import multiprocessing as mp 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 import damask from . import Table 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)) coord = [np_to_vtk(np.linspace(origin[i],origin[i]+size[i],grid[i]+1),deep=True) for i in [0,1,2]] [coord[i].SetName(n) for i,n in enumerate(['x','y','z'])] geom.SetXCoordinates(coord[0]) geom.SetYCoordinates(coord[1]) geom.SetZCoordinates(coord[2]) 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 or pathlib.Path 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(str(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(str(fname)) reader.Update() geom = reader.GetOutput() return VTK(geom) @staticmethod def _write(writer): """Wrapper for parallel writing.""" writer.Write() def write(self,fname,parallel=True): """ Write to file. Parameters ---------- fname : str or pathlib.Path Filename for writing. parallel : boolean, optional Write data in parallel background process. Defaults to True. """ 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) if parallel: mp_writer = mp.Process(target=self._write,args=(writer,)) mp_writer.start() else: 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): if label is None: raise ValueError('No label defined for numpy.ndarray') if data.dtype in [np.float64, np.float128]: # avoid large files d = np_to_vtk(num_array=data.astype(np.float32).reshape(data.shape[0],-1),deep=True) else: d = np_to_vtk(num_array=data.reshape(data.shape[0],-1),deep=True) 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) else: raise ValueError(f'Invalid shape {data.shape[0]}') 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{damask.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(damask.environment.screen_size[0],damask.environment.screen_size[1]) iren = vtk.vtkRenderWindowInteractor() iren.SetRenderWindow(window) iren.Initialize() window.Render() iren.Start()