/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (c) 2006 Alexander Levin * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ /* GUI part of reversi. Code is inspired by sudoku code by Dave Chapman which is copyright (c) 2005 Dave Chapman and is released under the GNU General Public License. User instructions ----------------- Use the arrow keys to move cursor, and press TOGGLE to place a stone. At any time during the game, press MENU to bring up the game menu with further options: - Save - Reload - Clear */ #include "plugin.h" #ifdef HAVE_LCD_BITMAP #include "reversi-game.h" #include "reversi-strategy.h" #include "reversi-gui.h" #include "../lib/oldmenuapi.h" PLUGIN_HEADER /* The global api struct pointer. While not strictly necessary, it's nice not to have to pass the api pointer in all function calls in the plugin */ static struct plugin_api* rb; /* Thickness of the grid lines */ #define LINE_THCK 1 #if LCD_HEIGHT <= LCD_WIDTH /* Horizontal layout */ #if (LCD_HEIGHT==64) && (LCD_WIDTH==112) /* Archos Recorders and Ondios - 112x64, 8 cells @ 8x6 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 8 #define CELL_HEIGHT 6 #define SMALL_BOARD #elif (LCD_HEIGHT==80) && (LCD_WIDTH==132) /* Sansa C200 - 132x80, 8 cells @ 9x9 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 8 #define CELL_HEIGHT 8 #define SMALL_BOARD #elif (LCD_HEIGHT==110) && (LCD_WIDTH==138) /* iPod Mini - 138x110, 8 cells @ 10x10 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 10 #define CELL_HEIGHT 10 #elif (LCD_HEIGHT==128) && (LCD_WIDTH==128) /* iriver H10 5-6GB - 128x128, 8 cells @ 10x10 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 10 #define CELL_HEIGHT 10 #elif ((LCD_HEIGHT==128) && (LCD_WIDTH==160)) || \ ((LCD_HEIGHT==132) && (LCD_WIDTH==176)) /* iAudio X5, Iriver H1x0, iPod G3, G4 - 160x128; */ /* iPod Nano - 176x132, 8 cells @ 12x12 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 12 #define CELL_HEIGHT 12 #elif ((LCD_HEIGHT==176) && (LCD_WIDTH==220)) || \ ((LCD_HEIGHT==220) && (LCD_WIDTH==176)) /* Iriver h300, iPod Color/Photo - 220x176, 8 cells @ 16x16 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 16 #define CELL_HEIGHT 16 #elif (LCD_HEIGHT>=240) && (LCD_WIDTH>=320) /* iPod Video - 320x240, 8 cells @ 24x24 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 24 #define CELL_HEIGHT 24 #else #error REVERSI: Unsupported LCD size #endif #else /* Vertical layout */ #define VERTICAL_LAYOUT #if (LCD_HEIGHT>=320) && (LCD_WIDTH>=240) /* Gigabeat - 240x320, 8 cells @ 24x24 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 24 #define CELL_HEIGHT 24 #elif (LCD_HEIGHT>=220) && (LCD_WIDTH>=176) /* e200 - 176x220, 8 cells @ 12x12 with 9 border lines */ /* Internal dimensions of a cell */ #define CELL_WIDTH 18 #define CELL_HEIGHT 18 #else #error REVERSI: Unsupported LCD size #endif #endif /* Layout */ /* Where the board begins */ #define XOFS 4 #define YOFS 4 /* Total width and height of the board without enclosing box */ #define BOARD_WIDTH (CELL_WIDTH*BOARD_SIZE + LINE_THCK*(BOARD_SIZE+1)) #define BOARD_HEIGHT (CELL_HEIGHT*BOARD_SIZE + LINE_THCK*(BOARD_SIZE+1)) /* Thickness of the white cells' lines */ #if (CELL_WIDTH >= 15) && (CELL_HEIGHT >= 15) #define CELL_LINE_THICKNESS 2 #else #define CELL_LINE_THICKNESS 1 #endif /* Margins within a cell */ #if (CELL_WIDTH >= 10) && (CELL_HEIGHT >= 