DAMASK_EICMD/processing/post/vtk_addRectilinearGridData.py

#!/usr/bin/env python
# -*- coding: UTF-8 no BOM -*-

import os,sys,string,vtk
import damask
from collections import defaultdict
from optparse import OptionParser

scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID   = ' '.join([scriptName,damask.version])

# --------------------------------------------------------------------
#                                MAIN
# --------------------------------------------------------------------

parser = OptionParser(option_class=damask.extendableOption, usage='%prog options [file[s]]', description = """
Add scalars, vectors, and/or an RGB tuple from an ASCIItable to existing VTK rectilinear grid (.vtr/.vtk).

""", version = scriptID)

parser.add_option(      '--vtk',
                  dest = 'vtk',
                  type = 'string', metavar = 'string',
                  help = 'VTK file name')
parser.add_option(      '--inplace',
                  dest = 'inplace',
                  action = 'store_true',
                  help = 'modify VTK file in-place')
parser.add_option('-r', '--render',
                  dest = 'render',
                  action = 'store_true',
                  help = 'open output in VTK render window')
parser.add_option('-m', '--mode',
                  dest = 'mode',
                  type = 'choice', metavar = 'string', choices = ['cell', 'point'],
                  help = 'cell-centered or point-centered data')
parser.add_option('-s', '--scalar',
                  dest = 'scalar',
                  action = 'extend', metavar = '<string LIST>',
                  help = 'scalar value label(s)')
parser.add_option('-v', '--vector',
                  dest = 'vector',
                  action = 'extend', metavar = '<string LIST>',
                  help = 'vector value label(s)')
parser.add_option('-c', '--color',
                  dest = 'color',
                  action = 'extend', metavar = '<string LIST>',
                  help = 'RGB color tuple label')

parser.set_defaults(scalar = [],
                    vector = [],
                    color = [],
                    inplace = False,
                    render = False,
)

(options, filenames) = parser.parse_args()

if not options.mode:                parser.error('No data mode specified.')
if not options.vtk:                 parser.error('No VTK file specified.')
if not os.path.exists(options.vtk): parser.error('VTK file does not exist.')

if os.path.splitext(options.vtk)[1] == '.vtr':
  reader = vtk.vtkXMLRectilinearGridReader()
  reader.SetFileName(options.vtk)
  reader.Update()
  rGrid = reader.GetOutput()
elif os.path.splitext(options.vtk)[1] == '.vtk':
  reader = vtk.vtkGenericDataObjectReader()
  reader.SetFileName(options.vtk)
  reader.Update()
  rGrid = reader.GetRectilinearGridOutput()
else:
  parser.error('Unsupported VTK file type extension.')

Npoints = rGrid.GetNumberOfPoints()
Ncells  = rGrid.GetNumberOfCells()

damask.util.croak('{}: {} points and {} cells...'.format(options.vtk,Npoints,Ncells))

# --- loop over input files -------------------------------------------------------------------------

if filenames == []: filenames = [None]

for name in filenames:
  try:
    table = damask.ASCIItable(name = name,
                              buffered = False, readonly = True)
  except: continue
  damask.util.report(scriptName, name)

# --- interpret header ----------------------------------------------------------------------------

  table.head_read()

  remarks = []
  errors  = []
  VTKarray = {}
  active = defaultdict(list)
  
  for datatype,dimension,label in [['scalar',1,options.scalar],
                                   ['vector',3,options.vector],
                                   ['color',3,options.color],
                                   ]:
    for i,dim in enumerate(table.label_dimension(label)):
      me = label[i]
      if dim == -1: remarks.append('{} "{}" not found...'.format(datatype,me))
      elif dim > dimension: remarks.append('"{}" not of dimension {}...'.format(me,dimension))
      else:
        remarks.append('adding {} "{}"...'.format(datatype,me))
        active[datatype].append(me)

        if   datatype in ['scalar','vector']: VTKarray[me] = vtk.vtkDoubleArray()
        elif datatype == 'color':             VTKarray[me] = vtk.vtkUnsignedCharArray()

        VTKarray[me].SetNumberOfComponents(dimension)
        VTKarray[me].SetName(label[i])

  if remarks != []: damask.util.croak(remarks)
  if errors  != []:
    damask.util.croak(errors)
    table.close(dismiss = True)
    continue

# ------------------------------------------ process data ---------------------------------------  

  while table.data_read():                                                                          # read next data line of ASCII table
    
    for datatype,labels in active.items():                                                          # loop over scalar,color
      for me in labels:                                                                             # loop over all requested items
        theData = [table.data[i] for i in table.label_indexrange(me)]                               # read strings
        if   datatype == 'color':  VTKarray[me].InsertNextTuple3(*map(lambda x: int(255.*float(x)),theData))
        elif datatype == 'vector': VTKarray[me].InsertNextTuple3(*map(float,theData))
        elif datatype == 'scalar': VTKarray[me].InsertNextValue(float(theData[0]))

# ------------------------------------------ add data ---------------------------------------  

  for datatype,labels in active.items():                                                            # loop over scalar,color
    if datatype == 'color':
      if   options.mode == 'cell':  rGrid.GetCellData().SetScalars(VTKarray[active['color'][0]])
      elif options.mode == 'point': rGrid.GetPointData().SetScalars(VTKarray[active['color'][0]])
    for me in labels:                                                                               # loop over all requested items
      if   options.mode == 'cell':  rGrid.GetCellData().AddArray(VTKarray[me])
      elif options.mode == 'point': rGrid.GetPointData().AddArray(VTKarray[me])

  rGrid.Modified()
  if vtk.VTK_MAJOR_VERSION <= 5: rGrid.Update()

# ------------------------------------------ output result ---------------------------------------  

  writer = vtk.vtkXMLRectilinearGridWriter()
  writer.SetDataModeToBinary()
  writer.SetCompressorTypeToZLib()
  writer.SetFileName(os.path.splitext(options.vtk)[0]+('' if options.inplace else '_added.vtr'))
  if vtk.VTK_MAJOR_VERSION <= 5: writer.SetInput(rGrid)
  else:                          writer.SetInputData(rGrid)
  writer.Write()

# ------------------------------------------ render result ---------------------------------------  

if options.render:
  mapper = vtk.vtkDataSetMapper()
  mapper.SetInputData(rGrid)
  actor = vtk.vtkActor()
  actor.SetMapper(mapper)

  # Create the graphics structure. The renderer renders into the
  # render window. The render window interactor captures mouse events
  # and will perform appropriate camera or actor manipulation
  # depending on the nature of the events.

  ren = vtk.vtkRenderer()

  renWin = vtk.vtkRenderWindow()
  renWin.AddRenderer(ren)

  ren.AddActor(actor)
  ren.SetBackground(1, 1, 1)
  renWin.SetSize(200, 200)

  iren = vtk.vtkRenderWindowInteractor()
  iren.SetRenderWindow(renWin)
 
  #ren.ResetCamera()
  #ren.GetActiveCamera().Zoom(1.5)
 
  iren.Initialize()
  renWin.Render()
  iren.Start()