/* Text-based version of a Blockade-style game. For more information, see "Making Arcade Games in C". */ #include #include #include #include #include #include #define COLS 40 #define ROWS 24 typedef unsigned char byte; typedef signed char sbyte; typedef unsigned short word; // pointer to screen memory // TODO: use OS.savmsc static byte** SAVMSC = (byte**) 0x58; byte getchar(byte x, byte y) { return (*SAVMSC)[x+y*COLS]; // lookup value @ cursor address } void delay(byte count) { while (count--) { word i; for (i=0; i<400; i++) ; } } ////////// GAME DATA typedef struct { byte x; byte y; byte dir; word score; char head_attr; char tail_attr; int collided:1; int human:1; } Player; Player players[2]; byte credits = 0; byte frames_per_move; byte gameover; #define START_SPEED 12 #define MAX_SPEED 5 #define MAX_SCORE 7 /////////// const char BOX_CHARS[8] = { '+', '+', '+', '+', '-', '-', '!', '!'}; void draw_box(byte x, byte y, byte x2, byte y2, const char* chars) { byte x1 = x; cputcxy(x, y, chars[2]); cputcxy(x2, y, chars[3]); cputcxy(x, y2, chars[0]); cputcxy(x2, y2, chars[1]); while (++x < x2) { cputcxy(x, y, chars[5]); cputcxy(x, y2, chars[4]); } while (++y < y2) { cputcxy(x1, y, chars[6]); cputcxy(x2, y, chars[7]); } } void draw_playfield() { draw_box(0,1,COLS-1,ROWS-1,BOX_CHARS); cputsxy( 0, 0, "Plyr1:"); cputsxy(10, 0, "Plyr2:"); cputcxy( 7, 0, players[0].score+'0'); cputcxy(17, 0, players[1].score+'0'); } typedef enum { D_RIGHT, D_DOWN, D_LEFT, D_UP } dir_t; const sbyte DIR_X[4] = { 1, 0, -1, 0 }; const sbyte DIR_Y[4] = { 0, 1, 0, -1 }; void init_game() { memset(players, 0, sizeof(players)); players[0].head_attr = '1'; players[1].head_attr = '2'; players[0].tail_attr = '#'; players[1].tail_attr = '*'; frames_per_move = START_SPEED; } void reset_players() { players[0].x = players[0].y = 5; players[0].dir = D_RIGHT; players[1].x = COLS-6; players[1].y = ROWS-6; players[1].dir = D_LEFT; players[0].collided = players[1].collided = 0; } void draw_player(Player* p) { cputcxy(p->x, p->y, p->head_attr); } void move_player(Player* p) { cputcxy(p->x, p->y, p->tail_attr); p->x += DIR_X[p->dir]; p->y += DIR_Y[p->dir]; if ((getchar(p->x, p->y) & 0x7f) != 0) p->collided = 1; draw_player(p); } void human_control(Player* p) { byte dir = 0xff; char joy; if (!p->human) return; joy = joy_read(0); if (JOY_UP(joy)) dir = D_UP; if (JOY_LEFT(joy)) dir = D_LEFT; if (JOY_RIGHT(joy)) dir = D_RIGHT; if (JOY_DOWN(joy)) dir = D_DOWN; // don't let the player reverse direction if (dir < 0x80 && dir != (p->dir ^ 2)) { p->dir = dir; } } byte ai_try_dir(Player* p, dir_t dir, byte shift) { byte x,y; dir &= 3; x = p->x + (DIR_X[dir] << shift); y = p->y + (DIR_Y[dir] << shift); if (x < COLS && y < ROWS && (getchar(x, y) & 0x7f) == 0) { p->dir = dir; return 1; } else { return 0; } } void ai_control(Player* p) { dir_t dir; if (p->human) return; dir = p->dir; if (!ai_try_dir(p, dir, 0)) { ai_try_dir(p, dir+1, 0); ai_try_dir(p, dir-1, 0); } else { ai_try_dir(p, dir-1, 0) && ai_try_dir(p, dir-1, 1+(rand() & 3)); ai_try_dir(p, dir+1, 0) && ai_try_dir(p, dir+1, 1+(rand() & 3)); ai_try_dir(p, dir, rand() & 3); } } void flash_colliders() { byte i; // flash players that collided for (i=0; i<56; i++) { delay(2); revers(players[0].collided && (i&1)); draw_player(&players[0]); revers(players[1].collided && (i&1)); draw_player(&players[1]); } //revers(0); } void make_move() { byte i; for (i=0; i MAX_SPEED) frames_per_move--; // game over? if (players[0].score != players[1].score) { if (players[0].score >= MAX_SCORE) declare_winner(0); else if (players[1].score >= MAX_SCORE) declare_winner(1); } } void play_game() { gameover = 0; init_game(); players[0].human = 1; while (!gameover) { play_round(); } } void main() { joy_install (joy_static_stddrv); play_game(); }