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Fix for zero length normals causing a crash.

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This commit is contained in:
David Williams 2013-01-14 23:12:48 +01:00
parent 575f4824cc
commit e05cb1fefc
1 changed files with 20 additions and 3 deletions
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17
library/PolyVoxCore/include/PolyVoxCore/MarchingCubesSurfaceExtractor.inl
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@ -440,7 +440,13 @@ namespace PolyVox
const Vector3DFloat v3dPosition(static_cast<float>(iXVolSpace - m_regSizeInVoxels.getLowerCorner().getX()) + fInterp, static_cast<float>(iYVolSpace - m_regSizeInVoxels.getLowerCorner().getY()), static_cast<float>(iZVolSpace - m_regSizeInCells.getLowerCorner().getZ()));
Vector3DFloat v3dNormal = (n100*fInterp) + (n000*(1-fInterp));
// The gradient for a voxel can be zero (e.g. solid voxel surrounded by empty ones) and so
// the interpolated normal can also be zero (e.g. a grid of alternating solid and empty voxels).
if(v3dNormal.lengthSquared() > 0.000001f)
{
v3dNormal.normalise();
}
//Choose one of the two materials to use for the vertex (we don't interpolate as interpolation of
//material IDs does not make sense). We take the largest, so that if we are working on a material-only
@ -467,7 +473,13 @@ namespace PolyVox
const Vector3DFloat v3dPosition(static_cast<float>(iXVolSpace - m_regSizeInVoxels.getLowerCorner().getX()), static_cast<float>(iYVolSpace - m_regSizeInVoxels.getLowerCorner().getY()) + fInterp, static_cast<float>(iZVolSpace - m_regSizeInVoxels.getLowerCorner().getZ()));
Vector3DFloat v3dNormal = (n010*fInterp) + (n000*(1-fInterp));
// The gradient for a voxel can be zero (e.g. solid voxel surrounded by empty ones) and so
// the interpolated normal can also be zero (e.g. a grid of alternating solid and empty voxels).
if(v3dNormal.lengthSquared() > 0.000001f)
{
v3dNormal.normalise();
}
//Choose one of the two materials to use for the vertex (we don't interpolate as interpolation of
//material IDs does not make sense). We take the largest, so that if we are working on a material-only
@ -494,7 +506,12 @@ namespace PolyVox
const Vector3DFloat v3dPosition(static_cast<float>(iXVolSpace - m_regSizeInVoxels.getLowerCorner().getX()), static_cast<float>(iYVolSpace - m_regSizeInVoxels.getLowerCorner().getY()), static_cast<float>(iZVolSpace - m_regSizeInVoxels.getLowerCorner().getZ()) + fInterp);
Vector3DFloat v3dNormal = (n001*fInterp) + (n000*(1-fInterp));
// The gradient for a voxel can be zero (e.g. solid voxel surrounded by empty ones) and so
// the interpolated normal can also be zero (e.g. a grid of alternating solid and empty voxels).
if(v3dNormal.lengthSquared() > 0.000001f)
{
v3dNormal.normalise();
}
//Choose one of the two materials to use for the vertex (we don't interpolate as interpolation of
//material IDs does not make sense). We take the largest, so that if we are working on a material-only