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208 行
8.8 KiB

using UnityEngine.Serialization;
namespace UnityEngine.Experimental.Rendering.HDPipeline
{
[DisallowMultipleComponent, ExecuteInEditMode]
[RequireComponent(typeof(Camera))]
public class HDAdditionalCameraData : MonoBehaviour, ISerializationCallbackReceiver
{
// The light culling use standard projection matrices (non-oblique)
// If the user overrides the projection matrix with an oblique one
// He must also provide a callback to get the equivalent non oblique for the culling
public delegate Matrix4x4 NonObliqueProjectionGetter(Camera camera);
#pragma warning disable 414 // CS0414 The private field '...' is assigned but its value is never used
// We can't rely on Unity for our additional data, we need to version it ourself.
[SerializeField]
float m_Version = 1.0f;
#pragma warning restore 414
Camera m_camera;
// This struct allow to add specialized path in HDRenderPipeline (can be use to render mini map or planar reflection etc...)
// A rendering path is the list of rendering pass that will be executed at runtime and depends on the associated FrameSettings
// Default is the default rendering path define by the HDRendeRPipelineAsset FrameSettings.
// Custom allow users to define the FrameSettigns for this path
// Then enum can contain either preset of FrameSettings or hard coded path
// Unlit below is a hard coded path (a path that can't be implemented only with FrameSettings)
public enum RenderingPath
{
Default,
Custom, // Fine grained
Unlit // Hard coded path
};
public enum ClearColorMode
{
Sky,
BackgroundColor,
None
};
public ClearColorMode clearColorMode = ClearColorMode.Sky;
[ColorUsage(true, true)]
public Color backgroundColorHDR = new Color(0.025f, 0.07f, 0.19f, 0.0f);
public bool clearDepth = true;
public RenderingPath renderingPath;
[Tooltip("Layer Mask used for the volume interpolation for this camera.")]
public LayerMask volumeLayerMask = -1;
// Physical parameters
public float aperture = 8f;
public float shutterSpeed = 1f / 200f;
public float iso = 400f;
// To be able to turn on/off FrameSettings properties at runtime for debugging purpose without affecting the original one
// we create a runtime copy (m_ActiveFrameSettings that is used, and any parametrization is done on serialized frameSettings)
[SerializeField]
[FormerlySerializedAs("serializedFrameSettings")]
FrameSettings m_FrameSettings = new FrameSettings(); // Serialize frameSettings
// Not serialized, visible only in the debug windows
FrameSettings m_FrameSettingsRuntime = new FrameSettings();
bool m_frameSettingsIsDirty = true;
// Use for debug windows
// When camera name change we need to update the name in DebugWindows.
// This is the purpose of this class
bool m_IsDebugRegistered = false;
string m_CameraRegisterName;
// This is the function use outside to access FrameSettings. It return the current state of FrameSettings for the camera
// taking into account the customization via the debug menu
public FrameSettings GetFrameSettings()
{
return m_FrameSettingsRuntime;
}
// This function is call at the beginning of camera loop in HDRenderPipeline.Render()
// It allow to correctly init the m_FrameSettingsRuntime to use.
// If the camera use defaultFrameSettings it must be copied in m_FrameSettingsRuntime
// otherwise it is the serialized m_FrameSettings that are used
// This is required so each camera have its own debug settings even if they all use the RenderingPath.Default path
// and important at Runtime as Default Camera from Scene Preview doesn't exist
// assetFrameSettingsIsDirty is the current dirty frame settings state of HDRenderPipelineAsset
// if it is dirty and camera use RenderingPath.Default, we need to update it
// defaultFrameSettings are the settings store in the HDRenderPipelineAsset
public void UpdateDirtyFrameSettings(bool assetFrameSettingsIsDirty, FrameSettings defaultFrameSettings)
{
if (m_frameSettingsIsDirty || assetFrameSettingsIsDirty)
{
// We do a copy of the settings to those effectively used
if (renderingPath == RenderingPath.Default)
{
defaultFrameSettings.CopyTo(m_FrameSettingsRuntime);
}
else
{
m_FrameSettings.CopyTo(m_FrameSettingsRuntime);
}
m_frameSettingsIsDirty = false;
}
}
// For custom projection matrices
// Set the proper getter
public NonObliqueProjectionGetter nonObliqueProjectionGetter = GeometryUtils.CalculateProjectionMatrix;
public Matrix4x4 GetNonObliqueProjection(Camera camera)
{
return nonObliqueProjectionGetter(camera);
}
void RegisterDebug()
{
if (!m_IsDebugRegistered)
{
// Note that we register m_FrameSettingsRuntime, so manipulating it in the Debug windows
// doesn't affect the serialized version
if (m_camera.cameraType != CameraType.Preview && m_camera.cameraType != CameraType.Reflection)
{
FrameSettings.RegisterDebug(m_camera.name, GetFrameSettings());
}
m_CameraRegisterName = m_camera.name;
m_IsDebugRegistered = true;
}
}
void UnRegisterDebug()
{
if (m_camera == null)
return;
if (m_IsDebugRegistered)
{
if (m_camera.cameraType != CameraType.Preview && m_camera.cameraType != CameraType.Reflection)
{
FrameSettings.UnRegisterDebug(m_CameraRegisterName);
}
m_IsDebugRegistered = false;
}
}
void OnEnable()
{
// Be sure legacy HDR option is disable on camera as it cause banding in SceneView. Yes, it is a contradiction, but well, Unity...
// When HDR option is enabled, Unity render in FP16 then convert to 8bit with a stretch copy (this cause banding as it should be convert to sRGB (or other color appropriate color space)), then do a final shader with sRGB conversion
// When LDR, unity render in 8bitSRGB, then do a final shader with sRGB conversion
// What should be done is just in our Post process we convert to sRGB and store in a linear 10bit, but require C++ change...
m_camera = GetComponent<Camera>();
if (m_camera == null)
return;
m_camera.allowHDR = false;
// Tag as dirty so frameSettings are correctly initialize at next HDRenderPipeline.Render() call
m_frameSettingsIsDirty = true;
RegisterDebug();
}
void Update()
{
// We need to detect name change in the editor and update debug windows accordingly
#if UNITY_EDITOR
if (m_camera.name != m_CameraRegisterName)
{
UnRegisterDebug();
RegisterDebug();
}
#endif
}
void OnDisable()
{
UnRegisterDebug();
}
public void OnBeforeSerialize()
{
}
public void OnAfterDeserialize()
{
// This is call on load or when this settings are change.
// When FrameSettings are manipulated or RenderPath change we reset them to reflect the change, discarding all the Debug Windows change.
// Tag as dirty so frameSettings are correctly initialize at next HDRenderPipeline.Render() call
m_frameSettingsIsDirty = true;
}
// This is called at the creation of the HD Additional Camera Data, to convert the legacy camera settings to HD
public static void InitDefaultHDAdditionalCameraData(HDAdditionalCameraData cameraData)
{
var camera = cameraData.gameObject.GetComponent<Camera>();
cameraData.clearDepth = camera.clearFlags != CameraClearFlags.Nothing;
if (camera.clearFlags == CameraClearFlags.Skybox)
cameraData.clearColorMode = ClearColorMode.Sky;
else if (camera.clearFlags == CameraClearFlags.SolidColor)
cameraData.clearColorMode = ClearColorMode.BackgroundColor;
else // None
cameraData.clearColorMode = ClearColorMode.None;
}
}
}