unity3d赛车源码
1. 有谁用unity3D做过赛车游戏
因为 getkey(w)这些 没有返回数, 你要是用Input.GetAxis("Horizontal"); 这个其实在按wsad这些按键的时候,是返回-1到1的float类型的数的,然后再用这个数去乘以那些东西,就能让车轮前进了。motorTorque就是用来让汽车车轮前进的,可以去API里面查一下WheelCollider里面有说明。
而rigidbody.velocity 也可以让有刚体的物体移动,tranform.forward * 1000 则代表你要添加的速度。
你那个 differentialRatio 肯定是跟 Input.GetAxis("Horizontal"); 有关系,你可以在代码里查找一下。
前面那个 GearRatio 是用来控制汽车的档数的,速度到一个阶段,GearRatio 的数字也会不同,代表了这个档数。
2. unity3d作业 现急求制作一份赛车类简单游戏 有酬劳
那你直接用unity5的赛车demo加个场景不就好了吗
查看源码的步骤:对着源码所在的文件夹右键,然后选择Show in Explorer。如图
4. 求一段unity3D汽车自动驾驶的脚本代码
1、把脚本直接连到汽车车身网格上,车身要有Rigidbody Component,要有四个轮子网格做子物体。 要想有声音的话还要有AudioSource Component。
2、打开Inspector,选择汽车脚本,把四个轮子连接到相对应的Transform参数上。设置wheelRadius参数为你轮子网格的大小。WheelCollider是自动生成的,所以无需手动添加。这样就能保证运行了,其他的声音和灰尘可以再添加。
脚本源代码如下:*/
#pragma strict
//maximal corner and braking acceleration capabilities
var maxCornerAccel=10.0;
var maxBrakeAccel=10.0;
//center of gravity height - effects tilting in corners
var cogY = 0.0;
//engine powerband
var minRPM = 700;
var maxRPM = 6000;
//maximum Engine Torque
var maxTorque = 400;
//automatic transmission shift points
var shiftDownRPM = 2500;
var shiftUpRPM = 5500;
//gear ratios
var gearRatios = [-2.66, 2.66, 1.78, 1.30, 1.00];
var finalDriveRatio = 3.4;
//a basic handling modifier:
//1.0 understeer
//0.0 oversteer
var handlingTendency = 0.7;
//graphical wheel objects
var wheelFR : Transform;
var wheelFL : Transform;
var wheelBR : Transform;
var wheelBL : Transform;
//suspension setup
var suspensionDistance = 0.3;
var springs = 1000;
var dampers = 200;
var wheelRadius = 0.45;
//particle effect for ground st
var groundDustEffect : Transform;
private var queryUserInput = true;
private var engineRPM : float;
private var steerVelo = 0.0;
private var brake = 0.0;
private var handbrake = 0.0;
private var steer = 0.0;
private var motor = 0.0;
//private var skidTime = 0.0;
private var onGround = false;
private var cornerSlip = 0.0;
private var driveSlip = 0.0;
private var wheelRPM : float;
private var gear = 1;
//private var skidmarks : Skidmarks;
private var wheels : WheelData[];
private var wheelY = 0.0;
private var rev = 0.0;
//Functions to be used by external scripts
//controlling the car if required
//===================================================================
//return a status string for the vehicle
function GetStatus(gui : GUIText) {
gui.text="v="+(rigidbody.velocity.magnitude * 3.6).ToString("f1") km/h\ngear= "+gear+"\nrpm= "+engineRPM.ToString("f0");
}
//return an information string for the vehicle
function GetControlString(gui : GUIText) {
gui.text="Use arrow keys to control the jeep,\nspace for handbrake."; }
//Enable or disable user controls
function SetEnableUserInput(enableInput)
{
queryUserInput=enableInput;
}
//Car physics
//===================================================================
