我目前正在为我正在参加的其中一门课程开展一个项目。 我在unity3D制作一个2D游戏,我有一个小问题,每次我运行游戏我的角色一直在地图上掉落,即使我已经为我的角色和前景添加了一个rigidbody2D和一个boxCollider2D。代码是附加的,它在C#中,有点长。非常感谢你提前..
enter code here
using System;
using UnityEngine;
using System.Collections;
public class CharacterController2D : MonoBehaviour
{
private const float SkinWidth = .02f;
private const int TotalHorizontalRays = 8;
private const int TotalVerticalRays = 4;
private static readonly float SlopeLimitTanget = Mathf.Tan (75f * Mathf.Deg2Rad);
public LayerMask PlatformMask;
public ControllerParameters2D DefaultParameters;
public ControllerState2D State { get; private set; }
public Vector2 Velocity { get { return _velocity; }}
public bool HandleCollisions { get; set; }
//Return overrideparamteres if it is not null, if it is null it will return DefaultParameters
public ControllerParameters2D Parameters { get { return _overrideParameters ?? DefaultParameters; } }
public GameObject StandingOn { get; private set;}
public Vector3 PlatformVelocity { get; private set;}
public bool CanJump
{
get
{
if(Parameters.JumpRestrictions == ControllerParameters2D.JumpBehavior.CanJumpAnywhere)
return _jumpIn <= 0;
if(Parameters.JumpRestrictions == ControllerParameters2D.JumpBehavior.CanJumpOnGround)
return State.IsGrounded;
return false;
}
}
private Vector2 _velocity;
private Transform _transform;
private Vector3 _localScale;
private BoxCollider2D _boxCollider;
private ControllerParameters2D _overrideParameters;
private float _jumpIn;
private GameObject _lastStandingOn;
private Vector3
_activeGlobalPlatformPoint,
_activeLocalPlatformPoint;
private Vector3
_raycastTopLeft,
_raycastBottomRight,
_raycastBottomLeft;
private float _verticalDistanceBetweenRays,
_horizonatalDistanceBetweenRays;
public void Awake()
{
HandleCollisions = true;
State = new ControllerState2D();
_transform = transform;
_localScale = transform.localScale;
_boxCollider = GetComponent <BoxCollider2D>();
// Absolute Value
var colliderWidth = _boxCollider.size.x * Mathf.Abs(transform.localScale.x) - (2 * SkinWidth);
_horizonatalDistanceBetweenRays = colliderWidth / (TotalVerticalRays - 1);
var colliderHeight = _boxCollider.size.y * Mathf.Abs( transform.localScale.y ) - (2 * SkinWidth);
_verticalDistanceBetweenRays = colliderHeight / (TotalHorizontalRays - 1);
}
public void AddForce(Vector2 force)
{
_velocity = force;
}
public void SetForce(Vector2 force)
{
_velocity += force;
}
public void SetHorizontalForce(float x)
{
_velocity.x = x;
}
public void SetVerticalForce(float y)
{
_velocity.y = y;
}
public void Jump()
{
AddForce(new Vector2(0, Parameters.JumpMagnitude));
_jumpIn = Parameters.JumpFrequency;
}
public void LateUpdate()
{
_jumpIn -= Time.deltaTime;
//We force the player to go up or down based on the gravity
_velocity.y += Parameters.Gravity * Time.deltaTime;
//Move the characther per his velocity scaled by time
Move (Velocity * Time.deltaTime);
}
// Ensures the player doesn't fall off the map or move through the wall
private void Move(Vector2 deltaMovement)
{
var wasGrounded = State.IsCollidingBelow;
State.Reset();
if(HandleCollisions)
{
HandlePlatforms();
CalculateRayOrigins();
if(deltaMovement.y < 0 && wasGrounded)
HandleVerticalSlope(ref deltaMovement);
if(Mathf.Abs(deltaMovement.x) > .001f)
MoveHorizontally(ref deltaMovement);