10) #define STONE_MARGIN 2 #else #define STONE_MARGIN 1 #endif #define CURSOR_MARGIN (STONE_MARGIN + CELL_LINE_THICKNESS) /* Upper left corner of a cell */ #define CELL_X(c) (XOFS + (c)*CELL_WIDTH + ((c)+1)*LINE_THCK) #define CELL_Y(r) (YOFS + (r)*CELL_HEIGHT + ((r)+1)*LINE_THCK) #ifdef VERTICAL_LAYOUT #define LEGEND_X(lc) (CELL_X(lc)) #define LEGEND_Y(lr) (CELL_Y(BOARD_SIZE+(lr)) + CELL_HEIGHT/2) #else #define LEGEND_X(lc) (CELL_X(BOARD_SIZE+(lc)) + CELL_WIDTH/2) #define LEGEND_Y(lr) (CELL_Y(lr)) #endif /* Board state */ static reversi_board_t game; /* --- Setting values --- */ /* Playing strategies used by white and black players */ const game_strategy_t *white_strategy; const game_strategy_t *black_strategy; /* Cursor position */ static int cur_row, cur_col; /* Color for the next move (BLACK/WHITE) */ static int cur_player; /* Active cursor wrapping mode */ static cursor_wrap_mode_t cursor_wrap_mode; static bool quit_plugin; static bool game_finished; /* Initialises the state of the game (starts a new game) */ static void reversi_gui_init(void) { reversi_init_game(&game); game_finished = false; cur_player = BLACK; /* Place the cursor so that WHITE can make a move */ cur_row = 2; cur_col = 3; } /* Draws the cursor in the specified cell. Cursor is drawn in the complement * mode, i.e. drawing it twice will result in no changes on the screen. */ static void reversi_gui_display_cursor(int row, int col) { int old_mode, x, y; old_mode = rb->lcd_get_drawmode(); x = CELL_X(col); y = CELL_Y(row); rb->lcd_set_drawmode(DRMODE_COMPLEMENT); rb->lcd_drawline(x+CURSOR_MARGIN, y+CURSOR_MARGIN, x+CELL_WIDTH-CURSOR_MARGIN-1, y+CELL_HEIGHT-CURSOR_MARGIN-1); rb->lcd_drawline(x+CURSOR_MARGIN, y+CELL_HEIGHT-CURSOR_MARGIN-1, x+CELL_WIDTH-CURSOR_MARGIN-1, y+CURSOR_MARGIN); /* Draw the shadows */ rb->lcd_hline(x, x+CELL_WIDTH-1, YOFS-3); rb->lcd_hline(x, x+CELL_WIDTH-1, YOFS+BOARD_HEIGHT+2); rb->lcd_vline(XOFS-3, y, y+CELL_HEIGHT-1); rb->lcd_vline(XOFS+BOARD_WIDTH+2, y, y+CELL_HEIGHT-1); rb->lcd_set_drawmode(old_mode); rb->lcd_update(); } /* Draws the cell of the specified color (WHITE/BLACK) assuming that * the upper left corner of the cell is at (x, y) */ static void reversi_gui_draw_cell(int x, int y, int color) { int i; if (color == WHITE) { for (i = 0; i < CELL_LINE_THICKNESS; i++) { rb->lcd_drawrect(x+STONE_MARGIN+i, y+STONE_MARGIN+i, CELL_WIDTH-2*(STONE_MARGIN+i), CELL_HEIGHT-2*(STONE_MARGIN+i)); } } else if (color == BLACK) { rb->lcd_fillrect(x+STONE_MARGIN, y+STONE_MARGIN, CELL_WIDTH-2*STONE_MARGIN, CELL_HEIGHT-2*STONE_MARGIN); } else { /* Cell is free -> nothing to do */ } } /* Draws the complete screen */ static void reversi_gui_display_board(void) { int x, y, r, c, x_width, x_height; char buf[8]; /* Clear the display buffer */ rb->lcd_clear_display(); rb->lcd_set_drawmode(DRMODE_FG); /* Thicker board box */ rb->lcd_drawrect(XOFS-1, YOFS-1, BOARD_WIDTH+2, BOARD_HEIGHT+2); /* Draw the gridlines */ for (r=0, x=XOFS, y=YOFS; r<=BOARD_SIZE; r++, x+=CELL_WIDTH+LINE_THCK, y+=CELL_HEIGHT+LINE_THCK) { rb->lcd_hline(XOFS, XOFS+BOARD_WIDTH-1, y); rb->lcd_vline(x, YOFS, YOFS+BOARD_HEIGHT-1); } /* Draw the stones. This is not the most efficient way but more readable */ for (r=0; rlcd_getstringsize("x", &x_width, &x_height); x = LEGEND_X(0); y = LEGEND_Y(0); reversi_gui_draw_cell(x, y, BLACK); rb->snprintf(buf, sizeof(buf), "%d", c); y += (CELL_HEIGHT-x_height) / 2; rb->lcd_putsxy(x + CELL_WIDTH + CELL_WIDTH/2, y, buf); y = LEGEND_Y(1); reversi_gui_draw_cell(x, y, WHITE); rb->snprintf(buf, sizeof(buf), "%d", r); y += (CELL_HEIGHT-x_height) / 2; rb->lcd_putsxy(x + CELL_WIDTH + CELL_WIDTH/2, y, buf); /* Draw the box around the current player */ r = (cur_player == BLACK ? 