More refactoring...
This commit is contained in:
David Williams
parent
227b11a764
commit
0e8c90c6ee
@ -43,9 +43,9 @@ namespace PolyVox
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Timer timer;
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m_meshCurrent->clear();
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const uint32_t uArrayWidth = m_regSizeInVoxels.getUpperX() - m_regSizeInVoxels.getLowerX() + 1;
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const uint32_t uArrayHeight = m_regSizeInVoxels.getUpperY() - m_regSizeInVoxels.getLowerY() + 1;
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const uint32_t uArrayDepth = m_regSizeInVoxels.getUpperZ() - m_regSizeInVoxels.getLowerZ() + 1;
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const uint32_t uArrayWidth = m_regSizeInVoxels.getUpperX() - m_regSizeInVoxels.getLowerX() + 2;
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const uint32_t uArrayHeight = m_regSizeInVoxels.getUpperY() - m_regSizeInVoxels.getLowerY() + 2;
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const uint32_t uArrayDepth = m_regSizeInVoxels.getUpperZ() - m_regSizeInVoxels.getLowerZ() + 2;
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//For edge indices
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Array3DInt32 pIndicesX(uArrayWidth, uArrayHeight, uArrayDepth);
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@ -75,29 +75,39 @@ namespace PolyVox
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Array3DInt32& pIndicesY,
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Array3DInt32& pIndicesZ)
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{
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for (int32_t iZVolSpace = m_regSizeInVoxels.getLowerZ() + 1; iZVolSpace <= m_regSizeInVoxels.getUpperZ(); iZVolSpace++)
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for (int32_t iZVolSpace = m_regSizeInVoxels.getLowerZ() + 1; iZVolSpace <= m_regSizeInVoxels.getUpperZ() - 1; iZVolSpace++)
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{
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const uint32_t uZRegSpace = iZVolSpace - m_regSizeInVoxels.getLowerZ();
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for (int32_t iYVolSpace = m_regSizeInVoxels.getLowerY() + 1; iYVolSpace <= m_regSizeInVoxels.getUpperY(); iYVolSpace++)
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for (int32_t iYVolSpace = m_regSizeInVoxels.getLowerY() + 1; iYVolSpace <= m_regSizeInVoxels.getUpperY() - 1; iYVolSpace++)
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{
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const uint32_t uYRegSpace = iYVolSpace - m_regSizeInVoxels.getLowerY();
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for (int32_t iXVolSpace = m_regSizeInVoxels.getLowerX() + 1; iXVolSpace <= m_regSizeInVoxels.getUpperX(); iXVolSpace++)
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for (int32_t iXVolSpace = m_regSizeInVoxels.getLowerX() + 1; iXVolSpace <= m_regSizeInVoxels.getUpperX() - 1; iXVolSpace++)
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{
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const uint32_t uXRegSpace = iXVolSpace - m_regSizeInVoxels.getLowerX();
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m_sampVolume.setPosition(iXVolSpace, iYVolSpace, iZVolSpace);
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typename VolumeType::VoxelType v000 = m_sampVolume.peekVoxel1nx1ny1nz();
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typename VolumeType::VoxelType v100 = m_sampVolume.peekVoxel0px1ny1nz();
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typename VolumeType::VoxelType v010 = m_sampVolume.peekVoxel1nx0py1nz();
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typename VolumeType::VoxelType v110 = m_sampVolume.peekVoxel0px0py1nz();
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/*typename VolumeType::VoxelType v000 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel1nx1ny1nz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v100 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel0px1ny1nz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v010 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel1nx0py1nz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v110 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel0px0py1nz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v001 = m_sampVolume.peekVoxel1nx1ny0pz();
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typename VolumeType::VoxelType v101 = m_sampVolume.peekVoxel0px1ny0pz();
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typename VolumeType::VoxelType v011 = m_sampVolume.peekVoxel1nx0py0pz();
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typename VolumeType::VoxelType v111 = m_sampVolume.peekVoxel0px0py0pz();
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typename VolumeType::VoxelType v001 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel1nx1ny0pz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v101 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel0px1ny0pz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v011 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel1nx0py0pz() : VolumeType::VoxelType();
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typename VolumeType::VoxelType v111 = m_regSizeInVoxels.containsPoint(iXVolSpace, iYVolSpace, iZVolSpace, 1) ? m_sampVolume.peekVoxel0px0py0pz() : VolumeType::VoxelType();*/
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typename VolumeType::VoxelType v000 = m_sampVolume.peekVoxel0px0py0pz();
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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 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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uint8_t iCubeIndex = 0;
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if (m_controller.convertToDensity(v000) < m_tThreshold) iCubeIndex |= 1;
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@ -110,7 +120,7 @@ namespace PolyVox
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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-1, uYRegSpace-1, uZRegSpace-1) = iCubeIndex;
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pBitmask(uXRegSpace, uYRegSpace, uZRegSpace) = iCubeIndex;
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/* Cube is entirely in/out of the surface */
