def MakeVoxel():
'''
A voxel is a representation of a regular grid in 3-D space.
'''
numberOfVertices = 8
points = vtk.vtkPoints()
points.InsertNextPoint(0, 0, 0)
points.InsertNextPoint(1, 0, 0)
points.InsertNextPoint(0, 1, 0)
points.InsertNextPoint(1, 1, 0)
points.InsertNextPoint(0, 0, 1)
points.InsertNextPoint(1, 0, 1)
points.InsertNextPoint(0, 1, 1)
points.InsertNextPoint(1, 1, 1)
voxel = vtk.vtkVoxel()
for i in range(0, numberOfVertices):
voxel.GetPointIds().SetId(i, i)
ug = vtk.vtkUnstructuredGrid()
ug.SetPoints(points)
ug.InsertNextCell(voxel.GetCellType(), voxel.GetPointIds())
return ug
def __init___(self, scene, V, opacity=1, color='gray'):
self.scene = scene
self.frame = scene.frame
self.V = V
n_voxels = len(V)
size = V.bin_size
pts = vtk.vtkPoints()
pts.SetNumberOfPoints(8 * n_voxels)
grid = vtk.vtkUnstructuredGrid()
grid.Allocate(n_voxels, 1)
vx = vtk.vtkVoxel()
for i, q in enumerate(V):
pos = q * size + V.low_range
pts.InsertPoint(i * 8 + 0, *pos)
pts.InsertPoint(i * 8 + 1, *(pos + (size,0,0)))
pts.InsertPoint(i * 8 + 2, *(pos + (0,size,0)))
pts.InsertPoint(i * 8 + 3, *(pos + (size,size,0)))
pts.InsertPoint(i * 8 + 4, *(pos + (0,0,size)))
pts.InsertPoint(i * 8 + 5, *(pos + (size,0,size)))
pts.InsertPoint(i * 8 + 6, *(pos + (0,size,size)))
pts.InsertPoint(i * 8 + 7, *(pos + (size,size,size)))
for j in range(8):
vx.GetPointIds().SetId(j, i * 8 + j)
grid.InsertNextCell(vx.GetCellType(), vx.GetPointIds())
grid.SetPoints(pts)
mapper = vtk.vtkDataSetMapper()
mapper.SetInput(grid)
self.actor = vtk.vtkActor()
self.actor.SetMapper(mapper)
#self.actor.GetProperty().SetDiffuseColor(*name_to_rgb_float(color))
self.actor.GetProperty().SetColor(*name_to_rgb_float(color))
self.actor.GetProperty().SetOpacity(opacity)
self.frame.ren.AddActor(self.actor)
def create_voxel(self):
numberOfVertices = 8
points = vtk.vtkPoints()
points.InsertNextPoint(0, 0, 0)
points.InsertNextPoint(1, 0, 0)
points.InsertNextPoint(0, 1, 0)
points.InsertNextPoint(1, 1, 0)
points.InsertNextPoint(0, 0, 1)
points.InsertNextPoint(1, 0, 1)
points.InsertNextPoint(0, 1, 1)
points.InsertNextPoint(1, 1, 1)
voxel = vtk.vtkVoxel()
for i in range(0, numberOfVertices):
voxel.GetPointIds().SetId(i, i)
ugrid = vtk.vtkUnstructuredGrid()
ugrid.SetPoints(points)
ugrid.InsertNextCell(voxel.GetCellType(), voxel.GetPointIds())
gfilter = vtk.vtkGeometryFilter()
gfilter.SetInput(ugrid)
gfilter.Update()
return gfilter
def MakeVoxel():
'''
A voxel is a representation of a regular grid in 3-D space.
'''
numberOfVertices = 8
points = vtk.vtkPoints()
points.InsertNextPoint(0, 0, 0)
points.InsertNextPoint(1, 0, 0)
points.InsertNextPoint(0, 1, 0)
points.InsertNextPoint(1, 1, 0)
points.InsertNextPoint(0, 0, 1)
points.InsertNextPoint(1, 0, 1)
points.InsertNextPoint(0, 1, 1)
points.InsertNextPoint(1, 1, 1)
voxel = vtk.vtkVoxel()
for i in range(0, numberOfVertices):
voxel.GetPointIds().SetId(i, i)
ug = vtk.vtkUnstructuredGrid()
ug.SetPoints(points)
ug.InsertNextCell(voxel.GetCellType(), voxel.GetPointIds())
return ug
def main():
filenames = list()
uGrids = list()
uGrids.append(MakeUnstructuredGrid(vtk.vtkVertex()))
filenames.append('Vertex.vtu')
uGrids.append(MakePolyVertex())
filenames.append('PolyVertex.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkLine()))
filenames.append('Line.vtu')
uGrids.append(MakePolyLine())
filenames.append('PolyLine.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkTriangle()))
filenames.append('Triangle.vtu')
uGrids.append(MakeTriangleStrip())
filenames.append('TriangleStrip.vtu')
uGrids.append(MakePolygon())
filenames.append('Polygon.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkPixel()))
filenames.append('Pixel.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkQuad()))
filenames.append('Quad.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkTetra()))
filenames.append('Tetra.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkVoxel()))
filenames.append('Voxel.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkHexahedron()))
filenames.append('Hexahedron.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkWedge()))
filenames.append('Wedge.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkPyramid()))
filenames.append('Pyramid.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkPentagonalPrism()))
filenames.append('PentagonalPrism.vtu')
uGrids.append(MakeUnstructuredGrid(vtk.vtkHexagonalPrism()))
filenames.append('HexagonalPrism.vtu')
# Write each grid into a file
for i in range(0, len(uGrids)):
print('Writing: ', filenames[i])
writer = vtk.vtkXMLDataSetWriter()
writer.SetFileName(filenames[i])
writer.SetInputData(uGrids[i])
writer.Write()
def main():
filenames = list()
uGrids = list()
uGrids.append(MakeUnstructuredGrid(vtk.vtkVertex()))
filenames.append("Vertex.vtk")
uGrids.append(MakePolyVertex())
filenames.append("PolyVertex.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkLine()))
filenames.append("Line.vtk")
uGrids.append(MakePolyLine())
filenames.append("PolyLine.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkTriangle()))
filenames.append("Triangle.vtk")
uGrids.append(MakeTriangleStrip())
filenames.append("TriangleStrip.vtk")
uGrids.append(MakePolygon())
filenames.append("Polygon.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkPixel()))
filenames.append("Pixel.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkQuad()))
filenames.append("Quad.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkTetra()))
filenames.append("Tetra.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkVoxel()))
filenames.append("Voxel.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkHexahedron()))
filenames.append("Hexahedron.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkWedge()))
filenames.append("Wedge.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkPyramid()))
filenames.append("Pyramid.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkPentagonalPrism()))
filenames.append("PentagonalPrism.vtk")
uGrids.append(MakeUnstructuredGrid(vtk.vtkHexagonalPrism()))
filenames.append("HexagonalPrism.vtk")
# Write each grid into a file
for i in range(0, len(uGrids)):
print("Writing: ", filenames[i])
writer = vtk.vtkUnstructuredGridWriter()
writer.SetFileName(filenames[i])
writer.SetInputData(uGrids[i])
writer.Write()
def unstructuredgrid( self, points, npars=None ):
"""add unstructured grid"""
points = _nansplit( points )
#assert isinstance( points, (list,tuple,numpy.ndarray) ), 'Expected list of point arrays'
import vtk
vtkPoints = vtk.vtkPoints()
vtkPoints.SetNumberOfPoints( sum(pts.shape[0] for pts in points) )
cnt = 0
for pts in points:
np, ndims = pts.shape
if not npars:
npars = ndims
vtkelem = None
if np == 2:
vtkelem = vtk.vtkLine()
elif np == 3:
vtkelem = vtk.vtkTriangle()
elif np == 4:
if npars == 2:
vtkelem = vtk.vtkQuad()
elif npars == 3:
vtkelem = vtk.vtkTetra()
elif np == 8:
vtkelem = vtk.vtkVoxel() # TODO hexahedron for not rectilinear NOTE ordering changes!
if not vtkelem:
raise Exception( 'not sure what to do with cells with ndims=%d and npoints=%d' % (ndims,np) )
if ndims < 3:
pts = numpy.concatenate([pts,numpy.zeros(shape=(pts.shape[0],3-ndims))],axis=1)
cellpoints = vtkelem.GetPointIds()
for i,point in enumerate(pts):
vtkPoints .SetPoint( cnt, point )
cellpoints.SetId( i, cnt )
cnt +=1
self.vtkMesh.InsertNextCell( vtkelem.GetCellType(), cellpoints )
self.vtkMesh.SetPoints( vtkPoints )
def OnEndHeader(self):
"""Get ready to add blocks
"""
self.TotalFluidSites = self.Domain.BlockFluidSiteCounts.sum()
# Efficiently add the voxel corner points
self.Locator = vtk.vtkMergePoints()
self.Points = vtk.vtkPoints()
# Compute the bounds of the voxel corner points
# Initially in a shape == (3,2) array [[0, nSites[x]], ... ]
bounds = np.concatenate(
(np.zeros(3, dtype=int), self.Domain.SiteCounts)).reshape(
(2, 3)).transpose()
# shift half a voxel down, scale and then translate
bounds = self.Domain.VoxelSize*(bounds - 0.5) + \
self.Domain.Origin[:, np.newaxis]
# Since we know how the points will be arranged, use that information
# to tune the vtkMergePoints
self.Locator.SetDivisions(*self.Domain.BlockCounts)
self.Locator.InitPointInsertion(self.Points, bounds.flatten(),
self.TotalFluidSites)
# This is what we're trying to construct. Allocate data (we know how
# many cells (= TotalFluidSites) but not how many points, as we don't
# know the number of surface sites.
self.Grid = vtk.vtkUnstructuredGrid()
self.Grid.Allocate(self.TotalFluidSites, 1000)
self.Grid.SetPoints(self.Points)
# Array of offsets from a point to the corners of its cell.
self.deltas = 0.5 * self.Domain.VoxelSize * \
np.array([[ 1, 1, 1],
[ 1, 1,-1],
[ 1,-1, 1],
[ 1,-1,-1],
[-1, 1, 1],
[-1, 1,-1],
[-1,-1, 1],
[-1,-1,-1]],
dtype=float)
# Used as a working array.
self.vox = vtk.vtkVoxel()
return
def OnEndHeader(self):
"""Get ready to add blocks
"""
self.TotalFluidSites = self.Domain.BlockFluidSiteCounts.sum()
# Efficiently add the voxel corner points
self.Locator = vtk.vtkMergePoints()
self.Points = vtk.vtkPoints()
# Compute the bounds of the voxel corner points
# Initially in a shape == (3,2) array [[0, nSites[x]], ... ]
bounds = np.concatenate((np.zeros(3,dtype=int),
self.Domain.SiteCounts)).reshape((2,3)).transpose()
# shift half a voxel down, scale and then translate
bounds = self.Domain.VoxelSize*(bounds - 0.5) + \
self.Domain.Origin[:, np.newaxis]
# Since we know how the points will be arranged, use that information
# to tune the vtkMergePoints
self.Locator.SetDivisions(*self.Domain.BlockCounts)
self.Locator.InitPointInsertion(self.Points, bounds.flatten(),
self.TotalFluidSites)
# This is what we're trying to construct. Allocate data (we know how
# many cells (= TotalFluidSites) but not how many points, as we don't
# know the number of surface sites.
self.Grid = vtk.vtkUnstructuredGrid()
self.Grid.Allocate(self.TotalFluidSites, 1000)
self.Grid.SetPoints(self.Points)
# Array of offsets from a point to the corners of its cell.
self.deltas = 0.5 * self.Domain.VoxelSize * \
np.array([[ 1, 1, 1],
[ 1, 1,-1],
[ 1,-1, 1],
[ 1,-1,-1],
[-1, 1, 1],
[-1, 1,-1],
[-1,-1, 1],
[-1,-1,-1]],
dtype=float)