0 : 1); y = LEGEND_Y(r); rb->lcd_drawrect(x-1, y-1, CELL_WIDTH+2, CELL_HEIGHT+2); /* Update the screen */ rb->lcd_update(); } /* * Menu related stuff */ /* Menu entries and the corresponding values for cursor wrap mode */ #define MENU_TEXT_WRAP_MODE "Cursor wrap mode" static const struct opt_items cursor_wrap_mode_settings[] = { { "Flat board", -1 }, { "Sphere", -1 }, { "Torus", -1 }, }; static const cursor_wrap_mode_t cursor_wrap_mode_values[3] = { WRAP_FLAT, WRAP_SPHERE, WRAP_TORUS }; /* Menu entries and the corresponding values for available strategies */ #define MENU_TEXT_STRAT_WHITE "Strategy for white" #define MENU_TEXT_STRAT_BLACK "Strategy for black" static struct opt_items strategy_settings[] = { { "Human", -1 }, { "Naive robot", -1 }, { "Simple robot", -1 }, //{ "AB robot", -1 }, }; static const game_strategy_t * const strategy_values[] = { &strategy_human, &strategy_naive, &strategy_simple, /*&strategy_ab*/ }; /* Sets the strategy for the specified player. 'player' is the pointer to the player to set the strategy for (actually, either white_strategy or black_strategy). propmpt is the text to show as the prompt in the menu */ static bool reversi_gui_choose_strategy( const game_strategy_t **player, const char *prompt) { int index = 0, i; int num_items = sizeof(strategy_settings)/sizeof(strategy_settings[0]); bool result; for (i = 0; i < num_items; i++) { if ((*player) == strategy_values[i]) { index = i; break; } } result = rb->set_option(prompt, &index, INT, strategy_settings, num_items, NULL); (*player) = strategy_values[index]; if((*player)->init_func) (*player)->init_func(&game); return result; } /* Returns true iff USB ws connected while in the menu */ static bool reversi_gui_menu(void) { int m, index, num_items, i; int result; static const struct menu_item items[] = { { "Start new game", NULL }, { "Pass the move", NULL }, { MENU_TEXT_STRAT_BLACK, NULL }, { MENU_TEXT_STRAT_WHITE, NULL }, { MENU_TEXT_WRAP_MODE, NULL }, { "Quit", NULL }, }; m = menu_init(rb, items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_show(m); switch (result) { case 0: /* Start a new game */ reversi_gui_init(); break; case 1: /* Pass the move to the partner */ cur_player = reversi_flipped_color(cur_player); break; case 2: /* Strategy for black */ reversi_gui_choose_strategy(&black_strategy, MENU_TEXT_STRAT_BLACK); break; case 3: /* Strategy for white */ reversi_gui_choose_strategy(&white_strategy, MENU_TEXT_STRAT_WHITE); break; case 4: /* Cursor wrap mode */ num_items = sizeof(cursor_wrap_mode_values)/sizeof(cursor_wrap_mode_values[0]); index = 0; for (i = 0; i < num_items; i++) { if (cursor_wrap_mode == cursor_wrap_mode_values[i]) { index = i; break; } } rb->set_option(MENU_TEXT_WRAP_MODE, &index, INT, cursor_wrap_mode_settings, 3, NULL); cursor_wrap_mode = cursor_wrap_mode_values[index]; break; case 5: /* Quit */ quit_plugin = true; break; } menu_exit(m); return (result == MENU_ATTACHED_USB); } /* Calculates the new cursor position if the user wants to move