ysyx-workbench/am-kernels/kernels/snake/snake.c
tracer-ysyx d08c2860da > compile NEMU
ysyx_22040000 李心杨
Linux calcite 6.6.19 #1-NixOS SMP PREEMPT_DYNAMIC Fri Mar  1 12:35:11 UTC 2024 x86_64 GNU/Linux
 16:26:21  up 4 days  3:32,  2 users,  load average: 0.85, 0.91, 0.95
2024-03-24 16:26:21 +08:00

188 lines
4.9 KiB
C

#include <stdlib.h>
#include <stdio.h>
#include <am.h>
#include <amdev.h>
#include <klib-macros.h>
#define MAX_LENGTH 100
#define TILE_W 8
typedef enum { NONE, UP, DOWN, LEFT, RIGHT } dir_t;
typedef struct {
int x, y;
} point_t;
typedef struct {
int width, height;
} dim_t;
typedef struct {
int top, bottom, left, right;
} rect_t;
typedef struct {
point_t body[MAX_LENGTH];
int length;
int index;
int dead;
} snake_t;
static void refresh() {
io_write(AM_GPU_FBDRAW, 0, 0, NULL, 0, 0, true);
}
static void draw_tile(int y, int x, uint32_t color) {
static uint32_t buf[TILE_W * TILE_W];
uint32_t last_color = 0xffffffff;
if (last_color != color) {
for (int i = 0; i < LENGTH(buf); i ++) { buf[i] = color; }
}
io_write(AM_GPU_FBDRAW, x * TILE_W, y * TILE_W, buf, TILE_W, TILE_W, false);
}
static int read_key() {
while (1) {
AM_INPUT_KEYBRD_T ev = io_read(AM_INPUT_KEYBRD);
if (ev.keydown || ev.keycode == AM_KEY_NONE) return ev.keycode;
}
}
static point_t create_food(dim_t game_size) {
point_t f;
f.x = rand() % game_size.width;
f.y = rand() % game_size.height;
return f;
}
static void print_board(rect_t board) {
uint32_t color = 0x0000ff00;
for (int i = board.left; i <= board.right; i++) {
draw_tile(board.top, i, color);
draw_tile(board.bottom, i, color);
}
for (int i = board.top; i <= board.bottom; i++) {
draw_tile(i, board.left, color);
draw_tile(i, board.right, color);
}
}
static void print_food(point_t food, rect_t board) {
draw_tile(food.y + board.top + 1, food.x + board.left + 1, 0x000000ff);
}
static void print_head(snake_t* snake, rect_t board) {
point_t *p = &snake->body[snake->index];
draw_tile(p->y + board.top + 1, p->x + board.left + 1, 0x00ff0000);
}
static void clear_tail(snake_t* snake, rect_t board) {
int t = snake->index-snake->length;
if (t < 0) { t += MAX_LENGTH; }
draw_tile(snake->body[t].y + board.top + 1, snake->body[t].x + board.left + 1, 0);
}
static dir_t get_dir(int c) {
switch (c) {
case AM_KEY_LEFT: return LEFT;
case AM_KEY_UP: return UP;
case AM_KEY_RIGHT: return RIGHT;
case AM_KEY_DOWN: return DOWN;
default: return NONE;
}
}
static void move_snake(snake_t* snake, dir_t dir) {
point_t p = snake->body[snake->index];
switch (dir) {
case LEFT: p.x --; break;
case DOWN: p.y ++; break;
case RIGHT: p.x ++; break;
case UP: p.y --; break;
default: break;
}
snake->index ++;
if (snake->index == MAX_LENGTH) { snake->index = 0; }
snake->body[snake->index] = p;
}
static int is_dead(snake_t* snake, dim_t game_size) {
point_t head = snake->body[snake->index];
if (head.x == -1) return 1;
if (head.x == game_size.width) return 1;
if (head.y == -1) return 1;
if (head.y == game_size.height) return 1;
for (int i = 1; i != snake->length; i ++) {
int j = snake->index-i;
if (j < 0) { j += MAX_LENGTH; }
if (head.x == snake->body[j].x && head.y == snake->body[j].y) { return 1; }
}
return 0;
}
static int has_food(snake_t* snake, point_t food) {
return snake->body[snake->index].x == food.x && snake->body[snake->index].y == food.y;
}
int main() {
snake_t snake = {0};
rect_t board;
dim_t screen;
dim_t game_size;
dir_t dir = RIGHT;
ioe_init();
screen.height = io_read(AM_GPU_CONFIG).height / TILE_W;
screen.width = io_read(AM_GPU_CONFIG).width / TILE_W;
game_size.width = screen.width - 2;
game_size.height = screen.height - 2;
snake.body[0].x = game_size.width / 2;
snake.body[0].y = game_size.height / 2;
snake.body[1].x = game_size.width / 2;
snake.body[1].y = game_size.height / 2 + 1;
snake.length = 2;
snake.index = 1;
board.left = screen.width / 2 - game_size.width / 2 - 1;
board.right = board.left + game_size.width + 1;
board.top = screen.height / 2 - game_size.height / 2 - 1;
board.bottom = board.top + game_size.height + 1;
print_board(board);
point_t food = create_food(game_size);
print_food(food, board);
do {
print_head(&snake, board);
clear_tail(&snake, board);
dir_t move_dir = get_dir(read_key());
switch (move_dir) {
case UP: if (dir != DOWN) dir = move_dir; break;
case DOWN: if (dir != UP) dir = move_dir; break;
case LEFT: if (dir != RIGHT) dir = move_dir; break;
case RIGHT: if (dir != LEFT) dir = move_dir; break;
default: break;
}
move_snake(&snake, dir);
snake.dead = is_dead(&snake, game_size);
if (has_food(&snake, food)) {
snake.length ++;
food = create_food(game_size);
print_food(food, board);
}
refresh();
uint64_t sleep = 100000 - snake.length * 5000 < 5000 ? 5000 : 100000 - snake.length * 5000;
uint64_t next_us = io_read(AM_TIMER_UPTIME).us + sleep;
while (io_read(AM_TIMER_UPTIME).us < next_us) ;
} while (!snake.dead);
printf("GAME OVER\nPress Q to Exit\n");
while (read_key() != AM_KEY_Q);
return 0;
}