C语言飞机大战
JysinWee 人气:0技术原型
1、void gotoxy(int x, int y) 函数,该函数可以使光标去到(x,y)的位置进行打印;
2、链表,用于存储状态;
3、windows.h中有非阻塞输入,_kbhit();
4、随机生成数;
5、视觉暂留;
6、碰撞检测;
7、清屏函数;
8、设置边界;
技术路线
1、设置一个边界;
2、维护一个子弹的列表;
3、维护一个敌机的列表;
4、初始化飞机的位置;
5、每隔一秒钟生成一架敌机,生成位置x坐标随机,坐标为0;
6、设置点击空格生成子弹;
7、设置while(1)循环,在其中每次进行清屏和更新;
8、每次更新遍历子弹链表,使所有子弹的位置向上移动1;
9、每次更新遍历敌机链表,使所有敌机的位置向下移动1;
10、碰撞检测,遍历子弹和敌机列表,发现碰撞则从各自的链表中移除碰撞的节点;
11、当有敌机碰撞到本机游戏结束;
12、当子弹或者敌机碰撞到边界,则从链表中移除;
13、每次检测到碰撞加一分。
实现效果
花费时间
约6小时30分钟
代码
#include <stdio.h>
#include <stdlib.h>
#include <conio.h>
#include <time.h>
#include <windows.h>
#include <math.h>
struct node {
int x;
int y;
struct node* next;
};
typedef struct node node_t;
typedef struct node* nodeptr_t;
void gotoxy(int x, int y); //光标定位函数
void print_plane(int x, int y); //打印飞机
nodeptr_t generate_bullet(nodeptr_t listnode, int x, int y); //生成子弹
void print_bullet(nodeptr_t listnode); //打印子弹
nodeptr_t update_bullet(nodeptr_t listnode); //更新子弹位置
nodeptr_t generate_target(nodeptr_t listnode, int x); //生成敌机
void print_target(nodeptr_t listnode); //打印敌机
nodeptr_t update_target(nodeptr_t listnode); //更新敌机位置
int collision_detection(nodeptr_t bulletlist, nodeptr_t targetlist); //碰撞检测
bool is_gameover(int x,int y, nodeptr_t targetlist); // 游戏结束
void clear(nodeptr_t bulletlist, nodeptr_t targetlist);
int main() {
int plane_x = 0, plane_y = 19; //飞机位置
char control; //输入
bool isfire = 0; //是否开火
nodeptr_t target = nullptr; //敌机链表
target = (nodeptr_t)malloc(sizeof(node_t));
target->next = nullptr;
target->x = 0;
target->y = 0;
nodeptr_t bullet = nullptr; //子弹链表
bullet = (nodeptr_t)malloc(sizeof(node_t));
bullet->next = nullptr;
bullet->x = 0;
bullet->y = 0;
int subtime = 0;
time_t starttime;
starttime = time(NULL);
int grade = 0; //分数
int targetspeed = 0;
int bulletspeed = 0;
while(1)
{
system("cls");
time_t currenttime;
currenttime = time(NULL);
//每隔一秒生成一架敌机
if (currenttime - starttime - subtime > 0)
{
srand((unsigned)time(NULL));
unsigned int target_y = rand() % 14 + 3;
target = generate_target(target, target_y);
}
subtime = currenttime - starttime;
//开火则生成子弹
if (isfire)
{
bullet = generate_bullet(bullet, plane_x, plane_y - 1);
isfire = 0;
}
//打印敌机
print_target(target);
targetspeed++;
if(targetspeed % 2 == 0)
target = update_target(target);
//打印子弹
print_bullet(bullet);
bulletspeed++;
if (bulletspeed % 2 == 0)
bullet = update_bullet(bullet);
//碰撞检测
grade = grade + collision_detection(bullet, target);
gotoxy(0, 25);
printf("SCORE: %d", grade);
//打印飞机
print_plane(plane_x, plane_y);
//敌机本机是否相撞
bool isgameover = is_gameover(plane_x, plane_y, target);
//Sleep(100);
//非阻塞键盘输入
if (isgameover)
{
clear(target, bullet);
plane_x = 0;
plane_y = 19;
isfire = 0;
system("cls");
gotoxy(8, 8);
printf("SCORE: %d", grade);
gotoxy(8, 9);
printf("GAME OVER");
grade = 0;
break;
}
if (_kbhit())
{
control = _getch();
if (control == ' ')
isfire = 1;
else
isfire = 0;
if (control == 'w' && plane_y > 0)
plane_y--;
if (control == 's' && plane_y < 20)
plane_y++;
if (control == 'a' && plane_x > 0)
plane_x--;
if (control == 'd' && plane_x < 20)
plane_x++;
}
}
return 0;
}
void gotoxy(int x, int y)//光标定位函数
{
COORD p;//定义结构体变量p
HANDLE handle = GetStdHandle(STD_OUTPUT_HANDLE);//获取当前函数句柄
p.X = x;
p.Y = y;//将光标的目标移动位置传递给结构体
SetConsoleCursorPosition(handle, p);//移动光标
return;
}
void print_plane(int x, int y) //打印飞机
{
if (x == 0)
{
gotoxy(x, y);
printf("*");
gotoxy(x, y + 1);
printf("***");
gotoxy(x, y + 2);
printf(" *");
}
else if (x == 1)
{
gotoxy(x, y);
printf("*");
gotoxy(x-1, y + 1);
printf("****");
gotoxy(x-1, y + 2);
printf("* *");
}
else if (x == 20)
{
gotoxy(x, y);
printf("*");
gotoxy(x - 2, y + 1);
printf("***");
