C语言实现贪吃蛇游戏

#include<stdio.h>
#include<stdlib.h>
#include<time.h>
#include<conio.h>
#include<windows.h>

#define SNAKE_MAX_LENGTH 20
#define SNAKE_HEAD 'H'
#define SNAKE_BODY 'X'
#define BLANK_CELL ''
#define SNAKE_FOOD '$'
#define WALL_CELL '*'

/*snake stepping: dy = -1(up) 1(dowm) 0(no move); dx = -1(left), 1(right), 0(no move)*/
void snakemove(int, int); 
//to write dowm the current location of the snake 
void put_money(void); 
void output(void);
 // to put the current map on the screen
void initial_the_game(void);
void put_accelerate(void);
// @ is a special food which can speed up your snake.
int judge(int, int); 
/* when it comes to ai, it is used to judge whether the next step is movable. */
int dis(int, int); 
// when it coomes to ai, it is used to calculate the current distence //between the snake head and the food.
void welcome(void);  // the game introduction.
void gameover(void); 
void edition_handed(void); 
// the edition in which you can play by yourself.
void edition_presentation(void); 
// the edition in which the snake can go automatically.

// define vars for snake,notice name of vars in c 
int snakeX[SNAKE_MAX_LENGTH] = {1, 2, 3, 4, 5};
int snakeY[SNAKE_MAX_LENGTH] = {1, 1, 1, 1, 1};
int snakeLength = 5;
int gamestate = 1;
int current_speed = 600;
int score = 0;
char edition_choose; // for player to choose the edition.
int con = 1; // to judge the initial state of the game;
int energy = 0; // write down the condition to accelerate by eating $.

//the following part is to realize the simple ai .
const char movable[4] = {'a', 'd', 's', 'w'};
int distance[4] = {9999, 9999, 9999, 9999};
int fx = 6, fy = 6; // the coordinate of the food $

char map[12][12] = 
 {"************",
 "*XXXXH  *",
 "*   *",
 "*   *",
 "*   *",
 "*   *",
 "*  $ *",
 "*   *",
 "* @  *",
 "*   *",
 "*   *",
 "************"};

int main() {
 while (con) {
  welcome();
  int flag = 1;
  while (flag) {
   edition_choose = getch(); //choose the edition
   if (edition_choose == 'h') {
    edition_handed();
    flag = 0;
   }
   else if (edition_choose == 'p') {
    edition_presentation();
    flag = 0;
   }
   else {
    printf("Please press the correct bottom -,- ...\n");
   }
  }
  gameover();
 } 
 return 0;
}

void edition_handed(void) {
 system("cls");
 output();
 char ch = 'd';
 while (gamestate) {
  switch (ch) {
   case 'a': // go left
    while (1) {
     snakemove(-1, 0);
     Sleep(current_speed);
     if (gamestate == 0) // to break the loop if the snake hit the wall or itself.
      break;
     if (kbhit() != 0) { // to change the direction
      ch = getch();
     if (ch == 's' || ch == 'w')
      break;
     else 
      ch = 'a';
     }
    }
    break;
   case 'd': // go right
    while (1) {
     snakemove(1, 0);
     Sleep(current_speed);
     if (gamestate == 0)
      break;
     if (kbhit() != 0)
      ch = getch();
     if (ch == 's' || ch == 'w')
      break;
     else 
      ch = 'd';
    } 
    break;
   case 's': // go down
    while (1) {
     snakemove(0, 1);
     Sleep(current_speed);
     if (gamestate == 0)
      break;
     if (kbhit() != 0)
      ch = getch();
     if (ch == 'a' || ch == 'd')
      break;
     else 
      ch = 's';
    }
    break;
   case 'w': // go up
    while (1) {
     snakemove(0, -1);
     Sleep(current_speed);
     if (gamestate == 0)
      break;
     if (kbhit() != 0)
      ch = getch();
     if (ch == 'a' || ch == 'd')
      break;
     else 
      ch = 'w';
    }
    break;
  }
  if (gamestate == 0)
   break;
 } 
 return;
}

void edition_presentation(void) { // for ai
 system("cls");
 int i, min = 10000;
 output();
 char ch;
 char quit = 'o';
 int k;
 while (gamestate) { // find the shortest way;
  min = 10000;
  if (judge(-1, 0)) distance[0] = dis(-1, 0);
  if (judge(1, 0)) distance[1] = dis(1, 0);
  if (judge(0, 1)) distance[2] = dis(0, 1);
  if (judge(0, -1)) distance[3] = dis(0, -1);
  for (i = 0; i < 4; i++) {
   if (min >= distance[i]) {
    min = distance[i];
    k = i;
   }
  }
  Sleep(current_speed);
  switch (movable[k]) {
   case 'a': // go left
    snakemove(-1, 0);
    break;
   case 'd': // go right
    snakemove(1, 0);
    break;
   case 's': // go down
    snakemove(0, 1);
    break;
   case 'w': // go up
    snakemove(0, -1);
    break; 
  }
  if (gamestate == 0)
   break;
  system("cls");
   output();
 }
 return;
}

void welcome(void) { // just for some introduction
 printf("WELCOME TO THE SNAKE'S WORLD !!!!\n");
 printf("\n");
 printf("\n");
 printf("Please choose the edition you want.\n");
 printf("\n");
 printf("\n");
 printf("The 'h' is for the hand-operated and the 'p' is for the simple presentation\n");
 printf("\n");
 printf("\n");
 printf("Attention: the presentation still has a liitle bug, while it can be moving right for a period of time...\n ");
 return;
}

