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| CSampleFromVoxels.h |
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| CudaDeviceBuffer.h |
| Implements a simple CUDA allocator!
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| DitherLUT.h |
| Defines look up table to do dithering of 8^3 leaf nodes.
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| ForEach.h |
| A unified wrapper for tbb::parallel_for and a naive std::thread fallback.
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| GridBuilder.h |
| Generates a NanoVDB grid from any volume or function.
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| GridChecksum.h |
| Computes a pair of 32bit checksums, og a Grid, by means of Cyclic Redundancy Check (CRC)
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| GridHandle.h |
| Defines two classes, a GridRegister the defines the value type (e.g. Double, Float etc) of a NanoVDB grid, and a GridHandle and manages the memory of a NanoVDB grid.
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| GridStats.h |
| Re-computes min/max/avg/var/bbox information for each node in a pre-existing NanoVDB grid.
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| GridValidator.h |
| Checks the validity of an existing NanoVDB grid.
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| HDDA.h |
| Hierarchical Digital Differential Analyzers specialized for VDB.
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| HostBuffer.h |
| HostBuffer - a buffer that contains a shared or private bump pool to either externally or internally managed host memory.
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| IndexGridBuilder.h |
| Generates a NanoVDB IndexGrid from any existing NanoVDB grid.
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| Invoke.h |
| A unified wrapper for tbb::parallel_invoke and a naive std::thread analog.
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| IO.h |
| Implements I/O for NanoVDB grids. Features optional BLOSC and ZIP file compression, support for multiple grids per file as well as multiple grid types.
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| NanoToOpenVDB.h |
| This class will deserialize an NanoVDB grid into an OpenVDB grid.
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| NodeManager.h |
| This class allows for sequential access to nodes in a NanoVDB tree on both the host and device.
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| OpenToNanoVDB.h |
| This class will serialize an OpenVDB grid into a NanoVDB grid.
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| Primitives.h |
| Generates volumetric primitives, e.g. sphere, torus etc, as NanoVDB grid.
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| Range.h |
| Custom Range class that is compatible with the tbb::blocked_range classes.
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| Ray.h |
| A Ray class.
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| Reduce.h |
| A unified wrapper for tbb::parallel_reduce and a naive std::future analog.
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| SampleFromVoxels.h |
| NearestNeighborSampler, TrilinearSampler, TriquadraticSampler and TricubicSampler.
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| Stencils.h |
| Defines various finite-difference stencils that allow for the computation of gradients of order 1 to 5, mean curvatures, gaussian curvatures, principal curvatures, tri-linear interpolation, zero-crossing, laplacian, and closest point transform.
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