How to use the pyvista.utilities.get_scalar function in pyvista
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pyvista / pyvista / pyvista / core / filters.py View on Github 
search for in the dataset. Must be either ``'point'`` or ``'cell'``
"""
# Make sure the input has scalars to contour on
if dataset.n_arrays < 1:
raise AssertionError('Input dataset for the contour filter must have scalar data.')
alg = vtk.vtkContourFilter()
alg.SetInputDataObject(dataset)
alg.SetComputeNormals(compute_normals)
alg.SetComputeGradients(compute_gradients)
alg.SetComputeScalars(compute_scalars)
# set the array to contour on
if scalars is None:
field, scalars = dataset.active_scalar_info
else:
_, field = get_scalar(dataset, scalars, preference=preference, info=True)
# NOTE: only point data is allowed? well cells works but seems buggy?
if field != pyvista.POINT_DATA_FIELD:
raise AssertionError('Contour filter only works on Point data. Array ({}) is in the Cell data.'.format(scalars))
alg.SetInputArrayToProcess(0, 0, 0, field, scalars) # args: (idx, port, connection, field, name)
# set the isosurfaces
if isinstance(isosurfaces, int):
# generate values
if rng is None:
rng = dataset.get_data_range(scalars)
alg.GenerateValues(isosurfaces, rng)
elif isinstance(isosurfaces, collections.Iterable):
alg.SetNumberOfContours(len(isosurfaces))
for i, val in enumerate(isosurfaces):
alg.SetValue(i, val)
else:
raise RuntimeError('isosurfaces not understood.')continue
# Get a good name to use
next_name = '{}-{}'.format(name, idx)
# Get the data object
if not is_pyvista_obj(mesh[idx]):
data = wrap(mesh.GetBlock(idx))
if not is_pyvista_obj(mesh[idx]):
continue # move on if we can't plot it
else:
data = mesh.GetBlock(idx)
if data is None or (not isinstance(data, pyvista.MultiBlock) and data.n_points < 1):
# Note that a block can exist but be None type
# or it could have zeros points (be empty) after filtering
continue
# Now check that scalars is available for this dataset
if isinstance(data, vtk.vtkMultiBlockDataSet) or get_scalar(data, scalars) is None:
ts = None
else:
ts = scalars
if multi_colors:
color = next(colors)['color']
a = self.add_mesh(data, color=color, style=style,
scalars=ts, rng=rng, stitle=stitle,
show_edges=show_edges,
point_size=point_size, opacity=opacity,
line_width=line_width,
flip_scalars=flip_scalars,
lighting=lighting, n_colors=n_colors,
interpolate_before_map=interpolate_before_map,
cmap=cmap, label=label,
scalar_bar_args=scalar_bar_args,
reset_camera=reset_camera, name=next_name,raise AssertionError('Input mesh does not have texture coordinates to support the texture.')
actor.SetTexture(texture)
# Set color to white by default when using a texture
if color is None:
color = 'white'
if scalars is None:
show_scalar_bar = False
self.mapper.SetScalarModeToUsePointFieldData()
# Handle making opacity array =========================================
_custom_opac = False
if isinstance(opacity, str):
try:
# Get array from mesh
opacity = get_scalar(mesh, opacity,
preference=kwargs.get('preference', 'cell'), err=True)
opacity = normalize(opacity)
_custom_opac = True
except:
# Or get opacity trasfer function
opacity = opacity_transfer_function(opacity, n_colors)
else:
if scalars.shape[0] != opacity.shape[0]:
raise RuntimeError('Opacity array and scalars array must have the same number of elements.')