void gameover(void) { // give you some introduction when you lose the game.
 system("cls");
 printf("Game over!!!\n");
 printf("Do you want to continue? y or n\n");
 char start; // in order to judge whether you still want to play the game.
 while (1) {
  start = getch();
  if (start == 'y') {
   system("cls");
   initial_the_game();
   break;
  } else if (start == 'n') {
   system("cls");
   con = 0; // in order to let the game end.
   printf("See you next time! ^-^\n");
   break;
  } else {
   printf("Please press the correct buttom.\n");
  }
 }
}

void output(void) { // put the cuttent game map.
 printf("THE INTERESTING SNAKE GAME CREATED BY LONGJ =,=\n");
 printf("use w~s~a~d to control the snake's movement\n");
 printf("ATTENTION: the @ can speed up your lovely snake~~\n");
 int i, j;
 for (i = 0; i < 12; i++) {
  for (j = 0; j < 12; j++) { 
   printf("%c", map[i][j]);
   if (j == 11)
    printf("\n");
  }
 }
 printf("Your current_speed is %d\n", current_speed);
 printf("The number of your food undigested is %d (when it comes to 5, your speed will be accelerated!) \n", energy);
 printf("SCORE = %d\n", score);
 return;
}

void snakemove(int dx, int dy) { // all the conditions are comparing the head and the next position.
 int i;
 if (snakeY[snakeLength - 1] + dy == snakeY[snakeLength - 2] && snakeX[snakeLength - 1] + dx == snakeX[snakeLength - 2])
  return; // to prevent it go to itslef.
 if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == 'X') {
  gamestate = 0;
  return;
 }
 if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == '*') {
  gamestate = 0;
  return;
 }
 if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == ' '
  || map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == '@') {
  map[snakeY[0]][snakeX[0]] = ' '; // clear the former_tail
  if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == '@'
  && current_speed > 100) { // what will happen when your snake eats the @
   current_speed -= 100;
   put_accelerate();
  }
  for (i = 0; i < snakeLength - 1; ++i) {
   snakeX[i] = snakeX[i + 1];
   snakeY[i] = snakeY[i + 1];
  }
  snakeX[snakeLength - 1] += dx;
  snakeY[snakeLength - 1] += dy;
  for (i = 0; i < snakeLength - 1; i++) // write down the current snake location
   map[snakeY[i]][snakeX[i]] = 'X';
  map[snakeY[snakeLength - 1]][snakeX[snakeLength - 1]] = 'H';
 }
 if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == '$') {
  map[snakeY[snakeLength - 1]][snakeX[snakeLength - 1]] = 'X';
  snakeLength++;
  snakeX[snakeLength - 1] = snakeX[snakeLength - 2] + dx;
  snakeY[snakeLength - 1] = snakeY[snakeLength - 2] + dy;
  map[snakeY[snakeLength - 1]][snakeX[snakeLength - 1]] = 'H';
  score++;
  energy++;
  if (energy == 5 && current_speed > 50) {
   current_speed -= 50;
   energy = 0;
  }
  put_money();
 }
 system("cls");
 output();
 return;
}

void put_money(void) { /// ai will change the code
 int flag = 1;
 while (flag) {
  srand(time(NULL));
  fx = rand() % 12;
  fy = rand() % 12;
  if (map[fy][fx] == ' ') {
   map[fy][fx] = '$';
   flag = 0;
  }
  if (edition_choose == 'p') {
   int i;
   for (i = 0; i< 4; i++)
    distance[i] = 9999;
  }
 }
 return;
}

void put_accelerate(void) {
 int x, y, flag = 1;
 while (flag) {
  srand(time(NULL));
  x = rand() % 12;
  y = rand() % 12;
  if (map[x][y] == ' ') {
   map[x][y] = '@';
   flag = 0;
  }
 }
 return;
}

int dis(int dx, int dy) {
 return abs(fx - snakeX[snakeLength - 1] - dx) + abs(fy - snakeY[snakeLength - 1] - dy);
}

int judge(int dx, int dy) {
 if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == ' ')
  return 1;
 else if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == '$')
  return 1;
 else if (map[snakeY[snakeLength - 1] + dy][snakeX[snakeLength - 1] + dx] == '@')
  return 1;
 else 
  return 0;
}

void initial_the_game(void) {
 int i, j, count = 1;
 snakeLength = 5;
 gamestate = 1;
 fx = fy = 6;
 current_speed = 600;
 for (i = 0; i < 5; i++)
  snakeY[i] = 1;
 for (i = 0; i < 5; i++) {
  snakeX[i] = count++;
 }
 for (j = 0; j < 12; j++) {
  map[0][j] = '*';
  map[11][j] = '*';
 }
 for (i = 1; i < 11; i++) {
  map[i][0] = map[i][11] = '*';
  for (j = 1; j < 11; j++)
   map[i][j] = ' ';
 }
 map[fy][fx] ='$';
 map[8][4] = '@';
 for (i = 0; i< 4; i++) {
   distance[i] = 9999;
 }
 for (i = 0; i < 4; i++) 
  map[snakeY[i]][snakeX[i]] = 'X';
 map[snakeY[4]][snakeX[4]] = 'H';
 return;
}