297 lines
6.9 KiB
C
297 lines
6.9 KiB
C
/* This file is part of ToaruOS and is released under the terms
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* of the NCSA / University of Illinois License - see LICENSE.md
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* Copyright (C) 2015 Kevin Lange
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*
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* Window Manager Pong
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*
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* Play pong where the paddles and ball are all windows.
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* Use the WM bindings to drag the left paddle to play.
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* Press `q` to quit.
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*
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* Rendering updates are all done by the compositor, while the game
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* only renders to the windows once at start up.
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*
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* Window movement tracking keeps the game logic aware of the paddle
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* position, and window moves for the ball and other paddle keep
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* things in the right place visually.
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*
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <assert.h>
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#include <unistd.h>
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#include <fcntl.h>
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#include <time.h>
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#include <math.h>
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#include <sys/time.h>
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#include <syscall.h>
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#include "lib/yutani.h"
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#include "lib/graphics.h"
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#include "lib/pthread.h"
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#define GAME_PATH "/usr/share/pong"
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#define PADDLE_WIDTH 50
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#define PADDLE_HEIGHT 300
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#define BALL_SIZE 50
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static yutani_t * yctx;
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static int spkr = 0;
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struct object {
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double x;
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double y;
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int width;
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int height;
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double vel_x;
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double vel_y;
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sprite_t sprite;
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};
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static yutani_window_t * paddle_left;
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static yutani_window_t * paddle_right;
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static yutani_window_t * ball_win;
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static struct object left;
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static struct object right;
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static struct object ball;
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static gfx_context_t * paddle_left_ctx;
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static gfx_context_t * paddle_right_ctx;
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static gfx_context_t * ball_ctx;
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static int should_exit = 0;
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static int left_score = 0;
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static int right_score = 0;
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struct spkr {
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int length;
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int frequency;
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};
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static void note(int frequency) {
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struct spkr s = {
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.length = 2,
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.frequency = frequency,
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};
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write(spkr, &s, sizeof(s));
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}
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static uint32_t current_time() {
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static uint32_t start_time = 0;
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static uint32_t start_subtime = 0;
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struct timeval t;
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gettimeofday(&t, NULL);
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if (!start_time) {
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start_time = t.tv_sec;
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start_subtime = t.tv_usec;
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}
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uint32_t sec_diff = t.tv_sec - start_time;
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uint32_t usec_diff = t.tv_usec - start_subtime;
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if (t.tv_usec < start_subtime) {
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sec_diff -= 1;
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usec_diff = (1000000 + t.tv_usec) - start_subtime;
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}
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return (uint32_t)(sec_diff * 1000 + usec_diff / 1000);
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}
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static int colliding(struct object * a, struct object * b) {
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if (a->x >= b->x + b->width) return 0;
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if (a->y >= b->y + b->height) return 0;
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if (b->x >= a->x + a->width) return 0;
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if (b->y >= a->y + a->height) return 0;
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return 1;
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}
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void redraw(void) {
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draw_fill(paddle_left_ctx, rgba(0,0,0,0));
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draw_fill(paddle_right_ctx, rgba(0,0,0,0));
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draw_fill(ball_ctx, rgba(0,0,0,0));
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draw_sprite(paddle_left_ctx, &left.sprite, 0, 0);
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draw_sprite(paddle_right_ctx, &right.sprite, 0, 0);
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draw_sprite(ball_ctx, &ball.sprite, 0, 0);
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yutani_flip(yctx, paddle_left);
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yutani_flip(yctx, paddle_right);
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yutani_flip(yctx, ball_win);
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}
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void update_left(void) {
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yutani_window_move(yctx, paddle_left, left.x, left.y);
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}
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void update_right(void) {
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yutani_window_move(yctx, paddle_right, right.x, right.y);
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}
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void update_ball(void) {
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yutani_window_move(yctx, ball_win, ball.x, ball.y);
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}
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void update_stuff(void) {
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right.vel_y = (right.y + right.height / 2 < ball.y + ball.height / 2) ? 2.0 : -2.0;
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right.y += right.vel_y;
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update_right();
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ball.x += ball.vel_x;
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ball.y += ball.vel_y;
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if (ball.y < 0) {
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ball.vel_y = -ball.vel_y;
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ball.y = 0;
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}
