DAMASK_EICMD/python/damask/_vtk.py

from pathlib import Path

import pandas as pd
import numpy as np
import vtk
from vtk.util.numpy_support import numpy_to_vtk            as np_to_vtk
from vtk.util.numpy_support import numpy_to_vtkIdTypeArray as np_to_vtkIdTypeArray

from . import Table
from . import Environment
from . import version


class VTK:
    """
    Spatial visualization (and potentially manipulation).

    High-level interface to VTK.
    """

    def __init__(self,geom):
        """
        Set geometry and topology.

        Parameters
        ----------
        geom : subclass of vtk.vtkDataSet
            Description of geometry and topology. Valid types are vtk.vtkRectilinearGrid,
            vtk.vtkUnstructuredGrid, or vtk.vtkPolyData.

        """
        self.geom = geom


    @staticmethod
    def from_rectilinearGrid(grid,size,origin=np.zeros(3)):
        """
        Create VTK of type vtk.vtkRectilinearGrid.

        This is the common type for results from the grid solver.

        Parameters
        ----------
        grid : numpy.ndarray of shape (3) of np.dtype = int
            Number of cells.
        size : numpy.ndarray of shape (3)
            Physical length.
        origin : numpy.ndarray of shape (3), optional
            Spatial origin.

        """
        geom = vtk.vtkRectilinearGrid()
        geom.SetDimensions(*(grid+1))
        geom.SetXCoordinates(np_to_vtk(np.linspace(origin[0],origin[0]+size[0],grid[0]+1),deep=True))
        geom.SetYCoordinates(np_to_vtk(np.linspace(origin[1],origin[1]+size[1],grid[1]+1),deep=True))
        geom.SetZCoordinates(np_to_vtk(np.linspace(origin[2],origin[2]+size[2],grid[2]+1),deep=True))

        return VTK(geom)


    @staticmethod
    def from_unstructuredGrid(nodes,connectivity,cell_type):
        """
        Create VTK of type vtk.vtkUnstructuredGrid.

        This is the common type for results from FEM solvers.

        Parameters
        ----------
        nodes : numpy.ndarray of shape (:,3)
            Spatial position of the nodes.
        connectivity : numpy.ndarray of np.dtype = int
            Cell connectivity (0-based), first dimension determines #Cells, second dimension determines #Nodes/Cell.
        cell_type : str
            Name of the vtk.vtkCell subclass. Tested for TRIANGLE, QUAD, TETRA, and HEXAHEDRON.

        """
        vtk_nodes = vtk.vtkPoints()
        vtk_nodes.SetData(np_to_vtk(nodes))
        cells = vtk.vtkCellArray()
        cells.SetNumberOfCells(connectivity.shape[0])
        T = np.concatenate((np.ones((connectivity.shape[0],1),dtype=np.int64)*connectivity.shape[1],
                            connectivity),axis=1).ravel()
        cells.SetCells(connectivity.shape[0],np_to_vtkIdTypeArray(T,deep=True))

        geom = vtk.vtkUnstructuredGrid()
        geom.SetPoints(vtk_nodes)
        geom.SetCells(eval(f'vtk.VTK_{cell_type.split("_",1)[-1].upper()}'),cells)

        return VTK(geom)


    @staticmethod
    def from_polyData(points):
        """
        Create VTK of type vtk.polyData.

        This is the common type for point-wise data.

        Parameters
        ----------
        points : numpy.ndarray of shape (:,3)
            Spatial position of the points.

        """
        vtk_points = vtk.vtkPoints()
        vtk_points.SetData(np_to_vtk(points))

        geom = vtk.vtkPolyData()
        geom.SetPoints(vtk_points)

        return VTK(geom)


    @staticmethod
    def from_file(fname,dataset_type=None):
        """
        Create VTK from file.

        Parameters
        ----------
        fname : str
            Filename for reading. Valid extensions are .vtr, .vtu, .vtp, and .vtk.
        dataset_type : str, optional
            Name of the vtk.vtkDataSet subclass when opening an .vtk file. Valid types are vtkRectilinearGrid,
            vtkUnstructuredGrid, and vtkPolyData.