# Used as a working array.
self.vox = vtk.vtkVoxel()
return
def __init__(self):
pts = [
[0, 0, 0],
[1, 0, 0],
[0, 1, 0],
[1, 1, 0],
[0, 0, 1],
[1, 0, 1],
[0, 1, 1],
[1, 1, 1],
]
self.points = vtk.vtkPoints()
self.voxel = vtk.vtkVoxel()
self.mapper = vtk.vtkDataSetMapper()
self.actor = vtk.vtkActor()
for i, p in enumerate(pts):
self.points.InsertNextPoint(*p)
self.voxel.GetPointIds().SetId(i, i)
self.ug = vtk.vtkUnstructuredGrid()
self.ug.SetPoints(self.points)
self.ug.InsertNextCell(self.voxel.GetCellType(),
self.voxel.GetPointIds())
self.mapper.SetInputData(self.ug)
self.actor.SetMapper(self.mapper)
self.actor.GetProperty().SetColor(
vtk.vtkNamedColors().GetColor3d("Tomato"))
self.actor.GetProperty().EdgeVisibilityOn()
self.actor.GetProperty().SetLineWidth(3)
self.actor.GetProperty().SetOpacity(.1)
return
(0, 0, 1),(1, 0,.6),(1, 1,.6),(0, 1, 1)])
for x,y,z in lst: points.InsertNextPoint(x+6,y,z)
cell = vtk.vtkHexahedron()
for i in range(len(lst)): cell.GetPointIds().SetId(i, i+np)
UG.InsertNextCell(cell.GetCellType(), cell.GetPointIds() )
# vtkVoxel
np = points.GetNumberOfPoints()
lst = normalize([(0, 0, 0),(1, 0, 0),(0, 1, 0),(1, 1, 0),
(0, 0, 1),(1, 0, 1),(0, 1, 1),(1, 1, 1)])
for x,y,z in lst: points.InsertNextPoint(x+8,y,z)
cell = vtk.vtkVoxel()
for i in range(len(lst)): cell.GetPointIds().SetId(i, i+np)
UG.InsertNextCell(cell.GetCellType(), cell.GetPointIds() )
# vtkPentagonalPrism
np = points.GetNumberOfPoints()
lst = normalize([(1, 0, 0),(3, 0, 0),(4, 2, 0),(2, 4, 0),(0, 2, 0),
(1, 0, 1),(3, 0, 1),(4, 2, 1),(2, 4, 1),(0, 2, 1)])
for x,y,z in lst: points.InsertNextPoint(x+10,y,z)
cell = vtk.vtkPentagonalPrism()
for i in range(len(lst)): cell.GetPointIds().SetId(i, i+np)
UG.InsertNextCell(cell.GetCellType(), cell.GetPointIds() )
voxelPoints.InsertPoint(5, 1, 0, 1) voxelPoints.InsertPoint(6, 0, 1, 1) voxelPoints.InsertPoint(7, 1, 1, 1) voxelScalars = vtk.vtkFloatArray() voxelScalars.SetNumberOfTuples(8) voxelScalars.InsertValue(0, 0) voxelScalars.InsertValue(1, 1) voxelScalars.InsertValue(2, 0) voxelScalars.InsertValue(3, 0) voxelScalars.InsertValue(4, 0) voxelScalars.InsertValue(5, 0) voxelScalars.InsertValue(6, 0) voxelScalars.InsertValue(7, 0) aVoxel = vtk.vtkVoxel() aVoxel.GetPointIds().SetId(0, 0) aVoxel.GetPointIds().SetId(1, 1) aVoxel.GetPointIds().SetId(2, 2) aVoxel.GetPointIds().SetId(3, 3) aVoxel.GetPointIds().SetId(4, 4) aVoxel.GetPointIds().SetId(5, 5) aVoxel.GetPointIds().SetId(6, 6) aVoxel.GetPointIds().SetId(7, 7) aVoxelGrid = vtk.vtkUnstructuredGrid() aVoxelGrid.Allocate(1, 1) aVoxelGrid.InsertNextCell(aVoxel.GetCellType(), aVoxel.GetPointIds()) aVoxelGrid.SetPoints(voxelPoints) aVoxelGrid.GetPointData().SetScalars(voxelScalars)
def testCells(self):
# Demonstrates all cell types
#
# NOTE: the use of NewInstance/DeepCopy is included to increase
# regression coverage. It is not required in most applications.
ren = vtk.vtkRenderer()
# turn off all cullers
ren.GetCullers().RemoveAllItems()
renWin = vtk.vtkRenderWindow()
renWin.AddRenderer(ren)
renWin.SetSize(300, 150)
iRen = vtk.vtkRenderWindowInteractor()
iRen.SetRenderWindow(renWin)
# create a scene with one of each cell type
# Voxel
voxelPoints = vtk.vtkPoints()
voxelPoints.SetNumberOfPoints(8)
voxelPoints.InsertPoint(0, 0, 0, 0)
voxelPoints.InsertPoint(1, 1, 0, 0)
voxelPoints.InsertPoint(2, 0, 1, 0)
voxelPoints.InsertPoint(3, 1, 1, 0)
voxelPoints.InsertPoint(4, 0, 0, 1)
voxelPoints.InsertPoint(5, 1, 0, 1)
voxelPoints.InsertPoint(6, 0, 1, 1)
voxelPoints.InsertPoint(7, 1, 1, 1)
aVoxel = vtk.vtkVoxel()
aVoxel.GetPointIds().SetId(0, 0)
aVoxel.GetPointIds().SetId(1, 1)
aVoxel.GetPointIds().SetId(2, 2)
aVoxel.GetPointIds().SetId(3, 3)
aVoxel.GetPointIds().SetId(4, 4)
aVoxel.GetPointIds().SetId(5, 5)
aVoxel.GetPointIds().SetId(6, 6)
aVoxel.GetPointIds().SetId(7, 7)
bVoxel = aVoxel.NewInstance()
bVoxel.DeepCopy(aVoxel)
aVoxelGrid = vtk.vtkUnstructuredGrid()
aVoxelGrid.Allocate(1, 1)
aVoxelGrid.InsertNextCell(aVoxel.GetCellType(), aVoxel.GetPointIds())
aVoxelGrid.SetPoints(voxelPoints)
aVoxelMapper = vtk.vtkDataSetMapper()
aVoxelMapper.SetInputData(aVoxelGrid)
aVoxelActor = vtk.vtkActor()
aVoxelActor.SetMapper(aVoxelMapper)
aVoxelActor.GetProperty().BackfaceCullingOn()
# Hexahedron
hexahedronPoints = vtk.vtkPoints()
hexahedronPoints.SetNumberOfPoints(8)
hexahedronPoints.InsertPoint(0, 0, 0, 0)
hexahedronPoints.InsertPoint(1, 1, 0, 0)
hexahedronPoints.InsertPoint(2, 1, 1, 0)
hexahedronPoints.InsertPoint(3, 0, 1, 0)
hexahedronPoints.InsertPoint(4, 0, 0, 1)
hexahedronPoints.InsertPoint(5, 1, 0, 1)
hexahedronPoints.InsertPoint(6, 1, 1, 1)
hexahedronPoints.InsertPoint(7, 0, 1, 1)
aHexahedron = vtk.vtkHexahedron()
aHexahedron.GetPointIds().SetId(0, 0)
aHexahedron.GetPointIds().SetId(1, 1)
aHexahedron.GetPointIds().SetId(2, 2)
aHexahedron.GetPointIds().SetId(3, 3)
aHexahedron.GetPointIds().SetId(4, 4)
aHexahedron.GetPointIds().SetId(5, 5)
aHexahedron.GetPointIds().SetId(6, 6)
aHexahedron.GetPointIds().SetId(7, 7)
bHexahedron = aHexahedron.NewInstance()
bHexahedron.DeepCopy(aHexahedron)
aHexahedronGrid = vtk.vtkUnstructuredGrid()
aHexahedronGrid.Allocate(1, 1)
aHexahedronGrid.InsertNextCell(aHexahedron.GetCellType(),
aHexahedron.GetPointIds())
aHexahedronGrid.SetPoints(hexahedronPoints)
aHexahedronMapper = vtk.vtkDataSetMapper()
aHexahedronMapper.SetInputData(aHexahedronGrid)
aHexahedronActor = vtk.vtkActor()
aHexahedronActor.SetMapper(aHexahedronMapper)
aHexahedronActor.AddPosition(2, 0, 0)
aHexahedronActor.GetProperty().BackfaceCullingOn()
# Tetra
tetraPoints = vtk.vtkPoints()
tetraPoints.SetNumberOfPoints(4)
tetraPoints.InsertPoint(0, 0, 0, 0)
tetraPoints.InsertPoint(1, 1, 0, 0)
tetraPoints.InsertPoint(2, .5, 1, 0)
tetraPoints.InsertPoint(3, .5, .5, 1)
aTetra = vtk.vtkTetra()
aTetra.GetPointIds().SetId(0, 0)
aTetra.GetPointIds().SetId(1, 1)
aTetra.GetPointIds().SetId(2, 2)
aTetra.GetPointIds().SetId(3, 3)
bTetra = aTetra.NewInstance()
bTetra.DeepCopy(aTetra)
aTetraGrid = vtk.vtkUnstructuredGrid()
aTetraGrid.Allocate(1, 1)
aTetraGrid.InsertNextCell(aTetra.GetCellType(), aTetra.GetPointIds())
aTetraGrid.SetPoints(tetraPoints)
aTetraCopy = vtk.vtkUnstructuredGrid()
aTetraCopy.ShallowCopy(aTetraGrid)
aTetraMapper = vtk.vtkDataSetMapper()
aTetraMapper.SetInputData(aTetraCopy)
aTetraActor = vtk.vtkActor()
aTetraActor.SetMapper(aTetraMapper)
aTetraActor.AddPosition(4, 0, 0)
aTetraActor.GetProperty().BackfaceCullingOn()
# Wedge
wedgePoints = vtk.vtkPoints()
wedgePoints.SetNumberOfPoints(6)
wedgePoints.InsertPoint(0, 0, 1, 0)
wedgePoints.InsertPoint(1, 0, 0, 0)
wedgePoints.InsertPoint(2, 0, .5, .5)
wedgePoints.InsertPoint(3, 1, 1, 0)
wedgePoints.InsertPoint(4, 1, 0, 0)
wedgePoints.InsertPoint(5, 1, .5, .5)
aWedge = vtk.vtkWedge()
aWedge.GetPointIds().SetId(0, 0)
aWedge.GetPointIds().SetId(1, 1)
aWedge.GetPointIds().SetId(2, 2)
aWedge.GetPointIds().SetId(3, 3)
aWedge.GetPointIds().SetId(4, 4)
aWedge.GetPointIds().SetId(5, 5)
bWedge = aWedge.NewInstance()
bWedge.DeepCopy(aWedge)
aWedgeGrid = vtk.vtkUnstructuredGrid()
aWedgeGrid.Allocate(1, 1)
aWedgeGrid.InsertNextCell(aWedge.GetCellType(), aWedge.GetPointIds())
aWedgeGrid.SetPoints(wedgePoints)
aWedgeCopy = vtk.vtkUnstructuredGrid()
aWedgeCopy.DeepCopy(aWedgeGrid)
aWedgeMapper = vtk.vtkDataSetMapper()
aWedgeMapper.SetInputData(aWedgeCopy)
aWedgeActor = vtk.vtkActor()
aWedgeActor.SetMapper(aWedgeMapper)
aWedgeActor.AddPosition(6, 0, 0)
aWedgeActor.GetProperty().BackfaceCullingOn()
# Pyramid
pyramidPoints = vtk.vtkPoints()
pyramidPoints.SetNumberOfPoints(5)
pyramidPoints.InsertPoint(0, 0, 0, 0)
pyramidPoints.InsertPoint(1, 1, 0, 0)
pyramidPoints.InsertPoint(2, 1, 1, 0)
pyramidPoints.InsertPoint(3, 0, 1, 0)
pyramidPoints.InsertPoint(4, .5, .5, 1)
aPyramid = vtk.vtkPyramid()
aPyramid.GetPointIds().SetId(0, 0)
aPyramid.GetPointIds().SetId(1, 1)
aPyramid.GetPointIds().SetId(2, 2)
aPyramid.GetPointIds().SetId(3, 3)
aPyramid.GetPointIds().SetId(4, 4)
bPyramid = aPyramid.NewInstance()
bPyramid.DeepCopy(aPyramid)
aPyramidGrid = vtk.vtkUnstructuredGrid()
aPyramidGrid.Allocate(1, 1)
aPyramidGrid.InsertNextCell(aPyramid.GetCellType(),
aPyramid.GetPointIds())
aPyramidGrid.SetPoints(pyramidPoints)
aPyramidMapper = vtk.vtkDataSetMapper()
aPyramidMapper.SetInputData(aPyramidGrid)
aPyramidActor = vtk.vtkActor()
aPyramidActor.SetMapper(aPyramidMapper)
aPyramidActor.AddPosition(8, 0, 0)
aPyramidActor.GetProperty().BackfaceCullingOn()
# Pixel
pixelPoints = vtk.vtkPoints()
pixelPoints.SetNumberOfPoints(4)
pixelPoints.InsertPoint(0, 0, 0, 0)
pixelPoints.InsertPoint(1, 1, 0, 0)
pixelPoints.InsertPoint(2, 0, 1, 0)
pixelPoints.InsertPoint(3, 1, 1, 0)
aPixel = vtk.vtkPixel()
aPixel.GetPointIds().SetId(0, 0)
aPixel.GetPointIds().SetId(1, 1)
aPixel.GetPointIds().SetId(2, 2)
aPixel.GetPointIds().SetId(3, 3)
bPixel = aPixel.NewInstance()
bPixel.DeepCopy(aPixel)
aPixelGrid = vtk.vtkUnstructuredGrid()
aPixelGrid.Allocate(1, 1)
aPixelGrid.InsertNextCell(aPixel.GetCellType(), aPixel.GetPointIds())
aPixelGrid.SetPoints(pixelPoints)
aPixelMapper = vtk.vtkDataSetMapper()
aPixelMapper.SetInputData(aPixelGrid)
aPixelActor = vtk.vtkActor()
aPixelActor.SetMapper(aPixelMapper)
aPixelActor.AddPosition(0, 0, 2)
aPixelActor.GetProperty().BackfaceCullingOn()
# Quad
quadPoints = vtk.vtkPoints()
quadPoints.SetNumberOfPoints(4)
quadPoints.InsertPoint(0, 0, 0, 0)
