Restructuring computeBitmask code.
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David Williams
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5974a1de9b
commit
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@ -160,7 +160,7 @@ namespace PolyVox
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private:
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//Compute the cell bitmask for a particular slice in z.
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template<bool isPrevZAvail>
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void computeBitmaskForSlice(Array3DUint8& pBitmask, uint32_t uSlice);
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void computeBitmaskForSlice(Array3DUint8& pBitmask);
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//Use the cell bitmasks to generate all the vertices needed for that slice
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void generateVerticesForSlice(const Array3DUint8& pBitmask,
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@ -68,12 +68,7 @@ namespace PolyVox
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m_regSlicePrevious.setUpperCorner(v3dUpperCorner);
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m_regSliceCurrent = m_regSlicePrevious;
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//Process the first slice (previous slice not available)
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computeBitmaskForSlice<false>(pBitmask, 0);
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for (int32_t uSlice = 1; uSlice <= m_regSizeInVoxels.getUpperZ() - m_regSizeInVoxels.getLowerZ(); uSlice++)
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{
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computeBitmaskForSlice<true>(pBitmask, uSlice);
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}
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computeBitmaskForSlice<true>(pBitmask);
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generateVerticesForSlice(pBitmask, pIndicesX, pIndicesY, pIndicesZ);
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@ -100,66 +95,63 @@ namespace PolyVox
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template<typename VolumeType, typename MeshType, typename ControllerType>
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template<bool isPrevZAvail>
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void MarchingCubesSurfaceExtractor<VolumeType, MeshType, ControllerType>::computeBitmaskForSlice(Array3DUint8& pBitmask, uint32_t uSlice)
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void MarchingCubesSurfaceExtractor<VolumeType, MeshType, ControllerType>::computeBitmaskForSlice(Array3DUint8& pBitmask)
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{
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const int32_t iMaxXVolSpace = m_regSizeInVoxels.getUpperX();
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const int32_t iMaxYVolSpace = m_regSizeInVoxels.getUpperY();
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const int32_t iMaxZVolSpace = m_regSizeInVoxels.getUpperZ();
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//Process the lower left corner
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int32_t iYVolSpace = m_regSizeInVoxels.getLowerY();
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int32_t iXVolSpace = m_regSizeInVoxels.getLowerX();
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int32_t iZVolSpace = m_regSizeInVoxels.getLowerZ() + uSlice;
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uint32_t uXRegSpace = iXVolSpace - m_regSizeInVoxels.getLowerX();
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uint32_t uYRegSpace = iYVolSpace - m_regSizeInVoxels.getLowerY();
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uint32_t uZRegSpace = uSlice;
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//Process all remaining elemnents of the slice. In this case, previous x and y values are always available
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for(iYVolSpace = m_regSliceCurrent.getLowerY(); iYVolSpace <= iMaxYVolSpace; iYVolSpace++)
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for (int32_t iZVolSpace = m_regSliceCurrent.getLowerZ(); iZVolSpace <= iMaxZVolSpace; iZVolSpace++)
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{
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m_sampVolume.setPosition(m_regSliceCurrent.getLowerX(), iYVolSpace, iZVolSpace);
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for(iXVolSpace = m_regSliceCurrent.getLowerX(); iXVolSpace <= iMaxXVolSpace; iXVolSpace++)
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{
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uXRegSpace = iXVolSpace - m_regSizeInVoxels.getLowerX();
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uYRegSpace = iYVolSpace - m_regSizeInVoxels.getLowerY();
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uint32_t uZRegSpace = iZVolSpace - m_regSizeInVoxels.getLowerZ();
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m_sampVolume.movePositiveX();
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//Process all remaining elemnents of the slice. In this case, previous x and y values are always available
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for (int32_t iYVolSpace = m_regSliceCurrent.getLowerY(); iYVolSpace <= iMaxYVolSpace; iYVolSpace++)
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{
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m_sampVolume.setPosition(m_regSliceCurrent.getLowerX(), iYVolSpace, iZVolSpace);
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for (int32_t iXVolSpace = m_regSliceCurrent.getLowerX(); iXVolSpace <= iMaxXVolSpace; iXVolSpace++)
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{
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uint32_t uXRegSpace = iXVolSpace - m_regSizeInVoxels.getLowerX();
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uint32_t uYRegSpace = iYVolSpace - m_regSizeInVoxels.getLowerY();
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m_sampVolume.setPosition(iXVolSpace, iYVolSpace, iZVolSpace);
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m_sampVolume.movePositiveX();
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uint8_t iCubeIndex = 0;
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m_sampVolume.setPosition(iXVolSpace, iYVolSpace, iZVolSpace);
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typename VolumeType::VoxelType v000 = m_sampVolume.getVoxel();
