DAMASK_EICMD/python/tests/test_VTK.py

197 lines
7.9 KiB
Python

import os
import filecmp
import time
import pytest
import numpy as np
import numpy.ma as ma
import vtk
from damask import VTK
from damask import grid_filters
@pytest.fixture
def ref_path(ref_path_base):
"""Directory containing reference results."""
return ref_path_base/'VTK'
@pytest.fixture
def default():
"""Simple VTK."""
cells = np.array([5,6,7],int)
size = np.array([.6,1.,.5])
return VTK.from_image_data(cells,size)
class TestVTK:
@pytest.fixture(autouse=True)
def _patch_execution_stamp(self, patch_execution_stamp):
print('patched damask.util.execution_stamp')
def test_show(sef,default,monkeypatch):
monkeypatch.delenv('DISPLAY',raising=False)
default.show()
def test_rectilinearGrid(self,tmp_path):
cells = np.random.randint(5,10,3)*2
size = np.random.random(3) + 1.0
origin = np.random.random(3)
v = VTK.from_rectilinear_grid(cells,size,origin)
string = v.__repr__()
v.save(tmp_path/'rectilinearGrid',False)
vtr = VTK.load(tmp_path/'rectilinearGrid.vtr')
with open(tmp_path/'rectilinearGrid.vtk','w') as f:
f.write(string)
vtk = VTK.load(tmp_path/'rectilinearGrid.vtk','VTK_rectilinearGrid')
assert(string == vtr.__repr__() == vtk.__repr__())
def test_polyData(self,tmp_path):
points = np.random.rand(100,3)
v = VTK.from_poly_data(points)
string = v.__repr__()
v.save(tmp_path/'polyData',False)
vtp = VTK.load(tmp_path/'polyData.vtp')
with open(tmp_path/'polyData.vtk','w') as f:
f.write(string)
vtk = VTK.load(tmp_path/'polyData.vtk','polyData')
assert(string == vtp.__repr__() == vtk.__repr__())
@pytest.mark.parametrize('cell_type,n',[
('VTK_hexahedron',8),
('TETRA',4),
('quad',4),
('VTK_TRIANGLE',3)
]
)
def test_unstructuredGrid(self,tmp_path,cell_type,n):
nodes = np.random.rand(n,3)
connectivity = np.random.choice(np.arange(n),n,False).reshape(-1,n)
v = VTK.from_unstructured_grid(nodes,connectivity,cell_type)
string = v.__repr__()
v.save(tmp_path/'unstructuredGrid',False)
vtu = VTK.load(tmp_path/'unstructuredGrid.vtu')
with open(tmp_path/'unstructuredGrid.vtk','w') as f:
f.write(string)
vtk = VTK.load(tmp_path/'unstructuredGrid.vtk','unstructuredgrid')
assert(string == vtu.__repr__() == vtk.__repr__())
def test_parallel_out(self,tmp_path):
points = np.random.rand(102,3)
v = VTK.from_poly_data(points)
fname_s = tmp_path/'single.vtp'
fname_p = tmp_path/'parallel.vtp'
v.save(fname_s,False)
v.save(fname_p,True)
for i in range(10):
if os.path.isfile(fname_p) and filecmp.cmp(fname_s,fname_p):
assert(True)
return
time.sleep(.5)
assert(False)
def test_compress(self,tmp_path):
points = np.random.rand(102,3)
v = VTK.from_poly_data(points)
fname_c = tmp_path/'compressed.vtp'
fname_p = tmp_path/'plain.vtp'
v.save(fname_c,parallel=False,compress=False)
v.save(fname_p,parallel=False,compress=True)
assert(VTK.load(fname_c).__repr__() == VTK.load(fname_p).__repr__())
@pytest.mark.parametrize('fname',['a','a.vtp','a.b','a.b.vtp'])
def test_filename_variations(self,tmp_path,fname):
points = np.random.rand(102,3)
v = VTK.from_poly_data(points)
v.save(tmp_path/fname)
@pytest.mark.parametrize('fname,dataset_type',[('a_file.vtk', None),
('a_file.vtk','vtk'),
('a_file.vtx', None)])
