colliderA | The first collider. |
positionA | Position of the first collider. |
rotationA | Rotation of the first collider. |
colliderB | The second collider. |
positionB | Position of the second collider. |
rotationB | Rotation of the second collider. |
direction | Direction along which the translation required to separate the colliders apart is minimal. |
distance | The distance along direction that is required to separate the colliders apart. |
bool True, if the colliders overlap at the given poses.
Compute the minimal translation required to separate the given colliders apart at specified poses.
Translating the first collider by direction * distance will separate the colliders apart if the function returned true. Otherwise, direction and distance are not defined.
One of the colliders has to be BoxCollider, SphereCollider CapsuleCollider or a convex MeshCollider. The other one can be any type.
Note that you aren't restricted to the position and rotation the colliders have at the moment of the call. Passing position or rotation that is different from the currently set one doesn't have an effect of physically moving any colliders thus has no side effects on the scene.
Doesn't depend on any spatial structures to be updated first, so is not bound to be used only within FixedUpdate timeframe.
Ignores backfaced triangles and doesn't respect Physics.queriesHitBackfaces.
This function is useful to write custom depenetration functions. One particular example is an implementation of a character controller where a specific reaction to collision with the surrounding physics objects is required. In this case, one would first query for the colliders nearby using OverlapSphere and then adjust the character's position using the data returned by ComputePenetration.
#pragma strict // Visualises the minimum translation vectors required to separate apart from other colliders found in a given radius // Attach to a GameObject that has a Collider attached. @ExecuteInEditMode public class ShowPenetration extends MonoBehaviour { public var radius: float = 3f; public var maxNeighbours: int = 16; private var neighbours: Collider[]; public function Start() { neighbours = new Collider[maxNeighbours]; } public function OnDrawGizmos() { var thisCollider: var = GetComponent.<Collider>(); if (!thisCollider)return ; // nothing to do without a Collider attached var count: int = Physics.OverlapSphereNonAlloc(transform.position, radius, neighbours); for (var i: int = 0; i < count; ++i) { var collider: var = neighbours[i]; if (collider == thisCollider)// skip ourself var otherPosition: Vector3 = collider.gameObject.transform.position; var otherRotation: Quaternion = collider.gameObject.transform.rotation; var direction: Vector3; var distance: float; var overlapped: boolean = Physics.ComputePenetration(thisCollider, transform.position, transform.rotation, collider, otherPosition, otherRotation, direction, distance); // draw a line showing the depenetration direction if overlapped if (overlapped) { Gizmos.color = Color.red; Gizmos.DrawRay(otherPosition, direction * distance); } } } }
using UnityEngine;
// Visualises the minimum translation vectors required to separate apart from other colliders found in a given radius // Attach to a GameObject that has a Collider attached. [ExecuteInEditMode()] public class ShowPenetration : MonoBehaviour { public float radius = 3f; // show penetration into the colliders located inside a sphere of this radius public int maxNeighbours = 16; // maximum amount of neighbours visualised
private Collider[] neighbours;
public void Start() { neighbours = new Collider[maxNeighbours]; }
public void OnDrawGizmos() { var thisCollider = GetComponent<Collider>();
if (!thisCollider) return; // nothing to do without a Collider attached
int count = Physics.OverlapSphereNonAlloc(transform.position, radius, neighbours);
for (int i = 0; i < count; ++i) { var collider = neighbours[i];
if (collider == thisCollider) continue; // skip ourself
Vector3 otherPosition = collider.gameObject.transform.position; Quaternion otherRotation = collider.gameObject.transform.rotation;
Vector3 direction; float distance;
bool overlapped = Physics.ComputePenetration( thisCollider, transform.position, transform.rotation, collider, otherPosition, otherRotation, out direction, out distance );
// draw a line showing the depenetration direction if overlapped if (overlapped) { Gizmos.color = Color.red; Gizmos.DrawRay(otherPosition, direction * distance); } } } }
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