//some whee calculation data
class WheelData{ + "
var rotation = 0.0;
var coll : WheelCollider;
var graphic : Transform;
var maxSteerAngle = 0.0;
var lastSkidMark = -1;
var powered = false;
var handbraked = false;
var originalRotation : Quaternion;
};
function Start () {
//setup wheels
wheels=new WheelData[4];
for(i=0;i<4;i++)
wheels[i] = new WheelData();
wheels[0].graphic = wheelFL;
wheels[1].graphic = wheelFR;
wheels[2].graphic = wheelBL;
wheels[3].graphic = wheelBR;
wheels[0].maxSteerAngle=30.0;
wheels[1].maxSteerAngle=30.0;
wheels[2].powered=true;
wheels[3].powered=true;
wheels[2].handbraked=true;
wheels[3].handbraked=true;
for(w in wheels)
{
if(w.graphic==null)
Debug.Log("You need to assign all four wheels for the car script!"); if(!w.graphic.transform.IsChildOf(transform))
Debug.Log("Wheels need to be children of the Object with the car script");
w.originalRotation = w.graphic.localRotation;
//create collider
colliderObject = new GameObject("WheelCollider");
colliderObject.transform.parent = transform;
colliderObject.transform.position = w.graphic.position;
w.coll = colliderObject.AddComponent(WheelCollider);
w.coll.suspensionDistance = suspensionDistance;
w.coll.suspensionSpring.spring = springs;
w.coll.suspensionSpring.damper = dampers;
//no grip, as we simulate handling ourselves
w.coll.forwardFriction.stiffness = 0;
w.coll.sidewaysFriction.stiffness = 0;
w.coll.radius = wheelRadius;
}
//get wheel height (height forces are applied on)
wheelY=wheels[0].graphic.localPosition.y;
//setup center of gravity
rigidbody.centerOfMass.y = cogY;
//find skidmark object
// skidmarks = FindObjectOfType(typeof(Skidmarks));
//shift to first
gear=1;
}
//update wheel status
function UpdateWheels()
{
//calculate handbrake slip for traction gfx
handbrakeSlip=handbrake*rigidbody.velocity.magnitude*0.1;
if(handbrakeSlip>1)
handbrakeSlip=1;
totalSlip=0.0;
onGround=false;
for(w in wheels)
{
//rotate wheel
w.rotation += wheelRPM / 60.0 * -rev * 360.0 * Time.fixedDeltaTime; w.rotation = Mathf.Repeat(w.rotation, 360.0);
w.graphic.localRotation= Quaternion.Euler( w.rotation, w.maxSteerAngle*steer, 0.0 ) * w.originalRotation;
//check if wheel is on ground
if(w.coll.isGrounded)
onGround=true;
slip = cornerSlip+(w.powered?driveSlip:0.0)+(w.handbraked?handbrakeSlip:0.0); totalSlip += slip;
var hit : WheelHit;
var c : WheelCollider;
c = w.coll;
if(c.GetGroundHit(hit))
{
//if the wheel touches the ground, adjust graphical wheel position to reflect springs
w.graphic.localPosition.y-=Vector3.Dot(w.graphic.position-hit.point,transform.up)-w.coll.radius;
//create st on ground if appropiate
if(slip>0.5 && hit.collider.tag=="Dusty")
{
groundDustEffect.position=hit.point;
groundDustEffect.particleEmitter.worldVelocity=rigidbody.velocity*0.5; groundDustEffect.particleEmitter.minEmission=(slip-0.5)*3; groundDustEffect.particleEmitter.maxEmission=(slip-0.5)*3;