quadPoints.InsertPoint(1, 1, 0, 0)
quadPoints.InsertPoint(2, 1, 1, 0)
quadPoints.InsertPoint(3, 0, 1, 0)
aQuad = vtk.vtkQuad()
aQuad.GetPointIds().SetId(0, 0)
aQuad.GetPointIds().SetId(1, 1)
aQuad.GetPointIds().SetId(2, 2)
aQuad.GetPointIds().SetId(3, 3)
bQuad = aQuad.NewInstance()
bQuad.DeepCopy(aQuad)
aQuadGrid = vtk.vtkUnstructuredGrid()
aQuadGrid.Allocate(1, 1)
aQuadGrid.InsertNextCell(aQuad.GetCellType(), aQuad.GetPointIds())
aQuadGrid.SetPoints(quadPoints)
aQuadMapper = vtk.vtkDataSetMapper()
aQuadMapper.SetInputData(aQuadGrid)
aQuadActor = vtk.vtkActor()
aQuadActor.SetMapper(aQuadMapper)
aQuadActor.AddPosition(2, 0, 2)
aQuadActor.GetProperty().BackfaceCullingOn()
# Triangle
trianglePoints = vtk.vtkPoints()
trianglePoints.SetNumberOfPoints(3)
trianglePoints.InsertPoint(0, 0, 0, 0)
trianglePoints.InsertPoint(1, 1, 0, 0)
trianglePoints.InsertPoint(2, .5, .5, 0)
triangleTCoords = vtk.vtkFloatArray()
triangleTCoords.SetNumberOfComponents(2)
triangleTCoords.SetNumberOfTuples(3)
triangleTCoords.InsertTuple2(0, 1, 1)
triangleTCoords.InsertTuple2(1, 2, 2)
triangleTCoords.InsertTuple2(2, 3, 3)
aTriangle = vtk.vtkTriangle()
aTriangle.GetPointIds().SetId(0, 0)
aTriangle.GetPointIds().SetId(1, 1)
aTriangle.GetPointIds().SetId(2, 2)
bTriangle = aTriangle.NewInstance()
bTriangle.DeepCopy(aTriangle)
aTriangleGrid = vtk.vtkUnstructuredGrid()
aTriangleGrid.Allocate(1, 1)
aTriangleGrid.InsertNextCell(aTriangle.GetCellType(),
aTriangle.GetPointIds())
aTriangleGrid.SetPoints(trianglePoints)
aTriangleGrid.GetPointData().SetTCoords(triangleTCoords)
aTriangleMapper = vtk.vtkDataSetMapper()
aTriangleMapper.SetInputData(aTriangleGrid)
aTriangleActor = vtk.vtkActor()
aTriangleActor.SetMapper(aTriangleMapper)
aTriangleActor.AddPosition(4, 0, 2)
aTriangleActor.GetProperty().BackfaceCullingOn()
# Polygon
polygonPoints = vtk.vtkPoints()
polygonPoints.SetNumberOfPoints(4)
polygonPoints.InsertPoint(0, 0, 0, 0)
polygonPoints.InsertPoint(1, 1, 0, 0)
polygonPoints.InsertPoint(2, 1, 1, 0)
polygonPoints.InsertPoint(3, 0, 1, 0)
aPolygon = vtk.vtkPolygon()
aPolygon.GetPointIds().SetNumberOfIds(4)
aPolygon.GetPointIds().SetId(0, 0)
aPolygon.GetPointIds().SetId(1, 1)
aPolygon.GetPointIds().SetId(2, 2)
aPolygon.GetPointIds().SetId(3, 3)
bPolygon = aPolygon.NewInstance()
bPolygon.DeepCopy(aPolygon)
aPolygonGrid = vtk.vtkUnstructuredGrid()
aPolygonGrid.Allocate(1, 1)
aPolygonGrid.InsertNextCell(aPolygon.GetCellType(),
aPolygon.GetPointIds())
aPolygonGrid.SetPoints(polygonPoints)
aPolygonMapper = vtk.vtkDataSetMapper()
aPolygonMapper.SetInputData(aPolygonGrid)
aPolygonActor = vtk.vtkActor()
aPolygonActor.SetMapper(aPolygonMapper)
aPolygonActor.AddPosition(6, 0, 2)
aPolygonActor.GetProperty().BackfaceCullingOn()
# Triangle Strip
triangleStripPoints = vtk.vtkPoints()
triangleStripPoints.SetNumberOfPoints(5)
triangleStripPoints.InsertPoint(0, 0, 1, 0)
triangleStripPoints.InsertPoint(1, 0, 0, 0)
triangleStripPoints.InsertPoint(2, 1, 1, 0)
triangleStripPoints.InsertPoint(3, 1, 0, 0)
triangleStripPoints.InsertPoint(4, 2, 1, 0)
triangleStripTCoords = vtk.vtkFloatArray()
triangleStripTCoords.SetNumberOfComponents(2)
triangleStripTCoords.SetNumberOfTuples(3)
triangleStripTCoords.InsertTuple2(0, 1, 1)
triangleStripTCoords.InsertTuple2(1, 2, 2)
triangleStripTCoords.InsertTuple2(2, 3, 3)
triangleStripTCoords.InsertTuple2(3, 4, 4)
triangleStripTCoords.InsertTuple2(4, 5, 5)
aTriangleStrip = vtk.vtkTriangleStrip()
aTriangleStrip.GetPointIds().SetNumberOfIds(5)
aTriangleStrip.GetPointIds().SetId(0, 0)
aTriangleStrip.GetPointIds().SetId(1, 1)
aTriangleStrip.GetPointIds().SetId(2, 2)
aTriangleStrip.GetPointIds().SetId(3, 3)
aTriangleStrip.GetPointIds().SetId(4, 4)
bTriangleStrip = aTriangleStrip.NewInstance()
bTriangleStrip.DeepCopy(aTriangleStrip)
aTriangleStripGrid = vtk.vtkUnstructuredGrid()
aTriangleStripGrid.Allocate(1, 1)
aTriangleStripGrid.InsertNextCell(aTriangleStrip.GetCellType(),
aTriangleStrip.GetPointIds())
aTriangleStripGrid.SetPoints(triangleStripPoints)
aTriangleStripGrid.GetPointData().SetTCoords(triangleStripTCoords)
aTriangleStripMapper = vtk.vtkDataSetMapper()
aTriangleStripMapper.SetInputData(aTriangleStripGrid)
aTriangleStripActor = vtk.vtkActor()
aTriangleStripActor.SetMapper(aTriangleStripMapper)
aTriangleStripActor.AddPosition(8, 0, 2)
aTriangleStripActor.GetProperty().BackfaceCullingOn()
# Line
linePoints = vtk.vtkPoints()
linePoints.SetNumberOfPoints(2)
linePoints.InsertPoint(0, 0, 0, 0)
linePoints.InsertPoint(1, 1, 1, 0)
aLine = vtk.vtkLine()
aLine.GetPointIds().SetId(0, 0)
aLine.GetPointIds().SetId(1, 1)
bLine = aLine.NewInstance()
bLine.DeepCopy(aLine)
aLineGrid = vtk.vtkUnstructuredGrid()
aLineGrid.Allocate(1, 1)
aLineGrid.InsertNextCell(aLine.GetCellType(), aLine.GetPointIds())
aLineGrid.SetPoints(linePoints)
aLineMapper = vtk.vtkDataSetMapper()
aLineMapper.SetInputData(aLineGrid)
aLineActor = vtk.vtkActor()
aLineActor.SetMapper(aLineMapper)
aLineActor.AddPosition(0, 0, 4)
aLineActor.GetProperty().BackfaceCullingOn()
# Poly line
polyLinePoints = vtk.vtkPoints()
polyLinePoints.SetNumberOfPoints(3)
polyLinePoints.InsertPoint(0, 0, 0, 0)
polyLinePoints.InsertPoint(1, 1, 1, 0)
polyLinePoints.InsertPoint(2, 1, 0, 0)
aPolyLine = vtk.vtkPolyLine()
aPolyLine.GetPointIds().SetNumberOfIds(3)
aPolyLine.GetPointIds().SetId(0, 0)
aPolyLine.GetPointIds().SetId(1, 1)
aPolyLine.GetPointIds().SetId(2, 2)
bPolyLine = aPolyLine.NewInstance()
bPolyLine.DeepCopy(aPolyLine)
aPolyLineGrid = vtk.vtkUnstructuredGrid()
aPolyLineGrid.Allocate(1, 1)
aPolyLineGrid.InsertNextCell(aPolyLine.GetCellType(),
aPolyLine.GetPointIds())
aPolyLineGrid.SetPoints(polyLinePoints)
aPolyLineMapper = vtk.vtkDataSetMapper()
aPolyLineMapper.SetInputData(aPolyLineGrid)
aPolyLineActor = vtk.vtkActor()
aPolyLineActor.SetMapper(aPolyLineMapper)
aPolyLineActor.AddPosition(2, 0, 4)
aPolyLineActor.GetProperty().BackfaceCullingOn()
# Vertex
vertexPoints = vtk.vtkPoints()
vertexPoints.SetNumberOfPoints(1)
vertexPoints.InsertPoint(0, 0, 0, 0)
aVertex = vtk.vtkVertex()
aVertex.GetPointIds().SetId(0, 0)
bVertex = aVertex.NewInstance()
bVertex.DeepCopy(aVertex)
aVertexGrid = vtk.vtkUnstructuredGrid()
aVertexGrid.Allocate(1, 1)
aVertexGrid.InsertNextCell(aVertex.GetCellType(),
aVertex.GetPointIds())
aVertexGrid.SetPoints(vertexPoints)
aVertexMapper = vtk.vtkDataSetMapper()
aVertexMapper.SetInputData(aVertexGrid)
aVertexActor = vtk.vtkActor()
aVertexActor.SetMapper(aVertexMapper)
aVertexActor.AddPosition(0, 0, 6)
aVertexActor.GetProperty().BackfaceCullingOn()
# Poly Vertex
polyVertexPoints = vtk.vtkPoints()
polyVertexPoints.SetNumberOfPoints(3)
polyVertexPoints.InsertPoint(0, 0, 0, 0)
polyVertexPoints.InsertPoint(1, 1, 0, 0)
polyVertexPoints.InsertPoint(2, 1, 1, 0)
aPolyVertex = vtk.vtkPolyVertex()
aPolyVertex.GetPointIds().SetNumberOfIds(3)
aPolyVertex.GetPointIds().SetId(0, 0)
aPolyVertex.GetPointIds().SetId(1, 1)
aPolyVertex.GetPointIds().SetId(2, 2)
bPolyVertex = aPolyVertex.NewInstance()
bPolyVertex.DeepCopy(aPolyVertex)
aPolyVertexGrid = vtk.vtkUnstructuredGrid()
aPolyVertexGrid.Allocate(1, 1)
aPolyVertexGrid.InsertNextCell(aPolyVertex.GetCellType(),
aPolyVertex.GetPointIds())
aPolyVertexGrid.SetPoints(polyVertexPoints)
aPolyVertexMapper = vtk.vtkDataSetMapper()
aPolyVertexMapper.SetInputData(aPolyVertexGrid)
aPolyVertexActor = vtk.vtkActor()
aPolyVertexActor.SetMapper(aPolyVertexMapper)
aPolyVertexActor.AddPosition(2, 0, 6)
aPolyVertexActor.GetProperty().BackfaceCullingOn()
# Pentagonal prism
pentaPoints = vtk.vtkPoints()
pentaPoints.SetNumberOfPoints(10)
pentaPoints.InsertPoint(0, 0.25, 0.0, 0.0)
pentaPoints.InsertPoint(1, 0.75, 0.0, 0.0)
pentaPoints.InsertPoint(2, 1.0, 0.5, 0.0)
pentaPoints.InsertPoint(3, 0.5, 1.0, 0.0)
pentaPoints.InsertPoint(4, 0.0, 0.5, 0.0)
pentaPoints.InsertPoint(5, 0.25, 0.0, 1.0)
pentaPoints.InsertPoint(6, 0.75, 0.0, 1.0)
pentaPoints.InsertPoint(7, 1.0, 0.5, 1.0)
pentaPoints.InsertPoint(8, 0.5, 1.0, 1.0)
pentaPoints.InsertPoint(9, 0.0, 0.5, 1.0)
aPenta = vtk.vtkPentagonalPrism()
aPenta.GetPointIds().SetId(0, 0)
aPenta.GetPointIds().SetId(1, 1)
aPenta.GetPointIds().SetId(2, 2)
aPenta.GetPointIds().SetId(3, 3)
aPenta.GetPointIds().SetId(4, 4)
aPenta.GetPointIds().SetId(5, 5)
aPenta.GetPointIds().SetId(6, 6)
aPenta.GetPointIds().SetId(7, 7)
aPenta.GetPointIds().SetId(8, 8)
aPenta.GetPointIds().SetId(9, 9)
bPenta = aPenta.NewInstance()
bPenta.DeepCopy(aPenta)
aPentaGrid = vtk.vtkUnstructuredGrid()
aPentaGrid.Allocate(1, 1)
aPentaGrid.InsertNextCell(aPenta.GetCellType(), aPenta.GetPointIds())
aPentaGrid.SetPoints(pentaPoints)
aPentaCopy = vtk.vtkUnstructuredGrid()
aPentaCopy.DeepCopy(aPentaGrid)
aPentaMapper = vtk.vtkDataSetMapper()
aPentaMapper.SetInputData(aPentaCopy)
aPentaActor = vtk.vtkActor()
aPentaActor.SetMapper(aPentaMapper)
aPentaActor.AddPosition(10, 0, 0)
aPentaActor.GetProperty().BackfaceCullingOn()
# Hexagonal prism
hexaPoints = vtk.vtkPoints()
hexaPoints.SetNumberOfPoints(12)
hexaPoints.InsertPoint(0, 0.0, 0.0, 0.0)
hexaPoints.InsertPoint(1, 0.5, 0.0, 0.0)
hexaPoints.InsertPoint(2, 1.0, 0.5, 0.0)
hexaPoints.InsertPoint(3, 1.0, 1.0, 0.0)
hexaPoints.InsertPoint(4, 0.5, 1.0, 0.0)
hexaPoints.InsertPoint(5, 0.0, 0.5, 0.0)
hexaPoints.InsertPoint(6, 0.0, 0.0, 1.0)
hexaPoints.InsertPoint(7, 0.5, 0.0, 1.0)
hexaPoints.InsertPoint(8, 1.0, 0.5, 1.0)