gotoxy(x - 1, y + 2);
printf("* ");
}
else if (x == 19)
{
gotoxy(x, y);
printf("*");
gotoxy(x - 2, y + 1);
printf("****");
gotoxy(x - 1, y + 2);
printf("* *");
}
else
{
gotoxy(x, y);
printf("*");
gotoxy(x - 2, y + 1);
printf("*****");
gotoxy(x - 1, y + 2);
printf("* *");
}
return;
}
nodeptr_t generate_bullet(nodeptr_t listnode, int x, int y)
{
nodeptr_t newbullet = nullptr; //子弹链表
newbullet = (nodeptr_t)malloc(sizeof(node_t));
newbullet->next = listnode->next;
newbullet->x = x;
newbullet->y = y;
listnode->next = newbullet;
return listnode;
}
void print_bullet(nodeptr_t listnode)
{
nodeptr_t templist = listnode;
while (templist->next != nullptr)
{
gotoxy((templist->next->x), templist->next->y);
printf("|");
templist = templist->next;
}
return;
}
nodeptr_t update_bullet(nodeptr_t listnode)
{
nodeptr_t templist = listnode;
while (templist->next != nullptr)
{
if (templist->next->y > 0)
(templist->next->y)--;
else
{
nodeptr_t tempnode = templist->next;
templist->next = tempnode->next;
tempnode->next = nullptr;
free(tempnode);
}
if (templist->next != nullptr)
templist = templist->next;
else
break;
}
return listnode;
}
nodeptr_t generate_target(nodeptr_t listnode, int x)
{
nodeptr_t newtarget = nullptr; //子弹链表
newtarget = (nodeptr_t)malloc(sizeof(node_t));
newtarget->next = listnode->next;
newtarget->x = x;
newtarget->y = 0;
listnode->next = newtarget;
return listnode;
}
void print_target(nodeptr_t listnode)
{
nodeptr_t templist = listnode;
while(templist->next != nullptr)
{
gotoxy(templist->next->x, templist->next->y);
printf("+");
templist = templist->next;
}
return;
}
nodeptr_t update_target(nodeptr_t listnode)
{
nodeptr_t templist = listnode;
while (templist->next != nullptr)
{
if (templist->next->y < 21)
(templist->next->y)++;
else
{
nodeptr_t tempnode = templist->next;
templist->next = tempnode->next;
tempnode->next = nullptr;
free(tempnode);
}
if (templist->next != nullptr)
templist = templist->next;
else
break;
}
return listnode;
}
int collision_detection(nodeptr_t bulletlist, nodeptr_t targetlist)
{
int grade = 0;
nodeptr_t tempbulletlist = bulletlist;
while(tempbulletlist->next != nullptr)
{
nodeptr_t temptargetlist = targetlist;
while(temptargetlist->next != nullptr)
{
if(temptargetlist->next->x == (tempbulletlist->next->x) && temptargetlist->next->y > tempbulletlist->next->y)
{
nodeptr_t tempnode = temptargetlist->next;
temptargetlist->next = tempnode->next;
tempnode->next = nullptr;
free(tempnode);
tempnode = tempbulletlist->next;
tempbulletlist->next = tempnode->next;
tempnode->next = nullptr;
free(tempnode);
grade++;
break;
}
if (temptargetlist->next != nullptr)
temptargetlist = temptargetlist->next;
else
break;
}
if (tempbulletlist->next != nullptr)
tempbulletlist = tempbulletlist->next;
else
break;
}
return grade;
}
bool is_gameover(int x, int y, nodeptr_t targetlist)
{
nodeptr_t temptargetlist = targetlist;
while (temptargetlist->next != nullptr)
{
int tempsub = abs((temptargetlist->next->x) - x);
if (tempsub == 0 && temptargetlist->next->y > y)
{
return 1;
}
else if(tempsub == 1 && temptargetlist->next->y > y + 1)
{
return 1;
}
else if (tempsub == 2 && temptargetlist->next->y > y + 1)
{
return 1;
}
temptargetlist = temptargetlist->next;
}
return 0;
}
void clear(nodeptr_t bulletlist, nodeptr_t targetlist)
{
while (bulletlist->next != nullptr)
{
nodeptr_t temp = bulletlist->next;
bulletlist->next = temp->next;
//temp->next = nullptr;
free(temp);
}
while (targetlist->next != nullptr)
{
nodeptr_t temp = targetlist->next;
targetlist->next = temp->next;
//temp->next = nullptr;
free(temp);
}
return;
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