Version: 2022.1
public static bool BoxCast (Vector3 center, Vector3 halfExtents, Vector3 direction, Quaternion orientation= Quaternion.identity, float maxDistance= Mathf.Infinity, int layerMask= DefaultRaycastLayers, QueryTriggerInteraction queryTriggerInteraction= QueryTriggerInteraction.UseGlobal);

参数

center 盒体的中心。
halfExtents 盒体各个维度大小的一半。
direction 投射盒体的方向。
orientation 盒体的旋转。
maxDistance 投射的最大长度。
layerMask 层遮罩,用于在投射胶囊体时有选择地忽略碰撞体。
queryTriggerInteraction 指定该查询是否应该命中触发器。

返回

bool 如果发现任何交叉点,则返回 true。

描述

沿射线投射盒体并返回有关命中对象的详细信息。


public static bool BoxCast (Vector3 center, Vector3 halfExtents, Vector3 direction, out RaycastHit hitInfo, Quaternion orientation= Quaternion.identity, float maxDistance= Mathf.Infinity, int layerMask= DefaultRaycastLayers, QueryTriggerInteraction queryTriggerInteraction= QueryTriggerInteraction.UseGlobal);

参数

center 盒体的中心。
halfExtents 盒体各个维度大小的一半。
direction 投射盒体的方向。
hitInfo 如果返回 true,则 hitInfo 将包含有关碰撞体的撞击位置的更多信息(另请参阅:RaycastHit)。
orientation 盒体的旋转。
maxDistance 投射的最大长度。
layerMask 层遮罩,用于在投射胶囊体时有选择地忽略碰撞体。
queryTriggerInteraction 指定该查询是否应该命中触发器。

返回

bool 如果发现任何交叉点,则返回 true。

描述

沿射线投射盒体并返回有关命中对象的详细信息。

//Attach this script to a GameObject. Make sure it has a Collider component by clicking the Add Component button. Then click Physics>Box Collider to attach a Box Collider component.
//This script creates a BoxCast in front of the GameObject and outputs a message if another Collider is hit with the Collider’s name.
//It also draws where the ray and BoxCast extends to. Just press the Gizmos button to see it in Play Mode.
//Make sure to have another GameObject with a Collider component for the BoxCast to collide with.

using UnityEngine;

public class Example : MonoBehaviour { float m_MaxDistance; float m_Speed; bool m_HitDetect;

Collider m_Collider; RaycastHit m_Hit;

void Start() { //Choose the distance the Box can reach to m_MaxDistance = 300.0f; m_Speed = 20.0f; m_Collider = GetComponent<Collider>(); }

void Update() { //Simple movement in x and z axes float xAxis = Input.GetAxis("Horizontal") * m_Speed; float zAxis = Input.GetAxis("Vertical") * m_Speed; transform.Translate(new Vector3(xAxis, 0, zAxis)); }

void FixedUpdate() { //Test to see if there is a hit using a BoxCast //Calculate using the center of the GameObject's Collider(could also just use the GameObject's position), half the GameObject's size, the direction, the GameObject's rotation, and the maximum distance as variables. //Also fetch the hit data m_HitDetect = Physics.BoxCast(m_Collider.bounds.center, transform.localScale, transform.forward, out m_Hit, transform.rotation, m_MaxDistance); if (m_HitDetect) { //Output the name of the Collider your Box hit Debug.Log("Hit : " + m_Hit.collider.name); } }

//Draw the BoxCast as a gizmo to show where it currently is testing. Click the Gizmos button to see this void OnDrawGizmos() { Gizmos.color = Color.red;

//Check if there has been a hit yet if (m_HitDetect) { //Draw a Ray forward from GameObject toward the hit Gizmos.DrawRay(transform.position, transform.forward * m_Hit.distance); //Draw a cube that extends to where the hit exists Gizmos.DrawWireCube(transform.position + transform.forward * m_Hit.distance, transform.localScale); } //If there hasn't been a hit yet, draw the ray at the maximum distance else { //Draw a Ray forward from GameObject toward the maximum distance Gizmos.DrawRay(transform.position, transform.forward * m_MaxDistance); //Draw a cube at the maximum distance Gizmos.DrawWireCube(transform.position + transform.forward * m_MaxDistance, transform.localScale); } } }