要说大家都很熟悉的一个小游戏,三子棋算是其中一个了。相信大家都玩过三子棋小游戏,在这里我还是给大家介绍简单的游戏规则:
当然,熟悉规则后我们会有一个大概的了解了,那么三子棋游戏的思路及代码到底是怎么实现的呢?接下来我给大家一一详细解析一下。
我们实现游戏之前,应该想到先给玩家提供一个菜单。这个菜单的功能就是帮助用户选择是否要开始游戏。菜单的实现我们可以单独自定义一个函数,我们用到菜单的时候调用此函数即可。
void meau()
{
printf("*********************\n");
printf("***** 1.play *****\n");
printf("***** 0.exit *****\n");
printf("*********************\n");
}通过上面的代码我们可以很容易看出,选择‘1’是开始游戏,选择‘0’是退出游戏。
提到选择,我们这里可以联想到switch-case语句。由上面的菜单可知:选择‘1’是开始游戏,选择‘0’是退出游戏。当然我们不能排除不小心输入错误,所以这里我们还要考虑到选择错误的情况下要给出相应的提示。当选择错误时,给出提示且重新选择,同时再把菜单打印出,提供玩家选择。那怎么实现重新选择呢?我们这里其实可以使用do-while()语句。我们先来看一下代码的实现。
void test()
{
int input = 0;
do
{
meau();
printf("请选择是否要开始游戏:");
scanf("%d", &input);
switch (input)
{
case 1:
game(); //开始三子棋游戏
break;
case 0:
printf("退出游戏\n");
break;
default:
printf("选择错误\n");
}
} while (input);
}我们看上面的代码是放在的一个自定义的test()函数中,我们只要再主函数中调用一下即可。上面的代码很巧妙,当我们输入‘1’的时候,开始游戏。当游戏结束时,循环继续。其实是实现了一个玩完一局可以反复玩的效果。当我们输入‘0’的时候,循环结束,就是相当于结束游戏了。当我们输入错误时,循环仍然继续,再次打印菜单提供我们选择。这也是 do-while()语句的巧妙之处。
创建棋盘很简单,我们这里需要的是一个二维数组。那么棋盘的大小呢?我们首先想到的是3x3的棋盘——char board[3][3]。那要是想改成5x5的棋盘呢?我们是把整个工程中的board[3][3]改成board[5][5]吗?这样太麻烦了,当然也不现实。这里我们可以引用#define 定义的标识符常量。这时候我们可以写成char board[ROW][COL]。改变大小的时候只需要改变#define 定义的标识符常量的值就行。
#define ROW 3 #define COL 3 char board[ROW][COL];
我们这里将初始化棋盘放在一个init_board(board, ROW, COL)函数中。为什么要初始化棋盘呢?当我们不初始化的时候,期盼中的每个位置放的是‘\0’。而我们想要得到的棋盘是一个空棋盘,这样的话更加有利于玩家操作下棋。空棋盘看起开也比较整洁。我们看一下初始化代码的实现。
void init_board(char board[ROW][COL], int row, int col)
{
int i = 0;
for (i = 0; i < row; i++)
{
int j = 0;
for (j = 0; j < col; j++)
{
board[i][j] = ' ';
}
}
}当我们初始化完棋盘后,我们就应该把棋盘打印出来让玩家看到并且选择要下棋的位置。这里我们先来看打印棋盘。打印出来的棋盘应该格式鲜明,每个位置独立分开,而不是一片空白。我们先看一下棋盘的格式:
3x3
5x5
通过上面的两个图,我们就可以建立一个大概的打印棋盘的思路了。其实我们可以把”_ _ _|_ _ _|_ _ _“看作我们要打印的第一行内容,但是要注意最后一行是” | | “。打印的思路有了,把打印棋盘内容放在print_board(board, ROW, COL)函数中。我们来看一下代码的实现。
void print_board(char board[ROW][COL], int row, int col)
{
int i = 0;
for (i = 0; i < row; i++)
{
int j = 0;
for (j = 0; j < col; j++)
{
printf(" %c ", board[i][j]);
if (j < col - 1)
printf("|");
}
printf("\n");
if (i < row - 1)
{
for (j = 0; j < row; j++)
{
printf("---");
if (j < col - 1)
printf("|");
}
}
printf("\n");
}
}当我们把棋盘打印出来后,这时候就要提示玩家选择下棋了。我们采用的是坐标的形式让玩家进行选择下棋位置。这里要有几点要注意的事项
我们将玩家下棋内容放在player_move(board, ROW, COL)函数中,我们来看一下玩家下棋的代码实现。
void player_move(char board[ROW][COL], int row, int col)
{
int x = 0;
int y = 0;
printf("请选择你要下棋的坐标:");
while (1)
{
scanf("%d %d", &x, &y);
if ((x >= 1 && x <= row) && (y >= 1 && y <= col))
{
if (board[x - 1][y - 1] == ' ')
{
board[x - 1][y - 1] = '*';
break;
}
else
{
printf("该坐标已经被占有,请重新选择:");
}
}
else
{
printf("该坐标非法,请输入合法坐标:");
}
}