MoveVertically(ref deltaMovement);
CorrectHorizontalPlacement(ref deltaMovement, true);
CorrectHorizontalPlacement(ref deltaMovement, false);
}
_transform.Translate(deltaMovement, Space.World);
if (Time.deltaTime > 0)
_velocity = deltaMovement / Time.deltaTime;
_velocity.x = Mathf.Min (_velocity.x, Parameters.MaxVelocity.x);
_velocity.y = Mathf.Min (_velocity.y, Parameters.MaxVelocity.y);
if(State.IsMovingUpSlope)
_velocity.y = 0;
//Standing on the platform
if(StandingOn != null)
{
_activeGlobalPlatformPoint = transform.position;
_activeLocalPlatformPoint = StandingOn.transform.InverseTransformPoint(transform.position);
Debug.DrawLine(transform.position, _activeGlobalPlatformPoint);
Debug.DrawLine(transform.position, _activeLocalPlatformPoint + StandingOn.transform.position);
if(_lastStandingOn != StandingOn)
{
//If the last thing we are standing on is not null, send a message to leave it
if(_lastStandingOn != null)
_lastStandingOn.SendMessage("ControllerExist2D", this, SendMessageOptions.DontRequireReceiver);
//Inform what we are standing on that we have entered
StandingOn.SendMessage("ControllerEnter2D", this, SendMessageOptions.DontRequireReceiver);
_lastStandingOn = StandingOn;
}
//Invoke the platform that we are standing on it
else if (StandingOn != null)
StandingOn.SendMessage("ControllerStay2D", this, SendMessageOptions.DontRequireReceiver);
}
else if (_lastStandingOn != null)
{
_lastStandingOn.SendMessage("ControllerExit2D", this, SendMessageOptions.DontRequireReceiver);
_lastStandingOn = null;
}
}
private void HandlePlatforms()
{
//Calculate the velocity of the platform
if(StandingOn != null)
{
var newGlobalPlatformPoint = StandingOn.transform.TransformPoint(_activeLocalPlatformPoint);
var moveDistance = newGlobalPlatformPoint - _activeGlobalPlatformPoint;
//Sticks the player on the platform, wherever the platform teleport the players stays on it
if(moveDistance != Vector3.zero)
transform.Translate(moveDistance, Space.World);
PlatformVelocity = (newGlobalPlatformPoint - _activeGlobalPlatformPoint) / Time.deltaTime;
}
else
PlatformVelocity = Vector3.zero;
StandingOn = null;
}
private void CorrectHorizontalPlacement(ref Vector2 deltaMovement, bool isRight)
{
var halfwidth = (_boxCollider.size.x * _localScale.x) / 2f;
var rayOrigin = isRight ? _raycastBottomRight : _raycastBottomLeft;
if(isRight)
rayOrigin.x -= (halfwidth - SkinWidth);
else
rayOrigin.x += (halfwidth - SkinWidth);
var rayDirection = isRight ? Vector2.right : -Vector2.right;
var offset = 0f;
for(var i = 1; i <= TotalHorizontalRays - 1; i++)
{
var rayVector = new Vector2(deltaMovement.x + rayOrigin.x, deltaMovement.y + rayOrigin.y + (i * _verticalDistanceBetweenRays));
Debug.DrawRay(rayVector, rayDirection * halfwidth, isRight ? Color.cyan : Color.magenta);
var raycastHit = Physics2D.Raycast(rayVector, rayDirection, halfwidth, PlatformMask);
if(!raycastHit)
continue;
offset = isRight ? ((raycastHit.point.x - _transform.position.x) - halfwidth) : (halfwidth - (_transform.position.x - raycastHit.point.x));
}
deltaMovement.x += offset;
}
private void CalculateRayOrigins()
{
var size = new Vector2 (_boxCollider.size.x * Mathf.Abs (_localScale.x), _boxCollider.size.y * Mathf.Abs (_localScale.y)) / 2;
