aCellType = VTK_LINE;
for ( int edgeID = 0; edgeID < 6; ++edgeID )
{
- const int *edgeVerts = vtkTetra::GetEdgeArray( edgeID );
+ const vtkIdType *edgeVerts = vtkTetra::GetEdgeArray( edgeID );
if ( toShowEdge( pts[edgeVerts[0]], pts[edgeVerts[1]], cellId, input ))
{
aNewPts[0] = pts[edgeVerts[0]];
for (faceId = 0; faceId < 4; faceId++)
{
faceIds->Reset();
- const int *faceVerts = vtkTetra::GetFaceArray(faceId);
+ const vtkIdType *faceVerts = vtkTetra::GetFaceArray(faceId);
faceIds->InsertNextId(pts[faceVerts[0]]);
faceIds->InsertNextId(pts[faceVerts[1]]);
faceIds->InsertNextId(pts[faceVerts[2]]);
aCellType = VTK_LINE;
for ( int edgeID = 0; edgeID < 12; ++edgeID )
{
- const int *edgeVerts = vtkVoxel::GetEdgeArray( edgeID );
+ const vtkIdType *edgeVerts = vtkVoxel::GetEdgeArray( edgeID );
if ( toShowEdge( pts[edgeVerts[0]], pts[edgeVerts[1]], cellId, input ))
{
aNewPts[0] = pts[edgeVerts[0]];
for (faceId = 0; faceId < 6; faceId++)
{
faceIds->Reset();
- const int *faceVerts = vtkVoxel::GetFaceArray(faceId);
+ const vtkIdType*faceVerts = vtkVoxel::GetFaceArray(faceId);
faceIds->InsertNextId(pts[faceVerts[0]]);
faceIds->InsertNextId(pts[faceVerts[1]]);
faceIds->InsertNextId(pts[faceVerts[2]]);
aCellType = VTK_LINE;
for ( int edgeID = 0; edgeID < 12; ++edgeID )
{
- const int *edgeVerts = vtkHexahedron::GetEdgeArray( edgeID );
+ const vtkIdType *edgeVerts = vtkHexahedron::GetEdgeArray( edgeID );
if ( toShowEdge( pts[edgeVerts[0]], pts[edgeVerts[1]], cellId, input ))
{
aNewPts[0] = pts[edgeVerts[0]];
for (faceId = 0; faceId < 6; faceId++)
{
faceIds->Reset();
- const int *faceVerts = vtkHexahedron::GetFaceArray(faceId);
+ const vtkIdType *faceVerts = vtkHexahedron::GetFaceArray(faceId);
faceIds->InsertNextId(pts[faceVerts[0]]);
faceIds->InsertNextId(pts[faceVerts[1]]);
faceIds->InsertNextId(pts[faceVerts[2]]);
aCellType = VTK_LINE;
for ( int edgeID = 0; edgeID < 9; ++edgeID )
{
- const int *edgeVerts = vtkWedge::GetEdgeArray( edgeID );
+ const vtkIdType *edgeVerts = vtkWedge::GetEdgeArray( edgeID );
if ( toShowEdge( pts[edgeVerts[0]], pts[edgeVerts[1]], cellId, input ))
{
aNewPts[0] = pts[edgeVerts[0]];
for (faceId = 0; faceId < 5; faceId++)
{
faceIds->Reset();
- const int *faceVerts = vtkWedge::GetFaceArray(faceId);
+ const vtkIdType *faceVerts = vtkWedge::GetFaceArray(faceId);
faceIds->InsertNextId(pts[faceVerts[0]]);
faceIds->InsertNextId(pts[faceVerts[1]]);
faceIds->InsertNextId(pts[faceVerts[2]]);
aCellType = VTK_LINE;
for ( int edgeID = 0; edgeID < 18; ++edgeID )
{
- const int *edgeVerts = vtkHexagonalPrism::GetEdgeArray( edgeID );
+ const vtkIdType *edgeVerts = vtkHexagonalPrism::GetEdgeArray( edgeID );
if ( toShowEdge( pts[edgeVerts[0]], pts[edgeVerts[1]], cellId, input ))
{
aNewPts[0] = pts[edgeVerts[0]];
#endif
for (faceId = 0; faceId < 8; faceId++)
{
- const int *faceVerts = vtkHexagonalPrism::GetFaceArray(faceId);
+ const vtkIdType *faceVerts = vtkHexagonalPrism::GetFaceArray(faceId);
faceIds->Reset();
faceIds->InsertNextId(pts[faceVerts[0]]);
faceIds->InsertNextId(pts[faceVerts[1]]);
aCellType = VTK_LINE;
for ( int edgeID = 0; edgeID < 8; ++edgeID )
{
- const int *edgeVerts = vtkPyramid::GetEdgeArray( edgeID );
+ const vtkIdType *edgeVerts = vtkPyramid::GetEdgeArray( edgeID );
if ( toShowEdge( pts[edgeVerts[0]], pts[edgeVerts[1]], cellId, input ))
{
aNewPts[0] = pts[edgeVerts[0]];
for (faceId = 0; faceId < 5; faceId++)
{
faceIds->Reset();
- const int *faceVerts = vtkPyramid::GetFaceArray(faceId);
+ const vtkIdType *faceVerts = vtkPyramid::GetFaceArray(faceId);
faceIds->InsertNextId(pts[faceVerts[0]]);
faceIds->InsertNextId(pts[faceVerts[1]]);
faceIds->InsertNextId(pts[faceVerts[2]]);