}玩家下棋后,就该电脑下棋了。电脑下棋其实就是随机下棋。当然电脑下棋也是不能重复在同一个位置上下棋,且是合法的。提到随机,我们就因该联想到rand()函数和srand()函数,在这里我就不详细介绍这两个函数的使用方法了,在之前的猜数字小游戏中有详细的解释,可以去了解一下。电脑下完棋后也要调用打印棋盘函数print_board(board, ROW, COL),使玩家更方便的观看已经下棋的位置。我们把玩家下的坐标用 ‘ #’ 来代表。把电脑下棋代码放在computer_move(board, ROW, COL)函数中。那我们来看一下电脑下棋的代码实现。
void computer_move(char board[ROW][COL], int row, int col)
{
printf("电脑下棋:\n");
while (1)
{
int x = rand() % 3;
int y = rand() % 3;
if (board[x][y] == ' ')
{
board[x][y] = '#';
break;
}
}
}其实,每当玩家或者电脑下完一次棋后,我们都需要判断一下是否有赢的。如果没有赢的,我们就进行反复下棋。如果有赢的,我们就停止下棋,并输出”玩家赢“或者”电脑赢“。我们同时还要想到是否为平局,如果为平局的话,就输出”平局“。判断输赢的函数我们定义成char is_win(board[ROW][COL], ROW, COL)。
判断输赢函数返回值注意:
当我们在编写输赢函数时,我们要注意不能数组越界访问。我们先来看一下判断输赢函数的实现。
char is_win(char board[ROW][COL], int row, int col)
{
int i = 0;
//判断行
for (i = 0; i < row; i++)
{
int j = 0;
for (j = 0; j < col; j++)
{
if (j == 0)
{
if ((board[i][0] == board[i][1]) && (board[i][1] == board[i][2]) && (board[i][1] != ' '))
return board[i][0];
}
else if (j == 1)
{
if ((board[i][0] == board[i][1]) && (board[i][1] == board[i][2]) && (board[i][1] != ' ')
|| (board[i][1] == board[i][2]) && (board[i][2] == board[i][23]) && (board[i][1] != ' '))
return board[i][1];
}
else if (j == col - 1)
{
if ((board[i][j] == board[i][j - 1]) && (board[i][j - 1] == board[i][j - 2]) && (board[i][j] != ' '))
return board[i][j];
}
else if (j == col - 2)
{
if ((board[i][j] == board[i][j - 1]) && (board[i][j - 1] == board[i][j - 2]) && (board[i][j] != ' ')
|| (board[i][j] == board[i][j - 1]) && (board[i][j] == board[i][j + 1]) && (board[i][j] != ' '))
return board[i][j];
}
else
{
if ((board[i][j] == board[i][j - 1]) && (board[i][j - 1] == board[i][j - 2]) && (board[i][j] != ' ')
|| (board[i][j] == board[i][j - 1]) && (board[i][j] == board[i][j + 1]) && (board[i][j] != ' ')
|| (board[i][j] == board[i][j + 1]) && (board[i][j + 1] == board[i][j + 2]) && (board[i][j] != ' '))
return board[i][j];
}
}
}
//判断列
int j = 0;
for (j = 0; j < col; j++)
{
for (i = 0; i < row; i++)
{
if (i == 0)
{
if ((board[0][j] == board[1][j]) && (board[1][j] == board[2][j]) && (board[1][j] != ' '))
return board[0][j];
}
else if (i == 1)
{
if ((board[0][j] == board[1][j]) && (board[1][j] == board[2][j]) && (board[1][j] != ' ')
|| (board[1][j] == board[2][j]) && (board[2][j] == board[3][j]) && (board[1][j] != ' '))
return board[1][j];
}
else if (i == row - 1)
{
if ((board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i - 2][j]) && (board[i][j] != ' '))
return board[i][j];
}
else if (i == row - 2)
{
if ((board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i - 2][j]) && (board[i][j] != ' ')
|| (board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i + 1][j]) && (board[i][j] != ' '))
return board[i][j];
}
else
{
if ((board[i][j] == board[i + 1][j]) && (board[i + 1][j] == board[i + 2][j]) && (board[i][j] != ' ')
