ply->column_to+(j*bp_offs[i][1]); found = true; } break; } j++; } if (found) { break; } } } } /* leave a very complete log of the parsing of the game while it gets stable */ for (i=0;i<8;i++){ for (j=0;j<8;j++) { rb->fdprintf(loghandler,"%c",pgn_from_piece(board[locn[7-i][j]],color[locn[7-i][j]])); } rb->fdprintf(loghandler,"\n"); } /* check bounds of row and columns should be 0-7 bad .pgn returns 0xFF */ if ((ply->row_to | ply->column_to | ply->row_from | ply->column_from) < 8) { /* update the board */ board[locn[ply->row_to][ply->column_to]] = board[locn[ply->row_from][ply->column_from]]; color[locn[ply->row_to][ply->column_to]] = color[locn[ply->row_from][ply->column_from]]; board[locn[ply->row_from][ply->column_from]] = no_piece; color[locn[ply->row_from][ply->column_from]] = neutral; } else success = false; /*ERROR*/ return success; } static void coords_to_pgn(struct pgn_ply_node* ply){ int pos = 0,i,j; unsigned short moving_piece = board[locn[ply->row_from][ply->column_from]]; char unambiguous_position; bool found = false; char alg_move[5]; char move_buffer[10]; short move; if (moving_piece == king){ /* check castling */ if (ply->column_from == 4 && ply->column_to == 6){ /* castling kingside */ rb->strcpy(ply->pgn_text,"O-O"); ply->castle = true; } else if (ply->column_from == 4 && ply->column_to == 2){ /* castling queenside */ rb->strcpy(ply->pgn_text,"O-O-O"); } else { if (board[locn[ply->row_to][ply->column_to]] != no_piece){ rb->snprintf(ply->pgn_text,10,"Kx%c%c",'a'+ply->column_to, '1'+ply->row_to); } else { rb->snprintf(ply->pgn_text,10,"K%c%c",'a'+ply->column_to, '1'+ply->row_to); } } } else if (moving_piece == pawn){ if (ply->column_from != ply->column_to){ /* check enpassant */ if (board[locn[ply->row_to][ply->column_to]] == no_piece){ ply->enpassant = true; } /* check promotions when taking a piece */ if (ply->row_to == 0 || ply->row_to == 7) { ply->promotion = true; ply->promotion_piece = queen; rb->snprintf(ply->pgn_text,10,"%cx%c%c=D", 'a'+ply->column_from, 'a'+ply->column_to,'1'+ply->row_to); } else { rb->snprintf(ply->pgn_text,10,"%cx%c%c", 'a'+ply->column_from, 'a'+ply->column_to,'1'+ply->row_to); } } else { /* check promotions when not taking a piece */ if (ply->row_to == 0 || ply->row_to == 7) { ply->promotion = true; ply->promotion_piece = queen; rb->snprintf(ply->pgn_text,10,"%c%c=D", 'a'+ply->column_to, '1'+ply->row_to); } else { rb->snprintf(ply->pgn_text,10,"%c%c", 'a'+ply->column_to, '1'+ply->row_to); } } } else { /* verify ambiguous moves for the different kinds of pieces */ unambiguous_position = '\0'; if (moving_piece == knight){ for (i=0;i<8;i++){ if (ply->row_to + kn_offs[i][0] >= 0 && ply->row_to + kn_offs[i][0] <= 7 && ply->column_to + kn_offs[i][1] >= 0 && ply->column_to + kn_offs[i][1] <= 7 && board[locn[ply->row_to + kn_offs[i][0]][ply->column_to + kn_offs[i][1]]] == knight && color[locn[ply->row_to + kn_offs[i][0]][ply->column_to + kn_offs[i][1]]] == ply->player && (ply->row_to + kn_offs[i][0] != ply->row_from || ply->column_to + kn_offs[i][1] != ply->column_from)){ if (ply->row_to + kn_offs[i][0] != ply->row_from){ unambiguous_position = '1' + ply->row_from; } else { unambiguous_position = 'a' + ply->column_from; } break; } } } if (moving_piece == rook || moving_piece == queen){ found = false; for (i=0;i<4;i++){ j=1; while (ply->row_to+(j*rk_offs[i][0]) >= 0 && ply->row_to+(j*rk_offs[i][0]) <= 7 && ply->column_to+(j*rk_offs[i][1]) >= 