it * vertically as specified by delta. Current wrap mode is respected. * The cursor is not actually moved. * * Returns true iff the cursor would be really moved. In any case, the * new cursor position is stored in (new_row, new_col). */ static bool reversi_gui_cursor_pos_vmove(int row_delta, int *new_row, int *new_col) { *new_row = cur_row + row_delta; *new_col = cur_col; if (*new_row < 0) { switch (cursor_wrap_mode) { case WRAP_FLAT: *new_row = cur_row; break; case WRAP_SPHERE: *new_row = BOARD_SIZE - 1; break; case WRAP_TORUS: *new_row = BOARD_SIZE - 1; (*new_col)--; if (*new_col < 0) { *new_col = BOARD_SIZE - 1; } break; } } else if (*new_row >= BOARD_SIZE) { switch (cursor_wrap_mode) { case WRAP_FLAT: *new_row = cur_row; break; case WRAP_SPHERE: *new_row = 0; break; case WRAP_TORUS: *new_row = 0; (*new_col)++; if (*new_col >= BOARD_SIZE) { *new_col = 0; } break; } } return (cur_row != (*new_row)) || (cur_col != (*new_col)); } /* Calculates the new cursor position if the user wants to move it * horisontally as specified by delta. Current wrap mode is respected. * The cursor is not actually moved. * * Returns true iff the cursor would be really moved. In any case, the * new cursor position is stored in (new_row, new_col). */ static bool reversi_gui_cursor_pos_hmove(int col_delta, int *new_row, int *new_col) { *new_row = cur_row; *new_col = cur_col + col_delta; if (*new_col < 0) { switch (cursor_wrap_mode) { case WRAP_FLAT: *new_col = cur_col; break; case WRAP_SPHERE: *new_col = BOARD_SIZE - 1; break; case WRAP_TORUS: *new_col = BOARD_SIZE - 1; (*new_row)--; if (*new_row < 0) { *new_row = BOARD_SIZE - 1; } break; } } else if (*new_col >= BOARD_SIZE) { switch (cursor_wrap_mode) { case WRAP_FLAT: *new_col = cur_col; break; case WRAP_SPHERE: *new_col = 0; break; case WRAP_TORUS: *new_col = 0; (*new_row)++; if (*new_row >= BOARD_SIZE) { *new_row = 0; } break; } } return (cur_row != (*new_row)) || (cur_col != (*new_col)); } /* Actually moves the cursor to the new position and updates the screen */ static void reversi_gui_move_cursor(int new_row, int new_col) { int old_row, old_col; old_row = cur_row; old_col = cur_col; cur_row = new_row; cur_col = new_col; /* Only update the changed cells since there are no global changes */ reversi_gui_display_cursor(old_row, old_col); reversi_gui_display_cursor(new_row, new_col); } /* plugin entry point */ enum plugin_status plugin_start(struct plugin_api *api, void *parameter) { bool exit, draw_screen; int button; int lastbutton = BUTTON_NONE; int row, col; int w_cnt, b_cnt; char msg_buf[30]; /* plugin init */ rb = api; /* end of plugin init */ #if LCD_DEPTH > 1 rb->lcd_set_backdrop(NULL); rb->lcd_set_foreground(LCD_BLACK); rb->lcd_set_background(LCD_WHITE); #endif /* Avoid compiler warnings */ (void)parameter; game.rb = rb; rb->srand(*rb->current_tick); /* Some AIs use rand() */ white_strategy = &strategy_human; black_strategy = &strategy_human; reversi_gui_init(); #if (CONFIG_KEYPAD == IPOD_4G_PAD) || \ (CONFIG_KEYPAD == IPOD_3G_PAD) || \ (CONFIG_KEYPAD == IPOD_1G2G_PAD) cursor_wrap_mode = WRAP_TORUS; #else cursor_wrap_mode = WRAP_FLAT; #endif /* The main game loop */ exit = false; quit_plugin = false; draw_screen = true; while (!exit && !quit_plugin) { const game_strategy_t *cur_strategy = NULL; if (draw_screen) { reversi_gui_display_board(); draw_screen = false; } switch(cur_player) { case BLACK: cur_strategy = black_strategy; break; case WHITE: cur_strategy = white_strategy; break; } if(cur_strategy->is_robot && !game_finished) { move_t m = cur_strategy->move_func(&game, cur_player); reversi_make_move(&game, MOVE_ROW(m), MOVE_COL(m), cur_player); cur_player = reversi_flipped_color(cur_player); draw_screen = true; /* TODO: Add some delay to prevent it from being too fast ? */ /* TODO: Don't duplicate end of game check */ if (reversi_game_is_finished(&game, cur_player)) { reversi_count_occupied_cells(&game, &w_cnt, &b_cnt); rb->snprintf(msg_buf, sizeof(msg_buf), "Game over. %s have won.", (w_cnt>b_cnt?"WHITE":"BLACK")); rb->splash(HZ*2, msg_buf); draw_screen = true; /* Must update screen after splash */ game_finished = true; } continue; } button = rb->button_get(true); switch (button) { #ifdef REVERSI_BUTTON_QUIT /* Exit game */ case REVERSI_BUTTON_QUIT: exit = true; break; #endif #ifdef REVERSI_BUTTON_ALT_MAKE_MOVE case REVERSI_BUTTON_ALT_MAKE_MOVE: #endif case REVERSI_BUTTON_MAKE_MOVE: #ifdef REVERSI_BUTTON_MAKE_MOVE_PRE if ((button == REVERSI_BUTTON_MAKE_MOVE) && (lastbutton != REVERSI_BUTTON_MAKE_MOVE_PRE)) break; #endif if (game_finished) break; if (reversi_make_move(&game, cur_row, cur_col, cur_player) > 0) { /* Move was made. Global changes on the board are possible */ draw_screen = true; /* Redraw the screen next time */ cur_player = reversi_flipped_color(cur_player); if (reversi_game_is_finished(&game, cur_player)) { reversi_count_occupied_cells(&game, &w_cnt, &b_cnt); rb->snprintf(msg_buf, sizeof(msg_buf), "Game over. %s have won.", (w_cnt>b_cnt?"WHITE":"BLACK")); rb->splash(HZ*2, msg_buf); draw_screen = true; /* Must update screen after splash */ game_finished = true; } } else { /* An attempt to make an invalid move */ rb->splash(HZ/2, "Illegal move!"); draw_screen = true; /* Ignore any button presses during the splash */ rb->button_clear_queue(); } break; /* Move cursor left */ #ifdef REVERSI_BUTTON_ALT_LEFT case REVERSI_BUTTON_ALT_LEFT: case (REVERSI_BUTTON_ALT_LEFT | BUTTON_REPEAT): #endif case REVERSI_BUTTON_LEFT: case (REVERSI_BUTTON_LEFT | BUTTON_REPEAT): if (reversi_gui_cursor_pos_hmove(-1, &row, &col)) { reversi_gui_move_cursor(row, col); } break; /* Move cursor right */ #ifdef REVERSI_BUTTON_ALT_RIGHT case REVERSI_BUTTON_ALT_RIGHT: case (REVERSI_BUTTON_ALT_RIGHT | BUTTON_REPEAT): #endif case REVERSI_BUTTON_RIGHT: case (REVERSI_BUTTON_RIGHT | BUTTON_REPEAT): if (reversi_gui_cursor_pos_hmove(1, &row, &col)) { reversi_gui_move_cursor(row, col); } break; /* Move cursor up */ case REVERSI_BUTTON_UP: case (REVERSI_BUTTON_UP | BUTTON_REPEAT): if (reversi_gui_cursor_pos_vmove(-1, &row, &col)) { reversi_gui_move_cursor(row, col); } break; /* Move cursor down */ case REVERSI_BUTTON_DOWN: case (REVERSI_BUTTON_DOWN | BUTTON_REPEAT): if (reversi_gui_cursor_pos_vmove(1, &row, &col)) { reversi_gui_move_cursor(row, col); } break; case REVERSI_BUTTON_MENU: #ifdef REVERSI_BUTTON_MENU_PRE if (lastbutton != REVERSI_BUTTON_MENU_PRE) { break; } #endif if (reversi_gui_menu()) { return PLUGIN_USB_CONNECTED; } draw_screen = true; break; default: if (rb->default_event_handler(button) == SYS_USB_CONNECTED) { /* Quit if USB has been connected */ return PLUGIN_USB_CONNECTED; } break; } if (button != BUTTON_NONE) { lastbutton = button; } } return PLUGIN_OK; } #endif