// Return true if the light must be added to the baking
public static bool LightDataGIExtract(Light l, ref LightDataGI ld)
{
var add = l.GetComponent <HDAdditionalLightData>();
if (add == null)
{
add = HDUtils.s_DefaultHDAdditionalLightData;
}
// TODO: Currently color temperature is not handled at runtime, need to expose useColorTemperature publicly
Color cct = new Color(1.0f, 1.0f, 1.0f);
#if UNITY_EDITOR
if (add.useColorTemperature)
{
cct = Mathf.CorrelatedColorTemperatureToRGB(l.colorTemperature);
}
#endif
// TODO: Only take into account the light dimmer when we have real time GI.
ld.instanceID = l.GetInstanceID();
LinearColor directColor, indirectColor;
directColor = add.affectDiffuse ? LinearColor.Convert(l.color, l.intensity) : LinearColor.Black();
directColor.red *= cct.r;
directColor.green *= cct.g;
directColor.blue *= cct.b;
indirectColor = add.affectDiffuse ? LightmapperUtils.ExtractIndirect(l) : LinearColor.Black();
indirectColor.red *= cct.r;
indirectColor.green *= cct.g;
indirectColor.blue *= cct.b;
#if UNITY_EDITOR
LightMode lightMode = LightmapperUtils.Extract(l.lightmapBakeType);
#else
LightMode lightMode = LightmapperUtils.Extract(l.bakingOutput.lightmapBakeType);
#endif
ld.color = directColor;
ld.indirectColor = indirectColor;
// Note that the HDRI is correctly integrated in the GlobalIllumination system, we don't need to do anything regarding it.
// The difference is that `l.lightmapBakeType` is the intent, e.g.you want a mixed light with shadowmask. But then the overlap test might detect more than 4 overlapping volumes and force a light to fallback to baked.
// In that case `l.bakingOutput.lightmapBakeType` would be baked, instead of mixed, whereas `l.lightmapBakeType` would still be mixed. But this difference is only relevant in editor builds
#if UNITY_EDITOR
ld.mode = LightmapperUtils.Extract(l.lightmapBakeType);
#else
ld.mode = LightmapperUtils.Extract(l.bakingOutput.lightmapBakeType);
#endif
ld.shadow = (byte)(l.shadows != LightShadows.None ? 1 : 0);
if (add.lightTypeExtent == LightTypeExtent.Punctual)
{
// For HDRP we need to divide the analytic light color by PI (HDRP do explicit PI division for Lambert, but built in Unity and the GI don't for punctual lights)
// We apply it on both direct and indirect are they are separated, seems that direct is no used if we used mixed mode with indirect or shadowmask bake.
ld.color.intensity /= Mathf.PI;
ld.indirectColor.intensity /= Mathf.PI;
directColor.intensity /= Mathf.PI;
indirectColor.intensity /= Mathf.PI;
switch (l.type)
{
case LightType.Directional:
ld.orientation.SetLookRotation(l.transform.forward, Vector3.up);
ld.position = Vector3.zero;
ld.range = 0.0f;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.shadows != LightShadows.None ? (Mathf.Deg2Rad * l.shadowAngle) : 0.0f;
#else
ld.shape0 = 0.0f;
#endif
ld.shape1 = 0.0f;
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Directional;
ld.falloff = FalloffType.Undefined;
break;
case LightType.Spot:
switch (add.spotLightShape)
{
case SpotLightShape.Cone:
{
SpotLight spot;
spot.instanceID = l.GetInstanceID();
spot.shadow = l.shadows != LightShadows.None;
spot.mode = lightMode;
#if UNITY_EDITOR
spot.sphereRadius = l.shadows != LightShadows.None ? l.shadowRadius : 0.0f;
#else
spot.sphereRadius = 0.0f;
#endif
spot.position = l.transform.position;
spot.orientation = l.transform.rotation;
spot.color = directColor;
spot.indirectColor = indirectColor;
spot.range = l.range;
spot.coneAngle = l.spotAngle * Mathf.Deg2Rad;
spot.innerConeAngle = l.spotAngle * Mathf.Deg2Rad * add.innerSpotPercent01;
spot.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
spot.angularFalloff = AngularFalloffType.AnalyticAndInnerAngle;
