package require vtk
package require vtkinteraction

#
# This example reads a volume dataset, extracts two isosurfaces that
# represent the skin and bone, and then displays them.
#

# Create the renderer, the render window, and the interactor. The renderer
# draws into the render window, the interactor enables mouse- and
# keyboard-based interaction with the scene.
#
vtkRenderer aRenderer
vtkRenderWindow renWin
  renWin AddRenderer aRenderer
vtkRenderWindowInteractor iren
  iren SetRenderWindow renWin

# The following reader is used to read a series of 2D slices (images)
# that compose the volume. The slice dimensions are set, and the
# pixel spacing. The data Endianness must also be specified. The reader
# usese the FilePrefix in combination with the slice number to construct
# filenames using the format FilePrefix.%d. (In this case the FilePrefix
# is the root name of the file: quarter.)
vtkVolume16Reader v16
  v16 SetDataDimensions 64 64
  v16 SetDataByteOrderToLittleEndian
  v16 SetFilePrefix  "$VTK_DATA_ROOT/Data/headsq/quarter"
  v16 SetImageRange 1 93
  v16 SetDataSpacing  3.2 3.2 1.5

# An isosurface, or contour value of 500 is known to correspond to the
# skin of the patient. Once generated, a vtkPolyDataNormals filter is
# is used to create normals for smooth surface shading during rendering.
# The triangle stripper is used to create triangle strips from the
# isosurface these render much faster on may systems.
vtkContourFilter skinExtractor
  skinExtractor SetInputConnection [v16 GetOutputPort]
  skinExtractor SetValue 0 500
vtkPolyDataNormals skinNormals
  skinNormals SetInputConnection [skinExtractor GetOutputPort]
  skinNormals SetFeatureAngle 60.0
vtkStripper skinStripper
  skinStripper SetInputConnection [skinNormals GetOutputPort]
vtkPolyDataMapper skinMapper
  skinMapper SetInputConnection [skinStripper GetOutputPort]
  skinMapper ScalarVisibilityOff
vtkActor skin
  skin SetMapper skinMapper
  [skin GetProperty]  SetDiffuseColor 1 .49 .25
  [skin GetProperty] SetSpecular .3
  [skin GetProperty] SetSpecularPower 20

# An isosurface, or contour value of 1150 is known to correspond to the
# skin of the patient. Once generated, a vtkPolyDataNormals filter is
# is used to create normals for smooth surface shading during rendering.
# The triangle stripper is used to create triangle strips from the
# isosurface these render much faster on may systems.
vtkContourFilter boneExtractor
  boneExtractor SetInputConnection [v16 GetOutputPort]
  boneExtractor SetValue 0 1150
vtkPolyDataNormals boneNormals
  boneNormals SetInputConnection [boneExtractor GetOutputPort]
  boneNormals SetFeatureAngle 60.0
vtkStripper boneStripper
  boneStripper SetInputConnection [boneNormals GetOutputPort]
vtkPolyDataMapper boneMapper
  boneMapper SetInputConnection [boneStripper GetOutputPort]
  boneMapper ScalarVisibilityOff
vtkActor bone
  bone SetMapper boneMapper
  [bone GetProperty] SetDiffuseColor 1 1 .9412

# An outline provides context around the data.
#
vtkOutlineFilter outlineData
  outlineData SetInputConnection [v16 GetOutputPort]
vtkPolyDataMapper mapOutline
  mapOutline SetInputConnection [outlineData GetOutputPort]
vtkActor outline
  outline SetMapper mapOutline
  [outline GetProperty] SetColor 0 0 0

# It is convenient to create an initial view of the data. The FocalPoint
# and Position form a vector direction. Later on (ResetCamera() method)
# this vector is used to position the camera to look at the data in
# this direction.
vtkCamera aCamera
  aCamera SetViewUp  0 0 -1
  aCamera SetPosition  0 1 0
  aCamera SetFocalPoint  0 0 0
  aCamera ComputeViewPlaneNormal

# Actors are added to the renderer. An initial camera view is created.
# The Dolly() method moves the camera towards the FocalPoint,
# thereby enlarging the image.
aRenderer AddActor outline
aRenderer AddActor skin
aRenderer AddActor bone
aRenderer SetActiveCamera aCamera
aRenderer ResetCamera
aCamera Dolly 1.5

# Set a background color for the renderer and set the size of the
# render window (expressed in pixels).
aRenderer SetBackground 1 1 1
renWin SetSize 640 480

# Note that when camera movement occurs (as it does in the Dolly()
# method), the clipping planes often need adjusting. Clipping planes
# consist of two planes: near and far along the view direction. The
# near plane clips out objects in front of the plane the far plane
# clips out objects behind the plane. This way only what is drawn
# between the planes is actually rendered.
aRenderer ResetCameraClippingRange

# Set up a callback (using command/observer) to bring up the Tcl
# command GUI when the keypress-u (UserEvent) key is pressed.
iren AddObserver UserEvent {wm deiconify .vtkInteract}

# Interact with data. The Tcl/Tk event loop is started automatically.
iren Initialize
wm withdraw .