elif isinstance(opacity, (np.ndarray, list, tuple)):
opacity = np.array(opacity)
if scalars.shape[0] == opacity.shape[0]:
# User could pass an array of opacities for every point/cell
pass
else:
opacity = opacity_transfer_function(opacity, n_colors)if mesh[idx] is None:
continue
# Get a good name to use
next_name = '{}-{}'.format(name, idx)
# Get the data object
if not is_pyvista_obj(mesh[idx]):
data = wrap(mesh.GetBlock(idx))
if not is_pyvista_obj(mesh[idx]):
continue # move on if we can't plot it
else:
data = mesh.GetBlock(idx)
if data is None:
# Note that a block can exist but be None type
continue
# Now check that scalars is available for this dataset
if isinstance(data, vtk.vtkMultiBlockDataSet) or get_scalar(data, scalars) is None:
ts = None
else:
ts = scalars
if multi_colors:
color = next(colors)['color']
a = self.add_mesh(data, color=color, style=style,
scalars=ts, rng=rng, stitle=stitle,
show_edges=show_edges,
point_size=point_size, opacity=opacity,
line_width=line_width,
flip_scalars=flip_scalars,
lighting=lighting, n_colors=n_colors,
interpolate_before_map=interpolate_before_map,
cmap=cmap, label=label,
scalar_bar_args=scalar_bar_args,
reset_camera=reset_camera, name=next_name,self.mapper = make_mapper(vtk.vtkDataSetMapper)
self.mapper.SetInputData(self.mesh)
self.mapper.GetLookupTable().SetNumberOfTableValues(n_colors)
if interpolate_before_map:
self.mapper.InterpolateScalarsBeforeMappingOn()
actor, prop = self.add_actor(self.mapper,
reset_camera=reset_camera,
name=name, loc=loc, culling=backface_culling)
# Make sure scalars is a numpy array after this point
original_scalar_name = None
if isinstance(scalars, str):
self.mapper.SetArrayName(scalars)
original_scalar_name = scalars
scalars = get_scalar(mesh, scalars,
preference=kwargs.get('preference', 'cell'), err=True)
if stitle is None:
stitle = original_scalar_name
if texture == True or isinstance(texture, (str, int)):
texture = mesh._activate_texture(texture)
if texture:
if isinstance(texture, np.ndarray):
texture = numpy_to_texture(texture)
if not isinstance(texture, (vtk.vtkTexture, vtk.vtkOpenGLTexture)):
raise TypeError('Invalid texture type ({})'.format(type(texture)))
if mesh.GetPointData().GetTCoords() is None:
raise AssertionError('Input mesh does not have texture coordinates to support the texture.')
actor.SetTexture(texture)Default is False: yielding above the threshold "value".
continuous : bool, optional
When True, the continuous interval [minimum cell scalar,
maxmimum cell scalar] will be used to intersect the threshold bound,
rather than the set of discrete scalar values from the vertices.
preference : str, optional
When scalars is specified, this is the perfered scalar type to
search for in the dataset. Must be either ``'point'`` or ``'cell'``
"""
# set the scalaras to threshold on
if scalars is None:
field, scalars = dataset.active_scalar_info
arr, field = get_scalar(dataset, scalars, preference=preference, info=True)
if arr is None:
raise AssertionError('No arrays present to threshold.')
# If using an inverted range, merge the result of two fitlers:
if isinstance(value, collections.Iterable) and invert:
valid_range = [np.nanmin(arr), np.nanmax(arr)]
# Create two thresholds
t1 = dataset.threshold([valid_range[0], value[0]], scalars=scalars,
continuous=continuous, preference=preference, invert=False)
t2 = dataset.threshold([value[1], valid_range[1]], scalars=scalars,
continuous=continuous, preference=preference, invert=False)
# Use an AppendFilter to merge the two results
appender = vtk.vtkAppendFilter()
appender.AddInputData(t1)
appender.AddInputData(t2)"""
if mesh is None:
mesh = self.mesh
if isinstance(mesh, (collections.Iterable, pyvista.MultiBlock)):
# Recursive if need to update scalars on many meshes
for m in mesh:
self.update_scalars(scalars, mesh=m, render=False)
if render:
self.ren_win.Render()
return
if isinstance(scalars, str):
# Grab scalar array if name given
scalars = get_scalar(mesh, scalars)
if scalars is None:
if render:
self.ren_win.Render()
return
if scalars.shape[0] == mesh.GetNumberOfPoints():
data = mesh.GetPointData()
elif scalars.shape[0] == mesh.GetNumberOfCells():
data = mesh.GetCellData()
else:
raise_not_matching(scalars, mesh)
vtk_scalars = data.GetScalars()
if vtk_scalars is None:
raise Exception('No active scalars')
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