        """
        ext = Path(fname).suffix
        if ext == '.vtk' or dataset_type:
            reader = vtk.vtkGenericDataObjectReader()
            reader.SetFileName(fname)
            reader.Update()
            if dataset_type is None:
                raise TypeError('Dataset type for *.vtk file not given.')
            elif dataset_type.lower().endswith('rectilineargrid'):
                geom = reader.GetRectilinearGridOutput()
            elif dataset_type.lower().endswith('unstructuredgrid'):
                geom = reader.GetUnstructuredGridOutput()
            elif dataset_type.lower().endswith('polydata'):
                geom = reader.GetPolyDataOutput()
            else:
                raise TypeError(f'Unknown dataset type {dataset_type} for vtk file')
        else:
            if   ext == '.vtr':
                reader = vtk.vtkXMLRectilinearGridReader()
            elif ext == '.vtu':
                reader = vtk.vtkXMLUnstructuredGridReader()
            elif ext == '.vtp':
                reader = vtk.vtkXMLPolyDataReader()
            else:
                raise TypeError(f'Unknown file extension {ext}')

            reader.SetFileName(fname)
            reader.Update()
            geom = reader.GetOutput()

        return VTK(geom)


    def write(self,fname):
        """
        Write to file.

        Parameters
        ----------
        fname : str
            Filename for writing.

        """
        if   isinstance(self.geom,vtk.vtkRectilinearGrid):
            writer = vtk.vtkXMLRectilinearGridWriter()
        elif isinstance(self.geom,vtk.vtkUnstructuredGrid):
            writer = vtk.vtkXMLUnstructuredGridWriter()
        elif isinstance(self.geom,vtk.vtkPolyData):
            writer = vtk.vtkXMLPolyDataWriter()

        default_ext = writer.GetDefaultFileExtension()
        ext = Path(fname).suffix
        if ext and ext != '.'+default_ext:
            raise ValueError(f'Given extension {ext} does not match default .{default_ext}')
        writer.SetFileName(str(Path(fname).with_suffix('.'+default_ext)))
        writer.SetCompressorTypeToZLib()
        writer.SetDataModeToBinary()
        writer.SetInputData(self.geom)

        writer.Write()


    # Check https://blog.kitware.com/ghost-and-blanking-visibility-changes/ for missing data
    # Needs support for pd.DataFrame and/or table
    def add(self,data,label=None):
        """Add data to either cells or points."""
        N_points = self.geom.GetNumberOfPoints()
        N_cells  = self.geom.GetNumberOfCells()

        if   isinstance(data,np.ndarray):
            d = np_to_vtk(num_array=data.reshape(data.shape[0],-1),deep=True)
            if label is None:
                raise ValueError('No label defined for numpy.ndarray')
            d.SetName(label)
            if   data.shape[0] == N_cells:
                self.geom.GetCellData().AddArray(d)
            elif data.shape[0] == N_points:
                self.geom.GetPointData().AddArray(d)
        elif isinstance(data,pd.DataFrame):
            raise NotImplementedError('pd.DataFrame')
        elif isinstance(data,Table):
            raise NotImplementedError('damask.Table')
        else:
            raise TypeError


    def __repr__(self):
        """ASCII representation of the VTK data."""
        writer = vtk.vtkDataSetWriter()
        writer.SetHeader(f'# DAMASK.VTK v{version}')
        writer.WriteToOutputStringOn()
        writer.SetInputData(self.geom)
        writer.Write()
        return writer.GetOutputString()


    def show(self):
        """
        Render.

        See http://compilatrix.com/article/vtk-1 for further ideas.
        """
        mapper = vtk.vtkDataSetMapper()
        mapper.SetInputData(self.geom)
        actor = vtk.vtkActor()
        actor.SetMapper(mapper)

        ren = vtk.vtkRenderer()

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

        ren.AddActor(actor)
        ren.SetBackground(0.2,0.2,0.2)

        window.SetSize(Environment().screen_width,Environment().screen_height)

        iren = vtk.vtkRenderWindowInteractor()
        iren.SetRenderWindow(window)

        iren.Initialize()
        window.Render()
        iren.Start()
easier to read, more flexible 2020-06-03 14:13:07 +05:30			`from pathlib import Path`
fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30
			`import pandas as pd`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`import numpy as np`
			`import vtk`
simplified (and working) 2020-03-19 15:29:53 +05:30			`from vtk.util.numpy_support import numpy_to_vtk as np_to_vtk`
			`from vtk.util.numpy_support import numpy_to_vtkIdTypeArray as np_to_vtkIdTypeArray`
fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30
polishing 2020-03-13 00:22:33 +05:30			`from . import Table`
			`from . import Environment`
fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30			`from . import version`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30
polishing 2020-03-13 00:22:33 +05:30
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`class VTK:`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`"""`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`Spatial visualization (and potentially manipulation).`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`High-level interface to VTK.`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`"""`