0 && ply->column_to+(j*rk_offs[i][1]) <= 7){ if (board[locn[ply->row_to+(j*rk_offs[i][0])][ply->column_to+(j*rk_offs[i][1])]] != no_piece) { if (board[locn[ply->row_to+(j*rk_offs[i][0])][ply->column_to+(j*rk_offs[i][1])]] == moving_piece && color[locn[ply->row_to+(j*rk_offs[i][0])][ply->column_to+(j*rk_offs[i][1])]] == ply->player && (ply->row_to+(j*rk_offs[i][0]) != ply->row_from || ply->column_to+(j*rk_offs[i][1]) != ply->column_from)) { if (ply->row_to+(j*rk_offs[i][0]) != ply->row_from){ unambiguous_position = '1' + ply->row_from; } else { unambiguous_position = 'a' + ply->column_from; } found = true; } break; } j++; } if (found) { break; } } } if (moving_piece == bishop || (moving_piece == queen && !found)){ for (i=0;i<4;i++){ j=1; while (ply->row_to+(j*bp_offs[i][0]) >= 0 && ply->row_to+(j*bp_offs[i][0]) <= 7 && ply->column_to+(j*bp_offs[i][1]) >= 0 && ply->column_to+(j*bp_offs[i][1]) <= 7){ if (board[locn[ply->row_to+(j*bp_offs[i][0])][ply->column_to+(j*bp_offs[i][1])]] != no_piece) { if (board[locn[ply->row_to+(j*bp_offs[i][0])][ply->column_to+(j*bp_offs[i][1])]] == moving_piece && color[locn[ply->row_to+(j*bp_offs[i][0])][ply->column_to+(j*bp_offs[i][1])]] == ply->player && (ply->row_to+(j*bp_offs[i][0]) != ply->row_from || ply->column_to+(j*bp_offs[i][1]) != ply->column_from)) { if (ply->row_to+(j*bp_offs[i][0]) != ply->row_from){ unambiguous_position = '1' + ply->row_from; } else { unambiguous_position = 'a' + ply->column_from; } found = true; } break; } j++; } if (found) { break; } } } /* generate the first portion of the PGN text * always as white so all uppercase, black/white considerations * will be useful for FEN notation but not in this case */ if (unambiguous_position == '\0'){ if (board[locn[ply->row_to][ply->column_to]] != no_piece){ rb->snprintf(ply->pgn_text,10,"%cx%c%c", pgn_from_piece(moving_piece,white) , 'a'+ply->column_to, '1'+ply->row_to); } else { rb->snprintf(ply->pgn_text,10,"%c%c%c", pgn_from_piece(moving_piece,white) , 'a'+ply->column_to, '1'+ply->row_to); } } else { if (board[locn[ply->row_to][ply->column_to]] != no_piece){ rb->snprintf(ply->pgn_text,10,"%c%cx%c%c", pgn_from_piece(moving_piece,white) , unambiguous_position, 'a'+ply->column_to, '1'+ply->row_to); } else { rb->snprintf(ply->pgn_text,10,"%c%c%c%c", pgn_from_piece(moving_piece,white) , unambiguous_position, 'a'+ply->column_to, '1'+ply->row_to); } } } /* update the board */ rb->snprintf(alg_move,5,"%c%c%c%c",'a' + ply->column_from, '1' + ply->row_from, 'a' + ply->column_to, '1' + ply->row_to); /* The function returns false if the move is invalid, but since we're * replaying the game, that should not be posible */ VerifyMove (ply->player, alg_move , 0 , &move, move_buffer ); /* add check/mate indicators */ for (pos=0;ply->pgn_text[pos] != '\0';pos++); if (ply->checkmate) { ply->pgn_text[pos] = '#'; pos++; ply->pgn_text[pos] = '\0'; pos++; } else if (move_buffer[4] == '+'){ ply->pgn_text[pos] = '+'; pos++; ply->pgn_text[pos] = '\0'; pos++; } } static struct pgn_game_node *get_game_info(int selected_item, void *data){ int i; struct pgn_game_node *temp_node = (struct pgn_game_node *)data; for (i=0;inext_node; } return temp_node; } static const char* get_game_text(int selected_item, void *data, char *buffer, size_t buffer_len){ struct pgn_game_node *temp_node = get_game_info(selected_item, data); if (temp_node == NULL){ return NULL; } rb->snprintf(buffer, buffer_len,"%s