|| (board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i + 1][j]) && (board[i][j] != ' ')
|| (board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i - 2][j]) && (board[i][j] != ' '))
return board[i][j];
}
}
}
//判断主对角线
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
if (i<row-2&&j<col-2)
{
if((board[i][j] == board[i + 1][j + 1] && board[i][j] == board[i + 2][j + 2] && board[i][j] != ' '))
return board[i][j];
}
if (i>0&&i<row-1&&j>0&&j<col-1)
{
if ((board[i][j] == board[i + 1][j + 1] && board[i][j] == board[i - 1][j - 1] && board[i][j] != ' '))
return board[i][j];
}
if (i >1&&j>1)
{
if ((board[i][j] == board[i - 1][j - 1] && board[i][j] == board[i - 2][j - 2] && board[i][j] != ' '))
return board[i][j];
}
}
}
//判断次对角线
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
if (i<row-2&&j>1)
{
if ((board[i][j] == board[i + 1][j - 1] && board[i][j] == board[i + 2][j - 2] && board[i][j] != ' '))
return board[i][j];
}
if (j>0&&j<col-1&&i>0&&i<row-1)
{
if ((board[i][j] == board[i - 1][j + 1] && board[i][j] == board[i + 1][j - 1] && board[i][j] != ' '))
return board[i][j];
}
if (i>1&&j<col-2)
{
if ((board[i][j] == board[i - 1][j + 1] && board[i][j] == board[i - 2][j + 2] && board[i][j] != ' '))
return board[i][j];
}
}
}
//判断平局
int flag = 0;
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
if (board[i][j] == ' ')
flag = 1;
}
}
if (flag == 0)
return 'Q';
return 'C';
}我们这里再看一下反复调用玩家下棋player_move(board, ROW, COL)函数和电脑下棋computer_move(board, ROW, COL)函数和打印棋盘函数print_board(board, ROW, COL)函数到终止循环的代码。反复调用这几个函数也就是实现了反复下棋的效果。如果没有赢的,我们就进行反复下棋。如果有赢的或者平局,我们就停止下棋。我们来看代码实现。
while (1)
{
//玩家下棋
player_move(board, ROW, COL);
print_board(board, ROW, COL);
//判断是否结束
// * 玩家胜利
// # 电脑胜利
// Q 平局
// C 继续游戏
ret=is_win(board, ROW, COL);
if (ret != 'C')
break;
//电脑下棋
computer_move(board, ROW, COL);
print_board(board, ROW, COL);
ret = is_win(board, ROW, COL);
if (ret != 'C')
break;
}综上就是我整个三子棋游戏实现的思路了。总体来说还是比较简单的。我们把上面的代码整合一下来看。
由于代码量相对来说有一点多,所以我们就将函数的声明的定义分开,这样有利于提高代码的可读性,同时会保持一个良好的思路,且方便编写代码。
我们将函数的声明放在单独的一个game.h的头文件,函数的实现放在一个单独的game.c源文件,函数的主方法及调用放在另一个单独的test.c源文件。
#include<stdio.h> //数组行和列的大小 #define ROW 3 #define COL 3 //初始化数组 void init_board(char board[ROW][COL],int row,int col); //打印格式化数组 void print_board(char board[ROW][COL], int row, int col); //玩家下棋 * void player_move(char board[ROW][COL], int row, int col); //电脑下棋 # void computer_move(char board[ROW][COL], int row, int col); //判断输赢或者平局 char is_win(char board[ROW][COL], int row, int col);
#include "game.h"
void init_board(char board[ROW][COL], int row, int col)
{
int i = 0;
for (i = 0; i < row; i++)
{
int j = 0;
for (j = 0; j < col; j++)
{
board[i][j] = ' ';
}
}