hexaPoints.InsertPoint(9, 1.0, 1.0, 1.0)
hexaPoints.InsertPoint(10, 0.5, 1.0, 1.0)
hexaPoints.InsertPoint(11, 0.0, 0.5, 1.0)
aHexa = vtk.vtkHexagonalPrism()
aHexa.GetPointIds().SetId(0, 0)
aHexa.GetPointIds().SetId(1, 1)
aHexa.GetPointIds().SetId(2, 2)
aHexa.GetPointIds().SetId(3, 3)
aHexa.GetPointIds().SetId(4, 4)
aHexa.GetPointIds().SetId(5, 5)
aHexa.GetPointIds().SetId(6, 6)
aHexa.GetPointIds().SetId(7, 7)
aHexa.GetPointIds().SetId(8, 8)
aHexa.GetPointIds().SetId(9, 9)
aHexa.GetPointIds().SetId(10, 10)
aHexa.GetPointIds().SetId(11, 11)
bHexa = aHexa.NewInstance()
bHexa.DeepCopy(aHexa)
aHexaGrid = vtk.vtkUnstructuredGrid()
aHexaGrid.Allocate(1, 1)
aHexaGrid.InsertNextCell(aHexa.GetCellType(), aHexa.GetPointIds())
aHexaGrid.SetPoints(hexaPoints)
aHexaCopy = vtk.vtkUnstructuredGrid()
aHexaCopy.DeepCopy(aHexaGrid)
aHexaMapper = vtk.vtkDataSetMapper()
aHexaMapper.SetInputData(aHexaCopy)
aHexaActor = vtk.vtkActor()
aHexaActor.SetMapper(aHexaMapper)
aHexaActor.AddPosition(12, 0, 0)
aHexaActor.GetProperty().BackfaceCullingOn()
# RIB property
if hasattr(vtk, 'vtkRIBProperty'):
aRIBProperty = vtk.vtkRIBProperty()
aRIBProperty.SetVariable("Km", "float")
aRIBProperty.SetSurfaceShader("LGVeinedmarble")
aRIBProperty.SetVariable("veinfreq", "float")
aRIBProperty.AddVariable("warpfreq", "float")
aRIBProperty.AddVariable("veincolor", "color")
aRIBProperty.AddSurfaceShaderParameter("veinfreq", " 2")
aRIBProperty.AddSurfaceShaderParameter("veincolor",
"1.0000 1.0000 0.9412")
bRIBProperty = vtk.vtkRIBProperty()
bRIBProperty.SetVariable("Km", "float")
bRIBProperty.SetSurfaceShaderParameter("Km", "1.0")
bRIBProperty.SetDisplacementShader("dented")
bRIBProperty.SetSurfaceShader("plastic")
aProperty = vtk.vtkProperty()
bProperty = vtk.vtkProperty()
aTriangleActor.SetProperty(aProperty)
aTriangleStripActor.SetProperty(bProperty)
ren.SetBackground(.1, .2, .4)
ren.AddActor(aVoxelActor)
aVoxelActor.GetProperty().SetDiffuseColor(1, 0, 0)
ren.AddActor(aHexahedronActor)
aHexahedronActor.GetProperty().SetDiffuseColor(1, 1, 0)
ren.AddActor(aTetraActor)
aTetraActor.GetProperty().SetDiffuseColor(0, 1, 0)
ren.AddActor(aWedgeActor)
aWedgeActor.GetProperty().SetDiffuseColor(0, 1, 1)
ren.AddActor(aPyramidActor)
aPyramidActor.GetProperty().SetDiffuseColor(1, 0, 1)
ren.AddActor(aPixelActor)
aPixelActor.GetProperty().SetDiffuseColor(0, 1, 1)
ren.AddActor(aQuadActor)
aQuadActor.GetProperty().SetDiffuseColor(1, 0, 1)
ren.AddActor(aTriangleActor)
aTriangleActor.GetProperty().SetDiffuseColor(.3, 1, .5)
ren.AddActor(aPolygonActor)
aPolygonActor.GetProperty().SetDiffuseColor(1, .4, .5)
ren.AddActor(aTriangleStripActor)
aTriangleStripActor.GetProperty().SetDiffuseColor(.3, .7, 1)
ren.AddActor(aLineActor)
aLineActor.GetProperty().SetDiffuseColor(.2, 1, 1)
ren.AddActor(aPolyLineActor)
aPolyLineActor.GetProperty().SetDiffuseColor(1, 1, 1)
ren.AddActor(aVertexActor)
aVertexActor.GetProperty().SetDiffuseColor(1, 1, 1)
ren.AddActor(aPolyVertexActor)
aPolyVertexActor.GetProperty().SetDiffuseColor(1, 1, 1)
ren.AddActor(aPentaActor)
aPentaActor.GetProperty().SetDiffuseColor(.2, .4, .7)
ren.AddActor(aHexaActor)
aHexaActor.GetProperty().SetDiffuseColor(.7, .5, 1)
if hasattr(vtk, 'vtkRIBLight'):
aRIBLight = vtk.vtkRIBLight()
aRIBLight.SetIntensity(0.7)
ren.AddLight(aRIBLight)
aLight = vtk.vtkLight()
aLight.PositionalOn()
aLight.SetConeAngle(10.0)
aLight.SetIntensity(0.7)
ren.AddLight(aLight)
ren.ResetCamera()
ren.GetActiveCamera().Azimuth(30)
ren.GetActiveCamera().Elevation(20)
ren.GetActiveCamera().Dolly(2.8)
ren.ResetCameraClippingRange()
dir = VTK_TEMP_DIR
atext = vtk.vtkTexture()
pnmReader = vtk.vtkBMPReader()
pnmReader.SetFileName(VTK_DATA_ROOT + "/Data/masonry.bmp")
atext.SetInputConnection(pnmReader.GetOutputPort())
atext.InterpolateOff()
aTriangleActor.SetTexture(atext)
aRIBLight.SetFocalPoint(ren.GetActiveCamera().GetFocalPoint())
aRIBLight.SetPosition(ren.GetActiveCamera().GetPosition())
aLight.SetFocalPoint(ren.GetActiveCamera().GetFocalPoint())
aLight.SetPosition(ren.GetActiveCamera().GetPosition())
# bascially have IO/Export ?
if hasattr(vtk, 'vtkRIBExporter'):
rib = vtk.vtkRIBExporter()
rib.SetInput(renWin)
rib.SetFilePrefix(dir + '/cells')
rib.SetTexturePrefix(dir + '/cells')
rib.Write()
iv = vtk.vtkIVExporter()
iv.SetInput(renWin)
iv.SetFileName(dir + "/cells.iv")
iv.Write()
os.remove(dir + '/cells.iv')
obj = vtk.vtkOBJExporter()
obj.SetInput(renWin)
obj.SetFilePrefix(dir + "/cells")
obj.Write()
os.remove(dir + '/cells.obj')
os.remove(dir + '/cells.mtl')
vrml = vtk.vtkVRMLExporter()
vrml.SetInput(renWin)
#vrml.SetStartWrite(vrml.SetFileName(dir + "/cells.wrl"))
#vrml.SetEndWrite(vrml.SetFileName("/a/acells.wrl"))
vrml.SetFileName(dir + "/cells.wrl")
vrml.SetSpeed(5.5)
vrml.Write()
os.remove(dir + '/cells.wrl')
oogl = vtk.vtkOOGLExporter()
oogl.SetInput(renWin)
oogl.SetFileName(dir + "/cells.oogl")
oogl.Write()
os.remove(dir + '/cells.oogl')
# the UnRegister calls are because make object is the same as New,
# and causes memory leaks. (Python does not treat NewInstance the same as New).
def DeleteCopies():
bVoxel.UnRegister(None)
bHexahedron.UnRegister(None)
bTetra.UnRegister(None)
bWedge.UnRegister(None)
bPyramid.UnRegister(None)
bPixel.UnRegister(None)
bQuad.UnRegister(None)
bTriangle.UnRegister(None)
bPolygon.UnRegister(None)
bTriangleStrip.UnRegister(None)
bLine.UnRegister(None)
bPolyLine.UnRegister(None)
bVertex.UnRegister(None)
bPolyVertex.UnRegister(None)
bPenta.UnRegister(None)
bHexa.UnRegister(None)
DeleteCopies()
# render and interact with data
renWin.Render()
img_file = "cells.png"
vtk.test.Testing.compareImage(
iRen.GetRenderWindow(), vtk.test.Testing.getAbsImagePath(img_file))
vtk.test.Testing.interact()
renWin.AddRenderer(ren1) iren = vtk.vtkRenderWindowInteractor() iren.SetRenderWindow(renWin) # create a scene with one of each cell type # Voxel voxelPoints = vtk.vtkPoints() voxelPoints.SetNumberOfPoints(8) voxelPoints.InsertPoint(0,0,0,0) voxelPoints.InsertPoint(1,1,0,0) voxelPoints.InsertPoint(2,0,1,0) voxelPoints.InsertPoint(3,1,1,0) voxelPoints.InsertPoint(4,0,0,1) voxelPoints.InsertPoint(5,1,0,1) voxelPoints.InsertPoint(6,0,1,1) voxelPoints.InsertPoint(7,1,1,1) aVoxel = vtk.vtkVoxel() aVoxel.GetPointIds().SetId(0,0) aVoxel.GetPointIds().SetId(1,1) aVoxel.GetPointIds().SetId(2,2) aVoxel.GetPointIds().SetId(3,3) aVoxel.GetPointIds().SetId(4,4) aVoxel.GetPointIds().SetId(5,5) aVoxel.GetPointIds().SetId(6,6) aVoxel.GetPointIds().SetId(7,7) aVoxelGrid = vtk.vtkUnstructuredGrid() aVoxelGrid.Allocate(1,1) aVoxelGrid.InsertNextCell(aVoxel.GetCellType(),aVoxel.GetPointIds()) aVoxelGrid.SetPoints(voxelPoints) aVoxelMapper = vtk.vtkDataSetMapper() aVoxelMapper.SetInputData(aVoxelGrid) aVoxelActor = vtk.vtkActor()
def ExtractVoxelsToUnstructuredGrid(self, n: int):
"""
随机抽取n个voxel,一个voxel是由8个数据点组成的正方体。voxel太分散,不太像非结构化体数据
:param n:会剔除一部分点
:return:vtkUnstructuredGrid
"""
# 获取三个方向上的维度
XDimension = self.dataDimension[0]
YDimension = self.dataDimension[1]
ZDimension = self.dataDimension[2]
UGrid = vtk.vtkUnstructuredGrid() # 最后输出的非结构化体数据
voxelArray = vtk.vtkCellArray() # 体素的集合
points = vtk.vtkPoints() # 点的集合
scalars = np.empty(0, dtype=float)
# 按照正态分布随机取点
# Xindexes = np.floor(np.random.normal(XDimension / 2, XDimension / 4, n))
# Yindexes = np.floor(np.random.normal(XDimension / 2, XDimension / 4, n))
# Zindexes = np.floor(np.random.normal(XDimension / 2, XDimension / 4, n))
for v in range(0, n):
pointValues = np.zeros(8)
voxel = vtk.vtkVoxel() # 一个体素
# 获得随机生成的位置下标,然后每个维度+1就可以得到一个voxel
# 平均抽取
Xindex = np.random.randint(10, XDimension - 1)
Yindex = np.random.randint(10, YDimension - 1)
Zindex = np.random.randint(10, ZDimension - 1)
# 剔除不在体数据范围内的值
# if 0 <= Xindexes[v] < XDimension - 1 and 0 <= Yindexes[v] < YDimension - 1 and 0 <= Zindexes[
# v] < ZDimension - 1:
# Xindex = int(Xindexes[v])
# Yindex = int(Yindexes[v])
# Zindex = int(Zindexes[v])
# 8个顶点
points.InsertNextPoint(Xindex, Yindex, Zindex)
points.InsertNextPoint(Xindex + 1, Yindex, Zindex)
points.InsertNextPoint(Xindex, Yindex + 1, Zindex)
points.InsertNextPoint(Xindex, Yindex, Zindex + 1)
points.InsertNextPoint(Xindex + 1, Yindex, Zindex + 1)
points.InsertNextPoint(Xindex, Yindex + 1, Zindex + 1)
points.InsertNextPoint(Xindex + 1, Yindex + 1, Zindex)
points.InsertNextPoint(Xindex + 1, Yindex + 1, Zindex + 1)
# 8个顶点的标量值
pointValues[0] = self.dataMatrix[Xindex, Yindex, Zindex]
pointValues[1] = self.dataMatrix[Xindex + 1, Yindex, Zindex]
pointValues[2] = self.dataMatrix[Xindex, Yindex + 1, Zindex]
pointValues[3] = self.dataMatrix[Xindex, Yindex, Zindex + 1]
pointValues[4] = self.dataMatrix[Xindex + 1, Yindex, Zindex + 1]
pointValues[5] = self.dataMatrix[Xindex, Yindex + 1, Zindex + 1]
pointValues[6] = self.dataMatrix[Xindex + 1, Yindex + 1, Zindex]
pointValues[7] = self.dataMatrix[Xindex + 1, Yindex + 1,
Zindex + 1]
scalars = np.hstack((scalars, pointValues)) # 连接两个array
for i in range(8):
voxel.GetPointIds().SetId(i, i + v)
voxelArray.InsertNextCell(voxel)
scalarArray = numpy2vtk(num_array=scalars, array_type=vtk.VTK_FLOAT)
UGrid.SetPoints(points)
UGrid.GetPointData().SetScalars(scalarArray)
UGrid.SetCells(voxel.GetCellType(), voxelArray)
return UGrid
def PointsToGrid(self, xo, yo, zo, dx, dy, dz, grid=None):
"""Convert XYZ points to a ``vtkUnstructuredGrid``.
