我要评论自动挡汽车功能分析:
(1)刹车数值用连续量0-255表示,连续量根据键盘按键按下时长进行递增,1秒后达到峰值,无论车辆处于前进挡还是倒挡,踩下刹车后车辆逐渐减速至0
(2)汽车分为四个挡位,停车挡p,倒挡r,空挡n,前进挡d
(3)汽车启动后,松开刹车,车辆进入怠速模式,速度从0逐步提升至12km/h
(4)刹车数值用连续量0-255表示。车速对应1档0-10,2档11-20,3档21-40,4档41-60,5档61-80,6档81-最大值,对应峰值车速150km/h
(5)挂住p档,拉起手刹车辆停止。
(6)挂住r档,车辆可进行倒车操作。
(7)通过键盘a和d可以控制车辆左右转向
运行结果图:
启动车辆,拉起手刹,挂前进挡,车辆进入怠速模式,缓慢进行加速。
速度提升到12km/h后匀速行驶,继续加速需要踩下油门。
踩下油门后车辆快速加速,自行切换挡位:
前进时踩下刹车后车子逐渐减速至0:
切换至倒挡,踩下油门,车辆后退,踩下刹车,车子逐渐减速至0:
前进时左右转向:
倒挡时左右转型:
源代码:
采用manager of manager的方式,使用了单例模式。
1.car_mng类负责管理车辆的物理仿真
2.input_mng类负责接受用户的键盘输入信息
3.ui_mng类负责更新ui界面的显示
car_mng
using system.collections;
using system.collections.generic;
using system.diagnostics.tracing;
using unityengine;
public class car_mng : monobehaviour
{
static public car_mng instance;
public speedgear speedgear;
public float maxmotortorque; //最大的前进力矩
public float maxspeed; //车辆最大前进速度
public float maxreversmotortorque; //最大的倒车力矩
public float maxbraketoeque; //最大的刹车阻力
public float maxsteeringangle; //主动轮最大的旋转角度
public rigidbody car; //车辆的刚体
public wheelcollider[] coliders; //车轮碰撞器
public gameobject[] wheelmesh; //车轮模型
public carstate carstate=carstate.off; //车辆启动状态
public gearstate gearstate = gearstate.parkinggear; //车辆的挡位
public bool ishandbrakeon; //是否拉起手刹的标志位
public float currentspeed=0; //计算当前车辆的速度
private bool currenthandbrakestate=true;
private void awake()
{
instance = this;
}
void start()
{
/* coliders[0].steerangle = 30;
coliders[1].steerangle = 30;
for (int i = 0; i < 4; i++)
{
quaternion quat;
vector3 position;
coliders[i].getworldpose(out position, out quat);
debug.log(position);
debug.log(quat.eulerangles);
wheelmesh[i].transform.position = position;
wheelmesh[i].transform.rotation =
coliders[i].transform.rotation * quaternion.euler(0, coliders[i].steerangle, 0);
}*/
}
private void update()
{
updatehandbrokestate(); //更新手刹状态
}
private void fixedupdate()
{
if (gearstate == gearstate.forwardgear || gearstate == gearstate.reversgear)
{
brakecalculate(); //刹车计算 阻力
acccalculate(); //油门计算 动力
}
steercalculate();
updatecarspeed(); //更新车子的速度
autochangegear(); //自动换挡 自动挡的车子
synchronouswheelmesh(); //将车轮的状态同步给车的模型
}
void synchronouswheelmesh()
{
for (int i = 0; i < 6; i++)
{
quaternion quat;
vector3 position;
coliders[i].getworldpose(out position, out quat);
wheelmesh[i].transform.position = position;
wheelmesh[i].transform.rotation = quat;
}
}
void updatehandbrokestate()
{
if (currenthandbrakestate != ishandbrakeon)
{
currenthandbrakestate = ishandbrakeon;
if (currenthandbrakestate)
{
pulluphandbrake();
}
else
{
pulldownhandbrake();
}
}
} //更新手刹状态
public void startcar() //启动车辆
{
carstate = carstate.on;
}
public void stopcar() //停车
{
carstate = carstate.off; //停止接收油门、方向盘、刹车信号
gearstate = gearstate.parkinggear; //挂上停车挡
pulluphandbrake(); //拉起手刹
}
void pulluphandbrake() //拉起手刹,相当于阻力矩最大,直接freeze车辆刚体的运动
{
ishandbrakeon = true; //设置标志位
//仅保留y轴向的运动
car.constraints = rigidbodyconstraints.freezerotation