vs. %s (%s)", temp_node->white_player, temp_node->black_player, temp_node->game_date); return buffer; } static void say_player(const char *name, bool enqueue) { if (!rb->strcasecmp(name, "player")) rb->talk_id(VOICE_PLAYER, enqueue); else if (!rb->strcasecmp(name, "gnuchess")) rb->talk_id(VOICE_GNUCHESS, enqueue); else rb->talk_spell(name, enqueue); } static int speak_game_selection(int selected_item, void *data){ struct pgn_game_node *temp_node = get_game_info(selected_item, data); if (temp_node != NULL){ say_player(temp_node->white_player, false); say_player(temp_node->black_player, true); if (temp_node->game_date[0] != '?') { char buf[12]; rb->strcpy(buf, temp_node->game_date); buf[4] = 0; buf[7] = 0; rb->talk_id(LANG_MONTH_JANUARY + rb->atoi(&(buf[5])) - 1, true); rb->talk_number(rb->atoi(&(buf[8])), true); rb->talk_number(rb->atoi(buf), true); } } return 0; } static void write_pgn_token(int fhandler, char *buffer, size_t *line_length){ if (*line_length + rb->strlen(buffer) + 1 > 80){ rb->fdprintf(fhandler,"\n"); *line_length = 0; } rb->fdprintf(fhandler,"%s ",buffer); *line_length += (rb->strlen(buffer) + 1); } /* ---- api functions ---- */ struct pgn_game_node* pgn_list_games(const char* filename){ int fhandler; char line_buffer[128]; struct pgn_game_node size_node, *first_game = NULL; struct pgn_game_node *curr_node = NULL, *temp_node; unsigned short game_count = 1; int line_count = 0; bool header_start = true, game_start = false; if ( (fhandler = rb->open(filename, O_RDONLY)) < 0 ) return NULL; if (bufptr == NULL){ pl_malloc_init(); } while (rb->read_line(fhandler, line_buffer, sizeof line_buffer) > 0){ line_count++; /* looking for a game header */ if (header_start) { /* a new game header is found */ if (line_buffer[0] == '['){ temp_node = (struct pgn_game_node *)pl_malloc(sizeof size_node); if (!temp_node) return NULL; temp_node->next_node = NULL; if (curr_node == NULL) { first_game = curr_node = temp_node; } else { curr_node->next_node = temp_node; curr_node = temp_node; } process_tag(curr_node, line_buffer); curr_node->game_number = game_count; curr_node->pgn_line = 0; game_count++; header_start = false; game_start = true; } } else { if (line_buffer[0] == '['){ process_tag(curr_node, line_buffer); } else if (line_buffer[0] == '\r' || line_buffer[0] == '\n' || line_buffer[0] == '\0'){ if (game_start) { game_start = false; } else { header_start = true; } } else { if (curr_node->pgn_line == 0) { curr_node->pgn_line = line_count; } } } } rb->close(fhandler); return first_game; } struct pgn_game_node* pgn_show_game_list(struct pgn_game_node* first_game){ int curr_selection = 0; int button; struct gui_synclist games_list; int i; struct pgn_game_node *temp_node = first_game; for (i=0;temp_node != NULL;i++){ temp_node = temp_node->next_node; } rb->gui_synclist_init(&games_list, &get_game_text, first_game, false, 1, NULL); rb->gui_synclist_set_title(&games_list, rb->str(LANG_CHESSBOX_GAMES), NOICON); rb->gui_synclist_set_icon_callback(&games_list, NULL); if (rb->global_settings->talk_menu) rb->gui_synclist_set_voice_callback(&games_list, speak_game_selection); rb->gui_synclist_set_nb_items(&games_list, i); rb->gui_synclist_select_item(&games_list, 0); rb->gui_synclist_draw(&games_list); rb->gui_synclist_speak_item(&games_list); while (true) { curr_selection = rb->gui_synclist_get_sel_pos(&games_list); button = rb->get_action(CONTEXT_LIST,TIMEOUT_BLOCK); if (rb->gui_synclist_do_button(&games_list,&button,LIST_WRAP_OFF)){ continue; } switch (button) { case ACTION_STD_OK: return get_game_info(curr_selection, first_game); break; case ACTION_STD_CANCEL: return NULL; break; } } } void pgn_parse_game(const char* filename, struct pgn_game_node* selected_game){ struct pgn_ply_node size_ply, *first_ply = NULL; struct pgn_ply_node *temp_ply = NULL, *curr_node = NULL; bool success = true; int fhandler, i; char line_buffer[128]; char token_buffer[9]; unsigned short pos; unsigned short curr_player = white; fhandler = rb->open(filename, O_RDONLY); /* seek the line where the pgn of the selected game starts */ for (i=1;ipgn_line;i++){ rb->read_line(fhandler, line_buffer, sizeof line_buffer); } loghandler = rb->open(LOG_FILE, O_WRONLY | O_CREAT, 0666); GNUChess_Initialize(); while (rb->read_line(fhandler, line_buffer, sizeof line_buffer) > 0){ if (line_buffer[0] == '\r' || line_buffer[0] == '\n' || line_buffer[0] == '\0'){ break; } pos = 0; while (pos < rb->strlen(line_buffer)){ pos = get_next_token(line_buffer, pos, token_buffer); if ((token_buffer[0] >= 'A' && token_buffer[0] <= 'Z') || (token_buffer[0] >= 'a' && token_buffer[0] <= 'z') || (token_buffer[0] == '0' && token_buffer[2] != '1')){ temp_ply = (struct pgn_ply_node *)pl_malloc(sizeof size_ply); /* Null pointer can be returned from pl_malloc check for this */ if (temp_ply) { temp_ply->player = curr_player; curr_player = (curr_player==white)?black:white; rb->strcpy(temp_ply->pgn_text, token_buffer); success = pgn_to_coords(temp_ply); temp_ply->prev_node = NULL; temp_ply->next_node = NULL; if (first_ply == NULL && success) { first_ply = curr_node = temp_ply; } else if (success){ curr_node->next_node = temp_ply; temp_ply->prev_node = curr_node; curr_node = temp_ply; } else{ /* bad .pgn break loop and notify user */ first_ply = NULL; break; } rb->fdprintf(loghandler, "player: %u; pgn: %s; from: %u,%u; to: %u,%u; taken: %u.\n", temp_ply->player, temp_ply->pgn_text, temp_ply->row_from, temp_ply->column_from, temp_ply->row_to, temp_ply->column_to, temp_ply->taken_piece); } else first_ply = NULL; } } } rb->close(loghandler); /* additional dummy ply to represent end of file without *loosing the previous node's pointer */ if (first_ply != NULL){ temp_ply = (struct pgn_ply_node *)pl_malloc(sizeof size_ply); if (temp_ply) { temp_ply->player = neutral; temp_ply->prev_node = curr_node; curr_node->next_node = temp_ply; } } selected_game->first_ply = first_ply; rb->close(fhandler); } struct pgn_game_node* pgn_init_game(void){ struct pgn_game_node game_size, *game; struct pgn_ply_node ply_size, *ply; struct tm *current_time; if (bufptr == NULL){ pl_malloc_init(); } /* create an "end of game" dummy ply and assign defaults */ ply = (struct pgn_ply_node *)pl_malloc(sizeof ply_size); if (!ply) return NULL; ply->player = neutral; ply->pgn_text[0] = '\0'; ply->prev_node = NULL; ply->next_node = NULL; /* create the game and assign defaults */ game = (struct pgn_game_node *)pl_malloc(sizeof game_size); if (!game) return NULL; game->game_number = 0; rb->strcpy(game->white_player,"Player"); rb->strcpy(game->black_player,"GnuChess"); current_time = rb->get_time(); if (current_time->tm_year < 100){ rb->snprintf(game->game_date,11,"????.??.??"); } else { rb->snprintf(game->game_date,11,"%4u.%2u.