groundDustEffect.particleEmitter.Emit(); }
//and skid marks
/*if(slip>0.75 && skidmarks != null)
w.lastSkidMark=skidmarks.AddSkidMark(hit.point,hit.normal,(slip-0.75)*2,w.lastSkidMark);
else
w.lastSkidMark=-1; */
}
// else w.lastSkidMark=-1;
}
totalSlip/=wheels.length;
}
//Automatically shift gears
function AutomaticTransmission()
{
if(gear>0)
{
if(engineRPM>shiftUpRPM&&gear<gearRatios.length-1)
gear++;
if(engineRPM<shiftDownRPM&&gear>1)
gear--;
}
}
//Calculate engine acceleration force for current RPM and trottle
function CalcEngine() : float
{
if(brake+handbrake>0.;motor=0.0;;//ifcarisairborne,justre;if(!onGround);engineRPM+=(motor-0.3)*2;engineRPM=Mathf.Clamp(en;return0.0;;else;AutomaticTransmission();;engineRPM=whee
if(brake+handbrake>0.1)
motor=0.0;
//if car is airborne, just rev engine
if(!onGround)
{
engineRPM += (motor-0.3)*25000.0*Time.deltaTime;
engineRPM = Mathf.Clamp(engineRPM,minRPM,maxRPM);
return 0.0;
}
else
{
AutomaticTransmission();
engineRPM=wheelRPM*gearRatios[gear]*finalDriveRatio;
if(engineRPM<minRPM)
engineRPM=minRPM;
if(engineRPM<maxRPM)
{
//fake a basic torque curve
x = (2*(engineRPM/maxRPM)-1);
torqueCurve = 0.5*(-x*x+2);
torqueToForceRatio = gearRatios[gear]*finalDriveRatio/wheelRadius; return
motor*maxTorque*torqueCurve*torqueToForceRatio;
}
else
//rpm delimiter
return 0.0;
}
}
//Car physics
//The physics of this car are really a trial-and-error based extension of
//basic "Asteriods" physics -- so you will get a pretty arcade-like feel. //This
may or may not be what you want, for a more physical approach research //the
wheel colliders
function HandlePhysics () {
var velo=rigidbody.velocity;
wheelRPM=velo.magnitude*60.0*0.5;
rigidbody.angularVelocity=new
Vector3(rigidbody.angularVelocity.x,0.0,rigidbody.angularVelocity.z);
dir=transform.TransformDirection(Vector3.forward);
flatDir=Vector3.Normalize(new Vector3(dir.x,0,dir.z));
flatVelo=new Vector3(velo.x,0,velo.z);
rev=Mathf.Sign(Vector3.Dot(flatVelo,flatDir));
//when moving backwards or standing and brake is pressed, switch to
reverse
if((rev<0||flatVelo.sqrMagnitude<0.5)&&brake>0.1)
gear=0;
if(gear==0)
{
//when in reverse, flip brake and gas
tmp=brake;
brake=motor;
motor=tmp;
//when moving forward or standing and gas is pressed, switch to drive
if((rev>0||flatVelo.sqrMagnitude<0.5)&&brake>0.1)
gear=1;
}
engineForce=flatDir*CalcEngine();
totalbrake=brake+handbrake*0.5;
if(totalbrake>1.0)totalbrake=1.0;
brakeForce=-flatVelo.normalized*totalbrake*rigidbody.mass*maxBrakeAccel;
flatDir*=flatVelo.magnitude;
flatDir=Quaternion.AngleAxis(steer*30.0,Vector3.up)*flatDir;
flatDir*=rev;
diff=(flatVelo-flatDir).magnitude;
cornerAccel=maxCornerAccel;
if(cornerAccel>diff)cornerAccel=diff;