ld.Init(ref spot);
ld.shape1 = (float)AngularFalloffType.AnalyticAndInnerAngle;
}
break;
case SpotLightShape.Pyramid:
{
SpotLightPyramidShape pyramid;
pyramid.instanceID = l.GetInstanceID();
pyramid.shadow = l.shadows != LightShadows.None;
pyramid.mode = lightMode;
pyramid.position = l.transform.position;
pyramid.orientation = l.transform.rotation;
pyramid.color = directColor;
pyramid.indirectColor = indirectColor;
pyramid.range = l.range;
pyramid.angle = l.spotAngle * Mathf.Deg2Rad;
pyramid.aspectRatio = add.aspectRatio;
pyramid.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
ld.Init(ref pyramid);
}
break;
case SpotLightShape.Box:
{
SpotLightBoxShape box;
box.instanceID = l.GetInstanceID();
box.shadow = l.shadows != LightShadows.None;
box.mode = lightMode;
box.position = l.transform.position;
box.orientation = l.transform.rotation;
box.color = directColor;
box.indirectColor = indirectColor;
box.range = l.range;
box.width = add.shapeWidth;
box.height = add.shapeHeight;
ld.Init(ref box);
}
break;
default:
Debug.Assert(false, "Encountered an unknown SpotLightShape.");
break;
}
break;
case LightType.Point:
ld.orientation = Quaternion.identity;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.shadows != LightShadows.None ? l.shadowRadius : 0.0f;
#else
ld.shape0 = 0.0f;
#endif
ld.shape1 = 0.0f;
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Point;
ld.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
break;
// Note: We don't support this type in HDRP, but ini just in case
case LightType.Rectangle:
ld.orientation = l.transform.rotation;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.areaSize.x;
ld.shape1 = l.areaSize.y;
#else
ld.shape0 = 0.0f;
ld.shape1 = 0.0f;
#endif
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Rectangle;
ld.falloff = FalloffType.Undefined;
break;
default:
Debug.Assert(false, "Encountered an unknown LightType.");
break;
}
}
else if (add.lightTypeExtent == LightTypeExtent.Rectangle)
{
ld.orientation = l.transform.rotation;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.areaSize.x;
ld.shape1 = l.areaSize.y;
#else
ld.shape0 = 0.0f;
ld.shape1 = 0.0f;
#endif
// TEMP: for now, if we bake a rectangle type this will disable the light for runtime, need to speak with GI team about it!
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Rectangle;
ld.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
}
else if (add.lightTypeExtent == LightTypeExtent.Tube)
{
ld.InitNoBake(ld.instanceID);
}
else
{
Debug.Assert(false, "Encountered an unknown LightType.");
}
return(true);
}
// Return true if the light must be added to the baking
public static bool LightDataGIExtract(Light l, ref LightDataGI ld)
{
var add = l.GetComponent <HDAdditionalLightData>();
if (add == null)
{
add = HDUtils.s_DefaultHDAdditionalLightData;
}
// TODO: Only take into account the light dimmer when we have real time GI.
ld.instanceID = l.GetInstanceID();
ld.color = add.affectDiffuse ? LinearColor.Convert(l.color, l.intensity) : LinearColor.Black();
ld.indirectColor = add.affectDiffuse ? LightmapperUtils.ExtractIndirect(l) : LinearColor.Black();
// Note that the HDRI is correctly integrated in the GlobalIllumination system, we don't need to do anything regarding it.
ld.mode = LightmapperUtils.Extract(l.lightmapBakeType);
ld.shadow = (byte)(l.shadows != LightShadows.None ? 1 : 0);
if (add.lightTypeExtent == LightTypeExtent.Punctual)
{
// For HDRP we need to divide the analytic light color by PI (HDRP do explicit PI division for Lambert, but built in Unity and the GI don't for punctual lights)
// We apply it on both direct and indirect are they are separated, seems that direct is no used if we used mixed mode with indirect or shadowmask bake.