"""
if not checkNumpy():
raise _helpers.PVGeoError(
"`VoxelizePoints` cannot work with versions of NumPy below 1.10.x . You must update NumPy."
)
return None
if grid is None:
grid = vtk.vtkUnstructuredGrid()
# TODO: Check dtypes on all arrays. Need to be floats
if self.__estimateGrid:
x, y, z = self.EstimateUniformSpacing(xo, yo, zo)
else:
x, y, z = xo, yo, zo
dx, dy, dz = self.__dx, self.__dy, self.__dz
if isinstance(dx, np.ndarray) and len(dx) != len(x):
raise _helpers.PVGeoError(
'X-Cell spacings are not properly defined for all points.')
if isinstance(dy, np.ndarray) and len(dy) != len(y):
raise _helpers.PVGeoError(
'X-Cell spacings are not properly defined for all points.')
if isinstance(dz, np.ndarray) and len(dz) != len(z):
raise _helpers.PVGeoError(
'X-Cell spacings are not properly defined for all points.')
numCells = len(x)
# Generate cell nodes for all points in data set
#- Bottom
c_n1 = np.stack(((x - dx / 2), (y - dy / 2), (z - dz / 2)), axis=1)
c_n2 = np.stack(((x + dx / 2), (y - dy / 2), (z - dz / 2)), axis=1)
c_n3 = np.stack(((x - dx / 2), (y + dy / 2), (z - dz / 2)), axis=1)
c_n4 = np.stack(((x + dx / 2), (y + dy / 2), (z - dz / 2)), axis=1)
#- Top
c_n5 = np.stack(((x - dx / 2), (y - dy / 2), (z + dz / 2)), axis=1)
c_n6 = np.stack(((x + dx / 2), (y - dy / 2), (z + dz / 2)), axis=1)
c_n7 = np.stack(((x - dx / 2), (y + dy / 2), (z + dz / 2)), axis=1)
c_n8 = np.stack(((x + dx / 2), (y + dy / 2), (z + dz / 2)), axis=1)
#- Concatenate
all_nodes = np.concatenate(
(c_n1, c_n2, c_n3, c_n4, c_n5, c_n6, c_n7, c_n8), axis=0)
# Search for unique nodes and use the min cell size as the tolerance
TOLERANCE = np.min([dx, dy]) / 2.0
# Round XY plane by the tolerance
txy = np.around(all_nodes[:, 0:2] / TOLERANCE)
all_nodes[:, 0:2] = txy
unique_nodes, ind_nodes = np.unique(all_nodes,
return_inverse=True,
axis=0)
unique_nodes[:, 0:2] *= TOLERANCE
numPts = len(unique_nodes)
# Make the cells
pts = vtk.vtkPoints()
cells = vtk.vtkCellArray()
# insert unique nodes as points
if self.__estimateGrid:
unique_nodes[:, 0:2] = RotationTool.Rotate(unique_nodes[:, 0:2],
-self.__angle)
self.AddFieldData(grid)
# Add unique nodes as points in output
pts.SetData(nps.numpy_to_vtk(unique_nodes))
cnt = 0
arridx = np.zeros(numCells)
for i in range(numCells):
# OPTIMIZE: may be complicated but can be speed up
vox = vtk.vtkVoxel()
for j in range(8):
vox.GetPointIds().SetId(j, ind_nodes[j * numCells + i])
cells.InsertNextCell(vox)
arridx[i] = i
cnt += 8
grid.SetPoints(pts)
grid.SetCells(vtk.VTK_VOXEL, cells)
#VoxelizePoints.AddCellData(grid, arridx, 'Voxel ID') # For testing
return grid
def _set_boxes(self, box_corners_list, box_colours=None,
pyramid_tips=None):
"""
Sets the box corners and box colours for display
:param box_corners_list: list of box corners N x [8 x [x,y,z]]
:param box_colours: (optional) list of unsigned char colour tuples
:param pyramid_tips: (optional) pyramid tip positions N x [x, y, z]
"""
vtk_boxes = vtk.vtkUnstructuredGrid()
vtk_box_points = vtk.vtkPoints()
current_point_id = 0
for box_idx in range(len(box_corners_list)):
box_corners = box_corners_list[box_idx]
# Create pyramid
pyramid_tip = pyramid_tips[box_idx]
self._create_pyramid_points(pyramid_tip, box_corners)
self._create_pyramid_lines(box_idx)
# Sort corners into the order required by VTK
box_x = box_corners[:, 0]
box_y = box_corners[:, 1]
box_z = box_corners[:, 2]
sorted_order = np.lexsort((box_x, box_y, box_z))
box_corners = box_corners[sorted_order]
vtk_box = vtk.vtkVoxel()
for i in range(len(box_corners)):
point = box_corners[i]
vtk_box_points.InsertNextPoint(*point)
vtk_box.GetPointIds().SetId(i, current_point_id)
current_point_id += 1
vtk_boxes.InsertNextCell(vtk_box.GetCellType(),
vtk_box.GetPointIds())
# Set cell colour
if box_colours:
self.vtk_box_colours.InsertNextTuple(box_colours[box_idx])
# Set colours for 4 pyramid lines
for i in range(4):
self.vtk_pyramid_colours.InsertNextTuple(
box_colours[box_idx])
vtk_boxes.SetPoints(vtk_box_points)
vtk_boxes.GetCellData().SetScalars(self.vtk_box_colours)
self.vtk_data_set_mapper.SetInputData(vtk_boxes)
# Setup pyramid poly data
self.vtk_pyramid_poly_data.SetPoints(self.vtk_pyramid_points)
self.vtk_pyramid_poly_data.SetLines(self.vtk_pyramid_lines)
vtk_pyramid_lines_mapper = vtk.vtkPolyDataMapper()
vtk_pyramid_lines_mapper.SetInputData(self.vtk_pyramid_poly_data)
self.vtk_pyramid_actor.SetMapper(vtk_pyramid_lines_mapper)
self.vtk_pyramid_poly_data.GetCellData().SetScalars(
self.vtk_pyramid_colours)
def getVolumeVtkGrid(visMesh):
"""
Returns:
vtk.vtkUnstructuredGrid:
"""
assert isinstance(visMesh, VisMesh)
bClipPolyhedra = True
vtkpoints = vtk.vtkPoints()
for visPoint in visMesh.points:
vtkpoints.InsertNextPoint(visPoint.x, visPoint.y, visPoint.z)
vtkgrid = vtk.vtkUnstructuredGrid()
vtkgrid.Allocate(len(visMesh.points), len(visMesh.points))
vtkgrid.SetPoints(vtkpoints)
quadType = vtk.vtkQuad().GetCellType()
# lineType = vtk.vtkLine().GetCellType()
polygonType = vtk.vtkPolygon().GetCellType()
polyhedronType = vtk.vtkPolyhedron().GetCellType()
triangleType = vtk.vtkTriangle().GetCellType()
voxelType = vtk.vtkVoxel().GetCellType()
tetraType = vtk.vtkTetra().GetCellType()
if visMesh.polygons != None:
for visPolygon in visMesh.polygons:
pts = vtk.vtkIdList()
polygonPoints = visPolygon.pointIndices
for p in polygonPoints:
pts.InsertNextId(p)
numPoints = len(polygonPoints)
if numPoints == 4:
vtkgrid.InsertNextCell(quadType, pts)
elif numPoints == 3:
vtkgrid.InsertNextCell(triangleType, pts)
else:
vtkgrid.InsertNextCell(polygonType, pts)
#
# replace any VisIrregularPolyhedron with a list of VisTetrahedron
#
if visMesh.visVoxels != None:
for voxel in visMesh.visVoxels:
pts = vtk.vtkIdList()
polyhedronPoints = voxel.pointIndices
for p in polyhedronPoints:
pts.InsertNextId(p)
vtkgrid.InsertNextCell(voxelType, pts)
if visMesh.tetrahedra != None:
for visTet in visMesh.tetrahedra:
assert isinstance(visTet, VisTetrahedron)
pts = vtk.vtkIdList()
tetPoints = visTet.pointIndices
for p in tetPoints:
pts.InsertNextId(p)
vtkgrid.InsertNextCell(tetraType, pts)
bInitializedFaces = False
if visMesh.irregularPolyhedra != None:
for clippedPolyhedron in visMesh.irregularPolyhedra:
if bClipPolyhedra == True:
tets = createTetrahedra(clippedPolyhedron, visMesh)
for visTet in tets:
pts = vtk.vtkIdList()
tetPoints = visTet.getPointIndices()
for p in tetPoints:
pts.InsertNextId(p)
vtkgrid.InsertNextCell(tetraType, pts)
else:
faceStreamList = vtk.vtkIdList()
faceStream = getVtkFaceStream(clippedPolyhedron)
for p in faceStream:
faceStreamList.InsertNextId(p)
if bInitializedFaces == False and vtkgrid.GetNumberOfCells(
) > 0:
vtkgrid.InitializeFacesRepresentation(
vtkgrid.GetNumberOfCells())
bInitializedFaces = True
vtkgrid.InsertNextCell(polyhedronType, faceStreamList)
vtkgrid.BuildLinks()
# vtkgrid.Squeeze()
return vtkgrid
def __init__(self, inputobj=None):
vtk.vtkActor.__init__(self)
BaseGrid.__init__(self)
inputtype = str(type(inputobj))
self._data = None
self._polydata = None
self.name = "UGrid"
###################
if inputobj is None:
self._data = vtk.vtkUnstructuredGrid()
elif utils.isSequence(inputobj):
pts, cells, celltypes = inputobj
self._data = vtk.vtkUnstructuredGrid()
if not utils.isSequence(cells[0]):
tets = []
nf = cells[0] + 1
for i, cl in enumerate(cells):
if i == nf or i == 0:
k = i + 1
nf = cl + k
cell = [cells[j + k] for j in range(cl)]
tets.append(cell)
cells = tets
# This would fill the points and use those to define orientation
vpts = utils.numpy2vtk(pts, dtype=float)
points = vtk.vtkPoints()
points.SetData(vpts)
self._data.SetPoints(points)
# This fill the points and use cells to define orientation
# points = vtk.vtkPoints()
# for c in cells:
# for pid in c:
# points.InsertNextPoint(pts[pid])
# self._data.SetPoints(points)
# Fill cells
# https://vtk.org/doc/nightly/html/vtkCellType_8h_source.html
for i, ct in enumerate(celltypes):
cell_conn = cells[i]
if ct == vtk.VTK_HEXAHEDRON:
cell = vtk.vtkHexahedron()
elif ct == vtk.VTK_TETRA:
cell = vtk.vtkTetra()
elif ct == vtk.VTK_VOXEL:
cell = vtk.vtkVoxel()
elif ct == vtk.VTK_WEDGE:
cell = vtk.vtkWedge()
elif ct == vtk.VTK_PYRAMID:
cell = vtk.vtkPyramid()
elif ct == vtk.VTK_HEXAGONAL_PRISM:
cell = vtk.vtkHexagonalPrism()
elif ct == vtk.VTK_PENTAGONAL_PRISM:
cell = vtk.vtkPentagonalPrism()
else:
print("UGrid: cell type", ct, "not implemented. Skip.")