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typename VolumeType::VoxelType v100 = m_sampVolume.peekVoxel1px0py0pz();
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typename VolumeType::VoxelType v010 = m_sampVolume.peekVoxel0px1py0pz();
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typename VolumeType::VoxelType v110 = m_sampVolume.peekVoxel1px1py0pz();
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uint8_t iCubeIndex = 0;
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typename VolumeType::VoxelType v001 = m_sampVolume.peekVoxel0px0py1pz();
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typename VolumeType::VoxelType v101 = m_sampVolume.peekVoxel1px0py1pz();
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typename VolumeType::VoxelType v011 = m_sampVolume.peekVoxel0px1py1pz();
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typename VolumeType::VoxelType v111 = m_sampVolume.peekVoxel1px1py1pz();
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typename VolumeType::VoxelType v000 = m_sampVolume.getVoxel();
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typename VolumeType::VoxelType v100 = m_sampVolume.peekVoxel1px0py0pz();
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typename VolumeType::VoxelType v010 = m_sampVolume.peekVoxel0px1py0pz();
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typename VolumeType::VoxelType v110 = m_sampVolume.peekVoxel1px1py0pz();
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/*typename VolumeType::VoxelType v000 = m_sampVolume.peekVoxel0px0py1nz();
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typename VolumeType::VoxelType v100 = m_sampVolume.peekVoxel1px0py1nz();
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typename VolumeType::VoxelType v010 = m_sampVolume.peekVoxel0px1py1nz();
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typename VolumeType::VoxelType v110 = m_sampVolume.peekVoxel1px1py1nz();
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typename VolumeType::VoxelType v001 = m_sampVolume.peekVoxel0px0py1pz();
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typename VolumeType::VoxelType v101 = m_sampVolume.peekVoxel1px0py1pz();
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typename VolumeType::VoxelType v011 = m_sampVolume.peekVoxel0px1py1pz();
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typename VolumeType::VoxelType v111 = m_sampVolume.peekVoxel1px1py1pz();
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typename VolumeType::VoxelType v001 = m_sampVolume.peekVoxel0px0py0pz();
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typename VolumeType::VoxelType v101 = m_sampVolume.peekVoxel1px0py0pz();
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typename VolumeType::VoxelType v011 = m_sampVolume.peekVoxel0px1py0pz();
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typename VolumeType::VoxelType v111 = m_sampVolume.peekVoxel1px1py0pz();*/
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/*typename VolumeType::VoxelType v000 = m_sampVolume.peekVoxel0px0py1nz();
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typename VolumeType::VoxelType v100 = m_sampVolume.peekVoxel1px0py1nz();
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typename VolumeType::VoxelType v010 = m_sampVolume.peekVoxel0px1py1nz();
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typename VolumeType::VoxelType v110 = m_sampVolume.peekVoxel1px1py1nz();
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if (m_controller.convertToDensity(v000) < m_tThreshold) iCubeIndex |= 1;
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if (m_controller.convertToDensity(v100) < m_tThreshold) iCubeIndex |= 2;
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if (m_controller.convertToDensity(v010) < m_tThreshold) iCubeIndex |= 4;
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if (m_controller.convertToDensity(v110) < m_tThreshold) iCubeIndex |= 8;
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if (m_controller.convertToDensity(v001) < m_tThreshold) iCubeIndex |= 16;
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if (m_controller.convertToDensity(v101) < m_tThreshold) iCubeIndex |= 32;
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if (m_controller.convertToDensity(v011) < m_tThreshold) iCubeIndex |= 64;
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if (m_controller.convertToDensity(v111) < m_tThreshold) iCubeIndex |= 128;
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typename VolumeType::VoxelType v001 = m_sampVolume.peekVoxel0px0py0pz();
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typename VolumeType::VoxelType v101 = m_sampVolume.peekVoxel1px0py0pz();
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typename VolumeType::VoxelType v011 = m_sampVolume.peekVoxel0px1py0pz();
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typename VolumeType::VoxelType v111 = m_sampVolume.peekVoxel1px1py0pz();*/
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//Save the bitmask
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pBitmask(uXRegSpace, uYRegSpace, uZRegSpace) = iCubeIndex;
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if (m_controller.convertToDensity(v000) < m_tThreshold) iCubeIndex |= 1;
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if (m_controller.convertToDensity(v100) < m_tThreshold) iCubeIndex |= 2;
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if (m_controller.convertToDensity(v010) < m_tThreshold) iCubeIndex |= 4;
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if (m_controller.convertToDensity(v110) < m_tThreshold) iCubeIndex |= 8;
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if (m_controller.convertToDensity(v001) < m_tThreshold) iCubeIndex |= 16;
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if (m_controller.convertToDensity(v101) < m_tThreshold) iCubeIndex |= 32;
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if (m_controller.convertToDensity(v011) < m_tThreshold) iCubeIndex |= 64;
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if (m_controller.convertToDensity(v111) < m_tThreshold) iCubeIndex |= 128;
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//Save the bitmask
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pBitmask(uXRegSpace, uYRegSpace, uZRegSpace) = iCubeIndex;
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}
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}
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}
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}
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