cornerForce=-(flatVelo-flatDir).normalized*cornerAccel*rigidbody.mass;
cornerSlip=Mathf.Pow(cornerAccel/maxCornerAccel,3);
rigidbody.AddForceAtPosition(brakeForce+engineForce+cornerForce,transform.position+transform.up*wheelY);
handbrakeFactor=1+handbrake*4;
if(rev<0)
handbrakeFactor=1;
veloSteer=((15/(2*velo.magnitude+1))+1)*handbrakeFactor;
steerGrip=(1-handlingTendency*cornerSlip);
if(rev*steer*steerVelo<0)
steerGrip=1;
maxRotSteer=2*Time.fixedDeltaTime*handbrakeFactor*steerGrip;
fVelo=velo.magnitude;
veloFactor=fVelo<1.0?fVelo:Mathf.Pow(velo.magnitude,0.3);
steerVeloInput=rev*steer*veloFactor*0.5*Time.fixedDeltaTime*handbrakeFactor;
if(velo.magnitude<0.1)
steerVeloInput=0;
if(steerVeloInput>steerVelo)
{
steerVelo+=0.02*Time.fixedDeltaTime*veloSteer;
if(steerVeloInput<steerVelo)
steerVelo=steerVeloInput;
}
else
{
steerVelo-=0.02*Time.fixedDeltaTime*veloSteer;
if(steerVeloInput>steerVelo)
steerVelo=steerVeloInput;
}
steerVelo=Mathf.Clamp(steerVelo,-maxRotSteer,maxRotSteer);
transform.Rotate(Vector3.up*steerVelo*57.295788);
}
function FixedUpdate () {
//query input axes if necessarry
if(queryUserInput)
{
brake = Mathf.Clamp01(-Input.GetAxis("Vertical"));
handbrake = Input.GetButton("Jump")?1.0:0.0;
steer = Input.GetAxis("Horizontal");
motor = Mathf.Clamp01(Input.GetAxis("Vertical"));
}
else
{
motor = 0;
steer = 0;
brake = 0;
handbrake = 0;
}
//if car is on ground calculate handling, otherwise just rev the engine
if(onGround)
HandlePhysics();
else
CalcEngine();
//wheel GFX
UpdateWheels();
//engine sounds
audio.pitch=0.5+0.2*motor+0.8*engineRPM/maxRPM;
audio.volume=0.5+0.8*motor+0.2*engineRPM/maxRPM;
}
//Called by DamageReceiver if boat destroyed
function Detonate()
{
//destroy wheels
for( w in wheels )
w.coll.gameObject.active=false; //no more car physics
enabled=false;
}
5. Unity3D这款游戏引擎软件的源码是开源的吗
Unity3D是不开源的。
相关介绍:
Unity类似于Director、Blender game engine、Virtools 或 Torque Game Builder等利用交互的图型化开发环境为首要方式的软件。
开放源码软件通常是有right的,它的许可证可能包含这样一些限制: 蓄意的保护它的开放源码状态,着者身份的公告,或者开发的控制。“开放源码”正在被公众利益软件组织注册为认证标记,这也是创立正式的开放源码定义的一种手段。
(5)unity3d赛车源码扩展阅读
开放源码软件主要被散布在全世界的编程者队伍所开发,但是同时一些大学,政府机构承包商,协会和商业公司也开发它。源代码开放是信息技术发展引发网络革命所带来的面向未来以开放创新、共同创新为特点的、以人为本的创新2.0模式在软件行业的典型体现和生动注解。
共享软件。允许他人自由拷贝并收取合理注册费用。使用者可在软件规定的试用期限内免费试用,再决定注册购买与否。大部分共享版软件都有功能和时间限制,试用期通常分为7天、21天、30天不等。而有的共享软件还限制用户只能安装一次,若删除后重新安装将会失效。像Winzip、ACDSee等软件就是共享软件。
6. 我在用unity3d编一个赛车游戏,其中遇到了几个问题:
问题1:
解决方案:
速度增加和减少用插值
在达到目标速度前 用临时速度代替 这个是数学方法
或者将车的rigibody施加力,利用物理引擎的加速度效果来实现,这个是物理方法,具体用哪个和你让车一动的逻辑有关
问题2:
在站点处放置一个空cube
然后将is trigger属性打开
在碰撞里面判断
cube的脚本里面记录名次
能听的懂吗?
希望对你有用啊:)
7. unity3d游戏源码怎么学习
编程语言C#和JS,可以网上分享或开源的游戏源码进行自学,如果想要系统性的学习可以参加培训。
8. 求unity3d小游戏和源码
m2h 5 个源码 http://game.ceeger.com/forum/read.php?tid=1229 并且这个论坛里面还有其他的源码和资源,插件 可以看看
9. 求用C#开发的unity3D游戏源码
m2h 5 个源码
http://game.ceeger.com/forum/read.php?tid=1229
并且这个论坛里面还有其他的源码和资源,插件 可以看看