ld.color.intensity /= Mathf.PI;
ld.indirectColor.intensity /= Mathf.PI;
switch (l.type)
{
case LightType.Directional:
ld.orientation.SetLookRotation(l.transform.forward, Vector3.up);
ld.position = Vector3.zero;
ld.range = 0.0f;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.shadows != LightShadows.None ? (Mathf.Deg2Rad * l.shadowAngle) : 0.0f;
#else
ld.shape0 = 0.0f;
#endif
ld.shape1 = 0.0f;
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Directional;
ld.falloff = FalloffType.Undefined;
break;
case LightType.Spot:
ld.orientation = l.transform.rotation;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = l.spotAngle * Mathf.Deg2Rad; // coneAngle is the full angle
ld.innerConeAngle = l.spotAngle * Mathf.Deg2Rad * add.GetInnerSpotPercent01();
#if UNITY_EDITOR
ld.shape0 = l.shadows != LightShadows.None ? l.shadowRadius : 0.0f;
#else
ld.shape0 = 0.0f;
#endif
ld.shape1 = 0.0f;
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Spot;
ld.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
/*
* switch (add.spotLightShape)
* {
* case SpotLightShape.Cone:
* break;
* case SpotLightShape.Pyramid:
* break;
* case SpotLightShape.Box:
* break;
* default:
* Debug.Assert(false, "Encountered an unknown SpotLightShape.");
* break;
* }
*/
break;
case LightType.Point:
ld.orientation = Quaternion.identity;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.shadows != LightShadows.None ? l.shadowRadius : 0.0f;
#else
ld.shape0 = 0.0f;
#endif
ld.shape1 = 0.0f;
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Point;
ld.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
break;
// Note: We don't support this type in HDRP, but ini just in case
case LightType.Area:
ld.orientation = l.transform.rotation;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.areaSize.x;
ld.shape1 = l.areaSize.y;
#else
ld.shape0 = 0.0f;
ld.shape1 = 0.0f;
#endif
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Rectangle;
ld.falloff = FalloffType.Undefined;
break;
default:
Debug.Assert(false, "Encountered an unknown LightType.");
break;
}
}
else if (add.lightTypeExtent == LightTypeExtent.Rectangle)
{
ld.orientation = l.transform.rotation;
ld.position = l.transform.position;
ld.range = l.range;
ld.coneAngle = 0.0f;
ld.innerConeAngle = 0.0f;
#if UNITY_EDITOR
ld.shape0 = l.areaSize.x;
ld.shape1 = l.areaSize.y;
#else
ld.shape0 = 0.0f;
ld.shape1 = 0.0f;
#endif
// TEMP: for now, if we bake a rectangle type this will disable the light for runtime, need to speak with GI team about it!
ld.type = UnityEngine.Experimental.GlobalIllumination.LightType.Rectangle;
ld.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
}
else if (add.lightTypeExtent == LightTypeExtent.Line)
{
ld.InitNoBake(ld.instanceID);
}
else
{
Debug.Assert(false, "Encountered an unknown LightType.");
}
return(true);
}
// Return true if the light must be added to the baking
public static bool LightDataGIExtract(Light light, ref LightDataGI lightDataGI)
{
var add = light.GetComponent <HDAdditionalLightData>();
if (add == null)
{
add = HDUtils.s_DefaultHDAdditionalLightData;
}
Cookie cookie;
LightmapperUtils.Extract(light, out cookie);
lightDataGI.cookieID = cookie.instanceID;
lightDataGI.cookieScale = cookie.scale;
Color cct = new Color(1.0f, 1.0f, 1.0f);
if (add.useColorTemperature)
{
cct = Mathf.CorrelatedColorTemperatureToRGB(light.colorTemperature);
}
#if UNITY_EDITOR
LightMode lightMode = LightmapperUtils.Extract(light.lightmapBakeType);
#else
LightMode lightMode = LightmapperUtils.Extract(light.bakingOutput.lightmapBakeType);
#endif
float lightDimmer = 1;
if (lightMode == LightMode.Realtime && add.affectDiffuse)
{
lightDimmer = add.lightDimmer;
}
lightDataGI.instanceID = light.GetInstanceID();
LinearColor directColor, indirectColor;
directColor = add.affectDiffuse ? LinearColor.Convert(light.color, light.intensity) : LinearColor.Black();
directColor.red *= cct.r;
directColor.green *= cct.g;
directColor.blue *= cct.b;
directColor.intensity *= lightDimmer;
indirectColor = add.affectDiffuse ? LightmapperUtils.ExtractIndirect(light) : LinearColor.Black();
indirectColor.red *= cct.r;
indirectColor.green *= cct.g;
indirectColor.blue *= cct.b;
indirectColor.intensity *= lightDimmer;
lightDataGI.color = directColor;
lightDataGI.indirectColor = indirectColor;
// Note that the HDRI is correctly integrated in the GlobalIllumination system, we don't need to do anything regarding it.