| rigidbodyconstraints.freezepositionx | rigidbodyconstraints.freezepositionz;
}
void pulldownhandbrake() //放下手刹,解锁运动
{
ishandbrakeon = false;
//解锁所有运动
car.constraints = rigidbodyconstraints.none;
}
void brakecalculate() //计算刹车的阻力
{
var value = input_mng.instance.getbrakevalue(); //读取刹车阻力
var braketoequeperwheel = maxbraketoeque / 2 * value / 255; //计算一个车轮的阻力
coliders[0].motortorque = 0;
coliders[1].motortorque = 0;
for (int i = 0; i < 6; i++)
{
coliders[i].braketorque = braketoequeperwheel;
}
// debug.log("刹车阻力:"+ braketoequeperwheel);
}
void acccalculate() //油门动力计算
{
if (gearstate == gearstate.forwardgear) //前进
{
var value = input_mng.instance.getacceleratorvalue();
if (value != 0) //加速行驶
{
if(meterperseconds2kmperhour(currentspeed) <= 150)
{
var acctoequeperwheel = maxmotortorque * value / 255; //计算一个车轮的动力
coliders[0].motortorque = acctoequeperwheel;
coliders[1].motortorque = acctoequeperwheel;
}
else //不能超过速度上限
{
coliders[0].motortorque = 0;
coliders[1].motortorque = 0;
}
}
else //怠速驾驶
{
if (meterperseconds2kmperhour(currentspeed) < 12)
{
coliders[0].motortorque = 100;
coliders[1].motortorque = 100;
}
else
{
debug.log("无动力");
for (int i = 0; i < 6; i++)
{
coliders[i].motortorque = 0;
}
}
}
}
else //倒车
{
var value = input_mng.instance.getacceleratorvalue();
var acctoequeperwheel = maxreversmotortorque / 2 * value / 255; //计算一个车轮的动力
coliders[0].motortorque = -acctoequeperwheel;
coliders[1].motortorque = -acctoequeperwheel;
}
}
void steercalculate() //计算转向
{
var value= input_mng.instance.getsteervalue();
var steerangle = (value - 128) / 128 * maxsteeringangle; //计算旋转角度
coliders[0].steerangle = steerangle;
coliders[1].steerangle = steerangle;
}
void autochangegear() //自动挡,前进时根据车辆的速度自动切换挡位
{
if (gearstate == gearstate.forwardgear)
{
var speed = meterperseconds2kmperhour(currentspeed);
if (speed <= 10 && speed > 0)
{
speedgear = speedgear.speed01;
}
if (speed <= 20 && speed > 10)
{
speedgear = speedgear.speed02;
}
if (speed <= 40 && speed > 20)
{
speedgear = speedgear.speed03;
}
if (speed <= 60 && speed > 40)
{
speedgear = speedgear.speed04;
}
if (speed <= 80 && speed > 60)
{
speedgear = speedgear.speed05;
}
if (speed <= 155 && speed > 80)
{
speedgear = speedgear.speed06;
}
}
else
{
speedgear = speedgear.none;
}
}
void updatecarspeed()
{
currentspeed = car.velocity.magnitude;
}
static public float meterperseconds2kmperhour(float speed) //切换单位 m/s换算成 km/h
{
return speed*3.6f;
}
static float kmperhour2meterperseconds(float speed) //切换单位 km/h换算成m/s
{
return speed/3.6f;
}
}
public enum carstate
{
off = 0, //关机状态
on = 1, //运行状态
}
public enum gearstate
{
parkinggear = 1, //停车挡
reversgear = 2, //倒挡
neutralgear = 3, //空挡
forwardgear = 4, //前进挡
}
public enum speedgear
{
none,
speed01,
speed02,
speed03,
speed04,
speed05,
speed06
}
input_mng
using system.collections;
using system.collections.generic;
using unityengine;
public class input_mng : monobehaviour
{