continue
cpids = cell.GetPointIds()
for j, pid in enumerate(cell_conn):
cpids.SetId(j, pid)
self._data.InsertNextCell(ct, cpids)
elif "UnstructuredGrid" in inputtype:
self._data = inputobj
elif isinstance(inputobj, str):
from vedo.io import download, loadUnStructuredGrid
if "https://" in inputobj:
inputobj = download(inputobj, verbose=False)
self._data = loadUnStructuredGrid(inputobj)
self.filename = inputobj
else:
colors.printc("UGrid(): cannot understand input type:\n",
inputtype,
c='r')
return
# self._mapper = vtk.vtkDataSetMapper()
self._mapper = vtk.vtkPolyDataMapper()
self._mapper.SetInterpolateScalarsBeforeMapping(
settings.interpolateScalarsBeforeMapping)
if settings.usePolygonOffset:
self._mapper.SetResolveCoincidentTopologyToPolygonOffset()
pof, pou = settings.polygonOffsetFactor, settings.polygonOffsetUnits
self._mapper.SetResolveCoincidentTopologyPolygonOffsetParameters(
pof, pou)
self.GetProperty().SetInterpolationToFlat()
if not self._data:
return
# now fill the representation of the vtk unstr grid
sf = vtk.vtkShrinkFilter()
sf.SetInputData(self._data)
sf.SetShrinkFactor(1.0)
sf.Update()
gf = vtk.vtkGeometryFilter()
gf.SetInputData(sf.GetOutput())
gf.Update()
self._polydata = gf.GetOutput()
self._mapper.SetInputData(self._polydata)
sc = None
if self.useCells:
sc = self._polydata.GetCellData().GetScalars()
else:
sc = self._polydata.GetPointData().GetScalars()
if sc:
self._mapper.SetScalarRange(sc.GetRange())
self.SetMapper(self._mapper)
self.property = self.GetProperty()
pts.SetPoint(75, 25,2,-1) # Now populate cells ids = vtk.vtkIdList() # quad quad = vtk.vtkQuad() ids.SetNumberOfIds(4) ids.SetId(0,0) ids.SetId(1,1) ids.SetId(2,3) ids.SetId(3,2) ugrid.InsertNextCell(quad.GetCellType(),ids) # 8 voxels vox = vtk.vtkVoxel() ids.SetNumberOfIds(8) ids.SetId(0,4) ids.SetId(1,5) ids.SetId(2,7) ids.SetId(3,8) ids.SetId(4,13) ids.SetId(5,14) ids.SetId(6,16) ids.SetId(7,17) ugrid.InsertNextCell(vox.GetCellType(),ids) ids.SetId(0,5) ids.SetId(1,6) ids.SetId(2,8) ids.SetId(3,9)
def _set_boxes(self,
box_corners_list,
box_colours=None,
orientation_vectors=None):
"""
Sets the box corners and box colours for display
:param box_corners_list: list of box corners N x [8 x [x,y,z]]
:param box_colours: (optional) list of unsigned char colour tuples
:param orientation_vectors: (optional) vectors representing
box orientations
"""
vtk_boxes = vtk.vtkUnstructuredGrid()
vtk_points = vtk.vtkPoints()
# Char Array for cell colours
vtk_cell_colours = vtk.vtkUnsignedCharArray()
vtk_cell_colours.SetNumberOfComponents(3)
current_point_id = 0
# Orientations
if orientation_vectors:
vtk_line_points = vtk.vtkPoints()
vtk_lines_cell_array = vtk.vtkCellArray()
current_line_point_id = 0
for box_idx in range(len(box_corners_list)):
box_corners = box_corners_list[box_idx]
# Sort corners into the order required by VTK
box_x = box_corners[:, 0]
box_y = box_corners[:, 1]
box_z = box_corners[:, 2]
sorted_order = np.lexsort((box_x, box_y, box_z))
box_corners = box_corners[sorted_order]
vtk_box = vtk.vtkVoxel()
for i in range(len(box_corners)):
point = box_corners[i]
vtk_points.InsertNextPoint(*point)
vtk_box.GetPointIds().SetId(i, current_point_id)
current_point_id += 1
vtk_boxes.InsertNextCell(vtk_box.GetCellType(),
vtk_box.GetPointIds())
# Set cell colour
if box_colours:
vtk_cell_colours.InsertNextTuple(box_colours[box_idx])
# Setup orientation lines
if orientation_vectors:
arrow_start = orientation_vectors[box_idx][0]
arrow_end = orientation_vectors[box_idx][1]
vtk_line_points.InsertNextPoint(arrow_start)
vtk_line_points.InsertNextPoint(arrow_end)
vtk_line = vtk.vtkLine()
vtk_line.GetPointIds().SetId(0, current_line_point_id)
vtk_line.GetPointIds().SetId(1, current_line_point_id + 1)
current_line_point_id += 2
vtk_lines_cell_array.InsertNextCell(vtk_line)
vtk_boxes.SetPoints(vtk_points)
vtk_boxes.GetCellData().SetScalars(vtk_cell_colours)
self.vtk_data_set_mapper.SetInputData(vtk_boxes)
if orientation_vectors:
vtk_lines_poly_data = vtk.vtkPolyData()
vtk_lines_poly_data.SetPoints(vtk_line_points)
vtk_lines_poly_data.SetLines(vtk_lines_cell_array)
vtk_lines_poly_data.GetCellData().SetScalars(vtk_cell_colours)
vtk_lines_mapper = vtk.vtkPolyDataMapper()
vtk_lines_mapper.SetInputData(vtk_lines_poly_data)
self.vtk_lines_actor.SetMapper(vtk_lines_mapper)
def testCells(self):
# Demonstrates all cell types
#
# NOTE: the use of NewInstance/DeepCopy is included to increase
# regression coverage. It is not required in most applications.
ren = vtk.vtkRenderer()
# turn off all cullers
ren.GetCullers().RemoveAllItems()
renWin = vtk.vtkRenderWindow()
renWin.AddRenderer(ren)
renWin.SetSize(300, 150)
iRen = vtk.vtkRenderWindowInteractor()
iRen.SetRenderWindow(renWin)
# create a scene with one of each cell type
# Voxel
voxelPoints = vtk.vtkPoints()
voxelPoints.SetNumberOfPoints(8)
voxelPoints.InsertPoint(0, 0, 0, 0)
voxelPoints.InsertPoint(1, 1, 0, 0)
voxelPoints.InsertPoint(2, 0, 1, 0)
voxelPoints.InsertPoint(3, 1, 1, 0)
voxelPoints.InsertPoint(4, 0, 0, 1)
voxelPoints.InsertPoint(5, 1, 0, 1)
voxelPoints.InsertPoint(6, 0, 1, 1)
voxelPoints.InsertPoint(7, 1, 1, 1)
aVoxel = vtk.vtkVoxel()
aVoxel.GetPointIds().SetId(0, 0)
aVoxel.GetPointIds().SetId(1, 1)
aVoxel.GetPointIds().SetId(2, 2)
aVoxel.GetPointIds().SetId(3, 3)
aVoxel.GetPointIds().SetId(4, 4)
aVoxel.GetPointIds().SetId(5, 5)
aVoxel.GetPointIds().SetId(6, 6)
aVoxel.GetPointIds().SetId(7, 7)
bVoxel = aVoxel.NewInstance()
bVoxel.DeepCopy(aVoxel)
aVoxelGrid = vtk.vtkUnstructuredGrid()
aVoxelGrid.Allocate(1, 1)
aVoxelGrid.InsertNextCell(aVoxel.GetCellType(), aVoxel.GetPointIds())
aVoxelGrid.SetPoints(voxelPoints)
aVoxelMapper = vtk.vtkDataSetMapper()
aVoxelMapper.SetInputData(aVoxelGrid)
aVoxelActor = vtk.vtkActor()
aVoxelActor.SetMapper(aVoxelMapper)
aVoxelActor.GetProperty().BackfaceCullingOn()
# Hexahedron
hexahedronPoints = vtk.vtkPoints()
hexahedronPoints.SetNumberOfPoints(8)
hexahedronPoints.InsertPoint(0, 0, 0, 0)
hexahedronPoints.InsertPoint(1, 1, 0, 0)
hexahedronPoints.InsertPoint(2, 1, 1, 0)
hexahedronPoints.InsertPoint(3, 0, 1, 0)
hexahedronPoints.InsertPoint(4, 0, 0, 1)
hexahedronPoints.InsertPoint(5, 1, 0, 1)
hexahedronPoints.InsertPoint(6, 1, 1, 1)
hexahedronPoints.InsertPoint(7, 0, 1, 1)
aHexahedron = vtk.vtkHexahedron()
aHexahedron.GetPointIds().SetId(0, 0)
aHexahedron.GetPointIds().SetId(1, 1)
aHexahedron.GetPointIds().SetId(2, 2)
aHexahedron.GetPointIds().SetId(3, 3)
aHexahedron.GetPointIds().SetId(4, 4)
aHexahedron.GetPointIds().SetId(5, 5)
aHexahedron.GetPointIds().SetId(6, 6)
aHexahedron.GetPointIds().SetId(7, 7)
bHexahedron = aHexahedron.NewInstance()
bHexahedron.DeepCopy(aHexahedron)
aHexahedronGrid = vtk.vtkUnstructuredGrid()
aHexahedronGrid.Allocate(1, 1)
aHexahedronGrid.InsertNextCell(aHexahedron.GetCellType(), aHexahedron.GetPointIds())
aHexahedronGrid.SetPoints(hexahedronPoints)
aHexahedronMapper = vtk.vtkDataSetMapper()
aHexahedronMapper.SetInputData(aHexahedronGrid)
aHexahedronActor = vtk.vtkActor()
aHexahedronActor.SetMapper(aHexahedronMapper)
aHexahedronActor.AddPosition(2, 0, 0)
aHexahedronActor.GetProperty().BackfaceCullingOn()
# Tetra
tetraPoints = vtk.vtkPoints()
tetraPoints.SetNumberOfPoints(4)
tetraPoints.InsertPoint(0, 0, 0, 0)
tetraPoints.InsertPoint(1, 1, 0, 0)
tetraPoints.InsertPoint(2, 0.5, 1, 0)
tetraPoints.InsertPoint(3, 0.5, 0.5, 1)
aTetra = vtk.vtkTetra()
aTetra.GetPointIds().SetId(0, 0)
aTetra.GetPointIds().SetId(1, 1)
aTetra.GetPointIds().SetId(2, 2)
aTetra.GetPointIds().SetId(3, 3)
bTetra = aTetra.NewInstance()
bTetra.DeepCopy(aTetra)
aTetraGrid = vtk.vtkUnstructuredGrid()
aTetraGrid.Allocate(1, 1)
aTetraGrid.InsertNextCell(aTetra.GetCellType(), aTetra.GetPointIds())
aTetraGrid.SetPoints(tetraPoints)
aTetraCopy = vtk.vtkUnstructuredGrid()
aTetraCopy.ShallowCopy(aTetraGrid)
aTetraMapper = vtk.vtkDataSetMapper()
aTetraMapper.SetInputData(aTetraCopy)
aTetraActor = vtk.vtkActor()
aTetraActor.SetMapper(aTetraMapper)
aTetraActor.AddPosition(4, 0, 0)
aTetraActor.GetProperty().BackfaceCullingOn()
# Wedge
wedgePoints = vtk.vtkPoints()
wedgePoints.SetNumberOfPoints(6)
wedgePoints.InsertPoint(0, 0, 1, 0)
wedgePoints.InsertPoint(1, 0, 0, 0)
wedgePoints.InsertPoint(2, 0, 0.5, 0.5)
wedgePoints.InsertPoint(3, 1, 1, 0)
wedgePoints.InsertPoint(4, 1, 0, 0)
wedgePoints.InsertPoint(5, 1, 0.5, 0.5)
aWedge = vtk.vtkWedge()
aWedge.GetPointIds().SetId(0, 0)
aWedge.GetPointIds().SetId(1, 1)
aWedge.GetPointIds().SetId(2, 2)
aWedge.GetPointIds().SetId(3, 3)
aWedge.GetPointIds().SetId(4, 4)
aWedge.GetPointIds().SetId(5, 5)
bWedge = aWedge.NewInstance()
bWedge.DeepCopy(aWedge)
aWedgeGrid = vtk.vtkUnstructuredGrid()
aWedgeGrid.Allocate(1, 1)
aWedgeGrid.InsertNextCell(aWedge.GetCellType(), aWedge.GetPointIds())
aWedgeGrid.SetPoints(wedgePoints)
