UnityGame/Library/PackageCache/com.unity.render-pipelines.core/Runtime/PostProcessing/LensFlareComponentSRP.cs
2024-10-27 10:53:47 +03:00

237 lines
9.1 KiB
C#

#if UNITY_EDITOR
using UnityEditor;
#endif
using System;
using System.Dynamic;
using UnityEngine.Serialization;
namespace UnityEngine.Rendering
{
/// <summary>
/// Data-Driven Lens Flare can be added on any gameobject
/// </summary>
[ExecuteAlways]
[AddComponentMenu("Rendering/Lens Flare (SRP)")]
public sealed class LensFlareComponentSRP : MonoBehaviour
{
[SerializeField]
private LensFlareDataSRP m_LensFlareData = null;
enum Version
{
Initial,
}
#pragma warning disable 414
[SerializeField]
Version version = Version.Initial;
#pragma warning restore 414
/// <summary>
/// Lens flare asset used on this component
/// </summary>
public LensFlareDataSRP lensFlareData
{
get
{
return m_LensFlareData;
}
set
{
m_LensFlareData = value;
OnValidate();
}
}
/// <summary>
/// Intensity
/// </summary>
[Min(0.0f)]
public float intensity = 1.0f;
/// <summary>
/// Distance used to scale the Distance Attenuation Curve
/// </summary>
[Min(1e-5f)]
public float maxAttenuationDistance = 100.0f;
/// <summary>
/// Distance used to scale the Scale Attenuation Curve
/// </summary>
[Min(1e-5f)]
public float maxAttenuationScale = 100.0f;
/// <summary>
/// Attenuation by distance
/// </summary>
public AnimationCurve distanceAttenuationCurve = new AnimationCurve(new Keyframe(0.0f, 1.0f), new Keyframe(1.0f, 0.0f));
/// <summary>
/// Scale by distance, use the same distance as distanceAttenuationCurve
/// </summary>
public AnimationCurve scaleByDistanceCurve = new AnimationCurve(new Keyframe(0.0f, 1.0f), new Keyframe(1.0f, 0.0f));
/// <summary>
/// If component attached to a light, attenuation the lens flare per light type
/// </summary>
public bool attenuationByLightShape = true;
/// <summary>
/// Attenuation used radially, which allow for instance to enable flare only on the edge of the screen
/// </summary>
public AnimationCurve radialScreenAttenuationCurve = new AnimationCurve(new Keyframe(0.0f, 1.0f), new Keyframe(1.0f, 1.0f));
/// <summary>
/// Enable Occlusion feature
/// </summary>
public bool useOcclusion = false;
/// <summary>
/// Enable Occlusion using Background Cloud (for instance: CloudLayer)
/// Please use useFogOpacityOcclusion instead.
/// </summary>
[Obsolete("Replaced by environmentOcclusion.")]
public bool useBackgroundCloudOcclusion = false;
/// <summary>Enable occlusion from environment effects supported by the render pipeline. This may include opacity from volumetric clouds, background clouds, fog and water.</summary>
[FormerlySerializedAs("volumetricCloudOcclusion")]
[FormerlySerializedAs("useFogOpacityOcclusion")]
public bool environmentOcclusion = false;
/// <summary>
/// Enable Occlusion with Water
/// </summary>
[Obsolete("Replaced by environmentOcclusion.")]
public bool useWaterOcclusion = false;
/// <summary>
/// Radius around the light used to occlude the flare (value in world space)
/// </summary>
[Min(0.0f)]
public float occlusionRadius = 0.1f;
/// <summary>
/// Random Samples Count used inside the disk with 'occlusionRadius'
/// </summary>
[Range(1, 64)]
public uint sampleCount = 32;
/// <summary>
/// Z Occlusion Offset allow us to offset the plane where the disc of occlusion is place (closer to camera), value on world space.
/// Useful for instance to sample occlusion outside a light bulb if we place a flare inside the light bulb
/// </summary>
public float occlusionOffset = 0.05f;
/// <summary>
/// Global Scale
/// </summary>
[Min(0.0f)]
public float scale = 1.0f;
/// <summary>
/// If allowOffScreen is true then If the lens flare is outside the screen we still emit the flare on screen
/// </summary>
public bool allowOffScreen = false;
/// <summary>
/// If volumetricCloudOcclusion is true then use the volumetric cloud (on HDRP only) for the occlusion
/// Please use useFogOpacityOcclusion instead.
