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Bachelor-Arbeit-Adrian-Haefner/Library/PackageCache/com.unity.xr.arfoundation@ef86c118adc4/Runtime/ARFoundation/ARFaceMeshVisualizer.cs
adriadri6972 d3d9c5f833 upload project
2025-07-31 15:21:08 +02:00

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using System.Collections.Generic;
using Unity.Collections;
using UnityEngine.XR.ARSubsystems;
namespace UnityEngine.XR.ARFoundation
{
/// <summary>
/// Generates a mesh for an <see cref="ARFace"/>.
/// </summary>
/// <remarks>
/// If this <c>GameObject</c> has a <c>MeshFilter</c> and/or <c>MeshCollider</c>,
/// this component will generate a mesh from the underlying <c>XRFace</c>.
/// </remarks>
[RequireComponent(typeof(ARFace))]
[HelpURL(typeof(ARFaceMeshVisualizer))]
public sealed class ARFaceMeshVisualizer : MonoBehaviour
{
/// <summary>
/// Get the <c>Mesh</c> that this visualizer creates and manages.
/// </summary>
public Mesh mesh { get; private set; }
void SetVisible(bool visible)
{
m_MeshRenderer = GetComponent<MeshRenderer>();
if (m_MeshRenderer == null)
{
return;
}
//if it is getting visible after being invisible for a while, set its topology
if (visible && !m_MeshRenderer.enabled)
{
SetMeshTopology();
}
m_MeshRenderer.enabled = visible;
}
void SetMeshTopology()
{
if (mesh == null)
{
return;
}
using (new ScopedProfiler("SetMeshTopology"))
{
using (new ScopedProfiler("ClearMesh"))
mesh.Clear();
if (m_Face.vertices.Length > 0 && m_Face.indices.Length > 0)
{
using (new ScopedProfiler("SetVertices"))
mesh.SetVertices(m_Face.vertices);
using (new ScopedProfiler("SetIndices"))
mesh.SetIndices(m_Face.indices, MeshTopology.Triangles, 0, false);
using (new ScopedProfiler("RecalculateBounds"))
mesh.RecalculateBounds();
if (m_Face.normals.Length == m_Face.vertices.Length)
{
using (new ScopedProfiler("SetNormals"))
mesh.SetNormals(m_Face.normals);
}
else
{
using (new ScopedProfiler("RecalculateNormals"))
mesh.RecalculateNormals();
}
}
if (m_Face.uvs.Length > 0)
{
using (new ScopedProfiler("SetUVs"))
mesh.SetUVs(0, m_Face.uvs);
}
var meshFilter = GetComponent<MeshFilter>();
if (meshFilter != null)
{
meshFilter.sharedMesh = mesh;
}
var meshCollider = GetComponent<MeshCollider>();
if (meshCollider != null)
{
meshCollider.sharedMesh = mesh;
}
m_TopologyUpdatedThisFrame = true;
}
}
void UpdateVisibility()
{
var visible = enabled &&
(m_Face.trackingState != TrackingState.None) &&
(ARSession.state > ARSessionState.Ready);
SetVisible(visible);
}
void OnUpdated(ARFaceUpdatedEventArgs eventArgs)
{
UpdateVisibility();
if (!m_TopologyUpdatedThisFrame)
{
SetMeshTopology();
}
m_TopologyUpdatedThisFrame = false;
}
void OnSessionStateChanged(ARSessionStateChangedEventArgs eventArgs)
{
UpdateVisibility();
}
void Awake()
{
mesh = new Mesh();
m_MeshRenderer = GetComponent<MeshRenderer>();
m_Face = GetComponent<ARFace>();
}
void OnEnable()
{
m_Face.updated += OnUpdated;
ARSession.stateChanged += OnSessionStateChanged;
UpdateVisibility();
}
void OnDisable()
{
m_Face.updated -= OnUpdated;
ARSession.stateChanged -= OnSessionStateChanged;
}
ARFace m_Face;
MeshRenderer m_MeshRenderer;
bool m_TopologyUpdatedThisFrame;
}
}
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