Welcome to RenderMan 21.6!
This release introduces the following improvements, fixes, and miscellaneous changes.
- Added a control for "thickness" for Physical Clear Coats in PxrSurface.
- Added intensityNearDist parameter to PxrMeshLight.
Improved live-render edit speed in cases where several LPE based AOV's were being used.
RenderMan will now abort when attempting to recover non-incremental renders when bucket order is set to anything other than "vertical" or "horizontal".
Fixed bug causing potential crash when using aggregate volumes.
Fixed bug that could cause a crash when using a gprim with very many vertices and/or primvars.
Fixed bug causing reduced thread efficiency and potential hangs when rendering many things with different grouping membership, enabled lights, or enabled lightfilters state.
Fixed a potential crash when a hierarchical subdivision mesh specified an invalid face index in a face edit.
Fixed bug causing a very small chance of crashing when rendering a scene containing both infinite and local lights.
- Some fixes for subsurface scattering with the PxrVCM (and PxrUPBP) integrator(s) that may have cause them to render black or with artifacts.
Fixed potential for crash or extra memory usage when rendering a large polygon mesh having non-quad faces and __faceindex values for per-face textures.
Fixed tile-shaped artifacts on materials with both subsurface and diffuse transmission.
- Added the correct attribute for importanceMultiplier to the PxrMeshLight
Fix of incorrect normals of instanced NURBS patches with non-homogeneous control points. Speedup of ray tracing of some NURBS.
In OSL, trace() and getmessage("trace") now work when hit objects are not shaded.
Fixed a bug that could cause incorrect interpolation of primitive variables in some cases of coarsely tessellated displaced surfaces.
RenderMan Pro Server
- Full LPE support is only available with the PxrPathTracer and PxrVCM integrators.
- Light Filters in the PxrVCM integrator do not affect or shape photon emission.
- The Cone Angle parameter for lights is incorrect, it does not match the input angle, this will be fixed in a future version.
- The PxrAovLight does not work properly with PxrUPBP.
- Analytical lights placed inside volumes may yield artifacts when made visible to the camera. As a workaround, the light camera visibility should be turned off, and a geometry with a similar shape should be used (visible to the camera, invisible to transmission and indirect rays), with the proper emissive bxdf.
- Using the '.' character in the handle for an OSL shader could cause unpredictable results during re-rendering.
- Instances are not supported for baking.
- 3d baking: no direct bake-to-ptex support.
- PxrBakePointCloud cannot directly render ptex.
- No RixPTC/pointcloud API (so PxrBakePointCloud cannot read ptc files).
- Sample/Display filter plug-ins do not have access to lighting services for light dependent effects, e.g. lens flare.
- Adding new mesh light on existing geometry during IPR results in double geometry.
- Camera visibility changes are not respected during Live Rendering.
- For PxrUPBP, If the light source is inside a volume, that volume needs to be defined as Volume “box”
- For PxrUPBP, To get a volume caustic, the object casting the caustic needs to have higher intersectpriority than the volume.
- For PxrUPBP, Overlapping heterogeneous volumes are not working yet. (However, overlapping homogeneous volumes do work.) This will be resolved in the future.
- PxrPortalLight may yield artifacts when generating photons for PxrVCM / PxrUPBP. This will be fixed in a future release.
- When attempting to access an array primvar, you must first check the size of the array primvar and allocate the appropriate space. Not doing so may lead to a crash.
- Points and curves cannot have mesh lights attached to them.
- Deformation motion blurred volumes don't currently work with densityFloatPrimVar or densityColorPrimVar. You will need to use a PxrPrimVar node connected to densityFloat and densityColor instead.