/// </summary>
[Obsolete("Please use environmentOcclusion instead.")]
public bool volumetricCloudOcclusion = false;
/// Our default celestial body will have an angular radius of 3.3 degrees. This is an arbitrary number, but must be kept constant
/// so the occlusion radius for direct lights is consistent regardless of near / far clip plane configuration.
private static float sCelestialAngularRadius = 3.3f * Mathf.PI / 180.0f;
/// <summary>
/// OcclusionRemapCurve allow the occlusion [from 0 to 1] to be remap with any desired shape.
/// </summary>
public TextureCurve occlusionRemapCurve = new TextureCurve(AnimationCurve.Linear(0.0f, 0.0f, 1.0f, 1.0f), 1.0f, false, new Vector2(0.0f, 1.0f));
/// <summary>
/// Light override, change the light which influences the flares including "modulate by light color" and "Attenuation By Light Shape" but not the position.
/// </summary>
public Light lightOverride = null;
/// <summary>
/// Retrieves the projected occlusion radius from a particular celestial in the infinity plane with an angular radius.
/// This is used for directional lights which require to have consistent occlusion radius regardless of the near/farplane configuration.
/// </summary>
/// <param name="mainCam">The camera utilized to calculate the occlusion radius</param>
/// <returns>The value, in world units, of the occlusion angular radius.</returns>
public float celestialProjectedOcclusionRadius(Camera mainCam)
{
float projectedRadius = (float)Math.Tan(sCelestialAngularRadius) * mainCam.farClipPlane;
return occlusionRadius * projectedRadius;
}
void Awake()
{
#if UNITY_EDITOR
if (!lensFlareData)
lensFlareData = AssetDatabase.LoadAssetAtPath<LensFlareDataSRP>("Packages/com.unity.render-pipelines.core/Runtime/RenderPipelineResources/Default Lens Flare (SRP).asset");
#endif
}
/// <summary>
/// Add or remove the lens flare to the queue of PostProcess
/// </summary>
void OnEnable()
{
if (lensFlareData)
LensFlareCommonSRP.Instance.AddData(this);
else
LensFlareCommonSRP.Instance.RemoveData(this);
}
/// <summary>
/// Remove the lens flare from the queue of PostProcess
/// </summary>
void OnDisable()
{
LensFlareCommonSRP.Instance.RemoveData(this);
}
/// <summary>
/// Add or remove the lens flare from the queue of PostProcess
/// </summary>
void OnValidate()
{
if (isActiveAndEnabled && lensFlareData != null)
{
LensFlareCommonSRP.Instance.AddData(this);
}
else
{
LensFlareCommonSRP.Instance.RemoveData(this);
}
}
private void OnDestroy()
{
occlusionRemapCurve.Release();
}
#if UNITY_EDITOR
private float sDebugClippingSafePercentage = 0.9f; //for debug gizmo, only push 90% further so we avoid clipping of debug lines.
void OnDrawGizmosSelected()
{
Camera mainCam = Camera.current;
if (mainCam != null && useOcclusion)
{
Vector3 positionWS;
float adjustedOcclusionRadius = occlusionRadius;
Light light = GetComponent<Light>();
if (light != null && light.type == LightType.Directional)
{
positionWS = -transform.forward * (mainCam.farClipPlane * sDebugClippingSafePercentage) + mainCam.transform.position;
adjustedOcclusionRadius = celestialProjectedOcclusionRadius(mainCam);
}
else
{
positionWS = transform.position;
}
Color previousH = Handles.color;
Color previousG = Gizmos.color;
Handles.color = Color.red;
Gizmos.color = Color.red;
Vector3 dir = (mainCam.transform.position - positionWS).normalized;
Handles.DrawWireDisc(positionWS + dir * occlusionOffset, dir, adjustedOcclusionRadius, 1.0f);
Gizmos.DrawWireSphere(positionWS, occlusionOffset);
Gizmos.color = previousG;
Handles.color = previousH;
}
}
#endif
}
}