static public input_mng instance; //单例模式
private keycode brakeycode=keycode.m; //刹车对应的键盘按键
public float brakevalue = 0; //刹车值
public bool isbra = false;
private keycode acckeycode=keycode.w; //油门对应的键盘按键
public float acceleratorvalue = 0; //油门值
public bool isacc = false;
private keycode leftsteerkeycode = keycode.a;
private keycode rightsteerkeycode = keycode.d;
public float steervalue = 128;
private keycode parkingkeycode = keycode.alpha1; //停车对应的按键
private keycode reverskeycode = keycode.alpha2; //倒车对应的按键
private keycode neutralkeycode = keycode.alpha3; //空挡对应的按键
private keycode forwardkeycode = keycode.alpha4; //前进挡对应的按键
private keycode handbrakekeycode = keycode.h; //手刹对应的按键
public float getbrakevalue() //获取刹车值
{
return brakevalue;
}
public float getacceleratorvalue() //获取油门值
{
return acceleratorvalue;
}
public float getsteervalue()
{
return steervalue;
} //获取转弯值
private void awake()
{
instance = this;
}
private void update()
{
if (car_mng.instance.carstate == carstate.on) //当车辆启动后,检测油门刹车和挡位变换
{
updategeerstate();
}
updatesteervalue();
updatehandbrakestate();
updateacceleratorvalue(acckeycode);
updatebrakevalue(brakeycode);
}
void updatehandbrakestate()
{
if (input.getkeydown(handbrakekeycode))
{
if (car_mng.instance.ishandbrakeon)
{
car_mng.instance.ishandbrakeon = false;
}
else
{
car_mng.instance.ishandbrakeon = true;
}
}
}
void updateacceleratorvalue(keycode acccode)
{
if (input.getkey(acccode))
{
acceleratorvalue += 255 * time.deltatime;
acceleratorvalue = mathf.clamp(acceleratorvalue, 0, 255);
isacc = true;
}
else
{
acceleratorvalue = 0;
isacc = false;
}
} //更新油门状态
void updatebrakevalue(keycode bracode) //更新刹车状态
{
if (input.getkey(bracode))
{
brakevalue += 255 * time.deltatime;
brakevalue = mathf.clamp(brakevalue, 0, 255);
isbra = true;
}
else
{
brakevalue = 0;
isbra = false;
}
}
void updatesteervalue() //更新方向盘状态
{
if (input.getkey(leftsteerkeycode))
{
steervalue -= 255 * time.deltatime; //0.5秒左侧打死
steervalue = mathf.clamp(steervalue, 0, 255);
}else if(input.getkey(rightsteerkeycode))
{
steervalue += 255 * time.deltatime; //0.5秒右侧打死
steervalue = mathf.clamp(steervalue, 0, 255);
}
else
{
steervalue = 128;
}
}
void updategeerstate() //更新挡位状态
{
if (input.getkeydown(parkingkeycode)) //设置为停车档
{
car_mng.instance.gearstate = gearstate.parkinggear;
}
if (input.getkeydown(reverskeycode)) //倒车档
{
car_mng.instance.gearstate = gearstate.reversgear;
}
if (input.getkeydown(neutralkeycode)) //空挡
{
car_mng.instance.gearstate = gearstate.neutralgear;
}
if (input.getkeydown(forwardkeycode)) //前进挡
{
car_mng.instance.gearstate = gearstate.forwardgear;
}
}
}
ui_mng
using system.collections;
using system.collections.generic;
using system.drawing;
using unityengine;
using unityengine.ui;
public class ui_mng : monobehaviour
{
static public ui_mng instance;
public image parkingbg; //停车档
public image forwardbg; //前进挡
public image neutralbg; //空挡
public image reversbg; //倒车档
public image handbrakebg; //手刹