// The difference is that `l.lightmapBakeType` is the intent, e.g.you want a mixed light with shadowmask. But then the overlap test might detect more than 4 overlapping volumes and force a light to fallback to baked.
// In that case `l.bakingOutput.lightmapBakeType` would be baked, instead of mixed, whereas `l.lightmapBakeType` would still be mixed. But this difference is only relevant in editor builds
#if UNITY_EDITOR
lightDataGI.mode = LightmapperUtils.Extract(light.lightmapBakeType);
#else
lightDataGI.mode = LightmapperUtils.Extract(light.bakingOutput.lightmapBakeType);
#endif
lightDataGI.shadow = (byte)(light.shadows != LightShadows.None ? 1 : 0);
HDLightType lightType = add.ComputeLightType(light);
if (lightType != HDLightType.Area)
{
// For HDRP we need to divide the analytic light color by PI (HDRP do explicit PI division for Lambert, but built in Unity and the GI don't for punctual lights)
// We apply it on both direct and indirect are they are separated, seems that direct is no used if we used mixed mode with indirect or shadowmask bake.
lightDataGI.color.intensity /= Mathf.PI;
lightDataGI.indirectColor.intensity /= Mathf.PI;
directColor.intensity /= Mathf.PI;
indirectColor.intensity /= Mathf.PI;
}
switch (lightType)
{
case HDLightType.Directional:
lightDataGI.orientation = light.transform.rotation;
lightDataGI.position = light.transform.position;
lightDataGI.range = 0.0f;
lightDataGI.coneAngle = add.shapeWidth;
lightDataGI.innerConeAngle = add.shapeHeight;
#if UNITY_EDITOR
lightDataGI.shape0 = light.shadows != LightShadows.None ? (Mathf.Deg2Rad * light.shadowAngle) : 0.0f;
#else
lightDataGI.shape0 = 0.0f;
#endif
lightDataGI.shape1 = 0.0f;
lightDataGI.type = UnityEngine.Experimental.GlobalIllumination.LightType.Directional;
lightDataGI.falloff = FalloffType.Undefined;
lightDataGI.coneAngle = add.shapeWidth;
lightDataGI.innerConeAngle = add.shapeHeight;
break;
case HDLightType.Spot:
switch (add.spotLightShape)
{
case SpotLightShape.Cone:
{
SpotLight spot;
spot.instanceID = light.GetInstanceID();
spot.shadow = light.shadows != LightShadows.None;
spot.mode = lightMode;
#if UNITY_EDITOR
spot.sphereRadius = light.shadows != LightShadows.None ? light.shadowRadius : 0.0f;
#else
spot.sphereRadius = 0.0f;
#endif
spot.position = light.transform.position;
spot.orientation = light.transform.rotation;
spot.color = directColor;
spot.indirectColor = indirectColor;
spot.range = light.range;
spot.coneAngle = light.spotAngle * Mathf.Deg2Rad;
spot.innerConeAngle = light.spotAngle * Mathf.Deg2Rad * add.innerSpotPercent01;
spot.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
spot.angularFalloff = AngularFalloffType.AnalyticAndInnerAngle;
lightDataGI.Init(ref spot, ref cookie);
lightDataGI.shape1 = (float)AngularFalloffType.AnalyticAndInnerAngle;
if (light.cookie != null)
{
lightDataGI.cookieID = light.cookie.GetInstanceID();
}
else if (add.IESSpot != null)
{
lightDataGI.cookieID = add.IESSpot.GetInstanceID();
}
else
{
lightDataGI.cookieID = 0;
}
}
break;
case SpotLightShape.Pyramid:
{
SpotLightPyramidShape pyramid;
pyramid.instanceID = light.GetInstanceID();
pyramid.shadow = light.shadows != LightShadows.None;
pyramid.mode = lightMode;
pyramid.position = light.transform.position;
pyramid.orientation = light.transform.rotation;
pyramid.color = directColor;
pyramid.indirectColor = indirectColor;
pyramid.range = light.range;
pyramid.angle = light.spotAngle * Mathf.Deg2Rad;
pyramid.aspectRatio = add.aspectRatio;