}
void print_board(char board[ROW][COL], int row, int col)
{
int i = 0;
for (i = 0; i < row; i++)
{
int j = 0;
for (j = 0; j < col; j++)
{
printf(" %c ", board[i][j]);
if (j < col - 1)
printf("|");
}
printf("\n");
if (i < row - 1)
{
for (j = 0; j < row; j++)
{
printf("---");
if (j < col - 1)
printf("|");
}
}
printf("\n");
}
}
void player_move(char board[ROW][COL], int row, int col)
{
int x = 0;
int y = 0;
printf("请选择你要下棋的坐标:");
while (1)
{
scanf("%d %d", &x, &y);
if ((x >= 1 && x <= row) && (y >= 1 && y <= col))
{
if (board[x - 1][y - 1] == ' ')
{
board[x - 1][y - 1] = '*';
break;
}
else
{
printf("该坐标已经被占有,请重新选择:");
}
}
else
{
printf("该坐标非法,请输入合法坐标:");
}
}
}
void computer_move(char board[ROW][COL], int row, int col)
{
printf("电脑下棋:\n");
while (1)
{
int x = rand() % 3;
int y = rand() % 3;
if (board[x][y] == ' ')
{
board[x][y] = '#';
break;
}
}
}
char is_win(char board[ROW][COL], int row, int col)
{
int i = 0;
//判断行
for (i = 0; i < row; i++)
{
int j = 0;
for (j = 0; j < col; j++)
{
if (j == 0)
{
if ((board[i][0] == board[i][1]) && (board[i][1] == board[i][2]) && (board[i][1] != ' '))
return board[i][0];
}
else if (j == 1)
{
if ((board[i][0] == board[i][1]) && (board[i][1] == board[i][2]) && (board[i][1] != ' ')
|| (board[i][1] == board[i][2]) && (board[i][2] == board[i][23]) && (board[i][1] != ' '))
return board[i][1];
}
else if (j == col - 1)
{
if ((board[i][j] == board[i][j - 1]) && (board[i][j - 1] == board[i][j - 2]) && (board[i][j] != ' '))
return board[i][j];
}
else if (j == col - 2)
{
if ((board[i][j] == board[i][j - 1]) && (board[i][j - 1] == board[i][j - 2]) && (board[i][j] != ' ')
|| (board[i][j] == board[i][j - 1]) && (board[i][j] == board[i][j + 1]) && (board[i][j] != ' '))
return board[i][j];
}
else
{
if ((board[i][j] == board[i][j - 1]) && (board[i][j - 1] == board[i][j - 2]) && (board[i][j] != ' ')
|| (board[i][j] == board[i][j - 1]) && (board[i][j] == board[i][j + 1]) && (board[i][j] != ' ')
|| (board[i][j] == board[i][j + 1]) && (board[i][j + 1] == board[i][j + 2]) && (board[i][j] != ' '))
return board[i][j];
}
}
}
//判断列
int j = 0;
for (j = 0; j < col; j++)
{
for (i = 0; i < row; i++)
{
if (i == 0)
{
if ((board[0][j] == board[1][j]) && (board[1][j] == board[2][j]) && (board[1][j] != ' '))
return board[0][j];
}
else if (i == 1)
{
if ((board[0][j] == board[1][j]) && (board[1][j] == board[2][j]) && (board[1][j] != ' ')
|| (board[1][j] == board[2][j]) && (board[2][j] == board[3][j]) && (board[1][j] != ' '))
return board[1][j];
}
else if (i == row - 1)
{
if ((board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i - 2][j]) && (board[i][j] != ' '))
return board[i][j];
}
else if (i == row - 2)
{