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if (ball.y > yctx->display_height - ball.height) {
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ball.vel_y = -ball.vel_y;
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ball.y = yctx->display_height - ball.height;
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}
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if (ball.x < 0) {
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ball.x = yctx->display_width / 2 - ball.width / 2;
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ball.y = yctx->display_height / 2 - ball.height / 2;
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ball.vel_x = -10.0;
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ball.vel_y = ((double)rand() / RAND_MAX) * 6.0 - 3.0;
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note(10000);
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right_score++;
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printf("%d : %d\n", left_score, right_score);
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}
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if (ball.x > yctx->display_width - ball.width ) {
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ball.x = yctx->display_width / 2 - ball.width / 2;
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ball.y = yctx->display_height / 2 - ball.height / 2;
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ball.vel_x = 10.0;
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ball.vel_y = ((double)rand() / RAND_MAX) * 6.0 - 3.0;
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note(17000);
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left_score++;
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printf("%d : %d\n", left_score, right_score);
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}
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if (colliding(&ball, &left)) {
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ball.x = left.x + left.width + 2;
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ball.vel_x = (abs(ball.vel_x) < 8.0) ? -ball.vel_x * 1.05 : -ball.vel_x;
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double intersect = ((ball.y + ball.height/2) - (left.y)) / ((double)left.height) - 0.5;
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ball.vel_y = intersect * 8.0;
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note(15680);
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}
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if (colliding(&ball, &right)) {
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ball.x = right.x - ball.width - 2;
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ball.vel_x = (abs(ball.vel_x) < 8.0) ? -ball.vel_x * 1.05 : -ball.vel_x;
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double intersect = ((ball.y + ball.height/2) - (right.y)) / ((double)right.height/2.0);
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ball.vel_y = intersect * 3.0;
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note(11747);
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}
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update_ball();
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}
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int main (int argc, char ** argv) {
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yctx = yutani_init();
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left.width = PADDLE_WIDTH;
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left.height = PADDLE_HEIGHT;
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right.width = PADDLE_WIDTH;
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right.height = PADDLE_HEIGHT;
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ball.width = BALL_SIZE;
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ball.height = BALL_SIZE;
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ball.x = yctx->display_width / 2 - ball.width / 2;
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ball.y = yctx->display_height / 2 - ball.height / 2;
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left.x = 10;
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left.y = yctx->display_height / 2 - left.height / 2;
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right.x = yctx->display_width - right.width - 10;
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right.y = yctx->display_height / 2 - right.height / 2;
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paddle_left = yutani_window_create(yctx, PADDLE_WIDTH, PADDLE_HEIGHT);
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paddle_right = yutani_window_create(yctx, PADDLE_WIDTH, PADDLE_HEIGHT);
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ball_win = yutani_window_create(yctx, BALL_SIZE, BALL_SIZE);
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paddle_left_ctx = init_graphics_yutani(paddle_left);
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paddle_right_ctx = init_graphics_yutani(paddle_right);
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ball_ctx = init_graphics_yutani(ball_win);
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srand(time(NULL));
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ball.vel_y = ((double)rand() / RAND_MAX) * 6.0 - 3.0;
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ball.vel_x = -10.0;
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load_sprite_png(&left.sprite, GAME_PATH "/paddle-red.png");
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load_sprite_png(&right.sprite,GAME_PATH "/paddle-blue.png");
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load_sprite_png(&ball.sprite, GAME_PATH "/ball.png");
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redraw();
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update_left();
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update_right();
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update_ball();
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uint32_t last_tick = current_time();
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spkr = open("/dev/spkr", O_WRONLY);
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while (!should_exit) {
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uint32_t t = current_time();
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if (t > last_tick + 10) {
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last_tick += 10;
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update_stuff();
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}
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yutani_msg_t * m = yutani_poll_async(yctx);
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if (m) {
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switch (m->type) {
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case YUTANI_MSG_KEY_EVENT:
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{
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struct yutani_msg_key_event * ke = (void*)m->data;
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if (ke->event.key == 'q' && ke->event.action == KEY_ACTION_DOWN) {
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should_exit = 1;
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}
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}
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break;
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case YUTANI_MSG_WINDOW_MOVE:
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{
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struct yutani_msg_window_move * wm = (void*)m->data;
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if (wm->wid == paddle_left->wid) {
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/* Update paddle speed and position */
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left.y = (double)wm->y;
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if (wm->x != (int)left.x) {
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update_left();
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}
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}
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}
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break;
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case YUTANI_MSG_SESSION_END:
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should_exit = 1;
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break;
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default:
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break;
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}
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free(m);
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} else {
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syscall_yield();
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}
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}
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yutani_close(yctx, paddle_left);
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yutani_close(yctx, paddle_right);
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yutani_close(yctx, ball_win);
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return 0;
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}
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