aWedgeCopy = vtk.vtkUnstructuredGrid()
aWedgeCopy.DeepCopy(aWedgeGrid)
aWedgeMapper = vtk.vtkDataSetMapper()
aWedgeMapper.SetInputData(aWedgeCopy)
aWedgeActor = vtk.vtkActor()
aWedgeActor.SetMapper(aWedgeMapper)
aWedgeActor.AddPosition(6, 0, 0)
aWedgeActor.GetProperty().BackfaceCullingOn()
# Pyramid
pyramidPoints = vtk.vtkPoints()
pyramidPoints.SetNumberOfPoints(5)
pyramidPoints.InsertPoint(0, 0, 0, 0)
pyramidPoints.InsertPoint(1, 1, 0, 0)
pyramidPoints.InsertPoint(2, 1, 1, 0)
pyramidPoints.InsertPoint(3, 0, 1, 0)
pyramidPoints.InsertPoint(4, 0.5, 0.5, 1)
aPyramid = vtk.vtkPyramid()
aPyramid.GetPointIds().SetId(0, 0)
aPyramid.GetPointIds().SetId(1, 1)
aPyramid.GetPointIds().SetId(2, 2)
aPyramid.GetPointIds().SetId(3, 3)
aPyramid.GetPointIds().SetId(4, 4)
bPyramid = aPyramid.NewInstance()
bPyramid.DeepCopy(aPyramid)
aPyramidGrid = vtk.vtkUnstructuredGrid()
aPyramidGrid.Allocate(1, 1)
aPyramidGrid.InsertNextCell(aPyramid.GetCellType(), aPyramid.GetPointIds())
aPyramidGrid.SetPoints(pyramidPoints)
aPyramidMapper = vtk.vtkDataSetMapper()
aPyramidMapper.SetInputData(aPyramidGrid)
aPyramidActor = vtk.vtkActor()
aPyramidActor.SetMapper(aPyramidMapper)
aPyramidActor.AddPosition(8, 0, 0)
aPyramidActor.GetProperty().BackfaceCullingOn()
# Pixel
pixelPoints = vtk.vtkPoints()
pixelPoints.SetNumberOfPoints(4)
pixelPoints.InsertPoint(0, 0, 0, 0)
pixelPoints.InsertPoint(1, 1, 0, 0)
pixelPoints.InsertPoint(2, 0, 1, 0)
pixelPoints.InsertPoint(3, 1, 1, 0)
aPixel = vtk.vtkPixel()
aPixel.GetPointIds().SetId(0, 0)
aPixel.GetPointIds().SetId(1, 1)
aPixel.GetPointIds().SetId(2, 2)
aPixel.GetPointIds().SetId(3, 3)
bPixel = aPixel.NewInstance()
bPixel.DeepCopy(aPixel)
aPixelGrid = vtk.vtkUnstructuredGrid()
aPixelGrid.Allocate(1, 1)
aPixelGrid.InsertNextCell(aPixel.GetCellType(), aPixel.GetPointIds())
aPixelGrid.SetPoints(pixelPoints)
aPixelMapper = vtk.vtkDataSetMapper()
aPixelMapper.SetInputData(aPixelGrid)
aPixelActor = vtk.vtkActor()
aPixelActor.SetMapper(aPixelMapper)
aPixelActor.AddPosition(0, 0, 2)
aPixelActor.GetProperty().BackfaceCullingOn()
# Quad
quadPoints = vtk.vtkPoints()
quadPoints.SetNumberOfPoints(4)
quadPoints.InsertPoint(0, 0, 0, 0)
quadPoints.InsertPoint(1, 1, 0, 0)
quadPoints.InsertPoint(2, 1, 1, 0)
quadPoints.InsertPoint(3, 0, 1, 0)
aQuad = vtk.vtkQuad()
aQuad.GetPointIds().SetId(0, 0)
aQuad.GetPointIds().SetId(1, 1)
aQuad.GetPointIds().SetId(2, 2)
aQuad.GetPointIds().SetId(3, 3)
bQuad = aQuad.NewInstance()
bQuad.DeepCopy(aQuad)
aQuadGrid = vtk.vtkUnstructuredGrid()
aQuadGrid.Allocate(1, 1)
aQuadGrid.InsertNextCell(aQuad.GetCellType(), aQuad.GetPointIds())
aQuadGrid.SetPoints(quadPoints)
aQuadMapper = vtk.vtkDataSetMapper()
aQuadMapper.SetInputData(aQuadGrid)
aQuadActor = vtk.vtkActor()
aQuadActor.SetMapper(aQuadMapper)
aQuadActor.AddPosition(2, 0, 2)
aQuadActor.GetProperty().BackfaceCullingOn()
# Triangle
trianglePoints = vtk.vtkPoints()
trianglePoints.SetNumberOfPoints(3)
trianglePoints.InsertPoint(0, 0, 0, 0)
trianglePoints.InsertPoint(1, 1, 0, 0)
trianglePoints.InsertPoint(2, 0.5, 0.5, 0)
triangleTCoords = vtk.vtkFloatArray()
triangleTCoords.SetNumberOfComponents(2)
triangleTCoords.SetNumberOfTuples(3)
triangleTCoords.InsertTuple2(0, 1, 1)
triangleTCoords.InsertTuple2(1, 2, 2)
triangleTCoords.InsertTuple2(2, 3, 3)
aTriangle = vtk.vtkTriangle()
aTriangle.GetPointIds().SetId(0, 0)
aTriangle.GetPointIds().SetId(1, 1)
aTriangle.GetPointIds().SetId(2, 2)
bTriangle = aTriangle.NewInstance()
bTriangle.DeepCopy(aTriangle)
aTriangleGrid = vtk.vtkUnstructuredGrid()
aTriangleGrid.Allocate(1, 1)
aTriangleGrid.InsertNextCell(aTriangle.GetCellType(), aTriangle.GetPointIds())
aTriangleGrid.SetPoints(trianglePoints)
aTriangleGrid.GetPointData().SetTCoords(triangleTCoords)
aTriangleMapper = vtk.vtkDataSetMapper()
aTriangleMapper.SetInputData(aTriangleGrid)
aTriangleActor = vtk.vtkActor()
aTriangleActor.SetMapper(aTriangleMapper)
aTriangleActor.AddPosition(4, 0, 2)
aTriangleActor.GetProperty().BackfaceCullingOn()
# Polygon
polygonPoints = vtk.vtkPoints()
polygonPoints.SetNumberOfPoints(4)
polygonPoints.InsertPoint(0, 0, 0, 0)
polygonPoints.InsertPoint(1, 1, 0, 0)
polygonPoints.InsertPoint(2, 1, 1, 0)
polygonPoints.InsertPoint(3, 0, 1, 0)
aPolygon = vtk.vtkPolygon()
aPolygon.GetPointIds().SetNumberOfIds(4)
aPolygon.GetPointIds().SetId(0, 0)
aPolygon.GetPointIds().SetId(1, 1)
aPolygon.GetPointIds().SetId(2, 2)
aPolygon.GetPointIds().SetId(3, 3)
bPolygon = aPolygon.NewInstance()
bPolygon.DeepCopy(aPolygon)
aPolygonGrid = vtk.vtkUnstructuredGrid()
aPolygonGrid.Allocate(1, 1)
aPolygonGrid.InsertNextCell(aPolygon.GetCellType(), aPolygon.GetPointIds())
aPolygonGrid.SetPoints(polygonPoints)
aPolygonMapper = vtk.vtkDataSetMapper()
aPolygonMapper.SetInputData(aPolygonGrid)
aPolygonActor = vtk.vtkActor()
aPolygonActor.SetMapper(aPolygonMapper)
aPolygonActor.AddPosition(6, 0, 2)
aPolygonActor.GetProperty().BackfaceCullingOn()
# Triangle Strip
triangleStripPoints = vtk.vtkPoints()
triangleStripPoints.SetNumberOfPoints(5)
triangleStripPoints.InsertPoint(0, 0, 1, 0)
triangleStripPoints.InsertPoint(1, 0, 0, 0)
triangleStripPoints.InsertPoint(2, 1, 1, 0)
triangleStripPoints.InsertPoint(3, 1, 0, 0)
triangleStripPoints.InsertPoint(4, 2, 1, 0)
triangleStripTCoords = vtk.vtkFloatArray()
triangleStripTCoords.SetNumberOfComponents(2)
triangleStripTCoords.SetNumberOfTuples(3)
triangleStripTCoords.InsertTuple2(0, 1, 1)
triangleStripTCoords.InsertTuple2(1, 2, 2)
triangleStripTCoords.InsertTuple2(2, 3, 3)
triangleStripTCoords.InsertTuple2(3, 4, 4)
triangleStripTCoords.InsertTuple2(4, 5, 5)
aTriangleStrip = vtk.vtkTriangleStrip()
aTriangleStrip.GetPointIds().SetNumberOfIds(5)
aTriangleStrip.GetPointIds().SetId(0, 0)
aTriangleStrip.GetPointIds().SetId(1, 1)
aTriangleStrip.GetPointIds().SetId(2, 2)
aTriangleStrip.GetPointIds().SetId(3, 3)
aTriangleStrip.GetPointIds().SetId(4, 4)
bTriangleStrip = aTriangleStrip.NewInstance()
bTriangleStrip.DeepCopy(aTriangleStrip)
aTriangleStripGrid = vtk.vtkUnstructuredGrid()
aTriangleStripGrid.Allocate(1, 1)
aTriangleStripGrid.InsertNextCell(aTriangleStrip.GetCellType(), aTriangleStrip.GetPointIds())
aTriangleStripGrid.SetPoints(triangleStripPoints)
aTriangleStripGrid.GetPointData().SetTCoords(triangleStripTCoords)
aTriangleStripMapper = vtk.vtkDataSetMapper()
aTriangleStripMapper.SetInputData(aTriangleStripGrid)
aTriangleStripActor = vtk.vtkActor()
aTriangleStripActor.SetMapper(aTriangleStripMapper)
aTriangleStripActor.AddPosition(8, 0, 2)
aTriangleStripActor.GetProperty().BackfaceCullingOn()
# Line
linePoints = vtk.vtkPoints()
linePoints.SetNumberOfPoints(2)
linePoints.InsertPoint(0, 0, 0, 0)
linePoints.InsertPoint(1, 1, 1, 0)
aLine = vtk.vtkLine()
aLine.GetPointIds().SetId(0, 0)
aLine.GetPointIds().SetId(1, 1)
bLine = aLine.NewInstance()
bLine.DeepCopy(aLine)
aLineGrid = vtk.vtkUnstructuredGrid()
aLineGrid.Allocate(1, 1)
aLineGrid.InsertNextCell(aLine.GetCellType(), aLine.GetPointIds())
aLineGrid.SetPoints(linePoints)
aLineMapper = vtk.vtkDataSetMapper()
aLineMapper.SetInputData(aLineGrid)
aLineActor = vtk.vtkActor()
aLineActor.SetMapper(aLineMapper)
aLineActor.AddPosition(0, 0, 4)
aLineActor.GetProperty().BackfaceCullingOn()
# Poly line
polyLinePoints = vtk.vtkPoints()
polyLinePoints.SetNumberOfPoints(3)
polyLinePoints.InsertPoint(0, 0, 0, 0)
polyLinePoints.InsertPoint(1, 1, 1, 0)
polyLinePoints.InsertPoint(2, 1, 0, 0)
aPolyLine = vtk.vtkPolyLine()
aPolyLine.GetPointIds().SetNumberOfIds(3)
aPolyLine.GetPointIds().SetId(0, 0)
aPolyLine.GetPointIds().SetId(1, 1)
aPolyLine.GetPointIds().SetId(2, 2)
bPolyLine = aPolyLine.NewInstance()
bPolyLine.DeepCopy(aPolyLine)
aPolyLineGrid = vtk.vtkUnstructuredGrid()
aPolyLineGrid.Allocate(1, 1)
aPolyLineGrid.InsertNextCell(aPolyLine.GetCellType(), aPolyLine.GetPointIds())
aPolyLineGrid.SetPoints(polyLinePoints)
aPolyLineMapper = vtk.vtkDataSetMapper()
aPolyLineMapper.SetInputData(aPolyLineGrid)
aPolyLineActor = vtk.vtkActor()
aPolyLineActor.SetMapper(aPolyLineMapper)
aPolyLineActor.AddPosition(2, 0, 4)
aPolyLineActor.GetProperty().BackfaceCullingOn()
# Vertex
vertexPoints = vtk.vtkPoints()
vertexPoints.SetNumberOfPoints(1)
vertexPoints.InsertPoint(0, 0, 0, 0)
aVertex = vtk.vtkVertex()
aVertex.GetPointIds().SetId(0, 0)
bVertex = aVertex.NewInstance()
bVertex.DeepCopy(aVertex)
aVertexGrid = vtk.vtkUnstructuredGrid()
aVertexGrid.Allocate(1, 1)
aVertexGrid.InsertNextCell(aVertex.GetCellType(), aVertex.GetPointIds())
aVertexGrid.SetPoints(vertexPoints)
aVertexMapper = vtk.vtkDataSetMapper()
aVertexMapper.SetInputData(aVertexGrid)
aVertexActor = vtk.vtkActor()
aVertexActor.SetMapper(aVertexMapper)
aVertexActor.AddPosition(0, 0, 6)
aVertexActor.GetProperty().BackfaceCullingOn()
# Poly Vertex
polyVertexPoints = vtk.vtkPoints()