if ((board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i - 2][j]) && (board[i][j] != ' ')
|| (board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i + 1][j]) && (board[i][j] != ' '))
return board[i][j];
}
else
{
if ((board[i][j] == board[i + 1][j]) && (board[i + 1][j] == board[i + 2][j]) && (board[i][j] != ' ')
|| (board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i + 1][j]) && (board[i][j] != ' ')
|| (board[i][j] == board[i - 1][j]) && (board[i - 1][j] == board[i - 2][j]) && (board[i][j] != ' '))
return board[i][j];
}
}
}
//判断主对角线
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
if (i<row-2&&j<col-2)
{
if((board[i][j] == board[i + 1][j + 1] && board[i][j] == board[i + 2][j + 2] && board[i][j] != ' '))
return board[i][j];
}
if (i>0&&i<row-1&&j>0&&j<col-1)
{
if ((board[i][j] == board[i + 1][j + 1] && board[i][j] == board[i - 1][j - 1] && board[i][j] != ' '))
return board[i][j];
}
if (i >1&&j>1)
{
if ((board[i][j] == board[i - 1][j - 1] && board[i][j] == board[i - 2][j - 2] && board[i][j] != ' '))
return board[i][j];
}
}
}
//判断次对角线
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
if (i<row-2&&j>1)
{
if ((board[i][j] == board[i + 1][j - 1] && board[i][j] == board[i + 2][j - 2] && board[i][j] != ' '))
return board[i][j];
}
if (j>0&&j<col-1&&i>0&&i<row-1)
{
if ((board[i][j] == board[i - 1][j + 1] && board[i][j] == board[i + 1][j - 1] && board[i][j] != ' '))
return board[i][j];
}
if (i>1&&j<col-2)
{
if ((board[i][j] == board[i - 1][j + 1] && board[i][j] == board[i - 2][j + 2] && board[i][j] != ' '))
return board[i][j];
}
}
}
//判断平局
int flag = 0;
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
if (board[i][j] == ' ')
flag = 1;
}
}
if (flag == 0)
return 'Q';
return 'C';
}#include "game.h"
void game()
{
char ret = 0;
srand(time(NULL));
char board[ROW][COL];
//初始化数组 全为空格
init_board(board, ROW, COL);
//打印格式化数组
print_board(board, ROW, COL);
while (1)
{
//玩家下棋
player_move(board, ROW, COL);
print_board(board, ROW, COL);
//判断是否结束
// * 玩家胜利
// # 电脑胜利
// Q 平局
// C 继续游戏
ret=is_win(board, ROW, COL);
if (ret != 'C')
break;
//电脑下棋
computer_move(board, ROW, COL);
print_board(board, ROW, COL);
ret = is_win(board, ROW, COL);
if (ret != 'C')
break;
}
if (ret == '*')
printf("恭喜玩家取得胜利!\n");
else if (ret == '#')
printf("电脑取得胜利。\n");
else if (ret == 'Q')
printf("平局了哦。\n");
}
void meau()
{
printf("*********************\n");
printf("***** 1.play *****\n");
printf("***** 0.exit *****\n");
printf("*********************\n");
}
void test()
{
int input = 0;
do
{
meau();
printf("请选择是否要开始游戏:");
scanf("%d", &input);
switch (input)
{
case 1:
game();
break;
case 0:
printf("退出游戏\n");
break;
default:
printf("选择错误\n");
}
} while (input);
}
int main()
{
test();
return 0;
}
