diff options
author | Sebastián Barschkis <sebbas@sebbas.org> | 2020-11-26 01:17:47 +0300 |
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committer | Sebastián Barschkis <sebbas@sebbas.org> | 2020-11-26 01:18:12 +0300 |
commit | e09d0c0d077cff79b55ce32ec5124d5faa73e2e7 (patch) | |
tree | 74dd76ecf5016e4b34ffb42b42b7eaae980b44d4 /intern/mantaflow/intern/MANTA_main.cpp | |
parent | f7223d5f722ac430041a748248b45c8590c3ffad (diff) |
Fluid: Updated Mantaflow source files
This update introduces two improvements from the Mantaflow repository:
(1) Improved particle sampling:
- Liquid and secondary particles are sampled more predictably. With all parameters being equal, baked particles will be computed at the exact same position during every bake.
- Before, this was not guaranteed.
(2) Sparse grid caching:
- While saving grid data to disk, grids will from now on be saved in a sparse structure whenever possible (e.g. density, flame but not levelsets).
- With the sparse optimization grid cells with a value under the 'Empty Space' value (already present in domain settings) will not be cached.
- The main benefits of this optimization are: Smaller cache sizes and faster playback of simulation data in the viewport.
- This optimization works 'out-of-the-box'. There is no option in the UI to enable it.
- For now, only smoke simulation grids will take advantage of this optimization.
Diffstat (limited to 'intern/mantaflow/intern/MANTA_main.cpp')
-rw-r--r-- | intern/mantaflow/intern/MANTA_main.cpp | 1 |
1 files changed, 1 insertions, 0 deletions
diff --git a/intern/mantaflow/intern/MANTA_main.cpp b/intern/mantaflow/intern/MANTA_main.cpp index fef6399ab23..d49915e2452 100644 --- a/intern/mantaflow/intern/MANTA_main.cpp +++ b/intern/mantaflow/intern/MANTA_main.cpp @@ -871,6 +871,7 @@ void MANTA::initializeRNAMap(FluidModifierData *fmd) mRNAMap["CACHE_DIR"] = cacheDirectory; mRNAMap["COMPRESSION_OPENVDB"] = vdbCompressionMethod; mRNAMap["PRECISION_OPENVDB"] = vdbPrecisionHalf; + mRNAMap["CLIP_OPENVDB"] = to_string(fds->clipping); mRNAMap["PP_PARTICLE_MAXIMUM"] = to_string(fds->sys_particle_maximum); /* Fluid object names. */ |