polyVertexPoints.SetNumberOfPoints(3)
polyVertexPoints.InsertPoint(0, 0, 0, 0)
polyVertexPoints.InsertPoint(1, 1, 0, 0)
polyVertexPoints.InsertPoint(2, 1, 1, 0)
aPolyVertex = vtk.vtkPolyVertex()
aPolyVertex.GetPointIds().SetNumberOfIds(3)
aPolyVertex.GetPointIds().SetId(0, 0)
aPolyVertex.GetPointIds().SetId(1, 1)
aPolyVertex.GetPointIds().SetId(2, 2)
bPolyVertex = aPolyVertex.NewInstance()
bPolyVertex.DeepCopy(aPolyVertex)
aPolyVertexGrid = vtk.vtkUnstructuredGrid()
aPolyVertexGrid.Allocate(1, 1)
aPolyVertexGrid.InsertNextCell(aPolyVertex.GetCellType(), aPolyVertex.GetPointIds())
aPolyVertexGrid.SetPoints(polyVertexPoints)
aPolyVertexMapper = vtk.vtkDataSetMapper()
aPolyVertexMapper.SetInputData(aPolyVertexGrid)
aPolyVertexActor = vtk.vtkActor()
aPolyVertexActor.SetMapper(aPolyVertexMapper)
aPolyVertexActor.AddPosition(2, 0, 6)
aPolyVertexActor.GetProperty().BackfaceCullingOn()
# Pentagonal prism
pentaPoints = vtk.vtkPoints()
pentaPoints.SetNumberOfPoints(10)
pentaPoints.InsertPoint(0, 0.25, 0.0, 0.0)
pentaPoints.InsertPoint(1, 0.75, 0.0, 0.0)
pentaPoints.InsertPoint(2, 1.0, 0.5, 0.0)
pentaPoints.InsertPoint(3, 0.5, 1.0, 0.0)
pentaPoints.InsertPoint(4, 0.0, 0.5, 0.0)
pentaPoints.InsertPoint(5, 0.25, 0.0, 1.0)
pentaPoints.InsertPoint(6, 0.75, 0.0, 1.0)
pentaPoints.InsertPoint(7, 1.0, 0.5, 1.0)
pentaPoints.InsertPoint(8, 0.5, 1.0, 1.0)
pentaPoints.InsertPoint(9, 0.0, 0.5, 1.0)
aPenta = vtk.vtkPentagonalPrism()
aPenta.GetPointIds().SetId(0, 0)
aPenta.GetPointIds().SetId(1, 1)
aPenta.GetPointIds().SetId(2, 2)
aPenta.GetPointIds().SetId(3, 3)
aPenta.GetPointIds().SetId(4, 4)
aPenta.GetPointIds().SetId(5, 5)
aPenta.GetPointIds().SetId(6, 6)
aPenta.GetPointIds().SetId(7, 7)
aPenta.GetPointIds().SetId(8, 8)
aPenta.GetPointIds().SetId(9, 9)
bPenta = aPenta.NewInstance()
bPenta.DeepCopy(aPenta)
aPentaGrid = vtk.vtkUnstructuredGrid()
aPentaGrid.Allocate(1, 1)
aPentaGrid.InsertNextCell(aPenta.GetCellType(), aPenta.GetPointIds())
aPentaGrid.SetPoints(pentaPoints)
aPentaCopy = vtk.vtkUnstructuredGrid()
aPentaCopy.DeepCopy(aPentaGrid)
aPentaMapper = vtk.vtkDataSetMapper()
aPentaMapper.SetInputData(aPentaCopy)
aPentaActor = vtk.vtkActor()
aPentaActor.SetMapper(aPentaMapper)
aPentaActor.AddPosition(10, 0, 0)
aPentaActor.GetProperty().BackfaceCullingOn()
# Hexagonal prism
hexaPoints = vtk.vtkPoints()
hexaPoints.SetNumberOfPoints(12)
hexaPoints.InsertPoint(0, 0.0, 0.0, 0.0)
hexaPoints.InsertPoint(1, 0.5, 0.0, 0.0)
hexaPoints.InsertPoint(2, 1.0, 0.5, 0.0)
hexaPoints.InsertPoint(3, 1.0, 1.0, 0.0)
hexaPoints.InsertPoint(4, 0.5, 1.0, 0.0)
hexaPoints.InsertPoint(5, 0.0, 0.5, 0.0)
hexaPoints.InsertPoint(6, 0.0, 0.0, 1.0)
hexaPoints.InsertPoint(7, 0.5, 0.0, 1.0)
hexaPoints.InsertPoint(8, 1.0, 0.5, 1.0)
hexaPoints.InsertPoint(9, 1.0, 1.0, 1.0)
hexaPoints.InsertPoint(10, 0.5, 1.0, 1.0)
hexaPoints.InsertPoint(11, 0.0, 0.5, 1.0)
aHexa = vtk.vtkHexagonalPrism()
aHexa.GetPointIds().SetId(0, 0)
aHexa.GetPointIds().SetId(1, 1)
aHexa.GetPointIds().SetId(2, 2)
aHexa.GetPointIds().SetId(3, 3)
aHexa.GetPointIds().SetId(4, 4)
aHexa.GetPointIds().SetId(5, 5)
aHexa.GetPointIds().SetId(6, 6)
aHexa.GetPointIds().SetId(7, 7)
aHexa.GetPointIds().SetId(8, 8)
aHexa.GetPointIds().SetId(9, 9)
aHexa.GetPointIds().SetId(10, 10)
aHexa.GetPointIds().SetId(11, 11)
bHexa = aHexa.NewInstance()
bHexa.DeepCopy(aHexa)
aHexaGrid = vtk.vtkUnstructuredGrid()
aHexaGrid.Allocate(1, 1)
aHexaGrid.InsertNextCell(aHexa.GetCellType(), aHexa.GetPointIds())
aHexaGrid.SetPoints(hexaPoints)
aHexaCopy = vtk.vtkUnstructuredGrid()
aHexaCopy.DeepCopy(aHexaGrid)
aHexaMapper = vtk.vtkDataSetMapper()
aHexaMapper.SetInputData(aHexaCopy)
aHexaActor = vtk.vtkActor()
aHexaActor.SetMapper(aHexaMapper)
aHexaActor.AddPosition(12, 0, 0)
aHexaActor.GetProperty().BackfaceCullingOn()
# RIB property
aRIBProperty = vtk.vtkRIBProperty()
aRIBProperty.SetVariable("Km", "float")
aRIBProperty.SetSurfaceShader("LGVeinedmarble")
aRIBProperty.SetVariable("veinfreq", "float")
aRIBProperty.AddVariable("warpfreq", "float")
aRIBProperty.AddVariable("veincolor", "color")
aRIBProperty.AddParameter("veinfreq", " 2")
aRIBProperty.AddParameter("veincolor", "1.0000 1.0000 0.9412")
bRIBProperty = vtk.vtkRIBProperty()
bRIBProperty.SetVariable("Km", "float")
bRIBProperty.SetParameter("Km", "1.0")
bRIBProperty.SetDisplacementShader("dented")
bRIBProperty.SetSurfaceShader("plastic")
aProperty = vtk.vtkProperty()
bProperty = vtk.vtkProperty()
aTriangleActor.SetProperty(aProperty)
aTriangleStripActor.SetProperty(bProperty)
ren.SetBackground(0.1, 0.2, 0.4)
ren.AddActor(aVoxelActor)
aVoxelActor.GetProperty().SetDiffuseColor(1, 0, 0)
ren.AddActor(aHexahedronActor)
aHexahedronActor.GetProperty().SetDiffuseColor(1, 1, 0)
ren.AddActor(aTetraActor)
aTetraActor.GetProperty().SetDiffuseColor(0, 1, 0)
ren.AddActor(aWedgeActor)
aWedgeActor.GetProperty().SetDiffuseColor(0, 1, 1)
ren.AddActor(aPyramidActor)
aPyramidActor.GetProperty().SetDiffuseColor(1, 0, 1)
ren.AddActor(aPixelActor)
aPixelActor.GetProperty().SetDiffuseColor(0, 1, 1)
ren.AddActor(aQuadActor)
aQuadActor.GetProperty().SetDiffuseColor(1, 0, 1)
ren.AddActor(aTriangleActor)
aTriangleActor.GetProperty().SetDiffuseColor(0.3, 1, 0.5)
ren.AddActor(aPolygonActor)
aPolygonActor.GetProperty().SetDiffuseColor(1, 0.4, 0.5)
ren.AddActor(aTriangleStripActor)
aTriangleStripActor.GetProperty().SetDiffuseColor(0.3, 0.7, 1)
ren.AddActor(aLineActor)
aLineActor.GetProperty().SetDiffuseColor(0.2, 1, 1)
ren.AddActor(aPolyLineActor)
aPolyLineActor.GetProperty().SetDiffuseColor(1, 1, 1)
ren.AddActor(aVertexActor)
aVertexActor.GetProperty().SetDiffuseColor(1, 1, 1)
ren.AddActor(aPolyVertexActor)
aPolyVertexActor.GetProperty().SetDiffuseColor(1, 1, 1)
ren.AddActor(aPentaActor)
aPentaActor.GetProperty().SetDiffuseColor(0.2, 0.4, 0.7)
ren.AddActor(aHexaActor)
aHexaActor.GetProperty().SetDiffuseColor(0.7, 0.5, 1)
aRIBLight = vtk.vtkRIBLight()
aRIBLight.ShadowsOn()
aLight = vtk.vtkLight()
aLight.PositionalOn()
aLight.SetConeAngle(25)
ren.AddLight(aLight)
ren.ResetCamera()
ren.GetActiveCamera().Azimuth(30)
ren.GetActiveCamera().Elevation(20)
ren.GetActiveCamera().Dolly(2.8)
ren.ResetCameraClippingRange()
aLight.SetFocalPoint(ren.GetActiveCamera().GetFocalPoint())
aLight.SetPosition(ren.GetActiveCamera().GetPosition())
# write to the temp directory if possible, otherwise use .
dir = tempfile.gettempdir()
atext = vtk.vtkTexture()
pnmReader = vtk.vtkBMPReader()
pnmReader.SetFileName(VTK_DATA_ROOT + "/Data/masonry.bmp")
atext.SetInputConnection(pnmReader.GetOutputPort())
atext.InterpolateOff()
aTriangleActor.SetTexture(atext)
rib = vtk.vtkRIBExporter()
rib.SetInput(renWin)
rib.SetFilePrefix(dir + "/cells")
rib.SetTexturePrefix(dir + "/cells")
rib.Write()
os.remove(dir + "/cells.rib")
iv = vtk.vtkIVExporter()
iv.SetInput(renWin)
iv.SetFileName(dir + "/cells.iv")
iv.Write()
os.remove(dir + "/cells.iv")
obj = vtk.vtkOBJExporter()
obj.SetInput(renWin)
obj.SetFilePrefix(dir + "/cells")
obj.Write()
os.remove(dir + "/cells.obj")
os.remove(dir + "/cells.mtl")
vrml = vtk.vtkVRMLExporter()
vrml.SetInput(renWin)
# vrml.SetStartWrite(vrml.SetFileName(dir + "/cells.wrl"))
# vrml.SetEndWrite(vrml.SetFileName("/a/acells.wrl"))
vrml.SetFileName(dir + "/cells.wrl")
vrml.SetSpeed(5.5)
vrml.Write()
os.remove(dir + "/cells.wrl")
oogl = vtk.vtkOOGLExporter()
oogl.SetInput(renWin)
oogl.SetFileName(dir + "/cells.oogl")
oogl.Write()
os.remove(dir + "/cells.oogl")
# the UnRegister calls are because make object is the same as New,
# and causes memory leaks. (Python does not treat NewInstance the same as New).
def DeleteCopies():
bVoxel.UnRegister(None)
bHexahedron.UnRegister(None)
bTetra.UnRegister(None)
bWedge.UnRegister(None)
bPyramid.UnRegister(None)
bPixel.UnRegister(None)
bQuad.UnRegister(None)
bTriangle.UnRegister(None)
bPolygon.UnRegister(None)
bTriangleStrip.UnRegister(None)
bLine.UnRegister(None)
bPolyLine.UnRegister(None)
bVertex.UnRegister(None)
bPolyVertex.UnRegister(None)
bPenta.UnRegister(None)
bHexa.UnRegister(None)
DeleteCopies()
# render and interact with data
renWin.Render()
img_file = "cells.png"
vtk.test.Testing.compareImage(iRen.GetRenderWindow(), vtk.test.Testing.getAbsImagePath(img_file), threshold=25)
vtk.test.Testing.interact()
pts.SetPoint(75, 25, 2, -1) # Now populate cells ids = vtk.vtkIdList() # quad quad = vtk.vtkQuad() ids.SetNumberOfIds(4) ids.SetId(0, 0) ids.SetId(1, 1) ids.SetId(2, 3) ids.SetId(3, 2) ugrid.InsertNextCell(quad.GetCellType(), ids) # 8 voxels vox = vtk.vtkVoxel() ids.SetNumberOfIds(8) ids.SetId(0, 4) ids.SetId(1, 5) ids.SetId(2, 7) ids.SetId(3, 8) ids.SetId(4, 13) ids.SetId(5, 14) ids.SetId(6, 16) ids.SetId(7, 17) ugrid.InsertNextCell(vox.GetCellType(), ids) ids.SetId(0, 5) ids.SetId(1, 6) ids.SetId(2, 8) ids.SetId(3, 9)