var center = new Vector2(_boxCollider.center.x * _localScale.x, _boxCollider.center.y * _localScale.y);
//Location of the player, then we add the box collider to it relative to the center of the player
_raycastTopLeft = _transform.position + new Vector3 (center.x - size.x + SkinWidth, center.y + size.y - SkinWidth);
_raycastBottomRight = _transform.position + new Vector3 (center.x + size.x - SkinWidth, center.y - size.y + SkinWidth); //Going right
_raycastBottomLeft = _transform.position + new Vector3 (center.x - size.x + SkinWidth, center.y - size.y + SkinWidth); //Going left and down-up
}
//Cast rays to the left or to the right depending on the player's movement
//Determining how far the player can go either to the left, or to the right
private void MoveHorizontally(ref Vector2 deltaMovement)
{
var isGoingRight = deltaMovement.x > 0;
//The distance between the starting point and the final destination
var rayDistance = Mathf.Abs (deltaMovement.x) + SkinWidth;
//Where is the player going? right or left
var rayDirection = isGoingRight ? Vector2.right : -Vector2.right;
//Right? we start from bottom right. Left? we start fro, bottom left
var rayOrigin = isGoingRight ? _raycastBottomRight : _raycastBottomLeft;
//Determines how many rays we want to shoot out to the left or to the right
for(var i = 0; i < TotalHorizontalRays; i++)
{
var rayVector = new Vector2(rayOrigin.x, rayOrigin.y + (i * _verticalDistanceBetweenRays));
//Visual representation about the rays
Debug.DrawRay(rayVector, rayDirection * rayDistance, Color.red);
//Checks if the player hit something or not
var rayCastHit = Physics2D.Raycast(rayVector, rayOrigin, rayDistance, PlatformMask);
if(!rayCastHit) //If there was a raycast then do something, otherwise continue to loop
continue;
//We return true if we are on a horizotnal slope, and check if we are going right or left or hit something while going up
if(i == 0 && HandleHorizontalSlope(ref deltaMovement, Vector2.Angle(rayCastHit.normal, Vector2.up), isGoingRight))
break;
//If we hit something then we can only go that far forward
deltaMovement.x = rayCastHit.point.x - rayVector.x;
rayDistance = Mathf.Abs(deltaMovement.x);
if(isGoingRight)
{
//If we are going right, then we have to substract the skinwidth
deltaMovement.x -= SkinWidth;
State.IsCollidingRight = true;
}
else
{
//The oppoiste of the if statement, if we are going left, we add the skinwidth
deltaMovement.x += SkinWidth;
State.IsCollidingLeft = true;
}
//Handles error collision, if the player hits something and go through it
if(rayDistance < SkinWidth + .0001f)
break;
}
}
private void MoveVertically(ref Vector2 deltaMovement)
{
//Check to see if going up or down
var isGoingUp = deltaMovement.y > 0;
var rayDistance = Mathf.Abs (deltaMovement.y) + SkinWidth;
var rayDirection = isGoingUp ? Vector2.up : -Vector2.up;
var rayOrigin = isGoingUp ? _raycastTopLeft : _raycastBottomLeft;
rayOrigin.x += deltaMovement.x;
var standingOnDistance = float.MaxValue;
for(var Count = 0; Count < TotalVerticalRays; Count++)
{
var rayVector = new Vector2(rayOrigin.x + (Count * _horizonatalDistanceBetweenRays), rayOrigin.y);
Debug.DrawRay(rayVector, rayDirection * rayDistance, Color.red);
var raycastHit = Physics2D.Raycast(rayVector, rayDirection, rayDistance, PlatformMask);
//If the player hit nothing then keep going.