pyramid.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
lightDataGI.Init(ref pyramid, ref cookie);
if (light.cookie != null)
{
lightDataGI.cookieID = light.cookie.GetInstanceID();
}
else if (add.IESSpot != null)
{
lightDataGI.cookieID = add.IESSpot.GetInstanceID();
}
else
{
lightDataGI.cookieID = 0;
}
}
break;
case SpotLightShape.Box:
{
SpotLightBoxShape box;
box.instanceID = light.GetInstanceID();
box.shadow = light.shadows != LightShadows.None;
box.mode = lightMode;
box.position = light.transform.position;
box.orientation = light.transform.rotation;
box.color = directColor;
box.indirectColor = indirectColor;
box.range = light.range;
box.width = add.shapeWidth;
box.height = add.shapeHeight;
lightDataGI.Init(ref box, ref cookie);
if (light.cookie != null)
{
lightDataGI.cookieID = light.cookie.GetInstanceID();
}
else if (add.IESSpot != null)
{
lightDataGI.cookieID = add.IESSpot.GetInstanceID();
}
else
{
lightDataGI.cookieID = 0;
}
}
break;
default:
Debug.Assert(false, "Encountered an unknown SpotLightShape.");
break;
}
break;
case HDLightType.Point:
lightDataGI.orientation = light.transform.rotation;
lightDataGI.position = light.transform.position;
lightDataGI.range = light.range;
lightDataGI.coneAngle = 0.0f;
lightDataGI.innerConeAngle = 0.0f;
#if UNITY_EDITOR
lightDataGI.shape0 = light.shadows != LightShadows.None ? light.shadowRadius : 0.0f;
#else
lightDataGI.shape0 = 0.0f;
#endif
lightDataGI.shape1 = 0.0f;
lightDataGI.type = UnityEngine.Experimental.GlobalIllumination.LightType.Point;
lightDataGI.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
break;
case HDLightType.Area:
switch (add.areaLightShape)
{
case AreaLightShape.Rectangle:
lightDataGI.orientation = light.transform.rotation;
lightDataGI.position = light.transform.position;
lightDataGI.range = light.range;
lightDataGI.coneAngle = 0.0f;
lightDataGI.innerConeAngle = 0.0f;
lightDataGI.shape0 = add.shapeWidth;
lightDataGI.shape1 = add.shapeHeight;
// TEMP: for now, if we bake a rectangle type this will disable the light for runtime, need to speak with GI team about it!
lightDataGI.type = UnityEngine.Experimental.GlobalIllumination.LightType.Rectangle;
lightDataGI.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
if (add.areaLightCookie != null)
{
lightDataGI.cookieID = add.areaLightCookie.GetInstanceID();
}
else if (add.IESSpot != null)
{
lightDataGI.cookieID = add.IESSpot.GetInstanceID();
}
else
{
lightDataGI.cookieID = 0;
}
break;
case AreaLightShape.Tube:
lightDataGI.InitNoBake(lightDataGI.instanceID);
break;
case AreaLightShape.Disc:
lightDataGI.orientation = light.transform.rotation;
lightDataGI.position = light.transform.position;
lightDataGI.range = light.range;
lightDataGI.coneAngle = 0.0f;
lightDataGI.innerConeAngle = 0.0f;
#if UNITY_EDITOR
lightDataGI.shape0 = light.areaSize.x;
lightDataGI.shape1 = light.areaSize.y;
#else
lightDataGI.shape0 = 0.0f;
lightDataGI.shape1 = 0.0f;
#endif
// TEMP: for now, if we bake a rectangle type this will disable the light for runtime, need to speak with GI team about it!
lightDataGI.type = UnityEngine.Experimental.GlobalIllumination.LightType.Disc;
lightDataGI.falloff = add.applyRangeAttenuation ? FalloffType.InverseSquared : FalloffType.InverseSquaredNoRangeAttenuation;
lightDataGI.cookieID = add.areaLightCookie ? add.areaLightCookie.GetInstanceID() : 0;
break;
default:
Debug.Assert(false, "Encountered an unknown AreaLightShape.");
break;
}
break;
default:
Debug.Assert(false, "Encountered an unknown LightType.");
break;
}
return(true);
}