def test_invalid_dataset_type(self,tmp_path,fname,dataset_type):
open(tmp_path/fname,'a').close()
with pytest.raises(TypeError):
VTK.load(tmp_path/fname,dataset_type)
def test_file_not_found(self):
with pytest.raises(FileNotFoundError):
VTK.load('/dev/null')
def test_add_extension(self,tmp_path,default):
default.save(tmp_path/'default.txt',parallel=False)
assert os.path.isfile(tmp_path/'default.txt.vti')
def test_invalid_get(self,default):
with pytest.raises(ValueError):
default.get('does_not_exist')
def test_invalid_add_shape(self,default):
with pytest.raises(ValueError):
default.add(np.ones(3),'valid')
def test_invalid_add_missing_label(self,default):
data = np.random.randint(9,size=np.prod(np.array(default.vtk_data.GetDimensions())-1))
with pytest.raises(ValueError):
default.add(data)
def test_invalid_add_type(self,default):
with pytest.raises(TypeError):
default.add('invalid_type','valid')
@pytest.mark.parametrize('data_type,shape',[(float,(3,)),
(float,(3,3)),
(float,(1,)),
(int,(4,)),
(str,(1,))])
@pytest.mark.parametrize('N_values',[5*6*7,6*7*8])
def test_add_get(self,default,data_type,shape,N_values):
data = np.squeeze(np.random.randint(0,100,(N_values,)+shape)).astype(data_type)
default.add(data,'data')
assert (np.squeeze(data.reshape(N_values,-1)) == default.get('data')).all()
def test_add_masked(self,default):
data = np.random.rand(5*6*7,3)
masked = ma.MaskedArray(data,mask=data<.4,fill_value=42.)
default.add(masked,'D')
result_masked = str(default)
default.add(np.where(masked.mask,masked.fill_value,masked),'D')
assert result_masked == str(default)
def test_comments(self,tmp_path,default):
default.add_comments(['this is a comment'])
default.save(tmp_path/'with_comments',parallel=False)
new = VTK.load(tmp_path/'with_comments.vti')
assert new.get_comments() == ['this is a comment']
@pytest.mark.xfail(int(vtk.vtkVersion.GetVTKVersion().split('.')[0])<8, reason='missing METADATA')
def test_compare_reference_polyData(self,update,ref_path,tmp_path):
points=np.dstack((np.linspace(0.,1.,10),np.linspace(0.,2.,10),np.linspace(-1.,1.,10))).squeeze()
polyData = VTK.from_poly_data(points)
polyData.add(points,'coordinates')
if update:
polyData.save(ref_path/'polyData') # noqa
else:
reference = VTK.load(ref_path/'polyData.vtp') # noqa
assert polyData.__repr__() == reference.__repr__() and \
np.allclose(polyData.get('coordinates'),points)
@pytest.mark.xfail(int(vtk.vtkVersion.GetVTKVersion().split('.')[0])<8, reason='missing METADATA')
def test_compare_reference_rectilinearGrid(self,update,ref_path,tmp_path):
cells = np.array([5,6,7],int)
size = np.array([.6,1.,.5])
rectilinearGrid = VTK.from_rectilinear_grid(cells,size)
c = grid_filters.coordinates0_point(cells,size).reshape(-1,3,order='F')
n = grid_filters.coordinates0_node(cells,size).reshape(-1,3,order='F')
rectilinearGrid.add(np.ascontiguousarray(c),'cell')
rectilinearGrid.add(np.ascontiguousarray(n),'node')
if update:
rectilinearGrid.save(ref_path/'rectilinearGrid') # noqa
else:
reference = VTK.load(ref_path/'rectilinearGrid.vtr') # noqa
assert rectilinearGrid.__repr__() == reference.__repr__() and \
np.allclose(rectilinearGrid.get('cell'),c)