public text speedtext; //速度显示
public text speedgeartext; //挡位显示
public image switchbg; //开关背景
public text switchtext; //开关显示文字
public image accbg; //油门
public image brabg; //刹车
private gearstate currentgearstate;
private bool currentbrakestate;
private void awake()
{
instance = this;
}
private void update()
{
updategearui();
updatehandbrakeui();
updateaccbra();
updatespeed();
}
void updatespeed()
{
speedtext.text = car_mng.meterperseconds2kmperhour(car_mng.instance.currentspeed).tostring("f2")
+ " km/h";
speedgear speedgear = car_mng.instance.speedgear;
switch (speedgear)
{
case speedgear.none:
speedgeartext.text = "自动挡";
break;
case speedgear.speed01:
speedgeartext.text = "1挡";
break;
case speedgear.speed02:
speedgeartext.text = "2挡";
break;
case speedgear.speed03:
speedgeartext.text = "3挡";
break;
case speedgear.speed04:
speedgeartext.text = "4挡";
break;
case speedgear.speed05:
speedgeartext.text = "5挡";
break;
case speedgear.speed06:
speedgeartext.text = "6挡";
break;
default:
break;
}
}
void updateaccbra()
{
if (input_mng.instance.isacc)
{
accbg.color = unityengine.color.green;
}
else
{
accbg.color = unityengine.color.white;
}
if (input_mng.instance.isbra)
{
brabg.color = unityengine.color.green;
}
else
{
brabg.color = unityengine.color.white;
}
}
void updatehandbrakeui()
{
if (currentbrakestate != car_mng.instance.ishandbrakeon)
{
currentbrakestate = car_mng.instance.ishandbrakeon;
if (currentbrakestate)
{
handbrakebg.color = unityengine.color.red;
}
else
{
handbrakebg.color = unityengine.color.white;
}
}
}
private void start()
{
car_mng.instance.stopcar(); //关闭车辆
oncarshutdown();//更新ui
}
void updategearui()
{
if (currentgearstate != car_mng.instance.gearstate)
{
currentgearstate = car_mng.instance.gearstate;
cleargearui();
setgearui(currentgearstate);
}
}
void cleargearui()
{
parkingbg.color = unityengine.color.white;
forwardbg.color = unityengine.color.white;
neutralbg.color = unityengine.color.white;
reversbg.color = unityengine.color.white;
}
void setgearui(gearstate state)
{
switch (state)
{
case gearstate.forwardgear:
forwardbg.color = unityengine.color.red;
break;
case gearstate.reversgear:
reversbg.color = unityengine.color.red;
break;
case gearstate.neutralgear:
neutralbg.color = unityengine.color.red;
break;
case gearstate.parkinggear:
parkingbg.color = unityengine.color.red;
break;
}
}
public void changecarstate()
{
if (car_mng.instance.carstate == carstate.on) //如果处于开机状态,则停机
{
car_mng.instance.stopcar(); //关闭车辆
oncarshutdown();//更新ui
}else
{
car_mng.instance.startcar(); //启动车子
oncarstart();//更新ui
}
}
private void oncarstart() //车辆启动时更新ui
{
switchbg.color = unityengine.color.red;
switchtext.text = "关闭车辆";
}
private void oncarshutdown() //车辆关闭时执行的逻辑
{
switchbg.color = unityengine.color.green;
switchtext.text = "启动车辆";
}
}
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持移动技术网。
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