			`def __init__(self,geom):`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`"""`
			`Set geometry and topology.`

			`Parameters`
			`----------`
			`geom : subclass of vtk.vtkDataSet`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Description of geometry and topology. Valid types are vtk.vtkRectilinearGrid,`
			`vtk.vtkUnstructuredGrid, or vtk.vtkPolyData.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30
			`"""`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`self.geom = geom`

also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`@staticmethod`
			`def from_rectilinearGrid(grid,size,origin=np.zeros(3)):`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`"""`
			`Create VTK of type vtk.vtkRectilinearGrid.`

			`This is the common type for results from the grid solver.`

			`Parameters`
			`----------`
			`grid : numpy.ndarray of shape (3) of np.dtype = int`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Number of cells.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`size : numpy.ndarray of shape (3)`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Physical length.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`origin : numpy.ndarray of shape (3), optional`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Spatial origin.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30
			`"""`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`geom = vtk.vtkRectilinearGrid()`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`geom.SetDimensions(*(grid+1))`
simplified (and working) 2020-03-19 15:29:53 +05:30			`geom.SetXCoordinates(np_to_vtk(np.linspace(origin[0],origin[0]+size[0],grid[0]+1),deep=True))`
			`geom.SetYCoordinates(np_to_vtk(np.linspace(origin[1],origin[1]+size[1],grid[1]+1),deep=True))`
			`geom.SetZCoordinates(np_to_vtk(np.linspace(origin[2],origin[2]+size[2],grid[2]+1),deep=True))`
using central functionality 2020-03-11 12:02:03 +05:30
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`return VTK(geom)`


			`@staticmethod`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30			`def from_unstructuredGrid(nodes,connectivity,cell_type):`
			`"""`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`Create VTK of type vtk.vtkUnstructuredGrid.`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`This is the common type for results from FEM solvers.`

			`Parameters`
			`----------`
			`nodes : numpy.ndarray of shape (:,3)`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Spatial position of the nodes.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`connectivity : numpy.ndarray of np.dtype = int`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Cell connectivity (0-based), first dimension determines #Cells, second dimension determines #Nodes/Cell.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`cell_type : str`
testing VTK wrappers 2020-03-31 14:34:06 +05:30			`Name of the vtk.vtkCell subclass. Tested for TRIANGLE, QUAD, TETRA, and HEXAHEDRON.`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30
			`"""`
			`vtk_nodes = vtk.vtkPoints()`
polishing 2020-03-12 12:45:12 +05:30			`vtk_nodes.SetData(np_to_vtk(nodes))`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30			`cells = vtk.vtkCellArray()`
			`cells.SetNumberOfCells(connectivity.shape[0])`
			`T = np.concatenate((np.ones((connectivity.shape[0],1),dtype=np.int64)*connectivity.shape[1],`
polishing 2020-03-12 12:45:12 +05:30			`connectivity),axis=1).ravel()`
simplified (and working) 2020-03-19 15:29:53 +05:30			`cells.SetCells(connectivity.shape[0],np_to_vtkIdTypeArray(T,deep=True))`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30			`geom = vtk.vtkUnstructuredGrid()`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30			`geom.SetPoints(vtk_nodes)`
introduced f-strings 2020-06-24 21:35:12 +05:30			`geom.SetCells(eval(f'vtk.VTK_{cell_type.split("_",1)[-1].upper()}'),cells)`
separating vtk from results we should discuss the naming! 2020-03-11 04:22:02 +05:30
			`return VTK(geom)`

using central functionality 2020-03-11 12:02:03 +05:30
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30			`@staticmethod`
support for point cloud 2020-03-12 03:05:58 +05:30			`def from_polyData(points):`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`"""`
			`Create VTK of type vtk.polyData.`

			`This is the common type for point-wise data.`

			`Parameters`
			`----------`
			`points : numpy.ndarray of shape (:,3)`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Spatial position of the points.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30
			`"""`
advise from pylint 2020-03-22 21:33:28 +05:30			`vtk_points = vtk.vtkPoints()`
polishing 2020-03-12 12:45:12 +05:30			`vtk_points.SetData(np_to_vtk(points))`
support for point cloud 2020-03-12 03:05:58 +05:30
			`geom = vtk.vtkPolyData()`
			`geom.SetPoints(vtk_points)`

