Specifies Layers to use in a Physics.Raycast.
A GameObject can use up to 32 LayerMasks supported by the Editor. The first 8 of these Layers
are specified by Unity; the following 24 are controllable by the user.
Bitmasks represent the 32 Layers and define them as true
or false
. Each bitmask describes whether the Layer
is used. As an example, bit 5 can be set to 1 (true
). This will allow the use of the built-in Water
setting.Edit->Settings->Tags and Layers
option shows the use of the 32 bitmasks. Each Layer
is shown with a string setting. As an example Built-in Layer 0
is set as Default
; Built-in Layer 1
is set as TransparentFX
. New named Layer
s are added above bitmask layer 8. A selected GameObject
will show the chosen Layer
at top right of the Inspector. The example below has User Layer 13
set to "Wall". This causes the assigned GameObject
to be treated as part of a building.
In the following script example, Physics.Raycast sends a ray into the world. Camera.main can be rotated around the y-axis and fire a ray. Three GameObjects represent walls that can be hit by the fired ray. Each GameObject has GameObject.label set to the "Wall" layerMask.
using UnityEngine;
// Fire a gun at 3 walls in the scene. // // The Raycast will be aimed in the range of -45 to 45 degrees. If the Ray hits any of the // walls true will be returned . The three walls all have a Wall Layer attached. The left // and right keys, and the space key, are all used to aim and fire. // // Quad floor based at (0, -0.5, 0), rotated in x by 90 degrees, scale (8, 8, 8). // ZCube wall at (0, 0.5, 6), scale (3, 2, 0.5). // LCube wall at (-3, 0, 3), scale (0.5, 1, 4). // RCube wall at (3, 1.5, 3), scale (1, 4, 4).
public class ExampleScript : MonoBehaviour { private float cameraRotation;
void Start() { Camera.main.transform.position = new Vector3(0, 0.5f, 0); cameraRotation = 0.0f; }
// Rotate the camera based on what the user wants to look at. // Avoid rotating more than +/-45 degrees. void Update() { if (Input.GetKey("left")) { cameraRotation -= 1f; if (cameraRotation < -45.0f) { cameraRotation = -45.0f; } }
if (Input.GetKey("right")) { cameraRotation += 1f; if (cameraRotation > 45.0f) { cameraRotation = 45.0f; } }
// Rotate the camera Camera.main.transform.localEulerAngles = new Vector3(0.0f, cameraRotation, 0.0f); }
void FixedUpdate() { Transform transform = Camera.main.transform;
if (Input.GetKeyUp("space")) { // Check for a Wall. LayerMask mask = LayerMask.GetMask("Wall");
// Check if a Wall is hit. if (Physics.Raycast(transform.position, transform.forward, 20.0f, mask)) { Debug.Log("Fired and hit a wall"); } } } }
Note: LayerMask is a bitmask. Use LayerMask.GetMask and LayerMask.LayerToName to generate the bitmask.
value | Converts a layer mask value to an integer value. |
GetMask | Given a set of layer names as defined by either a Builtin or a User Layer in the Tags and Layers manager, returns the equivalent layer mask for all of them. |
LayerToName | Given a layer number, returns the name of the layer as defined in either a Builtin or a User Layer in the Tags and Layers manager. |
NameToLayer | Given a layer name, returns the layer index as defined by either a Builtin or a User Layer in the Tags and Layers manager. |
LayerMask | Implicitly converts an integer to a LayerMask. |