//-*****************************************************************************
void MeshDrwHelper::update( P3fArraySamplePtr iP,
V3fArraySamplePtr iN,
Abc::Box3d iBounds )
{
// Check validity.
if ( !m_valid || !iP || !m_meshP ||
( iP->size() != m_meshP->size() ) )
{
makeInvalid();
return;
}
// Set meshP
m_meshP = iP;
if ( iBounds.isEmpty() )
{
computeBounds();
}
else
{
m_bounds = iBounds;
}
updateNormals( iN );
}
//-*****************************************************************************
void MeshDrwHelper::update( P3fArraySamplePtr iP,
V3fArraySamplePtr iN,
Int32ArraySamplePtr iIndices,
Int32ArraySamplePtr iCounts,
Abc::Box3d iBounds )
{
// Before doing a ton, just have a quick look.
if ( m_meshP && iP &&
( m_meshP->size() == iP->size() ) &&
m_meshIndices &&
( m_meshIndices == iIndices ) &&
m_meshCounts &&
( m_meshCounts == iCounts ) )
{
if ( m_meshP == iP )
{
updateNormals( iN );
}
else
{
update( iP, iN );
}
return;
}
// Okay, if we're here, the indices are not equal or the counts
// are not equal or the P-array size changed.
// So we can clobber those three, but leave N alone for now.
m_meshP = iP;
m_meshIndices = iIndices;
m_meshCounts = iCounts;
m_triangles.clear ();
// Check stuff.
if ( !m_meshP ||
!m_meshIndices ||
!m_meshCounts )
{
std::cerr << "Mesh update quitting because no input data"
<< std::endl;
makeInvalid();
return;
}
// Get the number of each thing.
size_t numFaces = m_meshCounts->size();
size_t numIndices = m_meshIndices->size();
size_t numPoints = m_meshP->size();
if ( numFaces < 1 ||
numIndices < 1 ||
numPoints < 1 )
{
// Invalid.
std::cerr << "Mesh update quitting because bad arrays"
<< ", numFaces = " << numFaces
<< ", numIndices = " << numIndices
<< ", numPoints = " << numPoints
<< std::endl;
makeInvalid();
return;
}
// Make triangles.
size_t faceIndexBegin = 0;
size_t faceIndexEnd = 0;
for ( size_t face = 0; face < numFaces; ++face )
{
faceIndexBegin = faceIndexEnd;
size_t count = (*m_meshCounts)[face];
faceIndexEnd = faceIndexBegin + count;
// Check this face is valid
if ( faceIndexEnd > numIndices ||
faceIndexEnd < faceIndexBegin )
{
std::cerr << "Mesh update quitting on face: "
<< face
<< " because of wonky numbers"
<< ", faceIndexBegin = " << faceIndexBegin
<< ", faceIndexEnd = " << faceIndexEnd
<< ", numIndices = " << numIndices
<< ", count = " << count
<< std::endl;
// Just get out, make no more triangles.
break;
}
// Checking indices are valid.
bool goodFace = true;
for ( size_t fidx = faceIndexBegin;
fidx < faceIndexEnd; ++fidx )
{
if ( ( size_t ) ( (*m_meshIndices)[fidx] ) >= numPoints )
{
std::cout << "Mesh update quitting on face: "
<< face
<< " because of bad indices"
<< ", indexIndex = " << fidx
<< ", vertexIndex = " << (*m_meshIndices)[fidx]
<< ", numPoints = " << numPoints
<< std::endl;
goodFace = false;
break;
}
}
// Make triangles to fill this face.
if ( goodFace && count > 2 )
{
m_triangles.push_back(
Tri( ( unsigned int )(*m_meshIndices)[faceIndexBegin+0],
( unsigned int )(*m_meshIndices)[faceIndexBegin+1],
( unsigned int )(*m_meshIndices)[faceIndexBegin+2] ) );
for ( size_t c = 3; c < count; ++c )
{
m_triangles.push_back(
Tri( ( unsigned int )(*m_meshIndices)[faceIndexBegin+0],
( unsigned int )(*m_meshIndices)[faceIndexBegin+c-1],
( unsigned int )(*m_meshIndices)[faceIndexBegin+c]
) );
}
}
}
// Cool, we made triangles.
// Pretend the mesh is made...
m_valid = true;
// And now update just the P and N, which will update bounds
// and calculate new normals if necessary.
if ( iBounds.isEmpty() )
{
computeBounds();
}
else
{
m_bounds = iBounds;
}
updateNormals( iN );
// And that's it.
}