			`return VTK(geom)`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30
polishing 2020-03-12 12:45:12 +05:30
centralizing functionality 2020-03-12 04:24:36 +05:30			`@staticmethod`
polishing 2020-03-12 12:45:12 +05:30			`def from_file(fname,dataset_type=None):`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`"""`
			`Create VTK from file.`

			`Parameters`
			`----------`
			`fname : str`
asterisk is the emphasize sign for restructured text not really needed here 2020-04-12 18:49:32 +05:30			`Filename for reading. Valid extensions are .vtr, .vtu, .vtp, and .vtk.`
polishing 2020-03-12 12:45:12 +05:30			`dataset_type : str, optional`
asterisk is the emphasize sign for restructured text not really needed here 2020-04-12 18:49:32 +05:30			`Name of the vtk.vtkDataSet subclass when opening an .vtk file. Valid types are vtkRectilinearGrid,`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`vtkUnstructuredGrid, and vtkPolyData.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30
			`"""`
easier to read, more flexible 2020-06-03 14:13:07 +05:30			`ext = Path(fname).suffix`
			`if ext == '.vtk' or dataset_type:`
centralizing functionality 2020-03-12 04:24:36 +05:30			`reader = vtk.vtkGenericDataObjectReader()`
			`reader.SetFileName(fname)`
			`reader.Update()`
works also for arrays ... 2020-03-21 15:37:21 +05:30			`if dataset_type is None:`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`raise TypeError('Dataset type for *.vtk file not given.')`
			`elif dataset_type.lower().endswith('rectilineargrid'):`
centralizing functionality 2020-03-12 04:24:36 +05:30			`geom = reader.GetRectilinearGridOutput()`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`elif dataset_type.lower().endswith('unstructuredgrid'):`
centralizing functionality 2020-03-12 04:24:36 +05:30			`geom = reader.GetUnstructuredGridOutput()`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`elif dataset_type.lower().endswith('polydata'):`
centralizing functionality 2020-03-12 04:24:36 +05:30			`geom = reader.GetPolyDataOutput()`
			`else:`
introduced f-strings 2020-06-24 21:35:12 +05:30			`raise TypeError(f'Unknown dataset type {dataset_type} for vtk file')`
centralizing functionality 2020-03-12 04:24:36 +05:30			`else:`
			`if ext == '.vtr':`
			`reader = vtk.vtkXMLRectilinearGridReader()`
			`elif ext == '.vtu':`
			`reader = vtk.vtkXMLUnstructuredGridReader()`
			`elif ext == '.vtp':`
			`reader = vtk.vtkXMLPolyDataReader()`
			`else:`
introduced f-strings 2020-06-24 21:35:12 +05:30			`raise TypeError(f'Unknown file extension {ext}')`
centralizing functionality 2020-03-12 04:24:36 +05:30
			`reader.SetFileName(fname)`
			`reader.Update()`
			`geom = reader.GetOutput()`

			`return VTK(geom)`

vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30
centralizing functionality 2020-03-12 04:24:36 +05:30			`def write(self,fname):`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`"""`
			`Write to file.`

			`Parameters`
			`----------`
			`fname : str`
also accept vtkRectilinearGrid etc as type 2020-03-19 12:34:15 +05:30			`Filename for writing.`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30
			`"""`
advise from pylint 2020-03-22 21:33:28 +05:30			`if isinstance(self.geom,vtk.vtkRectilinearGrid):`
using central functionality 2020-03-11 12:02:03 +05:30			`writer = vtk.vtkXMLRectilinearGridWriter()`
advise from pylint 2020-03-22 21:33:28 +05:30			`elif isinstance(self.geom,vtk.vtkUnstructuredGrid):`
vectorized cell assignment + bugfix for writing out 2020-03-12 01:26:58 +05:30			`writer = vtk.vtkXMLUnstructuredGridWriter()`
advise from pylint 2020-03-22 21:33:28 +05:30			`elif isinstance(self.geom,vtk.vtkPolyData):`
using central functionality 2020-03-11 12:02:03 +05:30			`writer = vtk.vtkXMLPolyDataWriter()`

consistency check and new test 2020-03-19 22:04:31 +05:30			`default_ext = writer.GetDefaultFileExtension()`
easier to read, more flexible 2020-06-03 14:13:07 +05:30			`ext = Path(fname).suffix`
less error prone 2020-03-19 23:13:49 +05:30			`if ext and ext != '.'+default_ext:`
restore reminder to document changes causes conflicts with outdated tests and is not urgent: postpone until release. 2020-06-25 11:49:07 +05:30			`raise ValueError(f'Given extension {ext} does not match default .{default_ext}')`
easier to read, more flexible 2020-06-03 14:13:07 +05:30			`writer.SetFileName(str(Path(fname).with_suffix('.'+default_ext)))`
using central functionality 2020-03-11 12:02:03 +05:30			`writer.SetCompressorTypeToZLib()`
			`writer.SetDataModeToBinary()`
			`writer.SetInputData(self.geom)`

