#include #include #include #include #include #include #define WIN_WIDTH 1000 #define WIN_HEIGHT 600 void alleg_init(); void alleg_init() { al_init(); al_install_keyboard(); al_install_mouse(); al_init_image_addon(); al_init_font_addon(); al_init_ttf_addon(); return; } int main(int argc, char** argv) { // Initialization alleg_init(); ALLEGRO_DISPLAY* disp = al_create_display(WIN_WIDTH, WIN_HEIGHT); ALLEGRO_EVENT_QUEUE* queue = al_create_event_queue(); al_register_event_source(queue,al_get_keyboard_event_source()); ALLEGRO_COLOR black = al_map_rgba(0,0,0,255); ALLEGRO_COLOR white = al_map_rgba(255,255,255,255); ALLEGRO_EVENT event; bool running = true; float width = 25; // Width and height of paddles float height = 150; float start_x_1 = 10; // Top-left coordinates of first paddle float start_y_1 = 10; float start_x_2 = WIN_WIDTH - 10 - width; // Top-left coordinates of second paddle float start_y_2 = 10; float velocity_1 = 0; // Vertical velocity of first paddle float velocity_2 = 0; // Vertical velocity of second paddle float circ_x = WIN_WIDTH / 2; // Center coordinates of ball float circ_y = WIN_HEIGHT / 2; float circ_rad = 10; // Radius of ball float circ_vel_x = 5; // Horizontal velocity of ball float circ_vel_y = 0; // Vertical velocity of ball al_clear_to_color(black); al_draw_filled_rectangle(start_x_1, start_y_1, start_x_1 + width, start_y_1 + height, white); al_draw_filled_rectangle(start_x_2, start_y_2, start_x_2 + width, start_y_2 + height, white); al_draw_filled_circle(circ_x, circ_y, circ_rad, white); al_flip_display(); while (running) { // Code borrowed from: https://stackoverflow.com/a/30078011 while (!al_is_event_queue_empty(queue)) { al_wait_for_event(queue, &event); if (event.type == ALLEGRO_EVENT_KEY_DOWN) { switch (event.keyboard.keycode) { case ALLEGRO_KEY_W: velocity_1 -= 5; break; case ALLEGRO_KEY_S: velocity_1 += 5; break; case ALLEGRO_KEY_UP: velocity_2 -= 5; break; case ALLEGRO_KEY_DOWN: velocity_2 += 5; break; case ALLEGRO_KEY_Q: running = false; break; } } else if (event.type == ALLEGRO_EVENT_KEY_UP) { switch (event.keyboard.keycode) { case ALLEGRO_KEY_W: velocity_1 += 5; break; case ALLEGRO_KEY_S: velocity_1 -= 5; break; case ALLEGRO_KEY_UP: velocity_2 += 5; break; case ALLEGRO_KEY_DOWN: velocity_2 -= 5; break; } } } al_clear_to_color(black); // Update positions ((velocity_1 < 0 && start_y_1 > 0) || (velocity_1 > 0 && start_y_1 + height < WIN_HEIGHT)) && (start_y_1 += velocity_1); ((velocity_2 < 0 && start_y_2 > 0) || (velocity_2 > 0 && start_y_2 + height < WIN_HEIGHT)) && (start_y_2 += velocity_2); circ_x += circ_vel_x; circ_y += circ_vel_y; //Redraw shapes al_draw_filled_rectangle(start_x_1, start_y_1, start_x_1 + width, start_y_1 + height + velocity_1, white); al_draw_filled_rectangle(start_x_2, start_y_2, start_x_2 + width, start_y_2 + height + velocity_2, white); al_draw_filled_circle(circ_x, circ_y, circ_rad, white); al_flip_display(); if (circ_x + circ_rad >= WIN_WIDTH - 10 - width) { // FOR PADDLE 2: If the circle has reached the point where the paddle would be... if (circ_y > start_y_2 && circ_y < start_y_2 + height) { // If the circle is touching the paddle... circ_vel_x = -circ_vel_x; } } else if (circ_x - circ_rad <= 10 + width) { // FOR PADDLE 1 if (circ_y > start_y_1 && circ_y < start_y_1 + height) { circ_vel_x =- circ_vel_x; } } } // Clean up al_destroy_display(disp); al_destroy_event_queue(queue); return 0; }