%2u",current_time->tm_year + 1900, current_time->tm_mon + 1, current_time->tm_mday); } rb->strcpy(game->result,"*"); game->pgn_line = 0; game->first_ply = ply; game->next_node = NULL; return game; } void pgn_append_ply(struct pgn_game_node* game, unsigned short ply_player, char *move_buffer, bool is_mate){ struct pgn_ply_node ply_size, *ply, *temp; ply = (struct pgn_ply_node *)pl_malloc(sizeof ply_size); if (!ply) return; ply->player = ply_player; ply->column_from = move_buffer[0] - 'a'; ply->row_from = move_buffer[1] - '1'; ply->column_to = move_buffer[2] - 'a'; ply->row_to = move_buffer[3] - '1'; ply->castle = false; ply->promotion = false; ply->enpassant = false; ply->promotion_piece = no_piece; ply->taken_piece = no_piece; ply->draw = false; ply->checkmate = is_mate; /* move the pointer to the "end of game" marker ply */ for (temp=game->first_ply;temp->next_node!=NULL;temp=temp->next_node); /* arrange the pointers to insert the ply before the marker */ ply->next_node = temp; ply->prev_node = temp->prev_node; if (temp->prev_node == NULL){ game->first_ply = ply; } else { temp->prev_node->next_node = ply; } temp->prev_node = ply; } void pgn_set_result(struct pgn_game_node* game, bool is_mate){ struct pgn_ply_node *ply; for(ply=game->first_ply;ply->next_node != NULL;ply=ply->next_node); if (is_mate){ ply->prev_node->checkmate = true; } else { ply->prev_node->draw = true; } } void pgn_store_game(struct pgn_game_node* game){ int fhandler; struct pgn_ply_node *ply; unsigned ply_count; size_t line_length=0; char buffer[10]; GNUChess_Initialize(); ply_count=0; ply=game->first_ply; while (ply->next_node!=NULL){ coords_to_pgn(ply); if (ply->checkmate){ if (ply->player == white){ rb->strcpy(game->result,"1-0"); } else { rb->strcpy(game->result,"0-1"); } } if (ply->draw){ rb->strcpy(game->result,"1/2-1/2"); } ply=ply->next_node; ply_count++; } fhandler = rb->open(pgn_file, O_WRONLY|O_CREAT|O_APPEND, 0666); /* the first 7 tags are mandatory according to the PGN specification so we * have to include them even if the values don't make much sense */ rb->fdprintf(fhandler,"[Event \"Casual Game\"]\n"); rb->fdprintf(fhandler,"[Site \"?\"]\n"); rb->fdprintf(fhandler,"[Date \"%s\"]\n",game->game_date); rb->fdprintf(fhandler,"[Round \"?\"]\n"); rb->fdprintf(fhandler,"[White \"%s\"]\n",game->white_player); rb->fdprintf(fhandler,"[Black \"%s\"]\n",game->black_player); rb->fdprintf(fhandler,"[Result \"%s\"]\n",game->result); rb->fdprintf(fhandler,"[PlyCount \"%u\"]\n",ply_count); /* leave a blank line between the tag section and the game section */ rb->fdprintf(fhandler,"\n"); /* write the plies in several lines of up to 80 characters */ for (ply_count=0, ply=game->first_ply;ply->next_node!=NULL; ply=ply->next_node,ply_count++){ /* write the move number */ if (ply->player == white){ rb->snprintf(buffer,10,"%u.",(ply_count/2)+1); write_pgn_token(fhandler, buffer, &line_length); } /* write the actual move */ write_pgn_token(fhandler,ply->pgn_text,&line_length); /* write the result of the game at the end */ if (ply->checkmate){ if (ply->player == white){ write_pgn_token(fhandler,"1-0",&line_length); } else { write_pgn_token(fhandler,"0-1",&line_length); } break; } else if (ply->draw){ write_pgn_token(fhandler,"1/2-1/2",&line_length); break; } else if (ply->next_node->player == neutral) { /* unknown end of the game */ write_pgn_token(fhandler,"*",&line_length); break; } } /* leave a blank line between the tag section and the game section */ rb->fdprintf(fhandler,"\n\n"); rb->close(fhandler); }