			`writer.Write()`

fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`# Check https://blog.kitware.com/ghost-and-blanking-visibility-changes/ for missing data`
			`# Needs support for pd.DataFrame and/or table`
centralizing functionality 2020-03-12 04:24:36 +05:30			`def add(self,data,label=None):`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`"""Add data to either cells or points."""`
			`N_points = self.geom.GetNumberOfPoints()`
			`N_cells = self.geom.GetNumberOfCells()`
centralizing functionality 2020-03-12 04:24:36 +05:30
fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30			`if isinstance(data,np.ndarray):`
polishing 2020-03-12 12:45:12 +05:30			`d = np_to_vtk(num_array=data.reshape(data.shape[0],-1),deep=True)`
works also for arrays ... 2020-03-21 15:37:21 +05:30			`if label is None:`
less error prone 2020-03-19 23:13:49 +05:30			`raise ValueError('No label defined for numpy.ndarray')`
centralizing functionality 2020-03-12 04:24:36 +05:30			`d.SetName(label)`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`if data.shape[0] == N_cells:`
centralizing functionality 2020-03-12 04:24:36 +05:30			`self.geom.GetCellData().AddArray(d)`
polishing grid is interpreted again in the DAMASK meaning, i.e it specifies the number of cells, not the number of nodes 2020-03-12 11:21:52 +05:30			`elif data.shape[0] == N_points:`
centralizing functionality 2020-03-12 04:24:36 +05:30			`self.geom.GetPointData().AddArray(d)`
fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30			`elif isinstance(data,pd.DataFrame):`
less error prone 2020-03-19 23:13:49 +05:30			`raise NotImplementedError('pd.DataFrame')`
polishing 2020-03-13 00:22:33 +05:30			`elif isinstance(data,Table):`
less error prone 2020-03-19 23:13:49 +05:30			`raise NotImplementedError('damask.Table')`
clearly show intention 2020-03-19 13:33:38 +05:30			`else:`
			`raise TypeError`
fix: nodes need to be converted to vtk type some stub definitions 2020-03-11 22:37:31 +05:30

using central functionality 2020-03-11 12:02:03 +05:30			`def __repr__(self):`
			`"""ASCII representation of the VTK data."""`
			`writer = vtk.vtkDataSetWriter()`
introduced f-strings 2020-06-24 21:35:12 +05:30			`writer.SetHeader(f'# DAMASK.VTK v{version}')`
using central functionality 2020-03-11 12:02:03 +05:30			`writer.WriteToOutputStringOn()`
			`writer.SetInputData(self.geom)`
			`writer.Write()`
			`return writer.GetOutputString()`
stub: show rendered geometry 2020-03-12 18:15:47 +05:30

			`def show(self):`
			`"""`
			`Render.`

			`See http://compilatrix.com/article/vtk-1 for further ideas.`
			`"""`
			`mapper = vtk.vtkDataSetMapper()`
			`mapper.SetInputData(self.geom)`
			`actor = vtk.vtkActor()`
			`actor.SetMapper(mapper)`

			`ren = vtk.vtkRenderer()`

advise from pylint 2020-03-22 21:33:28 +05:30			`window = vtk.vtkRenderWindow()`
			`window.AddRenderer(ren)`
stub: show rendered geometry 2020-03-12 18:15:47 +05:30
			`ren.AddActor(actor)`
			`ren.SetBackground(0.2,0.2,0.2)`
polishing 2020-03-13 00:22:33 +05:30
advise from pylint 2020-03-22 21:33:28 +05:30			`window.SetSize(Environment().screen_width,Environment().screen_height)`
stub: show rendered geometry 2020-03-12 18:15:47 +05:30
			`iren = vtk.vtkRenderWindowInteractor()`
advise from pylint 2020-03-22 21:33:28 +05:30			`iren.SetRenderWindow(window)`
stub: show rendered geometry 2020-03-12 18:15:47 +05:30
			`iren.Initialize()`
advise from pylint 2020-03-22 21:33:28 +05:30			`window.Render()`
stub: show rendered geometry 2020-03-12 18:15:47 +05:30			`iren.Start()`