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if (edgeTable[iCubeIndex] == 0)
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@ -129,7 +139,7 @@ namespace PolyVox
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const float fInterp = static_cast<float>(m_tThreshold - m_controller.convertToDensity(v000)) / static_cast<float>(m_controller.convertToDensity(v100) - m_controller.convertToDensity(v000));
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const Vector3DFloat v3dPosition(static_cast<float>(uXRegSpace - 1) + fInterp, static_cast<float>(uYRegSpace), static_cast<float>(uZRegSpace));
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const Vector3DFloat v3dPosition(static_cast<float>(uXRegSpace ) + fInterp, static_cast<float>(uYRegSpace), static_cast<float>(uZRegSpace));
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const Vector3DUint16 v3dScaledPosition(static_cast<uint16_t>(v3dPosition.getX() * 256.0f), static_cast<uint16_t>(v3dPosition.getY() * 256.0f), static_cast<uint16_t>(v3dPosition.getZ() * 256.0f));
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Vector3DFloat v3dNormal = (n100*fInterp) + (n000*(1 - fInterp));
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@ -150,7 +160,7 @@ namespace PolyVox
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surfaceVertex.data = uMaterial;
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const uint32_t uLastVertexIndex = m_meshCurrent->addVertex(surfaceVertex);
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pIndicesX(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1) = uLastVertexIndex;
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pIndicesX(uXRegSpace, uYRegSpace, uZRegSpace) = uLastVertexIndex;
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m_sampVolume.moveNegativeX();
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}
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@ -162,7 +172,7 @@ namespace PolyVox
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const float fInterp = static_cast<float>(m_tThreshold - m_controller.convertToDensity(v000)) / static_cast<float>(m_controller.convertToDensity(v010) - m_controller.convertToDensity(v000));
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const Vector3DFloat v3dPosition(static_cast<float>(uXRegSpace), static_cast<float>(uYRegSpace - 1) + fInterp, static_cast<float>(uZRegSpace));
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const Vector3DFloat v3dPosition(static_cast<float>(uXRegSpace), static_cast<float>(uYRegSpace ) + fInterp, static_cast<float>(uZRegSpace));
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const Vector3DUint16 v3dScaledPosition(static_cast<uint16_t>(v3dPosition.getX() * 256.0f), static_cast<uint16_t>(v3dPosition.getY() * 256.0f), static_cast<uint16_t>(v3dPosition.getZ() * 256.0f));
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Vector3DFloat v3dNormal = (n010*fInterp) + (n000*(1 - fInterp));
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@ -183,7 +193,7 @@ namespace PolyVox
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surfaceVertex.data = uMaterial;
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uint32_t uLastVertexIndex = m_meshCurrent->addVertex(surfaceVertex);
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pIndicesY(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1) = uLastVertexIndex;
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pIndicesY(uXRegSpace, uYRegSpace, uZRegSpace) = uLastVertexIndex;
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m_sampVolume.moveNegativeY();
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}
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@ -195,7 +205,7 @@ namespace PolyVox
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const float fInterp = static_cast<float>(m_tThreshold - m_controller.convertToDensity(v000)) / static_cast<float>(m_controller.convertToDensity(v001) - m_controller.convertToDensity(v000));
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const Vector3DFloat v3dPosition(static_cast<float>(uXRegSpace), static_cast<float>(uYRegSpace), static_cast<float>(uZRegSpace - 1) + fInterp);
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const Vector3DFloat v3dPosition(static_cast<float>(uXRegSpace), static_cast<float>(uYRegSpace), static_cast<float>(uZRegSpace) + fInterp);
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const Vector3DUint16 v3dScaledPosition(static_cast<uint16_t>(v3dPosition.getX() * 256.0f), static_cast<uint16_t>(v3dPosition.getY() * 256.0f), static_cast<uint16_t>(v3dPosition.getZ() * 256.0f));
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Vector3DFloat v3dNormal = (n001*fInterp) + (n000*(1 - fInterp));
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@ -215,7 +225,7 @@ namespace PolyVox
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surfaceVertex.data = uMaterial;
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const uint32_t uLastVertexIndex = m_meshCurrent->addVertex(surfaceVertex);
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pIndicesZ(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1) = uLastVertexIndex;
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pIndicesZ(uXRegSpace, uYRegSpace, uZRegSpace) = uLastVertexIndex;
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m_sampVolume.moveNegativeZ();
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}
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@ -223,11 +233,11 @@ namespace PolyVox
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}
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}
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for (int32_t iZVolSpace = m_regSizeInVoxels.getLowerZ() + 1; iZVolSpace <= m_regSizeInVoxels.getUpperZ(); iZVolSpace++)
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for (int32_t iZVolSpace = m_regSizeInVoxels.getLowerZ() + 2; iZVolSpace <= m_regSizeInVoxels.getUpperZ() - 2; iZVolSpace++)
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{
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for (int32_t iYVolSpace = m_regSizeInVoxels.getLowerY() + 1; iYVolSpace <= m_regSizeInVoxels.getUpperY(); iYVolSpace++)
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for (int32_t iYVolSpace = m_regSizeInVoxels.getLowerY() + 2; iYVolSpace <= m_regSizeInVoxels.getUpperY() - 2; iYVolSpace++)