if(raycastHit)
{
continue;
}
if(!isGoingUp)
{
var verticalDistanceToHit = _transform.position.y - raycastHit.point.y;
if(verticalDistanceToHit < standingOnDistance)
{
standingOnDistance = verticalDistanceToHit;
//Platform we are standing on
StandingOn = raycastHit.collider.gameObject;
}
}
//Determine the furthest distance we can move down or up without hitting anything
deltaMovement.y = raycastHit.point.y - rayVector.y;
rayDistance = Mathf.Abs(deltaMovement.y);
if(isGoingUp)
{
deltaMovement.y -= SkinWidth;
State.IsCollidingAbove = true;
}
else
{
deltaMovement.y += SkinWidth;
State.IsCollidingBelow = true;
}
if(!isGoingUp && deltaMovement.y > .0001f)
{
State.IsMovingUpSlope = true;
}
if(rayDistance < SkinWidth + .0001f)
{
break;
}
}
}
private void HandleVerticalSlope(ref Vector2 deltaMovement)
{
//Give us the center of the vertical rays;
var center = (_raycastBottomLeft.x + _raycastBottomRight.x) / 2;
var direction = -Vector2.up;
var slopeDistance = SlopeLimitTanget * (_raycastBottomRight.x - center);
var slopeRayVector = new Vector2 (center, _raycastBottomLeft.y);
Debug.DrawRay(slopeRayVector, direction * slopeDistance, Color.yellow);
var raycastHit = Physics2D.Raycast (slopeRayVector, direction, slopeDistance, PlatformMask);
if (!raycastHit)
return;
// ReSharper disable CompareOfFloatsByEqualityOperator
var isMovingDownSlope = Mathf.Sign (raycastHit.normal.x) == Mathf.Sign (deltaMovement.x);
if(!isMovingDownSlope)
return;
var angle = Vector2.Angle (raycastHit.normal, Vector2.up);
if(Mathf.Abs(angle) < .0001f)
return; //Which means there we are not on a slope, we are on something else
State.IsMovingDownSlope = true;
State.SlopeAngle = angle;
deltaMovement.y = raycastHit.point.y - slopeRayVector.y;
}
private bool HandleHorizontalSlope(ref Vector2 deltaMovement, float angle, bool isGoingRight)
{
//We do not want to move to an angle of 90
if(Mathf.RoundToInt(angle) == 90)
return false;
if(angle > Parameters.SlopeLimit)
{
deltaMovement.x = 0;
return true;
}
if(deltaMovement.y > .07f)
return true;
deltaMovement.x += isGoingRight ? -SkinWidth : SkinWidth;
deltaMovement.y = Mathf.Abs (Mathf.Tan (angle * Mathf.Deg2Rad) * deltaMovement.x);
State.IsMovingUpSlope = true;
State.IsCollidingBelow = true;
return true;
}
public void OnTriggerEnter2D(Collider2D other)
{
var parameters = other.gameObject.GetComponent<ControllerPhysicsVolume2D>();
if(parameters == null)
return;
_overrideParameters = parameters.Parameters;
}
public void OnTriggerExit2D(Collider2D other)
{
var parameters = other.gameObject.GetComponent<ControllerPhysicsVolume2D>();
if(parameters == null)
return;
_overrideParameters = null;
}
}
答案 0 :(得分:0)
正如@Terrance所说,你真的不需要为碰撞检测编写自己的代码逻辑。
其次,我注意到代码中的OnTriggerEnter2D
和OnTriggerExit2D
方法,这也指出了所有boxCollider2d都选中了isTrigger
选项的一件事。因此,我建议您取消选中播放器和地面上的isTrigger
选项,因为TRIGGER永远不会阻止两个物体相互交叉(如果你不这样做,你需要让两个物体的'isTrigger'未经检查希望他们互相通过)。并使用方法OnCollisionEnter2D
和OnCollisionExit2D
来检测碰撞。
触发器和碰撞器有什么区别:
以真实世界为例碰撞器是有形的物体,例如你自己,你站在地板上的地板都是坚固而有形的。
虽然触发器是无形的,但触发器的示例可以是演练安全门;这些门从里面是空心的,允许任何人在没有任何障碍的情况下通过,但是如果你在自己身上穿任何金属物体并穿过门之间的“空心区域”,门就会触发警报。因此,对于游戏世界,你可以说门在它的空心区域有一个触发器。