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{
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for (int32_t iXVolSpace = m_regSizeInVoxels.getLowerX() + 1; iXVolSpace <= m_regSizeInVoxels.getUpperX(); iXVolSpace++)
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for (int32_t iXVolSpace = m_regSizeInVoxels.getLowerX() + 2; iXVolSpace <= m_regSizeInVoxels.getUpperX() - 2; iXVolSpace++)
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{
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int32_t indlist[12];
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@ -239,7 +249,7 @@ namespace PolyVox
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const uint32_t uZRegSpace = m_sampVolume.getPosition().getZ() - m_regSizeInVoxels.getLowerZ();
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//Determine the index into the edge table which tells us which vertices are inside of the surface
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const uint8_t iCubeIndex = pBitmask(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1);
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const uint8_t iCubeIndex = pBitmask(uXRegSpace, uYRegSpace, uZRegSpace);
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/* Cube is entirely in/out of the surface */
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if (edgeTable[iCubeIndex] == 0)
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@ -250,51 +260,51 @@ namespace PolyVox
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/* Find the vertices where the surface intersects the cube */
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if (edgeTable[iCubeIndex] & 1)
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{
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indlist[0] = pIndicesX(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1);
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indlist[0] = pIndicesX(uXRegSpace, uYRegSpace, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 2)
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{
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indlist[1] = pIndicesY(uXRegSpace, uYRegSpace - 1, uZRegSpace - 1);
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indlist[1] = pIndicesY(uXRegSpace + 1, uYRegSpace, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 4)
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{
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indlist[2] = pIndicesX(uXRegSpace - 1, uYRegSpace, uZRegSpace - 1);
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indlist[2] = pIndicesX(uXRegSpace, uYRegSpace + 1, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 8)
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{
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indlist[3] = pIndicesY(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1);
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indlist[3] = pIndicesY(uXRegSpace, uYRegSpace, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 16)
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{
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indlist[4] = pIndicesX(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace);
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indlist[4] = pIndicesX(uXRegSpace, uYRegSpace, uZRegSpace + 1);
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}
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if (edgeTable[iCubeIndex] & 32)
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{
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indlist[5] = pIndicesY(uXRegSpace, uYRegSpace - 1, uZRegSpace);
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indlist[5] = pIndicesY(uXRegSpace + 1, uYRegSpace, uZRegSpace + 1);
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}
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if (edgeTable[iCubeIndex] & 64)
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{
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indlist[6] = pIndicesX(uXRegSpace - 1, uYRegSpace, uZRegSpace);
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indlist[6] = pIndicesX(uXRegSpace, uYRegSpace + 1, uZRegSpace + 1);
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}
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if (edgeTable[iCubeIndex] & 128)
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{
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indlist[7] = pIndicesY(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace);
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indlist[7] = pIndicesY(uXRegSpace, uYRegSpace, uZRegSpace + 1);
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}
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if (edgeTable[iCubeIndex] & 256)
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{
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indlist[8] = pIndicesZ(uXRegSpace - 1, uYRegSpace - 1, uZRegSpace - 1);
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indlist[8] = pIndicesZ(uXRegSpace, uYRegSpace, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 512)
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{
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indlist[9] = pIndicesZ(uXRegSpace, uYRegSpace - 1, uZRegSpace - 1);
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indlist[9] = pIndicesZ(uXRegSpace + 1, uYRegSpace, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 1024)
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{
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indlist[10] = pIndicesZ(uXRegSpace, uYRegSpace, uZRegSpace - 1);
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indlist[10] = pIndicesZ(uXRegSpace + 1, uYRegSpace + 1, uZRegSpace);
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}
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if (edgeTable[iCubeIndex] & 2048)
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{
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indlist[11] = pIndicesZ(uXRegSpace - 1, uYRegSpace, uZRegSpace - 1);
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indlist[11] = pIndicesZ(uXRegSpace, uYRegSpace + 1, uZRegSpace);
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}
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for (int i = 0; triTable[iCubeIndex][i] != -1; i += 3)
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